Deprecated: The each() function is deprecated. This message will be suppressed on further calls in /home/zhenxiangba/zhenxiangba.com/public_html/phproxy-improved-master/index.php on line 456
JP6908268B2 - Connecting member and connecting structure of member - Google Patents
[go: Go Back, main page]

JP6908268B2 - Connecting member and connecting structure of member - Google Patents

Connecting member and connecting structure of member Download PDF

Info

Publication number
JP6908268B2
JP6908268B2 JP2017110505A JP2017110505A JP6908268B2 JP 6908268 B2 JP6908268 B2 JP 6908268B2 JP 2017110505 A JP2017110505 A JP 2017110505A JP 2017110505 A JP2017110505 A JP 2017110505A JP 6908268 B2 JP6908268 B2 JP 6908268B2
Authority
JP
Japan
Prior art keywords
magnet
moving body
moving
panel
holding portion
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
JP2017110505A
Other languages
Japanese (ja)
Other versions
JP2018204299A (en
Inventor
直行 篠田
直行 篠田
恵一 峰岸
恵一 峰岸
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sofken Co Ltd
Original Assignee
Sofken Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sofken Co Ltd filed Critical Sofken Co Ltd
Priority to JP2017110505A priority Critical patent/JP6908268B2/en
Publication of JP2018204299A publication Critical patent/JP2018204299A/en
Application granted granted Critical
Publication of JP6908268B2 publication Critical patent/JP6908268B2/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Extensible Doors And Revolving Doors (AREA)

Description

本発明は、連結して使用されるパネル、パーテーション、間仕切りカーテン、間仕切りシート等の連結用部材及び部材の連結構造に関するものである。 The present invention relates to connecting members such as panels, partitions, partition curtains, partition sheets, etc. used in connection with each other, and a connecting structure of the members.

展示会場、居室、会議室、宴会場等においては、空間を仕切る手段としてパネル、パーテーション、間仕切りカーテン、間仕切りシート等が使用されるが、その場合、仕切る空間の長さに対応して複数のパネル等の連結用部材を連結したものが使用されることが多く、複数の複数の連結用部材を連結する手段として、磁石が使用されことも多い。
例えば、特開2016−108895号公報(特許文献1)には、隣接するパネルを連結支柱によって相互に連結するようにしたパネルの連結構造であって、第1のパネルの側方端縁に磁石板を取付け、第2のパネルの側方端縁に係止具を設け、連結支柱の前半部の側方端縁には磁石板を固定し、連結支柱の後半部の多角形の各側面に長溝を形成し、第1のパネルの側方端縁の磁石板と連結支柱前半部の磁石板とを磁着させ、第2のパネルの係止具を連結支柱後半部のいずれかの長溝に嵌入させることによって、第1、第2のパネルを相互に所望の角度をなして連結する連結構造が開示されている。
また、特開2009−131589号公報(特許文献2)には、一方の間仕切りシートに取り付けられた一方の棒状部材の長手方向に形成された装着凹部には、その幅方向にN極及びS極を隣接させて第1の軟質マグネット部材を装着し、他方の間仕切りシートに取り付けられた他方の棒状部材の長手方向に形成された装着凹部には、第1の軟質マグネット部材の磁極に対して反対の磁極を向けて第2の軟質マグネット部材を装着し、一方の棒状部材に他方の棒状部材を吸着させ、一方の間仕切りシートと他方の間仕切りシートを閉じるようにした間仕切りユニットが開示されている。
In exhibition halls, living rooms, conference rooms, banquet halls, etc., panels, partitions, partition curtains, partition sheets, etc. are used as means for partitioning the space. In that case, a plurality of panels correspond to the length of the partitioning space. In many cases, a connecting member such as a magnet is used, and a magnet is often used as a means for connecting a plurality of connecting members.
For example, Japanese Patent Application Laid-Open No. 2016-108895 (Patent Document 1) has a panel connecting structure in which adjacent panels are connected to each other by connecting columns, and a magnet is attached to the side edge of the first panel. A plate is attached, a locking tool is provided on the side edge of the second panel, a magnet plate is fixed to the side edge of the front half of the connecting strut, and on each side of the polygon in the second half of the connecting strut. A long groove is formed, the magnet plate on the side edge of the first panel and the magnet plate on the front half of the connecting strut are magnetized, and the locking tool of the second panel is placed on any of the long grooves on the latter half of the connecting strut. A connecting structure is disclosed in which the first and second panels are connected to each other at a desired angle by fitting.
Further, in Japanese Patent Application Laid-Open No. 2009-131589 (Patent Document 2), the mounting recesses formed in the longitudinal direction of one rod-shaped member attached to one partition sheet have north and south poles in the width direction thereof. The first soft magnet member is mounted adjacent to the first soft magnet member, and the mounting recess formed in the longitudinal direction of the other rod-shaped member mounted on the other partition sheet is opposite to the magnetic pole of the first soft magnet member. A partition unit is disclosed in which a second soft magnet member is mounted with the magnetic poles of the magnets directed to each other, the other rod-shaped member is attracted to one rod-shaped member, and one partition sheet and the other partition sheet are closed.

しかしながら、特許文献1の連結構造においては、第1のパネルの側方端縁に取り付けた磁石板と連結支柱の前半部の側方端縁に固定した磁石板とを磁着させるため、第1のパネル側の磁石板と連結支柱側の磁石板の対向する部分を反対の磁極にする必要があり、磁石板の取付けが制限されるという問題がある。
また、特許文献2の間仕切りユニットにおいては、N極とS極を隣接させた第1の軟質マグネット部材と、それと反対の磁極を隣接させた第2の軟質マグネット部材を吸着させるため、第1の軟質マグネット部材と第2の軟質マグネット部材の同極部分が反発して、両部材の吸着力を弱め、隣接する間仕切りシートを強固に連結できないという問題がある。
特に、パネル(間仕切りシート)の側方端縁に磁石を取り付け、隣接するパネル(間仕切りシート)の側方端縁にも磁石を取り付け、両パネルを連結する場合、特許文献1や特許文献2のように磁石同士を磁着させて連結する場合、同極の磁石や磁極の組合せが同じ磁石が取り付けられたパネル同士は磁着しないために連結できず、連結できるパネルが制限されるという問題がある。
However, in the connection structure of Patent Document 1, in order to magnetically attach the magnet plate attached to the side end edge of the first panel and the magnet plate fixed to the side end edge of the front half of the connection column, the first It is necessary to make the opposite portions of the magnet plate on the panel side and the magnet plate on the connecting column side opposite magnetic poles, which causes a problem that the attachment of the magnet plate is restricted.
Further, in the partition unit of Patent Document 2, in order to attract the first soft magnet member having the N pole and the S pole adjacent to each other and the second soft magnet member having the opposite magnetic poles adjacent to each other, the first soft magnet member is attracted. There is a problem that the isopolar portions of the soft magnet member and the second soft magnet member repel each other, weaken the attractive force of both members, and cannot firmly connect the adjacent partition sheets.
In particular, when a magnet is attached to the side edge of the panel (partition sheet), a magnet is attached to the side edge of the adjacent panel (partition sheet), and both panels are connected, Patent Document 1 and Patent Document 2 When magnets are magnetized and connected in this way, there is a problem that panels with magnets of the same pole or magnets with the same combination of magnetic poles cannot be connected because they are not magnetized, and the panels that can be connected are limited. be.

特開2016−108895号公報Japanese Unexamined Patent Publication No. 2016-108895 特開2009−131589号公報Japanese Unexamined Patent Publication No. 2009-131589

本発明が解決しようとする課題は、連結用部材と被連結用部材を磁石の吸着力によって連結するに際し、連結用部材と被連結用部材に取り付けられた磁石の磁極の組合せに拘束されることなく、連結用部材と被連結用部材を強固に連結できるようにすることである。 The problem to be solved by the present invention is that when the connecting member and the connected member are connected by the attractive force of the magnet, the connection member and the magnetic poles of the magnet attached to the connected member are constrained. Instead, it is possible to firmly connect the connecting member and the connected member.

請求項1に記載の発明は、被連結用部材と連結される連結用部材であって、部材本体と、前記連結用部材側の磁石と、前記部材本体に取り付けられて前記連結用部材側の磁石を保持する保持手段を備え、前記保持手段には、前記連結用部材側の磁石の位置を前記被連結用部材側の磁石と対向する第1の位置から前記被連結用部材側の磁石と対向しない第2の位置に変更する位置変更手段と、前記被連結用部材側の磁石を前記第2の位置で吸着する磁石でない吸着手段が設けられている連結用部材を提供して、上記課題を解決するものである。 The invention according to claim 1 is a connecting member to be connected to the member to be connected, wherein the member main body, the magnet on the connecting member side, and the connecting member side attached to the member main body. The holding means is provided with a holding means for holding the magnet, and the holding means is arranged so that the position of the magnet on the connecting member side is changed from the first position facing the magnet on the connecting member side to the magnet on the connecting member side. and position changing means for changing a second position not opposed, the providing connecting members that suction means not magnet to adsorb the connecting member side of the magnet in the second position is provided, the problems Is the solution.

請求項2に記載の発明は、前記位置変更手段は、前記連結用部材側の磁石が固定された移動体と、該移動体を一定方向に移動させる案内部と、該移動体の移動範囲を制限する移動範囲制限部を備え、当該移動体は前記吸着手段となる連結用部材を提供して、上記課題を解決するものである。 According to the second aspect of the present invention, the position changing means has a moving body to which a magnet on the connecting member side is fixed, a guide portion for moving the moving body in a certain direction, and a moving range of the moving body. The moving body is provided with a moving range limiting portion for limiting, and the moving body provides a connecting member serving as the suction means to solve the above-mentioned problems.

請求項3に記載の発明は、前記移動体は強磁性体であり、前記案内部は強磁性体でない連結用部材を提供して、上記課題を解決するものである。 The invention according to claim 3 solves the above-mentioned problems by providing a connecting member in which the moving body is a ferromagnet and the guide portion is not a ferromagnet.

請求項4に記載の発明は、前記位置変更手段は、前記連結用部材側の磁石と前記被連結用部材側の磁石が反発することにより前記移動体を移動させ、前記連結用部材側の磁石の位置を前記第1の位置から前記第2の位置に変更する反発移動手段である連結用部材を提供して、上記課題を解決するものである。 According to the fourth aspect of the present invention, the position changing means moves the moving body by repelling the magnet on the connecting member side and the magnet on the connecting member side, and the magnet on the connecting member side. The present problem is solved by providing a connecting member which is a repulsive moving means for changing the position of the above position from the first position to the second position.

請求項5に記載の発明は、前記位置変更手段は、前記連結用部材側の磁石が前記第1の位置から前記第2の位置にくるように前記移動体の位置を切り替える位置切替手段である連結用部材を提供して、上記課題を解決するものである。 According to a fifth aspect of the present invention, the position changing means is a position switching means for switching the position of the moving body so that the magnet on the connecting member side comes from the first position to the second position. The above-mentioned problems are solved by providing a connecting member.

請求項6に記載の発明は、前記連結用部材は、連結用パネル、連結用パーテーション、連結用間仕切りカーテン、連結用間仕切りシートのいずれかである連結用部材を提供して、上記課題を解決するものである。 The invention according to claim 6 solves the above-mentioned problem by providing the connecting member which is any one of a connecting panel, a connecting partition, a connecting partition curtain, and a connecting partition sheet. It is a thing.

請求項7に記載の発明は、第1の部材と第2の部材を連結する部材の連結構造であって、前記第1の部材の本体に取り付けられて第1の磁石を保持する第1の保持手段と、前記第2の部材の本体に取り付けられて第2の磁石を保持する第2の保持手段とを備え、前記第1の保持手段には、前記第1の磁石の位置を前記第2の磁石と対向する位置から前記第2の磁石と対向しない位置に変更する第1の位置変更手段及び前記第2の磁石を吸着する第1の吸着手段が設けられ、前記第2の保持手段には、前記第2の磁石の位置を前記第1の磁石と対向する位置から前記第1の磁石と対向しない位置に変更する第2の位置変更手段及び前記第1の磁石を吸着する第2の吸着手段が設けられている部材の連結構造を提供して、上記課題を解決するものである。 The invention according to claim 7 is a first member having a connecting structure for connecting a first member and a second member, and is attached to a main body of the first member to hold a first magnet. A holding means and a second holding means attached to the main body of the second member to hold the second magnet are provided, and the first holding means is provided with the position of the first magnet. A first position changing means for changing from a position facing the second magnet to a position not facing the second magnet and a first attracting means for attracting the second magnet are provided, and the second holding means is provided. A second position changing means for changing the position of the second magnet from a position facing the first magnet to a position not facing the first magnet, and a second for attracting the first magnet. The above-mentioned problems are solved by providing a connecting structure of members provided with the suction means of the above.

請求項8に記載の発明は、前記第1の位置変更手段は、前記第1の磁石が固定された第1の移動体と、該第1の移動体を一定方向に移動させる第1の案内部と、該第1の移動体の移動範囲を制限する第1の移動範囲制限部を備え、前記第2の位置変更手段は、前記第2の磁石が固定された第2の移動体と、該第2の移動体を一定方向に移動させる第2の案内部と、該第2の移動体の移動範囲を制限する第2の移動範囲制限部を備え、前記第1の移動体は前記第1の吸着手段となり、前記第2の移動体は前記第2の吸着手段となる部材の連結構造を提供して、上記課題を解決するものである。
According to the eighth aspect of the present invention, the first position changing means uses the first moving body to which the first magnet is fixed and the first guide for moving the first moving body in a certain direction. The second moving body is provided with a portion and a first moving range limiting portion that limits the moving range of the first moving body, and the second position changing means includes a second moving body to which the second magnet is fixed. The first moving body includes a second guide unit for moving the second moving body in a certain direction and a second moving range limiting part for limiting the moving range of the second moving body. The second moving body provides a connecting structure of members serving as the second suction means, and solves the above-mentioned problems.

請求項9に記載の発明は、前記第1の移動体及び前記第2の移動体は強磁性体であり、前記第1の案内部及び前記第2の案内部は強磁性体でない部材の連結構造を提供して、上記課題を解決するものである。 In the invention according to claim 9, the first moving body and the second moving body are ferromagnetic materials, and the first guide portion and the second guide portion are connected members that are not ferromagnetic materials. It provides a structure to solve the above problems.

請求項10に記載の発明は、前記第1の位置変更手段は、前記第1の磁石と前記第2の磁石が反発することにより前記第1の移動体を移動させ、前記第1の磁石の位置を前記第2の磁石と対向する位置から前記第2の磁石と対向しない位置に変更する第1の反発移動手段であり、前記第2の位置変更手段は、前記第1の磁石と前記第2の磁石が反発することにより前記第2の移動体を移動させ、前記第2の磁石の位置を前記第1の磁石と対向する位置から前記第1の磁石と対向しない位置に変更する第2の反発移動手段である部材の連結構造を提供して、上記課題を解決するものである。 According to the tenth aspect of the present invention, the first position changing means moves the first moving body by repelling the first magnet and the second magnet, and the first magnet of the first magnet. It is a first repulsive moving means for changing a position from a position facing the second magnet to a position not facing the second magnet, and the second position changing means is the first magnet and the first magnet. The second moving body is moved by the repulsion of the second magnet, and the position of the second magnet is changed from a position facing the first magnet to a position not facing the first magnet. The above-mentioned problem is solved by providing a connecting structure of members which is a repulsive moving means of the above.

請求項11に記載の発明は、前記第1の位置変更手段は、前記第1の磁石が前記第2の磁石と対向する位置から前記第2の磁石と対向しない位置にくるように前記第1の移動体の位置を切り替える第1の位置切替手段であり、前記第2の位置変更手段は、前記第2の磁石が前記第1の磁石と対向する位置から前記第1の磁石と対向しない位置にくるように前記第2の移動体の位置を切り替える第2の位置切替手段である部材の連結構造を提供して、上記課題を解決するものである。 In the invention according to claim 11, the first position changing means is such that the first magnet comes from a position facing the second magnet to a position not facing the second magnet. It is a first position switching means for switching the position of the moving body, and the second position changing means is a position where the second magnet faces the first magnet and does not face the first magnet. The above-mentioned problem is solved by providing a connecting structure of a member which is a second position switching means for switching the position of the second moving body so as to come to.

請求項12に記載の発明は、前記部材は、パネル、パーテーション、間仕切りカーテン、間仕切りシートのいずれかである部材の連結構造を提供して、上記課題を解決するものである。 The invention according to claim 12 solves the above-mentioned problem by providing a connecting structure of a member which is any one of a panel, a partition, a partition curtain, and a partition sheet.

請求項1に記載の発明の連結用部材においては、連結用部材に取り付けられた保持手段に保持された連結用部材側の磁石の位置が、被連結側の磁石と対向する第1の位置から被連結側の磁石と対向しない第2の位置に変更され、被連結用部材側の磁石が前記保持手段に設けられた吸着手段に吸着し、磁石同士が吸着しないため、連結用部材側の磁石と被連結側の磁石の磁極の組合せに拘束されることなく、連結用部材と被連結用部材を強固に連結できるという効果を奏する。 In the connecting member of the invention according to claim 1, the position of the magnet on the connecting member side held by the holding means attached to the connecting member is from the first position facing the magnet on the connected side. The magnet is changed to a second position that does not face the magnet on the connected side, and the magnet on the member to be connected is attracted to the attracting means provided in the holding means, and the magnets do not attract each other. The effect is that the connecting member and the connected member can be firmly connected without being restricted by the combination of the magnetic poles of the magnet on the connected side.

請求項2に記載の発明の連結用部材においては、連結用部材側おいて磁石が固定された移動体が案内部に沿って移動し、その移動範囲が制限され、当該移動体は前記吸着手段であるため、さらに、容易かつ確実に連結用部材側の磁石の位置を第1の位置から第2の位置に変更して、被連結用部材側の磁石を吸着できるという効果を奏する。 In the connecting member of the invention according to claim 2, the moving body to which the magnet is fixed moves along the guide portion on the connecting member side, the moving range is limited, and the moving body is the suction means. Therefore, the position of the magnet on the connecting member side can be easily and surely changed from the first position to the second position, and the magnet on the connecting member side can be attracted.

請求項3に記載の発明の連結用部材においては、前記移動体は強磁性体であるため、さらに、被連結用部材側の磁石を強く吸着することができ、前記案内部は強磁性体でないため、さらに、前記移動体を容易に移動できるという効果を奏する。 In the connecting member of the invention according to claim 3, since the moving body is a ferromagnet, the magnet on the side of the member to be connected can be strongly attracted, and the guide portion is not a ferromagnet. Therefore, the effect that the moving body can be easily moved is further obtained.

請求項4に記載の発明の連結用部材においては、前記連結部材側の磁石と前記被連結側の磁石が反発することにより前記移動体が移動するため、さらに、簡易な手段で前記連結部材側の磁石の位置を前記第1の位置から前記第2の位置に自動的に変更できるという効果を奏する。 In the connecting member of the invention according to claim 4, since the moving body moves due to the repulsion between the magnet on the connecting member side and the magnet on the connected side, the connecting member side is further simpled. The effect is that the position of the magnet can be automatically changed from the first position to the second position.

請求項5に記載の発明の連結用部材においては、前記連結部材側の磁石が前記第1の位置から前記第2の位置にくるように前記移動体の位置が切り替えられるため、さらに、前記連結部材側の磁石の位置を前記第1の位置から前記第2の位置に確実に変更できるという効果を奏する。 In the connecting member of the invention according to claim 5, since the position of the moving body is switched so that the magnet on the connecting member side comes from the first position to the second position, the connecting member is further connected. The effect is that the position of the magnet on the member side can be reliably changed from the first position to the second position.

請求項6に記載の発明の連結用部材においては、連結用パネル同士、連結用パーテーション同士、連結用間仕切りカーテン同士、連結用間仕切りシート同士のいずれかを強固に連結できるという効果を奏する。 The connecting member of the invention according to claim 6 has an effect that any of the connecting panels, the connecting partitions, the connecting partition curtains, and the connecting partition sheets can be firmly connected to each other.

請求項7に記載の発明の部材の連結構造においては、第1の部材に取り付けられた第1の保持手段に保持された第1の磁石の位置が、第2の部材に取り付けられた第2の保持手段に保持された第2の磁石と対向する位置から前記第2の磁石と対向しない位置に変更されて、前記第2の磁石が前記第1保持手段に設けられた第1の吸着手段に吸着し、前記第2の磁石の位置が、前記第1の磁石と対向する位置から前記第1の磁石と対向しない位置に変更されて、前記第1の磁石が前記第2保持手段に設けられた第2の吸着手段に吸着し、前記第1の磁石と前記第2の磁石が吸着しないため、前記第1の磁石と前記第2の磁石の磁極の組合せに拘束されることなく、第1の部材と第2の部材を強固に連結できるという効果を奏する。 In the connecting structure of the members of the invention according to claim 7, the position of the first magnet held by the first holding means attached to the first member is the position of the second magnet attached to the second member. The position facing the second magnet held by the holding means is changed to a position not facing the second magnet, and the second magnet is provided in the first holding means. The position of the second magnet is changed from a position facing the first magnet to a position not facing the first magnet, and the first magnet is provided in the second holding means. Since it is attracted to the second attracting means and the first magnet and the second magnet are not attracted, the first magnet is not restricted by the combination of the magnetic poles of the first magnet and the second magnet. It has the effect of being able to firmly connect the first member and the second member.

請求項8に記載の発明の部材の連結構造においては、第1の部材側おいて第1の磁石が固定された第1の移動体が第1の案内部に沿って移動し、その移動範囲が第1の移動範囲制限部によって制限され、第2の部材側おいて第2の磁石が固定された第2の移動体が第2の案内部に沿って移動し、その移動範囲が第2の移動範囲制限部によって制限され、前記第1の移動体は前記第1の吸着手段であり、前記第2の移動体は前記第2の吸着手段であるため、さらに、容易かつ確実に、前記第1の磁石の位置を前記第2の磁石と対向する位置から前記第2の磁石と対向しない位置に変更し、第2の磁石の位置を前記第1の磁石と対向する位置から前記第1の磁石と対向しない位置に変更して、前記第1の磁石と前記第2の磁石を吸着できるという効果を奏する。 In the connecting structure of the members of the invention according to claim 8, the first moving body to which the first magnet is fixed on the first member side moves along the first guide portion, and the moving range thereof. Is restricted by the first movement range limiting portion, and the second moving body to which the second magnet is fixed on the second member side moves along the second guide portion, and the moving range is the second. Since the first moving body is the first suction means and the second moving body is the second suction means, the first moving body is further easily and surely said. The position of the first magnet is changed from the position facing the second magnet to the position not facing the second magnet, and the position of the second magnet is changed from the position facing the first magnet to the first position. The effect is that the first magnet and the second magnet can be attracted by changing the position so as not to face the magnet.

請求項9に記載の発明の部材の連結構造においては、前記第1の移動体及び前記第2の移動体は強磁性体であるため、さらに、前記第1の磁石と前記第2の磁石を強く吸着することができ、前記第1の案内部及び前記第2の案内部は強磁性体でないため、さらに、、前記第1の移動体及び前記第2の移動体を容易に移動できるという効果を奏する。 In the connecting structure of the members of the invention according to claim 9, since the first moving body and the second moving body are ferromagnets, the first magnet and the second magnet are further attached. Since the first guide portion and the second guide portion are not ferromagnets, the first moving body and the second moving body can be easily moved. Play.

請求項10に記載の発明の部材の連結構造においては、さらに、前記第1の磁石と前記第2の磁石が反発することにより、前記第1の移動体及び/又は前記第2の移動体が移動するため、さらに、簡易な手段で前記第1の磁石の位置と前記第2の磁石の位置を互いに対向する位置から対向しない位置に自動的に変更できるという効果を奏する。 In the connecting structure of the members of the invention according to claim 10, further, the first magnet and the second magnet repel each other, so that the first moving body and / or the second moving body is formed. Further, since it moves, it has an effect that the position of the first magnet and the position of the second magnet can be automatically changed from the positions facing each other to the positions not facing each other by a simple means.

請求項11に記載の発明の部材の連結構造においては、前記連第1の磁石が前記第2の磁石と対向する位置から前記第2の磁石と対向しない位置にくるように前記第1の移動体の位置が切り替えられ、前記連第2の磁石が前記第1の磁石と対向する位置から前記第1の磁石と対向しない位置にくるように前記第2の移動体の位置が切り替えられるため、さらに、前記第1の磁石の位置と前記第2の磁石の位置を互いに対向する位置から対向しない位置に確実に変更できるという効果を奏する。 In the connecting structure of the members of the invention according to claim 11, the first movement is performed so that the first magnet in the series moves from a position facing the second magnet to a position not facing the second magnet. The position of the body is switched, and the position of the second moving body is switched so that the second magnet of the series comes from a position facing the first magnet to a position not facing the first magnet. Further, there is an effect that the position of the first magnet and the position of the second magnet can be reliably changed from the positions facing each other to the positions not facing each other.

請求項12に記載の発明の部材の連結構造においては、連結用パネル同士、連結用パーテーション同士、連結用間仕切りカーテン同士、連結用間仕切りシート同士のいずれかを強固に連結できるという効果を奏する。 In the connecting structure of the members of the invention according to claim 12, it is possible to firmly connect any of the connecting panels, the connecting partitions, the connecting partition curtains, and the connecting partition sheets.

本発明の連結用部材(第1の部材)となる第1パネルと、本発明の被連結用部材(第2の部材)となる第2パネルを左右方向に並べて離して配置した状態の斜視図である。Perspective view of a state in which a first panel serving as a connecting member (first member) of the present invention and a second panel serving as a connecting member (second member) of the present invention are arranged side by side in the left-right direction and separated from each other. Is. 図1の第1パネルと第2パネルの平面図である。It is a top view of the 1st panel and the 2nd panel of FIG. 図2のX−X断面図(縦断面図)である。FIG. 2 is a cross-sectional view (longitudinal cross-sectional view) of XX of FIG. 図1に示す第1パネルの保持部10の拡大分解斜視図である。It is an enlarged exploded perspective view of the holding part 10 of the 1st panel shown in FIG. 移動範囲制限部(第1の移動範囲制限部)として凸起を設けた保持部の拡大分解斜視図である。FIG. 5 is an enlarged exploded perspective view of a holding portion provided with a protrusion as a movement range limiting portion (first movement range limiting portion). 位置切替手段が設けられた保持部の斜視図である。It is a perspective view of the holding part provided with the position switching means. ピン16をピン穴11f、11gに差し込んだ状態の保持部10Bの斜視図である。It is a perspective view of the holding part 10B in a state where a pin 16 is inserted into a pin hole 11f, 11g. 第1パネル1と第2パネル2の連結動作の一例を説明するための保持部10(第1パネル1)の移動体12と保持部30(第2パネル2)の移動体32の周辺の拡大縦断面図である。Enlargement of the periphery of the moving body 12 of the holding portion 10 (first panel 1) and the moving body 32 of the holding portion 30 (second panel 2) for explaining an example of the connection operation between the first panel 1 and the second panel 2. It is a vertical sectional view. 第1パネル1と第2パネル2の連結動作の他の例を説明するための保持部10(第1パネル1)の移動体12と保持部30(第2パネル2)の移動体32の周辺の拡大縦断面図である。Around the moving body 12 of the holding portion 10 (first panel 1) and the moving body 32 of the holding portion 30 (second panel 2) for explaining another example of the connection operation between the first panel 1 and the second panel 2. It is an enlarged vertical sectional view of. 保持部20と保持部40が対向するように第1パネル1と第2パネル2を配置した状態の縦断面図である。It is a vertical cross-sectional view of the state where the 1st panel 1 and the 2nd panel 2 are arranged so that the holding part 20 and the holding part 40 face each other. 図1に示す第1パネル1と第2パネル2の各々を90度回転させ、上下方向に並べた状態の斜視図である。It is a perspective view of the state where each of the 1st panel 1 and the 2nd panel 2 shown in FIG. 1 is rotated by 90 degrees and arranged in the vertical direction. 移動体12を移動させる場合における第1パネル1の移動体12と第2パネル2の移動体32の周辺の拡大縦断面図である。It is an enlarged vertical sectional view around the moving body 12 of the 1st panel 1 and the moving body 32 of the 2nd panel 2 in the case of moving a moving body 12. 移動体32を移動させる場合における第1パネル1の移動体12と第2パネル2の移動体32の周辺の拡大縦断面図である。It is an enlarged vertical sectional view around the moving body 12 of the 1st panel 1 and the moving body 32 of the 2nd panel 2 in the case of moving a moving body 32. 本発明の連結用部材(第1の部材)となる第1パーテーションと、本発明の被連結用部材(第2の部材)となる第2パーテーションを左右方向に並べて離して配置した状態の斜視図である。Perspective view of a state in which the first partition, which is the connecting member (first member) of the present invention, and the second partition, which is the connecting member (second member) of the present invention, are arranged side by side in the left-right direction and separated from each other. Is. 図14に示す第1パーテーションと第2パーテーションの縦断面図である。FIG. 14 is a vertical cross-sectional view of the first partition and the second partition shown in FIG. 位置切替手段が設けられた第1パーテーションと第2パーテーションを並べたものの縦断面図である。It is a vertical sectional view of the 1st partition and the 2nd partition provided with the position switching means side by side.

[連結用パネル]
本発明を連結用パネルに適用した実施形態について説明する。
図1は、本発明の連結用部材(第1の部材)となる第1パネルと、本発明の被連結用部材(第2の部材)となる第2パネルを左右方向に並べて離して配置した状態の斜視図、図2は、図1の第1パネルと第2パネルの平面図である。
図中、1は第1パネル、2は第2パネル、3、4はパネル本体、3a、4aは上枠、3b、4bは下枠、3c〜3f、4c〜4fはプレート、10、20、30、40は保持部、11、21、31、41は側枠、12、22、32、42は移動体、13、23、33、43は磁石、14、24、34、44は皿ネジである。
図1、図2に示すように第1パネル1は、パネル本体3と保持部10、20等から構成され、第2パネル2はパネル本体4と保持部30、40等から構成されている。
第1パネル1においては、パネル本体3の上部と下部に、断面がコの字状の上枠3aと下枠3bが嵌め込まれ、パネル本体3の右側部には保持部10が取り付けられ、パネル本体3の左側部には保持部20が取り付けられ、側枠11、21の上面には、プレート3e、3cが接着剤等により取り付けられ、側枠11、21の下面には、プレート3f、3dが接着剤等により取り付けられている。
第2パネル2においても、パネル本体4の上部と下部に、断面がコの字状の上枠4aと下枠4bが嵌め込まれ、パネル本体4の左側部には保持部30が取り付けられ、パネル本体4の右側部には保持部40が取り付けられ、側枠31、41の上面には、プレート4c、4eが接着剤等により取り付けられ、側枠31、41の下面には、プレート4d、4fが接着剤等により取り付けられている。
[Connecting panel]
An embodiment in which the present invention is applied to a connecting panel will be described.
In FIG. 1, the first panel, which is the connecting member (first member) of the present invention, and the second panel, which is the connecting member (second member) of the present invention, are arranged side by side in the left-right direction and separated from each other. A perspective view of the state, FIG. 2, is a plan view of the first panel and the second panel of FIG.
In the figure, 1 is the first panel, 2 is the second panel, 3 and 4 are the panel body, 3a and 4a are the upper frame, 3b and 4b are the lower frame, 3c to 3f, 4c to 4f are the plates, 10, 20 and so on. 30, 40 are holding parts, 11, 21, 31, 41 are side frames, 12, 22, 32, 42 are moving bodies, 13, 23, 33, 43 are magnets, and 14, 24, 34, 44 are countersunk screws. be.
As shown in FIGS. 1 and 2, the first panel 1 is composed of a panel main body 3 and holding portions 10, 20 and the like, and the second panel 2 is composed of a panel main body 4 and holding portions 30 and 40 and the like.
In the first panel 1, upper frames 3a and lower frames 3b having a U-shaped cross section are fitted into the upper and lower parts of the panel main body 3, and a holding portion 10 is attached to the right side of the panel main body 3 to form a panel. A holding portion 20 is attached to the left side portion of the main body 3, plates 3e and 3c are attached to the upper surfaces of the side frames 11 and 21 with an adhesive or the like, and plates 3f and 3d are attached to the lower surfaces of the side frames 11 and 21. Is attached with an adhesive or the like.
Also in the second panel 2, the upper frame 4a and the lower frame 4b having a U-shaped cross section are fitted into the upper and lower parts of the panel main body 4, and the holding portion 30 is attached to the left side of the panel main body 4, and the panel. A holding portion 40 is attached to the right side of the main body 4, plates 4c and 4e are attached to the upper surfaces of the side frames 31 and 41 with an adhesive or the like, and plates 4d and 4f are attached to the lower surfaces of the side frames 31 and 41. Is attached with an adhesive or the like.

[パネルにおける保持部の第1の構成]
まず、本発明の位置変更手段が反発移動手段である場合のパネルにおける保持部の構成(第1の構成)について説明する。
図3は、図2のX−X断面図(縦断面図)、図4は、図1に示す第1パネルの保持部10の拡大分解斜視図であり、図中、11aは案内溝、11bは嵌合部、11c、21c、31c、41cは長穴、12aは凹部、12bはネジ穴、13aは皿穴である。
第1パネル1の保持部10は、本発明の保持手段(第1の保持手段)となるもので、強磁性体でないアルミ材、プラスチック等からなる側枠11、強磁性体である鉄材等からなる移動体12、磁石13、皿ネジ14等から構成される。
図3、図4に示すように保持部10の右側には断面が凸形状の案内溝11aが形成され、保持部10の左側には断面が長方形の嵌合部11bが形成され、保持部20にも同様の案内溝と嵌合部が形成されており、嵌合部11bにはパネル本体3の右側部が嵌め込まれ、同様に、保持部20の嵌合部にはパネル本体3の左側部が嵌め込まれている。
保持部10においては、側枠11の案内溝11aに凸形状の移動体12が摺動自在に嵌め込まれ、移動体12の凹部12aに丸型の磁石13が嵌め込まれ、磁石13の皿穴13aには皿ネジ14が挿入され、皿ネジ14は移動体12のネジ穴12bにネジ止めされ、これにより移動体12の中央部に磁石13が固定されている。
そして、移動体12の左側面部からは皿ネジ14の先端部が突出しており、この突出した皿ネジ14の先端部が、側枠11の移動体12が摺動する面の長手方向中央部に設けられた長穴11cに嵌め込まれている。
この側枠11の案内溝11a、長穴11c、移動体12は、本発明の位置変更手段となる反発移動手段(第1の反発移動手段)を構成し、強磁性体の移動体12は、本発明の吸着手段(第1の吸着手段)となり、磁石13は、本発明の連結用部材側の磁石(第1の磁石)となり、案内溝11aが設けられた側枠11は、本発明の案内部(第1の案内部)となり、長穴11cは、本発明の移動範囲制限部(第1の移動範囲制限部)となる。
この場合、側枠11は強磁性体でないため、磁石13が固定された移動体12は、側枠11に吸着せず、案内溝11aに沿って上下方向に移動可能となると共に、その移動範囲は、長穴11cによって制限される。
また、本発明の移動範囲制限部(第1の移動範囲制限部)として、長穴11cに代えて、凸起等のストッパーを設けてもよい。
図5は、移動範囲制限部(第1の移動範囲制限部)として凸起を設けた保持部の拡大分解斜視図である。図において、10Aは保持部、11d、11eは凸起、15は皿ネジであり、図4に示す保持部10の構成と同じものには同一の符号を付してある。
図5に示すように、保持部10Aにおいては、側枠11の移動体12が摺動する面には、長穴11cに代えて、円柱状の凸起11d、11eが設けられており、皿ネジ15の先端部は、移動体12の左側面部から突出していない。
そして、この凸起11d、11eは移動体12のストッパーとして機能し、移動体12の移動範囲は、移動体12の上面が凸起11dに当たる位置と移動体12の下面が凸起11eに当たる位置との間に制限される。
次に、第1パネル1の保持部20は、保持部10と同様に、強磁性体でないアルミ材、プラスチック等からなる側枠21、強磁性体である鉄材等からなる移動体22、磁石23、皿ネジ24等から構成され、各部の構成も保持部10と同じである。
すなわち、皿ネジ24により磁石23が固定された移動体22が、側枠21の案内溝に摺動自在に嵌め込まれ、移動体22の側面から突出した皿ネジ24の先端部が、側枠21に設けられた長穴21cに嵌め込まれている。
これにより、磁石23が固定された移動体22は、側枠21の案内溝に沿って上下方向に移動可能となると共に、その移動範囲は、長穴21cによって制限される。
なお、保持部10と同様に、側枠21の移動体22が摺動する面には、長穴21cに代えて、図5に示す凸起12d、12eを設け、移動体22の移動範囲を制限してもよい。
[First configuration of the holding portion in the panel]
First, the configuration (first configuration) of the holding portion in the panel when the position changing means of the present invention is the repulsive moving means will be described.
3 is an enlarged cross-sectional view (longitudinal cross-sectional view) of FIG. 2 and FIG. 4 is an enlarged exploded perspective view of the holding portion 10 of the first panel shown in FIG. 1. In the figure, 11a is a guide groove and 11b. Is a fitting portion, 11c, 21c, 31c and 41c are elongated holes, 12a is a recess, 12b is a screw hole, and 13a is a countersunk hole.
The holding portion 10 of the first panel 1 serves as a holding means (first holding means) of the present invention, and is made of a non-ferromagnetic aluminum material, a side frame 11 made of plastic or the like, a ferromagnetic iron material or the like. It is composed of a moving body 12, a magnet 13, a countersunk screw 14, and the like.
As shown in FIGS. 3 and 4, a guide groove 11a having a convex cross section is formed on the right side of the holding portion 10, and a fitting portion 11b having a rectangular cross section is formed on the left side of the holding portion 10. A similar guide groove and fitting portion are formed in the fitting portion 11b, and the right side portion of the panel main body 3 is fitted into the fitting portion 11b. Similarly, the fitting portion of the holding portion 20 is fitted with the left side portion of the panel main body 3. Is fitted.
In the holding portion 10, the convex moving body 12 is slidably fitted in the guide groove 11a of the side frame 11, the round magnet 13 is fitted in the recess 12a of the moving body 12, and the countersunk hole 13a of the magnet 13 is fitted. A countersunk screw 14 is inserted into the head, and the countersunk screw 14 is screwed into the screw hole 12b of the moving body 12, whereby the magnet 13 is fixed to the central portion of the moving body 12.
The tip of the countersunk screw 14 protrudes from the left side surface of the moving body 12, and the tip of the countersunk screw 14 protrudes from the left side surface of the moving body 12 to the central portion in the longitudinal direction of the surface on which the moving body 12 of the side frame 11 slides. It is fitted in the provided elongated hole 11c.
The guide groove 11a, the elongated hole 11c, and the moving body 12 of the side frame 11 constitute a repulsive moving means (first repulsive moving means) which is a position changing means of the present invention, and the ferromagnetic moving body 12 is a ferromagnetic moving body 12. The suction means (first suction means) of the present invention, the magnet 13 becomes the magnet (first magnet) on the connecting member side of the present invention, and the side frame 11 provided with the guide groove 11a is the suction means of the present invention. It becomes a guide part (first guide part), and the elongated hole 11c becomes a movement range limiting part (first movement range limiting part) of this invention.
In this case, since the side frame 11 is not a ferromagnet, the moving body 12 to which the magnet 13 is fixed does not attract to the side frame 11 and can move in the vertical direction along the guide groove 11a, and the moving range thereof. Is limited by the slot 11c.
Further, as the movement range limiting portion (first movement range limiting portion) of the present invention, a stopper such as a protrusion may be provided instead of the elongated hole 11c.
FIG. 5 is an enlarged exploded perspective view of a holding portion provided with a protrusion as a movement range limiting portion (first movement range limiting portion). In the figure, 10A is a holding portion, 11d and 11e are convex, and 15 is a countersunk screw, and the same components as those of the holding portion 10 shown in FIG. 4 are designated by the same reference numerals.
As shown in FIG. 5, in the holding portion 10A, columnar protrusions 11d and 11e are provided on the surface on which the moving body 12 of the side frame 11 slides instead of the elongated holes 11c. The tip of the screw 15 does not protrude from the left side surface of the moving body 12.
The protrusions 11d and 11e function as stoppers for the moving body 12, and the moving range of the moving body 12 includes a position where the upper surface of the moving body 12 hits the protrusion 11d and a position where the lower surface of the moving body 12 hits the protrusion 11e. Limited during.
Next, the holding portion 20 of the first panel 1 is a side frame 21 made of a non-ferromagnetic aluminum material, plastic or the like, a moving body 22 made of a ferromagnetic iron material or the like, and a magnet 23, similarly to the holding portion 10. , The countersunk screw 24 and the like, and the structure of each part is the same as that of the holding part 10.
That is, the moving body 22 to which the magnet 23 is fixed by the countersunk screw 24 is slidably fitted into the guide groove of the side frame 21, and the tip of the countersunk screw 24 protruding from the side surface of the moving body 22 is the side frame 21. It is fitted in the elongated hole 21c provided in.
As a result, the moving body 22 to which the magnet 23 is fixed can move in the vertical direction along the guide groove of the side frame 21, and the moving range thereof is limited by the elongated hole 21c.
Similar to the holding portion 10, the surface on which the moving body 22 of the side frame 21 slides is provided with protrusions 12d and 12e shown in FIG. 5 instead of the elongated holes 21c to set the moving range of the moving body 22. You may limit it.

第2パネル2の保持部30、40は、第1パネル1の保持部10、20と同様に、強磁性体でないアルミ材、プラスチック等からなる側枠31、41、強磁性体である鉄材等からなる移動体32、42、磁石33、43、皿ネジ34、44等から構成され、各部の構成も保持部10、20と同じである。
すなわち、保持部30においては、皿ネジ34により磁石33が固定された移動体32が、側枠31の案内溝に摺動自在に嵌め込まれ、移動体32の側面から突出した皿ネジ34の先端部が、側枠31に設けられた長穴31cに嵌め込まれている。
また、保持40においては、皿ネジ44により磁石43が固定された移動体42が、側枠41の案内溝に摺動自在に嵌め込まれ、移動体42の側面から突出した皿ネジ44の先端部が、側枠41に設けられた長穴41cに嵌め込まれている。
この側枠31の案内溝、長穴31c、磁石33が固定された移動体32は、本発明の第2の反発移動手段を構成し、強磁性体である移動体32は、本発明の第2の吸着手段となり、磁石33は、本発明の被連結用部材側の磁石(第2の磁石)となり、案内溝が設けられた側枠31は、本発明の第2の案内部となり、長穴31cは、本発明の第2の移動範囲制限部となる。
そして、第1パネル1と第2パネル2は離れていることから、移動体12と移動体32も離れており、移動体12、32は、対向する磁石33、13の磁力の影響を受けず、図3に示すように移動体12、32は、皿ネジ14、34の先端部が長穴11c、31cの下端の位置にくるまで、自重によって下がっている。同様に、移動体22、42も、皿ネジ24、44の先端部が長穴21c、41cの下端の位置にくるまで、自重によって下がっている。
なお、保持部30や保持部40においても、保持部10や保持部20と同様に、側枠31、41の移動体32、42が摺動する面には、長穴31c、41cに代えて、図5に示す凸起12d、12eを設け、移動体32、42の移動範囲を制限してもよい。
Similar to the holding portions 10 and 20 of the first panel 1, the holding portions 30 and 40 of the second panel 2 are side frames 31 and 41 made of non-ferromagnetic aluminum material, plastic or the like, iron material which is ferromagnet and the like. It is composed of a moving body 32, 42, magnets 33, 43, countersunk screws 34, 44, etc., and the configuration of each part is the same as that of the holding parts 10 and 20.
That is, in the holding portion 30, the moving body 32 to which the magnet 33 is fixed by the countersunk screw 34 is slidably fitted into the guide groove of the side frame 31, and the tip of the countersunk screw 34 protruding from the side surface of the moving body 32. The portion is fitted into the elongated hole 31c provided in the side frame 31.
Further, in the holding 40, the moving body 42 to which the magnet 43 is fixed by the countersunk screw 44 is slidably fitted into the guide groove of the side frame 41, and the tip portion of the countersunk screw 44 protruding from the side surface of the moving body 42. Is fitted into the elongated hole 41c provided in the side frame 41.
The guide groove of the side frame 31, the elongated hole 31c, and the moving body 32 to which the magnet 33 is fixed constitute the second repulsive moving means of the present invention, and the moving body 32 which is a ferromagnetic material is the first of the present invention. The magnet 33 serves as the attraction means of 2, the magnet 33 becomes the magnet (second magnet) on the side of the member to be connected of the present invention, and the side frame 31 provided with the guide groove becomes the second guide portion of the present invention and has a length. The hole 31c serves as a second movement range limiting portion of the present invention.
Since the first panel 1 and the second panel 2 are separated from each other, the moving body 12 and the moving body 32 are also separated from each other, and the moving bodies 12 and 32 are not affected by the magnetic force of the magnets 33 and 13 facing each other. As shown in FIG. 3, the moving bodies 12 and 32 are lowered by their own weight until the tips of the countersunk screws 14 and 34 come to the positions of the lower ends of the elongated holes 11c and 31c. Similarly, the moving bodies 22 and 42 are also lowered by their own weight until the tips of the countersunk screws 24 and 44 come to the positions of the lower ends of the elongated holes 21c and 41c.
In the holding portion 30 and the holding portion 40, similarly to the holding portion 10 and the holding portion 20, the surfaces on which the moving bodies 32 and 42 of the side frames 31 and 41 slide are replaced with the elongated holes 31c and 41c. , The protrusions 12d and 12e shown in FIG. 5 may be provided to limit the movement range of the moving bodies 32 and 42.

[パネルにおける保持部の第2の構成]
次に、本発明の位置変更手段が位置切替手段である場合のパネルにおける保持部の構成(第2の構成)について説明する。
図6は、位置切替手段が設けられた保持部の斜視図であり、図において、10Bは保持部、11f、11gはピン穴、16はピンであり、図4に示す保持部10の構成と同じものには同一の符号を付してある。
図6に示すように、保持部10Bにおいては、側枠11の移動体12が摺動する面には、長穴11cの上側と下側にピン穴11f、11gが設けられており、ピン16を差し込むピン穴をピン穴11fからピン穴11gに変えることにより、移動体12の位置を切り替えられるようになっている。
図7は、ピン16をピン穴11f、11gのいずれか一方に差し込んだ状態の保持部10Bの斜視図であり、同図(a)は、ピン16を上側のピン穴11fに差し込んだ状態を示し、同図(b)は、ピン16を下側のピン穴11gに差し込んだ状態を示している。
保持部10Bにおいて、移動体12を側枠11の案内溝11aに嵌め込み、皿ネジ14の先端部が長穴11cに入るように、皿ネジ14で磁石13を移動体12に固定すると、移動体12は、自重によって、皿ネジ14の先端部が長穴11cの下端の位置にくるまで下がる。このとき、移動体12の上端の直ぐ上の位置にピン穴11fが設けられており、ピン穴11fにピン16を差し込むことにより、移動体12を下方の位置に固定することができる(図7(a))。
また、保持部10Bにおいて、移動体12を側枠11の案内溝11aに嵌め込み、皿ネジ14の先端部が長穴11cに入るように、皿ネジ14で磁石13を移動体12に固定し、移動体12の下端の直ぐ下の位置にピン穴11gがくるように移動体12を上方に移動させ、ピン穴11gにピン16を差し込むことにより、移動体12を上方の位置に固定することができる(図7(b))。
このようにして、ピン16を差し込むピン穴をピン穴11fからピン穴11gに変えることにより、移動体12の位置を下方の位置から上方の位置に切り替えることができる。
また、第1パネル1の左側の保持部(保持部20に相当する保持部)においても、保持部10Bと同様に、側枠21の移動体22が摺動する面には、長穴21cの上側と下側にピン穴11f、11gと同じピン穴が設けられており、ピンを差し込むピン穴を変更することにより、移動体22の位置を下方の位置から上方の位置に切り替えられるようになっている。
さらに、第2パネル2の左右の保持部(保持部30、40に相当する保持部)においても、保持部10Bと同様に、側枠31、41の移動体32、42が摺動する面には、長穴31c、41cの上側と下側にピン穴11f、11gと同じピン穴が設けられており、ピンを差し込むピン穴を変更することにより、移動体32、42の位置を下方の位置から上方の位置に切り替えられるようになっている。
なお、本発明を連結用パネルに適用した場合の位置切替手段は、上記ピン16とピン穴11f、11gに限定されるものではなく、ビス(ネジ)ビス穴(ネジ穴)等であってもよい。
[Second configuration of the holding part in the panel]
Next, the configuration (second configuration) of the holding portion in the panel when the position changing means of the present invention is the position switching means will be described.
FIG. 6 is a perspective view of a holding portion provided with a position switching means. In the drawing, 10B is a holding portion, 11f and 11g are pin holes, and 16 is a pin. The same thing is given the same code.
As shown in FIG. 6, in the holding portion 10B, pin holes 11f and 11g are provided on the upper side and the lower side of the elongated hole 11c on the surface on which the moving body 12 of the side frame 11 slides, and the pin 16 By changing the pin hole into which the mobile body 12 is inserted from the pin hole 11f to the pin hole 11g, the position of the moving body 12 can be switched.
FIG. 7 is a perspective view of the holding portion 10B in a state where the pin 16 is inserted into either the pin hole 11f or 11g, and FIG. 7A is a state in which the pin 16 is inserted into the upper pin hole 11f. FIG. 6B shows a state in which the pin 16 is inserted into the lower pin hole 11g.
In the holding portion 10B, the moving body 12 is fitted into the guide groove 11a of the side frame 11, and the magnet 13 is fixed to the moving body 12 with the countersunk screw 14 so that the tip of the countersunk screw 14 enters the elongated hole 11c. 12 is lowered by its own weight until the tip of the countersunk screw 14 comes to the position of the lower end of the slot 11c. At this time, a pin hole 11f is provided at a position immediately above the upper end of the moving body 12, and the moving body 12 can be fixed at a lower position by inserting the pin 16 into the pin hole 11f (FIG. 7). (A)).
Further, in the holding portion 10B, the moving body 12 is fitted into the guide groove 11a of the side frame 11, and the magnet 13 is fixed to the moving body 12 with the countersunk screw 14 so that the tip of the countersunk screw 14 enters the elongated hole 11c. The moving body 12 can be fixed in the upper position by moving the moving body 12 upward so that the pin hole 11g comes to the position immediately below the lower end of the moving body 12 and inserting the pin 16 into the pin hole 11g. Yes (Fig. 7 (b)).
In this way, by changing the pin hole into which the pin 16 is inserted from the pin hole 11f to the pin hole 11g, the position of the moving body 12 can be switched from the lower position to the upper position.
Further, also in the holding portion on the left side of the first panel 1 (holding portion corresponding to the holding portion 20), similarly to the holding portion 10B, an elongated hole 21c is provided on the surface on which the moving body 22 of the side frame 21 slides. The same pin holes as the pin holes 11f and 11g are provided on the upper and lower sides, and the position of the moving body 22 can be switched from the lower position to the upper position by changing the pin hole into which the pin is inserted. ing.
Further, also on the left and right holding portions (holding portions corresponding to the holding portions 30 and 40) of the second panel 2, similarly to the holding portions 10B, on the surface on which the moving bodies 32 and 42 of the side frames 31 and 41 slide. Is provided with the same pin holes as the pin holes 11f and 11g on the upper and lower sides of the elongated holes 31c and 41c, and by changing the pin holes into which the pins are inserted, the positions of the moving bodies 32 and 42 can be moved downward. It is possible to switch to the upper position from.
When the present invention is applied to a connecting panel, the position switching means is not limited to the pin 16 and the pin holes 11f and 11g, and may be a screw (screw) screw hole (screw hole) or the like. good.

[パネルの連結動作1]
次に、反発移動手段により第1パネル1と第2パネル2を保持部10と保持部30において連結する動作(パネルの連結動作1)を説明する。
まず、第1パネル1側の移動体12が移動して第1パネル1と第2パネル2を保持部10と保持部30において連結する場合について説明する。
図8は、保持部10(第1パネル1)の移動体12と保持部30(第2パネル2)の移動体32の周辺の拡大縦断面図であり、同図(a)は、保持部10(第1パネル1)と保持部30(第2パネル2)が接近した状態の一例を表し、同図(b)は、第1パネル1と第2パネル2が保持部10と保持部30において連結した状態の一例を表している。図において、13N、13Sは、磁石13のN極部分、S極部分、33N、33Sは、磁石3のN極部分、S極部分、一点鎖線のP1a、P1bは、磁石13の位置、一点鎖線のP2a、P2bは、磁石33の位置である。
保持部10(第1パネル1)の移動体12には、N極部分13Nがパネル本体3と反対側に位置し、S極部分13Sがパネル本体3側に位置するように磁石13が固定され、保持部30(第2パネル2)の移動体32には、N極部分33Nがパネル本体4と反対側に位置し、S極部分33Sがパネル本体4側に位置するように磁石33が固定されている。
この場合、移動体12は、自重により皿ネジ14の先端部が長穴11cの下端の位置にくるまで下がり、磁石13は位置P1aにあり、移動体32も、自重により皿ネジ34の先端部が長穴31cの下端の位置にくるまで下がり、磁石33は位置P2aにあり、磁石13(N極部分13N)と磁石33(N極部分33N)が対向している。
ここで、保持部10(第1パネル1)と保持部30(第2パネル2)を接近させると、磁石13のN極部分13Nと磁石33のN極部分33Nが接近して、磁石13と磁石33には互いに反発して離れようとする力(反発力)が作用し、この反発力により移動体12と移動体32には、互いに離れる方向に移動しようとする力が作用する。すなわち、移動体12には上方に移動しようとする力が作用し、移動体32には下方に移動しようとする力が作用するか、あるいは、移動体12には下方に移動しようとする力が作用し、移動体32には上方に移動しようとする力が作用する。
図8(a)は、移動体12には上方に移動しようとする力が作用し、移動体32には下方に移動しようする力が作用する場合を示している。
移動体32は、皿ネジ34の先端部が長穴31cの下端の位置にあるため、下方に移動することができず、移動体12だけが上方に移動することとなる。
移動体12が上方に移動して磁石13が磁石33と対向しない位置P1bにくると、磁石13と磁石33との間に作用する反発力が弱くなり、図8(b)に示すように、磁石13のN極部分13Nは、強磁性体である移動体32を吸着し、磁石33のN極部分33Nは、強磁性体である移動体12を吸着する。
これにより、第1パネル1と第2パネル2が保持部10と保持部30において強固に連結固定される。
この場合、移動体12の上方への移動は、長穴11cによって制限されるため、磁石13が磁石33と対向する位置から対向しない位置まで移動体12が移動できるように長穴11cを形成しておく必要がある。
[Panel connection operation 1]
Next, an operation of connecting the first panel 1 and the second panel 2 at the holding portion 10 and the holding portion 30 by the repulsive moving means (panel connecting operation 1) will be described.
First, a case where the moving body 12 on the first panel 1 side moves to connect the first panel 1 and the second panel 2 at the holding portion 10 and the holding portion 30 will be described.
FIG. 8 is an enlarged vertical cross-sectional view of the periphery of the moving body 12 of the holding portion 10 (first panel 1) and the moving body 32 of the holding portion 30 (second panel 2), and FIG. 8A is a holding portion. An example of a state in which 10 (first panel 1) and the holding portion 30 (second panel 2) are close to each other is shown, and in FIG. It shows an example of the connected state in. In the figure, 13N and 13S are the north pole part and the south pole part of the magnet 13, 33N and 33S are the north pole part and the south pole part of the magnet 3, and P1a and P1b of the alternate long and short dash line are the positions of the magnet 13 and the alternate long and short dash line. P2a and P2b are the positions of the magnet 33.
A magnet 13 is fixed to the moving body 12 of the holding portion 10 (first panel 1) so that the north pole portion 13N is located on the opposite side of the panel main body 3 and the south pole portion 13S is located on the panel main body 3 side. A magnet 33 is fixed to the moving body 32 of the holding portion 30 (second panel 2) so that the north pole portion 33N is located on the opposite side of the panel main body 4 and the south pole portion 33S is located on the panel main body 4 side. Has been done.
In this case, the moving body 12 is lowered by its own weight until the tip of the countersunk screw 14 comes to the position of the lower end of the slot 11c, the magnet 13 is at the position P1a, and the moving body 32 is also the tip of the countersunk screw 34 by its own weight. Is lowered to the position of the lower end of the elongated hole 31c, the magnet 33 is at the position P2a, and the magnet 13 (N-pole portion 13N) and the magnet 33 (N-pole portion 33N) face each other.
Here, when the holding portion 10 (first panel 1) and the holding portion 30 (second panel 2) are brought close to each other, the north pole portion 13N of the magnet 13 and the north pole portion 33N of the magnet 33 come close to each other and come into contact with the magnet 13. A force (repulsive force) that repels each other and tries to separate from each other acts on the magnet 33, and a force that tries to move away from each other acts on the moving body 12 and the moving body 32 due to this repulsive force. That is, a force that tries to move upward acts on the moving body 12, a force that tries to move downward acts on the moving body 32, or a force that tries to move downward acts on the moving body 12. It acts, and a force that tries to move upward acts on the moving body 32.
FIG. 8A shows a case where a force for moving upward acts on the moving body 12, and a force for moving downward acts on the moving body 32.
Since the tip of the countersunk screw 34 is located at the lower end of the slot 31c, the moving body 32 cannot move downward, and only the moving body 12 moves upward.
When the moving body 12 moves upward and the magnet 13 comes to the position P1b where the magnet 13 does not face the magnet 33, the repulsive force acting between the magnet 13 and the magnet 33 becomes weak, and as shown in FIG. 8 (b), the repulsive force acts on the magnet 13 and the magnet 33. The north pole portion 13N of the magnet 13 attracts the moving body 32 which is a ferromagnet, and the north pole portion 33N of the magnet 33 attracts the moving body 12 which is a ferromagnet.
As a result, the first panel 1 and the second panel 2 are firmly connected and fixed at the holding portion 10 and the holding portion 30.
In this case, since the upward movement of the moving body 12 is restricted by the elongated hole 11c, the elongated hole 11c is formed so that the moving body 12 can move from the position where the magnet 13 faces the magnet 33 to the position where the moving body 12 does not face the magnet 33. It is necessary to keep it.

次いで、第2パネル2側の移動体32が移動して第1パネル1と第2パネル2を保持部10と保持部30において連結する場合について説明する。
図9は、保持部10(第1パネル1)の移動体12と保持部30(第2パネル2)の移動体32の周辺の拡大縦断面図であり、同図(a)は、保持部10(第1パネル1)と保持部30(第2パネル2)が接近した状態の他の例を表し、同図(b)は、第1パネル1と第2パネル2が保持部10と保持部30において連結した状態の他の例を表している。
図9(a)に示すように、保持部10(第1パネル1)と保持部30(第2パネル2)を接近させると、磁石13と磁石33との間に作用する反発力により、移動体12には下方に移動しようとする力が作用し、移動体32には上方に移動しようする力が作用する。
移動体12は、皿ネジ14の先端部が長穴11cの下端の位置にあるため、下方に移動することができず、移動体32だけが上方に移動することとなる。
そして、移動体32が上方に移動して磁石33が磁石13と対向しない位置P2bにくると、磁石13と磁石33との間に作用する反発力が弱くなり、図9(b)に示すように、磁石13のN極部分13Nは、強磁性体である移動体32を吸着し、磁石33のN極部分33Nは、強磁性体である移動体12を吸着する。
これにより、第1パネル1と第2パネル2が保持部10と保持部30において強固に連結固定される。
この場合、移動体32の上方への移動は、長穴31cによって制限されるため、磁石33が磁石13と対向する位置から対向しない位置まで移動体32が上方に移動できるように長穴31cを形成しておく必要がある。
Next, a case where the moving body 32 on the second panel 2 side moves to connect the first panel 1 and the second panel 2 at the holding portion 10 and the holding portion 30 will be described.
FIG. 9 is an enlarged vertical cross-sectional view of the periphery of the moving body 12 of the holding portion 10 (first panel 1) and the moving body 32 of the holding portion 30 (second panel 2), and FIG. 9A is a holding portion. Another example in which 10 (first panel 1) and the holding portion 30 (second panel 2) are close to each other is shown, and in FIG. 3B, the first panel 1 and the second panel 2 hold the holding portion 10 and the holding portion 10. It represents another example of the connected state in the part 30.
As shown in FIG. 9A, when the holding portion 10 (first panel 1) and the holding portion 30 (second panel 2) are brought close to each other, they move due to the repulsive force acting between the magnet 13 and the magnet 33. A force that tries to move downward acts on the body 12, and a force that tries to move upward acts on the moving body 32.
Since the tip of the countersunk screw 14 is located at the lower end of the slot 11c, the moving body 12 cannot move downward, and only the moving body 32 moves upward.
Then, when the moving body 32 moves upward and the magnet 33 comes to the position P2b which does not face the magnet 13, the repulsive force acting between the magnet 13 and the magnet 33 becomes weak, as shown in FIG. 9B. In addition, the north pole portion 13N of the magnet 13 attracts the moving body 32 which is a ferromagnet, and the north pole portion 33N of the magnet 33 attracts the moving body 12 which is a ferromagnet.
As a result, the first panel 1 and the second panel 2 are firmly connected and fixed at the holding portion 10 and the holding portion 30.
In this case, since the upward movement of the moving body 32 is restricted by the long hole 31c, the long hole 31c is formed so that the moving body 32 can move upward from the position where the magnet 33 faces the magnet 13 to the position where the moving body 32 does not face the magnet 13. It needs to be formed.

上記では、保持部10と保持部30において第1パネル1と第2パネル2を連結固定する場合を説明したが、保持部10と保持部40において、あるいは、保持部20と保持部30において、さらには、保持部20と保持部40において第1パネル1と第2パネル2を連結固定することもできる。
すなわち、保持部10や保持部30と同様に、保持部20においても、移動体22に、N極部分がパネル本体3と反対側に位置し、S極部分がパネル本体3側に位置するように磁石23が固定され、保持部40においても、移動体42に、N極部分がパネル本体4と反対側に位置し、S極部分がパネル本体4側に位置するように磁石43が固定されており、以下に述べるように、保持部10と保持部30における第1パネル1と第2パネル2の連結固定と同様にして、保持部10と保持部40、保持部20と保持部30、保持部20と保持部40においても、第1パネル1と第2パネル2の連結固定することができる。
図10は、保持部20と保持部40が対向するように第1パネル1と第2パネル2を配置した状態の縦断面図である。
この場合、保持部20の移動体22は、自重により皿ネジ24の先端部が長穴21cの下端の位置にくるまで下がった位置にあり、保持部40の移動体42も、自重により、皿ネジ44の先端部が長穴41cの下端の位置にくるまで下がった位置にあり、磁石23と磁石43が対向している。
保持部20(第1パネル1)と保持部40(第2パネル2)を接近させると、磁石23のN極部分と磁石43のN極部分が接近して、磁石23と磁石43との間に反発力が生じ、移動体22と移動体42には互いに離れる方向に移動しようとする力、すなわち、移動体22には上方あるいは下方に移動しようとする力が作用し、移動体42には移動体22と反対方向に移動しようとする力が作用するが、移動体22と移動体42は、皿ネジ24、44の先端部が長穴21c、41cの下端の位置にあるため、下方に移動できず上方にしか移動できない。
このため、移動体22と移動体42のどちらかが上方に移動して磁石23が磁石43と対向しない位置にくると、磁石23と磁石43との間に作用する反発力は弱くなり、磁石23のN極部分は、強磁性体である移動体42を吸着し、磁石43のN極部分は、強磁性体である移動体22を吸着する。
これにより、第1パネル1と第2パネル2が保持部20と保持部40において強固に連結固定される。
この場合、移動体22あるいは移動体42の上方への移動は、長穴21cあるいは長穴41cによって制限されるため、磁石23と磁石43が対向する位置から対向しない位置まで移動体22あるいは移動体42が上方に移動できるように長穴21cあるいは長穴41cを形成しておく必要ある。
In the above, the case where the first panel 1 and the second panel 2 are connected and fixed by the holding unit 10 and the holding unit 30 has been described, but in the holding unit 10 and the holding unit 40, or in the holding unit 20 and the holding unit 30, Further, the first panel 1 and the second panel 2 can be connected and fixed in the holding portion 20 and the holding portion 40.
That is, similarly to the holding portion 10 and the holding portion 30, in the holding portion 20, the north pole portion is located on the opposite side of the panel body 3 and the south pole portion is located on the panel body 3 side of the moving body 22. The magnet 23 is fixed to the moving body 42, and the magnet 43 is fixed to the moving body 42 so that the north pole portion is located on the opposite side of the panel body 4 and the south pole portion is located on the panel body 4 side. As described below, the holding unit 10 and the holding unit 40, the holding unit 20 and the holding unit 30, and the holding unit 20 and the holding unit 30, in the same manner as in the case of connecting and fixing the first panel 1 and the second panel 2 in the holding unit 10 and the holding unit 30. The holding portion 20 and the holding portion 40 can also be connected and fixed to the first panel 1 and the second panel 2.
FIG. 10 is a vertical cross-sectional view of a state in which the first panel 1 and the second panel 2 are arranged so that the holding portion 20 and the holding portion 40 face each other.
In this case, the moving body 22 of the holding portion 20 is in a position where the tip of the countersunk screw 24 is lowered to the lower end position of the slot 21c due to its own weight, and the moving body 42 of the holding portion 40 is also a dish due to its own weight. The tip of the screw 44 is lowered until it reaches the lower end of the slot 41c, and the magnet 23 and the magnet 43 face each other.
When the holding portion 20 (first panel 1) and the holding portion 40 (second panel 2) are brought close to each other, the north pole portion of the magnet 23 and the north pole portion of the magnet 43 come close to each other, and between the magnet 23 and the magnet 43. A repulsive force is generated on the moving body 22, and a force that tries to move in a direction away from each other acts on the moving body 22 and the moving body 42, that is, a force that tries to move upward or downward on the moving body 22 and the moving body 42. A force that tries to move in the opposite direction to the moving body 22 acts, but the moving body 22 and the moving body 42 are downward because the tips of the countersunk screws 24 and 44 are at the lower ends of the elongated holes 21c and 41c. It cannot move and can only move upwards.
Therefore, when either the moving body 22 or the moving body 42 moves upward and the magnet 23 comes to a position where it does not face the magnet 43, the repulsive force acting between the magnet 23 and the magnet 43 becomes weak and the magnet The north pole portion of 23 attracts the moving body 42 which is a ferromagnet, and the north pole portion of the magnet 43 attracts the moving body 22 which is a ferromagnet.
As a result, the first panel 1 and the second panel 2 are firmly connected and fixed at the holding portion 20 and the holding portion 40.
In this case, since the upward movement of the moving body 22 or the moving body 42 is restricted by the long hole 21c or the long hole 41c, the moving body 22 or the moving body 22 or the moving body from the position where the magnet 23 and the magnet 43 face each other to the position where they do not face each other. It is necessary to form the elongated hole 21c or the elongated hole 41c so that the 42 can move upward.

また、保持部10と保持部40が対向するように第1パネル1と第2パネル2を配置した場合においても、磁石13と磁石43は対向した位置にあり、保持部10(第1パネル1)と保持部40(第2パネル2)を接近させると、磁石13のN極部分と磁石43のN極部分が接近して、磁石12と磁石43との間に反発力が生じ、移動体12と移動体42のどちらかが上方に移動して磁石13が磁石43と対向しない位置にくると、磁石13のN極部分は、強磁性体である移動体42を吸着し、磁石43のN極部分は、強磁性体である移動体12を吸着する。
これにより、第1パネル1と第2パネル2が保持部10と保持部40において強固に連結固定される。
さらに、保持部20と保持部30が対向するように第1パネル1と第2パネル2を配置した場合においても、磁石23と磁石33は対向した位置にあり、保持部20(第1パネル1)と保持部30(第2パネル2)を接近させると、磁石23のN極部分と磁石33のN極部分が接近して、磁石23と磁石33との間に反発力が生じ、移動体12と移動体32のどちらかが上方に移動して磁石23が磁石33と対向しない位置にくると、磁石23のN極部分は、強磁性体である移動体32を吸着し、磁石33のN極部分は、強磁性体である移動体22を吸着する。
これにより、第1パネル1と第2パネル2が保持部20と保持部30において強固に連結固定される。
なお、移動体12、22、32、42には、N極部分がパネル本体3、4と反対側に位置し、S極部分がパネル本体3、4側に位置するように磁石13、23、33、43が固定されているが、S極部分がパネル本体3、4と反対側に位置し、N極部分がパネル本体3、4側に位置するように、磁石13、23、33、43を移動体12、22、32、42に固定するようにしてもよい。
Further, even when the first panel 1 and the second panel 2 are arranged so that the holding portion 10 and the holding portion 40 face each other, the magnet 13 and the magnet 43 are in opposite positions, and the holding portion 10 (first panel 1) ) And the holding portion 40 (second panel 2), the north pole portion of the magnet 13 and the north pole portion of the magnet 43 come close to each other, a repulsive force is generated between the magnet 12 and the magnet 43, and the moving body When either 12 or the moving body 42 moves upward and the magnet 13 comes to a position where it does not face the magnet 43, the north pole portion of the magnet 13 attracts the moving body 42 which is a ferromagnetic material, and the magnet 43 The north pole portion adsorbs the moving body 12 which is a ferromagnetic material.
As a result, the first panel 1 and the second panel 2 are firmly connected and fixed at the holding portion 10 and the holding portion 40.
Further, even when the first panel 1 and the second panel 2 are arranged so that the holding portion 20 and the holding portion 30 face each other, the magnet 23 and the magnet 33 are at opposite positions, and the holding portion 20 (first panel 1) ) And the holding portion 30 (second panel 2), the north pole portion of the magnet 23 and the north pole portion of the magnet 33 come close to each other, a repulsive force is generated between the magnet 23 and the magnet 33, and the moving body When either 12 or the moving body 32 moves upward and the magnet 23 comes to a position where it does not face the magnet 33, the north pole portion of the magnet 23 attracts the moving body 32 which is a ferromagnetic material, and the magnet 33 The north pole portion adsorbs the moving body 22 which is a ferromagnetic material.
As a result, the first panel 1 and the second panel 2 are firmly connected and fixed at the holding portion 20 and the holding portion 30.
In the moving bodies 12, 22, 32, 42, the magnets 13, 23, so that the N pole portion is located on the opposite side of the panel main bodies 3 and 4, and the S pole portion is located on the panel main bodies 3, 4 side. Although 33 and 43 are fixed, the magnets 13, 23, 33 and 43 are located so that the S pole portion is located on the opposite side of the panel bodies 3 and 4 and the N pole portion is located on the panel body 3 and 4 side. May be fixed to the moving bodies 12, 22, 32, 42.

本実施形態では、第1パネル1の両側部に保持部10、20を取り付け、第2パネル2の両側部に保持部30、40を取り付け、第1パネル1と第2パネル2を左右方向に配置して連結する態様を示したが、第1パネル1と第2パネル2の上部と下部に保持部を取り付け、第1パネル1と第2パネル2を上下方向に配置して連結してもよい。
図11は、図1に示す第1パネル1と第2パネル2の各々を90度回転させ、上下方向に並べた状態の斜視図である。
保持部10の側枠11には、磁石13を皿ネジ14で固定した移動体12が嵌め込まれ、保持部20の側枠21には、磁石23を皿ネジ24で固定した移動体22が嵌め込まれ、保持部30の側枠31には、磁石33を皿ネジ34で固定した移動体32が嵌め込まれ、保持部40の側枠41には、磁石43を皿ネジ44で固定した移動体42が嵌め込まれており、移動体12、22、32、42の左右方向の移動範囲は、各側枠に設けられた長穴11c、21c、31c、41cによって制限されている。
図11に示すように磁石13と磁石33は対向した位置にある状態で保持部10(第1パネル1)と保持部30(第2パネル2)を接近させると、磁石13のN極部分と磁石33のN極部分が接近して、磁石13と磁石33との間に反発力が生じ、移動体12と移動体32には互いに離れる方向に移動しようとする力、すなわち、移動体12には左方あるいは右方に移動しようとする力が作用し、移動体32には移動体12と反対方向に移動しようとする力が作用する。
このため、移動体12が左方または右方に移動し、移動体32がその逆方向に移動して磁石13が磁石33と対向しない位置にくると、磁石13のN極部分は、強磁性体である移動体32を吸着し、磁石33のN極部分は、強磁性体である移動体12を吸着する。
これにより、第1パネル1と第2パネル2が保持部10と保持部30において上下方向に強固に連結固定される。
同様にして、保持部10と保持部40において、あるいは、保持部20と保持部30において、さらには、保持部20と保持部40において第1パネル1と第2パネル2を上下方向に強固に連結固定することができる。
さらに、第1パネル1と第2パネル2の上部と下部と左右側部に磁石を固定した移動体を備えた保持部を取り付けることにより、第1パネル1と第2パネル2を上下方向と左右方向のいずれの方向にも連結固定することができる。
In the present embodiment, holding portions 10 and 20 are attached to both side portions of the first panel 1, holding portions 30 and 40 are attached to both side portions of the second panel 2, and the first panel 1 and the second panel 2 are mounted in the left-right direction. Although the embodiment in which the first panel 1 and the second panel 2 are arranged and connected is shown, even if the holding portions are attached to the upper and lower parts of the first panel 1 and the second panel 2 and the first panel 1 and the second panel 2 are arranged and connected in the vertical direction. good.
FIG. 11 is a perspective view showing a state in which each of the first panel 1 and the second panel 2 shown in FIG. 1 is rotated by 90 degrees and arranged in the vertical direction.
The moving body 12 in which the magnet 13 is fixed by the countersunk screw 14 is fitted in the side frame 11 of the holding portion 10, and the moving body 22 in which the magnet 23 is fixed by the countersunk screw 24 is fitted in the side frame 21 of the holding portion 20. The moving body 32 in which the magnet 33 is fixed by the countersunk screw 34 is fitted into the side frame 31 of the holding portion 30, and the moving body 42 in which the magnet 43 is fixed by the countersunk screw 44 is fitted in the side frame 41 of the holding portion 40. , And the range of movement of the moving bodies 12, 22, 32, 42 in the left-right direction is limited by the elongated holes 11c, 21c, 31c, 41c provided in each side frame.
As shown in FIG. 11, when the holding portion 10 (first panel 1) and the holding portion 30 (second panel 2) are brought close to each other in a state where the magnet 13 and the magnet 33 are opposed to each other, the north pole portion of the magnet 13 is formed. The north pole portion of the magnet 33 approaches, a repulsive force is generated between the magnet 13 and the magnet 33, and the moving body 12 and the moving body 32 tend to move away from each other, that is, the moving body 12. A force that tries to move to the left or right acts on the moving body 32, and a force that tries to move in the opposite direction to the moving body 12 acts on the moving body 32.
Therefore, when the moving body 12 moves to the left or right, the moving body 32 moves in the opposite direction, and the magnet 13 comes to a position where it does not face the magnet 33, the north pole portion of the magnet 13 becomes ferromagnetic. The moving body 32, which is a body, is attracted, and the N-pole portion of the magnet 33 attracts the moving body 12, which is a ferromagnet.
As a result, the first panel 1 and the second panel 2 are firmly connected and fixed in the vertical direction at the holding portion 10 and the holding portion 30.
Similarly, in the holding portion 10 and the holding portion 40, or in the holding portion 20 and the holding portion 30, and further, in the holding portion 20 and the holding portion 40, the first panel 1 and the second panel 2 are firmly held in the vertical direction. Can be connected and fixed.
Further, by attaching a holding portion having a moving body in which magnets are fixed to the upper part, the lower part, and the left and right side parts of the first panel 1 and the second panel 2, the first panel 1 and the second panel 2 can be moved up and down and left and right. It can be connected and fixed in any direction.

以上のように、第1パネル1と第2パネル2の両側部あるいは上部と下部に、同一の磁極が対向するように磁石13、23、33、43を固定した移動体12、22、32、42を備えた保持部10、20、30、40を取り付け、その移動範囲を制限することにより、第1パネル1と第2パネル2を接近させると、接近する一方の保持部の磁石が他方の保持部の磁石と対向する位置から対向しない位置に移動して、一方の保持部の磁石が他方の保持部の移動体を吸着し、他方の保持部の磁石が一方の保持部の移動体を吸着し、第1パネル1と第2パネル2を左右どちら側の側部あるいは上部と下部のいずれにおいても強固に連結固定することができる。 As described above, the moving bodies 12, 22, 32, in which magnets 13, 23, 33, and 43 are fixed so that the same magnetic poles face each other on both sides or the upper and lower parts of the first panel 1 and the second panel 2. When the first panel 1 and the second panel 2 are brought close to each other by attaching holding portions 10, 20, 30, and 40 provided with 42 and limiting the range of movement thereof, the magnet of one holding portion that approaches becomes the other. Moving from a position facing the magnet of the holding part to a position not facing the magnet of the holding part, the magnet of one holding part attracts the moving body of the other holding part, and the magnet of the other holding part moves the moving body of one holding part. By adsorbing, the first panel 1 and the second panel 2 can be firmly connected and fixed on either the left or right side side or the upper part and the lower part.

[パネルの連結動作2]
次に、位置切替手段により第1パネル1と第2パネル2を連結する動作(パネルの連結動作2)を説明する。
まず、第1パネル1側の移動体12の位置を切り替えて第1パネル1の右側の保持部と第2パネル2の左側の保持部において両パネルを連結する場合について説明する。
図12は、第1パネル1の移動体12と第2パネル2の移動体32の周辺の拡大縦断面図であり、同図(a)は、移動体12の位置を切り替える前の状態の一例を表し、同図(b)は、移動体12の位置を切り替えた後の状態の一例を表している。図において、30Bは保持部、31f、31gはピン穴、36はピンである。
保持部10B(第1パネル1)の移動体12には、N極部分13Nがパネル本体3と反対側に位置し、S極部分13Sがパネル本体3側に位置するように磁石13が固定され、保持部30B(第2パネル2)の移動体32には、N極部分33Nがパネル本体4と反対側に位置し、S極部分33Sがパネル本体4側に位置するように磁石33が固定されている。
この場合、移動体12は、皿ネジ14の先端部が長穴11cの下端の位置にくるまで下がった状態で、ピン16がピン穴11fに差し込まれてその位置が固定され、磁石13は位置P1aにあり、移動体32も、皿ネジ34の先端部が長穴31cの下端の位置にくるまで下がった状態で、ピン36がピン穴31fに差し込まれてその位置が固定され、磁石33は位置P2aにあり、磁石13(N極部分13N)と磁石33(N極部分33N)が対向している(図12(a))。
そして、保持部10Bにおいて、ピン穴11fからピン16を抜き取り、磁石13が磁石33と対向しない位置P1bにくるように移動体12を上方に移動させ、抜き取ったピン16をピン穴11gに差し込み移動体12が下方に移動しないようにする(図12(b))。
このようにして磁石13を磁石33と対向する位置P1aから対向しない位置P1bに切り替えることができる。
この後、保持部10B(第1パネル1)と保持部30B(第2パネル2)を接近させると、磁石13のN極部分13Nは、強磁性体である移動体32を吸着し、磁石33のN極部分33Nは、強磁性体である移動体12を吸着する。
これにより、第1パネル1と第2パネル2が保持部10Bと保持部30Bにおいて強固に連結固定される。
[Panel connection operation 2]
Next, an operation of connecting the first panel 1 and the second panel 2 by the position switching means (panel connection operation 2) will be described.
First, a case where both panels are connected by the holding portion on the right side of the first panel 1 and the holding portion on the left side of the second panel 2 by switching the position of the moving body 12 on the first panel 1 side will be described.
FIG. 12 is an enlarged vertical cross-sectional view of the periphery of the moving body 12 of the first panel 1 and the moving body 32 of the second panel 2, and FIG. 12A is an example of a state before switching the position of the moving body 12. (B) shows an example of the state after the position of the moving body 12 is switched. In the figure, 30B is a holding portion, 31f and 31g are pin holes, and 36 is a pin.
A magnet 13 is fixed to the moving body 12 of the holding portion 10B (first panel 1) so that the north pole portion 13N is located on the opposite side of the panel main body 3 and the south pole portion 13S is located on the panel main body 3 side. A magnet 33 is fixed to the moving body 32 of the holding portion 30B (second panel 2) so that the north pole portion 33N is located on the opposite side of the panel main body 4 and the south pole portion 33S is located on the panel main body 4 side. Has been done.
In this case, in the moving body 12, the pin 16 is inserted into the pin hole 11f to fix the position of the moving body 12 in a state where the tip of the countersunk screw 14 is lowered to the position of the lower end of the elongated hole 11c, and the magnet 13 is positioned. In the moving body 32 on P1a, the pin 36 is inserted into the pin hole 31f to fix the position of the moving body 32 in a state where the tip of the countersunk screw 34 is lowered to the position of the lower end of the slotted hole 31c, and the magnet 33 is At position P2a, the magnet 13 (N-pole portion 13N) and the magnet 33 (N-pole portion 33N) face each other (FIG. 12A).
Then, in the holding portion 10B, the pin 16 is extracted from the pin hole 11f, the moving body 12 is moved upward so that the magnet 13 comes to the position P1b that does not face the magnet 33, and the extracted pin 16 is inserted into the pin hole 11g and moved. Prevent the body 12 from moving downward (FIG. 12 (b)).
In this way, the magnet 13 can be switched from the position P1a facing the magnet 33 to the position P1b not facing the magnet 33.
After that, when the holding portion 10B (first panel 1) and the holding portion 30B (second panel 2) are brought close to each other, the N-pole portion 13N of the magnet 13 attracts the moving body 32 which is a ferromagnet, and the magnet 33. The north pole portion 33N of the above adsorbs the moving body 12 which is a ferromagnet.
As a result, the first panel 1 and the second panel 2 are firmly connected and fixed at the holding portion 10B and the holding portion 30B.

次いで、第2パネル2側の移動体32の位置を切り替えて第1パネル1と第2パネル2を保持部10Bと保持部30Bにおいて連結する場合について説明する。
図13は、第1パネル1の移動体12と第2パネル2の移動体32の周辺の拡大縦断面図であり、同図(a)は、移動体32の位置を切り替える前の状態の一例を表し、同図(b)は、移動体32の位置を切り替えた後の状態の一例を表している。
この場合、ピン穴11f、31fに差し込まれたピン16、36により、移動体12、32が固定され、磁石13、33は位置P1a、位置P2aにあり、磁石13(N極部分13N)と磁石33(N極部分33N)が対向している(図13(a))。
そして、保持部30Bにおいて、ピン穴31fからピン36を抜き取り、磁石33が磁石13と対向しない位置P2bにくるように移動体32を上方に移動させ、抜き取ったピン36をピン穴31gに差し込み移動体32が下方に移動しないようにする(図13(b))。
このようにして磁石33を磁石13と対向する位置P2aから対向しない位置P2bに切り替えることができる。
この後、保持部10B(第1パネル1)と保持部30B(第2パネル2)を接近させると、磁石13のN極部分13Nは、強磁性体である移動体32を吸着し、磁石33のN極部分33Nは、強磁性体である移動体12を吸着する。
これにより、第1パネル1と第2パネル2が保持部10Bと保持部30Bにおいて強固に連結固定される。
同様にして、保持部10Bと保持部30Bの組合せ以外の保持部の組合せにおいて第1パネル1と第2パネル2を強固に連結することができる。
Next, a case where the positions of the moving body 32 on the second panel 2 side are switched and the first panel 1 and the second panel 2 are connected by the holding portion 10B and the holding portion 30B will be described.
FIG. 13 is an enlarged vertical cross-sectional view of the periphery of the moving body 12 of the first panel 1 and the moving body 32 of the second panel 2, and FIG. 13A is an example of a state before switching the position of the moving body 32. (B) shows an example of the state after switching the position of the moving body 32.
In this case, the moving bodies 12 and 32 are fixed by the pins 16 and 36 inserted into the pin holes 11f and 31f, the magnets 13 and 33 are at positions P1a and P2a, and the magnet 13 (N pole portion 13N) and the magnet. 33 (N pole portion 33N) face each other (FIG. 13 (a)).
Then, in the holding portion 30B, the pin 36 is pulled out from the pin hole 31f, the moving body 32 is moved upward so that the magnet 33 comes to the position P2b that does not face the magnet 13, and the pulled out pin 36 is inserted into the pin hole 31g and moved. Prevent the body 32 from moving downward (FIG. 13 (b)).
In this way, the magnet 33 can be switched from the position P2a facing the magnet 13 to the position P2b not facing the magnet 13.
After that, when the holding portion 10B (first panel 1) and the holding portion 30B (second panel 2) are brought close to each other, the N-pole portion 13N of the magnet 13 attracts the moving body 32 which is a ferromagnet, and the magnet 33. The north pole portion 33N of the above adsorbs the moving body 12 which is a ferromagnet.
As a result, the first panel 1 and the second panel 2 are firmly connected and fixed at the holding portion 10B and the holding portion 30B.
Similarly, the first panel 1 and the second panel 2 can be firmly connected in the combination of the holding portions other than the combination of the holding portion 10B and the holding portion 30B.

以上のように、第1パネル1と第2パネル2の両側部あるいは上部と下部に、同一の磁極が対向するように磁石13、23、33、43を固定した移動体12、22、32、42を備えた保持部を取り付け、各磁石の位置を切り替えられるようにしておき、連結しようとする一方の保持部にある磁石の位置を他方の保持部にある磁石と対向する位置から対向しない位置に切り替えることにより、第1パネル1と第2パネル2を接近させると、接近する一方の保持部の磁石が他方の保持部の移動体を吸着し、他方の保持部の磁石が一方の保持部の移動体を吸着し、第1パネル1と第2パネル2を左右どちら側の側部あるいは上部と下部のいずれにおいても強固に連結固定することができる。 As described above, the moving bodies 12, 22, 32, in which the magnets 13, 23, 33, and 43 are fixed so that the same magnetic poles face each other on both sides or the upper and lower parts of the first panel 1 and the second panel 2. A holding part provided with 42 is attached so that the position of each magnet can be switched, and the position of the magnet in one holding part to be connected is changed from the position facing the magnet in the other holding part to the position not facing each other. When the first panel 1 and the second panel 2 are brought close to each other by switching to, the magnet of the approaching one holding portion attracts the moving body of the other holding portion, and the magnet of the other holding portion attracts the moving body of the other holding portion. The moving body of the above can be attracted, and the first panel 1 and the second panel 2 can be firmly connected and fixed to either the left or right side portion or the upper portion and the lower portion.

[連結用パーテーション]
次に、本発明を連結用パーテーションに適用した実施形態について説明する。
図14は、本発明の連結用部材(第1の部材)となる第1パーテーションと、本発明の被連結用部材(第2の部材)となる第2パーテーションを左右方向に並べて離して配置した状態の斜視図である。
図中、51は第1パーテーション、52は第2パーテーション、53、54はパーテーション本体、53a、54aは上枠、53b、54bは下枠、53c〜53f、54c〜54fはプレート、53g、54gは脚部、60、70、80、90は保持部、61、71、81、91は側枠、62A、62B、92A、92Bは移動体、63A、63B、93A、93Bは磁石、64A、64B、94A、94Bは皿ネジである。
図14に示すように第1パーテーション51は、図1の第1パネル1と近似した構成であり、パーテーション本体3と保持部60、70等から構成され、保持部60の右側には断面が凸形状の案内溝が形成され、保持部60の左側には断面が長方形の嵌合部が形成され、保持部70にも同様の案内溝と嵌合部が形成されている。
第2パーテーション52は、第1パーテーション51と同じ構成であり、パーテーション本体54と保持部80、90等から構成され、保持部80、90には、保持部60、70に形成された案内溝と嵌合部と同じ案内溝と嵌合部が形成されている。
そして、第1パーテーション51においては、第1パネル1と同様に、パーテーション本体53の上部と下部に、断面がコの字状の上枠53aと下枠53bが嵌め込まれ、パーテーション本体53の右側部には、側枠61の嵌合部が嵌め込まれて保持部60が取り付けられ、パーテーション本体53の左側部には側枠71が嵌め込まれて保持部70が取り付けられている。
また、第1パーテーション51においては、第1パネル1と同様に、側枠61、71の上面には、プレート53e、53cが接着剤等により取り付けられ、側枠61、71の下面には、プレート53f、53dが接着剤等により取り付けられている。
さらに、
第2パーテーション52においても、パーテーション本体54の上部と下部に、断面がコの字状の上枠54aと下枠54bが嵌め込まれ、パーテーション本体54の左側部には、側枠81が嵌め込まれて保持部80が取り付けられ、パネル本体54の右側部には側枠91が嵌め込まれて保持部90が取り付けられている。
また、側枠81、91の上面には、プレート54c、54eが接着剤等により取り付けられ、側枠81、91の下面には、プレート54d、54fが接着剤等により取り付けられている。
さらに、第1パーテーション51の下枠53bの下面中央部には脚部53gが取り付けられ、第2パーテーション54の下枠54bの下面中央部には脚部54gが取り付けられている。
[Partition for connection]
Next, an embodiment in which the present invention is applied to a connecting partition will be described.
In FIG. 14, the first partition, which is the connecting member (first member) of the present invention, and the second partition, which is the connecting member (second member) of the present invention, are arranged side by side in the left-right direction and separated from each other. It is a perspective view of the state.
In the figure, 51 is the first partition, 52 is the second partition, 53 and 54 are the partition body, 53a and 54a are the upper frames, 53b and 54b are the lower frames, 53c to 53f and 54c to 54f are the plates, and 53g and 54g are the plates. Legs, 60, 70, 80, 90 are holding parts, 61, 71, 81, 91 are side frames, 62A, 62B, 92A, 92B are moving bodies, 63A, 63B, 93A, 93B are magnets, 64A, 64B, 94A and 94B are countersunk screws.
As shown in FIG. 14, the first partition 51 has a configuration similar to that of the first panel 1 of FIG. 1, and is composed of a partition main body 3 and holding portions 60, 70, etc., and has a convex cross section on the right side of the holding portion 60. A guide groove having a shape is formed, a fitting portion having a rectangular cross section is formed on the left side of the holding portion 60, and a similar guide groove and fitting portion are formed on the holding portion 70.
The second partition 52 has the same configuration as the first partition 51, and is composed of a partition main body 54, holding portions 80, 90, etc., and the holding portions 80, 90 are provided with guide grooves formed in the holding portions 60, 70. The same guide groove and fitting portion as the fitting portion are formed.
Then, in the first partition 51, similarly to the first panel 1, the upper frame 53a and the lower frame 53b having a U-shaped cross section are fitted into the upper and lower parts of the partition main body 53, and the right side portion of the partition main body 53 is formed. The fitting portion of the side frame 61 is fitted to the holding portion 60, and the side frame 71 is fitted to the left side portion of the partition main body 53 to attach the holding portion 70.
Further, in the first partition 51, similarly to the first panel 1, plates 53e and 53c are attached to the upper surfaces of the side frames 61 and 71 with an adhesive or the like, and plates are attached to the lower surfaces of the side frames 61 and 71. 53f and 53d are attached by an adhesive or the like.
Moreover,
Also in the second partition 52, the upper frame 54a and the lower frame 54b having a U-shaped cross section are fitted in the upper and lower parts of the partition main body 54, and the side frame 81 is fitted in the left side portion of the partition main body 54. The holding portion 80 is attached, and the side frame 91 is fitted into the right side portion of the panel main body 54 to attach the holding portion 90.
Further, the plates 54c and 54e are attached to the upper surfaces of the side frames 81 and 91 with an adhesive or the like, and the plates 54d and 54f are attached to the lower surfaces of the side frames 81 and 91 with an adhesive or the like.
Further, a leg portion 53g is attached to the lower center portion of the lower frame 53b of the first partition 51, and a leg portion 54g is attached to the lower surface center portion of the lower frame 54b of the second partition 54.

[パーテーションにおける保持部の第1の構成]
まず、本発明の位置変更手段が反発移動手段である場合のパーテーションにおける保持部の構成(第1の構成)について説明する。
図15は、図14に示す第1パーテーションと第2パーテーションの縦断面図である。
図中、61c1、61c2、71c1、71c2、81c1、81c2、91c1、91c2は長穴、72A、72B、82A、82Bは移動体、73A、73B、83A、83Bは磁石、74A、74B、84A、84Bは皿ネジである。
第1パーテーション51の保持部60は、本発明の保持手段(第1の保持手段)となるもので、第1パネル1と類似の構成を有し、強磁性体でないアルミ材、プラスチック等からなる側枠61を備えているが、第1パネル1と異なり、強磁性体である鉄材等からなる2個の移動体62、65を備えている。
すなわち、保持部60の上部においては、側枠61の案内溝に凸形状の移動体62Aが摺動自在に嵌め込まれ、移動体62Aに丸型の磁石63Aが嵌め込まれ、磁石63Aには皿ネジ64Aが挿入され、皿ネジ64Aは移動体62Aのネジ穴にネジ止めされ、これにより移動体62Aの中央部に磁石63Aが固定されている。
また、保持部60の下部においては、側枠61の案内溝に凸形状の移動体62Bが摺動自在に嵌め込まれ、移動体62Bに丸型の磁石63Bが嵌め込まれ、磁石63Bには皿ネジ64Bが挿入され、皿ネジ64Bは移動体62Bのネジ穴にネジ止めされ、これにより移動体62Bの中央部に磁石63Bが固定されている。
そして、移動体62A、62Bの左側面部からは皿ネジ64A、64Bの先端部が突出しており、この突出した皿ネジ64A、64Bの先端部が、側枠61の移動体62A、62Bが摺動する面に設けられた長穴61c1、61c2に嵌め込まれている。
この側枠61の案内溝、長穴61c1、61c2、移動体62A、62Bは、本発明の位置変更手段となる反発移動手段(第1の反発移動手段)を構成し、強磁性体の移動体62A、62Bは、本発明の吸着手段(第1の吸着手段)となり、磁石63A、63Bは、本発明の連結用部材側の磁石(第1の磁石)となり、案内溝が設けられた側枠61は、本発明の案内部(第1の案内部)となり、長穴61c1、61c2は、本発明の移動範囲制限部(第1の移動範囲制限部)となる。
この場合、第1パネル1と同様に、側枠61は強磁性体でないため、磁石63A、63Bが固定された移動体62A、62Bは、側枠61に吸着せず、案内溝に沿って上下方向に移動可能となると共に、その移動範囲は、長穴61c1、61c2によって制限される。
また、本発明の移動範囲制限部(第1の移動範囲制限部)として、長穴61c1、61c2に代えて、図5に示す凸起12d、12eを、側枠61の移動体62A、62Bが摺動する面の上部と下部に設け、移動体62A、62Bの移動範囲を制限してもよい。
次に、第1パーテーション51の保持部70は、保持部60と同様に、強磁性体でないアルミ材、プラスチック等からなる側枠71、強磁性体である鉄材等からなる2個の移動体72A、72B、磁石73A、73B、皿ネジ74A、74B等から構成され、各部の構成も保持部60と同じである。
すなわち、皿ネジ74A、74Bにより磁石73A、73Bが固定された移動体72A、72Bが、側枠71の案内溝に摺動自在に嵌め込まれ、移動体72A、72Bの側面から突出した皿ネジ74A、74Bの先端部が、側枠71に設けられた長穴71c1、71c2に嵌め込まれている。
これにより、磁石73A、73Bが固定された移動体72A、72Bは、側枠71の案内溝に沿って上下方向に移動可能となると共に、その移動範囲は、長穴71c1、71c2によって制限される。
なお、保持部60と同様に、側枠71の移動体72A、72Bが摺動する面の上部と下部には、制長穴71c1、71c2に代えて、図5に示す凸起12d、12eを設け、移動体72A、72Bの移動範囲を制限してもよい。
[First configuration of the holding part in the partition]
First, the configuration (first configuration) of the holding portion in the partition when the position changing means of the present invention is the repulsive moving means will be described.
FIG. 15 is a vertical cross-sectional view of the first partition and the second partition shown in FIG.
In the figure, 61c1, 61c2, 71c1, 71c2, 81c1, 81c2, 91c1, 91c2 are elongated holes, 72A, 72B, 82A, 82B are mobile bodies, 73A, 73B, 83A, 83B are magnets, 74A, 74B, 84A, 84B. Is a countersunk screw.
The holding portion 60 of the first partition 51 serves as a holding means (first holding means) of the present invention, has a structure similar to that of the first panel 1, and is made of a non-ferromagnetic aluminum material, plastic, or the like. It is provided with a side frame 61, but unlike the first panel 1, it is provided with two moving bodies 62 and 65 made of a ferromagnet such as an iron material.
That is, in the upper part of the holding portion 60, the convex moving body 62A is slidably fitted in the guide groove of the side frame 61, the round magnet 63A is fitted in the moving body 62A, and the countersunk screw is fitted in the magnet 63A. 64A is inserted, and the countersunk screw 64A is screwed into the screw hole of the moving body 62A, whereby the magnet 63A is fixed to the central portion of the moving body 62A.
Further, in the lower part of the holding portion 60, a convex moving body 62B is slidably fitted into the guide groove of the side frame 61, a round magnet 63B is fitted into the moving body 62B, and a countersunk screw is fitted into the magnet 63B. 64B is inserted, and the countersunk screw 64B is screwed into the screw hole of the moving body 62B, whereby the magnet 63B is fixed to the central portion of the moving body 62B.
The tips of the countersunk screws 64A and 64B project from the left side surfaces of the moving bodies 62A and 62B, and the tip portions of the protruding countersunk screws 64A and 64B slide on the moving bodies 62A and 62B of the side frame 61. It is fitted into the elongated holes 61c1 and 61c2 provided on the surface to be used.
The guide groove, the elongated holes 61c1, 61c2, and the moving bodies 62A and 62B of the side frame 61 constitute the repulsive moving means (first repulsive moving means) which is the position changing means of the present invention, and the moving body of the ferromagnetic material. 62A and 62B serve as the suction means (first suction means) of the present invention, and magnets 63A and 63B serve as magnets (first magnet) on the connecting member side of the present invention, and side frames provided with guide grooves. Reference numeral 61 denotes a guide portion (first guide portion) of the present invention, and elongated holes 61c1 and 61c2 serve as a movement range limiting portion (first movement range limiting portion) of the present invention.
In this case, since the side frame 61 is not a ferromagnet as in the first panel 1, the moving bodies 62A and 62B to which the magnets 63A and 63B are fixed do not attract to the side frame 61 and move up and down along the guide groove. The movement range is limited by the elongated holes 61c1 and 61c2 while being movable in the direction.
Further, as the movement range limiting portion (first movement range limiting portion) of the present invention, instead of the elongated holes 61c1 and 61c2, the protrusions 12d and 12e shown in FIG. 5 are replaced by the moving bodies 62A and 62B of the side frame 61. It may be provided on the upper part and the lower part of the sliding surface to limit the moving range of the moving bodies 62A and 62B.
Next, the holding portion 70 of the first partition 51, like the holding portion 60, is a side frame 71 made of a non-ferromagnetic aluminum material, plastic or the like, and two moving bodies 72A made of a ferromagnetic iron material or the like. , 72B, magnets 73A, 73B, countersunk screws 74A, 74B, etc., and the configuration of each part is the same as that of the holding part 60.
That is, the moving bodies 72A and 72B to which the magnets 73A and 73B are fixed by the countersunk screws 74A and 74B are slidably fitted into the guide groove of the side frame 71, and the countersunk screws 74A protruding from the side surfaces of the moving bodies 72A and 72B. , 74B is fitted into the elongated holes 71c1 and 71c2 provided in the side frame 71.
As a result, the moving bodies 72A and 72B to which the magnets 73A and 73B are fixed can move in the vertical direction along the guide groove of the side frame 71, and the moving range thereof is limited by the elongated holes 71c1 and 71c2. ..
Similar to the holding portion 60, the protrusions 12d and 12e shown in FIG. 5 are provided on the upper and lower portions of the surface on which the moving bodies 72A and 72B of the side frame 71 slide, instead of the length control holes 71c1 and 71c2. It may be provided to limit the moving range of the moving bodies 72A and 72B.

第2パーテーション52の保持部80、90は、第1パーテーション51の保持部60、70と同様に、強磁性体でないアルミ材、プラスチック等からなる側枠81、91、強磁性体である鉄材等からなる移動体82A、82B、92A、92B、磁石83A、83B、93A、93B、皿ネジ84A、84B、94A、94B等から構成され、各部の構成も保持部60、70と同じである。
すなわち、保持部80においては、皿ネジ84A、84Bにより磁石83A、83Bが固定された移動体82A、82Bが、側枠81の案内溝に摺動自在に嵌め込まれ、移動体82A、82Bの側面から突出した皿ネジ84A、84Bの先端部が、側枠81に設けられた長穴81c1、81c2に嵌め込まれている。
また、保持部90においては、皿ネジ94A、94Bにより磁石93A、93Bが固定された移動体92A、92Bが、側枠91の案内溝に摺動自在に嵌め込まれ、移動体92A、92Bの側面から突出した皿ネジ94A、94Bの先端部が、側枠91に設けられた長穴91c1、91c2に嵌め込まれている。
この側枠81の案内溝、長穴81c1、81c2、磁石83A、83Bが固定された移動体82A、82Bは、本発明の第2の反発移動手段を構成し、強磁性体である移動体82A、82Bは、本発明の第2の吸着手段となり、磁石83A、83Bは、本発明の被連結用部材側の磁石(第2の磁石)となり、案内溝が設けられた側枠81は、本発明の第2の案内部となり、長穴81c1、81c2は、本発明の第2の移動範囲制限部となる。
そして、第1パーテーション51と第2パーテーション52は離れていることから、移動体62A、62Bと移動体82A、82Bも離れており、移動体62A、62B、移動体82A、82Bは、対向する磁石83A、83B、磁石63A、63Bの磁力の影響を受けず、図15に示すように移動体62A、62B、移動体82A、82Bは、皿ネジ64A、64B、皿ネジ84A、84Bの先端部が長穴61c1、61c2の下端の位置、長穴81c1、81c2の下端の位置にくるまで、自重によって下がっている。同様に、移動体72A、72B、移動体92A、92Bも、皿ネジ74A、74B、皿ネジ94A、94Bの先端部が長穴71c1、71c2の下端の位置、長穴91c1、91c2の下端の位置にくるまで、自重によって下がっている。
なお、保持部80や保持部90においても、保持部60や保持部70と同様に、側枠81、91の移動体82A、82B、移動体92A、92Bが摺動する面の上部と下部には、長穴81c1、81c2、長穴91c1、91c2に代えて、図5に示す凸起12d、12eを設け、移動体82A、82B、移動体92A、92Bの移動範囲を制限してもよい。
Similar to the holding portions 60 and 70 of the first partition 51, the holding portions 80 and 90 of the second partition 52 have side frames 81 and 91 made of non-ferromagnetic aluminum material, plastic and the like, and iron materials and the like which are ferromagnets. It is composed of moving bodies 82A, 82B, 92A, 92B, magnets 83A, 83B, 93A, 93B, countersunk screws 84A, 84B, 94A, 94B, etc., and the configuration of each part is the same as that of the holding parts 60, 70.
That is, in the holding portion 80, the moving bodies 82A and 82B to which the magnets 83A and 83B are fixed by the countersunk screws 84A and 84B are slidably fitted into the guide groove of the side frame 81, and the side surfaces of the moving bodies 82A and 82B. The tip portions of the countersunk screws 84A and 84B protruding from the side frame 81 are fitted into the elongated holes 81c1 and 81c2 provided in the side frame 81.
Further, in the holding portion 90, the moving bodies 92A and 92B to which the magnets 93A and 93B are fixed by the countersunk screws 94A and 94B are slidably fitted into the guide groove of the side frame 91, and the side surfaces of the moving bodies 92A and 92B. The tip portions of the countersunk screws 94A and 94B protruding from the side frame 91 are fitted into the elongated holes 91c1 and 91c2 provided in the side frame 91.
The guide groove of the side frame 81, the elongated holes 81c1, 81c2, and the moving bodies 82A and 82B to which the magnets 83A and 83B are fixed constitute the second repulsive moving means of the present invention, and the moving body 82A which is a ferromagnetic material. , 82B serve as the second attracting means of the present invention, the magnets 83A and 83B serve as magnets (second magnets) on the side of the member to be connected of the present invention, and the side frame 81 provided with the guide groove is the present invention. The second guide portion of the present invention is provided, and the elongated holes 81c1 and 81c2 are the second movement range limiting portions of the present invention.
Since the first partition 51 and the second partition 52 are separated from each other, the moving bodies 62A and 62B and the moving bodies 82A and 82B are also separated, and the moving bodies 62A and 62B and the moving bodies 82A and 82B are opposed to each other. As shown in FIG. 15, the moving bodies 62A and 62B and the moving bodies 82A and 82B are not affected by the magnetic forces of the 83A and 83B and the magnets 63A and 63B. It is lowered by its own weight until it reaches the position of the lower end of the elongated holes 61c1 and 61c2 and the position of the lower end of the elongated holes 81c1 and 81c2. Similarly, in the moving bodies 72A and 72B and the moving bodies 92A and 92B, the tips of the countersunk screws 74A and 74B and the countersunk screws 94A and 94B are located at the lower ends of the slotted holes 71c1 and 71c2, and the positions of the lower ends of the slotted holes 91c1 and 91c2. It is lowered by its own weight until it comes to.
In the holding portion 80 and the holding portion 90, similarly to the holding portion 60 and the holding portion 70, the moving bodies 82A and 82B and the moving bodies 92A and 92B of the side frames 81 and 91 are placed on the upper and lower parts of the sliding surface. May provide the protrusions 12d and 12e shown in FIG. 5 in place of the elongated holes 81c1 and 81c2 and the elongated holes 91c1 and 91c2 to limit the moving range of the moving bodies 82A and 82B and the moving bodies 92A and 92B.

[パーテーションにおける保持部の第2の構成]
次に、本発明の位置変更手段が位置切替手段である場合のパーテーションにおける保持部の構成(第2の構成)について説明する。
図16は、位置切替手段が設けられた第1パーテーションと第2パーテーションを並べたものの縦断面図である。図中、51Bは第1パーテーション、52Bは第2パーテーション、60B、70B、80B、90Bは保持部、61f1、61g1、61f2、61g2、71f1、71g1、71f2、71g2、81f1、81g1、81f2、81g2、91f1、91g1、91f2、91g2はピン穴、66A、66B、76A、76B、86A、86B、96A、96Bはピンであり、図15に示す第1パーテーション51と第2パーテーション52の構成と同じものには同一の符号を付してある。
図16に示すように、第1パーテーション51Bの保持部60Bの上部においては、側枠61の移動体62Aが摺動する面には、長穴61c1の上側と下側にピン穴61f1、61g1が設けられており、ピン66Aを差し込むピン穴をピン穴61f1からピン穴61g1に変えることにより、移動体62Aの位置を切り替えられるようになっている。
また、保持部60Bの下部においても、側枠61の移動体62Bが摺動する面には、長穴61c2の上側と下側にピン穴61f2、61g2が設けられており、ピン66Bを差し込むピン穴をピン穴61f2からピン穴61g2に変えることにより、移動体62Bの位置を切り替えられるようになっている。
これらは、第1パネル1の保持部10において、ピン16を差し込むピン穴をピン穴11fからピン穴11gに変えることにより、移動体12の位置を切り替えられるようになっているのと同じである。
第1パーテーション51Bの保持部70Bにおいても、側枠71の移動体72A、72Bが摺動する面には、長穴71c1の上側と下側にピン穴71f1、71g1が設けられ、長穴71c2の上側と下側にピン穴71f2、71g2が設けられており、ピン76Aを差し込むピン穴をピン穴71f1からピン穴71g1に変えることにより、移動体72Aの位置を切り替えられ、ピン76Bを差し込むピン穴をピン穴71f2からピン穴71g2に変えることにより、移動体72Bの位置を切り替えられるようになっている。
同様に、第2パーテーション52Bの保持部80Bにおいても、側枠81の移動体82A、82Bが摺動する面には、長穴81c1の上側と下側にピン穴81f1、81g1が設けられ、長穴81c2の上側と下側にピン穴81f2、81g2が設けられており、ピン86Aを差し込むピン穴をピン穴81f1からピン穴81g1に変えることにより、移動体82Aの位置を切り替えられ、ピン86Bを差し込むピン穴をピン穴81f2からピン穴81g2に変えることにより、移動体82Bの位置を切り替えられるようになっている。
さらに、第2パーテーション52Bの保持部90Bにおいても、側枠91の移動体92A、92Bが摺動する面には、長穴91c1の上側と下側にピン穴91f1、91g1が設けられ、長穴91c2の上側と下側にピン穴91f2、91g2が設けられており、ピン96Aを差し込むピン穴をピン穴91f1からピン穴91g1に変えることにより、移動体92Aの位置を切り替えられ、ピン96Bを差し込むピン穴をピン穴91f2からピン穴91g2に変えることにより、移動体92Bの位置を切り替えられるようになっている。
なお、本発明を連結用パーテーションに適用した場合の位置切替手段は、本発明を連結用パネルに適用した場合と同様に、上記ピン66等とピン穴61f1、61g1等に限定されるものではなく、ビス(ネジ)ビス穴(ネジ穴)等であってもよい。
[Second configuration of the holding part in the partition]
Next, the configuration (second configuration) of the holding portion in the partition when the position changing means of the present invention is the position switching means will be described.
FIG. 16 is a vertical cross-sectional view of the first partition and the second partition provided with the position switching means side by side. In the figure, 51B is the first partition, 52B is the second partition, 60B, 70B, 80B, 90B are the holding portions, 61f1, 61g1, 61f2, 61g2, 71f1, 71g1, 71f2, 71g2, 81f1, 81g1, 81f2, 81g2, 91f1, 91g1, 91f2, 91g2 are pin holes, 66A, 66B, 76A, 76B, 86A, 86B, 96A, 96B are pins, and have the same configuration as the first partition 51 and the second partition 52 shown in FIG. Have the same code.
As shown in FIG. 16, in the upper part of the holding portion 60B of the first partition 51B, pin holes 61f1 and 61g1 are provided on the upper and lower sides of the elongated hole 61c1 on the surface on which the moving body 62A of the side frame 61 slides. The position of the moving body 62A can be switched by changing the pin hole into which the pin 66A is inserted from the pin hole 61f1 to the pin hole 61g1.
Further, also in the lower part of the holding portion 60B, pin holes 61f2 and 61g2 are provided on the upper side and the lower side of the elongated hole 61c2 on the surface on which the moving body 62B of the side frame 61 slides, and a pin into which the pin 66B is inserted is provided. By changing the hole from the pin hole 61f2 to the pin hole 61g2, the position of the moving body 62B can be switched.
These are the same as the position of the moving body 12 can be switched by changing the pin hole into which the pin 16 is inserted from the pin hole 11f to the pin hole 11g in the holding portion 10 of the first panel 1. ..
Also in the holding portion 70B of the first partition 51B, pin holes 71f1 and 71g1 are provided on the upper and lower sides of the elongated holes 71c1 on the surface on which the moving bodies 72A and 72B of the side frame 71 slide, and the elongated holes 71c2 have pin holes 71f1 and 71g1. Pin holes 71f2 and 71g2 are provided on the upper and lower sides, and by changing the pin hole into which the pin 76A is inserted from the pin hole 71f1 to the pin hole 71g1, the position of the moving body 72A can be switched and the pin hole into which the pin 76B is inserted can be switched. The position of the moving body 72B can be switched by changing the pin hole 71f2 to the pin hole 71g2.
Similarly, also in the holding portion 80B of the second partition 52B, pin holes 81f1 and 81g1 are provided on the upper and lower sides of the elongated hole 81c1 on the surface on which the moving bodies 82A and 82B of the side frame 81 slide, and the length is long. Pin holes 81f2 and 81g2 are provided on the upper side and the lower side of the hole 81c2, and the position of the moving body 82A can be switched by changing the pin hole into which the pin 86A is inserted from the pin hole 81f1 to the pin hole 81g1 to switch the pin 86B. By changing the pin hole to be inserted from the pin hole 81f2 to the pin hole 81g2, the position of the moving body 82B can be switched.
Further, also in the holding portion 90B of the second partition 52B, pin holes 91f1 and 91g1 are provided on the upper and lower sides of the elongated holes 91c1 on the surface on which the moving bodies 92A and 92B of the side frame 91 slide, and the elongated holes are provided. Pin holes 91f2 and 91g2 are provided on the upper side and the lower side of 91c2. By changing the pin hole into which the pin 96A is inserted from the pin hole 91f1 to the pin hole 91g1, the position of the moving body 92A can be switched and the pin 96B is inserted. By changing the pin hole from the pin hole 91f2 to the pin hole 91g2, the position of the moving body 92B can be switched.
The position switching means when the present invention is applied to the connecting partition is not limited to the pin 66 and the like and the pin holes 61f1, 61g1 and the like as in the case where the present invention is applied to the connecting panel. , Screws (screws) Screw holes (screw holes), etc. may be used.

[パーテーションの連結動作1]
次に、反発移動手段により第1パーテーション51と第2パーテーション52を保持部60と保持部80において連結する動作(パーテーションの連結動作1)を説明する。
第1パネル1の保持部10や第2パネル2の保持部30と同様に、保持部60においても、移動体62A、62Bに、N極部分がパーテーション本体53と反対側に位置し、S極部分がパーテーション本体53側に位置するように磁石63A、63Bが固定され、保持部80においても、移動体82A、82Bに、N極部分がパーテーション本体54と反対側に位置し、S極部分がパーテーション本体54側に位置するように磁石石83A、83Bが固定されている。
この場合、移動体62A、62Bは、自重により皿ネジ64A、64Bの先端部が長穴61c1、61c2の下端の位置にくるまで下がり、移動体82A、82Bも、自重により皿ネジ84A、84Bの先端部が長穴81c1、81c2の下端の位置にくるまで下がり、磁石63Aは磁石83Aと対向する位置にあり、63Bは磁石83Bと対向する位置にある。
よって、以下に述べるように、保持部10と保持部30における第1パネル1と第2パネル2の連結固定と同様にして、保持部60と保持部80においても、第1パーテーション51と第2パーテーション52の連結固定することができる。
保持部60(第1パーテーション51)と保持部80(パーテーション52)を接近させると、磁石63AのN極部分と磁石83AのN極部分が接近し、磁石63BのN極部分と磁石83BのN極部分が接近して、磁石63Aと磁石83Aとの間に反発力が生じ、磁石63Bと磁石83Bとの間にも反発力が生じ、移動体62Aと移動体82Aには互いに離れる方向に移動しようとする力が作用し、移動体62Bと移動体82Bにも互いに離れる方向に移動しようとする力が作用する。すなわち、移動体62Aには上方あるいは下方に移動しようとする力が作用し、移動体82Aにはその反対方向に移動しようとする力が作用し、移動体62Bにも上方あるいは下方に移動しようとする力が作用し、移動体82Bにはその反対方向に移動しようとする力が作用する。
ここで、移動体62A、62Bは、皿ネジ64A、64Bの先端部が長穴61c1、61c2の下端の位置にあるため、上方にしか移動できず、移動体82A、82Bも、皿ネジ84A、84Bの先端部が長穴81c1、81c2の下端の位置にあるため、上方にしか移動できない。
移動体62Aと移動体82Aのどちらかが上方に移動して磁石63Aが磁石83Aと対向しない位置にくると、磁石63Aと磁石83Aとの間に作用する反発力が弱くなり、磁石63AのN極部分は、強磁性体である移動体82Aを吸着し、磁石83AのN極部分は、強磁性体である移動体62Aを吸着する。
同様に、移動体62Bと移動体82Bのどちらかが上方に移動して磁石63Bが磁石83Bと対向しない位置にくると、磁石63Bと磁石83Bとの間に作用する反発力が弱くなり、磁石63BのN極部分は、強磁性体である移動体82Bを吸着し、磁石83BのN極部分は、強磁性体である移動体62Bを吸着する。
これにより、第1パーテーション51と第2パーテーション52が保持部60と保持部80において強固に連結固定される。
この場合、移動体62A、62Bあるいは移動体82A、82Bの上方への移動は、長穴61c1、61c2あるいは長穴81c1、81c2によって制限されるため、磁石63A、63Bが磁石83A、83Bと対向する位置から対向しない位置まで移動体62A、62Bあるいは移動体82A、82Bが上方に移動できるように長穴61c1、61c2あるいは長穴81c1、81c2を形成しておく必要がある。
[Partition connection operation 1]
Next, an operation of connecting the first partition 51 and the second partition 52 at the holding portion 60 and the holding portion 80 by the repulsive moving means (partition connecting operation 1) will be described.
Similar to the holding portion 10 of the first panel 1 and the holding portion 30 of the second panel 2, in the holding portion 60, the north pole portion of the moving bodies 62A and 62B is located on the opposite side of the partition main body 53, and the south pole portion is located. The magnets 63A and 63B are fixed so that the portion is located on the partition main body 53 side, and also in the holding portion 80, the N pole portion is located on the moving body 82A and 82B on the opposite side of the partition main body 54, and the S pole portion is located. Magnet stones 83A and 83B are fixed so as to be located on the partition main body 54 side.
In this case, the moving bodies 62A and 62B are lowered by their own weight until the tips of the countersunk screws 64A and 64B come to the lower ends of the elongated holes 61c1 and 61c2, and the moving bodies 82A and 82B are also lowered by their own weight to the countersunk screws 84A and 84B. The tip portion is lowered to the position of the lower end of the elongated holes 81c1 and 81c2, the magnet 63A is in a position facing the magnet 83A, and 63B is in a position facing the magnet 83B.
Therefore, as described below, in the same manner as in the connection and fixing of the first panel 1 and the second panel 2 in the holding portion 10 and the holding portion 30, also in the holding portion 60 and the holding portion 80, the first partition 51 and the second partition 51 and the second The partition 52 can be connected and fixed.
When the holding portion 60 (first partition 51) and the holding portion 80 (partition 52) are brought close to each other, the north pole portion of the magnet 63A and the north pole portion of the magnet 83A come close to each other, and the north pole portion of the magnet 63B and the N pole portion of the magnet 83B. The poles approach each other, a repulsive force is generated between the magnet 63A and the magnet 83A, a repulsive force is also generated between the magnet 63B and the magnet 83B, and the moving body 62A and the moving body 82A move in a direction away from each other. A force to move acts on the moving body 62B and the moving body 82B, and a force to move in a direction away from each other also acts on the moving body 62B and the moving body 82B. That is, a force that tries to move upward or downward acts on the moving body 62A, a force that tries to move in the opposite direction acts on the moving body 82A, and the moving body 62B also tries to move upward or downward. A force acts on the moving body 82B, and a force trying to move in the opposite direction acts on the moving body 82B.
Here, since the tip portions of the countersunk screws 64A and 64B are located at the lower ends of the elongated holes 61c1 and 61c2, the moving bodies 62A and 62B can move only upward, and the moving bodies 82A and 82B also have the countersunk screws 84A and. Since the tip of 84B is located at the lower end of the elongated holes 81c1 and 81c2, it can only move upward.
When either the moving body 62A or the moving body 82A moves upward and the magnet 63A comes to a position where it does not face the magnet 83A, the repulsive force acting between the magnet 63A and the magnet 83A weakens, and the N of the magnet 63A The polar part attracts the moving body 82A which is a ferromagnet, and the N pole part of the magnet 83A attracts the moving body 62A which is a ferromagnet.
Similarly, when either the moving body 62B or the moving body 82B moves upward and the magnet 63B comes to a position where it does not face the magnet 83B, the repulsive force acting between the magnet 63B and the magnet 83B weakens, and the magnet The north pole portion of 63B attracts the moving body 82B which is a ferromagnet, and the north pole portion of the magnet 83B attracts the moving body 62B which is a ferromagnet.
As a result, the first partition 51 and the second partition 52 are firmly connected and fixed at the holding portion 60 and the holding portion 80.
In this case, the upward movement of the moving bodies 62A and 62B or the moving bodies 82A and 82B is restricted by the elongated holes 61c1 and 61c2 or the elongated holes 81c1 and 81c2, so that the magnets 63A and 63B face the magnets 83A and 83B. It is necessary to form the elongated holes 61c1 and 61c2 or the elongated holes 81c1 and 81c2 so that the moving bodies 62A and 62B or the moving bodies 82A and 82B can move upward from the position to the position where they do not face each other.

保持部60や保持部80と同様に、保持部70においても、移動体72A、72Bに、N極部分がパーテーション本体53と反対側に位置し、S極部分がパーテーション本体53側に位置するように磁石73A、73Bが固定され、保持部90においても、移動体92A、92Bに、N極部分がパーテーション本体54と反対側に位置し、S極部分がパーテーション本体54側に位置するように磁石93A、93Bが固定されている。
このため、保持部70と保持部90において、あるいは、保持部70と保持部80において、さらには、保持部70と保持部90においても、保持部60と保持部80の場合と同様にして、第1パーテーション51と第2パーテーション52を強固に連結固定することもできる。
以上のように、第1パーテーション51と第2パーテーション52の両側部の上部と下部に、同一の磁極が対向するように磁石63A、63B、磁石73A、73B、磁石83A、83B、磁石93A、93Bを固定した移動体62A、62B、移動体72A、72B、移動体82A、82B5、移動体92A、92Bを備えた保持部60、70、80、90を取り付け、その移動範囲を制限することにより、第1パーテーション51と第2パーテーション52を接近させると、接近する一方の保持部の上下の磁石が他方の保持部の上下の磁石と対向する位置から対向しない位置に移動して、一方の保持部の上下の磁石が他方の保持部の上下の移動体を吸着し、他方の保持部の上下の磁石が一方の保持部の上下の移動体を吸着し、第1パーテーション51と第2パーテーション52を左右どちら側の側部においても強固に連結固定することができる。
なお、保持部60、70、80、90に取り付ける磁石を固定した移動体の個数は、上部と下部の2個に限定されず、パーテーション本体53、54の大きさ等に対応して、上部と中央部と下部の3個でもよく、あるいは、それ以上であってもよい。
Similar to the holding portion 60 and the holding portion 80, in the holding portion 70, the N pole portion is located on the opposite side of the partition main body 53 and the S pole portion is located on the partition main body 53 side of the moving bodies 72A and 72B. The magnets 73A and 73B are fixed to the magnets 73A and 73B so that the north pole portion of the moving body 92A and 92B is located on the opposite side of the partition body 54 and the south pole portion is located on the partition body 54 side of the moving body 92A and 92B. 93A and 93B are fixed.
Therefore, in the holding unit 70 and the holding unit 90, in the holding unit 70 and the holding unit 80, and further in the holding unit 70 and the holding unit 90, as in the case of the holding unit 60 and the holding unit 80, The first partition 51 and the second partition 52 can be firmly connected and fixed.
As described above, the magnets 63A and 63B, the magnets 73A and 73B, the magnets 83A and 83B, and the magnets 93A and 93B so that the same magnetic poles face each other on the upper and lower portions of both sides of the first partition 51 and the second partition 52. By attaching holding portions 60, 70, 80, 90 provided with moving bodies 62A, 62B, moving bodies 72A, 72B, moving bodies 82A, 82B5, moving bodies 92A, 92B, and limiting the moving range thereof. When the first partition 51 and the second partition 52 are brought close to each other, the upper and lower magnets of one of the approaching holding portions move from the positions facing the upper and lower magnets of the other holding portion to the positions not facing each other, and the one holding portion is moved. The upper and lower magnets of the other holding portion attract the upper and lower moving bodies of the other holding portion, and the upper and lower magnets of the other holding portion attract the upper and lower moving bodies of the one holding portion, so that the first partition 51 and the second partition 52 are attracted to each other. It can be firmly connected and fixed on either the left or right side.
The number of moving bodies to which the magnets attached to the holding portions 60, 70, 80, 90 are fixed is not limited to the upper part and the lower part, and the upper part and the upper part correspond to the sizes of the partition main bodies 53 and 54. The number may be three at the center and the bottom, or more.

[パーテーションの連結動作2]
次に、位置切替手段により第1パーテーション51Bと第2パーテーション51Bを保持部60Bと保持部80Bにおいて連結する動作(パーテーションの連結動作2)を説明する。
保持部60B(第1パーテーション51B)の移動体62A、62Bには、N極部分がパーテーション本体53と反対側に位置し、S極部分がパーテーション本体53側に位置するように磁石63A、63Bが固定され、保持部80B(第2パーテーション52B)の移動体82A、82Bには、N極部分がパーテーション本体54と反対側に位置し、S極部分がパーテーション本体54側に位置するように磁石83A、83Bが固定されている。
この場合、図16に示すように、移動体62A、62Bは、皿ネジ64A、64Bの先端部が長穴61c1、61c2の下端の位置にくるまで下がった状態で、ピン66A、66Bがピン穴61f1、61f2に差し込まれてその位置が固定され、移動体82A、82Bも、皿ネジ84A、84Bの先端部が長穴81c1、81c2の下端の位置にくるまで下がった状態で、ピン86A、86Bがピン穴81f1、81f2に差し込まれてその位置が固定され、磁石63Aと磁石83Aが対向し、磁石63Bと磁石83Bが対向している。
そして、保持部60B、80Bの上部において、ピン66Aとピン86Aのいずれか一方をピン穴61f1、81f1からを抜き取り、磁石63Aが磁石83Aと対向しない位置にくるように移動体62Aと移動体82Aのいずれか一方を上方に移動させ、抜き取ったピンピン66Aまたはピン86Aをピン穴61g1またはピン穴81g1に差し込み、移動させた移動体62Aまたは移動体82Aが下方に移動しないようにする。
このようにして磁石63Aと磁石83Aの位置を対向する位置から対向しない位置に切り替えることができる。
保持部60B、80Bの下部においても、ピン66Bとピン86Bのいずれか一方をピン穴61f2、81f2からを抜き取り、磁石63Bが磁石83Bと対向しない位置にくるように移動体62Bと移動体82Bのいずれか一方を上方に移動させ、抜き取ったピンピン66Bまたはピン86Bをピン穴61g2またはピン穴81g2に差し込み、移動させた移動体62Bまたは移動体82Bが下方に移動しないようにする。
このようにして磁石63Bと磁石83Bの位置を対向する位置から対向しない位置に切り替えることができる。
この後、保持部60B(第1パーテーション51B)と保持部80B(第2パーテーション52B)を接近させると、磁石63AのN極部分は、強磁性体である移動体82Aを吸着し、磁石83AのN極部分は、強磁性体である移動体62Aを吸着し、また、磁石63BのN極部分は、強磁性体である移動体82Bを吸着し、磁石83BのN極部分は、強磁性体である移動体62Bを吸着する。
これにより、第1パーテーション51Bと第2パーテーション52Bが保持部60Bと保持部80Bにおいて強固に連結固定される。
同様にして、保持部10Bと保持部30Bの組合せ以外の保持部の組合せにおいて第1パーテーション51Bと第2パーテーション52Bを強固に連結することができる。
[Partition connection operation 2]
Next, an operation of connecting the first partition 51B and the second partition 51B at the holding portion 60B and the holding portion 80B by the position switching means (partition connecting operation 2) will be described.
The moving bodies 62A and 62B of the holding portion 60B (first partition 51B) have magnets 63A and 63B so that the north pole portion is located on the opposite side of the partition main body 53 and the south pole portion is located on the partition main body 53 side. On the moving bodies 82A and 82B of the fixed holding portion 80B (second partition 52B), the magnet 83A so that the north pole portion is located on the opposite side of the partition main body 54 and the south pole portion is located on the partition main body 54 side. , 83B is fixed.
In this case, as shown in FIG. 16, in the moving bodies 62A and 62B, the pins 66A and 66B are pin holes with the tips of the countersunk screws 64A and 64B lowered until the tips of the countersunk screws 64A and 64B are at the lower ends of the elongated holes 61c1 and 61c2. The positions of the moving bodies 82A and 82B are fixed by being inserted into 61f1 and 61f2, and the pins 86A and 86B of the moving bodies 82A and 82B are also lowered until the tips of the countersunk screws 84A and 84B are at the lower ends of the elongated holes 81c1 and 81c2. Is inserted into the pin holes 81f1 and 81f2 to fix the position, the magnet 63A and the magnet 83A face each other, and the magnet 63B and the magnet 83B face each other.
Then, at the upper part of the holding portions 60B and 80B, either one of the pin 66A and the pin 86A is pulled out from the pin holes 61f1 and 81f1, and the moving body 62A and the moving body 82A are arranged so that the magnet 63A does not face the magnet 83A. Either one of the above is moved upward, and the extracted pin pin 66A or pin 86A is inserted into the pin hole 61g1 or the pin hole 81g1 so that the moved moving body 62A or moving body 82A does not move downward.
In this way, the positions of the magnet 63A and the magnet 83A can be switched from the opposing positions to the non-opposing positions.
Also at the lower part of the holding portions 60B and 80B, one of the pin 66B and the pin 86B is pulled out from the pin holes 61f2 and 81f2, and the moving body 62B and the moving body 82B are placed so that the magnet 63B does not face the magnet 83B. Either one is moved upward, and the extracted pin pin 66B or pin 86B is inserted into the pin hole 61g2 or the pin hole 81g2 so that the moved moving body 62B or moving body 82B does not move downward.
In this way, the positions of the magnet 63B and the magnet 83B can be switched from the opposing positions to the non-opposing positions.
After that, when the holding portion 60B (first partition 51B) and the holding portion 80B (second partition 52B) are brought close to each other, the north pole portion of the magnet 63A attracts the moving body 82A which is a ferromagnet, and the magnet 83A The north pole part attracts the moving body 62A which is a ferromagnet, the north pole part of the magnet 63B attracts the moving body 82B which is a ferromagnet, and the north pole part of the magnet 83B is a ferromagnet. The moving body 62B is adsorbed.
As a result, the first partition 51B and the second partition 52B are firmly connected and fixed at the holding portion 60B and the holding portion 80B.
Similarly, the first partition 51B and the second partition 52B can be firmly connected in the combination of the holding portions other than the combination of the holding portion 10B and the holding portion 30B.

以上のように、第1パーテーション51と第2パーテーション52の両側部の上部と下部に、同一の磁極が対向するように磁石63A、63B、磁石73A、73B、磁石83A、83B、磁石93A、93Bを固定した移動体62A、62B、移動体72A、72B、移動体82A、82B5、移動体92A、92Bを備えた保持部60B、70B、80B、90Bを取り付け、各保持部において上下の磁石の位置を切り替えられるようにしておき、連結しようとする一方の保持部にある上下の磁石の位置を他方の保持部にある上下の磁石と対向する位置から対向しない位置に切り替えることにより、第1パーテーション51と第2パーテーション52を接近させると、一方の保持部の上下の磁石が他方の保持部の上下の移動体を吸着し、他方の保持部の上下の磁石が一方の保持部の上下の移動体を吸着し、第1パーテーション51と第2パーテーション52を左右どちら側の側部においても強固に連結固定することができる。
なお、保持部60B、70B、80B、90Bに取り付ける磁石を固定した移動体の個数は、上部と下部の2個に限定されず、パーテーション本体53、54の大きさ等に対応して、上部と中央部と下部の3個でもよく、あるいは、それ以上であってもよい。
As described above, the magnets 63A and 63B, the magnets 73A and 73B, the magnets 83A and 83B, and the magnets 93A and 93B so that the same magnetic poles face each other on the upper and lower portions of both sides of the first partition 51 and the second partition 52. The holding parts 60B, 70B, 80B, 90B provided with the moving bodies 62A, 62B, the moving bodies 72A, 72B, the moving bodies 82A, 82B5, and the moving bodies 92A, 92B are attached, and the positions of the upper and lower magnets in each holding part are attached. By switching the positions of the upper and lower magnets in one holding portion to be connected from the positions facing the upper and lower magnets in the other holding portion to the positions not facing each other, the first partition 51 When the second partition 52 and the second partition 52 are brought close to each other, the magnets above and below the one holding portion attract the moving objects above and below the other holding portion, and the magnets above and below the other holding portion attract the moving objects above and below the one holding portion. The first partition 51 and the second partition 52 can be firmly connected and fixed on either the left or right side.
The number of moving bodies fixed with magnets attached to the holding portions 60B, 70B, 80B, 90B is not limited to the upper part and the lower part, and corresponds to the size of the partition main bodies 53, 54 and the like. The number may be three at the center and the bottom, or more.

本発明の連結用部材及び部材の連結構造は、連結用部材と被連結用部材を磁石の吸着力によって連結するに際し、連結用部材と被連結用部材に取り付けられた磁石の磁極の組合せに拘束されることなく、連結用部材と被連結用部材を強固に連結できるようにするものであり、連結して使用されるパネル、パーテーション、間仕切りカーテン、間仕切りシート等に利用できる。 The connecting member and the connecting structure of the members of the present invention are constrained by the combination of the connecting member and the magnetic poles of the magnet attached to the connected member when the connecting member and the connected member are connected by the attractive force of the magnet. It enables the connecting member and the connected member to be firmly connected without being carried out, and can be used for panels, partitions, partition curtains, partition sheets and the like used in connection.

1 第1パネル
2 第2パネル
3、4 パネル本体
3a、4a 上枠
3b、4b 下枠
3c〜3f、4c〜4f プレート
10、20、30、40 保持部
10A、10B 保持部
11、21、31、41 側枠
11a 案内溝
11b 嵌合部
11c、21c、31c、41c 長穴
11d、11e 凸起
11f、11g、31f、31g ピン穴
12、22、32、42 移動体
12a 凹部
12b ネジ穴
13、23、33、43 磁石
13N、33N N極部分
13S、33S S極部分
13a 皿穴
14、24、34、44 皿ネジ
15 皿ネジ
16、36 ピン
51、51B 第1パーテーション
52、51B 第2パーテーション
53、54 パネル本体
53a、54a 上枠
53b、54b 下枠
53c〜53f、54c〜54f プレート
53g、54g 脚部
60、70、80、90 保持部
60B、70B、80B、90B 保持部
61、71、81、91 側枠
61c2、71c2、81c2、91c2 長穴
61c1、71c1、81c1、91c1 長穴
61f1、71f1、81f1、91f1 ピン穴
61g1、71g1、81g1、91g1 ピン穴
61f2、71f2、81f2、91f2 ピン穴
61g2、71g2、81g2、91g2 ピン穴
62A、72A、82A、92A 移動体
62B、72B、82B、92B 移動体
63A、73A、83A、93A 磁石
63B、73B、83B、93B 磁石
64A、74A、84A、94A 皿ネジ
64B、74B、84B、94B 皿ネジ
66A、76A、86A、96A ピン
66B、76B、86B、96B ピン

1 1st panel 2 2nd panel 3, 4 Panel body 3a, 4a Upper frame
3b, 4b Lower frame 3c to 3f, 4c to 4f Plates 10, 20, 30, 40 Holding parts 10A, 10B Holding parts 11, 21, 31, 41 Side frame 11a Guide groove 11b Fitting parts 11c, 21c, 31c, 41c Long holes 11d, 11e Convex 11f, 11g, 31f, 31g Pin holes 12, 22, 32, 42 Moving body 12a Recess 12b Screw holes 13, 23, 33, 43 Magnets 13N, 33N N poles 13S, 33S S poles 13a countersunk hole
14, 24, 34, 44 Countersunk screws 15 Countersunk screws 16, 36 Pins 51, 51B 1st partition 52, 51B 2nd partition 53, 54 Panel body 53a, 54a Upper frame 53b, 54b Lower frame 53c to 53f, 54c to 54f Plate 53g, 54g Legs 60, 70, 80, 90 Holding parts 60B, 70B, 80B, 90B Holding parts 61, 71, 81, 91 Side frames 61c2, 71c2, 81c2, 91c2 Long holes 61c1, 71c1, 81c1, 91c1 Length Holes 61f1, 71f1, 81f1, 91f1 Pin holes 61g1, 71g1, 81g1, 91g1 Pin holes 61f2, 71f2, 81f2, 91f2 Pin holes 61g2, 71g2, 81g2, 91g2 Pin holes 62A, 72A, 82A, 92A Moving bodies 62B, 72B, 82B, 92B Moving body 63A, 73A, 83A, 93A Magnet 63B, 73B, 83B, 93B Magnet 64A, 74A, 84A, 94A Countersunk screw 64B, 74B, 84B, 94B Countersunk screw 66A, 76A, 86A, 96A Pin 66B, 76B , 86B, 96B pins

Claims (12)

被連結用部材と連結される連結用部材であって、部材本体と、前記連結用部材側の磁石と、前記部材本体に取り付けられて前記連結用部材側の磁石を保持する保持手段を備え、前記保持手段には、前記連結用部材側の磁石の位置を前記被連結用部材側の磁石と対向する第1の位置から前記被連結用部材側の磁石と対向しない第2の位置に変更する位置変更手段と、前記被連結用部材側の磁石を前記第2の位置で吸着する磁石でない吸着手段が設けられていることを特徴とする連結用部材。 It is a connecting member to be connected to the member to be connected, and includes a member main body, a magnet on the connecting member side, and a holding means attached to the member main body to hold the magnet on the connecting member side. In the holding means, the position of the magnet on the connecting member side is changed from the first position facing the magnet on the connecting member side to the second position not facing the magnet on the connecting member side. A connecting member, characterized in that a position changing means and a non-magnet suction means that attracts a magnet on the side of the member to be connected at the second position are provided. 前記位置変更手段は、前記連結用部材側の磁石が固定された移動体と、該移動体を一定方向に移動させる案内部と、該移動体の移動範囲を制限する移動範囲制限部を備え、当該移動体は前記吸着手段となることを特徴とする請求項1記載の連結用部材。 The position changing means includes a moving body to which a magnet on the connecting member side is fixed, a guide portion for moving the moving body in a certain direction, and a moving range limiting portion for limiting the moving range of the moving body. The connecting member according to claim 1, wherein the moving body serves as the suction means. 前記移動体は強磁性体であり、前記案内部は強磁性体でないことを特徴とする請求項2記載の連結用部材。 The connecting member according to claim 2, wherein the moving body is a ferromagnet, and the guide portion is not a ferromagnet. 前記位置変更手段は、前記連結部材側の磁石と前記被連結用部材側の磁石が反発することにより前記移動体を移動させ、前記連結部材側の磁石の位置を前記第1の位置から前記第2の位置に変更する反発移動手段であることを特徴とする請求項2又は請求項3記載の連結用部材。 Wherein the position changing means, said moving the movable body by said a connecting member side of the magnet of the connecting member side magnets repel, the position of the connecting member side of the magnet from the first position The connecting member according to claim 2 or 3, wherein the repulsive moving means is changed to the second position. 前記位置変更手段は、前記連結用部材側の磁石が前記第1の位置から前記第2の位置にくるように前記移動体の位置を切り替える位置切替手段であることを特徴とする請求項2又は請求項3記載の連結用部材。 2. The position changing means is a position switching means for switching the position of the moving body so that the magnet on the connecting member side comes from the first position to the second position. The connecting member according to claim 3. 前記連結用部材は、連結用パネル、連結用パーテーション、連結用間仕切りカーテン、連結用間仕切りシートのいずれかであることを特徴とする請求項1乃至請求項5のいずれかに記載した連結用部材。 The connecting member according to any one of claims 1 to 5, wherein the connecting member is any one of a connecting panel, a connecting partition, a connecting partition curtain, and a connecting partition sheet. 第1の部材と第2の部材を連結する部材の連結構造であって、前記第1の部材の本体に取り付けられて第1の磁石を保持する第1の保持手段と、前記第2の部材の本体に取り付けられて第2の磁石を保持する第2の保持手段とを備え、前記第1の保持手段には、前記第1の磁石の位置を前記第2の磁石と対向する位置から前記第2の磁石と対向しない位置に変更する第1の位置変更手段及び前記第2の磁石を吸着する第1の吸着手段が設けられ、前記第2の保持手段には、前記第2の磁石の位置を前記第1の磁石と対向する位置から前記第1の磁石と対向しない位置に変更する第2の位置変更手段及び前記第1の磁石を吸着する第2の吸着手段が設けられていることを特徴とする部材の連結構造。 A connecting structure of a member that connects the first member and the second member, the first holding means that is attached to the main body of the first member and holds the first magnet, and the second member. The first holding means includes a second holding means attached to the main body of the magnet and holds the second magnet, and the first holding means is provided with the position of the first magnet from a position facing the second magnet. A first position changing means for changing to a position not facing the second magnet and a first attracting means for attracting the second magnet are provided, and the second holding means is provided with the second magnet. A second position changing means for changing the position from a position facing the first magnet to a position not facing the first magnet and a second attracting means for attracting the first magnet are provided. A connecting structure of members characterized by. 前記第1の位置変更手段は、前記第1の磁石が固定された第1の移動体と、該第1の移動体を一定方向に移動させる第1の案内部と、該第1の移動体の移動範囲を制限する第1の移動範囲制限部を備え、前記第2の位置変更手段は、前記第2の磁石が固定された第2の移動体と、該第2の移動体を一定方向に移動させる第2の案内部と、該第2の移動体の移動範囲を制限する第2の移動範囲制限部を備え、前記第1の移動体は前記第1の吸着手段となり、前記第2の移動体は前記第2の吸着手段となることを特徴とする請求項7記載の部材の連結構造。 The first position changing means includes a first moving body to which the first magnet is fixed, a first guide portion for moving the first moving body in a certain direction, and the first moving body. The second moving body is provided with a first moving range limiting portion that limits the moving range of the second moving body, and the second position changing means makes the second moving body to which the second magnet is fixed and the second moving body in a fixed direction. A second guide unit for moving the second moving body and a second moving range limiting part for limiting the moving range of the second moving body are provided, and the first moving body serves as the first suction means and the second moving body becomes the first suction means. 7. The connecting structure of the members according to claim 7, wherein the moving body serves as the second suction means. 前記第1の移動体及び前記第2の移動体は強磁性体であり、前記第1の案内部及び前記第2の案内部は強磁性体でないことを特徴とする請求項8記載の部材の連結構造。 The member according to claim 8, wherein the first moving body and the second moving body are ferromagnets, and the first guide portion and the second guide portion are not ferromagnets. Connected structure. 前記第1の位置変更手段は、前記第1の磁石と前記第2の磁石が反発することにより前記第1の移動体を移動させ、前記第1の磁石の位置を前記第2の磁石と対向する位置から前記第2の磁石と対向しない位置に変更する第1の反発移動手段であり、前記第2の位置変更手段は、前記第1の磁石と前記第2の磁石が反発することにより前記第2の移動体を移動させ、前記第2の磁石の位置を前記第1の磁石と対向する位置から前記第1の磁石と対向しない位置に変更する第2の反発移動手段であることを特徴とする請求項8又は請求項9記載の部材の連結構造。 The first position changing means moves the first moving body by repelling the first magnet and the second magnet, and the position of the first magnet faces the second magnet. It is a first repulsive moving means for changing from a position to a position not facing the second magnet, and the second position changing means is said to be caused by repulsion between the first magnet and the second magnet. It is a second repulsive moving means that moves a second moving body and changes the position of the second magnet from a position facing the first magnet to a position not facing the first magnet. The connecting structure of the member according to claim 8 or 9. 前記第1の位置変更手段は、前記第1の磁石が前記第2の磁石と対向する位置から前記第2の磁石と対向しない位置にくるように前記第1の移動体の位置を切り替える第1の位置切替手段であり、前記第2の位置変更手段は、前記第2の磁石が前記第1の磁石と対向する位置から前記第1の磁石と対向しない位置にくるように前記第2の移動体の位置を切り替える第2の位置切替手段であることを特徴とする請求項8又は請求項9記載の部材の連結構造。 The first position changing means switches the position of the first moving body so that the first magnet comes from a position facing the second magnet to a position not facing the second magnet. The second position changing means moves the second magnet from a position facing the first magnet to a position not facing the first magnet. The connecting structure of the members according to claim 8 or 9, wherein the second position switching means for switching the position of the body. 前記部材は、パネル、パーテーション、間仕切りカーテン、間仕切りシートのいずれかであることを特徴とする請求項7乃至請求項11のいずれかに記載した部材の連結構造。 The connecting structure of the member according to any one of claims 7 to 11, wherein the member is any one of a panel, a partition, a partition curtain, and a partition sheet.
JP2017110505A 2017-06-03 2017-06-03 Connecting member and connecting structure of member Active JP6908268B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2017110505A JP6908268B2 (en) 2017-06-03 2017-06-03 Connecting member and connecting structure of member

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2017110505A JP6908268B2 (en) 2017-06-03 2017-06-03 Connecting member and connecting structure of member

Publications (2)

Publication Number Publication Date
JP2018204299A JP2018204299A (en) 2018-12-27
JP6908268B2 true JP6908268B2 (en) 2021-07-21

Family

ID=64956750

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2017110505A Active JP6908268B2 (en) 2017-06-03 2017-06-03 Connecting member and connecting structure of member

Country Status (1)

Country Link
JP (1) JP6908268B2 (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020158992A1 (en) * 2019-02-01 2020-08-06 박진태 Magnet-coupled booth
JP6892082B2 (en) * 2019-05-28 2021-06-18 川上産業株式会社 Member connection structure
KR102164235B1 (en) * 2019-06-13 2020-10-12 주식회사 에스티 Soundproof facility equipped with soundproofing plate detachment

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5093438U (en) * 1973-12-26 1975-08-06
JPS5193793U (en) * 1975-01-27 1976-07-27

Also Published As

Publication number Publication date
JP2018204299A (en) 2018-12-27

Similar Documents

Publication Publication Date Title
US7656257B2 (en) Low energy magnetic actuator
JP6908268B2 (en) Connecting member and connecting structure of member
US7319374B2 (en) Moving magnet actuator
JP6118964B2 (en) Opening / closing member and partition unit using the same
US20130229245A1 (en) Driving device and relay
JP7250523B2 (en) Slide rail and mobile terminal
US20210220723A1 (en) Modular screen with magnetic joints
CN101516459B (en) Didactic game piece
JPH09184539A (en) Magnetic cushion
WO2019210002A2 (en) Magnetically programmable actuators for tactile conveyance of information
JP2014120513A (en) Magnetic device
JP2009219626A (en) Attaching unit, opening and closing unit, and partition unit of seat
CN109764624B (en) Foldable rack and refrigerator with same
US10143933B1 (en) Robot
JP2884404B2 (en) Braille pin driving method and device
JP7329356B2 (en) Installation method of magnet adsorption shelf and magnet adsorption shelf
CN209087400U (en) Miniature biaxial optical actuator
JP7409722B2 (en) Magnetic member and opening/closing member equipped with the same
KR200419282Y1 (en) Magnetic book support
JP3158747U (en) Magnetic fixture
JP5801683B2 (en) Magnetic adsorption display
KR20100004926A (en) Slidable housing for an electronic device
JP7606849B2 (en) table
JP2002035406A (en) 3d puzzle
EP2939720A1 (en) Scene puzzle

Legal Events

Date Code Title Description
A80 Written request to apply exceptions to lack of novelty of invention

Free format text: JAPANESE INTERMEDIATE CODE: A80

Effective date: 20170606

A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20200529

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20210407

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20210413

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20210521

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20210622

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20210624

R150 Certificate of patent or registration of utility model

Ref document number: 6908268

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R150

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250