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JP5529441B2 - Automatic transaction device alignment adjustment mechanism - Google Patents
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JP5529441B2 - Automatic transaction device alignment adjustment mechanism - Google Patents

Automatic transaction device alignment adjustment mechanism Download PDF

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JP5529441B2
JP5529441B2 JP2009149311A JP2009149311A JP5529441B2 JP 5529441 B2 JP5529441 B2 JP 5529441B2 JP 2009149311 A JP2009149311 A JP 2009149311A JP 2009149311 A JP2009149311 A JP 2009149311A JP 5529441 B2 JP5529441 B2 JP 5529441B2
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hole
alignment
adjustment
shape
automatic transaction
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JP2011008367A (en
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哲也 根岸
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Oki Electric Industry Co Ltd
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本発明は、二つの部材の位置合わせの調整を行うための位置合わせ調整機構に関する。   The present invention relates to an alignment adjusting mechanism for adjusting alignment of two members.

ある部材(以下、「第1部材」と称する)を他の部材(以下、「第2部材」と称する)に取り付ける場合に、二つの部材の位置合わせの調整は、通常、作業者が手作業で行っている。以下、従来の位置合わせの調整の手法につき、一例として、金融機関等に設置されるATM(自動取引装置)の筐体を対象にして、説明する。   When a certain member (hereinafter referred to as “first member”) is attached to another member (hereinafter referred to as “second member”), adjustment of the alignment of the two members is usually performed manually by an operator. Is going on. Hereinafter, as an example, a conventional alignment adjustment method will be described with respect to a case of an ATM (automatic transaction apparatus) installed in a financial institution or the like.

ATMの筐体は、大別すると、第1部材としてのパネル部と第2部材としてのキャビネット部とによって構成されている。パネル部は、ATMの上部表面側を覆うカバー部材である。キャビネット部は、内部に、各種のユニット(例えば、紙幣処理機、硬貨処理機、通帳記帳機、カードリーダライタ等)を収容する収容部材である。パネル部とキャビネット部とは、それぞれ、取付位置の形状が互いに嵌め合わされる形状に形成されている。また、パネル部とキャビネット部とは、互いがネジで固定されるように、複数のネジ孔が所定の位置に設けられている。各ネジ孔は、二つの部材の位置合わせのズレがある程度許容できるように、通常、長孔形状に形成されている。   The ATM housing is roughly composed of a panel portion as a first member and a cabinet portion as a second member. A panel part is a cover member which covers the upper surface side of ATM. A cabinet part is an accommodating member which accommodates various units (for example, a banknote processing machine, a coin processing machine, a passbook bookkeeping machine, a card reader / writer, etc.) inside. The panel part and the cabinet part are each formed in a shape in which the shapes of the mounting positions are fitted together. The panel portion and the cabinet portion are provided with a plurality of screw holes at predetermined positions so that the panel portion and the cabinet portion are fixed to each other with screws. Each screw hole is usually formed in a long hole shape so that the positional deviation between the two members can be allowed to some extent.

作業者は、パネル部をキャビネット部に取り付ける場合に、まず、パネル部を持ち上げて、パネル部をキャビネット部の取付位置に配置し、ネジをネジ孔に挿入して軽く締め付けることによって、二つの部材を一時的に仮留めする。
次に、作業者は、パネル部を持ちながら、ネジを一旦緩め、位置合わせの適否(すなわち、位置合わせが適正か否か)を判断しながら、腕力でもってパネル部全体を前後左右に大まかに動かす。これによって、作業者は、位置合わせの調整を行う。
そして、作業者は、位置合わせが適正になったと判断した時点で、ネジを強く締め付けることによって、二つの部材を強く固定する。
このようにして、パネル部のキャビネット部への取り付けが行われる。
When the operator attaches the panel part to the cabinet part, the operator first lifts the panel part, places the panel part at the attachment position of the cabinet part, inserts screws into the screw holes, and lightly tightens the two members. Temporarily fix.
Next, the operator loosens the screws once while holding the panel part, and determines the appropriateness of the alignment (that is, whether the alignment is appropriate) or not, and roughly pushes the entire panel part back and forth with the arm strength. move. Thereby, the operator performs alignment adjustment.
Then, when the operator determines that the alignment has become appropriate, the two members are strongly fixed by strongly tightening the screws.
In this way, the panel part is attached to the cabinet part.

なお、位置合わせの調整を行うための機構としては、例えば、特許文献1に開示されたものがある。特許文献1に開示された機構は、二つの部材の一方又は双方に、少なくとも2つの突起又は孔を設け、この突起又は孔を利用してテコの原理で二つの部材を押圧することによって、位置合わせの調整を行うものである。   An example of a mechanism for adjusting the alignment is disclosed in Patent Document 1. In the mechanism disclosed in Patent Document 1, at least two protrusions or holes are provided in one or both of the two members, and the two members are pressed on the principle of lever by using the protrusions or holes. It is for adjusting the alignment.

特開平4−3006号公報JP-A-4-3006

前記した従来の位置合わせの調整の手法は、以下に説明する通り、位置合わせの微細な調整を行うことが困難なときがある、という課題があった。   As described below, the conventional method for adjusting the alignment has a problem that it is sometimes difficult to perform fine adjustment of the alignment.

具体的には、前記した通り、従来の位置合わせの調整の手法は、作業者が腕力でもって第1部材(パネル部)全体を前後左右に大まかに動かすことによって、行われている。
しかしながら、作業者は、例えば、第1部材が比較的大きい物体である場合や重たい物体である場合に、第1部材を微細に動かすことができないときがあった。すなわち、作業者は、このような場合に、腕力を十分に制御できずに、調整位置に対して第1部材を大きく移動させてしまうときがあった。したがって、従来の位置合わせの調整の手法は、位置合わせの微細な調整を行うことが困難なときがあった。
このようなときに、作業者は、調整位置に対して第1部材を何度も往復移動させることになる。そのため、多大な工数が、位置合わせの調整に必要であった。
Specifically, as described above, the conventional method of adjusting the alignment is performed by the operator roughly moving the entire first member (panel portion) from front to back and from side to side with arm force.
However, for example, when the first member is a relatively large object or a heavy object, the worker may not be able to finely move the first member. In other words, in such a case, the operator may not be able to sufficiently control the arm force and may move the first member greatly with respect to the adjustment position. Therefore, in the conventional alignment adjustment method, it is sometimes difficult to perform fine adjustment of alignment.
In such a case, the operator reciprocates the first member many times with respect to the adjustment position. Therefore, a great amount of man-hours are necessary for adjusting the alignment.

また、前記した特許文献1に開示された機構は、(1)位置合わせの適否の判断がし難い、(2)強い押圧力がテコの支点となる部分にかかるため、支点となる部分が変形し易い、という課題があった。   In addition, the mechanism disclosed in Patent Document 1 described above is (1) it is difficult to determine whether or not alignment is appropriate, and (2) a strong pressing force is applied to a portion that becomes a lever fulcrum, so that the portion that becomes a fulcrum is deformed. There was a problem that it was easy to do.

本発明は、前記した課題を解決するためになされたものであり、位置合わせの微細な調整及び位置合わせの適否の判断が容易で、かつ、部材の変形の発生を低減する位置合わせ調整機構を提供することを主な目的とする。   The present invention has been made to solve the above-described problems, and provides an alignment adjustment mechanism that facilitates fine adjustment of alignment and determination of whether alignment is appropriate, and reduces the occurrence of deformation of members. The main purpose is to provide.

前記目的を達成するため、本発明は、第1部材と第2部材とを重ねて配置する場合に、当該第1部材と当該第2部材との位置合わせの調整を行うための自動取引装置の位置合わせ調整機構であって、前記第1部材の前記第2部材と重なる部分に、凸字状に形成された第1部材孔と、前記第2部材の前記第1部材と重なる部分に、前記第1部材孔に対して向かい合うように、凸字状に形成された第2部材孔とを有し、前記第1部材孔及び前記第2部材孔は、それぞれ、前記第1部材と前記第2部材とが重ねて配置された場合に、互いが向かい合わせで重なることにより、前記第1部材と前記第2部材とを互いに摺動させる調整用部材が挿入される開口部を形成し、前記開口部は、前記第1部材及び前記第2部材の位置合わせが適正な状態になった場合に、形状が長方形又は幹となる部分の縦幅と横幅との比が均等である十字形になる構成とする。 In order to achieve the above object, the present invention provides an automatic transaction apparatus for adjusting the alignment between the first member and the second member when the first member and the second member are arranged to overlap each other. In the alignment adjusting mechanism, the first member hole of the first member overlaps the second member, and the first member hole of the second member overlaps the first member. A second member hole formed in a convex shape so as to face the first member hole, and the first member hole and the second member hole are respectively the first member and the second member hole. When the members are stacked, the openings overlap each other to form an opening into which the adjustment member for sliding the first member and the second member is inserted, and the opening The portion is in a state where the first member and the second member are properly aligned. Case, a configuration in which the ratio of the vertical width and the horizontal width of the portion where the shape is a rectangle or stem is cross is uniform.

本発明によれば、位置合わせの微細な調整及び位置合わせの適否の判断が容易で、かつ、部材の変形が発生し難い、自動取引装置の位置合わせ調整機構を提供することができる。 ADVANTAGE OF THE INVENTION According to this invention, the position adjustment adjustment mechanism of an automatic transaction apparatus with which it is easy to judge the fine adjustment of position alignment and the judgment of the appropriateness of position alignment, and a deformation | transformation of a member does not generate | occur | produce easily can be provided.

実施形態に係る位置合わせ調整機構の構成を示す図(1)である。It is a figure (1) which shows the composition of the position adjustment mechanism concerning an embodiment. 実施形態に係る位置合わせ調整機構の構成を示す図(2)である。It is a figure (2) which shows the composition of the position adjustment mechanism concerning an embodiment. 実施形態に係る位置合わせ調整機構の構成を示す図(3)である。It is FIG. (3) which shows the structure of the position adjustment mechanism which concerns on embodiment. 実施形態に係る位置合わせ調整機構の構成を示す図(4)である。It is a figure (4) which shows the structure of the position adjustment mechanism which concerns on embodiment. 実施形態に係る位置合わせ調整機構の動作を示す図(1)である。It is a figure (1) which shows operation | movement of the position adjustment mechanism which concerns on embodiment. 実施形態に係る位置合わせ調整機構の動作を示す図(2)である。It is a figure (2) which shows operation of a position adjustment mechanism concerning an embodiment. 実施形態に係る位置合わせ調整機構の動作を示す図(3)である。It is a figure (3) which shows operation of the position adjustment mechanism concerning an embodiment.

以下、図面を参照して、本発明の実施の形態(以下、「本実施形態」と称する)につき詳細に説明する。なお、各図は、本発明を十分に理解できる程度に、概略的に示してあるに過ぎない。よって、本発明は、図示例のみに限定されるものではない。また、各図において、共通する構成要素や同様な構成要素については、同一の符号を付し、それらの重複する説明を省略する。   Hereinafter, an embodiment of the present invention (hereinafter referred to as “the present embodiment”) will be described in detail with reference to the drawings. Each figure is only schematically shown so that the present invention can be fully understood. Therefore, the present invention is not limited to the illustrated example. Moreover, in each figure, the same code | symbol is attached | subjected about the common component and the same component, and those overlapping description is abbreviate | omitted.

<位置合わせ調整機構の構成>
以下、図1乃至図4を参照して、本実施形態に係る位置合わせ調整機構の構成につき説明する。図1乃至図4は、それぞれ、本実施形態に係る位置合わせ調整機構の構成を示す図である。
<Configuration of alignment adjustment mechanism>
Hereinafter, the configuration of the alignment adjusting mechanism according to the present embodiment will be described with reference to FIGS. 1 to 4. 1 to 4 are diagrams each showing a configuration of an alignment adjusting mechanism according to the present embodiment.

図1は、本実施形態に係る位置合わせ調整機構100が組み込まれた組込装置200の構成を示している。ここでは、組込装置200が、金融機関等に設置されるATM(自動取引装置)であるものとして説明する。以下、組込装置200を「ATM200」と称する。   FIG. 1 shows a configuration of an assembling apparatus 200 in which the alignment adjusting mechanism 100 according to this embodiment is incorporated. Here, description will be made assuming that the embedded device 200 is an ATM (automatic transaction device) installed in a financial institution or the like. Hereinafter, the embedded device 200 is referred to as “ATM 200”.

ATM200の筐体は、大別すると、第1部材としてのパネル部110と第2部材としてのキャビネット部120とによって構成されている。パネル部110は、ATM200の上部表面側を覆うカバー部材である。キャビネット部120は、内部に、各種のユニット(例えば、紙幣処理機、硬貨処理機、通帳記帳機、カードリーダライタ等)を収容する収容部材である。   The casing of the ATM 200 is roughly divided into a panel part 110 as a first member and a cabinet part 120 as a second member. The panel part 110 is a cover member that covers the upper surface side of the ATM 200. The cabinet unit 120 is a housing member that houses various units (for example, a banknote handling machine, a coin handling machine, a passbook writing machine, a card reader / writer, etc.).

パネル部110は、図2に示すように、キャビネット部120の取付位置と対向する部分に、突き当て面110aが形成されている。一方、キャビネット部120の取付位置は、図3に示すように、突き当て面120aが形成されている。パネル部110の突き当て面110aとキャビネット部120の突き当て面120aは、互いが嵌め合わされる形状に形成されている。なお、図2は、パネル部110の主要部の構成を示しており、図2(a)は、上斜め方向から見たパネル部110の主要部の構成を、また、図2(b)は、A部(図2(a)参照)の構成を拡大して示している。一方、図3は、キャビネット部120の主要部の構成を示しており、図3(a)は、下斜め方向から見たキャビネット部120の主要部の構成を、また、図3(b)は、B部(図3(a)参照)の構成を拡大して示している。   As shown in FIG. 2, the panel portion 110 has an abutting surface 110 a formed at a portion facing the mounting position of the cabinet portion 120. On the other hand, the abutment surface 120a is formed at the mounting position of the cabinet portion 120 as shown in FIG. The abutting surface 110a of the panel part 110 and the abutting surface 120a of the cabinet part 120 are formed in a shape in which they are fitted together. 2 shows the configuration of the main part of the panel unit 110, FIG. 2 (a) shows the configuration of the main part of the panel unit 110 viewed from the upper oblique direction, and FIG. 2 (b) shows the configuration of the main part. , The configuration of the A part (see FIG. 2A) is enlarged. On the other hand, FIG. 3 shows the structure of the main part of the cabinet part 120, FIG. 3 (a) shows the structure of the main part of the cabinet part 120 as seen from the lower diagonal direction, and FIG. The structure of B part (refer Fig.3 (a)) is expanded and shown.

パネル部110とキャビネット部120は、取り付け時に、図1乃至図4に示すように、作業者によって、調整方向D1(すなわち、ATM200の前後方向)又は調整方向D2(すなわち、ATM200の左右方向)に沿って、位置合わせの調整が行われる。調整方向D1は、突き当て面110a及び突き当て面120aに対して垂直な方向である。一方、調整方向D2は、突き当て面110a及び突き当て面120aに対して水平な方向である。   As shown in FIGS. 1 to 4, the panel unit 110 and the cabinet unit 120 are adjusted in the adjustment direction D1 (ie, the front-rear direction of the ATM 200) or the adjustment direction D2 (ie, the left-right direction of the ATM 200) by an operator, as shown in FIGS. Along the alignment adjustment is performed. The adjustment direction D1 is a direction perpendicular to the abutting surface 110a and the abutting surface 120a. On the other hand, the adjustment direction D2 is a direction horizontal to the abutting surface 110a and the abutting surface 120a.

パネル部110とキャビネット部120は、互いがネジで固定されるように、図示せぬ複数のネジ孔が所定の位置に設けられている。各ネジ孔は、二つの部材の位置合わせのズレがある程度許容できるように、長孔形状に形成されている。   The panel part 110 and the cabinet part 120 are provided with a plurality of screw holes (not shown) at predetermined positions so that they are fixed to each other with screws. Each screw hole is formed in a long hole shape so that the positional deviation between the two members can be allowed to some extent.

また、パネル部110とキャビネット部120は、位置合わせの調整用の孔が、所定の位置に設けられている。以下、パネル部110に設けられた位置合わせ調整用の孔を「第1部材孔112」(図2(b)参照)と称し、キャビネット部120に設けられた位置合わせ調整用の孔を「第2部材孔122」(図3(b)参照)と称する。なお、図示例では、第1部材孔112及び第2部材孔122は、1つずつしか示されていない。しかしながら、第1部材孔112及び第2部材孔122は、複数設けられていてもよい。   Moreover, the panel part 110 and the cabinet part 120 are provided with holes for adjusting alignment at predetermined positions. Hereinafter, the alignment adjustment hole provided in the panel portion 110 is referred to as a “first member hole 112” (see FIG. 2B), and the alignment adjustment hole provided in the cabinet portion 120 is referred to as a “first adjustment hole”. This is referred to as “two-member hole 122” (see FIG. 3B). In the illustrated example, only one first member hole 112 and second member hole 122 are shown. However, a plurality of first member holes 112 and second member holes 122 may be provided.

第1部材孔112は、図2(b)に示すように、凸字状に形成されている。一方、第2部材孔122も、図3(b)に示すように、凸字状に形成されている。第1部材孔112及び第2部材孔122は、サイズが同一(又は、ほぼ同一)で、互いが向かい合うように(すなわち、一方が他方に対して180度回転して配置された形状となるように)、形成されている。   As shown in FIG. 2B, the first member hole 112 is formed in a convex shape. On the other hand, the second member hole 122 is also formed in a convex shape as shown in FIG. The first member hole 112 and the second member hole 122 have the same size (or almost the same size) and are arranged so that they face each other (that is, one is rotated by 180 degrees with respect to the other). ) Is formed.

なお、第1部材孔112及び第2部材孔122は、向かい合う方向が調整方向D1に対して垂直になるように(すなわち、調整方向D2に対して水平になるように)、又は、向かい合う方向が調整方向D1に対して水平になるように(すなわち、調整方向D2に対して垂直になるように)、形成されている。   The first member hole 112 and the second member hole 122 are arranged so that the facing direction is perpendicular to the adjustment direction D1 (that is, horizontal to the adjustment direction D2), or the facing direction is It is formed so as to be horizontal to the adjustment direction D1 (that is, to be vertical to the adjustment direction D2).

図4に、第1部材孔112及び第2部材孔122の詳細な構成を示す。図4(a)は、第1部材孔112の詳細な構成を示しており、図4(b)は、第2部材孔122の詳細な構成を示しており、図4(c)は、第1部材孔112と第2部材孔122とが重ねて配置された場合の各部位の位置関係を示している。   FIG. 4 shows a detailed configuration of the first member hole 112 and the second member hole 122. 4A shows the detailed configuration of the first member hole 112, FIG. 4B shows the detailed configuration of the second member hole 122, and FIG. 4C shows the first configuration. The positional relationship of each site | part when the 1 member hole 112 and the 2nd member hole 122 are piled up is shown.

第1部材孔112は、図4(a)に示すように、大きさの異なる2つの孔112a,112bによって構成されている。以下、小さい方の孔112aを「小型孔112a」と称し、大きい方の孔112bを「大型孔112b」と称する。なお、図示例では、大型孔112bは、突き当て面110aから距離「L」だけ離間した位置に設けられている。   As shown in FIG. 4A, the first member hole 112 includes two holes 112a and 112b having different sizes. Hereinafter, the smaller hole 112a is referred to as “small hole 112a”, and the larger hole 112b is referred to as “large hole 112b”. In the illustrated example, the large hole 112b is provided at a position separated from the abutting surface 110a by a distance “L”.

小型孔112a及び大型孔112bは、それぞれ、長方形の形状に形成されている。ただし、小型孔112a及び大型孔112bは、それぞれ、正方形の形状に形成されていてもよい。図示例では、小型孔112aは、突き当て面110aに対して垂直な方向(ATM200の前後方向)の長さが「l1」となり、突き当て面110aに対して水平な方向(ATM200の左右方向)の長さが「w1」となるように、形成されている。一方、大型孔112bは、突き当て面110aに対して垂直な方向(ATM200の前後方向)の長さが「l2」となり、突き当て面110aに対して水平な方向(ATM200の左右方向)の長さが「w2」となるように、形成されている。   The small hole 112a and the large hole 112b are each formed in a rectangular shape. However, the small hole 112a and the large hole 112b may each be formed in a square shape. In the illustrated example, the small hole 112a has a length in the direction perpendicular to the abutting surface 110a (the front-rear direction of the ATM 200) of “l1” and is horizontal to the abutting surface 110a (the left-right direction of the ATM 200). Is formed to be “w1”. On the other hand, the length of the large hole 112b in the direction perpendicular to the abutting surface 110a (the front-rear direction of the ATM 200) is “l2”, and the length in the direction horizontal to the abutting surface 110a (the left-right direction of the ATM 200). Is formed to be “w2”.

小型孔112a及び大型孔112bは、一辺で重なるように、設けられている。また、小型孔112a及び大型孔112bは、大型孔112bの前端から小型孔112aの前端までの距離が大型孔112bの後端から小型孔112aの後端までの距離と等しくなるように、設けられている。なお、図示例では、大型孔112bの前端から小型孔112aの前端までの距離、及び、大型孔112bの後端から小型孔112aの後端までの距離は、それぞれ、「l3」となっている。その結果、小型孔112a及び大型孔112bは、全体の形状が凸字状になっている。   The small hole 112a and the large hole 112b are provided so as to overlap on one side. The small hole 112a and the large hole 112b are provided such that the distance from the front end of the large hole 112b to the front end of the small hole 112a is equal to the distance from the rear end of the large hole 112b to the rear end of the small hole 112a. ing. In the illustrated example, the distance from the front end of the large hole 112b to the front end of the small hole 112a and the distance from the rear end of the large hole 112b to the rear end of the small hole 112a are “l3”, respectively. . As a result, the small holes 112a and the large holes 112b have a convex shape as a whole.

一方、第2部材孔122は、図4(b)に示すように、大きさの異なる2つの孔122a,122bによって構成されている。以下、小さい方の孔122aを「小型孔122a」と称し、大きい方の孔122bを「大型孔122b」と称する。なお、図示例では、大型孔122bは、突き当て面120aから距離「L」だけ離間した位置に設けられている。   On the other hand, the 2nd member hole 122 is comprised by two holes 122a and 122b from which a magnitude | size differs, as shown in FIG.4 (b). Hereinafter, the smaller hole 122a is referred to as “small hole 122a”, and the larger hole 122b is referred to as “large hole 122b”. In the illustrated example, the large hole 122b is provided at a position separated from the abutment surface 120a by a distance “L”.

小型孔122a及び大型孔122bは、それぞれ、長方形の形状に形成されている。なお、小型孔122a及び大型孔122bは、それぞれ、正方形の形状に形成されていてもよい。図示例では、小型孔122aは、突き当て面120aに対して垂直な方向(ATM200の前後方向)の長さが「l1」となり、突き当て面120aに対して水平な方向(ATM200の左右方向)の長さが「w1」となるように、形成されている。一方、大型孔122bは、突き当て面120aに対して垂直な方向(ATM200の前後方向)の長さが「l2」となり、突き当て面120aに対して水平な方向(ATM200の左右方向)の長さが「w2」となるように、形成されている。   The small hole 122a and the large hole 122b are each formed in a rectangular shape. The small holes 122a and the large holes 122b may each be formed in a square shape. In the illustrated example, the small hole 122a has a length of “l1” in a direction perpendicular to the abutting surface 120a (front-rear direction of the ATM 200) and is horizontal to the abutting surface 120a (left-right direction of the ATM 200). Is formed to be “w1”. On the other hand, the length of the large hole 122b in the direction perpendicular to the abutting surface 120a (the front-rear direction of the ATM 200) is “l2”, and the length in the direction horizontal to the abutting surface 120a (the left-right direction of the ATM 200). Is formed to be “w2”.

小型孔122a及び大型孔122bは、第1部材孔112の小型孔112a及び大型孔112bとは逆向きに、一辺で重なるように、設けられている。また、小型孔122a及び大型孔122bは、大型孔122bの前端から小型孔122aの前端までの距離が大型孔122bの後端から小型孔122aの後端までの距離と等しくなるように、設けられている。なお、図示例では、大型孔122bの前端から小型孔122aの前端までの距離、及び、大型孔122bの後端から小型孔122aの後端までの距離は、それぞれ、「l3」となっている。その結果、小型孔122a及び大型孔122bは、全体の形状が凸字状になっている。   The small hole 122a and the large hole 122b are provided so as to overlap each other in the opposite direction to the small hole 112a and the large hole 112b of the first member hole 112. The small hole 122a and the large hole 122b are provided such that the distance from the front end of the large hole 122b to the front end of the small hole 122a is equal to the distance from the rear end of the large hole 122b to the rear end of the small hole 122a. ing. In the illustrated example, the distance from the front end of the large hole 122b to the front end of the small hole 122a and the distance from the rear end of the large hole 122b to the rear end of the small hole 122a are “l3”, respectively. . As a result, the small holes 122a and the large holes 122b have a convex shape as a whole.

第1部材孔112及び第2部材孔122は、ATM200の前後方向の位置がほぼ一致する関係となっている。すなわち、第1部材孔112及び第2部材孔122は、第1部材孔112の突き当て面110aからの距離と第2部材孔122の突き当て面120aからの距離とがほぼ一致する関係となっている。
また、第1部材孔112及び第2部材孔122は、ATM200の左右方向の位置がほぼ一致する関係となっている。すなわち、第1部材孔112及び第2部材孔122は、第1部材孔112の小型孔112aと大型孔112bとが重なる辺の位置と第2部材孔122の小型孔122aと大型孔122bとが重なる辺の位置とがほぼ一致する関係となっている。
そのため、第1部材孔112及び第2部材孔122は、第1部材110と第2部材120とが重ねて配置された場合に、図4(c)に示すように、第1部材孔112の小型孔112aと第2部材孔122の小型孔122aとが隣接して配置される関係となっている。
The first member hole 112 and the second member hole 122 have a relationship in which the positions in the front-rear direction of the ATM 200 are substantially the same. That is, the first member hole 112 and the second member hole 122 have a relationship in which the distance from the abutting surface 110a of the first member hole 112 and the distance from the abutting surface 120a of the second member hole 122 substantially coincide. ing.
In addition, the first member hole 112 and the second member hole 122 have a relationship in which the positions of the ATM 200 in the left-right direction substantially coincide. That is, the first member hole 112 and the second member hole 122 have a side position where the small hole 112a and the large hole 112b of the first member hole 112 overlap, and the small hole 122a and the large hole 122b of the second member hole 122. The positions of the overlapping sides almost coincide with each other.
Therefore, when the first member 110 and the second member 120 are arranged so that the first member 110 and the second member 120 overlap with each other, as shown in FIG. The small hole 112a and the small hole 122a of the second member hole 122 are disposed adjacent to each other.

<位置合わせ調整機構の動作>
以下、図5乃至図7を参照して、本実施形態に係る位置合わせ調整機構100の動作につき説明する。図5乃至図7は、それぞれ、本実施形態に係る位置合わせ調整機構の動作を示す図である。
<Operation of alignment adjustment mechanism>
The operation of the alignment adjustment mechanism 100 according to this embodiment will be described below with reference to FIGS. 5 to 7 are diagrams illustrating the operation of the alignment adjusting mechanism according to the present embodiment.

以下、まず、図5を参照して、調整方向D1に沿って位置合わせの調整を行う場合の動作につき説明する。ここでは、第1部材孔112と第2部材孔122とが、図5に示すように、配置されているものとする。すなわち、第1部材孔112及び第2部材孔122は、向かい合う方向が調整方向D1に対して垂直になるように、また、第1部材孔112の小型孔112aと大型孔112bとが重なる辺と第2部材孔122の小型孔122aと大型孔122bとが重なる辺とが重なるように、配置されているものとする。   Hereinafter, first, with reference to FIG. 5, an operation in the case of performing alignment adjustment along the adjustment direction D1 will be described. Here, it is assumed that the first member hole 112 and the second member hole 122 are arranged as shown in FIG. That is, the first member hole 112 and the second member hole 122 are arranged such that the facing direction is perpendicular to the adjustment direction D1, and the small hole 112a and the large hole 112b of the first member hole 112 overlap each other. It is assumed that the second member hole 122 is arranged so that the side where the small hole 122a and the large hole 122b overlap is overlapped.

作業者は、第1部材(パネル部)110を第2部材(キャビネット部)120に取り付ける場合に、まず、第1部材110を持ち上げて、第1部材110を第2部材120の取付位置に配置する。これにより、第1部材110と第2部材120とが、取付位置で上下に重ねて配置される。なお、本実施形態では、位置合わせ調整機構100は、第1部材110が図2に示す形状に形成されており、さらに、第2部材120が図3に示す形状に形成されているため、取付位置において、第1部材110が第2部材120の下に入り込む。   When the worker attaches the first member (panel part) 110 to the second member (cabinet part) 120, the operator first lifts the first member 110 and places the first member 110 at the attachment position of the second member 120. To do. Thereby, the 1st member 110 and the 2nd member 120 are piled up and down in the attachment position, and are arranged. In the present embodiment, the alignment adjusting mechanism 100 is provided with the first member 110 formed in the shape shown in FIG. 2 and the second member 120 formed in the shape shown in FIG. In position, the first member 110 enters under the second member 120.

作業者は、図示せぬネジを図示せぬネジ孔に挿入して軽く締め付けることによって、第1部材110を第2部材120に一時的に仮留めする。
そして、作業者は、開口部132aの形状を見て、位置合わせの適否(すなわち、位置合わせが適正か否か)を判断する。
The operator temporarily secures the first member 110 to the second member 120 by inserting a screw (not shown) into a screw hole (not shown) and lightly tightening the screw.
Then, the operator looks at the shape of the opening 132a and determines whether or not alignment is appropriate (that is, whether or not alignment is appropriate).

位置合わせ調整機構100は、第1部材110と第2部材120とが上下に重ねて配置された場合に、図5(a)に示すように、第1部材孔112の小型孔112aの部分と第2部材孔122の小型孔122aの部分だけが開放された状態となり、それ以外の部分が閉鎖された状態となる。その結果、位置合わせ調整機構100は、第1部材孔112の小型孔112aと第2部材孔122の小型孔122aとによって、開口部132を形成する。なお、以下、図示例のように、第1部材孔112の小型孔112aと第2部材孔122の小型孔122aとが接する形状の開口部132を「開口部132a」と称する。   When the first member 110 and the second member 120 are arranged one above the other, the alignment adjusting mechanism 100 includes a portion of the small hole 112a of the first member hole 112, as shown in FIG. Only the portion of the small hole 122a of the second member hole 122 is opened, and the other portion is closed. As a result, the alignment adjusting mechanism 100 forms the opening 132 by the small hole 112 a of the first member hole 112 and the small hole 122 a of the second member hole 122. In the following, as in the illustrated example, the opening 132 having a shape in which the small hole 112a of the first member hole 112 and the small hole 122a of the second member hole 122 are in contact with each other is referred to as an “opening 132a”.

開口部132aは、第1部材110及び第2部材120の位置合わせが適正な状態である場合に、図5(a)に示すように、形状が長方形となる。
しかしながら、開口部132aは、第1部材110及び第2部材120の位置合わせが適正な状態でない場合に、図5(b)又は図5(c)に示すように、形状が長方形から崩れた形状となる。
The opening 132a has a rectangular shape as shown in FIG. 5A when the first member 110 and the second member 120 are properly aligned.
However, when the first member 110 and the second member 120 are not properly aligned, the opening 132a has a shape that is broken from a rectangle as shown in FIG. 5B or 5C. It becomes.

開口部132aの形状が長方形(図5(a)参照)となっている場合に、位置合わせの調整が不要なため、作業者は、位置合わせの調整を行うことなく、図示せぬネジを強く締め付けることによって、第1部材110を第2部材120に強く固定する。   When the shape of the opening 132a is a rectangle (see FIG. 5A), it is not necessary to adjust the alignment. Therefore, the operator strongly tightens a screw (not shown) without adjusting the alignment. The first member 110 is strongly fixed to the second member 120 by tightening.

一方、開口部132aの形状が長方形から崩れた形状(図5(b)及び図5(c)参照)となっている場合に、位置合わせの調整が必要なため、作業者は、第1部材110を持ちながら、ネジを一旦緩める。
次に、作業者は、調整用部材300を、開口部132aに挿入する。なお、調整用部材300は、第1部材110及び第2部材120に対して調整用の押圧を付与して、第1部材110と第2部材120とを互いに摺動させるための部材である。ここでは、調整用部材300として、マイナスドライバを用いるものとして説明するが、マイナスドライバ以外の部材を用いてもよい。なお、調整用部材300は、第1部材110及び第2部材120に対して押圧を付与する必要があるため、押圧で変形しないように、高い強度を有するものがよい。また、調整用部材300は、好ましくは、開口部132aに挿入し易いように、先端が楔形に形成されたものがよい。
On the other hand, when the shape of the opening 132a is a shape broken from a rectangle (see FIGS. 5B and 5C), the operator needs to adjust the alignment. While holding 110, loosen the screw once.
Next, the operator inserts the adjustment member 300 into the opening 132a. The adjustment member 300 is a member for applying adjustment pressure to the first member 110 and the second member 120 to slide the first member 110 and the second member 120 relative to each other. Here, the adjustment member 300 is described as using a minus driver, but a member other than the minus driver may be used. In addition, since it is necessary to apply the pressing to the first member 110 and the second member 120, the adjustment member 300 preferably has high strength so as not to be deformed by the pressing. The adjustment member 300 preferably has a wedge-shaped tip so that it can be easily inserted into the opening 132a.

作業者は、調整用部材300を開口部132aに挿入すると、位置合わせの適否を判断しながら、調整方向D1に応じて、調整用部材300を右(R)方向又は左(L)方向に押圧して回転させる。第1部材110は、調整用部材300がR方向に回転された場合に、手前側に移動する。また、第1部材110は、調整用部材300がL方向に回転された場合に、奥側に移動する。これによって、作業者は、位置合わせの調整を行う。   When the operator inserts the adjustment member 300 into the opening 132a, the operator presses the adjustment member 300 in the right (R) direction or the left (L) direction in accordance with the adjustment direction D1, while determining whether the alignment is appropriate. And rotate. The first member 110 moves to the near side when the adjustment member 300 is rotated in the R direction. Further, the first member 110 moves to the back side when the adjustment member 300 is rotated in the L direction. Thereby, the operator performs alignment adjustment.

この後、作業者は、第1部材110及び第2部材120の位置合わせが適正になったと判断した時点(すなわち、図5(a)に示すように、開口部132aの形状が長方形になったと判断した時点)で、図示せぬネジを強く締め付けることによって、第1部材110を第2部材120に強く固定する。
このようにして、第1部材110の第2部材120への取り付けが行われる。
Thereafter, when the operator determines that the alignment of the first member 110 and the second member 120 is appropriate (that is, as shown in FIG. 5A, the shape of the opening 132a is rectangular). At the time of determination), the first member 110 is strongly fixed to the second member 120 by strongly tightening a screw (not shown).
In this way, the first member 110 is attached to the second member 120.

次に、図6を参照して、調整方向D2に沿って位置合わせの調整を行う場合の動作につき説明する。ここでは、第1部材孔112と第2部材孔122とが、図6に示すように、配置されているものとする。すなわち、第1部材孔112及び第2部材孔122は、向かい合う方向が調整方向D2に対して垂直になるように、また、第1部材孔112の小型孔112aと大型孔112bとが重なる辺と第2部材孔122の小型孔122aと大型孔122bとが重なる辺とが重なるように、配置されているものとする。   Next, with reference to FIG. 6, an operation in the case of adjusting the alignment along the adjustment direction D2 will be described. Here, it is assumed that the first member hole 112 and the second member hole 122 are arranged as shown in FIG. That is, the first member hole 112 and the second member hole 122 are arranged such that the facing direction is perpendicular to the adjustment direction D2, and the small hole 112a and the large hole 112b of the first member hole 112 overlap each other. It is assumed that the second member hole 122 is arranged so that the side where the small hole 122a and the large hole 122b overlap is overlapped.

作業者は、まず、第1部材110を持ち上げて、第1部材110を第2部材120の取付位置に配置し、図示せぬネジを図示せぬネジ孔に挿入して軽く締め付けることによって、第1部材110を第2部材120に一時的に仮留めする。
そして、作業者は、開口部132aの形状を見て、位置合わせの適否を判断する。
The operator first lifts the first member 110, places the first member 110 at the mounting position of the second member 120, inserts a screw (not shown) into a screw hole (not shown), and lightly tightens the first member 110. The first member 110 is temporarily secured to the second member 120.
Then, the operator looks at the shape of the opening 132a and determines whether or not the alignment is appropriate.

開口部132aの形状が長方形(図6(a)参照)となっている場合に、位置合わせの調整が不要なため、作業者は、位置合わせの調整を行うことなく、図示せぬネジを強く締め付けることによって、第1部材110を第2部材120に強く固定する。   When the shape of the opening 132a is a rectangle (see FIG. 6A), it is not necessary to adjust the alignment. Therefore, the operator strongly tightens a screw (not shown) without adjusting the alignment. The first member 110 is strongly fixed to the second member 120 by tightening.

一方、開口部132aの形状が長方形から崩れた形状(図6(b)及び図6(c)参照)となっている場合に、位置合わせの調整が必要なため、作業者は、第1部材110を持ちながら、ネジを一旦緩める。
次に、作業者は、調整用部材300を、開口部132aに挿入する。そして、作業者は、位置合わせの適否を判断しながら、調整方向D2に応じて、調整用部材300をR方向又はL方向に押圧して回転させる。第1部材110は、調整用部材300がR方向に回転された場合に、左側に移動する。また、第1部材110は、調整用部材300がL方向に回転された場合に、右側に移動する。これによって、作業者は、位置合わせの調整を行う。
On the other hand, when the shape of the opening 132a is a shape collapsed from a rectangle (see FIGS. 6B and 6C), the operator needs to adjust the alignment. While holding 110, loosen the screw once.
Next, the operator inserts the adjustment member 300 into the opening 132a. Then, the operator presses and rotates the adjustment member 300 in the R direction or the L direction according to the adjustment direction D2 while determining whether or not the alignment is appropriate. The first member 110 moves to the left when the adjustment member 300 is rotated in the R direction. The first member 110 moves to the right when the adjustment member 300 is rotated in the L direction. Thereby, the operator performs alignment adjustment.

この後、作業者は、第1部材110及び第2部材120の位置合わせが適正になったと判断した時点(すなわち、図6(a)に示すように、開口部132aの形状が長方形になったと判断した時点)で、図示せぬネジを強く締め付けることによって、第1部材110を第2部材120に強く固定する。
このようにして、第1部材110の第2部材120への取り付けが行われる。
Thereafter, when the operator determines that the alignment of the first member 110 and the second member 120 has become appropriate (that is, as shown in FIG. 6A, the shape of the opening 132a has become rectangular). At the time of determination), the first member 110 is strongly fixed to the second member 120 by strongly tightening a screw (not shown).
In this way, the first member 110 is attached to the second member 120.

次に、図7を参照して、調整方向D1及び調整方向D2の一方又は双方に沿って位置合わせの調整を行う場合の動作につき説明する。ここでは、第1部材孔112と第2部材孔122とが、図7に示すように、配置されているものとする。すなわち、第1部材孔112及び第2部材孔122は、向かい合う方向が調整方向D1(又は、調整方向D2)に対して垂直になるように、また、第1部材孔112の小型孔112aと大型孔112bとが重なる辺と第2部材孔122の小型孔122aと大型孔122bとが重なる辺とが離間するように、配置されているものとする。   Next, with reference to FIG. 7, an operation in the case of adjusting the alignment along one or both of the adjustment direction D1 and the adjustment direction D2 will be described. Here, it is assumed that the first member hole 112 and the second member hole 122 are arranged as shown in FIG. That is, the first member hole 112 and the second member hole 122 are arranged so that the facing direction is perpendicular to the adjustment direction D1 (or the adjustment direction D2), and the first member hole 112 and the second member hole 122 are larger than the small hole 112a of the first member hole 112. It is assumed that the side where the hole 112b overlaps and the side where the small hole 122a and the large hole 122b of the second member hole 122 overlap are separated from each other.

作業者は、まず、第1部材110を持ち上げて、第1部材110を第2部材120の取付位置に配置し、図示せぬネジを図示せぬネジ孔に挿入して軽く締め付けることによって、第1部材110を第2部材120に一時的に仮留めする。
そして、作業者は、開口部132の形状を見て、位置合わせの適否を判断する。
The operator first lifts the first member 110, places the first member 110 at the mounting position of the second member 120, inserts a screw (not shown) into a screw hole (not shown), and lightly tightens the first member 110. The first member 110 is temporarily secured to the second member 120.
Then, the operator looks at the shape of the opening 132 and determines whether or not the alignment is appropriate.

位置合わせ調整機構100は、第1部材110と第2部材120とが上下に重ねて配置された場合に、図7(a)に示すように、第1部材孔112の小型孔112aの部分と、第2部材孔122の小型孔122aの部分と、第1部材孔112の大型孔112b及び第2部材孔122の大型孔122bの重なり部分とが開放された状態となり、それ以外の部分が閉鎖された状態となる。その結果、位置合わせ調整機構100は、第1部材孔112の小型孔112a及び大型孔112bと第2部材孔122の小型孔122a及び大型孔122bとによって、開口部132を形成する。なお、以下、図示例のように、第1部材孔112の小型孔112aと第2部材孔122の小型孔122aとが離間する形状の開口部132を「開口部132b」と称する。   When the first member 110 and the second member 120 are arranged one above the other in the alignment adjusting mechanism 100, as shown in FIG. 7A, the position of the small hole 112a of the first member hole 112 is The portion of the small hole 122a of the second member hole 122 and the overlapping portion of the large hole 112b of the first member hole 112 and the large hole 122b of the second member hole 122 are opened, and the other portions are closed. It will be in the state. As a result, the alignment adjusting mechanism 100 forms the opening 132 by the small hole 112 a and the large hole 112 b of the first member hole 112 and the small hole 122 a and the large hole 122 b of the second member hole 122. In the following, as in the illustrated example, the opening 132 having a shape in which the small hole 112a of the first member hole 112 and the small hole 122a of the second member hole 122 are separated from each other is referred to as an “opening 132b”.

開口部132bは、第1部材110及び第2部材120の位置合わせが適正な状態である場合に、図7(a)に示すように、形状が幹となる部分の縦幅と横幅との比(以下、「縦横の比」と称する)がほぼ均等な十字形となる。
しかしながら、開口部132bは、第1部材110及び第2部材120の位置合わせが適正な状態でない場合に、図7(b)又は図7(c)に示すように、形状が縦横の比が不均等な十字形となる。
When the first member 110 and the second member 120 are properly aligned, as shown in FIG. 7A, the opening 132b is a ratio between the vertical width and the horizontal width of the portion whose shape is a trunk. (Hereinafter referred to as “the aspect ratio”) is a substantially uniform cross shape.
However, when the first member 110 and the second member 120 are not properly aligned, the opening 132b has a shape with an aspect ratio which is not as shown in FIG. 7 (b) or FIG. 7 (c). An even cross shape.

開口部132bの形状が縦横の比がほぼ均等な十字形(図7(a)参照)となっている場合に、位置合わせの調整が不要なため、作業者は、位置合わせの調整を行うことなく、図示せぬネジを強く締め付けることによって、第1部材110を第2部材120に強く固定する。   When the shape of the opening 132b is a cross shape having a substantially uniform aspect ratio (see FIG. 7A), the operator needs to adjust the alignment because adjustment of the alignment is unnecessary. The first member 110 is strongly fixed to the second member 120 by strongly tightening a screw (not shown).

一方、開口部132bの形状が縦横の比が不均等な十字形(図7(b)及び図7(c)参照)となっている場合に、位置合わせの調整が必要なため、作業者は、第1部材110を持ちながら、ネジを一旦緩める。
次に、作業者は、調整用部材300を、開口部132bに挿入して、位置合わせの適否を判断しながら、位置合わせの調整を行う。
On the other hand, when the shape of the opening 132b is a cross shape (see FIGS. 7B and 7C) in which the aspect ratio is not uniform, the operator needs to adjust the alignment. While holding the first member 110, loosen the screw once.
Next, the operator inserts the adjustment member 300 into the opening 132b and adjusts the alignment while determining whether the alignment is appropriate.

なお、調整方向がD1方向である場合に、作業者は、図7(b)に示すように、調整用部材300を、開口部132bの調整方向D1と垂直な方向の部位に挿入して、調整方向D1に応じて、調整用部材300をR方向又はL方向に押圧して回転させる。第1部材110は、調整用部材300がR方向に回転された場合に、手前側に移動する。また、第1部材110は、調整用部材300がL方向に回転された場合に、奥側に移動する。
一方、調整方向がD2方向である場合に、作業者は、図7(c)に示すように、調整用部材300を、開口部132bの調整方向D2と垂直な方向の部位に挿入して、調整方向D2に応じて、調整用部材300をR方向又はL方向に押圧して回転させる。第1部材110は、調整用部材300がR方向に回転された場合に、左側に移動する。また、第1部材110は、調整用部材300がL方向に回転された場合に、右側に移動する。
このようにして、作業者は、位置合わせの調整を行う。
When the adjustment direction is the D1 direction, the operator inserts the adjustment member 300 into a portion of the opening 132b in a direction perpendicular to the adjustment direction D1, as shown in FIG. In accordance with the adjustment direction D1, the adjustment member 300 is pressed in the R direction or the L direction and rotated. The first member 110 moves to the near side when the adjustment member 300 is rotated in the R direction. Further, the first member 110 moves to the back side when the adjustment member 300 is rotated in the L direction.
On the other hand, when the adjustment direction is the D2 direction, as shown in FIG. 7C, the operator inserts the adjustment member 300 into a portion of the opening 132b in a direction perpendicular to the adjustment direction D2, Depending on the adjustment direction D2, the adjustment member 300 is pressed in the R direction or the L direction and rotated. The first member 110 moves to the left when the adjustment member 300 is rotated in the R direction. The first member 110 moves to the right when the adjustment member 300 is rotated in the L direction.
In this way, the operator performs alignment adjustment.

この後、作業者は、第1部材110及び第2部材120の位置合わせが適正になったと判断した時点(すなわち、図7(a)に示すように、開口部132bの形状が縦横の比が均等な十字形になったと判断した時点)で、図示せぬネジを強く締め付けることによって、第1部材110を第2部材120に強く固定する。
このようにして、第1部材110の第2部材120への取り付けが行われる。
Thereafter, when the operator determines that the alignment of the first member 110 and the second member 120 has become appropriate (that is, as shown in FIG. 7A, the shape of the opening 132b has a vertical to horizontal ratio). The first member 110 is strongly fixed to the second member 120 by strongly tightening a screw (not shown) at the time when it is determined that the cross has become an even cross shape.
In this way, the first member 110 is attached to the second member 120.

以上の通り、本実施形態に係る位置合わせ調整機構100によれば、調整用部材300を用いて、位置合わせの調整を行うことができる。このような位置合わせ調整機構100によれば、従来の手法のように、腕力でもって第1部材(パネル部)110全体を動かしながら行う大まかな調整と異なり、手先の制御で調整用部材300の回転を加減することが容易であるため、位置合わせの微細な調整を容易に行うことができる。その結果、位置合わせの調整のための多大な工数を削減することができる。   As described above, according to the alignment adjustment mechanism 100 according to the present embodiment, alignment adjustment can be performed using the adjustment member 300. According to such an alignment adjustment mechanism 100, unlike the conventional adjustment, which is performed roughly while moving the entire first member (panel part) 110 with arm force, the adjustment member 300 is controlled by hand control. Since it is easy to adjust the rotation, fine adjustment of the alignment can be easily performed. As a result, a great number of man-hours for alignment adjustment can be reduced.

また、位置合わせ調整機構100によれば、開口部132の形状を見ることによって、位置合わせの適否の判断を容易に行うことができる。
さらに、位置合わせ調整機構100によれば、特許文献1と異なり、テコの支点となる部分が存在せず、また、調整用部材300の押圧が第1部材110と第2部材120とに分散してかかるため、第1部材110及び第2部材120の変形の発生を低減することができる。
Further, according to the alignment adjusting mechanism 100, it is possible to easily determine whether alignment is appropriate by looking at the shape of the opening 132.
Furthermore, according to the alignment adjustment mechanism 100, unlike in Patent Document 1, there is no portion serving as a fulcrum of the lever, and the pressing of the adjustment member 300 is distributed between the first member 110 and the second member 120. Therefore, the occurrence of deformation of the first member 110 and the second member 120 can be reduced.

本発明は、前記した実施形態に限定されることなく、本発明の要旨を逸脱しない範囲で種々の変更や変形を行うことができる。
例えば、位置合わせ調整機構100は、ATM(自動取引装置)200に限らず、様々な装置や物品に用いることができる。
また、例えば、位置合わせの調整は、作業者が調整用部材300の後端を図示せぬ木槌等で軽く叩く(すなわち、微小な振動を調整用部材300に与える)ことによっても、行うことができる。
また、例えば、開口部132は、好ましくは、図示せぬパッキン等によって封鎖されるとよい。
また、例えば、十字形に形成された開口部132b(図7(a)参照)の形状は、予め定めた許容範囲内であれば、十字形の縦横の比が相違していてもよい。
The present invention is not limited to the above-described embodiment, and various changes and modifications can be made without departing from the gist of the present invention.
For example, the alignment adjusting mechanism 100 is not limited to the ATM (automatic transaction apparatus) 200 and can be used for various apparatuses and articles.
Further, for example, the alignment adjustment can be performed by lightly tapping the rear end of the adjustment member 300 with a wooden mallet or the like (not shown) (that is, applying minute vibrations to the adjustment member 300). Can do.
Further, for example, the opening 132 is preferably sealed with a packing (not shown) or the like.
Further, for example, if the shape of the opening 132b formed in a cross shape (see FIG. 7A) is within a predetermined allowable range, the cross-to-vertical and horizontal ratios may be different.

100 位置合わせ調整機構
110 第1部材(パネル部)
110a,120a 突き当て面
112 第1部材孔(凸字状孔)
112a,122a 小型孔
112b,122b 大型孔
120 第2部材(キャビネット部)
122 第2部材孔(凸字状孔)
132 開口部
200 組込装置(ATM等)
300 調整用部材(マイナスドライバ等)
D1,D2 調整方向
100 Position adjustment mechanism 110 First member (panel part)
110a, 120a Abutting surface 112 First member hole (convex hole)
112a, 122a Small hole 112b, 122b Large hole 120 Second member (cabinet part)
122 Second member hole (convex hole)
132 Opening 200 Built-in device (ATM etc.)
300 Adjustment member (such as a flat-blade screwdriver)
D1, D2 Adjustment direction

Claims (3)

第1部材と第2部材とを重ねて配置する場合に、当該第1部材と当該第2部材との位置合わせの調整を行うための自動取引装置の位置合わせ調整機構において、
前記第1部材の前記第2部材と重なる部分に、凸字状に形成された第1部材孔と、
前記第2部材の前記第1部材と重なる部分に、前記第1部材孔に対して向かい合うように、凸字状に形成された第2部材孔とを有し、
前記第1部材孔及び前記第2部材孔は、それぞれ、前記第1部材と前記第2部材とが重ねて配置された場合に、互いが向かい合わせで重なることにより、前記第1部材と前記第2部材とを互いに摺動させる調整用部材が挿入される開口部を形成し、
前記開口部は、前記第1部材及び前記第2部材の位置合わせが適正な状態になった場合に、形状が長方形又は幹となる部分の縦幅と横幅との比が均等である十字形になる
ことを特徴とする自動取引装置の位置合わせ調整機構。
In the alignment adjustment mechanism of the automatic transaction apparatus for adjusting the alignment between the first member and the second member when arranging the first member and the second member in an overlapping manner,
A first member hole formed in a convex shape in a portion overlapping the second member of the first member;
A portion of the second member that overlaps the first member has a second member hole formed in a convex shape so as to face the first member hole;
It said first member hole and said second member holes, in each case, in which the first member and the second member is arranged to overlap, the overlap face to face with each other, the said first member second Forming an opening into which an adjustment member for sliding the two members together is inserted;
When the first member and the second member are properly aligned, the opening has a rectangular shape or a cross shape in which the ratio of the vertical width to the horizontal width of the trunk portion is uniform. A mechanism for adjusting the position of an automatic transaction apparatus.
請求項1に記載の自動取引装置の位置合わせ調整機構において、
前記第1部材孔及び前記第2部材孔は、向かい合う方向が前記第1部材及び前記第2部材の位置合わせの調整方向に対して垂直又は水平になるように、形成されている
ことを特徴とする自動取引装置の位置合わせ調整機構。
In the position adjustment mechanism of the automatic transaction apparatus according to claim 1,
The first member hole and the second member hole are formed such that a facing direction is perpendicular or horizontal with respect to an adjustment direction of alignment of the first member and the second member. Automatic transaction device alignment adjustment mechanism.
請求項1又は請求項2に記載の自動取引装置の位置合わせ調整機構において、
前記第1部材は、パネル部として構成されており、
前記第2部材は、キャビネット部として構成されている
ことを特徴とする自動取引装置の位置合わせ調整機構。
In the alignment adjustment mechanism of the automatic transaction apparatus according to claim 1 or 2 ,
The first member is configured as a panel portion,
The said 2nd member is comprised as a cabinet part, The position adjustment mechanism of the automatic transaction apparatus characterized by the above-mentioned.
JP2009149311A 2009-06-24 2009-06-24 Automatic transaction device alignment adjustment mechanism Expired - Fee Related JP5529441B2 (en)

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