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
JP3727892B2 - Wall member with magnet and buffer member - Google Patents
[go: Go Back, main page]

JP3727892B2 - Wall member with magnet and buffer member - Google Patents

Wall member with magnet and buffer member Download PDF

Info

Publication number
JP3727892B2
JP3727892B2 JP2002051383A JP2002051383A JP3727892B2 JP 3727892 B2 JP3727892 B2 JP 3727892B2 JP 2002051383 A JP2002051383 A JP 2002051383A JP 2002051383 A JP2002051383 A JP 2002051383A JP 3727892 B2 JP3727892 B2 JP 3727892B2
Authority
JP
Japan
Prior art keywords
magnet
wall
cushion
attached
wall member
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.)
Expired - Lifetime
Application number
JP2002051383A
Other languages
Japanese (ja)
Other versions
JP2003253849A (en
Inventor
宏悦 清水
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.)
Nichilaymagnet Co Ltd
Original Assignee
Nichilaymagnet 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 Nichilaymagnet Co Ltd filed Critical Nichilaymagnet Co Ltd
Priority to JP2002051383A priority Critical patent/JP3727892B2/en
Publication of JP2003253849A publication Critical patent/JP2003253849A/en
Application granted granted Critical
Publication of JP3727892B2 publication Critical patent/JP3727892B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Landscapes

  • Finishing Walls (AREA)

Description

【0001】
【発明の属する技術分野】
本発明は、主に強磁性体製の壁面を有するエレベーターや家庭用、展示会場等の各種の部屋における壁面の装飾や衝撃緩和のために用いることができるマグネット付きの壁部材に最適で、器材等の緩衝部材としても応用できる技術に関するものである。
【0002】
【従来の技術】
近年、強磁性体製の壁面を有するエレベーターや家庭用等の各種の部屋には、適当な大きさのマグネットシートを裏面に取り付けた表面部材を有する壁部材を取り付ける施工が採用されつつある。この施工方法は従来の接着剤を用いるものと比較し、汚れが出にくく施工時間も短縮できる優れた技術であるが、平坦部分から直角等の所定角度に切り替わる部屋の隅や突出部に対しては、その都度位置を計測し壁部材を裁断しなければならない不都合を生じていた。また、その継ぎ合わせ部においては単に近接しているのみであるので隙間ができやすく埃付着等の汚れが出やすいものであった。
なお、上記の壁部材においては表面部材及びマグネットシート間にクッション部材を介在させているものも有り、この形態における先行技術としては出願人の自らの先行技術である、壁部材における表面部材の裏面に用いることができるマグネット小片を取り付けたクッション基材からなる貼着補助板が、実開昭57−52936号公報及び実公昭62−20579号公報により公開されている。
しかしながら、この技術における貼着補助板は、あくまでも別部材である表面部材に取り付けることのできる単独の部材であるため、クッション基材には形態を保つための強度を有しており、特に厚手のものにおいては部屋の隅における略90度に切り替わる壁に対し、綺麗に表面部材の表側に曲げることが困難であった。
また、部屋の壁における柱等の突出物のように表面部材を裏側方向に折り曲げる場合も同様な困難さを生じていた。
さらに、磁気吸着用のマグネットは多数のマグネット小片を分離して配置しているので生産性において好ましくないものであった。
ところで、これらの技術は壁部材として有効なものではあるが、クッション性の観点からは他の用途が考えられるところ、例えば家庭用のキャビネット等の器材の保護や引越し等における器材の運搬・移動時等の梱包には、上述した不都合があってか意外と着目されず今日に至っている背景もある。
【0003】
【発明が解決しようとする課題】
そこで本発明は、これらの不都合を解消すべく、特に強磁性体製の壁を有する部屋の隅に対して美観を損ねることなく簡単に且つ確実に取り付けることができ、さらに柱等の突出物にも対応することができるマグネット付き壁部材を提供することを第1の目的とする。また、この技術を器材に対する梱包等の緩衝部材として応用することを第2の目的とする。
【0004】
【課題を解決するための手段】
本発明においては第1の課題を解決するため鋭意検討を重ねた結果、柔軟で折り曲げ可能な表面部材の裏面にクッション部材を接着にて積層し、さらに、そのクッション部材にマグネットシートを接着して積層してなるマグネット付き壁部材であって、マグネットシートの表面から表面部材の裏面にかけては、クッション部材を介在させた状態で幅全体に少なくとも2本以上の切込みが設けられていて、その切込み位置にて表面部材の折り曲げを可能となし、さらに、各切込み間で形成されたマグネット片は、所定位置でクッション部材から剥離可能に形成されており、マグネット片を剥離した時には、その剥離位置で表面部材の裏方向に折り曲げることにより、強磁性体からなる被着体の180度未満乃至鋭角の角度切り替わり部に対して、残留したマグネット片により磁気吸着で取り付け可能とした構成のマグネット付き壁部材としたものである。
この構成によれば切込み加工を採用するだけで簡単に実施することができ、強磁性体製の壁における隅等の、内側へ角度の切り替わる部分に施工する際は、マグネット付き壁部材をその切込みに沿って表側へ折り曲げて磁気吸着により取り付けるだけで良いので作業が簡単であり、しかも折り曲げ部には継ぎ目が出ないので埃のたまりやすい切り替わり部分の美観を保つことができる。
また、この構成によれば、マグネット付き壁部材は、表面部材の表及び裏側に折り曲げが可能であり、特に、長い部材として使用した場合は部屋の壁等に各種の角度切り替わりや凹凸部があっても隙間無く綺麗に取り付けることができて好適である。
なお、この構成によるマグネット付き壁部材は、介在するクッション部材により、衝撃に対する緩衝効果が向上すると共に触感が元の表面部材よりさらに良くなるため高級感のある壁部材とすることができる。
【0005】
また、クッション部材を接着したマグネットシートは、表面部材の裏面に対して間隙を設けた状態で複数個接着されて配置される構成とすることができる。
この構成によれば、表面部材が各マグネットシート間に形成された間隙位置で表側及び裏側に自由に折り曲げが可能となると共に、各マグネットシート自体も切込み位置で表側に折り曲げることができるので壁部材の施工における取り付け作業性の効率が向上する。
【0006】
なお、周囲に凹凸状の接続部を形成し、同様な凹凸部を形成した他のマグネット付き壁材連結可能とした場合は、連結部に隙間やずれが生じず、磁気吸着力も略一体物として広い面積で作用するため増大し取り付け強度が向上する。
また、これらの部材は、各種の強磁性体製の器材に取り付けることが可能であり、特に緩衝部材として使用すると用途が拡大し、より便利なものとすることができる。
【0007】
【発明実施の形態】
本発明は、柔軟で折り曲げ可能な表面部材の裏面にクッション部材を接着にて積層し、 さらに、そのクッション部材にマグネットシートを接着して積層してなるマグネット付き壁部材及び緩衝部材に、マグネットシートの表面から表面部材の裏面にかけて、クッション部材を介在させた状態で幅全体に少なくとも2本以上の切込みを設けることを基本構成としたものであって、該切込み位置で表面部材の表方向に折り曲げ可能とし、さらに表面部材の裏方向にも折り曲げ可能とするマグネット付き壁部材及び緩衝部材であり、以下、各種実施例に基づき説明する。
また、マグネット付き壁部材及び緩衝部材は総称してマグネット付き部材として説明する。
【0008】
図1〜図3は第1の実施例を表す。
本発明におけるマグネット付き部材1は、縦横約200〜300mm程度の方形であり、図1における(a)正面図、(b)側面図、(c)背面図及び図2(a)における側面拡大端面図に示すように、表面部材2及びクッション部材3及びマグネットシート4で構成され各部材間は接着にて結合されている。
なお、図1(d)及び図2(b)の側面図及び側面拡大端面図は、クッション部材を使わない参考例を示したものであるが、その説明省略する。
表面部材2は、施工する壁面や器材の表面に表れるため各種の装飾が施されており、しかも折り曲げが可能な素材が用いられる。代表的な物として図2(a)及び(b)の略図に示すような厚みが略2〜3mm程度の毛織物があるが、不職布、軟質樹脂シート、ゴムシート、紙等で装飾要素のあるものが好適に用いられる。但し、単に施工する壁面の保護や器材の梱包等に用いる場合には格別に装飾要素を持たなくても良い。
クッション部材3は壁面や器材への衝撃の緩和や、触感を向上させるものであり、略5mm程度のスポンジ状の発泡ウレタン樹脂や発泡ポリプロピレン等が用いられる。
マグネットシート4は厚み略0.6mm程度のハードフェライト粉末と有機高分子粘結材よりなるボンド磁石等が用いられる。
【0009】
そして、マグネットシート4の表面から表面部材裏面にかけては図2に示すような深い切込み5が図1(c)のように縦横格子状に設けられている。切込みのピッチは略5mm程度〜数10mmの適宜の寸法が採用される。ちなみに、図3は参考例を示したものであり、単にマグネットシートの表方向に曲げるのみの場合には1本の切込みだけでもよい。
なお、切込み5は、全辺に亘って完全に切り込まれることを基本とするが、マグネット付き部材1の形態を保つため、切込み5に沿っての折り曲げに支障の無い、或は折り曲げ時に自然に切れる繋ぎ部分を有するものであっても良い。
また、本実施例においては左右方向及び上下方向のいずれにも曲げられるように縦方向及び横方向双方の切込みが格子状に設けられているが、縦方向及び横方向の切込みの間隔は各々任意に定めることができ、必要に応じてマグネット付き部材1の輪郭線に対して斜めの切込みを入れても良い。なお、曲げる方向が決まっている場合には片方だけの切込みとして加工を簡素化するのが好ましい。
【0010】
また、マグネット付き部材の輪郭は本実施例のように正方形以外に、任意の形状で実施して良いのは言うまでも無いところであり、例えば図4に表す第2の実施例である緩衝部材付き部分装飾部材6にように自由な曲線による形状とても良い。
【0011】
図5は、第3の実施例を示す。
この実施例はマグネット付き部材7における破線で示す複数の切込み8のうち、8a,8b,8c,8d部分を切断して枠部材7aと方形の切り抜き部材7bとに分離したものであり、本発明における切込みは深いため表面部材部分を切断するだけで簡単に実施することができる。
上記枠部材7aは絵画や写真のフレームとして使用することができるので、複数のマグネット付き壁部材の一部に使用すれば変化のある壁装飾とすることができるし、それ以外のところで使用しても良い。また、切り抜き部材7bは、上記の絵画や写真のカバーとして用いるが別の用途に用いても良い。
【0012】
これらのマグネット付き部材は図6に表す第4の実施例である9のように、周囲に凹部10、凸部11を連続的に設けて、同様な凹部凸部を形成した他のマグネット付き壁材と接続できるようにしても良い。その際、コーナー部に隙間無く接続できる変形凹部10a及び変形凸部11aを形成すれば4つのマグネット付き部材の接点部分は隙間なく接続することができる。従って、図6のマグネット付き部材9のように四隅に変形凹部10a及び変形凸部10bを設けた同一形状の略正方形型の物のみ複数使用すれば全てのマグネット付き部材9は隙間無く接続することができる。
なお、本実施例における凹部と凸部の嵌合状態は、縦方向及び横方向共に外れないものであるが、横方向のみ外れない嵌合形状としても良い。
また、必ずしも略正方形型の同一のマグネット付き部材9のみを複数使用必要は無く、同一の凹部及び凸部を有する他の寸法形状のマグネット付き部材を使用しても良い。
本実施例によれば、複数のマグネット付き部材を隙間無く連結できるので、外観上も優れたものとなると共に、一体的な状況となるためマグネットシートによる磁気吸着面積が大きなものとなり、単独のものと比較し取り付け強度が増大する利点が有る。
【0013】
これらのマグネット付き部材をマグネット付き壁部材12として強磁性体製の壁面に取り付ける手順は、図7(a)の斜視図及びそのA-A拡大断面図である図7(b)に示すように、先ずマグネット付き壁部材12における複数の切込み16のうち適切な切込み位置を折り曲げ位置17と定めて表面部材13の表側へ所定角度に折り曲げ、クッション部材14及びマグネットシート15を追従させる。
次に、該マグネット付き壁部材12の折り曲げ位置17と強磁性体製の壁面Kにおける角度切り替わり位置18を合わせた状態でマグネットシート15を強磁性体製の壁面Kに磁気にて吸着させて取り付ける。
なお、図7(a)におけるマグネット付き壁部材12,12,12,12は予め他のマグネット付き壁材を取り付けた後で取り付けても良いし、先にマグネット付き壁部材12,12,12,12を壁面Kにおける角度切り替わり位置18に取り付けその後他のマグネット付き壁材を取り付けても良い。
また、部分的な装飾や緩衝部材の取り付けも同様であり図8に示すように、緩衝部材付き部分装飾部材19a,19bを、そこに設けた複数の切込み20a,20bのうち任意の位置を折り曲げ位置21a,21bとして折り曲げ、強磁性体性の壁面Kの角度切り替わり位置22に合わせてマグネットシート23a,23bにより磁器吸着により取り付ける。
なお、図中における24a,24bはクッション部材、25a,25bは表面部材を表す。
【0014】
これまでの実施例は、マグネット付き部材の表側に曲げる場合について示したが、以下、裏側に折り曲げた場合について説明する。
図9及び図10は第5実施例を表したものである。
本実施例におけるマグネット付き部材30は図9(a)に示すように、表面部材31とその裏面に接着にて取り付けられるクッション部材32とマグネットシート33を接着にて積層した複数の緩衝材付き磁気吸着部材34により構成される。
図9(a)は2つの緩衝材付き磁気吸着部材34,34を使用するものであり、間隙36を設けて表面部材31に取り付けられている。また、図9(b)は4つの緩衝材付き磁気吸着部材34’,34’,34’,34’を使用する場合を示したものであり、縦方向に間隙36’、横方向に間隙36”を設けて表面部材31に取り付けられている。以下同様に、用途に応じて複数の緩衝材付き磁気吸着部材を設けることができる。上記の各間隙部を設けることにより、表面部材31は表側或は裏側に自由に折り曲げることが可能となる。
そして、本実施例においてもマグネットシート33の表面から表面部材31に至る複数の切込み35が設けられており、これまで述べた実施例同様に表面部材31の表側に折り曲げできるようになっている。なお、この切込み35は曲げる方向が縦方向或は横方向に限られている場合は図9(a)に示すように間隙に沿った方向にのみ設けても良い。
従って本実施例によれば、表面部材の裏側にも曲げることが可能な要素を備えているので施工範囲を広げることができる。
【0015】
図10は本実施例を使用した代表的な施工例を示すものであり、強磁性体製の壁面Kに突出部がある場合に適用したものである。
基本的な施工手順としては先ず壁面Kの突出角部Kaから隅部Kbに至る突出量Wを求める。但しこの計測には高精度は要求されないのでスケールに拠らなくても適宜の棒材や紐等で目安をつけてもよい。次に、マグネット付き部材30aに設けられた複数の切込み35aのうちで間隙部36aの略中央から上記突出量Wに最も近い切込みを折り曲げ位置37と定める。そして、壁面Kにおける隅部Kbに、マグネット付き部材30aの折り曲げ位置37を合わせて順次マグネットシート33aを壁面Kに磁気吸着させていけば突出角部Kaは、自動的に間隙部36a内に入るので突出部を簡単に覆うことができる。
なお、本施工例は壁面Kに突部があるとして説明したが、図10における突出角部Kaから隅部Kbにかけての溝部があることとして見直せば、同様な手順で凹部にも対応できることが判る。
また、突出部或は溝部の角度が本実施例のように直角でなく任意の角度であっても実施できるのは言うまでも無いことである。
従って、以上のように本実施例を用いれば、部屋の隅や凹凸部の施工が可能となるので施工の作業性が向上すると共に、同部に継ぎ目や隙間が生じないため視覚上綺麗であると共に、埃等が付着しにくい利点がある。
【0016】
次に第6の実施例を図11から図13を用いて説明する。
本実施例に使用するマグネット付き部材は、基本的には第1の実施例を使用したものであり、より効果的な実施例として説明するため図11の41に示すように横幅の広いもので説明する。
本実施例におけるマグネット付き部材41は、第1の実施例同様に表面部材42とクッション部材43とマグネットシート44を順に接着にて固定されて積層されている。そして、マグネットシート44の表面から表面部材41の裏面にかけて複数の切込み45が設けられている。
ところで各部材の接着性能については、中間にクッション部材を介在しているため、クッション部材の特性である連続気泡形態が影響し相手部材によってクッション部材との接着力が異なることが判ってきた。
即ち、相手である表面部材42が毛織物等のクッション部材43の表面状態になじみやすいものは接触面積が増加するため接着力が強固になり容易に剥がすのが困難であるのに対し、相手が板状のものは逆に接触面積が減少し且つクッション部材自体の強度が本来弱いこともあって、表面部分が僅かに剥がれる程度で板状の部材が容易に剥がせるのである。
【0017】
本実施例は、この点に着目し施工技術として応用したものであり、図11に示すように、マグネットシート44は複数の切込み45によって複数のマグネット片46に分離される。そして、このマグネット片46は上述のとおりクッション部材43との接着力は弱く図中矢印で示す如く容易に剥がすことができる。
ここで、上記切込み45のピッチを細かくしておくと、図12に示す如く強磁性体製の壁部Kの突出角部Kaに対し、対応するマグネット片を取り去りクッション部材43を押し当てる状態として残留している各マグネット片46を磁力で取り付けると、同部におけるクッション部材43は、自体のクッション形態による優れた追従性によって突出角部Kaに沿って変形するため、該突出角部Kaは綺麗に覆われることになる。
なおクッション部材43の変形可能量は材質、発泡倍率(密度)、厚さ等によって左右されるため、上記切込み45を介在させる方が変形を促進しやすいものとなるので好ましい。
【0018】
図13は、本実施例を突出角部Ka1,Ka2及び隅部Kb1,Kb2,Kb3を有する壁面Kへの施工例を示す。本実施例においては、隅部→突出角部→突出角部を覆うもの、即ち図中におけるKb1とKb2の中間→Kb2→Ka1→Ka2→Ka2とKb3の中間までは原理的に継ぎ目無しで連続的に施工が可能である。但し、図中Kb1→Kb2のように所定位置から隅部間に正確な施工をする場合は最大図中Pで示す1切込みピッチ未満の誤差を生じるため厳格に言えば、全ての状況に対して継ぎ目なしで施工できるとは云いがたい。しかしながら、1切込みピッチ未満のズレによる外観上の不都合が容認される施工であれば可能であり、例えば1切込みピッチが10mm程度とした場合は殆ど外観上異常を感じずに施工できるので、実質上殆どの状況に対し継ぎ目無しで施工できると言える。
また、実際の施工においてはマグネット付き部材41の製作できる幅にも限度があるため継ぎ目はどうしても発生するものであり、隅部や突出角部を避けた位置で継ぎ合わす際、必要に応じて端面位置を調整(裁断等)すれば外観的な不都合を生じずに施工することができる。
【0019】
これまで述べてきた実施例は、強磁性体製の壁面を対象としてきたが、それ以外に各種の強磁性体製の器材に応用することは無論可能である。
第1の応用例として、図14の如く移動可能な直方体状の鋼板製のキャビネットHに応用した場合を示す。ここに使用するマグネット付き部材は、装飾要素をもったマグネット付き緩衝部材51であり、上述した第6の実施例同様な構成となっている。
即ち、マグネット付き緩衝部材51は毛織物等で作られた表面部材52とクッション部材53とマグネットシート54を接着にて固定した状態で積層されたものを用い、該マグネットシート54の表面から表面部材52の裏面にかけては複数の切込み55が設けられ、マグネットシート54は複数のマグネット片56に分割されている。
そして、マグネット付き緩衝部材51をキャビネットHに取り付ける際は、キャビネットHにおけるコーナー部Ha,Hbに対向する部分のマグネット片を取り除いた状態としてキャビネットHの外周に沿わせれば磁気吸着により取り付けることができる。
このように、各種器材の周囲にマグネット付き緩衝部材は極めて簡単に取り付けることができる。
【0020】
なお、この実施例においてはキャビネットを通常使うことを前提に三面のみを取り付ける構成としたが、引越し等の梱包用に使用する際は、残り2つのコーナー部HcまたはHdの何れかに対する部分のマグネット片を取り除く作業を追加して四面に対して一度取り付けるようにすれば良い。この場合は残りのコーナー部はマグネット付き緩衝部材の突合せ部となるのでマグネット片の取り除きは不要である。
さらにキャビネットHの上面を、その輪郭に沿った平板状のマグネット付部材を別途作製して磁気吸着にて取り付ければ底面を除く5面を緩衝材で覆うことも簡単に実施できる。
なお、器材が比較的小物の場合は図15の第2の応用例に示すような展開形状のマグネット付き緩衝部材61(図15(a)参照)として、各コーナー(稜線)に沿う部分のマグネット片66a,66a〜66e,66eを取り除いて矢印のように折り曲げれば一度に全面を磁気吸着で覆うことが可能となる。(図15(b)参照)
この応用例における他の構成は第6の実施例と同様であり、図中における62は表面部材、63はクッション部材、64はマグネットシート、65は切込みをしめす。
また、器材が円筒状の物に対しては図16(a)の展開図及び(b)の取り付け状態図に示される第3の応用例のように、マグネット付き緩衝部材71における複数形成されたマグネット片76を一定間隔で取り除いて使用すれば綺麗に取り付けることができる。なお、図16(b)に示すように、取り付ける際は両端にマグネット片76が残るようにするのが好ましい。
また、マグネット付き緩衝部材71の上下の開放部には図16(c)のような別の補助的なマグネット付き緩衝部材77,77を使用するのも有効である。
この場合における部材の構成はこれまで述べた各実施例どおりでも良いし、切込みを省略したものでも良い。
なお、梱包する器材が強磁性体製でない場合は、汎用の強磁性体製の金属シートや樹脂に強磁性体粉を含有させたものからなる強磁性体シート78を器材に巻き付けて固定したり、テープ貼り等適宜の手段で取り付ければ本発明品を使用することが可能となる。
この応用例にいても他の構成は第6の実施例と同様であり、図中における72は表面部材、73はクッション部材、74はマグネットシート、75は切込みをしめす。
このように、本発明は緩衝部材としても活用が充分できる物であり、上記以外にも大型の冷蔵庫やドラム缶状の円筒物更には鉄製のパイプ、棒等の材料保護等多くの用途が考えられる。
そしてこの場合は、従来の梱包における緩衝部材を固定するための外装箱や紐掛け用部材等の固定部材が不要であると共に、各種印刷等の表示も容易であるため、取り付け作業性がよく、しかもコンパクトな梱包形態とすることができる。
【0021】
【発明の効果】
本発明は、折り曲げ可能な表面部材とクッション部材とマグネットシートを順に接着にて積層させ、マグネットシートの表面から表面部材の裏面にかけて幅全体に切込みを設け、その切込み位置で表面部材の表方向に折り曲げを可能とすると言う簡単な構成でありながら、強磁性体製の壁を有する家庭用の部屋やエレベーターの室内における角状の隅に隙間無く、しかも簡単且つ確実に取り付けることができるので、壁材の美観を損なうことなく綺麗に施工することができる。
また、マグネットシートからなる複数の磁気吸着部材間に間隙を設けて表面部材の裏側に取り付け、さらにマグネットシートの表面から表面部材の裏面にかけて切込みを入れる構成とすれば表面部材の表方向及び裏方向の折り曲げが可能となって施工範囲が広くなる利点がる。
なお、切込みによって生じたマグネット片を剥がすことによっても、剥離部から表面部材を裏側方向へ折り曲げて取り付ける施工が可能となる利点がある。
さらに、表面部材とマグネットシート間にクッション部材を介在させれば、触感の良い高級感の有る壁部材とすることができると共に、各種器材の緩衝部材として用いることができ利用範囲が拡大する。
また、周囲に凹凸状の接続部を形成し、同様な凹凸部を形成した他のマグネット付き部材と連結可能とすれば、隙間無く施工でき、しかも広範囲の磁気吸着面積を得ることにより取り付け強度を向上させることができる。
【図面の簡単な説明】
【図1】 本発明による第1の実施例として、(a)は正面図、(b)は側面図、(c)は背面図を示し、(d)は参考例としてクッション部材を使用しない場合の側面図を示す。
【図2】 (a)は本発明による第1の実施例における側面拡大端面図を表し、(b)は参考例の側面拡大端面図を表す
【図3】 本発明の参考例を示す正面図である。
【図4】 本発明による第2の実施例を表す正面図である。
【図5】 本発明による第3の実施例を表す正面図である。
【図6】 本発明による第4の実施例を表す正面図である。
【図7】 本発明による第1の実施例を使用した施工例を表す説明図であり、(a)は斜視図、(b)はA−A拡大断面図を示す。
【図8】 本発明による第2の実施例を使用した施工例を表す斜視図である。
【図9】 本発明による第5の実施例を表す斜視図であり、(a)は緩衝材付き磁気吸着部材を2つ設けた場合を示し、(b)は4つ設けた場合を示す。
【図10】 本発明による第5の実施例を使用した施工例を示す断面図である。
【図11】 本発明による第6の実施例における斜視図を示す。
【図12】 本発明による第6の実施例を使用した施工例を示す部分断面図である。
【図13】 本発明による第6の実施例を使用した施工例を示す断面図である。
【図14】 本発明による第6の実施例における第1の応用例としての斜視図を示す。
【図15】 本発明による第6の実施例における第2の応用例を示し、(a)は展開図、(b)は折り曲げ状態(使用状態)の斜視図を表す。
【図16】 本発明による第6の実施例における第3の応用例を示し、(a)は展開図、(b)は折り曲げ状態(使用状態)の斜視図、(c)は補助的なマグネット付き緩衝部材の斜視図、(d)は強磁性体シートを取り付けた器材の斜視図を表す。
【符号の説明】
K (強磁性体製の)壁面
Ka,Ka1,Ka2 突出角部
Kb,Kb1,Kb2,Kb3 隅部
H キャビネット
Ha,Hb,Hc,Hd コーナー部
W 突出量
P 切込みピッチ
1 マグネット付き部材
2 表面部材
3 クッション部材
4 マグネットシート
5 切込み
6 緩衝部材付き部分装飾部材
7 マグネット付き部材
7a 枠部材
7b 切り抜き部材
8、8a、8b、8c、8d 切込み
9 マグネット付き部材
10 凹部
10a 変形凹部
11 凸部
11a 変形凸部
12 マグネット付き壁部材
13 表面部材
14 クッション部材
15 マグネットシート
16 切込み
17 折り曲げ位置
18 角度切り替わり位置
19a、19b 緩衝材付き部分装飾部材
20a、20b 切込み
21a、21b 折り曲げ位置
22 角度切り替わり位置
23a、23b マグネットシート
24a、24b クッション部材
25a、25b 表面部材
30、30’、30a マグネット付き部材
31 表面部材
32 クッション部材
33、33a マグネットシート
34、34’ 緩衝材付き磁気吸着部材
35、35a 切込み
36、36’、36”、36a 間隙
37 折り曲げ位置
41 マグネット付き部材
42 表面部材
43 クッション部材
44 マグネットシート
45 切込み
46 マグネット片
51、61、71 マグネット付き緩衝部材
52、62、72 表面部材
53、63、73 クッション部材
54、64、74 マグネットシート
55、65、75 切込み
56、66a、66b、66c、66d、66e、76 マグネット片
77 マグネット付き緩衝部材
78 強磁性体シート
[0001]
BACKGROUND OF THE INVENTION
  The present invention is most suitable for wall members with magnets that can be used for wall decoration and shock mitigation in various rooms such as elevators, homes, exhibition halls, etc., which mainly have ferromagnetic walls. The present invention relates to a technology that can also be applied as a buffering member.
[0002]
[Prior art]
  In recent years, in various rooms such as elevators and homes having a ferromagnetic wall surface, a construction of attaching a wall member having a surface member having a magnet sheet of an appropriate size attached to the back surface is being adopted. This construction method is an excellent technique that makes it difficult to get dirt and shortens the construction time compared to conventional adhesives, but for corners and protrusions in rooms that switch from a flat part to a predetermined angle such as a right angle. Has inconvenienced of having to measure the position and cut the wall member each time. Further, since the joint portion is merely close to the joint portion, a gap is easily formed, and dirt such as dust adhesion is likely to occur.
  In addition, some of the above wall members have a cushion member interposed between the surface member and the magnet sheet, and the prior art in this embodiment is the applicant's own prior art, the back surface of the surface member in the wall member. A sticking auxiliary plate made of a cushion base material to which a magnet piece that can be used in the present invention is attached is disclosed in Japanese Utility Model Laid-Open Nos. 57-52936 and 62-20579.
  However, since the sticking auxiliary plate in this technique is a single member that can be attached to a surface member that is a separate member, the cushion base material has strength to maintain the form, particularly thick. In the case of the wall, it was difficult to bend it neatly to the front side of the surface member with respect to the wall that switches to approximately 90 degrees in the corner of the room.
  Moreover, the same difficulty has arisen when the surface member is bent in the back side direction like a protrusion such as a pillar on the wall of the room.
  Further, the magnet for magnetic attraction is not preferable in productivity because a large number of magnet pieces are separated and arranged.
  By the way, although these technologies are effective as wall members, other applications can be considered from the viewpoint of cushioning properties.For example, when transporting or moving equipment such as household cabinet protection or moving Such packaging has a background that has not been noticed unexpectedly due to the disadvantages described above, and has reached today.
[0003]
[Problems to be solved by the invention]
  Therefore, in order to eliminate these disadvantages, the present invention can be easily and securely attached to the corner of a room having a wall made of a ferromagnetic material without impairing the aesthetics. It is a first object to provide a wall member with a magnet that can cope with the above. A second object is to apply this technique as a cushioning member such as packing for equipment.
[0004]
[Means for Solving the Problems]
  In the present invention, as a result of intensive studies to solve the first problem,FlexibleBendable surface memberA wall member with a magnet, which is formed by laminating a cushion member on the back surface of the adhesive member, and further laminating a magnetic sheet on the cushion member, and the cushion member extends from the surface of the magnet sheet to the back surface of the surface member. At least two or more cuts are provided in the entire width in a state where a gap is interposed, the surface member can be bent at the cut positions, and the magnet pieces formed between the cuts are in predetermined positions. It is formed so that it can be peeled off from the cushion member, and when the magnet piece is peeled off, it is bent at the peeling position in the reverse direction of the surface member, thereby switching the adherend made of ferromagnetic material from less than 180 degrees to an acute angle. This is a wall member with a magnet that can be attached by magnetic attraction using the remaining magnet piece. It is.
  According to this configuration, it can be easily implemented simply by adopting a notch process. When constructing a corner such as a corner of a ferromagnetic wall where the angle is switched inward, the wall member with magnet is notched. Since it is only necessary to bend it to the front side and attach it by magnetic attraction, the work is easy, and since the seam does not appear in the bent part, it is possible to maintain the aesthetic appearance of the switching part where dust tends to accumulate.
  Further, according to this configuration, the wall member with magnet can be bent on the front and back sides of the surface member, and in particular, when used as a long member, there are various angle switching and uneven portions on the wall of the room. However, it is suitable because it can be mounted neatly without gaps.
  In addition, the wall member with a magnet by this structure can be made into a wall member with a high-class feeling since the cushioning effect with respect to an impact improves and the tactile sensation becomes better than the original surface member.
[0005]
  Moreover, the magnet sheet | seat which adhere | attached the cushion member can be set as the structure adhere | attached and arrange | positioned in the state which provided the clearance gap with respect to the back surface of the surface member.
According to this configuration, the front surface member can be freely bent to the front side and the back side at a gap position formed between the magnet sheets, and each magnet sheet itself can be bent to the front side at the cut position, so that the wall member The efficiency of the installation workability in the construction work is improved.
[0006]
  In addition, other wall materials with magnets in which uneven connection parts are formed in the periphery and similar uneven parts are formed.WhenIn the case where the connection is possible, there is no gap or shift in the connection portion, and the magnetic attraction force acts on a large area as a substantially integrated body, thereby increasing the attachment strength.
  In addition, these members can be attached to various types of ferromagnetic materials, and in particular, when used as a buffer member, the application can be expanded and more convenient.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
  The present inventionFlexibleBendable surface memberThe cushion member is laminated on the back of the Furthermore, the wall member with magnet and the buffer member formed by adhering and laminating the magnet sheet to the cushion member, and at least two over the entire width with the cushion member interposed from the surface of the magnet sheet to the back surface of the surface member More thanThe basic configuration is to provide a notch.It wasCan be bent in the front direction of the surface member at the incision positionageFurthermore, it can be bent in the reverse direction of the surface memberToThe wall member with a magnet and the buffer member will be described below based on various embodiments.
  Also,The wall member with a magnet and the buffer member are collectively referred to as a member with a magnet.
[0008]
  1 to 3 show a first embodiment.
  The member 1 with a magnet in the present invention has a rectangular shape of about 200 to 300 mm in length and width, and is a front view in FIG. 1, (b) a side view, (c) a rear view and a side enlarged end face in FIG. 2 (a). As shown in the figure, the surface member 2, the cushion member 3, and the magnet sheet 4 are configured, and the members are coupled by adhesion.
  The side view and side enlarged end view of FIGS. 1 (d) and 2 (b) are as follows:Although it shows a reference example that does not use cushion members,The explanationIsOmitted.
  Since the surface member 2 appears on the surface of the wall or equipment to be constructed, various decorations are applied, and a material that can be bent is used. Typical examples include woolen fabrics with a thickness of about 2 to 3 mm as shown in the schematic diagrams of FIGS. 2 (a) and 2 (b). However, the decorative elements such as unemployed fabrics, soft resin sheets, rubber sheets, paper, etc. Some are preferably used. However, when it is simply used for protection of the wall surface to be constructed, packing of equipment, etc., it does not have to have a special decorative element.
  The cushion member 3 is for reducing the impact on the wall surface and the equipment and improving the tactile sensation, and a sponge-like foamed urethane resin, foamed polypropylene or the like of about 5 mm is used.
  As the magnet sheet 4, a bond magnet made of hard ferrite powder having a thickness of about 0.6 mm and an organic polymer binder is used.
[0009]
  And from the surface of the magnet sheet 4 to the back surface member, the deep notch 5 as shown in FIG. 2 is provided in the shape of a vertical / horizontal lattice like FIG.1 (c). An appropriate dimension of about 5 mm to several tens of mm is employed as the pitch of the cut.Incidentally, FIG. 3 shows a reference example, and in the case of simply bending the magnet sheet in the front direction, only one notch may be used.
  The cut 5 is basically cut completely over the entire side, but in order to maintain the shape of the member 1 with magnet, there is no hindrance to the bending along the cut 5 or it is natural when bent. It may have a connecting portion that can be cut.
  In this embodiment, both the vertical and horizontal cuts are provided in a lattice shape so as to be bent in both the horizontal and vertical directions, but the intervals between the vertical and horizontal cuts are arbitrary. If necessary, an oblique cut may be made with respect to the contour line of the member 1 with magnet. In addition, when the direction to bend is determined, it is preferable to simplify the process by cutting only one side.
[0010]
  Further, it is needless to say that the outline of the member with magnet may be implemented in any shape other than the square as in the present embodiment. For example, with the buffer member according to the second embodiment shown in FIG. The shape by the free curve like the partial decoration member 6 is very good.
[0011]
  FIG. 5 shows a third embodiment.
  In this embodiment, among the plurality of cuts 8 indicated by broken lines in the member 7 with magnet, the portions 8a, 8b, 8c and 8d are cut and separated into a frame member 7a and a rectangular cutout member 7b. Since the incision in is deep, it can be easily carried out simply by cutting the surface member portion.
  Since the frame member 7a can be used as a frame for paintings and photographs, it can be used as a wall decoration with changes if used on some of the wall members with magnets. Also good. Further, the cutout member 7b is used as a cover for the above-mentioned painting or photograph, but may be used for other purposes.
[0012]
  These magnet-attached members are other magnet-attached walls in which concave portions 10 and convex portions 11 are continuously provided in the periphery to form similar concave and convex portions as in the fourth embodiment 9 shown in FIG. You may make it connectable with materials. At this time, if the deformed concave portion 10a and the deformed convex portion 11a that can be connected to the corner portion without a gap are formed, the contact portions of the four magnet-attached members can be connected without a gap. Accordingly, if a plurality of substantially square-shaped objects having the same shape with the deformed recesses 10a and the deformed protrusions 10b provided at the four corners as in the magnet-attached member 9 of FIG. Can do.
  In addition, although the fitting state of the recessed part and the convex part in this embodiment does not come off in both the vertical direction and the horizontal direction, it may have a fitting shape that does not come off only in the horizontal direction.
  Moreover, it is not always necessary to use a plurality of substantially square-shaped members 9 with the same magnet, and members with other sizes and shapes having the same recesses and projections may be used.
  According to the present embodiment, a plurality of magnet-attached members can be connected without gaps, so that the appearance is excellent, and since it is in an integrated state, the magnetic adsorption area by the magnet sheet is large, and it is a single one There is an advantage that the mounting strength is increased as compared with.
[0013]
  The procedure for attaching these magnet-attached members to the wall surface made of ferromagnetic material as the magnet-attached wall member 12 is as shown in FIG. 7A, which is a perspective view of FIG. 7A, and an AA enlarged sectional view thereof. First, an appropriate cut position among the plurality of cuts 16 in the wall member 12 with magnet is determined as a bending position 17 and bent to a front side of the surface member 13 at a predetermined angle to cause the cushion member 14 and the magnet sheet 15 to follow.
  Next, the magnet sheet 15 is attached by being magnetically attracted to the ferromagnetic wall surface K in a state where the bending position 17 of the wall member 12 with magnet and the angle switching position 18 on the ferromagnetic wall surface K are matched. .
  In addition, the wall member 12, 12, 12, 12 with a magnet in Fig.7 (a) may be attached after attaching a wall material with another magnet beforehand, or the wall member 12, 12, 12, with a magnet previously. You may attach 12 to the angle switching position 18 in the wall surface K, and you may attach another wall material with a magnet after that.
  Further, the partial decoration and the attachment of the buffer member are the same. As shown in FIG. 8, the partial decorative members 19a and 19b with the buffer member are bent at arbitrary positions among the plurality of cuts 20a and 20b provided therein. It is bent as the positions 21a and 21b, and is attached by magnetism adsorption by the magnet sheets 23a and 23b according to the angle switching position 22 of the ferromagnetic wall surface K.
  In the figure, 24a and 24b represent cushion members, and 25a and 25b represent surface members.
[0014]
  The previous examples are bent to the front side of the member with magnetCaseI showed about the followingWhen foldedexplain about.
  9 and 10 show a fifth embodiment.
  As shown in FIG. 9A, the member 30 with a magnet in the present embodiment has a plurality of magnetic members with shock-absorbing materials in which a front surface member 31, a cushion member 32 attached to the back surface thereof by adhesion and a magnet sheet 33 are laminated by adhesion. The suction member 34 is configured.
  FIG. 9A uses two magnetic attraction members 34 and 34 with a buffer material, and is attached to the surface member 31 with a gap 36. FIG. 9B shows a case where four magnetic attracting members 34 ′, 34 ′, 34 ′, 34 ′ with cushioning material are used, with a gap 36 ′ in the vertical direction and a gap 36 in the horizontal direction. ”And attached to the surface member 31. Similarly, a plurality of magnetic attraction members with cushioning materials can be provided in accordance with the application. By providing each of the above gap portions, the surface member 31 is provided on the front side. Or it can be bent freely on the back side.
  Also in this embodiment, a plurality of cuts 35 extending from the surface of the magnet sheet 33 to the surface member 31 are provided and can be bent to the front side of the surface member 31 as in the embodiments described so far. Note that the cut 35 may be provided only in the direction along the gap as shown in FIG. 9A when the bending direction is limited to the vertical direction or the horizontal direction.
  Therefore, according to the present Example, since the element which can be bent is provided also in the back side of a surface member, a construction range can be expanded.
[0015]
  FIG. 10 shows a typical construction example using this embodiment, which is applied when there is a protrusion on the wall surface K made of ferromagnetic material.
  As a basic construction procedure, first, a projection amount W from the projection corner portion Ka of the wall surface K to the corner portion Kb is obtained. However, since high accuracy is not required for this measurement, an appropriate bar or string may be used as a guide without depending on the scale. Next, among the plurality of cuts 35a provided in the magnet-attached member 30a, the cut closest to the protrusion amount W from the approximate center of the gap 36a is determined as the bending position 37. Then, if the bending position 37 of the magnet-attached member 30a is aligned with the corner portion Kb of the wall surface K and the magnetic sheet 33a is sequentially magnetically attracted to the wall surface K, the protruding corner portion Ka automatically enters the gap portion 36a. Therefore, the protrusion can be easily covered.
  In addition, although this construction example was demonstrated as having a protrusion on the wall surface K, it can be understood that a recess can be accommodated in a similar procedure if it is reconsidered as having a groove from the protruding corner portion Ka to the corner portion Kb in FIG. .
  Needless to say, the present invention can be carried out even if the angle of the projecting portion or the groove portion is not a right angle as in this embodiment but an arbitrary angle.
  Therefore, if the present embodiment is used as described above, it becomes possible to construct the corners and uneven portions of the room, so that the workability of the construction is improved and the joints and gaps are not generated in the same portion, which is visually beautiful. In addition, there is an advantage that dust or the like is difficult to adhere.
[0016]
  Next, a sixth embodiment will be described with reference to FIGS.
The magnet-equipped member used in the present embodiment is basically the one used in the first embodiment, and in order to explain it as a more effective embodiment, it has a wide width as shown at 41 in FIG. explain.
  In the present embodiment, the magnet-equipped member 41 is formed by laminating the surface member 42, the cushion member 43, and the magnet sheet 44 in this order by bonding in the same manner as in the first embodiment. A plurality of cuts 45 are provided from the surface of the magnet sheet 44 to the back surface of the surface member 41.
  By the way, about the adhesive performance of each member, since the cushion member was interposed in the middle, it has become clear that the open cell form which is the characteristic of the cushion member influences, and the adhesive force with a cushion member changes with partner members.
  That is, when the mating surface member 42 is easy to adapt to the surface state of the cushion member 43 such as a woolen fabric, the contact area increases, so the adhesive strength becomes strong and it is difficult to peel off easily. On the other hand, since the contact area is reduced and the strength of the cushion member itself is inherently weak, the plate-like member can be easily peeled to such an extent that the surface portion is slightly peeled off.
[0017]
  The present embodiment focuses on this point and is applied as a construction technique. As shown in FIG. 11, the magnet sheet 44 is separated into a plurality of magnet pieces 46 by a plurality of cuts 45. The magnet piece 46 has a weak adhesive force with the cushion member 43 as described above, and can be easily peeled off as indicated by an arrow in the figure.
  Here, if the pitch of the notches 45 is made fine, the corresponding magnet piece is removed and the cushion member 43 is pressed against the protruding corner portion Ka of the ferromagnetic wall K as shown in FIG. When each remaining magnet piece 46 is attached with a magnetic force, the cushion member 43 in the same portion is deformed along the protruding corner portion Ka due to excellent followability by its own cushion form, so that the protruding corner portion Ka is beautiful. It will be covered with.
  Since the deformable amount of the cushion member 43 depends on the material, the foaming magnification (density), the thickness, and the like, it is preferable to interpose the notch 45 because it facilitates the deformation.
[0018]
  FIG. 13 shows a construction example of the present embodiment on the wall surface K having the protruding corner portions Ka1, Ka2 and the corner portions Kb1, Kb2, Kb3. In this embodiment, corners → projecting corners → covering the projecting corners, that is, between Kb1 and Kb2 in the drawing → Kb2 → Ka1 → Ka2 → Ka2 and Kb3 are in principle continuous without a seam. Construction is possible. However, in the case of accurate construction between the corners from the predetermined position as in Kb1 → Kb2 in the figure, an error of less than one cutting pitch indicated by P in the figure will occur, strictly speaking, for all situations It is hard to say that construction can be done without seams. However, it is possible as long as the construction allows the inconvenience in appearance due to the deviation of less than 1 cut pitch. For example, when the 1 cut pitch is about 10 mm, it can be constructed with almost no abnormal appearance. It can be said that construction can be performed seamlessly for most situations.
  Further, in actual construction, there is a limit to the width that the magnetized member 41 can be produced, so a seam is inevitably generated. When joining at a position that avoids corners and projecting corners, an end face is required if necessary. If the position is adjusted (cutting or the like), it can be constructed without causing any inconvenience in appearance.
[0019]
  Although the embodiments described so far have been directed to the wall surface made of a ferromagnetic material, it is of course possible to apply it to various other devices made of a ferromagnetic material.
  As a first application example, a case where the present invention is applied to a cabinet H made of a rectangular parallelepiped steel plate as shown in FIG. 14 is shown. The member with magnet used here is a buffer member 51 with magnet having a decorative element, and has the same configuration as that of the sixth embodiment described above.
  That is, the magnet-equipped buffer member 51 is formed by laminating a surface member 52 made of a woolen fabric or the like, a cushion member 53, and a magnet sheet 54 fixed together by adhesion, and the surface member 52 from the surface of the magnet sheet 54 is used. A plurality of cuts 55 are provided on the back surface of the magnet sheet 54, and the magnet sheet 54 is divided into a plurality of magnet pieces 56.
  And when attaching the buffer member 51 with a magnet to the cabinet H, if the magnet piece of the part which opposes the corner parts Ha and Hb in the cabinet H is removed, it can attach by magnetic adsorption if it follows the outer periphery of the cabinet H. .
  Thus, the buffer member with magnet can be attached very easily around various devices.
[0020]
  In this embodiment, only three surfaces are attached on the assumption that the cabinet is normally used. However, when used for packing such as moving, the magnet for the remaining two corner portions Hc or Hd is used. Add work to remove the piece and attach it once to the four sides. In this case, since the remaining corner portion becomes the butting portion of the buffer member with magnet, it is not necessary to remove the magnet piece.
  Further, if the upper surface of the cabinet H is separately produced by attaching a flat plate-like magnet-attached member along the contour and attached by magnetic attraction, it is possible to easily cover the five surfaces except the bottom surface with a cushioning material.
  When the equipment is relatively small, as a shock-absorbing member 61 (see FIG. 15 (a)) having a developed shape as shown in the second application example of FIG. 15, the magnets along the corners (ridge lines). If the pieces 66a, 66a to 66e, 66e are removed and bent as shown by the arrows, the entire surface can be covered by magnetic at once. (See FIG. 15 (b))
  Other configurations in this application example are the same as those in the sixth embodiment. In the figure, 62 is a surface member, 63 is a cushion member, 64 is a magnet sheet, and 65 is a notch.
  In addition, for a cylindrical object, a plurality of cushioning members 71 with magnets are formed as in the third application example shown in the development view of FIG. 16A and the attachment state diagram of FIG. If the magnet pieces 76 are removed at regular intervals, they can be mounted neatly. In addition, as shown in FIG.16 (b), when attaching, it is preferable that the magnet piece 76 remains at both ends.
  It is also effective to use other auxiliary buffer members 77, 77 with magnets as shown in FIG. 16C at the upper and lower open portions of the buffer member 71 with magnets.
  In this case, the configuration of the members may be the same as that of each of the embodiments described so far, or may be omitted.
  In addition, when the equipment to be packed is not made of a ferromagnetic material, a general-purpose ferromagnetic metal sheet or a ferromagnetic material sheet 78 made of resin containing ferromagnetic powder is wound around the equipment and fixed. The product of the present invention can be used if it is attached by appropriate means such as tape attachment.
  Even in this application example, the other configurations are the same as those of the sixth embodiment. In the figure, 72 is a surface member, 73 is a cushion member, 74 is a magnet sheet, and 75 is a notch.
  As described above, the present invention can be sufficiently utilized as a buffer member. Besides the above, the present invention can be used for many purposes such as protection of materials such as large refrigerators, drum-like cylinders, and iron pipes and rods. .
  And in this case, the fixing member such as an outer box or a stringing member for fixing the buffer member in the conventional packaging is unnecessary, and since various displays such as printing are easy, the mounting workability is good. And it can be set as a compact packing form.
[0021]
【The invention's effect】
  In the present invention, a foldable surface member, a cushion member, and a magnet sheet are laminated in order, and a cut is provided in the entire width from the surface of the magnet sheet to the back surface of the surface member. Although it is a simple configuration that can be folded, it can be easily and reliably attached to a corner of a corner of a household room or elevator room having a ferromagnetic wall without any gaps. It can be constructed neatly without damaging the aesthetics of the material.
  In addition, if a configuration is provided in which a gap is provided between a plurality of magnetic adsorption members made of a magnet sheet and attached to the back side of the surface member, and further, a cut is made from the surface of the magnet sheet to the back surface of the surface member, the front direction and the back direction of the surface member Can be bent, and there is an advantage that the construction range is widened.
  It is also possible to bend the surface member from the peeled portion in the reverse direction by peeling off the magnet piece generated by the cut.AttachThere is an advantage that construction is possible.
  Further, if a cushion member is interposed between the surface member and the magnet sheet, it can be used as a high-quality wall member with a good tactile sensation, and can be used as a buffer member for various equipment, thereby expanding the range of use.
  In addition, if a concave and convex connection part is formed around it and it can be connected to other magnet-equipped members with similar concave and convex parts, it can be installed without gaps, and the attachment strength can be increased by obtaining a wide magnetic adsorption area. Can be improved.
[Brief description of the drawings]
FIG. 1 shows a first embodiment according to the present invention.As, (A) is a front view, (b) is a side view, (c) is a rear view.Indicate, (D)As a reference exampleThe side view when not using a cushion member is shown.
[Figure 2] (a)The side expanded end view in 1st Example by this invention is represented, (b) isRepresents the enlarged side view of the reference example.
FIG. 3Reference exampleFIG.
FIG. 4 is a front view illustrating a second embodiment according to the present invention.
FIG. 5 is a front view illustrating a third embodiment according to the present invention.
FIG. 6 is a front view illustrating a fourth embodiment according to the present invention.
FIGS. 7A and 7B are explanatory views showing a construction example using the first embodiment according to the present invention, wherein FIG. 7A is a perspective view and FIG. 7B is an AA enlarged cross-sectional view.
FIG. 8 is a perspective view showing a construction example using the second embodiment according to the present invention.
FIGS. 9A and 9B are perspective views showing a fifth embodiment according to the present invention, in which FIG. 9A shows a case where two magnetic attraction members with a buffer material are provided, and FIG. 9B shows a case where four magnetic attraction members are provided.
FIG. 10 is a sectional view showing a construction example using the fifth embodiment according to the present invention.
FIG. 11 shows a perspective view of a sixth embodiment according to the present invention.
FIG. 12 is a partial sectional view showing a construction example using the sixth embodiment according to the present invention.
FIG. 13 is a sectional view showing a construction example using the sixth embodiment according to the present invention.
FIG. 14 is a perspective view showing a first application example of the sixth embodiment according to the present invention.
FIGS. 15A and 15B show a second application example in the sixth embodiment of the present invention, where FIG. 15A is a developed view and FIG. 15B is a perspective view in a bent state (used state);
FIGS. 16A and 16B show a third application example in the sixth embodiment of the present invention, where FIG. 16A is a developed view, FIG. 16B is a perspective view in a bent state (use state), and FIG. The perspective view of a buffer member with attachment, (d) represents the perspective view of the equipment which attached the ferromagnetic material sheet.
[Explanation of symbols]
K wall surface (made of ferromagnetic material)
Ka, Ka1, Ka2 Projection corner
Kb, Kb1, Kb2, Kb3 Corner
H cabinet
Ha, Hb, Hc, Hd Corner
W protrusion amount
P Cutting pitch
1 Magnet member
2 Surface members
3 Cushion material
4 Magnet sheet
5 notches
6 Partial decorative member with cushioning member
7 Magnet member
7a Frame member
7b Cutout member
8, 8a, 8b, 8c, 8d
9 Parts with magnets
10 recess
10a Deformed recess
11 Convex
11a Deformed convex part
12 Wall member with magnet
13 Surface member
14 Cushion member
15 Magnet sheet
16 notches
17 Bending position
18 Angle switching position
19a, 19b Partial decorative member with cushioning material
20a, 20b cutting
21a, 21b Bending position
22 Angle switching position
23a, 23b Magnet sheet
24a, 24b Cushion member
25a, 25b Surface member
30, 30 ', 30a Magnet member
31 Surface member
32 Cushion material
33, 33a Magnet sheet
34, 34 'Magnetic attracting member with cushioning material
35, 35a cutting
36, 36 ', 36 ", 36a gap
37 Bending position
41 Magnet member
42 Surface member
43 Cushion material
44 Magnet sheet
45 depth of cut
46 Magnet piece
51, 61, 71 Buffering member with magnet
52, 62, 72 Surface member
53, 63, 73 Cushion member
54, 64, 74 Magnet sheet
55, 65, 75 notches
56, 66a, 66b, 66c, 66d, 66e, 76 Magnet piece
77 Shock absorber with magnet
78 Ferromagnetic sheet

Claims (4)

柔軟で折り曲げ可能な表面部材の裏面にクッション部材を接着にて積層し、さらに、該クッション部材にマグネットシートを接着して積層してなるマグネット付き壁部材であって、
上記マグネットシートの表面から上記表面部材の裏面にかけては、上記クッション部材を介在させた状態で幅全体に少なくとも2本以上の切込みが設けられていて、該切込み位置にて上記表面部材の折り曲げを可能となし、
さらに、各切込み間で形成されたマグネット片は、所定位置で上記クッション部材から剥離可能に形成されており、
該マグネット片を剥離した時には、その剥離位置で表面部材の裏方向に折り曲げることにより、強磁性体からなる被着体の180度未満乃至鋭角の角度切り替わり部に対して、残留したマグネット片により磁気吸着で取り付け可能としたことを特徴とするマグネット付き壁部材
A wall member with a magnet formed by laminating a cushion member on the back surface of a flexible and foldable surface member , and further laminating a magnetic sheet on the cushion member,
From the surface of the magnet sheet to the back surface of the surface member, at least two or more cuts are provided in the entire width with the cushion member interposed, and the surface member can be bent at the cut position. And none,
Furthermore, the magnet piece formed between each incision is formed to be peelable from the cushion member at a predetermined position,
When the magnet piece is peeled off, it is bent in the reverse direction of the surface member at the peeled position, so that the magnetic piece is magnetically left by the remaining magnet piece with respect to an angle switching portion of less than 180 degrees or an acute angle of the adherend made of ferromagnetic material. Wall member with magnet, characterized in that it can be attached by suction
クッション部材を接着したマグネットシートは、表面部材の裏面に対して間隙を設けた状態で複数個接着されて配置されることを特徴とする請求項1に記載のマグネット付き壁部材 The magnet-attached wall member according to claim 1, wherein a plurality of magnet sheets to which the cushion member is bonded are disposed in a state where a gap is provided with respect to the back surface of the front surface member. 周囲に凹凸状の接続部を形成し、同様な凹凸部を形成した他のマグネット付き壁材と連結可能としたことを特徴とする請求項1または2に記載のマグネット付き壁部材 3. A wall member with a magnet according to claim 1 or 2, characterized in that a concave-convex connection portion is formed in the periphery and can be connected to another wall member with a magnet having a similar concave-convex portion. 請求項1〜3に記載のマグネット付き壁部材は、各種強磁性体製の器材の緩衝部材として使用することを特徴とするマグネット付き緩衝部材The wall member with magnet according to any one of claims 1 to 3, wherein the wall member with magnet is used as a buffer member for equipment made of various ferromagnetic materials.
JP2002051383A 2002-02-27 2002-02-27 Wall member with magnet and buffer member Expired - Lifetime JP3727892B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2002051383A JP3727892B2 (en) 2002-02-27 2002-02-27 Wall member with magnet and buffer member

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2002051383A JP3727892B2 (en) 2002-02-27 2002-02-27 Wall member with magnet and buffer member

Publications (2)

Publication Number Publication Date
JP2003253849A JP2003253849A (en) 2003-09-10
JP3727892B2 true JP3727892B2 (en) 2005-12-21

Family

ID=28663367

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2002051383A Expired - Lifetime JP3727892B2 (en) 2002-02-27 2002-02-27 Wall member with magnet and buffer member

Country Status (1)

Country Link
JP (1) JP3727892B2 (en)

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP5586021B2 (en) * 2010-10-06 2014-09-10 ニチユ三菱フォークリフト株式会社 Forklift bumper
CN102352681A (en) * 2011-08-04 2012-02-15 韩兵 Magnetic buckle plate for indoor decoration and installation method for magnetic buckle plate
JP6747854B2 (en) * 2016-04-19 2020-08-26 ニチレイマグネット株式会社 Accessory holder
JP2018105062A (en) * 2016-12-28 2018-07-05 清水建設株式会社 Corner cushion
JP2021092054A (en) * 2019-12-10 2021-06-17 アイカ工業株式会社 Mounting structure of decorative material

Also Published As

Publication number Publication date
JP2003253849A (en) 2003-09-10

Similar Documents

Publication Publication Date Title
USD653936S1 (en) Grommet
JP3153710U (en) Folding packaging box
JP3727892B2 (en) Wall member with magnet and buffer member
KR20190058784A (en) Freely having a changeable interior board
CN210947594U (en) Adjustable skirting board structure
JP3195724U (en) clip
JP5731275B2 (en) Composite panel suitable for wall material of building structure and method for installing the composite panel
JP3175339U (en) Magnetically attachable wall structure
JP3211444U (en) Waterproof case
JP2015181803A (en) Storage box unit and manufacturing method thereof
JP2013163537A (en) Packaging box
JP2008180009A (en) Panel connecting structure
JP3154169U (en) Out corner joiner
JP2001065146A (en) Gasket for outer wall joint and outer wall structure
JP2008255736A (en) End seal structure of partition wall
JP3180760U (en) Magnet structure with magnetic sandwich
JP2013107226A (en) Thin wall surface writing board
JPS6336094Y2 (en)
JP3762728B2 (en) Box holder
JP2012106440A (en) Clip and method of manufacturing the same
JP2009097218A (en) Recessed corner boundary member, recessed corner structure, and method of constructing recessed corner
JP3864332B2 (en) Dust fall prevention device
JP3829146B2 (en) Sandwich packaging bag and method for manufacturing sandwich packaging bag
JP4750643B2 (en) Waterproof tape and waterproof construction structure
US20090065157A1 (en) Connection device and a method of forming a panel assembly

Legal Events

Date Code Title Description
A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20050428

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20050517

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: 20050927

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20050929

R150 Certificate of patent or registration of utility model

Ref document number: 3727892

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R150

Free format text: JAPANESE INTERMEDIATE CODE: R150

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20101007

Year of fee payment: 5

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20101007

Year of fee payment: 5

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20121007

Year of fee payment: 7

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20121007

Year of fee payment: 7

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20141007

Year of fee payment: 9

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

EXPY Cancellation because of completion of term