JP2010164165A - Attaching part structure of mounting body, mounting body, and mounting device of mounting body - Google Patents

Attaching part structure of mounting body, mounting body, and mounting device of mounting body Download PDF

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JP2010164165A
JP2010164165A JP2009008338A JP2009008338A JP2010164165A JP 2010164165 A JP2010164165 A JP 2010164165A JP 2009008338 A JP2009008338 A JP 2009008338A JP 2009008338 A JP2009008338 A JP 2009008338A JP 2010164165 A JP2010164165 A JP 2010164165A
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groove
attachment
screw
attachment body
mounting
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JP5172721B2 (en
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Genji Kishi
玄二 岸
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Mirai Industry Co Ltd
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Mirai Industry Co Ltd
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  • Connection Of Plates (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To attach a mounting body without using a screw on a mounted body having a narrow through groove on which the mounting body is attached by forcibly screwing the screw. <P>SOLUTION: The attaching part structure of a tube holder (the mounting body) H includes an attaching part which can be attached by inserting the screw from a surface side of the mounting plate part (a mounted body) 2 of a support tool S having the narrow penetration groove 5 in which the screw is forcibly screwed. The attaching part includes a first abutting surface 17 abutting on a surface of a peripheral edge of the penetration groove 5 of the mounting plate part 2, and a locking claw (a locking part) 18 projecting from the first abutting surface 17 and having a thickness T smaller than a width W<SB>0</SB>of the penetration groove 5. The locking claw 18 includes a projection part 21 projecting with a length for intruding the penetration groove 5, and an elastically deformable inclined part 22, which is formed from the projection part 21 by inclining in a direction apart from the first abutting surface 17, and is elastically deformed in a direction further apart from the first abutting surface 17. A width W of the locking claw 18 as at least a length along a length direction of the penetration groove 5 of the projection 2l is formed wider than the width W<SB>0</SB>of the penetration groove 5. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

本発明は、ビスを強制螺入することで取着体を取付可能な細幅状の貫通溝を備えた被取着体に対してビスを用いることなく当該取着体を取付可能な取付部構造、取着体、及び取着体の取着装置に関するものである。   The present invention provides a mounting portion on which an attachment body can be attached without using a screw to an attachment body having a narrow through-groove that can be attached to the attachment body by forcibly screwing in the screw. The present invention relates to a structure, an attachment body, and an attachment apparatus for the attachment body.

ビスを強制螺入させる細幅状の貫通溝を備え、底板部を貫通したビスを当該貫通溝に螺入させることで、壁内において配線ボックスを支持する支持具がある(特許文献1)。しかし、当該支持具を用いて配管材を支持しようとすると、当該配管材を公知のサドルに支持して、前記支持具の貫通溝に螺入されるビスにより前記サドルを前記支持具に固定する必要があって、ビスなしでは前記支持具に配管材を固定できなかった。   There is a support tool for supporting a wiring box in a wall by providing a narrow through hole for forcibly screwing a screw and screwing a screw penetrating the bottom plate into the through groove (Patent Document 1). However, if it is going to support a piping material using the said support tool, the said pipe material is supported to a well-known saddle, and the said saddle is fixed to the said support tool with the screw screwed in the penetration groove | channel of the said support tool. It was necessary, and the piping material could not be fixed to the support without screws.

一方、特許文献2には、特許文献1に開示の支持具の細幅状の貫通溝に対して広幅の溝を備えた支持具が開示されている。特許文献2に開示の支持具によれば、溝が広幅であるので、配管材を支持するサドルを固定するために、当該サドルに広幅の溝に対応する回転軸部を一体に形成して、当該回転軸部を広幅の溝に挿入した状態でサドルを回転させることにより、回転方向の適正位置において広幅の当該溝に対して前記回転軸部を係止させることで、広幅の当該溝にビスを使用することなくサドルを固定可能にしている。しかし、特許文献2の支持具に配線ボックスを固定するには、支持具の背面側に配置される別体の取付具を必要とするために、配線ボックスの取付けが面倒であった。   On the other hand, Patent Document 2 discloses a support tool having a wide groove with respect to the narrow through groove of the support tool disclosed in Patent Document 1. According to the support disclosed in Patent Document 2, since the groove is wide, in order to fix the saddle that supports the piping material, a rotating shaft portion corresponding to the wide groove is integrally formed on the saddle, By rotating the saddle with the rotating shaft portion inserted into the wide groove, the rotating shaft portion is locked to the wide groove at an appropriate position in the rotation direction, so that the screw is inserted into the wide groove. The saddle can be fixed without using. However, fixing the wiring box to the support of Patent Document 2 requires a separate mounting tool disposed on the back side of the support, and thus mounting the wiring box is troublesome.

特開平10−219887号公報Japanese Patent Laid-Open No. 10-219887 特開2007−239325号公報JP 2007-239325 A

本発明は、ビスを強制螺入することで取着体を取付可能な細幅状の貫通溝を備えた被取着体に対してビスを用いることなく当該取着体を取付可能にすることを課題としている。   The present invention makes it possible to attach an attachment body without using a screw to an attachment body having a narrow through-groove that can attach the attachment body by forcibly screwing in the screw. Is an issue.

上記の課題を解決するための請求項1の発明は、ビスを強制螺入可能な細幅状の貫通溝を備えた被取着体の表面側から当該貫通溝に挿入することで取付可能な取付部を備えた取着体の取付部構造であって、前記取付部は、前記被取着体の貫通溝周縁の表面に当接する当接面と、当該当接面から突出して、前記貫通溝の幅よりも小さな肉厚を有する係止部とから成り、前記係止部は、前記貫通溝内に入り込む長さを有して突出する突出部と、当該突出部から前記当接面から離れる方向に傾斜して形成され、前記当接面に対して更に離れる方向に弾性変形可能な傾斜部とから成り、前記係止部の少なくとも突出部の貫通溝の長さ方向に沿った長さである幅は、当該貫通溝の幅よりも広く形成されていることを特徴としている。   The invention of claim 1 for solving the above-described problem can be attached by inserting the screw into the through-groove from the surface side of the adherend provided with the narrow through-groove capable of forcibly screwing the screw. An attachment portion structure of an attachment body provided with an attachment portion, wherein the attachment portion is in contact with a surface of a peripheral edge of the through groove of the adherend, and protrudes from the contact surface to pass through the penetration portion. A locking portion having a thickness smaller than the width of the groove, and the locking portion protrudes from the contact surface with a protruding portion having a length that enters the through-groove. A length formed along a length direction of the through groove of at least the protruding portion of the locking portion. This width is formed wider than the width of the through groove.

請求項1の発明によれば、被取着体の表側において、前記取着体の傾斜部及び突出部を被取着体の細幅状の貫通溝に挿入して、前記突出部を被取着体の貫通溝内に入り込ませると共に、前記貫通溝の裏面側の縁部に前記傾斜部を係止させると、当該傾斜部が前記当接面に対して更に離れる方向に弾性変形され、当該弾性変形により発生する弾性復元力により、前記取着体は被取着体の表面側に引き寄せられて、前記取付部の当接面は被取着体の表面に密着させられて、被取着体に対して取着体が取付けられる。このように、取着体の取付部の構造の改良のみによって、ビスを強制螺入することで取着体を取付可能な細幅状の貫通溝を備えた被取着体に対して、ビスを用いることなく当該取着体を取付けることが可能となるので、細幅状の貫通溝を備えた被取着体に対して取着体をワンタッチで取付けられて、作業能率が高まる。   According to the first aspect of the present invention, on the front side of the adherend, the inclined portion and the protrusion of the attachment are inserted into the narrow through groove of the adherend, and the protrusion is removed. When the inclined portion is locked to the edge on the back surface side of the through groove, the inclined portion is elastically deformed in a direction further away from the contact surface. Due to the elastic restoring force generated by elastic deformation, the attachment body is attracted to the surface side of the adherend, and the abutment surface of the mounting portion is brought into close contact with the surface of the attachment body. An attachment body is attached to the body. As described above, the screw is attached to the attachment body having the narrow through-grooves to which the attachment body can be attached by forcibly screwing the screw only by improving the structure of the attachment portion of the attachment body. Since the attachment body can be attached without using the attachment body, the attachment body can be attached to the attachment body having the narrow through-groove with a single touch, and the work efficiency is increased.

請求項2の発明は、請求項1の構造の取付部を備えた取着体であり、請求項1の発明を「取着体」の観点から把握したものであって、請求項1の発明の作用効果と実質的に同一である。   The invention of claim 2 is an attachment body provided with the mounting portion of the structure of claim 1, and the invention of claim 1 is grasped from the viewpoint of "attachment body", and the invention of claim 1 The effect is substantially the same.

請求項3の発明は、請求項2の発明において、配線・配管材を保持可能な保持部を備えていることを特徴としているので、細幅状の貫通溝を備えた被取着体に取付けられる取着体を介して前記被取着体に配管材を保持できる。   The invention of claim 3 is characterized in that, in the invention of claim 2, it is provided with a holding portion capable of holding the wiring / piping material, so that it is attached to an adherend having a narrow through groove. A piping material can be held on the adherend via the attached attachment.

請求項4の発明は、柱に固定される固定部と、当該固定部から延設されて、取着体の係止部が係止されたり、或いは取付体のビス固定孔に挿通されたビスが強制螺入される細幅状の貫通溝を備えた取着部とから成る支持具と;請求項2に記載の取着体とから成ることを特徴とする取着体の取着装置である。   According to a fourth aspect of the present invention, there is provided a fixed portion fixed to the pillar, and a screw extending from the fixed portion, wherein the locking portion of the attachment body is locked, or inserted into the screw fixing hole of the mounting body. A mounting device comprising: a mounting tool including a mounting portion having a narrow through-hole into which a screw is forcibly screwed; and the mounting body according to claim 2. is there.

請求項4の発明によれば、柱に固定される支持具の取着部に形成された細幅状の貫通溝に係止部を係止させることにより、前記支持具に取着体をワンタッチで取付けることができると共に、取付体のビス固定孔に挿通されたビスを細幅状の貫通溝に強制螺入させることにより、前記支持具に当該取付体を取付けることもできる。   According to the invention of claim 4, the attachment part is locked to the support tool by one-touch by locking the locking part to the narrow through groove formed in the attachment part of the support tool fixed to the column. And the attachment body can be attached to the support by forcibly screwing the screw inserted through the screw fixing hole of the attachment body into the narrow through groove.

本発明によれば、被取着体の表側において、前記取着体の傾斜部及び突出部を被取着体の細幅状の貫通溝に挿入して、前記突出部を被取着体の貫通溝に貫通させると共に、前記貫通溝の裏面側の縁部に前記傾斜部を係止させると、当該傾斜部が前記当接面に対して更に離れる方向に弾性変形され、当該弾性変形により発生する弾性復元力により、前記取着体は被取着体の表面側に引き寄せられて、前記取付部の当接面は被取着体の表面に密着させられて、被取着体に対して取着体が取付けられる。このように、取着体の取付部の構造の改良のみによって、ビスを強制螺入することで取着体を取付可能な細幅状の貫通溝を備えた被取着体に対して、ビスを用いることなく当該取着体を取付けることが可能となるので、細幅状の貫通溝を備えた被取着体に対して取着体をワンタッチで取付けられて、作業能率が高まる。   According to the present invention, on the front side of the adherend, the inclined portion and the protrusion of the attachment are inserted into the narrow through groove of the adherend, and the protrusion is inserted into the adherend. When penetrating through the through-groove and locking the inclined portion to the edge on the back side of the through-groove, the inclined portion is elastically deformed in a direction further away from the contact surface, and is generated by the elastic deformation. Due to the elastic restoring force, the attachment body is drawn toward the surface of the adherend, and the contact surface of the mounting portion is brought into close contact with the surface of the attachment, An attachment body is attached. As described above, the screw is attached to the attachment body having the narrow through-grooves to which the attachment body can be attached by forcibly screwing the screw only by improving the structure of the attachment portion of the attachment body. Since the attachment body can be attached without using the attachment body, the attachment body can be attached to the attachment body having the narrow through-groove with a single touch, and the work efficiency is increased.

間柱51に固定された支持具Sと、当該支持具Sに取付けられる管保持具Hとを背面側から見た斜視図である。It is the perspective view which looked at the support tool S fixed to the spacer 51, and the pipe holder H attached to the said support tool S from the back side. 支持具Sに取付けられた管保持具Hにより管Pが上下方向に保持された状態の斜視図である。It is a perspective view of the state where pipe P was held up and down with pipe holder H attached to support tool S. 同様の状態の一部を破断した平面図である。It is the top view which fractured | ruptured a part of the same state. (a),(b)は、管保持具Hを異なる方向から見た斜視図である。(A), (b) is the perspective view which looked at the pipe holder H from the different direction. (a),(b)は、外径の異なる2種類の管P1 ,P2 を保持する状態を示す管保持具Hの平面図である。(A), (b) is a plan view of the tube holder H shown a state held two tubes P 1, P 2 having different outer diameters. (a),(b)は、支持具Sの表面側から、管保持具Hの係止爪18を支持具Sの細幅状の貫通溝5に挿入する途中の状態、及び前記係止爪18が貫通溝5に係止された状態の横断面図である。(A), (b) is the state in the middle of inserting the latching claw 18 of the pipe holder H into the narrow penetration groove 5 of the support tool S from the surface side of the support tool S, and the said latching claw. It is a cross-sectional view of a state where 18 is locked to the through groove 5. (a),(b)は、貫通溝5が形成された平板状の被取着体31に対する管保持具Hの取付途中、及び取付後の横断面図である。(A), (b) is the cross-sectional view in the middle of the attachment of the tube holder H with respect to the flat-shaped to-be-adhered body 31 in which the through-groove 5 was formed, and after attachment. 吊ボルト52に取付けられた管保持具Hにより管P1 を水平に保持している状態の斜視図である。The attached tube holder H to hanging bolts 52 is a perspective view showing a state in which the pipe P 1 is held horizontally. 壁面53に取付けられた管保持具Hにより管P1 を垂直に保持している状態の斜視図である。6 is a perspective view of a state in which a pipe P 1 is held vertically by a pipe holder H attached to a wall surface 53. 本発明を実施した配線ボックスBと、当該配線ボックスBが取付けられる支持具Sとの斜視図である。It is a perspective view of the wiring box B which implemented this invention, and the support tool S to which the said wiring box B is attached.

以下、図1〜図6を参照して、配線ボックスBを取付ける支持具Sが被取着体であって、管Pを保持する管保持具Hが前記支持具Sに取付けられる取着体である実施例を挙げて、本発明を更に詳細に説明する。図1は、間柱51に固定された支持具Sと、当該支持具Sに取付けられる管保持具Hとを背面側から見た斜視図であり、図2は、支持具Sに取付けられた管保持具Hにより管Pが上下方向に保持された状態の斜視図であり、図3は、同様の状態の一部を破断した平面図であり、図4(a),(b)は、管保持具Hを異なる方向から見た斜視図であり、図5(a),(b)は、外径の異なる2種類の管P1 ,P2 を保持する状態を示す管保持具Hの平面図であり、図6(a),(b)は、支持具Sの表面側から、管保持具Hの係止爪18を支持具Sの細幅状の貫通溝5に挿入する途中の状態、及び前記係止爪18が貫通溝5に係止された状態の横断面図である。 In the following, referring to FIGS. 1 to 6, the support S for attaching the wiring box B is an attachment, and the tube holder H for holding the pipe P is an attachment to be attached to the support S. The present invention will be described in more detail with reference to certain examples. FIG. 1 is a perspective view of the support fixture S fixed to the stud 51 and the tube holder H attached to the support fixture S as viewed from the back side, and FIG. 2 shows the tube attached to the support fixture S. FIG. 3 is a perspective view of a state in which the pipe P is held in the vertical direction by the holder H, FIG. 3 is a plan view in which a part of the same state is broken, and FIGS. 4 (a) and 4 (b) and a holder H a perspective view seen from a different direction, FIG. 5 (a), (b) is a plan of the tube holder H shown a state held two tubes P 1, P 2 having different outer diameters 6 (a) and 6 (b) are states in the middle of inserting the locking claw 18 of the tube holder H into the narrow through groove 5 of the support tool S from the surface side of the support tool S. FIG. FIG. 5 is a cross-sectional view of the state where the locking claw 18 is locked in the through groove 5.

支持具Sは、図1及び図2に示されるように、鋼鈑をプレスの打抜きと折曲げとにより成形されたものであって、型鋼から成る間柱51の背面板部51aに固定される方形状の固定板部1と、当該固定板部1に対して直角に折り曲げられて、配線ボックスB(図10参照)が取付けられる細長い板状をした取着板部2とから成る。固定板部1における取着板部2の幅方向に沿った長さは、当該取着板部2の幅寸法よりも大きくなっていて、当該固定板部1には、ビス61を挿通させるための複数本の貫通長溝3と、複数本の貫通孔4とが明けられており、貫通長溝3又は貫通孔4のいずれかに挿通された複数本のビス61を間柱51に螺入することにより、当該間柱51に固定板部1が固定されて、当該間柱51に取着板部2が水平で、かつ片持状となった状態で支持具Sが取付けられる。取着板部2には、幅方向の中央部にビス61の強制螺入を可能とすべく、当該ビス61の外径よりも僅かに狭い幅を有する細幅状の複数の貫通溝5が一列状となって形成され、隣接する貫通溝5の間には、一列状となった複数の貫通溝5により幅方向に沿って2分された各部分を連結するように連結部6(図3参照)が残存して設けられている。図1、図2及び図6に示されるように、取着板部2における貫通溝5の周縁部は、当該貫通溝5に対するビス61の螺入を容易にするために背面側に僅かに突出して表面側は凹状に形成されていると共に、取着板部2の幅方向の両端部は、補強と、取扱い時に人の手等が接触した場合の損傷を少なくすることを目的として、背面側に僅かに折り曲げられている。なお、取着板部2には、一列状に配置された複数の貫通溝5と直交する方向(取着板部2の幅方向)に沿って別の一対の貫通溝7が前記貫通溝5を挟んで形成されている。   As shown in FIGS. 1 and 2, the support S is formed by punching and bending a steel plate, and is fixed to the back plate portion 51a of the intermediate column 51 made of mold steel. The fixing plate portion 1 has a shape and an attachment plate portion 2 that is bent at a right angle with respect to the fixing plate portion 1 and has an elongated plate shape to which the wiring box B (see FIG. 10) is attached. The length along the width direction of the attachment plate portion 2 in the fixed plate portion 1 is larger than the width dimension of the attachment plate portion 2, and the screw 61 is inserted through the fixed plate portion 1. The plurality of through long grooves 3 and the plurality of through holes 4 are opened, and a plurality of screws 61 inserted into either the through long grooves 3 or the through holes 4 are screwed into the intermediate columns 51. The fixing plate portion 1 is fixed to the spacer 51, and the support S is attached to the spacer 51 in a state where the mounting plate 2 is horizontal and cantilevered. The attachment plate portion 2 has a plurality of narrow through holes 5 having a width slightly narrower than the outer diameter of the screw 61 so that the screw 61 can be forcibly screwed into the central portion in the width direction. A connecting portion 6 (see FIG. 5) is formed so as to connect each portion divided in the width direction by a plurality of through grooves 5 formed in a line between adjacent through grooves 5 formed in a line. 3) is provided to remain. As shown in FIGS. 1, 2, and 6, the peripheral portion of the through groove 5 in the attachment plate portion 2 slightly protrudes to the back side in order to facilitate screwing of the screw 61 into the through groove 5. The front surface side is formed in a concave shape, and both end portions in the width direction of the mounting plate 2 are on the back side for the purpose of reinforcing and reducing damage caused by contact with human hands during handling. Slightly bent. In the attachment plate portion 2, another pair of through grooves 7 are provided along the direction perpendicular to the plurality of through grooves 5 arranged in a row (the width direction of the attachment plate portion 2). It is formed on both sides.

「背景技術」の項目で述べたように、例えば壁内に配設された配線ボックスBの底板部41(図10参照)に形成されたビス固定孔(図示せず)に挿通されたビスを、前記支持具Sの取着板部2に形成された細幅状の貫通溝5に強制螺入することにより、当該取着板部2に取付体としての配線ボックスBを取付けることができる。支持具Sの取着板部2には、配線ボックスBに限られず、管材の途中を部分支持する取付体としてのサドル等もビスの強制螺入により取付けることができる。   As described in the section “Background Art”, for example, a screw inserted into a screw fixing hole (not shown) formed in the bottom plate portion 41 (see FIG. 10) of the wiring box B disposed in the wall is used. The wiring box B as an attachment body can be attached to the attachment plate portion 2 by forcibly screwing into the narrow through-hole 5 formed in the attachment plate portion 2 of the support S. The attachment plate portion 2 of the support S is not limited to the wiring box B, and a saddle or the like as a mounting body that partially supports the middle of the pipe material can be attached by forced screwing.

次に、図3〜図6、特に図4及び図5を主体にして、前記支持具Sにビスを使用しないで取付けられる管保持具Hについて説明する。管保持具Hは、前記支持具Sの取着板部2、吊ボルト52(図8参照)、或いは壁面53(図9参照)、間柱51等に直接に取付けられて、中心角が180°を超えるように周方向の一部が欠落された一部欠落リング状をした本体部11と、当該本体部11の周方向の一端部に一体に連結されていて、前記本体部11の周方向の欠落部を覆って完成リング状とするバンド部12とから成る。バンド部12は、管保持具Hの半径方向に沿った変形を容易するために周方向に沿って凹凸状に形成され、当該バンド部12の先端部の内外には、それぞれ周方向に沿って段差状となって第1及び第2の各係止爪13,14が配管方向に形成されている。本体部11におけるバンド部12が形成されていない側の周方向の端部の外周面には、バンド部12の内側の第1係止爪13と係止可能な第1係止溝15が周方向に沿って段差状となって配管方向に形成されていると共に、本体部11におけるバンド部12が形成されていない側の周方向の端部から周方向に所定長だけ入り込んだ部分の内周面には、バンド部12の外側の第2係止爪14と係止可能な第2係止溝16が周方向に沿って段差状となって配管方向に形成されている。図5(a)に示されるように、バンド部12の内側の第1係止爪13と本体部11の外側の第1係止溝15とを係止させてリング状にすると、大径の管P1 が保持可能となると共に、同図(b)に示されるように、バンド部12の外側の第2係止爪14と本体部11の内側の第2係止溝16とを係止させてリング状にすると、小径の管P2 が保持可能となる。 Next, a tube holder H that is attached to the support S without using screws will be described with reference to FIGS. 3 to 6, particularly FIGS. 4 and 5. The tube holder H is directly attached to the attachment plate portion 2 of the support S, the suspension bolt 52 (see FIG. 8), the wall surface 53 (see FIG. 9), the stud 51, etc., and the central angle is 180 °. A body part 11 in the form of a partially missing ring with a part of the circumferential direction missing so as to exceed, and one end part in the circumferential direction of the body part 11 is integrally connected to the circumferential direction of the body part 11 And a band portion 12 that covers the missing portion and forms a complete ring shape. The band part 12 is formed in a concavo-convex shape along the circumferential direction in order to facilitate deformation along the radial direction of the tube holder H. The first and second locking claws 13 and 14 are formed in a stepped shape in the piping direction. A first locking groove 15 that can be locked with the first locking claw 13 inside the band portion 12 is provided on the outer peripheral surface of the end portion in the circumferential direction on the side where the band portion 12 is not formed in the main body portion 11. The inner circumference of the portion that is formed in the pipe direction along the direction and is formed in the piping direction, and that enters a predetermined length in the circumferential direction from the circumferential end of the main body portion 11 on the side where the band portion 12 is not formed. On the surface, a second locking groove 16 that can be locked with the second locking claw 14 on the outside of the band portion 12 is formed in the piping direction in a step shape along the circumferential direction. As shown in FIG. 5A, when the first locking claw 13 inside the band portion 12 and the first locking groove 15 outside the main body portion 11 are locked into a ring shape, The pipe P 1 can be held, and the second locking claw 14 on the outer side of the band portion 12 and the second locking groove 16 on the inner side of the main body portion 11 are locked as shown in FIG. When the cause to be in a ring shape, the small diameter of the pipe P 2 is capable of holding.

また、図4及び図6に示されるように、本体部11におけるバンド部12と対向する部分の外側面(外周面)は、広い平面状に形成されて、前記支持具Sの取着板部2の表面における貫通溝5の周縁部に当接する第1当接面17となっている。本体部11の内周面は、管Pを保持可能なように円弧面状に形成され、前記バンド部12の先端部を本体部11に対して係止させて、全体をリング状にすることにより、管Pを保持可能となる。従って、本体部11とバンド部12とで、管Pを保持可能な管保持部を構成している。なお、本実施例の管保持具Hは、管Pの径方向の移動を許容する構成であるが、管Pの外周面に係止して前記移動を阻止する係止部を内周面に形成することも可能である。   As shown in FIGS. 4 and 6, the outer surface (outer peripheral surface) of the portion facing the band portion 12 in the main body portion 11 is formed in a wide planar shape, and the attachment plate portion of the support S The first contact surface 17 is in contact with the peripheral edge of the through-groove 5 on the surface of 2. The inner peripheral surface of the main body portion 11 is formed in an arc surface shape so as to hold the tube P, and the tip end portion of the band portion 12 is locked with respect to the main body portion 11 to form a ring shape as a whole. Thus, the tube P can be held. Therefore, the main body part 11 and the band part 12 constitute a pipe holding part capable of holding the pipe P. In addition, although the pipe holder H of a present Example is a structure which accept | permits the movement of the radial direction of the pipe P, the latching | locking part which latches on the outer peripheral surface of the pipe P and prevents the said movement is made into an inner peripheral surface. It is also possible to form.

管保持具Hの本体部11の第1当接面17には、前記支持具Sの貫通溝5に挿入・係止される係止爪18が突出して形成されている。即ち、係止爪18は、支持具Sの貫通溝5の幅W0 よりも小さな肉厚Tで形成されて、前記第1当接面17に対してほぼ垂直に形成されて、当該貫通溝5に挿入される長さを有する突出部21と、前記第1当接面17から離れる方向に向けて傾斜した状態で、前記突出部21に対して延設された傾斜部22とから成る。ここで、傾斜部22は、前記第1当接面17から離れる方向に沿って弾性変形可能である。係止爪18は、全体が同一幅Wとなっていて、当該幅Wは、支持具Sの貫通溝5の幅W0 よりも広くなっているので、管保持具Hの本体部11に形成された係止爪18を、支持具Sの貫通溝5に挿入させて、当該係止爪18の傾斜部22が、支持具Sの貫通溝5の背面側の縁部に係止された状態において、支持具Sに対して管保持具Hが廻らなくなる(支持具Sに対する管保持具Hの姿勢が定められる)。 On the first contact surface 17 of the main body 11 of the tube holder H, a locking claw 18 that is inserted and locked in the through groove 5 of the support S is formed to protrude. That is, the locking claw 18 is formed with a thickness T smaller than the width W 0 of the through groove 5 of the support S, and is formed substantially perpendicular to the first contact surface 17. 5 and a projecting portion 21 having a length inserted into the projecting portion 5 and an inclined portion 22 extending toward the projecting portion 21 in a state of being inclined in a direction away from the first contact surface 17. Here, the inclined portion 22 is elastically deformable along a direction away from the first contact surface 17. The locking claw 18 has the same width W as a whole, and the width W is wider than the width W 0 of the through groove 5 of the support S, so that it is formed in the main body 11 of the tube holder H. The inserted locking claw 18 is inserted into the through groove 5 of the support tool S, and the inclined portion 22 of the locking claw 18 is locked to the rear edge of the through groove 5 of the support tool S. , The tube holder H does not rotate with respect to the support S (the posture of the tube holder H with respect to the support S is determined).

また、図3及び図4に示されるように、管保持具Hの本体部11には、吊ボルト52に対して嵌着されて当該吊ボルト52に管保持具Hを取付けるための吊ボルト用嵌着部23が、第1当接面17に対して鈍角をなす方向に設けられ、断面円弧状をした当該吊ボルト用嵌着部23の一端面は、前記第1当接面17を構成していて、支持具Sに管保持具Hを取付ける際に、当該支持具Sの取着板部2の表面2aにおける貫通溝5の周縁に当接する構成となっている。本体部11の外側面(外周面)における前記第1当接面17及び後述の第2当接面25とで挟まれる部分には、吊ボルト52を当接させる平面状の吊ボルト当接面24が形成され、当該吊ボルト当接面24には、吊ボルト52の一部を挿入するための断面円弧状をした浅い凹部が前記吊ボルト当接面24と本体部11の端面との交線に対して平行に形成されている。また、管保持具Hの本体部11の外側面(外周面)におけるバンド部12の基端部が一体に設けられている部分には、平面視において前記第1当接面17に対して鋭角をなす平面状の第2当接面25が形成されている。本体部11の吊ボルト用嵌着部23が設けられている側の端面には、管保持具Hをビス又は釘により壁面53に固定する際に、当該ビス又は釘を挿通可能な挿通孔26aを備えたブラケット26が前記第2当接面25に沿って起立して形成されており、前記吊ボルト用嵌着部23の他方の端面、及び前記ブラケット26の外側面は、第2当接面25と同一平面上に配置されて、当該第2当接面25そのものを構成している。   As shown in FIGS. 3 and 4, the hanger bolt for fitting the hanger bolt 52 to the hanger bolt 52 and attaching the hanger bolt 52 to the hanger bolt 52 is attached to the main body 11 of the hose holder H. The fitting part 23 is provided in a direction that forms an obtuse angle with respect to the first contact surface 17, and one end face of the suspension bolt fitting part 23 having a circular arc shape constitutes the first contact surface 17. And when attaching the pipe holder H to the support tool S, it has the structure contact | abutted to the periphery of the penetration groove | channel 5 in the surface 2a of the attaching plate part 2 of the said support tool S. FIG. A flat suspension bolt abutment surface that abuts a suspension bolt 52 on a portion sandwiched between the first abutment surface 17 and a later-described second abutment surface 25 on the outer surface (outer peripheral surface) of the main body 11. 24 is formed, and a shallow concave portion having a circular arc shape for inserting a part of the suspension bolt 52 is formed on the suspension bolt contact surface 24 so that the suspension bolt contact surface 24 and the end surface of the main body portion 11 intersect with each other. It is formed parallel to the line. Moreover, an acute angle with respect to the first contact surface 17 in a plan view is provided at a portion where the base end portion of the band portion 12 is integrally provided on the outer surface (outer peripheral surface) of the main body portion 11 of the tube holder H. A planar second contact surface 25 is formed. An insertion hole 26a through which the screw or nail can be inserted when the tube holder H is fixed to the wall surface 53 with a screw or nail on the end surface of the main body 11 on which the suspension bolt fitting portion 23 is provided. The other end surface of the suspension bolt fitting portion 23 and the outer surface of the bracket 26 are in a second contact state. The second contact surface 25 itself is configured by being arranged on the same plane as the surface 25.

そして、図6に示されるように、支持具Sの取着板部2の表面2aの側において、管保持具Hの係止爪18を構成する傾斜部22及び突出部21を、支持具Sの取着板部2に形成された貫通溝5内に挿入配置させ、前記傾斜部22の基端部を前記貫通溝5内に挿入配置させると共に、当該傾斜部22の先端部を取着板部2の背面側に突出させる。これにより、図6(b)で2点鎖線で示されるように、前記傾斜部22が貫通溝5の裏面側の縁部に、当該傾斜部22が自身の第1当接面17に対して更に離れる方向に弾性変形され、当該弾性変形により発生する弾性復元力により、前記管保持具Hは支持具Sの取着板部2の側に引き寄せられて、前記第1当接面17は支持具Sの取着板部2の表面2aに密着させられて、当該取着板部2に対して管保持具Hが取付けられる。ここで、管保持具Hの係止爪18の幅Wが、支持具Sの取着板部2に形成された貫通溝5の幅W0 よりも大きいので、支持具Sの取着板部2に管保持具Hが取付けられた状態では、当該支持具Sに対する管保持具Hの取付姿勢が一義的に定まることは、上記した通りである。 Then, as shown in FIG. 6, on the surface 2 a side of the attachment plate portion 2 of the support tool S, the inclined portion 22 and the protruding portion 21 that constitute the locking claw 18 of the tube holder H are connected to the support tool S. The mounting plate 2 is inserted and disposed in the through-groove 5, the proximal end portion of the inclined portion 22 is inserted and disposed in the through-groove 5, and the distal end portion of the inclined portion 22 is mounted on the mounting plate. Project to the back side of part 2. As a result, as shown by a two-dot chain line in FIG. 6B, the inclined portion 22 is at the edge on the back surface side of the through groove 5, and the inclined portion 22 is against the first contact surface 17 of itself. Further, the tube holder H is pulled toward the attachment plate portion 2 side of the support S by the elastic restoring force generated by the elastic deformation, and the first contact surface 17 is supported. The tube holder H is attached to the attachment plate portion 2 in close contact with the surface 2 a of the attachment plate portion 2 of the fixture S. Here, since the width W of the locking claw 18 of the tube holder H is larger than the width W 0 of the through groove 5 formed in the mounting plate portion 2 of the support S, the mounting plate portion of the support S As described above, in the state where the tube holder H is attached to 2, the mounting posture of the tube holder H with respect to the support S is uniquely determined.

このように、管保持具Hの本体部11の外側面(外周面)に形成された第1当接面17と、当該第1当接面17に対して垂直に形成された係止爪18との協働により、ビスを強制螺入することで配線ボックスBを取付可能な細幅状の貫通溝5を備えた支持具Sの取着板部2に対して、ビスを用いることなく管保持具Hを取付けることが可能となる。このため、本発明では、第1当接面17と係止爪18とが、管保持具Hの取付部27を構成している。   As described above, the first contact surface 17 formed on the outer surface (outer peripheral surface) of the main body 11 of the tube holder H and the locking claw 18 formed perpendicular to the first contact surface 17. With the cooperation of the screw, the pipe without using screws for the mounting plate portion 2 of the support S having the narrow through-grooves 5 to which the wiring box B can be attached by forcibly screwing the screws. The holder H can be attached. For this reason, in this invention, the 1st contact surface 17 and the latching claw 18 comprise the attachment part 27 of the pipe holder H. FIG.

上記実施例では、支持具Sの取着板部2の貫通溝5の部分は、貫通溝5を含めて、その周縁部が背面側に僅かに突出されて、表面側において凹部28が形成されている。このため、管保持具Hに形成された第1当接面17と係止爪18との協働により、当該管保持具Hを支持具Sの取着板部2の表面に取付ける場合において、前記凹部28は、支持具Sの取着板部2の板厚を実質的に厚くするように作用し、この結果、支持具Sに管保持具Hを取付けた状態において、係止爪18を構成する傾斜部22の第1当接面17から更に離れる方向に向けた弾性変形量を確保できて、支持具Sの取着板部2の肉厚が、係止に際して本来必要な肉厚よりも小さくても、支持具Sに対する管保持具Hを確実に取付けられる利点がある。なお、前記支持具Sに関して、当該支持具Sを柱に固定するビス61と、取着板部2の貫通溝5に強制螺入されるビスは共通でもよく、異なる外径のビスを用いてもよい。   In the said Example, the part of the penetration groove | channel 5 of the attaching plate part 2 of the support tool S including the penetration groove | channel 5 protrudes slightly in the back side, and the recessed part 28 is formed in the surface side. ing. For this reason, when attaching the said pipe holder H to the surface of the attachment board part 2 of the support tool S by cooperation of the 1st contact surface 17 and the latching claw 18 which were formed in the pipe holder H, The recess 28 acts so as to substantially increase the thickness of the attachment plate portion 2 of the support S. As a result, in a state where the tube holder H is attached to the support S, the locking claw 18 is moved. The amount of elastic deformation in the direction further away from the first abutting surface 17 of the inclined portion 22 can be secured, and the thickness of the mounting plate portion 2 of the support S is larger than the thickness originally required for locking. Even if it is small, there is an advantage that the tube holder H can be securely attached to the support S. Regarding the support S, the screw 61 that fixes the support S to the column and the screw that is forcibly screwed into the through groove 5 of the mounting plate portion 2 may be common, and screws having different outer diameters are used. Also good.

また、図7(a),(b)は、貫通溝5が形成された平板状の被取着体31に対する管保持具Hの取付途中、及び取付後の横断面図であり、上記実施例と同一部分には、同一符号を付してある。このように、全体が平板状の被取着体31に貫通溝5が形成されている場合には、貫通溝5の前側に凹部28を有する場合に比較して、係止爪18の構造が同一の場合には、被取着体31の肉厚を、前記支持具Sの取着板部2の肉厚よりも厚くする必要があり、被取着体31の肉厚が前記支持具Sの取着板部2の肉厚と同一の場合には、係止爪18の傾斜部22の弾性変形量を確保するために、当該傾斜部22の傾斜を大きくするとか、突出部21の突出長を短くする等して、係止爪18の形状自体を多少変化させる必要がある。なお、図7において31aは、被取着体31の表面を示す。   7 (a) and 7 (b) are cross-sectional views during and after the attachment of the tube holder H to the flat plate-shaped adherend 31 in which the through groove 5 is formed. The same parts are denoted by the same reference numerals. As described above, when the through-groove 5 is formed in the entire plate-shaped adherend 31, the structure of the locking claw 18 is larger than when the recess 28 is provided on the front side of the through-groove 5. In the same case, it is necessary to make the thickness of the adherend 31 larger than the thickness of the attachment plate portion 2 of the support S, and the thickness of the adherend 31 is the support S. In the case where the thickness of the mounting plate 2 is the same, in order to ensure the elastic deformation amount of the inclined portion 22 of the locking claw 18, the inclination of the inclined portion 22 is increased or the protrusion 21 protrudes. It is necessary to slightly change the shape of the locking claw 18 by shortening the length or the like. In FIG. 7, 31 a indicates the surface of the adherend 31.

次に、管保持具Hの本体部11に形成された吊ボルト用嵌着部23及びビス又は釘を挿通する挿通孔26aを備えたブラケット26を使用して、当該管保持具Hを吊ボルト52又は壁面53に取付ける場合について、参考的に説明する。図8に示されるように、吊ボルト52の外側に吊ボルト用嵌着部23を嵌着することにより、当該吊ボルト52に取付けられた管保持具Hによって、管P1 の水平部分を保持する。また、図9に示されるように、壁面53に第2当接面25を密着させ、ブラケット26の挿通孔26aに挿通されたビス61を壁面53に螺入させて、当該壁面53に管保持具Hを取付けることにより、任意の方向に配管された管P1 を保持可能となる。 Next, using the suspension bolt fitting portion 23 formed in the main body 11 of the tube holder H and the bracket 26 having an insertion hole 26a for inserting a screw or a nail, the tube holder H is attached to the suspension bolt. Reference will be made to the case of mounting on the wall 52 or the wall surface 53. As shown in FIG. 8, the horizontal portion of the pipe P 1 is held by the pipe holder H attached to the suspension bolt 52 by fitting the suspension bolt fitting portion 23 to the outside of the suspension bolt 52. To do. Further, as shown in FIG. 9, the second abutting surface 25 is brought into close contact with the wall surface 53, and the screw 61 inserted into the insertion hole 26 a of the bracket 26 is screwed into the wall surface 53, so that the tube wall is held on the wall surface 53. By attaching the tool H, the pipe P 1 piped in an arbitrary direction can be held.

また、上記実施例は、管Pを部分的に保持する管保持具Hに対して本発明を実施した例であるが、本発明は、被取着体に対して取着される取着体であれば、いかなる取着体に対しても実施可能である。例えば、図10は、壁裏に設置される配線ボックスBに対して本発明を実施した例であって、底板部41の裏面側に、支持具Sの取着板部2の幅よりも僅かに広い幅を有する溝部42が両端に開口して形成されており、当該溝部42の底面(底板部41の裏面)42aは、支持具Sの取着板部2の表面2aに当接する当接面となっており、当該当接面42aに、所定間隔をおいて一対の係止爪18が形成されている。このため、配線ボックスBの底板部41の裏面に形成された溝部42に支持具Sの取着板部2を嵌め込むことにより、当該溝部42の底面である当接面42aに形成された一対の係止爪18を支持具Sの取着板部2の各貫通長溝3に挿入係止させることにより、当該溝部42の底面である当接面42aを前記支持具Sの取着板部2の表面2aに当接させると、ビスを用いることなく、支持具Sの取着板部2に配線ボックスBが取付けられる。   Moreover, although the said Example is an example which implemented this invention with respect to the pipe holder H which hold | maintains the pipe P partially, this invention is an attachment body attached with respect to a to-be-attached body. If it is, it can be applied to any attachment. For example, FIG. 10 is an example in which the present invention is applied to the wiring box B installed on the back of the wall, and is slightly smaller than the width of the mounting plate portion 2 of the support S on the back side of the bottom plate portion 41. A groove portion 42 having a wide width is formed to open at both ends, and the bottom surface (the back surface of the bottom plate portion 41) 42a of the groove portion 42 abuts against the surface 2a of the attachment plate portion 2 of the support S. A pair of locking claws 18 are formed on the contact surface 42a at a predetermined interval. For this reason, by fitting the attachment plate portion 2 of the support S into the groove portion 42 formed on the back surface of the bottom plate portion 41 of the wiring box B, a pair formed on the contact surface 42 a that is the bottom surface of the groove portion 42. Are inserted and locked in the respective through long grooves 3 of the attachment plate portion 2 of the support S, so that the contact surface 42a which is the bottom surface of the groove portion 42 is fixed to the attachment plate portion 2 of the support S. If it is made to contact | abut to the surface 2a of this, the wiring box B will be attached to the attachment board part 2 of the support tool S, without using a screw | thread.

また、請求項4の発明に関連する取着装置として、以下で特定されるような取着装置がある。
「柱に固定される固定部と、当該固定部から延設されて、ビスを強制螺入可能な細幅状の貫通溝を備えた取着部と、からなる支持具と;前記貫通溝に強制螺入するビスにより取着部に固定可能な前記ビスが挿通されるビス固定孔を備えた配線ボックスと;請求項2に記載の取着体と;から成ることを特徴とする取着体の取着装置。」
Moreover, there exists an attachment apparatus as specified below as an attachment apparatus relevant to the invention of Claim 4.
“A support member comprising: a fixing part fixed to a pillar; and an attachment part extending from the fixing part and provided with a narrow through-groove capable of forcibly screwing a screw; An attachment body comprising: a wiring box provided with a screw fixing hole through which the screw that can be fixed to the attachment portion by a screw to be forcedly inserted is inserted; and the attachment body according to claim 2. Mounting device. "

段落「0027」で特定される取着体の取着装置によれば、支持具の取着部に請求項2で特定される取着体と、当該取着体の係止部に対応する部分を備えていない配線ボックスとの双方を取着できる。この場合において、配線ボックスが壁内に配置される場合には、細幅状の貫通溝を備えた支持具は、壁内の間柱等に固定される。   According to the attachment device of the attachment body specified in the paragraph “0027”, the attachment body specified in claim 2 at the attachment portion of the support and the portion corresponding to the locking portion of the attachment body Both can be attached to the wiring box that does not have. In this case, when the wiring box is disposed in the wall, the support provided with the narrow through groove is fixed to a pillar or the like in the wall.

更に、請求項4の発明に関連する別の取着装置として、以下で特定されるような取着装置がある。
「柱に固定される固定部と、当該固定部から延設されて、ビスを強制螺入可能な細幅状の貫通溝を備えた取着部と、からなる支持具と;前記ビスが挿通されるビス固定孔を備えた請求項2に記載の取着体と;から成ることを特徴とする取着体の取着装置。」
Furthermore, as another attachment device related to the invention of claim 4, there is an attachment device as specified below.
“A support member comprising a fixing part fixed to the pillar and an attachment part extending from the fixing part and provided with a narrow through groove into which a screw can be forcibly screwed; 3. An attachment device according to claim 2, further comprising a screw fixing hole.

段落「0029」で特定される取着体の取着装置によれば、当該取着体は、前記支持具の貫通溝に係止される係止部と、当該支持具の貫通溝に強制螺入されるビスが挿通可能なビス固定孔とを備えているので、前記係止部を用いれば、ビスを使用することなく、固定具に取着体を取着できると共に、ビスを用いても固定具に取着体を取着できて、取着方法を選択できる利点がある。   According to the attachment device of the attachment body specified in the paragraph “0029”, the attachment body includes a locking portion that is engaged with the through groove of the support device, and a forced screw in the through groove of the support device. Since a screw fixing hole through which a screw to be inserted can be inserted is provided, an attachment body can be attached to a fixture without using a screw by using the locking portion. There is an advantage that the attachment body can be attached to the fixture and the attachment method can be selected.

B:配線ボックス(取着体)
H:管保持具(取着体)
P:管(配線・配管材)
S:支持具(被取着体)
T:係止爪の肉厚
W:係止爪の幅
0 :貫通溝の幅
1:固定板部(固定部)
2:取着板部(取着部)
2a:取着板部の表面
5:貫通溝
11:管保持具の本体部(保持部)
12:管保持具のバンド部(保持部)
17:第1当接面(当接面)
18:係止爪(係止部)
21:突出部
22:傾斜部
31:板状の被取着体
B: Wiring box (attachment)
H: Tube holder (attachment)
P: Tube (wiring / piping material)
S: Support (attachment)
T: Thickness of the locking claw
W: Width of locking claw
W 0 : width of the through groove
1: Fixed plate part (fixed part)
2: Mounting plate (mounting section)
2a: surface of the mounting plate
5: Through groove
11: Body part (holding part) of tube holder
12: Band part (holding part) of tube holder
17: 1st contact surface (contact surface)
18: Locking claw (locking part)
21: Projection
22: Inclined part
31: Plate-shaped adherend

Claims (4)

ビスを強制螺入可能な細幅状の貫通溝を備えた被取着体の表面側から当該貫通溝に挿入することで取付可能な取付部を備えた取着体の取付部構造であって、
前記取付部は、前記被取着体の貫通溝周縁の表面に当接する当接面と、当該当接面から突出して、前記貫通溝の幅よりも小さな肉厚を有する係止部と、から成り、
前記係止部は、前記貫通溝内に入り込む長さを有して突出する突出部と、当該突出部から前記当接面から離れる方向に傾斜して形成され、前記当接面に対して更に離れる方向に弾性変形可能な傾斜部と、から成り、
前記係止部の少なくとも突出部の貫通溝の長さ方向に沿った長さである幅は、当該貫通溝の幅よりも広く形成され、
前記取着体の突出部を被取着体の貫通溝に挿入して、前記貫通溝の裏面側の縁部に前記傾斜部が係止されて発生する弾性復元力により、前記取着体を被取着体の表面側に引き寄せて、前記取付部の当接面を被取着体の表面に密着させることにより、被取着体に対して取着体が取付けられることを特徴とする取着体の取付部構造。
An attachment part structure of an attachment body provided with an attachment part that can be attached by being inserted into the through-groove from the surface side of the attachment body having a narrow through-groove capable of forcibly screwing a screw. ,
The mounting portion includes a contact surface that contacts the surface of the periphery of the through groove of the adherend, and a locking portion that protrudes from the contact surface and has a thickness smaller than the width of the through groove. Consisting of
The locking portion is formed with a protruding portion that has a length that enters the through groove, and is inclined in a direction away from the contacting surface from the protruding portion, and further with respect to the contacting surface. An inclined portion that is elastically deformable in a direction away from the
The width that is the length along the length direction of the through groove of at least the protruding portion of the locking portion is formed wider than the width of the through groove,
By inserting the protruding portion of the attachment body into the through-groove of the attachment body, and the elastic restoring force generated when the inclined portion is locked to the edge on the back surface side of the through-groove, the attachment body is The attachment is attached to the adherend by pulling it toward the surface of the adherend and bringing the abutment surface of the mounting portion into close contact with the surface of the adherend. Attachment structure of the kimono.
請求項1の構造の取付部を備えた取着体。   An attachment body comprising a mounting portion having the structure of claim 1. 配線・配管材を保持可能な保持部を備えた請求項2に記載の取着体。   The attachment body according to claim 2, further comprising a holding portion capable of holding the wiring / piping material. 柱に固定される固定部と、当該固定部から延設されて、取着体の係止部が係止されたり、或いは取付体のビス固定孔に挿通されたビスが強制螺入される細幅状の貫通溝を備えた取着部とから成る支持具と、
請求項2に記載の取着体とから成ることを特徴とする取着体の取着装置。
A fixing portion fixed to the column and a thin portion extending from the fixing portion to lock the fixing portion of the attachment body or to forcibly screw the screw inserted into the screw fixing hole of the mounting body. A support composed of an attachment portion having a width-shaped through groove;
An attachment device for an attachment body comprising the attachment body according to claim 2.
JP2009008338A 2009-01-19 2009-01-19 Attachment structure of attachment body, attachment body, and attachment device for attachment body Active JP5172721B2 (en)

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Cited By (1)

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Publication number Priority date Publication date Assignee Title
CN109764945A (en) * 2019-03-23 2019-05-17 上海市计量测试技术研究院 A kind of reflex gage detection device based on guided wave method

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JPH0165906U (en) * 1987-10-22 1989-04-27
JPH09271129A (en) * 1996-03-25 1997-10-14 Yashima Kogyo Kk Pull box
JPH10219887A (en) * 1997-02-05 1998-08-18 Mirai Ind Co Ltd Method and device of mounting box on light gauge steel and gage

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Publication number Priority date Publication date Assignee Title
JPH0165906U (en) * 1987-10-22 1989-04-27
JPH09271129A (en) * 1996-03-25 1997-10-14 Yashima Kogyo Kk Pull box
JPH10219887A (en) * 1997-02-05 1998-08-18 Mirai Ind Co Ltd Method and device of mounting box on light gauge steel and gage

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109764945A (en) * 2019-03-23 2019-05-17 上海市计量测试技术研究院 A kind of reflex gage detection device based on guided wave method
CN109764945B (en) * 2019-03-23 2024-05-14 上海市计量测试技术研究院 Reflection type liquid level meter detection device based on guided wave method

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