JP2008136297A - Installation method of wiring box and clipping tool - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an installation method of a wiring box which facilitates the installation work of the wiring box to a building material, and to provide a clipping tool for use in the installation of the wiring box. <P>SOLUTION: The wiring box 10 is temporarily fixed by a first clamping piece 31a and a second clamping piece 32a of the clipping tool 30 together with a light gauge steel material R, and the wiring box 10 is temporarily fixed to the light-weight gauge steel material R by locking the clipped state by a locking mechanism. After an installation member is installed to the light gauge steel material R and installing the wiring box 10 to the light gauge steel material R, the temporarily-fixed state of the wiring box 10 caused by the clipping tool 30 is released; and the clipping tool 30 is removed from the wiring box 10. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a method for attaching a wiring box to a construction material and a clamping tool used when attaching the wiring box to the construction material.

  For example, a lightweight partition wall as a building is constructed by standing wall materials so as to sandwich a plurality of lightweight steel materials (construction materials) standing at intervals. In this lightweight partition wall, a wiring box for accommodating a wiring device installed on the lightweight partition wall is disposed (for example, see Patent Document 1).

As shown in FIG. 10, the wiring box 90 described in Patent Document 1 includes a box body 91 formed in a bottomed square box shape having an opening on the front surface. Of the pair of side walls 91a forming the box body 91, one side wall 91a is formed with three screw through holes 92 having a long hole shape. In addition, in the pair of side walls 91a, when the wiring box 90 is attached to the light-weight shaped steel member 95 on the opening surface (front surface) side end face of the box body 91, the corners of the light-weight shaped steel material 95 (building material) ( A pair of engaging protrusions 93 that can be engaged with the rounded portion 95a are provided to project outward. And when attaching the wiring box 90 of patent document 1 to the lightweight shaped steel material 95, the outer surface of one side wall 91a is made to contact | abut to the side surface of the lightweight shaped steel material 95, and also to the corner | angular part 95a of the lightweight shaped steel material 95. The screw box 94 is screwed into the lightweight steel member 95 from the screw through-hole 92 while the pair of engaging protrusions 93 are engaged, and the wiring box 90 is attached to the lightweight steel member 95.
Japanese Patent Laid-Open No. 11-275732

  By the way, when attaching the wiring box 90 to the lightweight steel member 95, an operator who performs the attachment work holds the wiring box 90 with one hand and makes the outer surface of one side wall 91a abut the side surface of the lightweight steel member 95. The screw 94 held in the other hand passes through the screw through-hole 92 and is screwed into the lightweight steel member 95. For this reason, the mounting operation of the wiring box 90 is very difficult to perform, for example, when the wiring box 90 is mounted on the lower or upper portion of the lightweight steel member 95.

  The present invention has been made in view of the above-described conventional problems, and an object of the present invention is to provide a wiring box mounting method for facilitating the mounting work of the wiring box to the construction material, and clamping used when mounting the wiring box. To provide a tool.

  In order to solve the above problems, the invention according to claim 1 has an opening surface at least on the front surface, a contact surface orthogonal to the opening surface, and contacted with a side surface of the building construction material. A method for attaching a wiring box provided on a side wall to the construction material, wherein the contact surface is brought into contact with a side surface of the construction material, and the front surface of the construction material adjacent to the side surface of the construction material and the opening surface. It is carried out using a clamping tool comprising a clamping part that can clamp the wiring box in parallel and the construction material, and a locking mechanism that locks the clamping state of the wiring box and the construction material by the clamping part. The clamping state of the clamping part is locked by a locking mechanism, the wiring box is temporarily fixed to the construction material, and the mounting member is attached to the construction material from the side wall on which the contact surface is formed, and the wiring box is attached to the construction material After holding To release the temporarily fixed condition of the wiring box by ingredients, and summarized in that which is performed by removing the clamping tool from the wiring box.

  According to a second aspect of the present invention, there is provided a wiring box having an opening surface at least on a front surface, a wiring box having a contact surface on a side wall that is orthogonal to the opening surface and is in contact with a side surface of a building construction material. A clamping tool used when mounting to a wiring box, wherein the wiring box having the contact surface in contact with a side surface of the construction material and the construction material capable of sandwiching the construction material together, and a wiring box by the clamping part And a locking mechanism that locks the sandwiched state of the construction material, and a positioning surface that aligns the opening surface and the front surface of the construction material in parallel.

  The gist of the invention described in claim 3 is that, in the clamping tool according to claim 2, the positioning surface is in contact with the opening end of the wiring box forming the opening surface and the front surface of the building material. To do.

  According to a fourth aspect of the present invention, in the clamping tool according to the third aspect, of the alignment surface that contacts the opening end of the wiring box that forms the opening surface and the alignment surface that contacts the front surface of the building material The gist of either one is that it can be moved relative to the other alignment surface.

  According to a fifth aspect of the present invention, in the clamping tool according to the third aspect, the alignment surface that contacts the opening end and the alignment surface that contacts the front surface of the construction material are provided on the same plane of one member. It is a summary.

  According to the present invention, it is easy to attach the wiring box to the construction material.

(First embodiment)
A wiring box mounting method and a clamping tool according to a first embodiment of the present invention will be described below with reference to FIGS. In the following description, “front” and “rear” of the wiring box correspond to the front and rear in the arrow Y1 extending in the front-rear direction in FIG. Further, “left” and “right” of the wiring box correspond to the left and right in the arrow Y2 extending in the left-right direction in FIG. 3, and “upper” and “lower” in the wiring box are the upper and lower in the arrow Y3 extending in the up-down direction of FIG. It corresponds to.

  First, a lightweight steel material as a construction material constituting a lightweight partition wall (building) (not shown) will be described. As shown in FIGS. 1 and 3, the light-weight shaped steel R is a C-shaped steel made of a thin steel plate and having a substantially C-shaped cross-sectional view in a direction perpendicular to the standing direction of the light-weight shaped steel R. In addition, it has a quadrangular prism shape (prism shape). The lightweight steel member R includes an opening portion Ra extending in the standing direction, a back plate portion Rb opposite to the opening portion Ra, and a pair of side plate portions Rc sandwiching the back plate portion Rb. The opening Ra is formed between a pair of opposing lip portions Rd extending from the pair of side plate portions Rc, and each lip portion Rd is opposed to the back plate portion Rb. Yes.

  In the lightweight steel R, the length from the outer wall Rda of the lip Rd to the outer wall Rba of the back plate Rb is defined as a width W1 of the lightweight steel R (see FIG. 1). Further, the light-weight shaped steel material R is erected so that the outer wall surface Rca of one side plate portion Rc of the pair of side plate portions Rc faces the front surface side of the lightweight partition wall, and the outer wall surface Rca is the light-weight shaped steel material R. It becomes the front.

  Next, the wiring box 10 attached to the lightweight steel material R will be described. As shown in FIG. 3, the wiring box 10 is made of a synthetic resin material and is formed in a bottomed square box shape. The wiring box 10 is formed of a bottom wall 12 having a square plate shape and side walls 13 to 16 erected on the side edges of the bottom wall 12 and surrounded by the side walls 13 to 16. The opening Sa is provided on one surface (front surface). In the wiring box 10, the front surface facing the bottom wall 12 and opening the box opening Sa is defined as an opening surface S of the wiring box 10, and the opening end on the box opening Sa side in all the side walls 13 to 16 is All are located on the opening surface S (see FIG. 1). In addition, let a pair of side wall of the short side among the side walls 13-16 be the upper side wall 13 and the lower side wall 14, and let a pair of side wall of the long side be the left side wall 15 and the right side wall 16.

  A contact pedestal 21 bulges outward from the right side wall 16 on the right side wall 16. The surface parallel to the outer wall surface 16a of the right side wall 16 in the abutment pedestal 21 is the side surface of the lightweight steel member R (the outer wall surface Rda of the lip Rd) when the wiring box 10 is attached to the lightweight steel member R. The contact surface 21a which contacts is formed. Further, the contact base 21 is formed with a plurality of (three in the present embodiment) insertion holes 27 having a substantially circular hole shape, and each insertion hole 27 is an attachment for attaching the wiring box 10 to the lightweight steel material R. The member N is formed so that it can be inserted. In the wiring box 10, the length from the contact surface 21a to the inner wall surface 16b of the right side wall 16 is defined as a width W2 at the side portion of the wiring box 10 (see FIG. 1).

  As shown in FIG. 1, when the wiring box 10 is attached to the lightweight steel member R, the contact surface 21 a comes into contact with the outer wall surface Rda of the lip portion Rd that is the side surface of the lightweight steel member R. Further, in this contact state, the insertion hole 27 is formed at a position facing one lip Rd on the front side of the lightweight steel R. And the attachment member N is penetrated by the insertion hole 27, and this attachment member N is screwed in into the lip | rip part Rd of the lightweight steel R (refer FIG. 3).

  Next, the clamping tool 30 used when attaching the wiring box 10 to the lightweight steel material R will be described. As shown in FIG. 1, the clamping tool 30 has a base rod 31 having an elongated rod shape, and a swing rod 32 having a substantially L shape is pivotally supported on the base rod 31 by a support shaft 33. Has been. A first clamp piece 31 a is provided on the distal end side of the base rod 31, and a second clamp piece 32 a is provided on the distal end side of the swing rod 32. The swing rod 32 is restricted from turning toward the base 31 at a position (regulatory position) where the second clamp piece 32a is spaced apart from the first clamp piece 31a (see FIG. 1 state).

  Further, in the state where the swing rod 32 is in the restricting position, a clamping surface 31b extending in the axial direction of the base rod 31 is formed on the inner surface of the first clamp piece 31a facing the swing rod 32, and the An alignment surface 31c extending in a direction perpendicular to the sandwiching surface 31b is formed. On the other hand, in the second clamp piece 32 a, a position adjustment member 42 that is slidable along the axial direction of the swing rod 32 is attached to the inner surface facing the base rod 31. The position adjusting member 42 is L-shaped, and a holding surface 42b extending in the axial direction of the second clamp piece 32a is formed on the surface of the position adjusting member 42 facing the base 31. The holding surface 42b An alignment surface 42c extending in a direction perpendicular to the surface is formed. When the swing rod 32 is in the restricting position, the clamping surface 31b of the first clamp piece 31a and the clamping surface 42b of the position adjusting member 42 are opposed to each other with a predetermined interval. Further, in the alignment surface 31c of the first clamp piece 31a and the alignment surface 42c of the position adjusting member 42, one alignment surface 42c is movable relative to the other alignment surface 31c.

  In addition, the said fixed space | interval is the space | interval same as the sum of the width W1 of the said lightweight shape steel R, and the width W2 of the side part of the wiring box 10, or a very narrow space | interval. That is, the fixed interval is between the clamping surface 31b of the first clamp piece 31a and the clamping surface 42b of the position adjusting member 42 with the contact surface 21a of the wiring box 10 in contact with the outer wall surface Rda of the lip Rd. It is a space | interval which clamps lightweight shape steel R and the right side wall 16 of the wiring box 10 between. Therefore, in this embodiment, the 1st clamp piece 31a and the 2nd clamp piece 32a (position adjustment member 42) comprise the clamping part which clamps both the wiring box 10 and the lightweight steel material R. FIG.

  Further, the position adjustment member 42 is restricted from moving further toward the distal end side of the second clamp piece 32a at a position where the distal end face thereof is flush with the distal end face of the second clamp piece 32a (position shown in FIG. 1). It has come to be. In a state where the movement of the position adjusting member 42 is restricted, the alignment surface 42c is positioned on the same plane as the alignment surface 31c of the first clamp piece 31a. The alignment surfaces 31c and 42c are specifically positioned on the same plane so that the opening surface S of the wiring box 10 and the outer wall surface Rca (front surface) of the side plate portion Rc in the lightweight steel material R are parallel to each other. Thus, an alignment unit for performing alignment is configured.

  An end of an elongated rod-like operating rod 34 is pivotally supported on the swing rod 32 by a first rotation shaft 35. On the distal end side of the operating rod 34, the distal end of the interlocking rod 36 is rotatably supported by a second rotating shaft 37, and the base end of the interlocking rod 36 is supported by the third rotating shaft 38 on the base rod 31. Is pivotally supported by the shaft. The interlock rod 36 is rotated about the third rotation shaft 38 in conjunction with the rotation of the operation rod 34, and the second rotation shaft 37 is moved along with the operation rod 34. It has become.

  Here, an imaginary line connecting the center point P1 of the first rotation shaft 35 and the center point P3 of the third rotation shaft 38 is defined as a straight line L1. Then, when the pivot rod 32 is in the regulation position, the pivot of the pivot rod 32 is regulated when the center point P2 of the second pivot shaft 37 moves to a position exceeding the straight line L1 toward the base 31 side. It has become so. That is, the swing rod 32 is locked at the restricting position, and the clamping state of the wiring box 10 and the lightweight steel material R by the first clamp piece 31a and the second clamp piece 32a is locked. And in this embodiment, the wiring box 10 by the 1st clamp piece 31a and the 2nd clamp piece 32a by the 1st rotation axis | shaft 35, the interlocking rod 36, the 2nd rotation axis | shaft 37, and the 3rd rotation axis | shaft 38 is used. A lock mechanism that locks the sandwiched state of the lightweight steel R is configured. On the other hand, when the swing rod 32 is rotated so that the second clamp piece 32a is separated from the first clamp piece 31a, the center point P2 of the second rotation shaft 37 exceeds the straight line L1 to the side away from the base 31. Then, the locked state of the swing rod 32 is released.

  A distal end of a release rod 39 is pivotally supported on the interlock rod 36 by a fourth rotation shaft 40. Further, the distal end of a tension spring 41 is attached to the interlocking rod 36, and the proximal end of the tension spring 41 is attached to the base rod 31. The interlocking rod 36 is pulled by a tension spring 41, and the tension spring 41 is biased so that the proximal end side of the operating rod 34 rotates in a direction away from the base rod 31. Then, when the swing rod 32 is locked at the restricting position, when the base end side of the release rod 39 is rotated toward the base rod 31, the swing rod 32 is rotated by the release rod 39, The center point P2 of the second rotating shaft 37 exceeds the straight line L1, and the locked state is released.

Next, a method for attaching the wiring box 10 to the lightweight steel material R using the clamping tool 30 will be described.
First, as shown in FIG. 1, the abutting surface 21 a is brought into contact with the outer wall surface Rda (side surface) of the lip Rd with respect to the lightweight steel member R to which the wiring box 10 is attached. At this time, the outer wall surface Rca of the side plate portion Rc adjacent to the outer wall surface Rda of the lip portion Rd is the front surface of the lightweight steel member R. For this reason, the opening surface S of the wiring box 10 and the outer wall surface Rca (front surface) of the side plate portion Rc are positioned in parallel. Next, as shown in FIG. 2, the operating rod 34 of the clamping tool 30 is rotated to rotate the first clamp piece 31a away from the second clamp piece 32a, and the first clamp piece 31a and the first clamp piece 31a. The space | interval with 2 clamp pieces 32a is expanded. Then, the operating rod 34 is rotated, and as shown in FIG. 1, the swing rod 32 is rotated to the restriction position, and the lightweight steel R and the wiring box 10 are connected to the first clamp piece 31a and the second clamp piece 32a ( It is sandwiched between the position adjusting member 42). At this time, the clamping surface 31b of the first clamp piece 31a is brought into contact with the outer wall surface Rba of the back plate portion Rb, and the alignment surface 31c is brought into contact with the outer wall surface Rca of the side plate portion Rc.

  Subsequently, the position adjusting member 42 is slid to a position where the sliding movement is restricted, the clamping surface 42b is brought into contact with the inner wall surface 16b of the right side wall 16, and the positioning surface 42c is brought into contact with the opening end of the right side wall 16. Let At this time, the alignment surface 31c of the first clamp piece 31a and the alignment surface 42c of the position-adjusting position adjusting member 42 are located on the same plane, so the outer wall surface Rca of the side plate portion Rc and the wiring box 10 The opening surface S is parallel to each other and is located on the same plane.

  Next, the operating rod 34 is rotated toward the base 31, and the center point P2 of the second rotation shaft 37 is moved to a position exceeding the straight line L1 toward the base 31. Then, the swing rod 32 is locked at the restriction position, and the lightweight steel member R and the wiring box 10 are sandwiched between the first clamp piece 31a and the second clamp piece 32a. That is, the wiring box 10 is temporarily fixed in a state where it is in contact with the lightweight steel member R.

  And an operator performs the attachment operation | work to the lightweight shape steel R of the wiring box 10 by the attachment member N using both hands. That is, when the mounting member N is inserted into the insertion hole 27 of the wiring box 10, the mounting member N is forcibly screwed into the lip Rd, and the mounting member N is fixed to the lip Rd, the wiring box 10 is lightweight. It is attached to the steel material R. Thereafter, when the release rod 39 is rotated toward the base 31, the swing rod 32 is rotated in a direction away from the base 31 by the release rod 39, and the locked state at the restriction position is released. And the attachment operation | work of the wiring box 10 with respect to the lightweight shape steel R is complete | finished by removing the clamping tool 30 from the lightweight shape steel R and the wiring box 10. FIG.

According to the above embodiment, the following effects can be obtained.
(1) The wiring box 10 is temporarily fixed to the lightweight steel member R by the clamping tool 30 so that the wiring box 10 is attached to the lightweight steel member R. For this reason, the operator who performs the mounting operation of the wiring box 10 can perform the screwing operation of the mounting member N using both hands. Accordingly, the wiring box 10 can be attached more easily than when the wiring box 10 is pressed against the lightweight steel member R with one hand and the attachment member N is screwed with only the other hand. . For example, when the wiring box 10 is attached to the lower part or the upper part of the lightweight steel material R, or when the screwing work of the attachment member N needs to be performed on the side opposite to the operator's dominant hand, the attachment work is facilitated. The mounting operation is facilitated. As a result, it is possible to prevent the wiring box 10 from being displaced and attached to the lightweight steel member R such that the opening surface S of the wiring box 10 protrudes forward from the outer wall surface Rca of the side plate portion Rc.

  (2) The clamping tool 30 includes alignment surfaces 31c and 42c that position the outer wall surface Rca of the side plate portion Rc and the opening surface S of the wiring box 10 on the same plane. For this reason, the front surface of the light-weight shaped steel material R and the opening surface S of the wiring box 10 can be flushed while temporarily fixing the wiring box 10 to the light-weight shaped steel material R. Accordingly, the clamping tool 30 can be used to temporarily fix and align the wiring box 10 and contribute to simplification of the mounting work of the wiring box 10 on the lightweight steel material R.

  (3) A position adjustment member 42 is slidably provided on the second clamp piece 32a of the clamping tool 30, and the alignment surface 42c of the position adjustment member 42 moves relative to the alignment surface 31c of the first clamp piece 31a. It is possible. Then, by sliding the position adjusting member 42, the operation of moving the wiring box 10 and positioning the opening surface S on the same plane as the outer wall surface Rca of the side plate portion Rc can be easily performed.

(Second Embodiment)
Next, a second embodiment in which the mounting method and the clamping tool of the present invention are embodied will be described with reference to FIGS. Note that in the second embodiment described below, the same components as those in the first embodiment described above are denoted by the same reference numerals, and redundant description thereof is omitted or simplified.

  As shown in FIGS. 4 and 5, the clamping tool 50 has an elongated base 51, and a connecting portion 52 having a rectangular plate shape is joined to one end of the base 51. In the base 51, one side surface extending in the axial direction constitutes an alignment surface 51b on which the opening end of the wiring box 10 and the outer wall surface Rca of the side plate portion Rc abut, and constitutes an alignment portion. That is, the alignment surface with which the opening end of the wiring box 10 abuts and the alignment surface with which the outer wall surface Rca of the side plate portion Rc abuts are provided on the same plane. Further, a groove 51a extending in the axial direction of the base body 51 is formed on the alignment surface 51b.

  The connecting portion 52 is joined to the base 51 so that the axis of the connecting portion 52 is orthogonal to the axis of the base 51. The first clamp piece 53 is joined to the inner side surface of the connecting portion 52, and the first clamp piece 53 is formed with a clamping surface 53b extending perpendicular to the alignment surface 51b.

  The clamping tool 50 includes a second clamp piece 54 that can slide in the axial direction of the base 51. The second clamp piece 54 is integrally provided with an engagement protrusion 55 on the base end side (see FIG. 5). The engagement protrusion 55 is inserted into the groove 51a and the base along the groove 51a. The inner surface of 51 is engaged. Further, in the second clamp piece 54, an inner surface facing the first clamp piece 53 is formed with a sandwiching surface 54b extending perpendicular to the alignment surface 51b. A bolt 56 is inserted into the first clamp piece 53, and a tip end side of the bolt 56 is inserted into the second clamp piece 54. A nut 57 can be screwed onto the tip of the bolt 56 penetrating the second clamp piece 54. In 2nd Embodiment, the 1st clamp piece 53 and the 2nd clamp piece 54 comprise the clamping part which clamps the wiring box 10 with the lightweight shaped steel material R. As shown in FIG.

  In order to attach the wiring box 10 to the lightweight steel member R using the clamping tool 50 of the second embodiment, first, the nut 57 is screwed out from the bolt 56, and the bolt 56 is connected to the first clamp piece 53 and the first clamp member 53. 2 Pull out from the clamp piece 54. Next, the abutting surface 21 a of the abutment base 21 is brought into contact with the outer wall surface (side surface) of the lip Rd of the lightweight shape steel material R with respect to the lightweight shape steel material R.

  Next, the second clamp piece 54 is slid in a direction away from the first clamp piece 53 of the clamping tool 50 to widen the interval between the first clamp piece 53 and the second clamp piece 54. Then, as shown in FIG. 6, the lightweight steel material R and the wiring box 10 are sandwiched between the first clamp piece 53 and the first clamp piece 53. At this time, the outer wall surface Rca of the side plate portion Rc and the opening end of the wiring box 10 are brought into contact with the alignment surface 51 b of the base 51. Then, the opening surface S of the wiring box 10 and the outer wall surface Rca of the side plate portion Rc are located on the same plane.

  Subsequently, the second clamp piece 54 is slid toward the first clamp piece 53, and the clamping surface 54 b of the second clamp piece 54 is brought into contact with the outer wall surface 15 a of the left side wall 15. And the bolt 56 is inserted in the 1st clamp piece 53 and the 2nd clamp piece 54 in the contact | abutting position, and the nut 57 is screwed by the bolt 56. FIG. Then, the lightweight steel material R and the wiring box 10 are clamped by the first clamp piece 53 and the second clamp piece 54, and the clamped state is locked by the bolt 56 and the nut 57. Therefore, in this embodiment, the bolt 56 and the nut 57 constitute a lock mechanism.

  And the wiring box 10 is temporarily fixed in the state contact | abutted with respect to the lightweight shaped steel material R, and the wiring box 10 is attached to the lightweight shaped steel material R by the attachment member N similarly to 1st Embodiment. Thereafter, the nut 57 is screwed off from the bolt 56, the bolt 56 is removed from the first clamp piece 53 and the second clamp piece 54, and the second clamp piece 54 is slid in a direction away from the first clamp piece 53. And the attachment operation | work of the wiring box 10 with respect to the lightweight shape steel material R is complete | finished by removing the clamping tool 50 from the lightweight shape steel material R and the wiring box 10. FIG. Therefore, according to the second embodiment, in addition to the same effects as (1) and (2) described in the first embodiment, the following effects can be obtained.

  (4) In the clamping tool 50, the alignment surface 51b is aligned with the opening end of the wiring box 10 and the outer wall surface Rca of the side plate portion Rc. For this reason, the opening surface S of the wiring box 10 and the outer wall surface Rca of the side plate portion Rc can be reliably positioned on the same plane.

In addition, you may change the said embodiment as follows.
O You may change the clamping tool 50 of 2nd Embodiment as shown in FIG. In the clamping tool 50, the second clamp piece 54 is formed to be detachable from the base body 51. In addition, a large number of through holes 51 c into which the pins 60 are inserted are formed in the base 51 along the axial direction of the base 51 instead of the grooves 51 a. Further, an insertion hole 54 a into which the pin 60 can be inserted is formed in the base end surface of the second clamp piece 54. In the clamping tool 50, the pin 60 is inserted into the insertion hole 54a from the through hole 51c at the position where the wiring box 10 is clamped together with the lightweight steel member R by the second clamp piece 54 and the first clamp piece 53. The second clamp piece 54 is positioned on the base body 51. As a result, the sandwiched state of the lightweight steel material R and the wiring box 10 by the first clamp piece 53 and the second clamp piece 54 is locked. Therefore, the through hole 51c, the fitting insertion hole 54a, and the pin 60 constitute a lock mechanism.

  In the mounting method of the wiring box 10, the opening surface S of the wiring box 10 may not be on the same plane as the front surface unless it protrudes from the front surface of the lightweight steel R (the outer wall surface Rca of the side plate portion Rc). The opening surface S may be in a position retracted from the front surface of the lightweight steel member R.

O You may attach the wiring box 10 to the wooden pillar as a construction material by the attachment method using the clamping tool 30 or the clamping tool 50. FIG.
In the wiring box 10, the abutment of the abutment pedestal 21 in a state where the outer wall surface 15 a of the left side wall 15 is in contact with the outer wall surface Rda of the lip Rd or the outer wall surface Rba of the back plate Rb in the lightweight steel R. The surface 21a and the outer wall surface Rba of the back plate Rb or the outer wall surface Rda of the lip Rd may be clamped by the clamping tool 30 or the clamping tool 50. In this case, the outer wall surface 15a of the left side wall 15 constitutes a contact surface that contacts the outer wall surfaces Rda and Rba (side surfaces) of the lightweight steel material R.

  ○ When the wiring box 10 is attached to a wooden pole as a construction material, the front surface of the trunk edge member installed in front of the wooden pole and the opening surface S of the wiring box 10 are parallel to each other and the opening surface S of the wiring box 10 The wiring box 10 may be attached to the light-weight shaped steel member R using the clamping tools 30 and 50 so as to protrude forward from the front surface of the light-weight shaped steel member R.

  As shown in FIG. 8 and FIG. 9, as the wiring box 10, a type in which a gripping portion 61 is formed at the opening end thereof is temporarily fixed to the light-weight shaped steel R using a clamping tool 30, and the light-weight shaped steel You may attach to R. The lightweight steel R is a square steel in which the opening Ra is not formed, and the four side surfaces are formed by the side plate portion Rc. Further, the first clamp piece 31a and the second clamp piece 32a in the clamping tool 30 are extended in length in the axial direction as compared with the embodiment.

  As shown in FIG. 9, the grip 61 extends from the opening end of one side wall (right side wall 16) of the wiring box 10 so as to protrude outward from the outer wall 16 a of the right side wall 16. An abutment base 21 is formed on the right side wall 16 on which 61 is formed. The grip 61 extends so as to protrude outward from the contact surface 21 a of the contact base 21. Further, the back surface of the gripping portion 61 is located on the same plane as the opening surface S of the wiring box 10.

  In order to attach the wiring box 10 to the lightweight steel member R using the clamping tool 30, first, the contact surface 21a of the contact base 21 is made to contact the outer wall surface Rca (side surface) of the side plate portion Rc of the lightweight steel member R. Further, the back surface of the grip portion 61 is brought into contact with the outer wall surface Rca (front surface) of another side plate portion Rc adjacent to the outer wall surface Rca with which the contact surface 21a is in contact. Then, the opening surface S of the wiring box 10 and the front surface (outer wall surface Rca) of the lightweight steel material R are located on the same plane and are parallel to each other.

  Next, the holding part 61 and the lightweight steel material R (wiring box 10) are clamped by the first clamp piece 31a and the second clamp piece 32a of the clamping tool 30, and the clamping state is locked. Then, the wiring box 10 is temporarily fixed in a state where the wiring box 10 is in contact with the lightweight steel material R. Thereafter, the wiring box 10 is attached to the lightweight steel member R, and the clamping tool 30 is removed from the wiring box 10 and the lightweight steel member R.

  When the wiring box 10 having the gripping portion 61 is temporarily fixed to the lightweight steel member R using the clamping tool 30 as described above, the clamping tool 30 opens the box opening Sa of the wiring box 10 as shown in FIG. It is not arranged in the position to cover. For this reason, the insertion work of the attachment member N to the insertion hole 27 after temporarily fixing the wiring box 10 and the screwing work to the lightweight steel member R are easily performed. In addition, you may attach the wiring box 10 provided with the holding part 61 to the lightweight shape steel R using the clamping tool 50 of 2nd Embodiment, or the clamping tool 50 shown in FIG.

In the clamping tool 30, the interval between the clamping surface 31 b and the clamping surface 42 b when the swing bar 32 is in the restricting position may be changed according to the size of the lightweight steel member R or the wiring box 10.
In the clamping tool 30, the position adjustment member 42 is provided on the first clamp piece 31 a, and the alignment surface 42 c that contacts the outer wall surface Rca (front surface) of the lightweight steel R is formed as an opening that forms the opening surface S of the wiring box 10. You may comprise so that relative movement with respect to the alignment surface 31c contact | abutted to an edge is possible.

The wiring box 10 may be attached to the lightweight steel member R in a state where the contact surface 21a is in contact with the outer wall surface Rba of the back plate Rb.
The wiring box 10 may include a rectangular frame-shaped box body including an upper side wall 13, a lower side wall 14, a left side wall 15, and a right side wall 16, and may have an opening surface S on both front and rear sides.

The top view which shows the state which clamped the wiring box and the lightweight steel material with the clamping tool. The front view which shows the clamping tool of 1st Embodiment. The front view which shows a wiring box and a lightweight shape steel material. The perspective view which shows the clamping tool of 2nd Embodiment. The front view which shows the clamping tool of 2nd Embodiment. The top view which shows the state which clamped the wiring box and the lightweight steel material with the clamping tool. The perspective view which shows another example of the clamping tool of 2nd Embodiment. The front view which shows another example of a wiring box. The top view which shows the state which clamped the wiring box of another example with the lightweight shape steel material. The perspective view which shows background art.

Explanation of symbols

  N: mounting member, R: lightweight steel as construction material, Rca: outer wall as front, Rba, Rda: outer wall as side, S: opening surface, 10: wiring box, 15a: as contact surface Outer wall surface, 16 ... right side wall as a side wall, 21a ... abutting surface, 30, 50 ... clamping tool, 31a, 53 ... first clamp piece constituting clamping portion, 31c, 42c ... positioning surface as positioning portion 32a, 54 ... the second clamp piece constituting the clamping part, 35 ... the first turning shaft constituting the locking mechanism, 36 ... the interlocking rod constituting the locking mechanism, 37 ... the second turning shaft constituting the locking mechanism. 38b, a third rotation shaft constituting the lock mechanism, 51b, an alignment surface as an alignment portion, 51c, a through hole constituting the lock mechanism, 54a, an insertion hole constituting the lock mechanism, 56, a lock mechanism. The buttons that make up Doo, 57 ... nut that make up the locking mechanism, pin that make up the 60 ... lock mechanism.

Claims (5)

It is an attachment method to the construction material of the wiring box which has an opening surface at least on the front surface, is orthogonal to the opening surface, and has a contact surface on the side wall to contact the side surface of the construction material of the building,
The abutment surface is brought into contact with a side surface of the construction material, and the front side of the construction material adjacent to the side surface of the construction material and the opening surface can be clamped together and the construction material. Is performed using a clamping tool that includes a clamping unit, and a lock mechanism that locks a clamping state of the wiring box and the construction material by the clamping unit,
The clamping state by the clamping unit is locked by a lock mechanism, and the wiring box is temporarily fixed to the construction material, and an attachment member is attached to the construction material from the side wall on which the contact surface is formed, and the wiring box is attached to the construction material. Thereafter, the wiring box mounting method is performed by releasing the temporarily fixed state of the wiring box by the clamping tool and removing the clamping tool from the wiring box. A clamping tool used when attaching to the construction material a wiring box having an opening surface at least on the front surface and orthogonal to the opening surface and having a contact surface on a side wall of the construction material. There,
A clamping part that allows the abutment surface to be abutted against the side surface of the construction material and the construction material, and a locking mechanism that locks the clamping state of the wiring box and the construction material by the clamping part; And a holding tool provided with an alignment surface for aligning the opening surface and the front surface of the construction material in parallel. The clamping tool according to claim 2, wherein the alignment surface is in contact with an opening end of a wiring box that forms the opening surface and a front surface of the building material. One of the alignment surface that contacts the opening end of the wiring box that forms the opening surface and the alignment surface that contacts the front surface of the building material is provided to be relatively movable with respect to the other alignment surface. The clamping tool according to claim 3. The clamping tool according to claim 3, wherein the alignment surface that contacts the opening end and the alignment surface that contacts the front surface of the construction material are provided on the same plane of one member.

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