JP5031517B2 - Wiring box - Google Patents

Description

  The present invention relates to a wiring box to which an instrument is attached and fixed using screws.

  Conventionally, there was a wiring box shown in FIG. 8 (see, for example, Patent Document 1). The wiring box 14 is arranged on the back side of the wall 11 of the building, and the appliance 12 is attached and fixed to the wiring box 14 using screws 13. Here, the wiring box 14 is provided with a boss portion 15b protruding inward from the peripheral wall 15a of the box body 15, and a screw fixing tool 16 for fixing the screw 13 is accommodated in the boss portion 15b. The screw fixture 16 includes an elastic piece 16b extending from the board portion 16a. The elastic piece 16b engages with the male screw of the screw 13 inserted into the screw insertion hole 15c of the boss portion 15b. This prevented the screw 13 from coming off.

JP 2007-74808

  In the conventional wiring box 14, the elastic piece 16b of the screw fixture 16 is elastically deformed to allow the screw 13 to enter the screw insertion hole 15c. However, the elastic piece 16b is elastically deformed. If it is easy to do, the tensile force of the elastic piece 16b with respect to the detachment of the screw 13 may be lowered, which is not preferable. Further, for example, if the elastic piece 16b is thickened so that the tension force of the elastic piece 16b is given priority, when the screw 13 enters the screw insertion hole 15c, the elastic piece 16b resists and the screw 13 is screwed. It became difficult to insert into the insertion hole 15c.

  The present invention was made to solve the above-described conventional drawbacks, and the object of the present invention is to easily insert the screw into the screw insertion hole and make it difficult to remove from the screw insertion hole. To provide a wiring box.

In order to achieve the object, the wiring box according to the present invention has the following configuration. That is,
The wiring box according to the first aspect of the present invention is a wiring box to which a tool is attached and fixed using a screw, and includes a box body and a screw fixing tool for fixing the screw. Here, the box body includes an instrument mounting portion to which the instrument is mounted. The instrument mounting portion includes a screw insertion hole into which the screw is inserted, and a housing portion that communicates with the screw insertion hole and accommodates the screw fixing tool. On the other hand, the screw fixing tool is provided so as to be along the insertion direction of the screw into the screw insertion hole, and toward the screw insertion hole from at least one of the substrate parts. And an extended elastic piece. Therefore, the distal end portion of the elastic piece serves as a locking portion that engages with the outer peripheral surface of the screw shaft inserted into the screw insertion hole and locks the screw in a retaining state. The elastic piece is pushed by the screw so as to allow the screw to be inserted into the screw insertion hole, and elastically deforms outward in a direction away from the center of the screw insertion hole. Has a restoring force to return to In addition, the substrate portion provided with the elastic piece has an elastic property of the substrate portion to reduce the amount of elastic deformation of the elastic piece due to insertion of the screw into the screw insertion hole. The elastic piece is configured to be pressed toward the outer peripheral surface of the screw shaft by a restoring force that can be displaced in the direction toward the original position of the substrate portion. The accommodating portion is formed with an allowable space that allows the outward displacement of the substrate portion due to the insertion of the screw into the screw insertion hole.

  Thus, in order to attach the appliance to the wiring box, the screw is inserted into the screw insertion hole provided in the appliance attachment portion of the box body. Here, the elastic piece of the screw fixture housed in the housing portion of the instrument mounting portion is pushed by the screw and elastically deformed outward, which is the direction away from the center of the screw insertion hole, thereby inserting the screw. Allow. At this time, since an allowable space is formed in the accommodating portion, the substrate portion provided with the elastic piece is displaced outward by the elasticity of the substrate portion, and the elastic piece is moved outward by insertion of the screw. Reduce the amount of elastic deformation. Thus, the elastic deformation of the substrate portion can reduce the amount of elastic deformation of the elastic piece. For this reason, the screw is easily inserted into the screw insertion hole. When the screw is inserted into the screw insertion hole, the engaging portion at the tip of the elastic piece engages with the outer peripheral surface of the screw shaft to prevent the screw from coming off. In this way, the screw is fixed to the instrument mounting portion of the box body, and the instrument is fixedly attached to the wiring box. Here, since the restoring force of the substrate portion acts on the screw through the elastic piece, even if an external force in the pulling direction acts on the screw, the screw is not easily pulled out from the screw insertion hole.

  The wiring box according to claim 2 is the wiring box according to claim 1, wherein the screw fixing member is a connecting plate for connecting at least a pair of the board parts and one side of the board parts. A part. And the said connection board part is provided with the through-hole by which the said screw is penetrated, and is arrange | positioned so that the insertion direction of the said screw may be crossed.

  Moreover, the wiring box which concerns on invention of Claim 3 is a wiring box of Claim 2, The said elastic piece is provided in all the said board | substrate parts. Thus, the elastic pieces are provided on all of the substrate portions, so that the screws can be locked in a balanced manner by these elastic pieces.

  According to a fourth aspect of the present invention, there is provided the wiring box according to any one of the first to third aspects, wherein the elastic piece is provided along the insertion direction of the screw on the substrate portion. A plurality of stages are provided.

  The wiring box according to the invention described in claim 5 is the wiring box according to any one of claims 1 to 4, wherein the housing portion includes the substrate portion that enters the permissible space at a predetermined amount or more. A restricting portion is provided for restricting the outside displacement. By providing the restricting portion in this way, when an external force in the pulling direction acts on the screw, the restricting portion restricts the displacement of the substrate portion beyond the predetermined amount, so that the screw is further removed from the screw insertion hole. It can be difficult to escape.

  Moreover, the wiring box which concerns on invention of Claim 6 is the wiring box of any one of Claim 1 thru | or 5. WHEREIN: The said screw fixing tool is metal.

  According to the wiring box according to the present invention, by providing the elastic piece of the screw fixing device on the board portion having elasticity, the elastic deformation amount of the elastic piece can be reduced for insertion of the screw, With respect to the external force in the pulling direction to the inserted screw, the restoring force of the substrate portion acts on the screw, so that it is easy to insert the screw into the screw insertion hole and it is difficult to pull out from the screw insertion hole.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

  1 to 4 show an embodiment of the present invention. Reference numeral 1 in the figure denotes a building wall. Reference numeral 2 denotes an appliance, and a wiring appliance 2a (apparatus body) such as an outlet or a switch is attached to the holding panel 2b. 3 is a screw. Reference numeral 4 denotes a wiring box to which the instrument 2 is attached and fixed using screws 3.

  Here, in the instrument 2, the holding panel 2b is formed in a frame shape, and the wiring instrument 2a is attached in the frame. The holding panel 2b is formed with holes 2c through which the screws 3 are inserted on each side thereof, for example, on each of the upper and lower sides.

  The wiring box 4 includes a box body 5 and a screw fixing tool 6 for fixing the screw 3. Here, the box body 5 includes an instrument mounting portion 5a to which the instrument 2 is mounted. The instrument mounting portion 5a includes a screw insertion hole 5b into which the screw 3 is inserted, and an accommodation portion 5c that communicates with the screw insertion hole 5b and accommodates a screw fixing tool 6. On the other hand, the screw fixing tool 6 is provided so as to be along the insertion direction P of the screw 3 into the screw insertion hole 5b, and screw insertion from at least one of the substrate portions 6a And an elastic piece 6b extending toward the hole 5b. The distal end portion of the elastic piece 6b is engaged with the screw shaft outer peripheral surface 3a of the screw 3 inserted into the screw insertion hole 5b and becomes a locking portion 6c for locking the screw 3 in a retaining state, and The elastic piece 6b is pushed by the screw 3 so as to allow the screw 3 to be inserted into the screw insertion hole 5b, and elastically deforms outward in a direction away from the center 5d of the screw insertion hole 5b. It has a return force to return to the position. Further, the substrate portion 6a provided with the elastic piece 6b is formed by the elasticity of the substrate portion 6a in order to reduce the amount of elastic deformation of the elastic piece 6b due to the insertion of the screw 3 into the screw insertion hole 5b. The elastic piece 6b can be pressed toward the outer peripheral surface 3a of the screw shaft by a return force that can be displaced outward and return to the original position of the substrate portion 6a. Therefore, an allowable space 5e that allows the outward displacement of the substrate portion 6a due to the insertion of the screw 3 into the screw insertion hole 5b is formed in the housing portion 5c of the instrument mounting portion 5a in the box body 5. Yes.

  Specifically, the box body 5 is made of, for example, a synthetic resin and has a box shape with the front side opened, for example, a rectangular parallelepiped shape. Therefore, the instrument mounting portion 5a is formed so as to protrude inward from the front end portion of the peripheral wall 5f of the box body 5. And the said screw insertion hole 5b is formed in this instrument attachment part 5a toward the back from the front side of the box main body 5. FIG. Furthermore, the accommodation portion 5c is formed in the instrument mounting portion 5a so as to extend in a direction intersecting with the screw insertion hole 5b and open in the intersecting direction. In detail, the accommodating part 5c is extended in the direction orthogonal to the screw insertion hole 5b, and is opened in the orthogonal direction (in the illustrated embodiment, it opens on the outer surface of the peripheral wall 5f of the box body 5). . As shown in FIG. 2, the accommodating portion 5c has the allowable space 5e outside the substrate portion 6a, and the accommodating portion 5c is provided with a predetermined substrate portion 6a that enters the allowable space 5e. As described above, the restricting portion 5g is provided to restrict the outward displacement. Specifically, the restricting portion 5g includes a wall surface that forms the outer edge of the accommodating portion 5c (specifically, the allowable space 5e). The accommodating portion 5c has a support recess 5x formed so as to be narrow so as to support the screw fixture 6 on the connecting plate portion 6d side of the base 6f described later.

  The screw fixture 6 is made of metal and is made of a plate material having a spring property, for example, a metal plate such as a steel plate or a copper alloy plate. The screw fixture 6 includes at least a pair of the substrate portions 6a and 6a (in the illustrated embodiment, the pair of substrate portions 6a and 6a) and a connecting plate portion 6d that connects one side of the substrate portions 6a and 6a. The connecting plate portion 6d includes a through hole 6e through which the screw 3 is inserted, and is disposed so as to intersect the insertion direction P of the screw 3. In the illustrated embodiment, the elastic pieces 6b are provided on all of the substrate portions 6a and 6a. Specifically, the screw fixing tool 6 is formed in a substantially U shape or a substantially U shape as a whole by a pair of substrate portions 6a, 6a and a connecting plate portion 6d for connecting one side of the substrate portions 6a, 6a. A base 6f is provided. The board portions 6a and 6a are erected on the side of the screw 3 inserted into the screw insertion hole 5b so as to sandwich the screw 3 therebetween. The elastic piece 6b is extended from the substrate portion 6a toward the screw shaft outer peripheral surface 3a (that is, inward). Here, the connecting plate portion 6d connects the board portions 6a and 6a to the screw 3 insertion direction P side. Further, the elastic piece 6b is inclined toward the insertion direction P of the screw 3 into the screw insertion hole 5b so that the angle A3 of the screw 3 with respect to the screw shaft center 3b is within 45 °. It is comprised so that 3a may be engaged. And the front-end | tip of the elastic piece 6b is formed in an arc shape so that the screw shaft outer peripheral surface 3a inserted in the screw insertion hole 5b may be formed, and the locking part 6c of the elastic piece 6b is on both sides of the arc-shaped portion. , And are bent so that the angle with the screw shaft center 3b is large (see FIGS. 2 and 3).

  By the way, the angle A3 of the elastic piece 6b with respect to the screw shaft center 3b is preferably within 45 ° before the elastic piece 6b engages with the screw shaft outer peripheral surface 3a, that is, the screw fixing tool 6 alone. . By doing so, when inserting the screw 3 into the screw insertion hole 5b, the elastic piece 6b is easily deformed by being pushed by the screw 3, and this insertion becomes easy. Then, when the elastic piece 6b is engaged with the screw shaft outer peripheral surface 3a, the angle A3 is equal to or less than the angle before the engagement, so the angle A3 is engaged with the elastic piece 6b with the screw shaft outer peripheral surface 3a. If it is within 45 ° before, it is naturally within 45 ° when engaged.

  Further, the screw fixing tool 6 is configured to engage with the screw shaft outer peripheral surface 3a in an inclined state toward the insertion direction P of the screw 3, so that it is compared with a case where the screw 3 is advanced in the insertion direction P. Thus, the amount of displacement of the substrate portion 6a to the outside is larger in the case of retreating in the removal direction Q. Therefore, when the screw 3 is advanced in the insertion direction P, the restricting portion 5g retracts the screw 3 in the pulling direction Q without restricting the outward displacement of the substrate portion 6a. It is desirable to be provided at a position that restricts the substrate portion 6a when it is displaced outward by a predetermined amount or more.

  For the screw 3, a dedicated screw is used instead of a normal metric screw. As shown in FIG. 4, the screw 3 has an irregularly shaped screw thread, and the screw thread on the screw shaft outer peripheral surface 3 a is the screw shaft base end side (that is, the head side of the screw 3). The angle of the first surface 3c with respect to the screw shaft center 3b is larger than that of the second surface 3d on the screw shaft tip side. On the other hand, the angle A3 of the elastic piece 6b engaged with the screw shaft outer peripheral surface 3a with respect to the screw shaft center 3b is not less than the angle A2 of the second surface 3d with respect to the screw shaft center 3b. Specifically, an angle A1 of the first surface 3c with respect to the screw shaft center 3b is, for example, 90 °, and an angle A2 of the second surface 3d with respect to the screw shaft center 3b is, for example, 30 °. ing. Therefore, an angle A3 of the elastic piece 6b engaged with the screw shaft outer peripheral surface 3a with respect to the screw shaft center 3b is within a range of 30 ° to 45 °.

  Next, the effect of the wiring box 4 having the above configuration will be described. The wiring box 4 is previously attached to a pillar or the like on the back side of the wall 1 with a fastener such as a wood screw. Therefore, in order to attach the appliance 2 to the wiring box 4, the appliance 2 is applied to the surface of the wall 1 in the wall hole 1 a portion opened in the wall 1 corresponding to the wiring box 4. Thereafter, the screw 3 is passed through the hole 2c provided in the instrument 2 (specifically, the holding panel 2b), and then the screw 3 is pushed into the screw insertion hole 5b provided in the instrument mounting portion 5a of the box body 5. Insert it like this.

  Here, the elastic pieces 6b and 6b of the screw fixture 6 accommodated in the accommodating portion 5c of the instrument mounting portion 5a are pushed outward by the screw 3 and elastically outward in a direction away from the center 5d of the screw insertion hole 5b. By deforming, insertion of the screw 3 is allowed. At this time, since the allowable space 5e is formed in the accommodating portion 5c, the substrate portion 6a provided with the elastic piece 6b is displaced outward (tolerable space 5e side) by the elasticity of the substrate portion 6a. The outward elastic deformation amount of the elastic piece 6b due to the insertion of the screw 3 is reduced. Thus, the elastic deformation of the substrate portion 6a can reduce the amount of elastic deformation of the elastic piece 6b. For this reason, the screw 3 is easily inserted into the screw insertion hole 5b. When the screw 3 is inserted into the screw insertion hole 5b, the engaging portion 6c at the tip of the elastic piece 6b engages with the outer peripheral surface 3a of the screw shaft to keep the screw 3 from coming off. In this way, the screw 3 is fixed to the instrument mounting portion 5 a of the box body 5, and the instrument 2 is fixedly attached to the wiring box 4. Here, since the restoring force of the substrate portion 6a acts on the screw 3 through the elastic piece 6b, even if an external force in the pulling direction Q acts on the screw 3, the screw 3 is hardly pulled out from the screw insertion hole 5b. . That is, by providing the elastic piece 6b of the screw fixture 6 on the board portion 6a having elasticity, the elastic deformation amount of the elastic piece 6b can be reduced with respect to the insertion of the screw 3, and the insertion is performed. With respect to the external force in the pulling direction Q to the screw 3, the restoring force of the substrate portion 6a acts on the screw 3, so that the screw 3 is easily inserted into the screw insertion hole 5b and is difficult to be pulled out from the screw insertion hole 5b. be able to.

  In addition, the accommodating portion 5c that accommodates the screw fixture 6 is provided with a restricting portion 5g that restricts the substrate portion 6a entering the allowable space 5e from being displaced outward by a predetermined amount or more. When an external force in the pulling direction Q acts on the screw 3, the restriction portion 5g restricts the displacement of the substrate portion 6a beyond the predetermined amount. For this reason, it is possible to make the screw 3 more difficult to be removed from the screw insertion hole 5b.

  The elastic piece 6b engaged with the screw shaft outer peripheral surface 3a tries to bend in the pulling direction Q of the screw 3 with respect to the external force in the pulling direction Q to the screw 3 inserted into the screw insertion hole 5b. The elastic piece 6b having an angle A3 with respect to the screw shaft 3b within 45 ° has a large tensile force with respect to the bending, and can strongly resist the bending, that is, the removal of the screw 3.

  The screw fixture 6 is provided with elastic pieces 6b on at least a pair of substrate portions 6a and 6a (in the illustrated embodiment, a pair of substrate portions 6a and 6a), and these elastic pieces 6b and 6b. Thus, the screw 3 can be locked in a balanced manner.

  Further, since the screw fixing tool 6 is made of metal, the elastic force in the elastic piece 6b can be increased and the elastic force can be maintained for a long time.

  Further, in the screw 3, the first surface 3c on the screw shaft base end side in the screw thread is set so that the angle with respect to the screw shaft center 3b is larger than the second surface 3d on the screw shaft tip side. By doing so, that is, by satisfying A1> A2, the screw 3 can be accurately locked by the elastic piece 6b that engages with the first surface 3c of the screw thread on the outer peripheral surface 3a of the screw shaft. Then, by setting the angle A3 of the elastic piece 6b engaged with the screw shaft outer peripheral surface 3a with respect to the screw shaft center 3b to be equal to or larger than the angle A2 of the second surface 3d with respect to the screw shaft center 3b, elasticity is achieved. The piece 6b can be deeply engaged with the first surface 3c of the thread.

  In addition, this invention is not necessarily limited to embodiment mentioned above, A various other change is possible. For example, the box body 5 may be formed by combining a plurality of members, such as a box-shaped box member and a frame member attached to the front surface of the box member. Also good.

  Moreover, when attaching the instrument 2 to the wiring box 4, after inserting the screw 3 into the screw insertion hole 5b of the instrument mounting portion 5a, the screw 3 may be rotated so as to be tightened. By doing so, the instrument 2 can be firmly fixed to the wiring box 4 without the screws 3 rattling against the instrument mounting portion 5a.

  Further, in the screw fixture 6, the connecting plate portion 6d connects the board portions 6a and 6a to the insertion direction P side of the screws 3, but as shown in FIG. 5, the screw portions of the board portions 6a and 6a The three pulling direction Q sides may be connected.

  Further, one elastic piece 6b is provided in each substrate portion 6a, but the substrate portion 6a may be provided with a plurality of elastic pieces 6b along the insertion direction P of the screws 3. Here, in the example shown in FIG. 6, the elastic pieces 6 b are provided in two stages along the insertion direction P of the screws 3 in each substrate portion 6 a, but of course, three or more stages may be provided. Further, the elastic pieces 6b may not be provided in the same number in the respective substrate portions 6a and 6a, and in particular, there may be a substrate portion 6a in which the elastic pieces 6b are not provided.

  Moreover, even if the screw fixing tool 6 does not include a plurality of substrate portions 6a, as shown in FIG. 7, only one may be provided, and the elastic piece 6b may be extended from the substrate portion 6a. In this embodiment, the accommodating portion 5c is provided with a support groove 5y into which one side is inserted so as to support the screw fixture 6 on one side of the substrate portion 6a. In this figure, one elastic piece 6b is provided on the substrate portion 6a, but a plurality of stages may be provided along the insertion direction P of the screw 3.

  Further, the angle A3 of the elastic piece 6b in the screw fixing tool 6 with respect to the screw shaft center 3b may be less than 30 ° or may exceed 45 °, even if it is not in the range of 30 ° to 45 °.

  Needless to say, the angle A1 of the first surface 3c and the angle A2 of the second surface 3d of the screw thread on the screw shaft outer peripheral surface 3a are not limited to the aforementioned values. Further, the screw 3 may be a normal metric screw or the like even if the screw thread does not have an irregular shape.

It is a longitudinal section of one embodiment of a wiring box concerning this invention. Similarly, it is an expanded sectional view by the AA line in FIG. Similarly, it is sectional drawing by the BB line in FIG. Similarly, it is the C section enlarged view in FIG. FIG. 3 is a view corresponding to FIG. FIG. 3 is a view corresponding to FIG. 2 and showing a second modification of the present invention. FIG. 9 is a view corresponding to FIG. 2 and showing a third modified embodiment of the present invention. It is a longitudinal cross-sectional view which shows the conventional wiring box.

Explanation of symbols

2 Device 3 Screw 3a Screw shaft outer peripheral surface 4 Wiring box 5 Box body 5a Device mounting portion 5b Screw insertion hole 5c Storage portion 5d Center of screw insertion hole 5e Allowable space 5g Restriction portion 6 Screw fixing tool 6a Substrate portion 6b Elastic piece 6c Engagement Stopping part 6d Connecting plate part 6e Through hole P Insertion direction Q Removal direction

Claims (6)

A wiring box in which the appliance is fixed using screws.
It consists of a box body and a screw fixing tool for fixing the screw,
The box body includes an appliance mounting portion to which the appliance is attached,
The instrument mounting portion includes a screw insertion hole into which the screw is inserted, and a housing portion that is in communication with the screw insertion hole and accommodates the screw fixing tool.
The screw fixture is provided so as to extend along the insertion direction of the screw into the screw insertion hole, and extends from at least one of the substrate parts toward the screw insertion hole. An elastic piece,
A tip portion of the elastic piece becomes a locking portion that engages with a screw shaft outer peripheral surface of the screw inserted into the screw insertion hole and locks the screw in a retaining state, and the elastic piece is The screw is pushed by the screw so as to allow the screw to be inserted into the screw insertion hole, elastically deforms outward in a direction away from the center of the screw insertion hole, and has a restoring force to return to the original position. Prepared,
The substrate portion provided with the elastic piece is moved outward by the elasticity of the substrate portion in order to reduce the amount of elastic deformation of the elastic piece to the outside due to the insertion of the screw into the screw insertion hole. It is configured to be displaceable and to press the elastic piece toward the outer peripheral surface of the screw shaft by a return force that attempts to return to the original position of the substrate portion,
The wiring box according to claim 1, wherein an allowance space that allows the outward displacement of the substrate portion due to insertion of the screw into the screw insertion hole is formed in the housing portion. The screw fixture includes at least a pair of the substrate portions and a connecting plate portion that connects one side of the substrate portions,
The wiring box according to claim 1, wherein the connecting plate portion includes a through hole through which the screw is inserted, and is arranged so as to intersect the insertion direction of the screw.   The wiring box according to claim 2, wherein the elastic piece is provided on all of the substrate portions.   The wiring box according to any one of claims 1 to 3, wherein the elastic piece is provided in a plurality of stages along the insertion direction of the screw.   5. The control unit according to claim 1, wherein the housing part is provided with a restricting part that restricts the substrate part entering the permissible space from being displaced outward by a predetermined amount or more. Wiring box described in the section.   The wiring box according to claim 1, wherein the screw fixing tool is made of metal.

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