JP7149547B2 - Wiring device - Google Patents

Description

TECHNICAL FIELD The present invention generally relates to a wiring device, and more particularly to a wiring device that is installed on a construction surface by means of a mounting frame.

Conventionally, there has been provided a wiring device provided with a USB socket to which a USB plug is connected (see Patent Document 1, for example). The wiring device described in Patent Document 1 includes a first printed wiring board, a second printed wiring board, and a housing that accommodates the first printed wiring board and the second printed wiring board. A USB socket and part of a plurality of circuit components constituting an AC-DC converter are mounted on the first printed wiring board. Of the plurality of circuit components, circuit components other than those mounted on the first printed wiring board are mounted on the second printed wiring board.

JP 2014-155396 A

An object of the present invention is to provide a wiring accessory with improved heat dissipation.

A wiring accessory according to one aspect of the present invention includes a substrate, an electronic component, a heat sink, a heat radiation member, first inner terminals, another substrate, and a housing. The electronic component is arranged on the substrate. The heat dissipating member is arranged between the electronic component and the heat dissipating plate, and transfers heat from the electronic component to the heat dissipating plate. The first inner terminal is configured to be connectable to a plug-type first outer terminal. The first inner terminals are mounted on the other substrate. The housing accommodates the electronic component, the heat dissipation plate and the heat dissipation member.

A wiring device according to one aspect of the present invention includes a substrate, an electronic component, a heat sink, a material having a low elastic modulus, a first inner terminal, another substrate, and a housing. The electronic component is arranged on the substrate. The material having a low elastic modulus is arranged between the electronic component and the heat sink and has a lower elastic modulus than the material of the heat sink. The first inner terminal is configured to be connectable to a plug-type first outer terminal. The first inner terminals are mounted on the other substrate. The housing accommodates the electronic component, the heat sink, and the low elastic modulus material.

A wiring accessory according to one aspect of the present invention includes a substrate, an electronic component, a heat dissipation plate, a heat dissipation sheet, and a housing. The electronic component is arranged on the substrate. The heat dissipation sheet is arranged between the electronic component and the heat dissipation plate. The housing accommodates the electronic component, the heat dissipation plate and the heat dissipation sheet.

The wiring accessory of one aspect of the present invention has an effect of improving heat dissipation.

FIG. 1 is an exploded perspective view of a wiring accessory according to one embodiment of the present invention. FIG. 2 : is a perspective view of wiring accessories same as the above. 3A, 3B, and 3C are a plan view, a front view, and a rear view, respectively, of a body provided in the same wiring device. 4A, 4B, and 4C are a plan view, a front view, and a rear view, respectively, of a cover included in the wiring device. 5A, 5B, and 5C are a plan view, a front view, and a rear view, respectively, of a support member included in the same wiring device. 6A and 6B are a left side view and a right side view, respectively, of a support member included in the wiring device of the same. FIG. 7 is a perspective view of the wiring device with the cover removed. FIG. 8 : is a side view of wiring accessories same as the above. FIG. 9 is a perspective view showing a state in which the same wiring device is attached to the mounting frame. FIG. 10 : is a perspective view of the wiring accessories of a modification same as the above.

(1) Outline First, the outline of wiring accessories 10 concerning this embodiment is explained with reference to Drawing 1 and Drawing 2. Drawing 1 is provided with the following.

The wiring device 10 according to the present embodiment is, for example, a USB outlet to which a USB plug provided at the tip of a USB cable can be connected, and supplies power to an electrical device (eg, smart phone) electrically connected to the USB cable. supply. Moreover, the wiring accessories 10 which concern on this embodiment are indoor wiring accessories attached to the wall of a building, for example. The building in which the wiring device 10 is installed is, for example, a detached house, each dwelling unit of collective housing, an office, a store, a nursing care facility, or the like.

The wiring device 10 is attached to a construction surface (here, the wall surface of a building) with electric wires electrically connected to the wiring device 10 . In this wiring device 10, the USB plug of the USB cable is electrically connected by inserting the USB plug of the USB cable into the first insertion hole 320 formed in the front surface 30 of the cover 3, and the wiring device 10 is connected to the electric device. power supply becomes possible. Here, the wiring device 10 is an embedded wiring device, and is attached to a construction surface using an attachment frame 500 (see FIG. 9). Specifically, the wiring device 10 is attached to the construction surface by fixing the mounting frame 500 to which the wiring device 10 is attached, for example, to an embedded box. The embedded box here is a box-shaped member with an open front surface, and is installed in the wall such that the front surface is exposed forward through a construction hole formed in the construction surface.

The wiring device 10 includes a housing 1 and a fixture 14, as shown in FIG. The housing 1 includes a body 2 having an opening 20a on the front surface 20, and is attached to the front surface 20 of the body 2 so as to close the opening 20a of the body 2, and has a plug insertion hole (first insertion hole) for connecting a plug (USB plug). ) 320 on the front face 30 thereof. A fixture 14 is secured to the housing 1 for mounting the housing 1 to a mounting frame 500 that is secured to a construction surface. The body 2 and the cover 3 are made of resin. The cover 3 is attached to the body 2 by a snap-fit structure (assembly projections 24, assembly pieces 33). The fixture 14 is made of metal.

In this embodiment, the housing 1 is attached to the mounting frame 500 with metal fittings 14 . Therefore, compared to a resin-made mounting fixture integrally formed with the housing 1, the mounting frame 500 of the mounting fixture 14 can be removed by inserting or removing a plug (a first outer terminal 18 or a second outer terminal 19, which will be described later) into the housing 1, or the like. Even if a load is applied to the contact part with the mounting fixture 14, it is difficult to break. Therefore, it is possible to reduce the possibility of the wiring device 10 falling off from the mounting frame 500 due to the breakage of the mounting device 14 . Further, in the housing 1, the cover 3 is attached to the body 2 by a snap-fit structure (assembly projections 24, assembly pieces 33) independent of the mounting fixture 14. As shown in FIG. Therefore, the cover 3 is maintained attached to the body 2 even without the mounting fixture 14 . Therefore, even if the metal fitting 14 is deformed without being damaged due to insertion or removal of the plug (first outer terminal 18 or second outer terminal 19) into or from the housing 1, the connection between the cover 3 and the body 2 is maintained. be done. In other words, it is possible to reduce the possibility that the body 2 and the cover 3 are separated due to the deformation of the fixture 14 .

Thus, according to the wiring device 10 of the present embodiment, it is possible to reduce the possibility of the fixture 14 coming off from the mounting frame 500 due to breakage of the fixture 14, and further, the separation of the body 2 and the cover 3 due to the deformation of the fixture 14. can reduce the possibility of

(2) Details Hereinafter, the wiring accessories 10 according to the present embodiment will be described in detail. In the following description, unless otherwise specified, the arrows shown in FIGS. 1 to 5 define the up-down, left-right, and front-rear directions of the wiring device 10. As shown in FIG. That is, when the wiring device 10 is attached to the construction surface as viewed from the front, the vertical direction (up-down direction) is the up-down direction, the left-right direction is the left-right direction, and the normal direction of the construction surface is the front-back direction (the front side is the front side). ). However, these directions are not the meaning which prescribe|regulates the usage direction of the wiring accessories 10. FIG. Also, the arrows shown in FIGS. 1 to 5 are merely described for the purpose of assisting the explanation and are not substantial.

As shown in FIGS. 1 and 2, the wiring accessory 10 according to this embodiment includes a first inner terminal 8, a second inner terminal 9, a first substrate 5, a second substrate 6, and a third substrate 7. , a support member 4 , a housing 1 , and a pair of mounting brackets (mounting fixtures) 14 , 14 .

The first inner terminal 8 is, for example, a USB (Universal Serial Bus) socket. The first inner terminal 8 is mounted on the first substrate 5 so that its longitudinal direction (horizontal direction) extends along the longitudinal direction of the first substrate 5, as shown in FIG. In other words, the longitudinal direction of the first inner terminals 8 and the longitudinal direction of the first substrate 5 are the same. The first inner terminal 8 is configured to be connectable with a plug-type first outer terminal 18 . The first outer terminal 18 is here a USB plug provided at the tip of a USB cable (see FIG. 1). The USB socket and USB plug comply with USB standards such as USB 3.0.

The second inner terminal 9 is a terminal metal fitting that is formed in a U shape when viewed from the rear by bending a sheet metal made of, for example, a copper alloy. The second inner terminals 9 are here in pairs. These second inner terminals 9 are mounted on the third substrate 7 with their open sides facing each other.

A corresponding locking spring 11 is accommodated in a space surrounded by the left piece, the lower piece (or the upper piece) and the right piece of each second inner terminal 9 . The locking spring 11 has a support piece 110, a locking piece 111, and a pressing piece 112, as shown in FIG. The support piece 110 has a plate shape elongated in the front-rear direction. The locking piece 111 is plate-shaped and integrally formed at the rear end of the support piece 110 . The lock piece 111 is inclined forward from the rear end of the support piece 110 . The pressing piece 112 has a U-shape when viewed from above and is formed integrally with the front end of the supporting piece 110 .

The second inner terminal 9 is configured to be connectable with the second outer terminal 19 . The second outer terminal 19 is here a core wire of a power supply electric wire electrically connected to an external power supply (for example, a commercial power supply). The second outer terminal 19 is pressed against the left piece of the second inner terminal 9 by the pressing force from the pressing piece 112 of the locking spring 11, whereby the second inner terminal 9 and the second outer terminal 19 are electrically connected. Connected.

The first substrate 5 is a printed wiring board made of glass-epoxy resin, for example. The first substrate 5 has a rectangular shape elongated in the left-right direction. The first substrate 5 has a first surface 51 and a second surface 52 . The first surface 51 is the front surface of the first substrate 5 here, and the first inner terminals 8 are arranged on the first surface 51 . The second surface 52 is the rear surface of the first substrate 5 here, and the electronic component 15 is arranged on the second surface 52 . The electronic component 15 is, for example, a smoothing capacitor. This smoothing capacitor smoothes the DC power from the second substrate 6 and outputs it to the first inner terminal 8 . The electronic component 15 is arranged at the right lower corner of the second surface 52 .

The first substrate 5 has a plurality of (here, three) positioning holes 53 . Each of the plurality of positioning holes 53 penetrates in a rectangular shape in the front-rear direction. Two positioning holes 53 out of the plurality of positioning holes 53 are provided at positions near both ends in the left-right direction on one upper side of the four sides of the first substrate 5 (only one side is shown in FIG. 1). ). The remaining one positioning hole 53 among the plurality of positioning holes 53 is provided at a position near the center in the left-right direction on one lower side of the four sides of the first substrate 5 .

The first substrate 5 is housed in the housing 1 with its normal direction (thickness direction) along the front-rear direction. In other words, the normal direction of the first substrate 5 is the direction in which the first outer terminals 18 are inserted into the first inner terminals 8 . Here, in this embodiment, the insertion direction of the first outer terminal 18 into the first inner terminal 8 is the front-rear direction.

The second substrate 6 is, like the first substrate 5, a printed wiring board made of glass-epoxy resin, for example. The second substrate 6 has a rectangular main portion 61 that is elongated in the front-rear direction and a rectangular protruding portion 62 that protrudes leftward from the front and left corner of the main portion 61, and is L-shaped when viewed from above and below. is formed in A plurality of electronic components 16 are arranged on one surface (lower surface) of the second substrate 6 (main portion 61 and protruding portion 62). The plurality of electronic components 16 constitute, for example, an AC-DC converter that converts AC power supplied from an external power source through the electric wire into DC power of a predetermined voltage. Therefore, the plurality of electronic components 16 include transformers, electrolytic capacitors, resistors, inductors, and the like.

A terminal portion 17 having a plurality of (here, three) connection pins is mounted on the main portion 61 of the second substrate 6 . The second substrate 6 is electrically connected to the first substrate 5 by inserting a plurality of connection pins into a plurality (three in this case) of through holes formed in the first substrate 5 and connecting them with solder. be done. In other words, the second substrate 6 outputs the DC power generated by the AC-DC converter to the first substrate 5 via the terminal section 17 . The second substrate 6 is accommodated in the housing 1 so that its normal direction (thickness direction) intersects the front-rear direction. In other words, the normal direction of the second substrate 6 is a direction intersecting with the insertion direction.

The second substrate 6 is stored together with the yoke 13 and the heat dissipation sheet 133 in the second storage portion 21 of the body 2 which will be described later. The yoke 13 forms a magnetic circuit together with a transformer 161 that is one of the electronic components 16 mounted on the second substrate 6 . The yoke 13 is formed, for example, by bending a metal plate to have a U shape when viewed from above. The yoke 13 has a plate-like rear piece 130 extending in the left-right direction, a right piece 131 projecting forward from the right end of the rear piece 130, and a left piece 132 projecting forward from the left end of the rear piece 130. ing. The yoke 13 is arranged so as to cover the right side, the rear side, and the left side of the transformer mounted on the second board 6 in the state of being housed in the second housing portion 21 . A heat radiation sheet 133 is arranged between the transformer 161 and the rear piece 130 of the yoke 13 . In this case, the yoke 13 functions as a heat sink. The heat dissipation sheet 133 is made of a material with a low elastic modulus (for example, a material with a lower elastic modulus than the material of the yoke 13). For example, the heat-dissipating sheet 133 may be a sheet-like heat-conducting gel. The thickness of the heat dissipation sheet 133 is set larger than the design gap between the transformer 161 and the rear piece 130 of the yoke 13 . This makes it easier for the heat dissipation sheet 133 to adhere to both the transformer 161 and the rear piece 130 even if the gap changes. Therefore, the possibility that the heat from the transformer 161 can be transferred to the yoke 13 is increased, and heat dissipation is improved.

The third substrate 7 is, like the first substrate 5, a printed wiring board made of glass-epoxy resin, for example. The third substrate 7 has a rectangular shape elongated in the vertical direction. Two second inner terminals 9 are arranged vertically on one surface (rear surface) of the third substrate 7 . The third board 7 is electrically connected to the second board 6 via lead wires, for example, and outputs AC power supplied from the external power supply to the second board 6 via the wires.

As shown in FIG. 1, the housing 1 includes a box-shaped body 2 having an opening 20a on one surface (front surface) 20, and a cover 3 attached to the front surface 20 of the body 2 so as to cover the opening 20a of the body 2. include. The body 2 and the cover 3 are made of resin. Here, the cover 3 is made of a material having a lower elastic modulus than the material of the body 2 . A material for the cover 3 is ABS (acrylonitrile butadiene styrene) resin (for example, PCABS). Materials for the body 2 include flame-retardant resins (for example, melamine resin and urea resin).

The body 2, as shown in FIGS. 3A to 3C, has a rectangular parallelepiped shape elongated in the left-right direction. The body 2 has a second storage portion 21 that stores the second substrate 6 and a third storage portion 22 that stores the third substrate 7 . In other words, the internal space of the body 2 is divided into the second storage section 21 and the third storage section 22 by the vertical wall 23 projecting forward from the bottom wall of the body 2 . That is, the space inside the body 2 on the right side of the vertical wall 23 is the second storage section 21 , and the space on the left side of the vertical wall 23 is the third storage section 22 . Here, the second storage portion 21 and the third storage portion 22 have different outer dimensions (height dimensions) along the front-rear direction. In this embodiment, the height dimension of the third storage portion 22 is smaller than the height dimension of the second storage portion 21 (see FIG. 3A).

The second storage portion 21 has a pair of holding grooves 210 , a first support portion 211 , a second support portion 212 , a third support portion 213 and a fourth support portion 214 .

Each of the pair of holding grooves 210 has a U-shape when viewed from the front-rear direction, and is formed along the front-rear direction. A pair of holding grooves 210 are provided on the left side wall and the right side wall of the second storage portion 21, respectively. A pair of holding grooves 210 are provided at upper positions of the second storage portion 21 . By inserting both ends of the second substrate 6 in the left-right direction into the pair of holding grooves 210 , the second substrate 6 is accommodated in the second storage portion 21 and held by the body 2 . In other words, the second substrate 6 is held by the body 2 by inserting both ends in a direction that intersects the insertion direction and the normal direction of the second substrate 6 into the pair of holding grooves 210 . be.

The first support portion 211 is provided at the right lower corner portion of the second storage portion 21 . The first support portion 211 protrudes forward from the bottom wall of the body 2 . The surface (front surface) of the first support portion 211 is positioned rearward of the front end surface of the body 2 in the front-rear direction. A protrusion 2110 protruding forward is integrally formed at a position near the center of the front surface of the first support portion 211 .

The second support portion 212 is provided at the right and upper corner of the second storage portion 21 . In other words, the second support portion 212 is provided above the right holding groove 210 of the pair of holding grooves 210 . The second support portion 212 protrudes forward from the bottom wall of the body 2 . The surface (front surface) of the second support portion 212 is positioned rearward of the front end surface of the body 2 in the front-rear direction. In other words, the front surface of the second support portion 212 is at the same position as the front surface of the first support portion 211 in the front-rear direction.

The third support portion 213 is provided on the left side of the second support portion 212 . The third support portion 213 protrudes forward from the bottom wall of the body 2 . The surface (front surface) of the third support portion 213 is positioned rearward of the front end surface of the body 2 in the front-rear direction. In other words, the front surface of the third support portion 213 is at the same position as the front surfaces of the first support portion 211 and the second support portion 212 in the front-rear direction.

The fourth support portion 214 is provided at the left upper corner portion of the second storage portion 21 . The fourth support portion 214 protrudes forward from the bottom wall of the body 2 . The surface (front surface) of the fourth support portion 214 is positioned rearward of the front end surface of the body 2 in the front-rear direction. In other words, the front surface of the fourth support portion 214 is at the same position as the front surfaces of the first support portion 211, the second support portion 212, and the third support portion 213 in the front-rear direction. Here, in this embodiment, the first support portion 211, the second support portion 212, the third support portion 213, and the fourth support portion 214 constitute a support portion that supports the support member 4, which will be described later.

The vertical wall 23 separating the second storage section 21 and the third storage section 22 has two protrusions 231 . The two protrusions 231 protrude forward from both ends of the vertical wall 23 in the vertical direction.

The third storage portion 22 has two terminal storage portions 220 and a button storage portion 221 . The two terminal housings 220 are arranged side by side in the vertical direction with a predetermined space therebetween. The button housing portion 221 is provided between the two terminal housing portions 220 in the vertical direction.

In each of the two terminal housings 220, one of the two second inner terminals 9 (including the corresponding locking springs 11) mounted on the third board 7 is housed. With the two second inner terminals 9 housed in the two terminal housings 220 , the third board 7 is placed on the front end surface of the third housing 22 . Second insertion holes 2200 penetrating in the front-rear direction are provided at positions corresponding to the two terminal storage portions 220 on the bottom wall of the body 2 . By inserting the second outer terminal 19 into the second insertion hole 2200 , the second outer terminal 19 is electrically connected to the second inner terminal 9 . At this time, the second outer terminal 19 is inserted between the second inner terminal 9 and the corresponding locking spring 11 , and the pressing force from the pressing piece 112 of the locking spring 11 pushes the left side of the second inner terminal 9 upward. come into contact with Further, the second outer terminal 19 is retained by the locking piece 111 of the corresponding locking spring 11 . Thus, the body 2 has a second insertion hole (wire insertion hole) 2200 for connecting the wire (second outer terminal 19) on the rear surface.

The release button 12 (see FIG. 1) is housed in the button housing portion 221 . The release button 12 is a button for releasing the locked state of the second outer terminal 19 by the locking spring 11 . The release button 12 is made of PBT resin, for example. The release button 12 has an operation piece 120 and two action pieces 121 . The operating piece 120 has a rectangular parallelepiped shape elongated in the front-rear direction. The two action pieces 121 are integrally formed on both sides of the operation piece 120 in the vertical direction. A release hole 2210 penetrating in the front-rear direction is provided at a position corresponding to the button housing portion 221 on the bottom wall of the body 2 . The release hole 2210 is a vertically elongated hole.

The release button 12 is movable in the front-rear direction between the first position and the second position when stored in the button storage portion 221 . When the release button 12 is at the first position, the second outer terminal 19 is retained by the locking piece 111 of the locking spring 11 . When the release button 12 is at the second position, the action piece 121 of the release button 12 moves the locking piece 111 away from the second outer terminal 19, and the second outer terminal 19 is released. That is, the second outer terminal 19 can be pulled out by moving the release button 12 to the second position. When moving the release button 12 to the second position, inserting a release jig (for example, a flathead screwdriver) into the release hole 2210 moves the release button 12 to the second position. When the release button 12 is moved to the first position, the release button 12 is moved to the first position by the elastic force of the lock piece 111 of the lock spring 11 by removing the release jig from the release hole 2210 . Move to

The body 2 has a plurality (here, four) of assembly projections 24 . Two assembly protrusions 24 out of the plurality of assembly protrusions 24 are provided on the upper wall of the body 2 . These two assembly projections 24 are arranged in the left-right direction on the upper wall with a predetermined space therebetween. The remaining two assembly protrusions 24 among the plurality of assembly protrusions 24 are provided on the lower wall of the body 2 . These two assembly projections 24 are arranged in the horizontal direction on the lower wall with a predetermined space therebetween. These four assembling projections 24 are fitted into four assembling holes 330 provided in the cover 3, which will be described later, so that the body 2 and the cover 3 are joined together, and the housing 1 is assembled.

Also, the body 2 has two ridges 25 . One of the two protrusions 25 protrudes forward from the front end of the left side wall of the body 2 . The other of the two protrusions 25 protrudes forward from the front end of the right side wall of the body 2 . These ridges 25 are formed to have a predetermined length along the vertical direction.

As shown in FIGS. 4A to 4C, the cover 3 has a rectangular parallelepiped shape elongated in the left-right direction. The cover 3 has a cover main body 31 , a projecting base portion 32 and two assembly pieces 33 . In the cover 3 , the front surface 31 a of the cover main body 31 and the front surface 32 a of the projecting base portion 32 constitute the front surface 30 of the cover 3 .

The cover main body 31 has a rectangular parallelepiped shape with an open rear surface (a surface facing the body 2). The cover main body 31 has a plurality (here, four) of deformation portions 310 , insertion portions 311 and 312 , four attachment grooves 313 , and two insertion grooves 314 .

A plurality of deformation portions 310 are provided near the four corners of the front wall of the cover body 31 (see FIG. 4C). Each of the plurality of deformation portions 310 has a conical shape and protrudes rearward from the rear surface of the front wall of the cover body 31 . These deformable portions 310 are plastically deformed by coming into contact with the first surface 51 of the first substrate 5 in the assembled state of the wiring device 10 . In other words, the distal end portions of the plurality of deformation portions 310 are crushed by contacting the first surface 51 of the first substrate 5 .

The insertion portion 311 is provided near the corner on the left and lower side of the cover body 31 . The insertion portion 311 protrudes rearward from the rear surface of the front wall of the cover body 31 . The insertion portion 311 is positioned rearward of the rear end surface of the cover body 31 in the front-rear direction. In other words, the insertion portion 311 protrudes rearward from the rear end surface of the cover main body 31 .

The insertion portion 312 is provided near the left upper corner of the cover body 31 . The insertion portion 312 protrudes rearward from the rear surface of the front wall of the cover body 31 . The insertion portion 312 is positioned rearward of the rear end surface of the cover body 31 in the front-rear direction. In other words, the insertion portion 312 protrudes rearward from the rear end surface of the cover main body 31 . These insertion portions 311 and 312 are inserted into the body 2 with the cover 3 attached to the body 2 .

Each of the four mounting grooves 313 has a small width portion 3130 and a large width portion 3131 . The width dimension (horizontal dimension) of the narrow portion 3130 is slightly larger than the width dimension of the arm piece 141 of the mounting bracket 14, which will be described later. The width dimension of the large width portion 3131 is larger than the width dimension of the small width portion 3130 . The large width portion 3131 is located behind the small width portion 3130 in the front-rear direction.

Two of the four mounting grooves 313 are provided on the upper wall of the cover body 31 . These two mounting grooves 313 are provided at positions near both ends in the left-right direction of the upper wall. The remaining two mounting grooves 313 of the four mounting grooves 313 are provided on the lower wall of the cover main body 31 . These two mounting grooves 313 are provided at positions near both ends in the left-right direction of the lower wall. In this embodiment, the mounting groove 313 positioned on the right side of the upper wall and the mounting groove 313 positioned on the right side of the lower wall form a set of mounting grooves, and the mounting groove 313 positioned on the left side of the upper wall and the lower wall. and the mounting groove 313 located on the left side of the mounting groove form a set of mounting grooves. One mounting bracket 14 is attached to each set of mounting grooves.

Here, the wiring device 10 according to this embodiment is attached to the mounting frame 500 with two mounting brackets 14 .

The mounting frame 500 has a rectangular frame shape with a rectangular window hole 510, as shown in FIG. At both ends of the mounting frame 500 in the longitudinal direction of the window hole 510, there is one box hole 520 for inserting a box screw that is in the shape of a rounded rectangle and is screwed into an embedded box embedded in the construction surface. are provided individually. Holding pieces 530 project rearward from both edges of the window hole 510 in the short direction, and each holding piece 530 is provided with three pairs of hook holes 540 arranged along the longitudinal direction. It is

As shown in FIG. 1, each of the two mounting brackets 14 has a U-shape when viewed from the left-right direction. Each mounting bracket 14 has a main piece 140 and two arm pieces 141 . The main piece 140 is L-shaped when viewed in the vertical direction, and is formed along the vertical direction. Two hooking claws 1400 projecting leftward (or rightward) are integrally formed on the left edge (or right edge) of the main piece 140 . The two hooking claws 1400 are provided at positions near both ends of the main piece 140 in the vertical direction. The wiring device 10 is attached to the mounting frame 500 by hooking the hooking claws 1400 on the two hooking holes provided in the mounting frame 500 .

Two arm pieces 141 are integrally formed at both ends of the main piece 140 in the vertical direction. Each of the two arm pieces 141 has a plate shape extending in the front-rear direction. Two bent pieces 1410 bifurcated in the left-right direction are integrally formed at the tip (rear end) of each arm piece 141 .

One of the two mounting brackets 14 (right side in FIG. 1) is attached to the right side of the cover body 31 . At this time, the arm piece 141 on one side (lower side in FIG. 1) of the mounting bracket 14 is arranged in the mounting groove 313 on the right side of the lower wall of the cover body 31, and the arm piece 141 on the other side (upper side in FIG. 1) 141 is arranged in the mounting groove 313 on the right side of the upper wall of the cover body 31 . The mounting bracket 14 is attached to the cover 3 by bending the two bent pieces 1410 of each arm piece 141 in directions away from each other. The other mounting bracket 14 (on the left side in FIG. 1) is also attached to the cover 3 by the same procedure.

In this way, the fixture 14 has hooking claws 1400 hooked on the hooking holes 540 of the mounting frame 500 . Therefore, the wiring device 10 can be easily attached to the attachment frame 500 by the attachment tool 14 . The fixture 14 is arranged on the front surface 30 of the cover 3 (the front surface 31a of the cover main body 31) and includes a main piece 140 attached to the mounting frame 500, and a main piece 140 extending rearward from both ends of the main piece 140 to extend rearward from the front portion of the cover 3. and a pair of arm pieces 141 sandwiching 3a. The fixture 14 is fixed to the cover 3 by sandwiching the front portion 3a of the cover 3 between the main piece 140 and the rear ends (bent pieces 1410) of the pair of arm pieces 141. As shown in FIG. Thus, the fixture 14 is secured to the housing 1 for mounting the housing 1 to the mounting frame 500 . Therefore, the fixture 14 can be easily fixed to the cover 3 .

In particular, the fixture 14 is secured to the front portion of the housing 1, the cover 3. As shown in FIG. That is, since the fixture 14 does not contribute to the connection between the cover 3 and the body 2, the possibility of the body 2 and the cover 3 being separated due to the deformation of the fixture 14 can be further reduced.

Here, as shown in FIG. 8, the front portion 3a of the cover 3 is located between the main piece 140 of the fixture 14 and the rear ends (bent pieces 1410) of the pair of arm pieces 141 in the front-rear direction of the cover 3. It is the part that is located. In the present embodiment, the front portion 3a is a portion of the cover body 31 where the narrow portion 3130 is formed. A rear portion 3b of the cover 3 is located between the rear surface of the cover 3 and the front portion 3a in the front-rear direction of the cover 3. As shown in FIG. In the present embodiment, the rear portion 3b is a portion of the cover body 31 where the large portion 3131 is formed. That is, the rear portion 3b of the cover 3 is not sandwiched between the pair of arm pieces 141 of the fixture 14. As shown in FIG. Here, the longer the dimension L10 of the front portion 3a in the front-rear direction, the smaller the moment applied to the rear end (bent piece 1410) of the arm piece 141 with the main piece 140 as the center. On the other hand, the longer the dimension L20 of the rear portion 3b in the front-rear direction, the easier it is for the cover 3 to bend at the rear portion 3b. As a result, the moment applied to the rear end (bent piece 1410) of the arm piece 141 with the main piece 140 as the center can be reduced. When the moment applied to the rear end (bent piece 1410) of the arm piece 141 around the main piece 140 is reduced, the load applied to the contact portion (hook claw 1400) of the attachment 14 with the mounting frame 500 tends to be reduced. Considering these points, as an example, it is preferable that the front-rear dimension L10 of the front portion 3a is 1/2 or more of the front-rear dimension L20 of the rear portion 3b. On the other hand, the longitudinal dimension L20 of the rear portion 3b is preferably at least half the longitudinal dimension L10 of the front portion 3a. Here, the longitudinal dimension of the fixture 14 is substantially equal to the longitudinal dimension L10 of the front portion 3a. The dimension of the housing 1 in the front-rear direction is preferably at least twice the dimension in the front-rear direction of the fixture 14 (the dimension L10 in the front-rear direction of the front portion 3a). In this case, the influence of the load applied to the housing 1 on the contact portion (hooking claw 1400) of the mounting fixture 14 with the mounting frame 500 can be reduced. In particular, in the housing 1, the longitudinal dimension L30 between the front surface 31a of the cover body 31 and the rear surface of the body 2 is twice the longitudinal dimension of the fixture 14 (the longitudinal dimension L10 of the front portion 3a). It is preferable that it is above.

The two insertion grooves 314 are provided in the rear end portions of the left side wall and the right side wall of the cover body 31, respectively. The two insertion grooves 314 are formed with a predetermined length along the vertical direction. When the wiring device 10 is assembled, the two protrusions 25 are inserted into the two insertion grooves 314, respectively.

The projecting base portion 32 has a rectangular parallelepiped shape elongated in the left-right direction, and protrudes forward from the front wall of the cover main body 31 . A front wall 300 of the projecting base portion 32 is provided with a first insertion hole (insertion hole) 320 penetrating in the front-rear direction. The first insertion hole 320 is provided at a position including the center of the facing surface 300a (see FIG. 4C) that is the rear surface of the front wall 300 of the projecting base portion 32. As shown in FIG. The first insertion hole 320 has a rectangular shape elongated in the left-right direction. In other words, the longitudinal direction of the first insertion hole 320 is the direction along the longitudinal direction of the front wall 300 of the projecting base portion 32 . The first inner terminal 8 mounted on the first substrate 5 is accommodated in the housing 1 with its longitudinal direction along the longitudinal direction (horizontal direction) of the housing 1 .

The internal space of the cover main body 31 and the internal space of the protruded base portion 32 are connected, and here, the first storage portion 34 is configured by the two internal spaces. Therefore, the first substrate 5 (including the first inner terminal 8) is accommodated in the first accommodating portion 34 when the wiring device 10 is assembled.

Assembly pieces 33 projecting rearward are integrally formed on the upper and lower side walls of the cover body 31 respectively. These assembly pieces 33 have a rectangular shape when viewed from above and below. The thickness of the assembly piece 33 is set so as to have elasticity in the thickness direction (vertical direction). Each assembly piece 33 is provided with two assembly holes 330 arranged in the left-right direction at a predetermined interval. When the cover 3 is attached to the body 2, the two assembly projections 24 provided on the upper wall of the body 2 are fitted into the two assembly holes 330 of the upper assembly piece 33 of the cover 3, respectively. When the cover 3 is attached to the body 2, the two assembly projections 24 provided on the lower wall of the body 2 are fitted into the two assembly holes 330 of the assembly piece 33 on the lower side of the cover 3. Get stuck. As a result, the body 2 and the cover 3 are joined together, and the housing 1 is assembled.

In this way, in the housing 1, the assembly projections 24 of the body 2 and the assembly pieces 33 of the cover 3 form a snap-fit structure that joins the body 2 and the cover 3 together. In other words, the snap-fit structure is composed of a first coupling portion (assembly projection 24) formed on the side surface of the body 2 and a second coupling portion (assembly piece 33). The second coupling portion (assembly piece 33 ) protrudes rearward from the cover 3 so as to face the side surface of the body 2 and is mechanically coupled to the first coupling portion (assembly projection 24 ) of the body 2 . In this embodiment, the cover 3 is made of a material having a lower elastic modulus than the material of the body 2 . Therefore, when attaching the cover 3 to the body 2 with the snap-fit structure, the possibility of the cover 3 being damaged can be reduced. In particular, since the second connecting portion 33 is provided on the cover 3 whose material has a lower elastic modulus than the body 2 , the second connecting portion 33 is more easily deformed than when provided on the body 2 . Therefore, the snap-fit structure makes it easier to attach the cover 3 to the body 2 . Moreover, it is easy to suppress the breakage of the second coupling portion 33 .

The support member 4 is made of PBT resin, for example. As shown in FIGS. 5A to 5C, 6A and 6B, the support member 4 has a rectangular parallelepiped shape with one side (rear side) open and elongated in the left-right direction. The support member 4 has a support portion 41 , a lower wall portion 42 , an upper wall portion 43 , a left wall portion 44 and a right wall portion 45 . Here, in the present embodiment, the lower wall portion 42 , the upper wall portion 43 , the left wall portion 44 and the right wall portion 45 constitute the side wall portions.

The support portion 41 has a rectangular plate shape elongated in the left-right direction, and has a mounting surface (front surface) 400 on which the first substrate 5 is mounted. The mounting surface 400 intersects with the insertion direction. The support portion 41 also has an opening hole 410 , a component insertion hole 411 , a plurality of (here, three) positioning protrusions 412 , and a plurality (here, three) of holding ribs 413 .

The opening hole 410 has a rectangular shape elongated in the left-right direction, and penetrates in the front-rear direction near the center of the support portion 41 . The component insertion hole 411 has a rectangular shape elongated in the vertical direction, and penetrates the right side of the opening hole 410 in the support portion 41 in the front-rear direction.

Two positioning protrusions 412 out of the plurality of positioning protrusions 412 protrude forward from the upper edge of the support portion 41 . These two positioning protrusions 412 are provided at positions near both ends in the left-right direction. The remaining one positioning protrusion 412 among the plurality of positioning protrusions 412 protrudes forward from the lower edge of the support portion 41 . This positioning projection 412 is provided at a position near the center in the left-right direction.

Here, the fixing structure 200 for fixing the first substrate 5 to the support member 4 is formed by the plurality of positioning projections 412 provided on the support member 4 and the plurality of positioning holes 53 provided on the first substrate 5. It is configured. In the present embodiment, as shown in FIG. 5B, the plurality of positioning projections 412 are aligned with the plane 100 passing through the center point P1 of the support portion 41, and the first outer terminal 18 is inserted into the first inner terminal 8. It is asymmetric with respect to the plane 100 along the direction. Therefore, the first substrate 5 is placed on the mounting surface 400 of the support portion 41 only in a state in which the direction of the first substrate 5 is aligned so that the two positioning protrusions 412 and the two positioning holes 53 correspond to each other. be able to. That is, when the first substrate 5 is rotated by 180 degrees around the center point P1 of the support portion 41, the first substrate 5 cannot be placed on the support portion 41, and the mounting error of the first substrate 5 occurs. can be suppressed.

Also, the vertical and horizontal dimensions of the positioning hole 53 are slightly smaller than the vertical and horizontal dimensions of the positioning projection 412 . Therefore, in a state in which the three positioning projections 412 are inserted into the three positioning holes 53 respectively, not only can the first substrate 5 be positioned with respect to the support portion 41 , but also the first substrate 5 can be positioned with respect to the support portion 41 . 5 can be firmly attached.

Further, in a state where the first substrate 5 is attached (supported) to the support portion 41 , the electronic component 15 mounted on the first substrate 5 is passed through the component insertion hole 411 of the support portion 41 . Furthermore, in a state where the first substrate 5 is supported by the support portion 41 , the connection pins of the first inner terminals 8 exposed on the second surface 52 side of the first substrate 5 and connected to the first substrate 5 are located in the openings of the support portion 41 . It is passed through the hole 410 .

A plurality of pressing ribs 413 protrude rearward from the rear surface of the support portion 41 (the surface opposite to the mounting surface 400). A plurality of pressing ribs 413 are provided along the left-right direction at the upper edge of the opening hole 410 . The plurality of pressing ribs 413 contact the front end surface of the second substrate 6 in the assembled state of the wiring device 10 and exert a rearward force on the second substrate 6 .

The lower wall portion 42 protrudes rearward (the side opposite to the first substrate 5 ) from one side (lower side) of the four sides of the mounting surface 400 of the support portion 41 . The lower wall portion 42 has a plurality of (here, three) pressing portions 420 and 421 , grooves 422 , and through holes 423 . The through hole 423 penetrates vertically at a position facing the electronic component 16 mounted on the second substrate 6 . A plurality of pressing portions 420 and 421 protrude rearward from the rear end portion of the lower wall portion 42 . Two pressing portions 420 out of the plurality of pressing portions 420 and 421 are provided on the right side of the through hole 423 . The remaining pressing portion 421 of the plurality of pressing portions 420 and 421 is provided on the left side of the through hole 423 . The groove 422 is provided between two pressing portions 420 aligned in the left-right direction.

The upper wall portion 43 protrudes rearward (the side opposite to the first substrate 5 ) from one side (upper side) of the four sides of the mounting surface 400 of the support portion 41 . The upper wall portion 43 has a plurality of (here, three) pressing portions 430 and 431 and a groove 432 . A plurality of pressing portions 430 and 431 protrude rearward from the rear end portion of the upper wall portion 43 . One pressing portion 430 of the plurality of pressing portions 430 and 431 is provided at a position near the right end of the upper wall portion 43 . The remaining two pressing portions 430 and 431 of the plurality of pressing portions 430 and 431 are provided at positions near the center of the upper wall portion 43 in the left-right direction. The groove 432 is provided between the two pressing portions 430 and 431 aligned in the left-right direction.

The left side wall portion 44 protrudes rearward (the side opposite to the first substrate 5 ) from one side (left side) of the four sides of the mounting surface 400 of the support portion 41 . The left side wall portion 44 has a plurality of (here, two) pressing portions 440 , vertical grooves 441 , and insertion grooves 442 . A plurality of pressing portions 440 protrude rearward from the rear end portion of the left side wall portion 44 . A plurality of pressing portions 440 are provided at both ends of the left side wall portion 44 in the vertical direction. The vertical groove 441 has an arcuate shape when viewed in the front-rear direction, and is formed along the front-rear direction on the surface (left surface) of the left side wall portion 44 . The insertion groove 442 has a U-shape when viewed from the front-rear direction, and is formed along the front-rear direction. The insertion groove 442 is provided below the upper holding portion 440 . The left end of the second substrate 6 is inserted into this insertion groove 442 .

The right side wall portion 45 protrudes rearward (the side opposite to the first substrate 5 ) from one side (right side) of the four sides of the mounting surface 400 of the support portion 41 . The right side wall portion 45 has a pressing portion 450 , an insertion groove 451 and an escape groove 452 . The pressing portion 450 protrudes rearward from the rear end portion of the right side wall portion 45 . The pressing portion 450 is provided at the upper end portion of the right side wall portion 45 . The insertion groove 451 has a U-shape when viewed from the front-rear direction, and is formed along the front-rear direction. The insertion groove 451 is provided below the pressing portion 450 . The right end of the second substrate 6 is inserted into this insertion groove 451 . The escape groove 452 is formed so as to be continuous with the insertion groove 451 . A portion of the second substrate 6 enters the escape groove 452 in the assembled state of the wiring device 10 .

(3) Method for Assembling Wiring Device Next, a method for assembling the wiring device 10 according to the present embodiment will be described.

After storing the release button 12 in the button storage portion 221 of the third storage portion 22, the operator stores the second substrate 6 in the second storage portion 21 of the body 2 and the third substrate 7 in the third storage. Stored in section 22 . At this time, both lateral end portions of the main portion 61 of the second substrate 6 are inserted into the pair of holding grooves 210 respectively. At this time, the two second inner terminals 9 (including the corresponding locking springs 11) mounted on the third substrate 7 are accommodated in the two terminal accommodating portions 220 of the third accommodating portion 22, respectively. be. The third substrate 7 is placed on the front end surface of the third storage portion 22 so that its normal direction extends along the front-rear direction.

Next, the operator places the support member 4 on the body 2 so as to cover the second substrate 6 (see FIG. 7). At this time, the two pressing portions 420 of the supporting member 4 contact the first supporting portion 211 of the body 2 from the front (first substrate 5 side), and the pressing portion 450 contacts the second supporting portion 212 from the front. Also, at this time, one of the two pressing portions 430 contacts the third support portion 213 from the front, and the other contacts the fourth support portion 214 from the front. Further, at this time, the pressing portions 421, 431, and 440 come into contact with the surface (front surface) of the third substrate 7 from the front. Here, in this embodiment, the pressing portions 420, 430, and 450 constitute contact portions.

When the support member 4 is placed on the body 2 , part of the second substrate 6 is in the space surrounded by the support portion 41 , the lower wall portion 42 , the upper wall portion 43 , the left wall portion 44 and the right wall portion 45 . be housed. That is, in the present embodiment, the storage section 46 is configured by a space surrounded by the support section 41 , the lower wall section 42 , the upper wall section 43 , the left wall section 44 and the right wall section 45 . In other words, the storage portion 46 is provided between the support portion 41 and the contact portion in the insertion direction (front-rear direction) of the first outer terminal 18 into the first inner terminal 8 .

Subsequently, the operator fixes the first substrate 5 to the support portion 41 of the support member 4 . At this time, the three positioning projections 412 provided on the support portion 41 are fitted into the three positioning holes 53 provided on the first substrate 5, respectively. At this time, the electronic component 15 arranged on the second surface 52 of the first substrate 5 is passed through the component insertion hole 411 , and the connection pin of the first inner terminal 8 exposed on the second surface 52 side is inserted into the opening hole 410 . Passed. In this state, the second surface 52 of the first substrate 5 and the mounting surface 400 of the support portion 41 are in contact with each other in the front-rear direction.

Finally, the worker attaches the cover 3 to the front surface 20 of the body 2 so as to block the opening 20a of the front surface 20 of the body 2. - 特許庁At this time, the four assembly projections 24 provided on the body 2 are fitted into the four assembly holes 330 provided on the cover 3, respectively. Also, at this time, the insertion portions 311 and 312 provided on the cover 3 are inserted into the body 2 . Further, at this time, the two protrusions 25 provided on the body 2 are inserted into the two insertion grooves 314 provided on the cover 3, respectively.

The wiring accessories 10 are assembled by the above procedure.

(4) Method of Attaching Wiring Apparatus to Mounting Frame Wiring apparatus 10 is attached to mounting frame 500 as shown in FIG. 9 by the following procedure. First, the projecting base portion 32 of the wiring device 10 is inserted into the window hole 510 of the mounting frame 500 from behind. Next, the wiring device 10 is attached to the mounting frame 500 by hooking the two hooking claws 1400 of the pair of fixtures 14 to the two hooking holes 540 provided in the pair of holding pieces 530 of each fixture 14 . be done.

(5) Modifications Embodiments of the present invention are not limited to the above embodiments. The above-described embodiment can be modified in various ways according to design and the like, as long as the object of the present invention can be achieved. Modifications of the above embodiment are listed below.

FIG. 10 shows a wiring accessory 10A of a modified example of the above embodiment. In wiring accessories 10A, housing 1A is constituted by body 2A and cover 3A. Here, the body 2A has a longitudinal dimension longer than that of the body 2 of the above embodiment, and the cover 3A has a longitudinal dimension shorter than that of the cover 3 of the above embodiment. In other words, the housing 1A differs from the housing 1 in the front-rear dimension ratio between the body and the cover.

Due to such a change, the four mounting grooves 313A of the cover 3A do not have large width portions 3131 but only small width portions 3130, unlike the mounting grooves 313. As shown in FIG. The body 2A has four mounting grooves (second mounting grooves) 241 respectively connected to the four mounting grooves 313A of the cover 3A. Each of the four second mounting grooves 241 has a small width portion 2410 and a large width portion 2411 . The width dimension (horizontal dimension) of the narrow portion 2410 is slightly larger than the width dimension of the arm piece 141 of the mounting bracket 14 . The width dimension of the large width portion 2411 is larger than the width dimension of the small width portion 3130 . The large width portion 2411 is positioned behind the small width portion 3130 in the front-rear direction.

Two of the four second mounting grooves 241 are provided on the upper wall of the body 2A. These two second mounting grooves 241 are provided at positions near both ends in the left-right direction of the upper wall. The remaining two second mounting grooves 241 out of the four second mounting grooves 241 are provided in the lower wall of the body 2A. These two second mounting grooves 241 are provided at positions near both ends in the left-right direction of the lower wall.

One of the two mounting brackets 14 (right side in FIG. 10) is mounted on the right side of the housing 1A. At this time, one of the pair of arm pieces 141 of the mounting bracket 14 is arranged in the mounting groove 313 on the right side of the lower wall of the cover body 31 of the cover 3A and the second mounting groove 241 on the right side of the lower wall of the body 2A. . The other of the pair of arm pieces 141 of the mounting bracket 14 is arranged in the mounting groove 313 on the right side of the upper wall of the cover body 31 of the cover 3A and the second mounting groove 241 on the right side of the upper wall of the body 2A. By bending the two bent pieces 1410 of each arm piece 141 in directions away from each other, the mounting bracket 14 is attached to the housing 1A. The other (left side in FIG. 10) of the two mounting brackets 14 is also mounted to the housing 1A by the same procedure. Thus, in the wiring device 10A, the fixture 14 sandwiches the cover 3A and the front part of the body 2A between the main piece 140 and the rear ends (bent pieces 1410) of the pair of arm pieces 141, thereby forming the housing 1A. fixed to In this case, the cover 3A is also attached to the body 2A by means of fittings 14. As shown in FIG.

In addition, the body 2A has a plurality of (here, two) assembly projections 24. As shown in FIG. One of the multiple assembly protrusions 24 is provided on the upper wall of the body 2A and the other is provided on the lower wall of the body 2A. In the cover 3A, similarly to the cover 3, assembly pieces 33 projecting rearward are integrally formed on the upper and lower walls of the cover body 31, respectively. However, each assembly piece 33 is provided with only one assembly hole 330 . When the cover 3A is attached to the body 2A, one assembly projection 24 provided on the upper wall of the body 2A fits into one assembly hole 330 of the upper assembly piece 33 of the cover 3A. Similarly, one assembly projection 24 provided on the lower side wall of the body 2A fits into one assembly hole 330 of the assembly piece 33 on the lower side of the cover 3A. Thereby, the body 2A and the cover 3A are joined to assemble the housing 1A.

Thus, in the housing 1A as well, the assembly projections 24 of the body 2A and the assembly pieces 33 of the cover 3A form a snap-fit structure that couples the body 2A and the cover 3A to each other.

In the wiring device 10A shown in FIG. 10, in addition to the snap-fit structure, the fitting 14 maintains the connection between the cover 3A and the body 2A. In such a wiring device 10A, as in the case of the wiring device 10 of the above-described embodiment, it is possible to reduce the possibility that the wiring device 10A will fall off from the mounting frame 500 due to damage to the mounting device 14, and furthermore, the deformation of the mounting device 14 can be reduced. It is possible to reduce the possibility of separation between the body 2A and the cover 3A due to

In the above-described embodiment, in the snap-fit structure, the first coupling portion (assembly protrusion 24) is fitted into the space (assembly hole 330) of the second coupling portion (assembly piece 33), so that the second coupling portion combined. However, in a snap-fit arrangement, the second coupling portion may be coupled to the first coupling portion by fitting into a cavity in the first coupling portion.

In addition, in the above-described embodiment, the cover 3 is made of a material having a lower elastic modulus than the material of the body 2 . However, the cover 3 does not necessarily have to be made of a material having a lower modulus of elasticity than the material of the body 2 . For example, the body 2 and the cover 3 may be made of PBT (Polybutylene terephthalate) resin.

In the above embodiment, the fixture 14 is fixed to the housing 1 using the bending piece 1410 provided at the rear end of the arm piece 141 . However, the rear end of the arm piece 141 may have a shape other than the bending piece 1410 suitable for various fixings. For example, the rear end of arm piece 141 may be shaped to be fixed to housing 1 by a snap-fit structure.

Also, in the above embodiment, the case where the first inner terminal 8 is a USB socket has been described as an example, but the first inner terminal 8 is not limited to a USB socket. The first inner terminal 8 may be, for example, an HDMI (High-Definition Multimedia Interface) terminal (registered trademark). Also, the first inner terminal 8 may be a VGA (Video Graphics Array) terminal (registered trademark), a LAN (Local Area Network) terminal, or the like.

Further, in the above-described embodiment, the case where the wiring device 10 attached to the mounting frame 500 is attached to a construction surface such as a wall surface of a building has been described as an example, but the wiring device 10 may be attached to a table, a desk, or the like. may In this case, the wiring device 10 can be attached to a table, desk, or the like such that the insertion direction of the first outer terminal 18 into the first inner terminal 8 is along the normal line direction (vertical direction) of the table, desk, or the like. preferable.

(6) Effects As described above, the wiring device (10; 10A) according to the first aspect includes the housing (1; 1A) and the housing (1; 1A), a fixture (14) fixed to said housing (1; 1A). The housing (1; 1A) includes a body (2; 2A) having an opening (20a) on the front surface (20), and the body (2; 2A) so as to block the opening (20a) of the body (2; 2A). with a cover (3; 3A) attached to the front face (20) of the The cover (3; 3A) has a plug insertion hole (320) for connecting a plug (first outer terminal 18) on its front surface (30). The body (2; 2A) and the cover (3; 3A) are made of resin. The cover (3; 3A) is attached to the body (2; 2A) by a snap-fit structure. The fixture (14) is made of metal. According to the first aspect, it is possible to reduce the possibility of the wiring device (10; 10A) falling off from the mounting frame (500) due to breakage of the fixture (14). The possibility of separation between (2; 2A) and the cover (3; 3A) can be reduced.

A wiring device (10) according to the second aspect can be realized by combining with the first aspect. In a second aspect, said fitting (14) is fixed to said cover (3). According to the second aspect, the fitting (14) does not contribute to the coupling between the cover (3) and the body (2), so that deformation of the fitting (14) causes the deformation of the body (2) and the cover (3). ) can be further reduced.

A wiring device (10) according to the third aspect can be realized by combining with the second aspect. In a third aspect, the fixture (14) is arranged on the front surface of the cover (3) and includes a main piece (140) attached to the mounting frame (500) and from both ends of the main piece (140). and a pair of arm pieces (141) extending rearward and sandwiching the front portion (3a) of the cover (3). According to the third aspect, the fixture (14) can be easily fixed to the cover (3).

A wiring device (10) according to the fourth aspect can be realized by combining with the third aspect. In the fourth aspect, the fixture (14) is located between the main piece (140) and the rear ends (bent pieces 1410) of the pair of arm pieces (141). It is fixed to the cover (3) by sandwiching 3a). According to the fourth aspect, the fixture (14) can be easily fixed to the cover (3).

The wiring device (10; 10A) according to the fifth aspect can be realized by combining with any one of the first to fourth aspects. In a fifth aspect, the cover (3; 3A) is made of a material having a lower modulus of elasticity than the material of the body (2; 2A). According to the fifth aspect, when the cover (3; 3A) is attached to the body (2; 2A) with the snap-fit structure, the possibility of the cover (3; 3A) being damaged can be reduced.

A wiring device (10; 10A) according to the sixth aspect can be realized by combining with the fifth aspect. In a sixth aspect, said snap-fit structure consists of a first coupling portion (24) and a second coupling portion (33). The first coupling part (24) is formed on the side surface of the body (2; 2A). The second coupling portion (33) protrudes rearward from the first coupling portion (24) and the cover (3; 3A) so as to face the side surface of the body (2; 2A) and protrudes from the body (2; 2A). 2A) is mechanically coupled with the first coupling portion (24). According to the sixth aspect, the second coupling portion (33) is more easily deformed than when provided on the body (2; 2A). Therefore, the snap-fit structure makes it easier to attach the cover (3; 3A) to the body (2; 2A). Moreover, it is easy to suppress breakage of the second coupling portion (33).

A wiring device (10; 10A) according to the seventh aspect can be realized by combining with any one of the first to sixth aspects. In a seventh aspect, the fixture (14) has a hooking claw (1400) hooked to a hooking hole (540) of the mounting frame (500). According to the seventh aspect, the wiring device (10; 10A) can be easily attached to the mounting frame (500).

The wiring device (10; 10A) according to the eighth aspect can be realized by combining with any one of the first to seventh aspects. In the eighth aspect, the body (2; 2A) has a wire insertion hole (second insertion hole 2200) for connecting a wire (second outer terminal 19) on the rear surface. According to the eighth aspect, an electric wire can be connected.

The wiring device (10; 10A) according to the ninth aspect can be realized by combining with any one of the first to eighth aspects. In a ninth aspect, the longitudinal dimension of the housing (1; 1A) is at least twice the longitudinal dimension of the fixture (14). According to the ninth aspect, it is possible to reduce the influence of the load applied to the housing (1; 1A) on the contact portion of the fixture (14) with the mounting frame (500).

A wiring device (10; 10A) according to the tenth aspect can be realized by combining with any one of the first to ninth aspects. In the tenth aspect, the wiring device (10; 10A) is housed in the housing (1; 1A) and is a USB socket to which a USB plug (first outer terminal 18) is connected through the plug insertion hole (320). (first inner terminal 8). According to the tenth aspect, a USB plug can be connected.

REFERENCE SIGNS LIST 10 wiring device 1 housing 14 fixture 140 main piece 1400 hooking claw 141 arm piece 1410 rear end (bending piece)
18 plug (first outer terminal)
19 electric wire (second outer terminal)
2 body 20 front surface 20a opening 2200 wire insertion hole (second insertion hole)
24 first coupling part (assembly protrusion)
3 cover 3a front portion 30 front surface 320 plug insertion hole (first insertion hole)
33 Second joint (assembly piece)
8 USB socket (first inner terminal)
500 Mounting frame 540 Hook hole

Claims (13)

a substrate;
an electronic component arranged on the substrate;
a heat sink;
a heat radiating member disposed between the electronic component and the heat radiating plate for transmitting heat from the electronic component to the heat radiating plate;
a first inner terminal configured to be connectable with a plug-type first outer terminal;
another substrate on which the first inner terminal is mounted;
a housing that houses the electronic component, the heat sink, and the heat sink;
Wiring device. a substrate;
an electronic component arranged on the substrate;
a heat sink;
a material disposed between the electronic component and the heat sink and having a lower elastic modulus than the material of the heat sink;
a first inner terminal configured to be connectable with a plug-type first outer terminal;
another substrate on which the first inner terminal is mounted;
a housing that houses the electronic component, the heat sink, and the material with a low elastic modulus;
Wiring device. a substrate;
an electronic component arranged on the substrate;
a heat sink;
a heat dissipation sheet disposed between the electronic component and the heat dissipation plate;
a housing that accommodates the electronic component, the heat dissipation plate, and the heat dissipation sheet;
Wiring device. wherein the substrate is a printed wiring board;
The wiring device according to any one of claims 1 to 3. The housing is made of resin,
The wiring device according to any one of claims 1 to 4. The heat sink is a metal plate,
The wiring device according to any one of claims 1 to 5. The heat sink is
a first strip along one direction;
and a second piece projecting in the other direction from one end of the first piece in the one direction,
The wiring device according to any one of claims 1 to 6. wherein the electronic component is a transformer;
The wiring device according to any one of claims 1 to 7. The electronic component constitutes a part of an AC-DC converter that converts AC power supplied from an external power supply into DC power,
The wiring device according to any one of claims 1 to 8. a first inner terminal configured to be connectable with a plug-type first outer terminal;
and another substrate on which the first inner terminal is mounted,
The wiring device according to claim 3 . Another electronic component is arranged on the other substrate,
The other electronic component smoothes DC power,
The wiring device according to any one of claims 1 , 2, and 10. The wiring device according to any one of claims 1 to 11,
can be attached to the construction surface,
Wiring device. The wiring device according to any one of claims 1 to 12,
is embedded,
Wiring device.

Images