JP2020205346A - Housing, electrical equipment including the same, and electric power conversion system - Google Patents

Abstract

To provide a housing capable of enhancing the electrical insulation between a circuit board and surrounding metal parts, a piece of electrical equipment including the same, and an electric power conversion system.SOLUTION: The housing is a housing for electrical equipment accommodating circuit components 110 of an electric circuit therein. The housing includes: a metal body 2 for accommodating a plurality of circuit components 110 therein; and a resin holder 60. The plurality of circuit components 110 includes a circuit board 115. The circuit board 115 has at least one of a reception unit that receives a direct operation from outside of the body 2 and a display unit visible and recognizable out of the body 2. The holder 60 holds a circuit board 115, and the circuit board 115 is attached to the body 2 via a holder 60.SELECTED DRAWING: Figure 6

Description

The present disclosure relates to a housing, an electric device including the housing, and a power conversion device. More specifically, the present disclosure relates to a housing that houses a circuit component, an electrical device that includes the housing, and a power conversion device.

Patent Document 1 discloses a power conversion device in which an electrical component (circuit component) that converts DC power into AC power is housed inside a metal housing. The power converter includes a power converter having a setting unit, a display unit, and the like as electrical components.

Japanese Unexamined Patent Publication No. 2016-152766

In the above-mentioned power conversion device, a circuit in which a setting unit and a display unit that may be touched by a user from the outside of the housing are mounted when the setting unit can be operated from the outside of the housing or the display unit can be visually observed. It is required to improve the electrical insulation between the substrate and the metal parts around it.

An object of the present disclosure is to provide a housing capable of enhancing electrical insulation between a circuit board and surrounding metal parts, an electric device including the housing, and a power conversion device.

The housing of one aspect of the present disclosure is a housing for an electric device that internally accommodates a plurality of circuit components constituting an electric circuit. The housing includes a metal body for accommodating the plurality of circuit components and a resin holder. The plurality of circuit components include a circuit board. The circuit board has at least one of a reception unit that receives a direct operation from the outside of the main body and a display unit that can be seen from the outside of the main body. The holder holds the circuit board, and the circuit board is attached to the main body via the holder.

The electrical device of one aspect of the present disclosure includes the housing and the plurality of circuit components housed inside the housing.

The power conversion device of one aspect of the present disclosure includes the housing and the plurality of circuit components housed inside the housing, and the plurality of circuit components perform power conversion. including.

According to the present disclosure, it is possible to provide a housing capable of enhancing the electrical insulation between a circuit board and surrounding metal parts, an electric device including the housing, and a power conversion device.

FIG. 1 is a partially broken perspective view of a power conversion device including a housing according to an embodiment of the present disclosure. FIG. 2 is an exploded perspective view of the same power conversion device as viewed from the front side. FIG. 3 is a perspective view of the power conversion device of the above. FIG. 4 is an exploded perspective view of the same power conversion device as viewed from the rear side. FIG. 5 is a cross-sectional view of a main part of the same power conversion device. FIG. 6 is a perspective view of a main part of the same power conversion device. FIG. 7 is a perspective view illustrating a method of attaching a holder included in the power conversion device of the above. FIG. 8 is a system configuration diagram of a power conversion system using the same power conversion device. FIG. 9 is an exploded perspective view of the power conversion device according to the first modification of the embodiment of the present disclosure as viewed from the front side. FIG. 10 is an exploded perspective view of the power conversion device of Modification 1 as viewed from the rear side. FIG. 11 is a perspective view of the power conversion device of the first modification. FIG. 12 is an exploded perspective view of the main body of the power conversion device according to the second modification of the embodiment of the present disclosure. FIG. 13 is a perspective view of the main body of the power conversion device of the second modification.

(Embodiment)
(1) Outline Each figure described in the following embodiments is a schematic view, and the ratio of the size and the thickness of each component in each figure does not necessarily reflect the actual dimensional ratio. Not necessarily.

As shown in FIGS. 1 to 4, the housing 1 of the present embodiment is a housing 1 for an electric device that internally accommodates a plurality of circuit components 110 of an electric circuit.

The housing 1 includes a metal main body 2 that houses a plurality of circuit components 110, and a resin holder 60.

The plurality of circuit components 110 include a circuit board 115 (see FIGS. 5 and 6). The circuit board 115 has a reception unit (push button switch SW1 in this embodiment) that receives a direct operation from the outside of the main body 2 and a display unit (for example, a light emitting diode LD1 in this embodiment) that can be seen from the outside of the main body 2. ). The circuit board 115 is not limited to having both a reception unit and a display unit, and may have at least one of the reception unit and the display unit.

The holder 60 holds the circuit board 115, and the circuit board 115 is attached to the main body 2 via the holder 60.

Here, the reception unit accepts an operation for switching the operating state of the electric device including the housing 1, for example, an operation for operating or stopping the electric device, an operation for changing the output of the electric device, or the like. Accept. Note that the reception unit accepts direct operations is not limited to those that directly accept operations by the user's body (for example, fingers, etc.), and indirectly receives user operations via other members that are directly operated by the user. It can also include those that are accepted. Further, the display unit displays the operating state of the electric device including the housing 1, for example, displaying whether the electric device is operating or stopped, or an abnormality occurs in the electric device. Display whether or not.

Since the circuit board 115 has a reception unit and a display unit, the user may touch the reception unit or the display unit from the outside of the housing 1. Here, since the circuit board 115 having the reception unit and the display unit is held by the resin holder 60 and the circuit board 115 is attached to the main body 2 via the holder 60, the circuit board 115 and the surrounding metal parts The electrical insulation between them can be improved.

(2) Details (2.1) Configuration Hereinafter, the housing 1 according to the present embodiment and the electrical equipment provided with the housing 1 will be described in detail with reference to FIGS. 1 to 8. In the following description, the X-axis direction in FIGS. 1 to 3 is defined as the left-right direction, the Y-axis direction is defined as the front-rear direction (depth direction), and the Z-axis direction is defined as the vertical direction. Further, the positive direction in the X-axis direction is defined as the right side, the positive direction in the Y-axis direction is defined as the front side, and the positive direction in the Z-axis direction is defined as the upper side. However, these directions are examples, and are not intended to limit the directions when the electric device provided with the housing 1 is used. In addition, the arrows indicating each direction in the drawing are shown only for the sake of explanation, and are not accompanied by an entity.

The housing 1 is provided in an electric device. In other words, the electrical device includes a housing 1 and a plurality of circuit components 110 housed inside the housing 1. In the present embodiment, the case where the electric device provided with the housing 1 is, for example, a power conversion device 100 that converts DC power into AC power will be described as an example, but the electric device is not limited to the power conversion device 100. The power conversion device 100 includes a housing 1 and a plurality of circuit components 110 housed inside the housing 1. The plurality of circuit components 110 include a power conversion circuit 101 that performs power conversion (see FIG. 9). ) Includes parts.

The electric device (power conversion device 100) including the housing 1 is installed on, for example, an outdoor wall 300 (see FIGS. 1 and 3) of a facility such as a house. The main body 2 is attached to the wall 300, for example, via an attachment member 8 fixed to the wall 300.

Here, the power conversion system 200 including the power conversion device 100 will be described with reference to FIG.

The power conversion system 200 includes one or more (for example, two in the illustrated example) photovoltaic modules 201, a power conversion device 100, a remote controller 202, and a distribution board 203. The power conversion device 100 is configured to be attached to a wall 300 of a facility such as a house. The power conversion device 100 includes electric circuits such as a DC-DC converter and a DC-AC converter, and converts the DC power output from the solar power generation module 201 into AC power. The power conversion device 100 outputs the converted AC power to the distribution board 203 and supplies it to the load device 205 via the distribution board 203. The load device 205 is, for example, a lighting fixture, an air conditioner, a television, or the like used in a facility. Of the AC power output by the power conversion device 100, the surplus AC power not used by the load device 205 can be reverse-flowed to the commercial AC power supply 204. The power conversion device 100 is electrically connected to the remote controller 202, and the remote controller 202 can be used to set the drive conditions of the power conversion device 100 and check the amount of power generated by the photovoltaic power generation module 201. It is configured so that it can be done.

The power conversion device 100 may charge the storage battery unit 206 with the DC power output from the solar power generation module 201, or converts the DC power discharged from the storage battery unit 206 into AC power to the distribution board 203. It may be output. The power conversion device 100 is not limited to the one combined with the photovoltaic power generation module 201, and may be a power conversion device 100 that converts DC power generated by a power generation system such as a fuel cell system or a wind power generation system into AC power.

Further, the power conversion device 100 has a circuit board 115 on which a push button switch SW1 as a reception unit and a plurality of light emitting diodes LD1 as a display unit are mounted. The push button switch SW1 has, for example, a function of a reception unit that receives a driving operation or a stopping operation by a user. The plurality of light emitting diodes LD1 have a function of a display unit for displaying, for example, whether the power conversion device 100 is operating or stopped, or whether or not an abnormality has occurred in the power conversion device 100. There is. The circuit board 115 is attached to the main body 2 via the holder 60 in a state where the push button switch SW1 can be operated from the outside and the light emitting diode LD1 can be visually observed from the outside.

Hereinafter, the configuration of the power conversion device 100 will be described more specifically.

As shown in FIGS. 1 and 2, the power conversion device 100 accommodates a plurality of circuit components 110 constituting an electric circuit (such as the power conversion circuit 101 described above) inside the housing 1. The power conversion circuit 101 includes, for example, a DC-DC converter circuit and a circuit such as a DC-AC converter.

The housing 1 includes a main body 2 and a cover 3.

The main body 2 is formed in a box shape having an opening 21 on the front surface by drawing a sheet metal such as aluminum or an alloy thereof. The main body 2 includes a rectangular plate-shaped rear plate 22, a side plate 23 projecting forward from the entire circumference of the rear plate 22, and an outer flange portion 24 projecting outward from the front end of the side plate 23. In the main body 2, a plurality of circuit components 110 are housed in a storage space 20 surrounded by a rear plate 22 and a side plate 23. A resin cover 27 that covers the front side of a plurality of circuit components 110 housed in the main body 2 is arranged on the main body 2.

The cover 3 is formed by drawing a sheet metal such as aluminum or an alloy thereof. The cover 3 is attached to the main body 2 by using, for example, a screw or the like while covering the outer flange portion 24 of the main body 2 in order to close the opening 21 of the main body 2. An annular packing is arranged on the outer flange portion 24, and since the cover 3 is fixed to the main body 2 via the packing, foreign matter such as water or dust enters through the gap between the main body 2 and the cover 3. The possibility can be reduced.

Further, a through hole 25 is provided in the lower right portion of the rear portion of the main body 2 so as to extend between the rear plate 22 and the lower side plate 23. The rear plate 22 and the side plate 23 of the main body 2 are provided with protruding portions 4 projecting downward and rearward around the portion where the through hole 25 is provided. An opening is provided in the lower portion of the protruding portion 4, and a lid member 5 for closing the opening in the lower portion of the protruding portion 4 is attached to the protruding portion 4. Further, an electric wire insertion port 43 is provided on the rear surface of the projecting portion 4, and the electric wire inserted into the electric wire insertion port 43 of the projecting portion 4 from the rear of the main body 2 is inserted into the accommodation space 20 through the through hole 25. Here, in the accommodation space 20, a terminal block 111 is accommodated above the through hole 25 as a circuit component 110, and a plurality of (for example, four) switches 112 are arranged in the lower left of the accommodation space 20 in the left-right direction. It is contained. The electric wire inserted into the accommodation space 20 from the outside of the main body 2 through the electric wire insertion port 43 and the through hole 25 is connected to the terminal block 111, the switch 112, and the like.

A hollow heat sink combined case 6 is attached to the rear plate 22 of the main body 2 at a portion above the through hole 25, and a heat sink 7 is attached to the left side of the heat sink combined case 6. The heat sink combined case 6 is made of, for example, aluminum or an alloy thereof, and is formed in a box shape having an open front surface. The rear plate 22 of the main body 2 is provided with a first penetrating portion smaller than the front surface of the heat sink combined case 6 at a portion where the heat sink combined case 6 is attached. The accommodation space 20 of the main body 2 and the inside of the heat sink combined case 6 are connected by this first penetrating portion, and one or more circuit parts 110 (for example, large parts such as a transformer and an AC reactor) are also inside the heat sink combined case 6. Is housed. Further, the rear plate 22 of the main body 2 is provided with a second penetrating portion at a portion where the heat sink 7 is attached, and heat-generating components included in the plurality of circuit components 110 thermally pass through the second penetrating portion to the heat sink 7. It is combined. Here, the heat-generating component is a component in which the heat generated by the component during energization is larger than the heat that can be dissipated by the component, and the temperature of the component exceeds the rated temperature while the component is in use. It is a part that requires heat dissipation measures such as a heat sink to prevent it from occurring. Examples of the heat generating component included in the circuit component 110 include components such as a switching element, a transformer, and a reactor such as an IPM (Intelligent Power Module) used in a DC-DC converter or a DC-AC converter.

A countersunk screw 11 (see FIG. 4) for hooking the housing 1 to the mounting member 8 is mounted on the rear surfaces of the heat sink combined case 6 and the heat sink 7. Further, a fixing piece 12 and a fixing piece 13 having screw holes are provided on the upper surface and the lower surface of the heat sink 7, respectively (see FIGS. 2 and 4).

As described above, the circuit board 115 on which the push button switch SW1 which is the reception unit and the plurality of light emitting diodes LD1 which are the display units are mounted is housed inside the main body 2. (see FIG. 5). As shown in FIGS. 5 and 6, the circuit board 115 is attached to, for example, the right side plate 23 of the main body 2 via a resin holder 60. In the present embodiment, the mounting member 70 (see FIG. 7) is fixed to the side plate 23 of the main body 2, and the holder 60 holding the circuit board 115 is mounted on the mounting member 70. In other words, the housing 1 further includes a mounting member 70 fixed to the main body 2, and the holder 60 is attached to the main body 2 via the mounting member 70.

The mounting member 70 is mounted on the side plate 23 on the right side of the main body 2. The mounting member 70 is formed by, for example, pressing a strip-shaped sheet metal. The mounting member 70 integrally includes a rectangular plate-shaped central piece 71 that is attached to the side plate 23, and a first side piece 72 and a second side piece 73 that project in one direction from both ends of the central piece 71 in the longitudinal direction. I have.

The central piece 71 is provided with a through hole 74 that penetrates the central piece 71 in the thickness direction at a portion corresponding to the movable portion 64 provided in the holder 60. The first side piece 72 is provided with a hole 75 into which the protrusion 69 of the holder 60 is inserted. The second side piece 73 is provided with a hole 76 into which the protrusion 67 of the holder 60 is inserted.

Further, the central piece 71 is provided with two round holes 711 into which the two protrusions 233 provided on the side plate 23 on the right side of the main body 2 are inserted. The mounting member 70 is joined to the main body 2 by a method such as welding with the central piece 71 arranged on the side plate 23 of the main body 2 so that the protrusion 233 of the main body 2 is inserted into the round hole 711. To. The side plate 23 on the right side of the main body 2 is provided with a through hole 235 that penetrates the side plate 23 in the thickness direction at a portion corresponding to the through hole 74 of the mounting member 70. Further, the side plate 23 is provided with four through holes 232 that penetrate the side plate 23 in the thickness direction at a portion corresponding to the light emitting diode LD1 of the circuit board 115 held by the holder 60 attached to the mounting member 70. ing.

The holder 60 is a molded product of a synthetic resin such as polystyrene (PS) or polypropylene (PP). The holder 60 has a rectangular plate-shaped flat plate portion 61 facing the mounting surface of the circuit board 115, and a frame portion 62 projecting from the entire outer peripheral portion of the flat plate portion 61 to one side in the thickness direction. The frame portion 62 serves as a wall surrounding the circuit board 115. That is, since the holder 60 has a wall (frame portion 62) surrounding the circuit board 115, the holder 60 is between the circuit board 115 held by the holder 60 and the metal parts around the circuit board 115. The electrical insulation can be improved.

On one surface of the flat plate portion 61 facing the circuit board 115, a pair of cylindrical portions 611 supporting the circuit board 115 are provided on both sides in the long side direction on one end side in the short side direction. Further, on one surface of the flat plate portion 61, a pair of cylindrical portions 612 and 613 supporting the circuit board 115 are provided on both sides in the long side direction on the other end side in the short side direction, and the cylindrical portions 612 and 613 are provided. The tip is provided with a protrusion that fits into the hole 1151 (see FIG. 6) of the circuit board 115.

A round hole 63 is provided in the central portion of the flat plate portion 61 at a portion facing the push button switch SW1 mounted on the circuit board 115. In the round hole 63, a disk-shaped movable portion 64 that can move in the thickness direction of the flat plate portion 61 is arranged. One end of a pair of support arms 65 is connected to the peripheral surface of the movable portion 64, and the other end of the pair of support arms 65 is connected to the peripheral edge portion of the round hole 63. That is, the movable portion 64 is attached to the flat plate portion 61 via the pair of support arms 65, and the movable portion 64 can move in the thickness direction of the flat plate portion 61 by bending the pair of support arms 65. .. In the state where the circuit board 115 is held by the holder 60, the movable portion 64 faces the operator of the push button switch SW1 mounted on the circuit board 115, and when the movable portion 64 is pushed toward the circuit board 115, the movable portion 64 is movable. The operator of the push button switch SW1 is pushed by the unit 64.

The flat plate portion 61 is provided with through holes that penetrate the flat plate portion 61 in the thickness direction at the projected positions of the four light emitting diodes LD1 mounted on the circuit board 115, and the circuit board is provided from the peripheral portion of each through hole. A cylindrical cylinder 66 projects toward 115. In the state where the circuit board 115 is held by the holder 60, each of the plurality of light emitting diodes LD1 mounted on the circuit board 115 is arranged inside the corresponding tubular portion 66.

Further, the frame portion 62 of the holder 60 is provided with a receiving piece 621 and a mounting hook 622 for mounting the circuit board 115 on the holder 60. The shape of the receiving piece 621 viewed from above and below is L-shaped. The receiving piece 621 is provided at the tip end portion of the frame portion 62 on the rear side, and is hooked on the rear end portion of the circuit board 115. The mounting hook 622 is provided at the tip of the front frame portion 62. The mounting hook 622 is flexible in the front-rear direction, and the tip of the mounting hook 622 is provided with a claw 6221 that is hooked on the front end of the circuit board 115.

Further, a protrusion 67 to be inserted into the hole 76 of the mounting member 70 is provided on the outer surface (rear surface) of the frame portion 62 on the rear side of the holder 60. Further, the holder 60 has an outer wall 623 arranged further in front of the frame portion 62 on the front side. A hole 68 into which the first side piece 72 of the mounting member 70 is inserted is provided between the outer side wall 623 and the front frame portion 62, and a hole for the mounting member 70 is provided on the inner surface (rear surface) of the outer wall 623. A protrusion 69 to be inserted into the 75 is provided.

Here, a method of attaching the circuit board 115 to the main body 2 using the holder 60 will be described.

First, when the circuit board 115 is attached to the holder 60, the circuit board is placed between the receiving piece 621 of the holder 60 and the cylindrical portion 611 with the surface on which the push button switch SW1 and the light emitting diode LD1 mounted face the flat plate portion 61. Insert the rear end of 115 diagonally. With the rear end of the circuit board 115 inserted between the receiving piece 621 and the cylindrical portion 611, the front end of the circuit board 115 is centered on the contact portion between the circuit board 115 and the receiving piece 621. The circuit board 115 is rotated so that the portion approaches the flat plate portion 61 of the holder 60. At this time, the front end of the circuit board 115 hits the claw 6221 of the mounting hook 622, and the claw 6221 is pushed forward to bend the mounting hook 622 to the front side. When the circuit board 115 rotates to a position where the front end of the circuit board 115 exceeds the claw 6221, the mounting hook 622 returns to the state before being bent, and the claw 6221 of the mounting hook 622 is on the front side of the circuit board 115. It gets caught on the edge. At this time, the cylindrical portions 611, 612 and 613 are in contact with one surface of the circuit board 115 (the surface facing the flat plate portion 61), and the receiving piece 621 and the claw 6221 are in contact with the opposite surface of the circuit board 115. The circuit board 115 is held in the holder 60. As described above, the holder 60 has a mounting hook 622 for holding the circuit board 115, and the claw 6221 provided on the mounting hook 622 is hooked on the peripheral edge portion (front end portion) of the circuit board 115, thereby causing the circuit. The substrate 115 is held by the holder 60. Therefore, in the present embodiment, the circuit board 115 can be held by the holder 60 without screwing.

Next, a method of attaching the holder 60 to which the circuit board 115 is attached to the main body 2 will be described. First, with the flat plate portion 61 of the holder 60 tilted obliquely with respect to the central piece 71 of the mounting member 70, the protrusion 67 provided on the frame portion 62 on the rear side of the holder 60 is formed into the hole 76 of the second side piece 73. Insert in. With the protrusion 67 inserted into the hole 76, the front side of the holder 60 is brought closer to the central piece 71, the first side piece 72 is inserted into the through hole 68 of the holder 60, and the protrusion 69 on the rear surface of the outer wall 623 is first. It is inserted into the hole 75 of the side piece 72. As a result, the protrusions 69 and 67 of the holder 60 are fitted into the holes 75 and 76 of the mounting member 70, respectively, and the holder 60 is mounted on the mounting member 70 (that is, the main body 2). As described above, in the present embodiment, the holder 60 is provided with protrusions 67 and 69, and the mounting member 70 is provided with recesses (holes 76 and 75) into which the protrusions 67 and 69 fit. The holder 60 is inserted and connected to the mounting member 70 so that the protrusions 67 and 69 fit into the recesses (holes 76 and 75), and the holder 60 is attached to the mounting member 70 without the need for welding or screwing work. be able to. It is not essential that the holder 60 is provided with a protrusion and the mounting member 70 is provided with a recess for fitting the protrusion. One of the holder 60 and the mounting member 70 is provided with a recess, and the other of the holder 60 and the mounting member 70. May be provided with a protrusion that fits into the recess. Then, the holder 60 may be inserted and connected to the mounting member 70 so that the protrusion fits in the recess.

When the circuit board 115 is held by the holder 60, the operator of the push button switch SW1 mounted on the circuit board 115 faces the movable portion 64. Then, in a state where the holder 60 holding the circuit board 115 is attached to the main body 2 via the mounting member 70, the movable portion 64 passes through the through hole 74 of the mounting bracket 70 and the through hole 235 of the main body 2 to form the main body 2. It is exposed to the outside. When the movable portion 64 is pushed from the outside of the main body 2, the movable portion 64 receives a pushing force from the outside and moves to the inside of the main body 2, pushes the operator of the push button switch SW1, and is movable from the outside of the main body 2. The push button switch SW1 can be indirectly operated via the unit 64. That is, in the present embodiment, the circuit board 115 has a reception unit (push button switch SW1). Since the circuit board 115 is attached to the main body 2 via the resin holder 60, it is between the circuit board 115 and surrounding metal parts (for example, the main body 2) that the user may directly or indirectly touch. The electrical insulation can be improved. In the present embodiment, the holder 60 has a movable portion 64 that receives a pushing force from the outside and moves to the inside of the main body 2 and transmits the pushing force from the outside to the receiving portion (push button switch SW1). The receiving unit can indirectly receive an operation via the movable portion 64 of the holder 60.

Further, in a state where the circuit board 115 is held by the holder 60, the light emitting diode LD1 mounted on the circuit board 115 is arranged inside the cylinder 66 provided in the holder 60. Then, in a state where the holder 60 holding the circuit board 115 is attached to the main body 2 via the mounting member 70, light is emitted from the outside of the main body 2 through the through hole 232 of the main body 2 and the inner hole of the tubular portion 66. The light emission of the diode LD1 becomes visible.

A rectangular plate-shaped membrane sheet 234 is attached to the outer surface of the side plate 23 of the main body 2 at a portion where the through holes 235 and 232 are opened. The membrane sheet 234 is made of a synthetic resin (for example, polyethylene terephthalate (PET) resin) that is transparent to visible light and has flexibility. Therefore, by pushing the movable portion 64 via the membrane sheet 234, the user can push the operator of the push button switch SW1 via the movable portion 64. Therefore, the circuit board 115 can receive an operation from the outside of the main body 2 by the push button switch SW1 which is a receiving unit. Further, the user can visually recognize the light emission of the light emitting diode LD1 (that is, the display of the display unit) through the membrane sheet 234.

When the holder 60 is removed from the mounting member 70, the first side piece 72 is pushed to the rear side to bring the protrusion 69 out of the hole 75 of the first side piece 72. With the protrusion 69 protruding out of the hole 75, the holder 60 is rotated from the mounting member 70 by rotating the holder 60 around the rear end of the holder 60 in a direction in which the front side of the holder 60 is separated from the side plate 23. Can be removed.

When removing the circuit board 115 from the holder 60, the mounting hook 622 is pushed forward to move the claw 6221 of the mounting hook 622 to the front side, so that the claw 6221 is caught on the front end of the circuit board 115. To cancel. After that, when the circuit board 115 is rotated around the contact position between the circuit board 115 and the receiving piece 621 in the direction in which the front side of the circuit board 115 is separated from the flat plate portion 61 of the holder 60, the circuit board 115 is removed from the holder 60. be able to.

By the way, in the present embodiment, the holding part 117 made of a metal plate is attached to the fixing metal fitting 118 fixed to the side plate 23 of the main body 2 by a method such as welding. The circuit board 116 is screwed to the holding component 117 via a spacer press-fitted and fixed to the holding component 117. Here, in the state where the holding component 117 is attached to the fixing bracket 118, the holding component 117 is in contact with a part of the holder 60 (front surface of the outer wall 623), and the holder 60 cannot be rotated. The removal of the holder 60 from the member 70 is restricted. Therefore, when the user pushes the movable portion 64 via the membrane sheet 234, the holder 60 can be prevented from coming off from the mounting member 70 even if the circuit board 115 is pushed away from the side plate 23. If the holding component 117 is removed from the fixing bracket 118, the state in which the movement of the holder 60 is restricted by the holding component 117 can be released, and the holder 60 can be removed from the mounting member 70.

As described above, the housing 1 of the present embodiment is a pressing member (for example,) that restricts the movement of the holder 60 by hitting a part of the holder 60 with the protrusions 67 and 69 fitted in the recesses (holes 76 and 75). It further includes holding parts 117). Therefore, by attaching the holding member 117, which is a pressing member, to the main body 2, the holder 60 can be held in a state of being attached to the main body 2.

Here, since the pressing member is a holding component 117 for holding a circuit component (for example, a circuit board 116) other than the circuit board 115 held by the holder 60, the holding component 117 holding the circuit component is used as the pressing member. Can be combined. The holding member is not limited to the holding component 117, and may be a circuit component other than the circuit board 115 held in the holder 60 (for example, a circuit board or a single component). That is, the holding member may be any of a circuit component other than the circuit board 115 among the plurality of circuit components 110 and a holding component 117 for holding the circuit component other than the circuit board 115. The holding part can also be used as a holding member.

The housing 1 of the present embodiment is attached to the wall 300 by using the attachment member 8. The mounting member 8 includes a back plate 81 fixed to the wall 300 with screws or the like, a lateral guard 82 projecting forward from the left and right edges of the back plate 81, and a lateral guard 82 projecting forward from the lower edge of the back plate 81. It is provided with a lower guard 83.

The back plate 81 is provided with a plurality of holes 84 through which screws for fixing to the wall 300 are passed. The back plate 81 is fixed to the wall 300 using screws that have been passed through the plurality of holes 84, respectively. The upper edge of the back plate 81 is provided with two hook grooves 85 into which the threaded portions of the two countersunk screws 11 fixed to the rear surfaces of the heat sink combined case 6 and the heat sink 7 are inserted. The back plate 81 is provided with a through hole 86 connected to the electric wire insertion port 43 of the protruding portion 4.

When the threaded portion of the countersunk screw 11 provided on the main body 2 is inserted into the hook groove 85, the head of the countersunk screw 11 is hooked on the peripheral edge portion of the hook groove 85, so that the main body 2 is attached to the mounting member 8. With the main body 2 attached to the attachment member 8, the attachment screw passed through the round hole 87 (see FIG. 2) of the lower guard 83 is screwed into the screw hole of the fixing piece 13 arranged at the lower part of the heat sink 7. The main body 2 is fixed to the mounting member 8. When the main body 2 is attached to the mounting member 8, the side surfaces of the heat sink combined case 6 and the heat sink 7 are covered by the horizontal guard 82, and the lower surfaces of the heat sink combined case 6 and the heat sink 7 are covered by the lower guard 83. Therefore, the lateral guard 82 and the lower guard 83 provided on the mounting member 8 can reduce the possibility that the user touches the heat sink combined case 6 and the heat sink 7, which become hot. Since the lateral guard 82 and the lower guard 83 are integrally provided with the mounting member 8 for mounting the main body 2 to the wall 300, the number of parts can be reduced. In addition, since the number of parts that require work during construction or disassembly of the housing 1 is reduced, there is an advantage that workability is improved.

Further, an upper guard 9 that covers the upper surface of the heat sink combined case 6 and the heat sink 7 is fixed to the main body 2. The upper guard 9 is fixed to the main body 2 by screwing the mounting screw passed through the round hole 91 of the upper guard 9 into the screw hole of the fixing piece 12 arranged on the upper part of the heat sink 7. When the upper guard 9 is fixed to the main body 2, the upper guard 9 covers the upper surfaces of the heat sink combined case 6 and the heat sink 7, so that the possibility that the user touches the upper surfaces of the heat sink combined case 6 and the heat sink 7 which become hot can be reduced. The upper guard 9 is formed by covering the surface of the metal part with a resin material. Since the surface of the upper guard 9 is covered with the resin material, the allowable outer temperature of the heat sink combined case 6 and the heat sink 7 can be set higher than that when the surface of the upper guard 9 is not covered with the resin material. ..

(2.2) Mounting Method An mounting method for mounting the electric device having the housing 1 of the present embodiment on the wall 300, which is the installation location, will be described. It is assumed that a plurality of circuit components 110 constituting an electric circuit are housed in the main body 2, and a heat sink combined case 6 and a heat sink 7 are previously attached to the rear surface 221 of the main body 2.

First, the mounting member 8 is fixed to the wall 300, which is the installation location of the electric device, with screws or the like. The wall 300 is provided with a through hole 301 for passing the electric wire 400, and the mounting member 8 is provided with the wall 300 so that the through hole 86 provided in the mounting member 8 is continuous with the through hole 301 of the wall 300. Is fixed to.

When the mounting member 8 is fixed to the wall 300, the main body 2 is lowered from above the mounting member 8 and the screw portion of the countersunk screw 11 provided on the rear surface of the main body 2 is inserted into the hook groove 85. The main body 2 is hooked on the mounting member 8. Then, the mounting screw is passed through the round hole 87 provided in the lower guard 83 of the mounting member 8, and the mounting screw is screwed into the screw hole of the fixing piece 13 provided on the lower side of the heat sink 7 to mount the main body 2 on the mounting member. Fix to 8. Further, the upper guard 9 is put on the upper side of the heat sink combined case 6 and the heat sink 7, and the mounting screw passed through the round hole 91 of the upper guard 9 is screwed into the screw hole of the fixing piece 12 provided on the upper side of the heat sink 7. The upper guard 9 is fixed to the main body 2.

Here, when performing concealed wiring for connecting the electric wire wired on the back side of the wall 300 to the electric device, the electric wire inserted into the inside of the protrusion 4 through the electric wire insertion port 43 from the through hole 301 of the wall 300 is passed through the through hole 25. Insert it inside the main body 2. Then, by connecting the electric wire inserted inside the main body 2 to the circuit component 110 such as the terminal block 111 and the switch 112 housed inside the main body 2, the electric device having the housing 1 is externally connected. You can connect the wires from.

(3) Modified Example The above embodiment is only one of various embodiments of the present disclosure. The above-described embodiment can be changed in various ways depending on the design and the like as long as the object of the present disclosure can be achieved.

(3.1) Modification 1
The power conversion device 100A of the first modification will be described with reference to FIGS. 9 to 11.

The power conversion device 100 described in the above embodiment is of a type installed outdoors, but the power conversion device 100A of the first modification is a type of power conversion device that can be installed both indoors and outdoors. , Different from the above embodiment. Since the configuration of the power conversion device 100A is the same as that of the power conversion device 100 of the above embodiment, the common components are designated by the same reference numerals, and the description thereof will be omitted.

The housing 1 of the power conversion device 100 of the first modification is attached to the indoor or outdoor wall by using, for example, the attachment member 8 fixed to the indoor or outdoor wall of the facility.

The housing 1 included in the power conversion device 100A of the first modification 1 includes a main body 2 that houses a plurality of circuit components 110 inside. The circuit board 115 described in the above embodiment is attached to the main body 2 via the holder 60. As a result, even in the first modification, the electrical insulation between the circuit board 115 and the metal parts around it can be improved. Reference numeral 31 in FIGS. 9 and 10 is a packing arranged between the main body 2 and the cover 3.

(3.2) Modification 2
The main body 2A included in the housing 1 of the modified example 2 will be described with reference to FIGS. 12 and 13. Since the configurations other than the main body 2A are the same as those of the power conversion device 100A of the first modification, the common components are designated by the same reference numerals, and the description thereof will be omitted.

In the above embodiment and the first modification, the lid member 5 attached to the lower surface of the protrusion 4 is provided with a hole for connecting the electric wire tube, whereas in the second modification, the lower side of the main body 2A is provided. A plurality of round holes 231 are provided in the rear portion of the side plate 23 along the left-right direction. The electric wire tube 600 is connected to the plurality of round holes 231 and the electric wire in the electric wire tube 600 is inserted into the main body 2A through the round hole 231 and connected to the circuit component housed inside the main body 2A. Here, the lower side plate 23 is provided with a recess 28 recessed from the front end portion to the front side of the portion where the round hole 231 is provided. As shown in FIG. 13, a plate-shaped connecting plate 29 that connects between the left and right side plates 23 is attached to the main body 2A by using a fastening member such as a screw, and the concave portion 29 is used by using the connecting plate 29. 28 is blocked.

When wiring to the main body 2A of the modified example 2 using the electric wire tube 600, the electric wire tube 600 is connected to the round hole 231 with the connecting plate 29 removed from the main body 2A, and the electric wire in the electric wire tube 600 is inside the main body 2A. It is inserted into and connected to a circuit component housed inside the main body 2A. After that, the housing 1 is assembled by attaching the connecting plate 29 to the main body 2A and attaching the cover 3 to the main body 2A.

As described above, in the main body 2A of the modified example 2, the wiring work of the electric wire passed through the electric wire tube 600 can be performed with the connecting plate 29 removed, so that the front side edge of the side plate 23 is an obstacle when performing the work of bending the electric wire. It is difficult to become a problem, and the wiring work of the electric wire can be easily performed. Further, after the wiring work of the electric wire is completed, the strength of the main body 2A can be increased by attaching the connecting plate 29 to the main body 2A.

(3.3) Other Modifications In the above embodiments and modifications 1 and 2, the push button switch SW1 is provided as a reception portion on the circuit board 115, but the reception portion is not limited to the push button switch SW1. The reception unit may be a component that receives user operations such as a DIP switch, a volume switch, or a touch switch.

In the above embodiments and the first and second modifications, the light emitting diode LD1 is provided as a display unit on the circuit board 115, but the display unit may be a device that visually displays light, characters, graphic symbols, or the like. It may be a display device such as a liquid crystal display.

In the above embodiments and the first and second modifications, the movable portion 64 for operating the push button switch SW1 (reception portion) of the circuit board 115 and the light emitting diode LD1 which is the display portion are covered with the membrane sheet 234. , The reception unit and the display unit may be exposed to the outside of the main body 2.

In the above-described embodiment and the first and second modifications, the main body 2 is formed by drawing, but the main body 2 may be formed by bending or welding the sheet metal.

(Summary)
As described above, the housing (1) of the first aspect is a housing (1) for an electric device that internally accommodates a plurality of circuit components (110) constituting an electric circuit. The housing (1) includes a metal main body (2) for accommodating a plurality of circuit components (110), and a resin holder (60). The plurality of circuit components (110) include a circuit board (115). The circuit board (115) has at least one of a reception unit (SW1) that receives a direct operation from the outside of the main body (2) and a display unit (LD1) that can be seen from the outside of the main body (2). The holder (60) holds the circuit board (115), and the circuit board (115) is attached to the main body (2) via the holder (60).

According to this aspect, the circuit board (115) is attached to the metal body (2) via the resin holder (60), so that the electrical between the circuit board (115) and the surrounding metal parts is electrical. It is possible to provide a housing (1) capable of enhancing insulation.

In the first aspect, the housing (1) of the second aspect further includes a mounting member (70) fixed to the main body (2), and the holder (60) is via the mounting member (70). It is attached to the main body (2).

According to this aspect, the holder (60) can be attached to the main body (2) using the attachment member (70).

In the housing (1) of the third aspect, in the second aspect, recesses (75,76) are provided on one of the holder (60) and the mounting member (70), and the holder (60) and the mounting member (60) are provided. The other side of the 70) is provided with a protrusion (69,67) that fits into the recess (75,76). The holder (60) is inserted and connected to the mounting member (70) so that the protrusions (69,67) fit into the recesses (75,76).

According to this aspect, the holder (60) can be attached to the main body (2) without performing welding or screwing work.

In the housing (1) of the fourth aspect, in the third aspect, the holder (60) is hit by a part of the holder (60) in a state where the protrusions (69,67) are fitted in the recesses (75,76). ) Is further provided with a holding member that regulates the movement.

According to this aspect, the holder (60) can be held in a state of being attached to the attachment member (70) by hitting a part of the holder (60).

In the housing (1) of the fifth aspect, in the fourth aspect, the holding member is a circuit component other than the circuit board (115) among the plurality of circuit components (110), and a circuit board other than the circuit board (115). It is one of the holding parts (117) for holding the circuit part (110) of the above.

According to this aspect, any of the circuit component other than the circuit board (115) and the holding component (117) can also serve as the holding member.

In the housing (1) of the sixth aspect, in any one of the first to fifth aspects, the holder (60) has a mounting hook (622) for holding the circuit board (115). The circuit board (115) is held by the holder (60) by hooking the claw (6221) provided on the mounting hook (622) on the peripheral edge of the circuit board (115).

According to this aspect, the circuit board (115) can be attached to the holder (60) without screwing.

In the housing (1) of the seventh aspect, in any one of the first to sixth aspects, the holder (60) has a wall (62) that surrounds the circuit board (115).

According to this aspect, the electrical insulation between the circuit board (115) and the surrounding metal parts can be enhanced.

In the housing (1) of the eighth aspect, in any one of the first to seventh aspects, the circuit board (115) has a receiving unit (SW1).

According to this aspect, it is possible to improve the electrical insulation between the circuit board (115) that the user may touch and the surrounding metal parts.

In the housing (1) of the ninth aspect, in the eighth aspect, the holder (60) moves to the inside of the main body (2) by receiving the pushing force from the outside, and receives the pushing force from the outside. It has a movable portion (64) that transmits to (SW1).

According to this aspect, the receiving unit (SW1) can indirectly receive the operation via the movable unit (64) included in the holder (60).

In the housing (1) of the tenth aspect, in any one of the first to ninth aspects, the circuit component (110) includes a heat generating component.

According to this aspect, it is possible to provide a housing (1) capable of enhancing the electrical insulation between the circuit board (115) and the surrounding metal parts.

The electrical device of the eleventh aspect includes a housing (1) of any one of the first to tenth aspects, and a circuit component (110) housed inside the housing (1).

According to this aspect, it is possible to provide an electric device including a housing (1) capable of enhancing the electrical insulation between the circuit board (115) and the surrounding metal parts.

The power conversion device (100) of the twelfth aspect includes a housing (1) of any one of the first to tenth aspects and a circuit component (110) housed inside the housing (1). The circuit component (110) includes a component of the power conversion circuit (101) that performs power conversion.

According to this aspect, it is possible to provide a power conversion device (100) including a housing (1) capable of enhancing electrical insulation between a circuit board (115) and surrounding metal parts.

The configurations according to the second to tenth aspects are not essential configurations for the housing (1) and can be omitted as appropriate.

1 Housing 2 Main body 60 Holder 62 Frame (wall)
64 Movable part 67,69 Protrusion 70 Mounting member 75,76 Hole (recess)
100 Power conversion device 101 Power conversion circuit 110 Circuit parts 115 Circuit board 117 Holding parts 622 Mounting hook 6221 Claw LD1 Light emitting diode (display)
SW1 push button switch (reception section)

Claims (12)

A housing for electrical equipment that houses a plurality of circuit components that make up an electric circuit.
It is provided with a metal main body for accommodating the plurality of circuit parts and a resin holder.
The plurality of circuit components include a circuit board.
The circuit board has at least one of a reception unit that receives a direct operation from the outside of the main body and a display unit that can be seen from the outside of the main body.
The holder holds the circuit board, and the circuit board is attached to the main body via the holder.
Housing. Further provided with a mounting member fixed to the main body
The holder is attached to the main body via the attachment member.
The housing according to claim 1. One of the holder and the mounting member is provided with a recess, and the other of the holder and the mounting member is provided with a protrusion that fits into the recess.
The holder is inserted and connected to the mounting member so that the protrusion fits into the recess.
The housing according to claim 2. A holding member for restricting the movement of the holder by hitting a part of the holder with the protrusion fitted in the recess is further provided.
The housing according to claim 3. The holding member is one of a circuit component other than the circuit board among the plurality of circuit components and a holding component for holding the circuit component other than the circuit board.
The housing according to claim 4. The holder has a mounting hook for holding the circuit board.
The circuit board is held by the holder by hooking the claws provided on the mounting hooks on the peripheral edge of the circuit board.
The housing according to any one of claims 1 to 5. The holder has a wall that surrounds the circuit board.
The housing according to any one of claims 1 to 6. The circuit board has the reception part.
The housing according to any one of claims 1 to 7. The holder has a movable portion that receives a pushing force from the outside and moves to the inside of the main body and transmits the pushing force from the outside to the receiving portion.
The housing according to claim 8. The plurality of circuit components include heat generating components.
The housing according to any one of claims 1 to 9. The housing according to any one of claims 1 to 10 and the housing.
A plurality of circuit components housed inside the housing.
Electrical equipment. The housing according to any one of claims 1 to 10 and the housing.
The plurality of circuit components housed inside the housing are provided.
The plurality of circuit components include components of a power conversion circuit that performs power conversion.
Power converter.

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