JP6838537B2 - Power converter - Google Patents

Description

The present invention relates to a power converter.

For example, vehicles such as hybrid vehicles and electric vehicles are equipped with a power conversion device that converts power between DC power and AC power. The power conversion device includes an electronic component for performing power conversion and a circuit board for controlling the operation of the electronic component. The electronic components and the circuit board are housed in a box-shaped case, and are connected to an external circuit via a connector exposed to the outside of the case. Further, in this type of power conversion device, a sealing material for closing the gap between the connector and the case is usually provided for the purpose of preventing water or the like from entering the inside of the case.

Patent Document 1 describes an example of a power conversion device in which a connector is fitted in a notch provided in a wall portion of a metal base plate. In this power conversion device, the connector is held between a wall portion forming a part of the side peripheral surface of the case and a lid portion forming the top surface of the case.

Japanese Unexamined Patent Publication No. 2012-139041

The connector in the power conversion device of Patent Document 1 is held between two parts, a wall portion and a lid portion of a metal base plate. Therefore, it is necessary to close the gap around the connector, that is, the gap between the connector and the wall portion and the gap between the connector and the lid portion with a sealing material.

Further, since the connector is held between the wall portion and the lid portion, the gap around the connector is connected to the gap between the wall portion and the lid portion. Therefore, in order to prevent water or the like from entering the case from the periphery of the connector in the power conversion device of Patent Document 1, not only the gap around the connector is closed by the sealing material, but also the gap around the connector is formed. The connection portion between the wall portion and the lid portion must also be closed, which causes a problem that the structure of the sealing material becomes complicated.

The present invention has been made in view of such a problem, and an object of the present invention is to provide a power conversion device capable of preventing the ingress of water or the like by a sealing material having a simple structure.

One aspect of the present invention is an electronic component (2) and
Circuit boards (3, 304) electrically connected to the electronic components
A connector (4) having a connector terminal (41) for electrically connecting the circuit board to an external circuit, and a plate portion (42) having a flat plate shape and holding the connector terminal.
A case (5) having an opening and accommodating the electronic component and the circuit board, and
A connector holding portion (61) for holding the connector while exposing the connector terminal to the outside, and a connector terminal observation window (615) provided at a position where the connection portion between the circuit board and the connector terminal can be observed. With a cover (6, 604 ) covering the opening of the case,
It has a sealing material (7) that closes the gap between the connector and the connector holding portion .
The connector holding portion has a connector support plate (611) facing the plate portion via the sealing material, and the sealing material is sandwiched between the plate portion and the connector support plate. It is in the power converter (1, 104) .
Another aspect of the present invention includes an electronic component (2) and
A circuit board (3) electrically connected to the above electronic components and
A connector (4) having a connector terminal (41) for electrically connecting the circuit board to an external circuit, and a plate portion (42) having a flat plate shape and holding the connector terminal.
A case (5) having an opening and accommodating the electronic component and the circuit board, and
A cover (603) provided with a connector holding portion (61) for holding the connector while exposing the connector terminal to the outside, and a cover (603) covering the opening of the case.
It has a sealing material (7) that closes the gap between the connector and the connector holding portion.
The connector holding portion has a connector support plate (611) facing the plate portion via the sealing material, and the sealing material is sandwiched between the plate portion and the connector support plate. Ori,
The circuit board is held by the cover and
The cover is in a power conversion device (103) having a component terminal observation window (622) provided at a position where a connection portion between the circuit board and the electronic component can be observed.
Yet another aspect of the present invention is the electronic component (2) and
A circuit board (304) electrically connected to the electronic component and
A connector (4) having a connector terminal (41) for electrically connecting the circuit board to an external circuit, and a plate portion (42) having a flat plate shape and holding the connector terminal.
A case (5) having an opening and accommodating the electronic component and the circuit board, and
A cover (604) provided with a connector holding portion (61) for holding the connector while exposing the connector terminal to the outside, and a cover (604) covering the opening of the case.
It has a sealing material (7) that closes the gap between the connector and the connector holding portion.
The connector holding portion has a connector support plate (611) facing the plate portion via the sealing material, and the sealing material is sandwiched between the plate portion and the connector support plate. Ori,
The circuit board includes a first circuit board (304a) electrically connected to the connector and a second circuit board (304b) directly connected to the electronic component, and the first circuit. The substrate is in a power converter (104) that is electrically connected to the electronic component via the second circuit board.

The connector of the power conversion device is held by a connector holding portion provided on the cover. Further, the gap between the connector and the connector holding portion is closed by a sealing material. Therefore, it is possible to prevent water or the like from entering the inside of the power conversion device through the gap between the connector and the cover.

Further, since the connector is held by one component called a cover, the gap between the connector and the cover is not connected to the gap between other components such as the gap between the case and the cover. Therefore, the structure of the sealing material can be simplified.

As described above, according to the above aspect, it is possible to provide a power conversion device capable of preventing the ingress of water or the like by a sealing material having a simple structure.
The reference numerals in parentheses described in the scope of claims and the means for solving the problem indicate the correspondence with the specific means described in the embodiments described later, and limit the technical scope of the present invention. It's not a thing.

It is a perspective view of the power conversion apparatus in Embodiment 1. FIG. It is sectional drawing which shows the main part of the power conversion apparatus in Embodiment 1. FIG. FIG. 5 is an exploded cross-sectional view of the power conversion device according to the first embodiment. FIG. 5 is a cross-sectional view (cross-sectional view taken along the arrow corresponding to FIG. 2) showing a main part of the power conversion device in Reference Form 1. FIG. 5 is a perspective view of a power conversion device in which a circuit board is held in a case according to a second embodiment. It is sectional drawing which shows the main part of the power conversion apparatus in Embodiment 2. FIG. 5 is an exploded cross-sectional view of the power conversion device according to the second embodiment. FIG. 3 is a perspective view of a power conversion device including a circuit board and a second circuit board according to the third embodiment. It is sectional drawing which shows the main part of the power conversion apparatus in Embodiment 3.

A plurality of embodiments of the power conversion device will be described with reference to the drawings.

(Embodiment 1)
As shown in FIG. 2, the power conversion device 1 of the present embodiment includes an electronic component 2, a circuit board 3 electrically connected to the electronic component 2, and a connector for electrically connecting the circuit board 3 to an external circuit. It has a connector 4 provided with a terminal 41. The electronic component 2 and the circuit board 3 are housed in a case 5 having an opening. The opening of the case 5 is covered with a cover 6 provided with a connector holding portion 61 that holds the connector 4 while exposing the connector terminals 41 to the outside. The gap between the connector 4 and the connector holding portion 61 is closed by the sealing material 7.

As shown in FIG. 1, the case 5 and the cover 6 in the power conversion device 1 of the present embodiment are combined with each other and have a substantially rectangular parallelepiped shape. In the following, the alignment direction of the case 5 and the cover 6 is referred to as "height direction Z", and the cover 6 side in the height direction Z may be referred to as upper Z1 and the case 5 side may be referred to as lower Z2. Further, the longitudinal direction of the power conversion device 1 may be referred to as "vertical direction X", and the direction orthogonal to both the height direction Z and the vertical direction X may be referred to as "horizontal direction Y". The vertical display in the height direction Z is for convenience, and has nothing to do with the orientation when the power conversion device 1 is attached to a vehicle or the like.

As shown in FIGS. 1 and 2, the case 5 has a bottom wall portion 51 forming an outer wall of the lower Z2 of the power conversion device 1 and a case main body 52 arranged on the bottom wall portion 51. .. The case body 52 is joined to the peripheral edge of the bottom wall portion 51 and extends upward to the case peripheral wall portion 521, and the case side flange portion 522 protruding outward from the upper end of the case peripheral wall portion 521 to the outside of the power conversion device 1. And a partition wall portion 523 extending inward from the case peripheral wall portion 521 to the case main body 52. The case-side flange portion 522 is joined to the cover-side flange portion 64 (described later). Further, a sealing material (not shown) is provided between the case-side flange portion 522 and the cover-side flange portion 64, and the gap between the case 5 and the cover 6 is closed by this sealing material.

As shown in FIG. 2, the partition wall portion 523 has a plurality of bosses 524 extending upward Z1. The circuit board 3 is held in these bosses 524. Further, a through hole 525 through which the terminal 21 (described later) of the electronic component 2 is inserted is provided in the central portion of the partition wall portion 523.

The electronic component 2 is housed in the lower internal space S1 surrounded by the bottom wall portion 51, the case peripheral wall portion 521, and the partition wall portion 523. The electronic component 2 has a terminal 21 extending above Z1. The terminal 21 passes through the through hole 525 of the partition wall portion 523 and is inserted into the through hole (not shown) of the circuit board 3. Further, the terminal 21 and the through hole of the circuit board 3 are electrically connected by a press-fit connection.

The electronic component 2 includes components used in a power conversion circuit, such as an IGBT (insulated gate type bipolar transistor), a reactor, and a capacitor. Although not shown in the figure, these electronic components 2 are electrically connected to each other to form a power conversion circuit. Further, the lower internal space S1 may accommodate a cooler for cooling the electronic components 2 as described above.

The circuit board 3 is held by the boss 524 of the partition wall portion 523, and is housed in the upper internal space S2 surrounded by the cover 6, the case peripheral wall portion 521, and the partition wall portion 523. The circuit board 3 is electrically connected to the electronic component 2 via the terminal 21. The circuit board 3 is configured to function as, for example, a drive circuit that controls the operation of the electronic component 2 to perform power conversion, a communication circuit that communicates with an external circuit such as an electronic control unit via a connector 4, and the like. Has been done.

As shown in FIGS. 1 and 2, the cover 6 includes a top wall portion 62 constituting the outer wall of the upper Z1 of the power conversion device 1 and a cover peripheral wall portion 63 extending from the peripheral edge of the top wall portion 62 to the lower Z2. And a cover-side flange portion 64 protruding outward from the power conversion device 1 from the lower end of the cover peripheral wall portion 63. The cover-side flange portion 64 is joined to the case-side flange portion 522, and a sealing material (not shown) is arranged between the cover-side flange portion 64 and the case-side flange portion 522.

As shown in FIG. 1, the top wall portion 62 has a rectangular shape in a plan view viewed from above Z1. Further, one corner of the four corners of the top wall 62 bulges upward Z1 from the periphery. A connector holding portion 61 is provided at this corner portion.

As shown in FIG. 2, the connector holding portion 61 is arranged in the center of the connector support plate 611 connected to the top wall portion 62, the cover peripheral wall portion 63, and the cover side flange portion 64, and the connector support plate 611, and is arranged in the lateral direction Y. It has an open terminal insertion hole 612 and a frame body portion 613 erected outward in the lateral direction Y from the peripheral edge portion of the connector support plate 611. The connector 4 is held inside the frame body portion 613. The connector support plate 611 faces the plate portion 42 (described later) of the connector 4 via the sealing material 7. The connector terminal 41 is inserted into the terminal insertion hole 612.

Further, the connector holding portion 61 has a connector terminal observation window 615 opened upward Z1. The connector terminal observation window 615 is arranged at a position where the connection portion between the circuit board 3 and the connector terminal 41 can be observed. The connector terminal observation window 615 is closed by the cap 616 when the power conversion device 1 has been assembled.

The connector 4 has a flat plate shape and has a plate portion 42 in which the connector terminal 41 is held. The connector terminal 41 has a pin shape and is arranged so as to penetrate the plate portion 42. One end 411 of the connector terminal 41 is exposed to the outside of the power conversion device 1. The periphery of one end 411 of the connector terminal 41 is covered with a tubular hood portion 43 erected from the plate portion 42. That is, the connector 4 of this embodiment is configured as a male type connector.

Further, the connector terminal 41 penetrates the plate portion 42 and extends inside the power conversion device 1. The other end 412 of the connector terminal 41 passes through the terminal insertion hole 612 and is inserted into a through hole (not shown) of the circuit board 3. Further, the other end 412 of the connector terminal 41 and the through hole of the circuit board 3 are electrically connected by a press-fit connection. As a result, the connector terminal 41 and the circuit board 3 are electrically connected.

The plate portion 42 is arranged inside the frame body portion 613 of the connector holding portion 61. The end face of the plate portion 42 faces the frame body portion 613 and the cover side flange portion 64. That is, the entire circumference of the side peripheral surface of the plate portion 42 faces the cover 6. Further, the plate portion 42 faces the connector support plate 611 via the sealing material 7, and is fastened to the connector support plate 611 by bolts 421.

The sealing material 7 has an annular shape and is arranged over the entire circumference of the peripheral edge of the plate portion 42. Further, the sealing material 7 is sandwiched between the plate portion 42 and the connector support plate 611, and is in close contact with both the plate portion 42 and the connector support plate 611. As a result, the gap between the plate portion 42 and the connector support plate 611 is closed over the entire circumference of the peripheral edge portion of the plate portion 42.

The power conversion device 1 can be assembled by, for example, the following procedure. First, as shown in FIG. 3, after arranging the electronic component 2 inside the case main body 52, the bottom wall portion 51 is joined to the case peripheral wall portion 521. Next, the circuit board 3 is attached to the boss 524 of the partition wall portion 523 while inserting the terminal 21 of the electronic component 2 into the through hole of the circuit board 3. After that, a sealing material (not shown) is arranged over the entire circumference of the case-side flange portion 522.

Separately from this, the sealing material 7 and the connector 4 are attached to the connector holding portion 61 of the cover 6. After that, the cover 6 is attached to the case 5 and the other end 412 of the connector terminal 41 is inserted into the through hole of the circuit board 3 at the same time. At this time, since the connector terminal observation window 615 is open, the position of the through hole of the circuit board 3 and the position of the other end 412 of the connector terminal 41 can be observed from the connector terminal observation window 615. Therefore, the other end 412 of the connector terminal 41 can be inserted into the through hole of the circuit board 3 while confirming these positions. After the attachment of the cover 6 is completed, the power conversion device 1 can be obtained by closing the connector terminal observation window 615 with the cap 616.

Further, instead of the procedure of attaching the cover 6 to which the connector 4 is attached in advance to the case 5 as described above, the connector 4 may be attached after the cover 6 is attached to the case 5. In this case, after the cover 6 is attached to the case 5, the sealing material 7 and the connector 4 are attached to the connector holding portion 61. Also in this case, the connector terminal 41 can be inserted into the through hole while checking the position of the through hole of the circuit board 3 and the position of the connector terminal 41 from the connector terminal observation window 615. After the attachment of the connector 4 is completed, the power conversion device 1 can be obtained by closing the connector terminal observation window 615 with the cap 616.

Next, the operation and effect of the power conversion device 1 of the present embodiment will be described. The connector 4 of the power conversion device 1 is held by the connector holding portion 61 provided on the cover 6. Further, the gap between the connector 4 and the connector holding portion 61 is closed by the sealing material 7. Therefore, it is possible to prevent water or the like from entering the inside of the power conversion device 1 through the gap between the connector 4 and the cover 6.

Further, since the connector 4 is held by one component called the cover 6, a gap between other components such as a gap between the case 5 and the cover 6 is connected to the gap between the connector 4 and the cover 6. There is nothing. Therefore, the structure of the sealing material 7 can be simplified.

As described above, according to the present embodiment, it is possible to provide the power conversion device 1 capable of preventing the ingress of water or the like by the sealing material 7 having a simple structure.

The connector 4 of the present embodiment has a flat plate shape and has a plate portion 42 in which the connector terminal 41 is held. Further, the connector holding portion 61 has a connector support plate 611 facing the plate portion 42 via the sealing material 7. The sealing material 7 is sandwiched between the plate portion 42 and the connector support plate 611. Therefore, the sealing material 7 can be easily brought into close contact with both the plate portion 42 and the connector support plate 611. As a result, it is possible to more reliably prevent water or the like from entering through the gap between the connector 4 and the cover 6.

Further, the connector holding portion 61 of the cover 6 has a connector terminal observation window 615 provided at a position where the connection portion between the circuit board 3 and the connector terminal 41 can be observed. Therefore, the connection work between the connector terminal 41 and the circuit board 3 can be performed while observing the connection portion between the connector terminal 41 and the circuit board 3. Therefore, according to the power conversion device 1 of the present embodiment, the workability of the connection work between the connector terminal 41 and the circuit board 3 can be improved.

( Reference form 1 )
As shown in FIG. 4, the sealing material 702 in the power conversion device 102 of the present embodiment is interposed between the side peripheral surface 441 of the connector 402 and the inner wall surface 652 of the connector holding portion 65. Of the reference numerals used in this preferred embodiment since, those reference numerals same as those used in the foregoing embodiments or reference embodiment, unless otherwise described, the same constituent elements in the foregoing embodiments or references Constitution Represents an element or the like.

The cover 602 in the power conversion device 102 of the present reference embodiment has a connector holding portion 65 that bulges upward Z1 above the periphery at a corner portion of the top wall portion 62. The connector holding portion 65 has a connector holding hole 651 that is open in the lateral direction Y. The connector 402 is inserted in the connector holding hole 651. The connector 402 is fastened to the cover 602 with bolts (not shown).

Further, the connector holding portion 65 has a connector terminal observation window 615 that opens upward Z1. The connector terminal observation window 615 is arranged at a position where the connection portion between the circuit board 3 and the connector terminal 41 can be observed. The connector terminal observation window 615 is closed by the cap 616 when the power conversion device 102 has been assembled.

The connector 402 of this reference embodiment is arranged inside the plate portion 44 having a flat plate shape, the hood portion 43 erected outside the power conversion device 102 from the peripheral portion of the plate portion 44, and the hood portion 43. It has a connector terminal 41 that penetrates the plate portion 44. The side peripheral surface 441 of the plate portion 44 faces the inner wall surface 652 of the connector holding portion 65. Further, the plate portion 44 has a groove 442 extending over the entire circumference of the side peripheral surface 441.

A sealing material 702 having an annular shape is arranged in the groove 442 provided in the plate portion 42. The sealing material 702 is in close contact with both the plate portion 42 and the inner wall surface 652 of the connector holding portion 65. Others are the same as in the first embodiment.

As shown in the first embodiment and the present reference embodiment, when the connectors 4 and 402 are held by the connector holding portions 61 and 65 provided on the covers 6 and 602, the connectors are connected by the annular sealing materials 7 and 702. The gap between 4, 402 and the connector holding portions 61, 65 can be closed. Therefore, the sealing materials 7 and 702 having a simple structure can prevent the ingress of water and the like. In addition, the power conversion device 102 of the present reference embodiment can exhibit the same effects as those of the first embodiment except for the effects of sandwiching the sealing material 7 between the plate portion 42 and the connector support plate 611. it can.

( Embodiment 2 )
As shown in FIG. 6, in the power conversion device 103 of the present embodiment, the circuit board 3 is held by the cover 603. The top wall portion 62 of the cover 603 in the power conversion device 103 of the present embodiment has a plurality of bosses 621 erected in the lower Z2. The circuit board 3 is held in these bosses 621.

Further, as shown in FIGS. 5 and 6, the top wall portion 62 has a component terminal observation window 622 provided at a position where the connection portion between the circuit board 3 and the electronic component 2 can be observed. Specifically, the component terminal observation window 622 is provided above Z1 of the connection portion between the circuit board 3 and the terminal 21. The component terminal observation window 622 is closed by the cap 623 when the power conversion device 103 has been assembled.

The power conversion device 103 of the present embodiment can be assembled by, for example, the following procedure. First, after arranging the electronic component 2 inside the case main body 52, the bottom wall portion 51 is joined to the case peripheral wall portion 521. After that, a sealing material (not shown) is arranged over the entire circumference of the case-side flange portion 522.

Separately from this, the sealing material 7 and the connector 4 are attached to the connector holding portion 61 of the cover 603. Next, the circuit board 3 is attached to the boss 621 of the cover 603 while inserting the other end 412 of the connector terminal 41 into the through hole of the circuit board 3. After that, as shown in FIG. 7, the cover 603 is attached to the case 5 and the terminal 21 of the electronic component 2 is inserted into the through hole of the circuit board 3 at the same time. At this time, since the component terminal observation window 622 is open, the position of the through hole of the circuit board 3 and the position of the terminal 21 can be observed from the component terminal observation window 622. Therefore, the terminal 21 can be inserted into the through hole of the circuit board 3 while confirming these positions. After the attachment of the cover 603 is completed, the power conversion device 103 can be obtained by closing the component terminal observation window 622 with the cap 623. Others are the same as in the first embodiment.

When the circuit board 3 is held by the cover 603 as in the present embodiment, the workability of the connection work between the circuit board 3 and the electronic component 2 is improved by providing the component terminal observation window 622. Can be done. In addition, the power conversion device 103 of the present embodiment can exhibit the same effects as those of the first embodiment.

( Embodiment 3 )
As shown in FIG. 9, the power conversion device 104 of the present embodiment has two circuit boards 304, a first circuit board 304a connected to the connector 4 and a second circuit board 304b connected to the electronic component 2. have. The first circuit board 304a is electrically connected to the electronic component 2 via the second circuit board 304b.

The first circuit board 304a is held by a boss 621 erected from the top wall portion 62 of the cover 604. Further, the other end 412 of the connector terminal 41 is inserted into the through hole of the first circuit board 304a. The second circuit board 304b is held by a boss 524 erected from the partition wall portion 523 of the case main body 52. The terminal 21 of the electronic component 2 is inserted into the through hole of the second circuit board 304b.

The power conversion device 104 of the present embodiment further includes a connection pin 31 that electrically connects the first circuit board 304a and the second circuit board 304b. The connection pin 31 is interposed between the first circuit board 304a and the second circuit board 304b. One end of the connection pin 31 is inserted into the through hole of the first circuit board 304a, and the other end is inserted into the through hole of the second circuit board 304b. As a result, the first circuit board 304a and the second circuit board 304b are electrically connected via the connection pin 31.

As shown in FIGS. 8 and 9, the cover 604 of the present embodiment has a connector holding portion 61 provided with a connector terminal observation window 615 at a corner portion of the top wall portion 62. Further, the top wall portion 62 further has a circuit terminal observation window 624 provided at a position where the connection portion between the first circuit board 304a and the second circuit board 304b can be visually recognized. Specifically, the circuit terminal observation window 624 is provided above Z1 of the through hole into which the connection pin 31 is inserted. These observation windows 615 and 624 are closed by caps 616 and 625 when the power conversion device 104 has been assembled. Others are the same as in the first embodiment.

When two circuit boards 304 are provided as in the present embodiment, the first circuit board 304a connected to the connector 4 is attached to the cover 604, and the second circuit board 304b connected to the electronic component 2 is attached to the case 5. It is preferable to attach it to. In this case, the areas of the circuit boards 304a and 304b can be made wider.

That is, for example, when two circuit boards are attached to a cover, it is necessary to arrange the circuit boards so as to overlap each other in order to increase the area of the circuit boards. At this time, a boss for holding the circuit board on the side far from the cover is arranged on the outer peripheral edge of the cover. The circuit board on the side closer to the cover is arranged inside the boss in order to avoid interference with the boss. Therefore, in this case, the area of the circuit board on the side of the two circuit boards closer to the cover is smaller than the area of the other circuit board.

On the other hand, as in the present embodiment, by attaching the circuit boards 304a and 304b to the cover 604 and the case 5, respectively, it is possible to easily avoid the interference between the bosses 524 and 621 and the circuit boards 304a and 304b. it can. As a result, the area of each of the circuit boards 304a and 304b can be made wider. In addition, the power conversion device 104 of the present embodiment can exhibit the same effects as those of the first embodiment.

The present invention is not limited to each of the above embodiments, and can be applied to various embodiments without departing from the gist thereof. For example, in the first to third embodiments and the first reference embodiment , an example of a power conversion device in which a male connector is held in a connector holding portion of a cover is shown, but a female connector is used instead of the male connector. You can also do it.

1, 102, 103, 104 Power converter 2 Electronic components 3, 304 Circuit board 4, 402 Connector 41 Connector terminal 5 Case 6, 602, 603, 604 Cover 61, 65 Connector holding part 7, 702 Sealing material

Claims (4)

Electronic components (2) and
Circuit boards (3, 304) electrically connected to the electronic components
A connector (4) having a connector terminal (41) for electrically connecting the circuit board to an external circuit, and a plate portion (42) having a flat plate shape and holding the connector terminal.
A case (5) having an opening and accommodating the electronic component and the circuit board, and
A connector holding portion (61) for holding the connector while exposing the connector terminal to the outside, and a connector terminal observation window (615) provided at a position where the connection portion between the circuit board and the connector terminal can be observed. A cover (6, 604) that covers the opening of the case and
It has a sealing material (7) that closes the gap between the connector and the connector holding portion .
The connector holding portion has a connector support plate (611) facing the plate portion via the sealing material, and the sealing material is sandwiched between the plate portion and the connector support plate. Power converter (1,104) . Electronic components (2) and
A circuit board (3) electrically connected to the above electronic components and
A connector (4) having a connector terminal (41) for electrically connecting the circuit board to an external circuit, and a plate portion (42) having a flat plate shape and holding the connector terminal.
A case (5) having an opening and accommodating the electronic component and the circuit board, and
A cover (603) provided with a connector holding portion (61) for holding the connector while exposing the connector terminal to the outside, and a cover (603) covering the opening of the case.
It has a sealing material (7) that closes the gap between the connector and the connector holding portion.
The connector holding portion has a connector support plate (611) facing the plate portion via the sealing material, and the sealing material is sandwiched between the plate portion and the connector support plate. Ori,
The circuit board is held by the cover and
The cover is a power conversion device (103) having a component terminal observation window (622) provided at a position where a connection portion between the circuit board and the electronic component can be observed. Electronic components (2) and
A circuit board (304) electrically connected to the electronic component and
A connector (4) having a connector terminal (41) for electrically connecting the circuit board to an external circuit, and a plate portion (42) having a flat plate shape and holding the connector terminal.
A case (5) having an opening and accommodating the electronic component and the circuit board, and
A cover (604) provided with a connector holding portion (61) for holding the connector while exposing the connector terminal to the outside, and a cover (604) covering the opening of the case.
It has a sealing material (7) that closes the gap between the connector and the connector holding portion.
The connector holding portion has a connector support plate (611) facing the plate portion via the sealing material, and the sealing material is sandwiched between the plate portion and the connector support plate. Ori,
The circuit board includes a first circuit board (304a) electrically connected to the connector and a second circuit board (304b) directly connected to the electronic component, and the first circuit. The board is a power converter (104) that is electrically connected to the electronic component via the second circuit board. The cover (604) further includes the first circuit board and the second circuit board and the circuit terminals observation window provided in a position visible connection portion (624), according to claim 3 Power converter (104).

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