JP2014045035A - Capacitor device - Google Patents

Abstract

A capacitor device that can be miniaturized is provided.
A capacitor device includes a plurality of capacitor elements, a capacitor case that accommodates the plurality of capacitor elements, a power input terminal that is electrically connected to a power source, and a power input terminal that is electrically connected to the power source input terminal. And a power supply terminal 51 for supplying the power of the power input to the power input terminal 41 to another electronic device. The capacitor case 2 has a bottom surface portion 21 and a side surface portion 22 erected from the bottom surface portion 21, and has an opening on the side opposite to the bottom surface portion 21 side. A step portion 23 is provided in a part of the side surface portion 22. A power supply terminal 51 is disposed on the step portion 23.
[Selection] Figure 1

Description

  The present invention relates to a capacitor device including a plurality of capacitor elements.

  Examples of a capacitor device that constitutes a part of a power converter such as an inverter mounted on an electric vehicle, a hybrid vehicle, etc. include, for example, a plurality of capacitor elements, a capacitor case that accommodates the plurality of capacitor elements, a power source, and an electric A power supply input terminal connected to the power supply input terminal, and a power supply terminal electrically connected to the power supply input terminal for supplying the power of the power supply input to the power supply input terminal to another electronic device. There is a thing (refer patent document 1).

JP 2012-23331 A

However, the capacitor device is provided such that the power input terminal and the power supply terminal protrude outward from the side surface of the capacitor case. Therefore, there is a problem that the size of the capacitor device becomes large.
For this reason, a capacitor device that can prevent the physique from expanding due to the power input terminal and the power supply terminal is desired.

  The present invention has been made in view of such a background, and an object of the present invention is to provide a capacitor device that can be miniaturized.

One aspect of the present invention includes a plurality of capacitor elements;
A capacitor case containing the plurality of capacitor elements;
A power input terminal electrically connected to the power source;
A power supply terminal that is electrically connected to the power input terminal and supplies the power of the power source input to the power input terminal to another electronic device;
The capacitor case has a bottom surface portion and a side surface portion erected from the bottom surface portion, and has an opening on the side opposite to the bottom surface portion side,
A step portion is provided in a part of the side surface portion,
In the capacitor device, at least one of the power input terminal and the power supply terminal is disposed at the step portion.

  In the above capacitor device, a capacitor case that houses a plurality of capacitor elements has a bottom surface portion and a side surface portion erected from the bottom surface portion. A step portion is provided in a part of the side surface portion, and at least one of a power input terminal and a power supply terminal is disposed on the step portion. That is, since the power input terminal and the power supply terminal are arranged in the space generated by providing the step portion, the space can be effectively used. Thereby, the expansion of the physique due to the power input terminal or the power supply terminal can be prevented, and the capacitor device can be downsized.

  In this way, a capacitor device that can be miniaturized can be provided.

1 is a perspective view showing a capacitor device in Embodiment 1. FIG. FIG. 3 is an explanatory plan view showing the capacitor device according to the first embodiment. FIG. 3 is a cross-sectional explanatory view taken along the line III-III in FIG. 2. FIG. 6 is an explanatory plan view showing a capacitor device according to a second embodiment. Cross-sectional explanatory drawing of the VV line | wire arrow of FIG.

In the capacitor device, the side surface portion of the capacitor case has a step forming portion that forms the step portion, and either the power input terminal or the power supply terminal is connected to the step portion of the side surface portion. The other side may be arrange | positioned in the position facing the said level | step difference formation part in the said side part (Claim 2).
In this case, for example, the connection between the power input terminal and the power supply terminal is facilitated, and it is possible to prevent the shape of the bus bar or the like connecting both from being complicated. As a result, the structure of the capacitor device can be simplified.

The capacitor case is provided with a filter capacitor portion and a smoothing capacitor portion formed by the plurality of capacitor elements, and the step portion of the capacitor case is different from the filter capacitor portion and the smoothing portion having different physiques. It may be provided in a space formed by the capacitor portion (claim 3).
In this case, the space can be used effectively by providing a step portion in the space generated by the difference in physique between the filter capacitor unit and the smoothing capacitor unit, and the capacitor device can be effectively downsized. Can do.

Moreover, the said capacitor | condenser apparatus may comprise some power converters (Claim 4).
In this case, with the downsizing of the capacitor device, it is possible to reduce the size of the power conversion device and effectively use the space.
Examples of the power converter include an inverter. The power conversion device is used for generating a drive current for energizing an AC motor that is a power source of an electric vehicle, a hybrid vehicle, or the like.

Example 1
Examples of the capacitor device 1 will be described with reference to the drawings.
1 to 3, the capacitor device 1 of this example includes a plurality of capacitor elements 30, a capacitor case 2 that houses the plurality of capacitor elements 30, and a power input terminal 41 that is electrically connected to a power source. And a power supply terminal 51 that is electrically connected to the power input terminal 41 and supplies power of the power input to the power input terminal 41 to other electronic devices.

As shown in the figure, the capacitor case 2 has a bottom surface portion 21 and a side surface portion 22 erected from the bottom surface portion 21, and is open on the side opposite to the bottom surface portion 21 side. A step portion 23 is provided in a part of the side surface portion 22. A power supply terminal 51 is disposed on the step portion 23.
This will be described in detail below.

  As shown in FIG. 1, the capacitor | condenser apparatus 1 comprises some power converters, such as an inverter mounted in an electric vehicle, a hybrid vehicle, etc. The power conversion device is used, for example, to generate a drive current for energizing an AC motor that is a power source of an electric vehicle, a hybrid vehicle or the like.

  As shown in FIGS. 2 and 3, the capacitor case 2 has a bottom surface portion 21 and a side surface portion 22 erected from the bottom surface portion 21. The side surface portion 22 is formed so as to surround a plurality of capacitor elements 30 (a filter capacitor portion 31 and a smoothing capacitor portion 32 described later) housed in the capacitor case 2. The capacitor case 2 has an opening on the side opposite to the bottom surface portion 21 side.

  As shown in FIG. 2, the side surface portion 22 includes a first side wall portion 221 and a second side wall portion 222 that face each other. A fixing portion 229 for fixing the capacitor device 1 to a fixed portion (not shown) is provided on the first side wall portion 221 and the second side wall portion 222 so as to protrude outward. The side surface portion 22 has a third side wall portion 223 and a fourth side wall portion 224 that face each other in a direction (Y direction) orthogonal to a direction (X direction) in which the first side wall portion 221 and the second side wall portion 222 face each other. Have

  Further, the side surface part 22 is provided between the first side wall part 221 and the third side wall part 223 and has two step forming parts 231 that form the step part 23 in a part of the side surface part 22. Of the two step forming portions 231, one step forming portion 231 is disposed to face the second side wall portion 222. The other step forming portion 231 is disposed so as to face the fourth side wall portion 224. And the two level | step difference formation parts 231 form the level | step-difference part 23 which dented the side part 22 inside.

  As shown in FIGS. 2 and 3, a plurality of capacitor elements 30 are accommodated in the capacitor case 2. The plurality of capacitor elements 30 are sealed with a potting material 29 filled in the capacitor case 2. Further, a potting surface 290 is formed on the opening side of the capacitor case 2 by exposing the potting material 29. As the potting material 29, for example, an epoxy resin, a silicone resin, or the like can be used.

  In the capacitor case 2, a filter capacitor unit 31 configured by a plurality of capacitor elements 30 and a smoothing capacitor unit 32 configured by a plurality of capacitor elements 30 are provided. The filter capacitor unit 31 and the smoothing capacitor unit 32 are arranged side by side in a direction (Y direction) in which the third sidewall portion 223 and the fourth sidewall portion 224 of the side surface portion 22 face each other.

  As shown in FIG. 2, the filter capacitor unit 31 and the smoothing capacitor unit 32 are different in physique. In this example, the smoothing capacitor portion 32 is longer in the X direction than the filter capacitor portion 31. A stepped portion 23 of the capacitor case 2 is provided in the space 33 generated by the difference in physique between the filter capacitor portion 31 and the smoothing capacitor portion 32.

  As shown in FIGS. 1 and 2, the pair of power input terminals 41 are each pulled out from the potting surface 290 on the opening side of the capacitor case 2 and constitute the tip of the plate-like bus bar 4 formed by bending. . The pair of power input terminals 41 is disposed at a position facing the other step forming portion 231 (step portion 23) in the side surface portion 22 of the capacitor case 2 in the Y direction, that is, on the fourth side wall portion 224 side.

  Similarly to the pair of power input terminals 41, the pair of power supply terminals 51 are each drawn out from the potting surface 290 on the opening side of the capacitor case 2 and constitute the tip of the plate-like bus bar 5 formed by bending. doing. The pair of power supply terminals 51 are arranged on the step portion 23 provided on the side surface portion 22 of the capacitor case 2.

  The pair of power input terminals 41 are electrically connected to the positive electrode side and the negative electrode side of a power source provided outside, respectively. Further, the pair of power input terminals 41 are electrically connected to the pair of power supply terminals 51. The pair of power supply terminals 51 are electrically connected to other electronic devices (for example, a DC-DC converter or the like), and can supply power of the power input to the pair of power input terminals 41. It is configured to be able to. The pair of power input terminals 41 and the pair of power supply terminals 51 are electrically connected to the capacitor element 30 and the like in the capacitor case 2.

As shown in the figure, the capacitor device 1 is provided with a pair of capacitor terminals 61 connected to a plurality of semiconductor modules (not shown) having semiconductor elements. The pair of capacitor terminals 61 are provided so as to protrude from the potting surface 290 on the opening side of the capacitor case 2. The pair of capacitor terminals 61 is electrically connected to the capacitor element 30 and the like in the capacitor case 2. Each capacitor terminal 61 has a plurality of connection portions 611 connected to the terminals of the semiconductor module.
In FIG. 2, detailed illustration of the capacitor terminal 61 is omitted, and further, the illustration of the connection portion 611 is omitted. The same applies to FIG. 4 described later.

Next, the function and effect of the capacitor device 1 of this example will be described.
In the capacitor device 1 of the present example, the capacitor case 2 that accommodates the plurality of capacitor elements 30 includes a bottom surface portion 21 and a side surface portion 22 that is erected from the bottom surface portion 21. A step portion 23 is provided in a part of the side surface portion 22, and at least one of the power input terminal 41 and the power supply terminal 51 is disposed on the step portion 23. That is, since the power input terminal 41 and the power supply terminal 51 are arranged in the space generated by providing the step portion 23, the space can be effectively used. Thereby, the expansion of the physique by the power input terminal 41 and the power supply terminal 51 can be prevented, and the capacitor device 1 can be downsized.

  In this example, the side surface portion 22 of the capacitor case 2 has two step forming portions 231 that form the step portions 23. In addition, one of the power input terminal 41 and the power supply terminal 51 is disposed in the step portion 23 of the side surface portion 22, and the other is disposed in a position facing the other step forming portion 231 in the side surface portion 22. ing. Therefore, for example, the connection between the power input terminal 41 and the power supply terminal 51 is facilitated, and it is possible to prevent the shape of a bus bar or the like connecting both from being complicated. Thereby, the structure of the capacitor | condenser apparatus 1 can be simplified.

  In the capacitor case 2, a filter capacitor unit 31 and a smoothing capacitor unit 32 each including a plurality of capacitor elements 30 are provided. Further, the step portion 23 of the capacitor case 2 is provided in a space formed by the filter capacitor portion 31 and the smoothing capacitor portion 32 having different physiques. That is, by providing the step portion 23 in the space 33 generated by the difference in physique between the filter capacitor unit 31 and the smoothing capacitor unit 32, the space can be effectively used, and the capacitor device 1 can be effectively reduced in size. Can be planned.

  Moreover, the capacitor | condenser apparatus 1 comprises a part of power converter device. Therefore, with the downsizing of the capacitor device 1, it is possible to reduce the size of the power conversion device and effectively use the space.

  Thus, according to this example, it is possible to provide the capacitor device 1 that can be miniaturized.

(Example 2)
In this example, as shown in FIGS. 4 and 5, the arrangement of the filter capacitor unit 31 and the smoothing capacitor unit 32 in the capacitor case 2 is changed.
As shown in the figure, in the capacitor case 2, the filter capacitor portion 31 and the smoothing capacitor portion 32 are arranged in a direction (X direction) in which the first side wall portion 221 and the second side wall portion 222 of the side surface portion 22 face each other. Has been placed.

Moreover, as shown in FIG. 4, the filter capacitor | condenser part 31 and the smoothing capacitor part 32 differ in physique. In this example, the length of the smoothing capacitor portion 32 is longer than the filter capacitor portion 31 in the direction (Y direction) in which the third side wall portion 223 and the fourth side wall portion 224 of the side surface portion 22 face each other. A stepped portion 23 of the capacitor case 2 is provided in the space 33 generated by the difference in physique between the filter capacitor portion 31 and the smoothing capacitor portion 32.
Other basic configurations and operational effects are the same as those of the first embodiment. Moreover, about the structure similar to Example 1, the same code | symbol is attached | subjected and the description is abbreviate | omitted.

DESCRIPTION OF SYMBOLS 1 Capacitor apparatus 2 Capacitor case 21 Bottom part 22 Side part 23 Step part 30 Capacitor element 41 Power supply input terminal 51 Power supply terminal

Claims (4)

A plurality of capacitor elements (30);
A capacitor case (2) for housing the plurality of capacitor elements (30);
A power input terminal (41) electrically connected to the power source;
A power supply terminal (51) that is electrically connected to the power input terminal (41) and supplies the power of the power source input to the power input terminal (41) to another electronic device;
The capacitor case (2) has a bottom surface portion (21) and a side surface portion (22) erected from the bottom surface portion (21), and has an opening opposite to the bottom surface portion (21) side. Become
A step portion (23) is provided in a part of the side surface portion (22).
The capacitor device (1), wherein at least one of the power input terminal (41) and the power supply terminal (51) is disposed at the step portion (23).   The capacitor device (1) according to claim 1, wherein the side surface portion (22) of the capacitor case (2) has a step forming portion (231) that forms the step portion (23), and the power input One of the terminal (41) and the power supply terminal (51) is disposed on the step portion (23) of the side surface portion (22), and the other is the step formation on the side surface portion (22). Capacitor device (1), wherein the capacitor device (1) is disposed at a position facing the portion (231).   3. The capacitor device (1) according to claim 1, wherein a filter capacitor part (31) and a smoothing capacitor part (32) constituted by the plurality of capacitor elements (30) are provided in the capacitor case (2). The step portion (23) of the capacitor case (2) is provided in a space (33) formed by the filter capacitor portion (31) and the smoothing capacitor portion (32) having different physiques. The capacitor | condenser apparatus (1) characterized by the above-mentioned.   The capacitor | condenser apparatus (1) of any one of Claims 1-3 WHEREIN: A capacitor | condenser apparatus (1) characterized by comprising a part of power converter device.

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