JP2011259605A - Power conversion device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power conversion device that can realize downsizing and cost reduction.SOLUTION: Wire 3 for conducting electrical connection between parts is laid in a case 2 of a power conversion device. The wire 3 is held on a holding gap 5 formed between an inside part (frame 4) provided internally and an outside part (case 2) provided at the outside of the inside part, in the components including the case 2 of the power conversion device. The holding gap 5 having an opening 51 in at least one side thereof, which gradually narrows from the side of the opening 51 to the opposite side. When the width of the opening 51 of the holding gap 5 is a, the width of the narrowest part 52 in the holding gap 5 is b and the wire diameter is c, these relations are a>c>b.

Description

  The present invention relates to a power conversion device that performs power conversion between input power and output power.

For example, in a power conversion device such as an inverter or a converter mounted on a vehicle such as an electric vehicle or a hybrid vehicle, the components are accommodated in the case, and wires for electrical connection between the components are wound in the case. Has been.
In such a power conversion device, in order to hold the wire in a predetermined position, it is conceivable to use a clamp member or form a hook structure on a component part to hold the wire (patent) References 1-3).

JP 2009-19650 A JP 7-288164 A JP 2006-320114 A

  However, if a clamp member is used or a hook structure is formed as described above, the number of parts increases, and it is necessary to secure these spaces, thereby reducing the size and cost of the power conversion device. There is a risk that it will be difficult to respond to the demands for making it possible.

  The present invention has been made in view of such problems, and an object of the present invention is to provide a power conversion device that can realize downsizing and cost reduction.

The present invention is a power conversion device that performs power conversion between input power and output power,
In the case of the power converter, a wire for electrical connection between components is wound around,
Among the components including the case in the power conversion device, the wire is placed in a holding gap formed between an inner part arranged on the inner side and an outer part arranged on the outer side of the inner part. Is retained,
The holding gap has an opening on at least one side and is configured to narrow from the opening side toward the opposite side,
When the width of the opening of the holding gap is a, the width of the narrowest portion of the holding gap where the width is the narrowest is b, and the diameter of the wire is c, these are: a>c> b The power converter is characterized by having a relationship (claim 1).

  In the power conversion device, the wire is held in the holding gap formed between the inner part and the outer part. The inner part and the outer part are components of the power conversion device. Therefore, in order to hold the wire, it is not necessary to use a holding part or to form a hook structure. Therefore, the number of parts of the power conversion device can be reduced and space saving can be achieved.

Since the holding gap is configured to become narrower from the opening side toward the opposite side, the wire is pushed into the holding gap by pushing the wire from the opening side when placing the wire. Can be easily held.
The width a of the opening, the width b of the narrowest portion, and the diameter c of the wire have a relationship of a>c> b. Thus, the wire can be reliably disposed and held in the holding gap.

  As described above, according to the present invention, it is possible to provide a power conversion device capable of realizing downsizing and cost reduction.

The top view of the power converter device in Example 1. FIG. FIG. 3 is an explanatory view of a wire holding state corresponding to a cross section taken along line AA in FIG. Sectional explanatory drawing of the holding state of the wire in Example 2. FIG. Plane explanatory drawing of the retreat recessed part in Example 3. FIG. Plane explanatory drawing at the time of the attachment or detachment of the wire with the board | substrate side connector in Example 3. FIG. Sectional explanatory drawing at the time of the attachment or detachment of the wire with the board | substrate side connector in Example 3. FIG. Plane explanatory drawing of the receding recessed part in Example 4. FIG.

In the present invention, it is preferable that the inner part and the outer part have a tapered surface facing the holding gap (Claim 2).
In this case, when the wire is disposed in the holding gap, the wire can be easily and reliably held in the holding gap by pushing the wire from the opening side.

Further, at least one of the inner part and the outer part may be formed with a stepped opposing surface facing the holding gap (claim 3).
In this case, the wire can be easily held at a predetermined position in the holding gap.

The power conversion device includes a semiconductor module including a switching element, a cooler that cools the semiconductor module, and a frame that holds the semiconductor module and the cooler in the case. Preferably, the inner part is the frame, and the outer part is the case.
In this case, the wire can be easily held over a wide range in the longitudinal direction, and the fixed state of the wire in the case can be further stabilized.

In the power conversion device, a control circuit board including a control circuit for controlling the semiconductor module is disposed in the case, and the wire is disposed on a side of the control circuit board along the holding gap. It is preferable that a connector for connecting one end of each is provided.
In this case, one end of the wire can be connected to the connector while the wire is held in the holding gap formed between the frame and the case. Therefore, the wire can be efficiently wound and the wiring distance can be shortened.

Further, it is preferable that the case has a receding recess that recedes outward at a portion facing the connector.
In this case, when one end of the wire is attached to or detached from the connector, a part of the wire can be disposed in the receding recess, so that the attaching / detaching workability can be improved.

The receding recess is preferably formed continuously with the holding gap (claim 7).
In this case, while holding a part of the wire in the holding gap, the other part of the wire can be connected to the connector or detached from the connector while being disposed in the retracted recess. Therefore, the detachability workability can be further improved.

Example 1
A power converter according to an embodiment of the present invention will be described with reference to FIGS.
In the power conversion device 1 of this example, a wire 3 that performs electrical connection between components is wound around in the case 2.
Of the components including the case 2 in the power conversion device 1, the wire 3 is inserted into the holding gap 5 formed between the inner part disposed on the inner side and the outer part disposed on the outer side of the inner part. Is retained.

In this example, the inner part is the frame 4, and the outer part is the case 2.
The frame 4 holds a semiconductor module (not shown) incorporating a switching element and a cooler (not shown) for cooling the semiconductor module inside. The frame 4 holding the semiconductor module and the cooler is accommodated in the case 2 and fixed.

As shown in FIG. 2, the holding gap 5 has an opening 51 on at least one side, and is configured to narrow from the opening 51 side toward the opposite side.
When the width of the opening 51 of the holding gap 5 is a, the width of the narrowest portion 52 where the width of the holding gap 5 is the narrowest is b, and the diameter of the wire 3 is c, these are a>c> b Have the relationship.

  The frame 4 and the case 2 are formed with tapered surfaces 41 and 21 facing the holding gap 5. That is, at least one of the pair of opposed surfaces 41 and 21 is inclined with respect to the opening direction of the holding gap 5. The holding gap 5 is gradually narrowed from the opening 51 toward the narrowest portion 52.

In addition, the power conversion device 1 includes a control circuit board 6 provided with a control circuit for controlling the semiconductor module in the case 2. The control circuit board 6 is provided with a connector (board-side connector 61) for connecting one end of the wire 3 on the side along the holding gap 5.
A wire side connector 31 that is paired with the board side connector 61 is attached to one end of the wire 3 connected to the board side connector 61. The board side connector 61 and the wire side connector 31 are detachably connected to each other.

The other end of the wire 3 is connected to an external connector 32 that is fixed to the case 2 and is exposed from the case 2 and connected to an external device.
In other words, the wire 3 in this example is a signal wire for electrically connecting a control circuit and an external device such as an ECU (engine control unit) and transferring a signal current (low voltage current) between them. is there.
The wire 3 is formed by covering a conductor wire with a resin or the like, has elasticity in the radial direction, and has flexibility.

The case 2 and the frame 4 are made of a metal such as aluminum. Further, the case 2 shown in FIG. 1 is configured to be closed by a lid (not shown) that covers the opening, so that the watertightness inside and outside the case 2 is maintained.
In addition, the power converter device 1 of this example is mounted in vehicles, such as an electric vehicle and a hybrid vehicle, for example, and is used for generation | occurrence | production of these drive electric power, or regeneration of electric power.

Next, the function and effect of this example will be described.
In the power converter 1, the wire 3 is held in a holding gap 5 formed between the inner part (frame 4) and the outer part (case 2). The frame 4 and the case 2 are components of the power conversion device 1. Therefore, in order to hold the wire 3, it is not necessary to use a holding part or to form a hook structure. Therefore, the number of parts of the power conversion device 1 can be reduced and space saving can be achieved.

Since the holding gap 5 is configured to become narrower from the opening 51 side toward the opposite side, when the wire 3 is arranged, the holding gap 5 is pushed by pushing the wire 3 from the opening 51 side. The wire 3 can be easily held in the gap 5.
The width a of the opening 51, the width b of the narrowest portion 52, and the diameter c of the wire 3 have a relationship of a>c> b. Thereby, the wire 3 can be reliably placed and held in the holding gap 5.

  Further, the frame 4 and the case 2 have opposing surfaces 41 and 21 facing the holding gap 5 formed in a tapered shape. Thereby, when the wire 3 is disposed in the holding gap 5, the wire 3 can be easily and reliably held in the holding gap 5 by pushing the wire 3 from the opening 51 side.

Further, the power conversion device 1 forms a holding gap 5 between the frame 4 and the case 2. Therefore, the wire 3 can be easily held over a wide range in the longitudinal direction, and the fixed state of the wire 3 in the case 2 can be further stabilized.
A connector (substrate-side connector 61) for connecting one end of the wire 3 is provided on the side of the control circuit board 6 along the holding gap 5. Therefore, the wire-side connector 31 attached to one end of the wire 3 can be connected to the board-side connector 61 while holding the wire 3 in the holding gap 5 formed between the frame 4 and the case 2. Therefore, the wire 3 can be efficiently wound and the wiring distance can be shortened.

  As described above, according to this example, it is possible to provide a power conversion device that can realize downsizing and cost reduction.

(Example 2)
In this example, as shown in FIG. 3, the facing surface 21 facing the holding gap 5 in the case 2 which is an outer part is formed in a stepped shape.
That is, the step portion 211 is provided on the facing surface 21 on the case 2 side. The holding gap 5 has a narrowest portion 52 between the facing surface 21 of the case 2 and the facing surface 41 of the frame 4 on the side farther from the opening 51 than the stepped portion 211.
Further, the wire 3 is held in the holding gap 5 while being placed on the stepped portion 211.
Others are the same as in the first embodiment.

In the case of this example, the wire 3 can be easily held at a predetermined position in the holding gap 5.
In addition, the same effects as those of the first embodiment are obtained.

(Example 3)
In this example, as shown in FIGS. 4 to 6, the case 2 has a receding recess 22 that recedes outward at a portion facing the board-side connector 61.
In this example, the receding recess 22 is formed in a substantially arc shape. Further, as shown in FIG. 6, the receding recess 22 is formed continuously with the holding gap 5.
Others are the same as in the first embodiment.

In the case of this example, as shown in FIG. 5, when one end (wire side connector 31) of the wire 3 is attached to and detached from the board side connector 61, a part of the wire 3 can be disposed in the receding recess 22. The attachment / detachment workability can be improved.
Further, since the retracting recess 22 is formed continuously with the holding gap 5, another part of the wire 3 is disposed in the retracting recess 22 while holding a part of the wire 3 in the holding gap 5. However, it can be connected to the board-side connector 61 or detached from the board-side connector 61. Therefore, the detachability workability can be further improved.
In addition, the same effects as those of the first embodiment are obtained.

Example 4
In this example, as shown in FIG. 7, the shape of the receding recess 22 is tapered.
Specifically, the receding recess 22 has a tapered surface 221 that gradually recedes from the connection side of the wire 3 to the external connector 32 (see FIG. 1) toward the opposite side thereof toward the opposite side of the board-side connector 61.
Others are the same as in the third embodiment.

In the case of this example, when one end of the wire 3 (wire side connector 31) is attached to or detached from the board side connector 61, the bending angle of the wire 3 can be made gentle, so that the attaching / detaching operation can be further facilitated. it can.
In addition, the same effects as those of the third embodiment are obtained.

  In addition, as the shape of the opposing surfaces 21 and 41 facing the holding gap 5, both the opposing surfaces 21 and 41 are tapered in the first embodiment, and the opposing surfaces on the outer part (case 2) side in the second embodiment. Although the example which made 21 step shape was shown, this invention is not limited to these. For example, only one of the opposing surfaces 21 and 41 may be tapered, or both the opposing surfaces 21 and 41 may be stepped. Alternatively, only the facing surface 41 on the inner part (frame 4) side may be stepped.

In Examples 1 to 4, the frame 4 and the case 2 were used as the inner part and the outer part, respectively, which form the holding gap 5 between them, but the inner part and the outer part in the present invention are It is not restricted to these, You may use the other components which comprise the power converter device 1. FIG.
For example, a capacitor constituting a part of the power conversion circuit, a terminal block equipped with various terminals, or the like can be used as the inner part. The frame 4 can also be used as an outer part.

1 Power converter 2 Case (outside parts)
21 Opposing surface 3 Wire 4 Frame (inner part)
41 Opposing surface 5 Holding gap 51 Opening 52 Narrowest part

Claims (7)

A power conversion device that performs power conversion between input power and output power,
In the case of the power converter, a wire for electrical connection between components is wound around,
Among the components including the case in the power conversion device, the wire is placed in a holding gap formed between an inner part arranged on the inner side and an outer part arranged on the outer side of the inner part. Is retained,
The holding gap has an opening on at least one side and is configured to narrow from the opening side toward the opposite side,
When the width of the opening of the holding gap is a, the width of the narrowest portion of the holding gap where the width is the narrowest is b, and the diameter of the wire is c, these are: a>c> b A power converter characterized by having a relationship.   The power converter according to claim 1, wherein the inner part and the outer part are formed with a tapered surface facing the holding gap.   2. The power conversion device according to claim 1, wherein at least one of the inner part and the outer part is formed with a stepped opposing surface facing the holding gap.   4. The power conversion device according to claim 1, wherein the power conversion device includes a semiconductor module including a switching element, a cooler that cools the semiconductor module, the semiconductor module, and the cooler. A power conversion apparatus comprising: a frame for holding the frame, wherein the inner part is the frame, and the outer part is the case.   5. The power conversion device according to claim 4, wherein the power conversion device includes a control circuit board provided with a control circuit for controlling the semiconductor module in the case, and the holding circuit in the control circuit board. A power conversion device, wherein a connector for connecting one end of the wire is provided on a side along the gap.   6. The power converter according to claim 5, wherein the case has a receding recess that recedes outward at a portion facing the connector.   The power converter according to claim 6, wherein the receding recess is formed continuously with the holding gap.

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