JP6443110B2 - Electric compressor - Google Patents

Description

  The present invention relates to an electric compressor.

  For example, as disclosed in Patent Document 1, a housing of an electric compressor accommodates a compression unit that compresses a refrigerant and an electric motor that drives the compression unit. A cover is attached to the outer surface of the housing, and a motor drive circuit for driving the electric motor is accommodated in an accommodation space defined by the outer surface of the housing and the cover. The motor drive circuit includes a flat circuit board and electrical components mounted on the circuit board. The circuit board is electrically connected to an external power source on the vehicle side via a bus bar (wiring). Then, electric power is supplied from the external power source to the circuit board via the bus bar.

JP 2011-144788 A

  By the way, depending on the restrictions on the mounting space of the electric compressor for the vehicle, the connection position between the first end of the bus bar and the circuit board, and the connection position between the second end of the bus bar and the external power supply In some cases, they are arranged at positions shifted from each other in the plane direction. In this case, it may be difficult to handle the bus bar from the circuit board to the external power source.

  The present invention has been made to solve the above problems, and an object of the present invention is to provide an electric compressor capable of facilitating wiring from a circuit board to an external power source. .

  An electric compressor that solves the above problems includes a housing that houses a compression unit and an electric motor, a cover that is attached to the outer surface of the housing, a motor drive circuit that is disposed between the outer surface of the housing and the cover, Wiring for supplying power from an external power source to the circuit board of the motor drive circuit, a connection position between the first end of the wiring and the circuit board, a second end of the wiring, and the external power source Are connected to each other in a plane direction of the circuit board, and the wiring includes a first wiring member having the first end and the second end. A first connecting portion that is an end of the first wiring member opposite to the first end, and the second end of the second wiring member. The second connection that is the opposite end Parts and are electrically connected.

  According to this, since the wiring is configured by electrically connecting the first connection portion of the first wiring member and the second connection portion of the second wiring member, the wiring is connected from the first end portion to the second end portion. Compared to the case where the wiring is integrally formed, the wiring from the circuit board to the external power supply can be easily made.

  In the above-described electric compressor, the cover is provided with a cylindrical connector connecting portion in which the second end portion is disposed, and the tip end of the first end portion and the tip end of the second end portion are provided. Are preferably oriented in the same direction.

  For example, consider a case where the tip of the first end and the tip of the second end are oriented in the same direction, and the wiring is integrally formed from the first end to the second end. In this case, in order to arrange the first end portion at the connection position with the circuit board and the second end portion at the connection position with the external power source, a large hole into which the entire wiring can be inserted inside the cover is covered. Need to be formed. If a large hole is formed in the cover, the strength of the cover is reduced, and the connector connecting portion is likely to vibrate with the base end as a base point. Therefore, for example, the first wiring member is disposed inside the cover so that the first end portion is disposed at the connection position with the circuit board, and the second connection portion of the second wiring member is disposed on the first wiring member. Electrically connected to the first connection portion. Thus, in order to arrange the first end portion at the connection position with the circuit board and the second end portion at the connection position with the external power source, the cover has a large hole through which the entire wiring can be inserted inside the cover. There is no need to form the cover, and the strength of the cover can be ensured. As a result, it is possible to easily suppress the vibration with the base end portion in the connector connecting portion as a base point.

In the electric compressor, it is preferable that the first connection portion and the second connection portion are electrically connected via a connection terminal.
According to this, the electrical connection state between the first connection part and the second connection part is more reliable than when the first connection part and the second connection part are electrically connected by direct contact. Can be.

  In the electric compressor, the connection terminal is provided integrally with the first connection portion and has an insertion portion through which the second connection portion is inserted, and an insertion direction of the second connection portion with respect to the insertion portion. However, it is preferable that it is the same direction as the direction where the said 2nd wiring member is extended.

  For example, the connection terminal is integrally provided in the second connection part, the connection terminal has an insertion part through which the first connection part is inserted, and the insertion direction of the first connection part with respect to the insertion part is Consider a case where the two wiring members are different from the extending direction. In this case, when the external power source is connected to the second end, the load from the external power source is transmitted to the second wiring member, the second wiring member moves, and the position of the connection terminal is displaced. There is a possibility that the first connection portion inserted through the connector will be deformed following the displacement of the position of the connection terminal. Therefore, the connection terminal is provided integrally with the first connection portion, the connection terminal has an insertion portion through which the second connection portion is inserted, and the second wiring member extends in the insertion direction of the second connection portion with respect to the insertion portion. The direction is the same as the direction. According to this, even if the load from the external power source is transmitted to the second wiring member and the second wiring member tries to move, the load from the external power source can be received by the connection terminal.

  According to the present invention, the wiring from the circuit board to the external power supply can be made easy.

(A) is a side sectional view showing an electric compressor in an embodiment, (b) is a partial sectional view showing an enlarged part of the electric compressor. The exploded sectional view showing a part of electric compressor. The fragmentary sectional view which expands and shows a part of electric compressor in another embodiment.

Hereinafter, an embodiment embodying an electric compressor will be described with reference to FIGS. 1 and 2. The electric compressor is used for a vehicle air conditioner.
As shown in FIG. 1A, the housing 11 of the electric compressor 10 has a discharge housing 12 made of a metal material (for example, made of aluminum) that is a covered cylinder, and a bottomed cylinder connected to the discharge housing 12. And a suction housing 13 made of a metal material (for example, aluminum). The suction housing 13 is formed with a suction port (not shown), and the suction port is connected to an external refrigerant circuit (not shown). A discharge port 14 is formed in the discharge housing 12, and the discharge port 14 is connected to an external refrigerant circuit.

  In the suction housing 13, a compression unit 15 (shown by a broken line in FIG. 1A) for compressing the refrigerant and an electric motor 16 for driving the compression unit 15 are accommodated. A rotation shaft 17 is rotatably supported in the suction housing 13. In the present embodiment, although not particularly illustrated, the compression unit 15 includes a fixed scroll fixed in the suction housing 13 and a movable scroll disposed to face the fixed scroll. The electric motor 16 includes a stator 16 a (a stator) that is fixed to the inner peripheral surface of the suction housing 13, and a rotor 16 b that is fixed to the rotating shaft 17.

  A cover 20 made of a metal material (for example, made of aluminum) having a covered cylindrical shape is attached to the outer surface of the end wall 13a opposite to the discharge housing 12 in the suction housing 13. A motor drive circuit 18 for driving the electric motor 16 is disposed in the accommodation space 20 a defined by the outer surface of the end wall 13 a and the cover 20. That is, the motor drive circuit 18 is disposed between the outer surface of the end wall 13 a and the cover 20. And in this embodiment, the compression part 15, the electric motor 16, and the motor drive circuit 18 are arrange | positioned along with the direction (axial direction of the rotating shaft 17) where the rotating shaft L of the rotating shaft 17 extends in this order. .

  The motor drive circuit 18 has a flat circuit board 19. The circuit board 19 is disposed such that the mounting surface of the circuit board 19 extends (the plane direction of the circuit board 19) orthogonal to the axial direction of the rotation shaft 17. The circuit board 19 is provided with a drive control circuit (so-called inverter circuit) for the electric motor 16 and is electrically connected with a plurality of switching elements (not shown) and a plurality of electrical components 19a such as capacitors.

  The cover 20 is provided with a cylindrical connector connecting portion 21 to which an external connector 60 a of the external power source 60 is connected. The connector connecting portion 21 is continuous with the extending portion 20 b extending in the direction orthogonal to the axial direction of the rotating shaft 17 from the outer peripheral surface of the cover 20, and extends toward the electric motor 16 along the axial direction of the rotating shaft 17. Yes. The connector connecting portion 21 is integrally formed with the cover 20. The inside of the extension part 20b and the accommodation space 20a communicate.

  The electric compressor 10 includes a bus bar 30 as wiring for supplying electric power from the external power source 60 to the circuit board 19 of the motor drive circuit 18. The bus bar 30 is a first bus bar member 31 as a first wiring member having a first end portion 31 a connected to the circuit board 19 and a second wiring member having a second end portion 32 a connected to an external power source 60. Second bus bar member 32.

  As shown in FIG. 1B, the first bus bar member 31 includes a first extending portion 311 having a first end portion 31 a and extending linearly, and in a direction orthogonal to the first extending portion 311. The second extending portion 312 extends. The end portion of the second extension portion 312 opposite to the first extension portion 311 is a first connection portion 31b that is the end portion of the first bus bar member 31 opposite to the first end portion 31a. Yes. A connection terminal 33 is provided integrally with the first connection portion 31b. The first connection part 31b and the connection terminal 33 are electrically connected. The connection terminal 33 has an insertion part 33a.

  The first bus bar member 31 and the connection terminal 33 are molded and integrated by the first resin portion 41. The first bus bar member 31 is molded by the first resin portion 41 at a portion excluding the portion near the first end portion 31 a in the first extending portion 311. The connection terminal 33 is housed in the housing recess 41 a of the first resin portion 41. The opening direction of the insertion portion 33a of the connection terminal 33 coincides with the direction in which the first extension portion 311 extends, and the insertion portion 33a faces the direction in which the first extension portion 311 extends from the housing recess 41a. In the present embodiment, the first bus bar member 31, the connection terminal 33, and the first resin portion 41 constitute a first inner connector 51.

  The second bus bar member 32 extends linearly. The second end portion 32 a is disposed inside the connector connecting portion 21. The second connection portion 32 b, which is the end portion of the second bus bar member 32 opposite to the second end portion 32 a, is inserted into the insertion portion 33 a of the connection terminal 33. Specifically, the 2nd connection part 32b is penetrated by the insertion part 33a, and is crimped by the insertion part 33a. The first connection portion 31 b and the second connection portion 32 b are electrically connected via the connection terminal 33. The second bus bar member 32 is molded by the second resin portion 42 at a portion excluding a portion near the second end portion 32a and a portion near the second connection portion 32b. In the present embodiment, the second bus bar member 32 and the second resin portion 42 constitute a second inner connector 52.

  The first inner connector 51 is disposed from the accommodation space 20a to the inside of the extended portion 20b. Further, the second inner connector 52 is disposed near the extending portion 20 b inside the connector connecting portion 21. The first bus bar member 31 and the cover 20 are insulated by the first resin portion 41. In addition, the second bus bar member 32 and the connector connecting portion 21 are insulated by the second resin portion 42.

  The first extending portion 311 and the second bus bar member 32 of the first bus bar member 31 extend toward the electric motor 16 along the axial direction of the rotating shaft 17. Therefore, in this embodiment, the front-end | tip of the 1st end part 31a and the front-end | tip of the 2nd end part 32a have faced the same direction. The connector connecting portion 21 extends in the same direction as the direction in which the second bus bar member 32 (second end portion 32a) extends. In other words, the connector connecting portion 21 extends in the same direction as the direction in which the tip of the second end portion 32a faces. The insertion direction of the second connection portion 32b with respect to the insertion portion 33a is the same direction as the direction in which the second bus bar member 32 (second end portion 32a) extends.

Next, the operation of this embodiment will be described.
As shown in FIG. 2, the first inner connector 51 (first bus bar member 31) is arranged inside the cover 20 so that the first end portion 31 a is arranged at a connection position with the circuit board 19. Further, the second inner connector 52 is inserted into the connector connecting portion 21 through the opening of the connector connecting portion 21 opposite to the extending portion 20b. And the 2nd connection part 32b of the 2nd bus-bar member 32 is inserted in the insertion part 33a, and the 2nd connection part 32b is electrically connected to the 1st connection part 31b via the connection terminal 33. FIG. Accordingly, the first end portion 31 a is disposed at the connection position with the circuit board 19 and the second end portion 32 a is disposed at the connection position with the external power source 60.

  Subsequently, the first end portion 31a and the circuit board 19 are electrically connected, and the external connector 60a of the external power source 60 is connected to the connector connecting portion 21 so that the second end portion 32a and the external power source 60 are electrically connected. Connect to. As a result, power from the external power supply 60 is supplied to the circuit board 19 via the bus bar 30.

In the above embodiment, the following effects can be obtained.
(1) The bus bar 30 includes a first bus bar member 31 and a second bus bar member 32. A first connection portion 31b which is an end portion of the first bus bar member 31 opposite to the first end portion 31a, and a second connection which is an end portion of the second bus bar member 32 opposite to the second end portion 32a. The part 32b is electrically connected. According to this, the bus bar 30 is configured by electrically connecting the first connection part 31 b of the first bus bar member 31 and the second connection part 32 b of the second bus bar member 32. Therefore, it is possible to facilitate the handling of the bus bar 30 from the circuit board 19 to the external power source 60 as compared with the case where the bus bar 30 is integrally formed from the first end portion 31a to the second end portion 32a.

  (2) For example, the front end of the first end portion 31a and the front end of the second end portion 32a are oriented in the same direction, and the bus bar 30 is integrally formed from the first end portion 31a to the second end portion 32a. Think. In this case, the entire bus bar 30 is inserted inside the cover 20 in order to arrange the first end portion 31 a at the connection position with the circuit board 19 and the second end portion 32 a at the connection position with the external power source 60. It is necessary to make possible large holes in the cover 20. If a large hole is formed in the cover 20, the strength of the cover 20 is reduced, and the connector connecting portion 21 is likely to vibrate with the base end portion as a base point. Therefore, for example, the first bus bar member 31 is disposed inside the cover 20 so that the first end portion 31a is disposed at the connection position with the circuit board 19, and the second connection portion 32b of the second bus bar member 32 is disposed. The first bus bar member 31 is electrically connected to the first connection portion 31b. As a result, the entire bus bar 30 can be inserted inside the cover 20 in order to arrange the first end portion 31a at the connection position with the circuit board 19 and the second end portion 32a at the connection position with the external power source 60. It is not necessary to form a large hole in the cover 20, and the strength of the cover 20 can be ensured. As a result, it is possible to easily suppress vibration with the base end portion of the connector connecting portion 21 as a base point.

  (3) The first connection part 31 b and the second connection part 32 b are electrically connected via the connection terminal 33. According to this, compared with the case where it electrically connects by the 1st connection part 31b and the 2nd connection part 32b being in direct contact, the electrical connection of the 1st connection part 31b and the 2nd connection part 32b The state can be ensured.

  (4) For example, the connection terminal 33 is provided integrally with the second connection portion 32b, the connection terminal 33 has an insertion portion through which the first connection portion 31b is inserted, and the first connection portion 31b Consider a case where the insertion direction with respect to the insertion portion is different from the direction in which the second bus bar member 32 extends. In this case, when the external power source 60 is connected to the second end portion 32a, the load from the external power source 60 is transmitted to the second bus bar member 32, the second bus bar member 32 moves, and the position of the connection terminal 33 is reached. If is displaced, the first connecting part 31b inserted through the insertion part may be deformed following the displacement of the position of the connection terminal 33. Therefore, the connection terminal 33 is provided integrally with the first connection portion 31b, the connection terminal 33 has an insertion portion 33a through which the second connection portion 32b is inserted, and the insertion direction of the second connection portion 32b with respect to the insertion portion 33a is determined. The second bus bar member 32 extends in the same direction as the direction in which it extends. According to this, even if the load from the external power source 60 is transmitted to the second bus bar member 32 and the second bus bar member 32 tries to move, the load from the external power source 60 can be received by the connection terminal 33.

  (5) For example, when a large hole is formed in the cover 20 so that the entire bus bar 30 can be inserted into the cover 20, a plate that closes the hole, a seal member that seals between the plate and the cover 20, etc. Necessary. However, in this embodiment, since it is not necessary to form a large hole in the cover 20 that allows the entire bus bar 30 to be inserted inside the cover 20, a plate, a seal member, or the like is not necessary, and the number of parts can be reduced.

  (6) Since the bus bar 30 includes the first bus bar member 31 and the second bus bar member 32, the materials of the first bus bar member 31 and the second bus bar member 32 can be changed as appropriate. Therefore, for example, even when it is necessary to use different materials for the plating of the first end portion 31a and the plating of the second end portion 32a, the first bus bar member 31 or the second bus bar member 32 is simply replaced as appropriate. Therefore, the replacement work can be performed more smoothly than when the entire bus bar 30 is replaced with another one.

In addition, you may change the said embodiment as follows.
As shown in FIG. 3, the connector connecting portion 21 </ b> A may be a separate member from the cover 20. The connector connecting portion 21A is made of resin. The connector connecting portion 21 </ b> A is attached to the extending portion 20 b of the cover 20. The connector connecting portion 21 </ b> A extends toward the electric motor 16 along the axial direction of the rotating shaft 17. The second bus bar member 32 is molded by a connector connecting portion 21A except for a portion near the second end portion 32a and a portion near the second connecting portion 32b. Then, the connector connecting portion 21A is attached to the extending portion 20b, whereby the second connecting portion 32b is electrically connected to the first connecting portion 31b via the connecting terminal 33.

  In the embodiment, the second connection portion 32b is inserted into the insertion portion 33a and crimped to the insertion portion 33a. The first connection part 31b and the second connection part 32b may be electrically connected via the connection terminal 33 by welding the two connection parts 32b and the insertion part 33a.

In the embodiment, the connection terminal 33 is provided integrally with the second connection portion 32b, and the connection terminal 33 may have an insertion portion through which the first connection portion 31b is inserted.
In the embodiment, the insertion direction with respect to the insertion portion 33a in the second connection portion 32b may be a direction different from the direction in which the second end portion 32a extends.

In the embodiment, the connection terminal 33 may not be provided, and the first connection portion 31b and the second connection portion 32b may be electrically connected by direct contact.
In the embodiment, for example, the first extending portion 311 of the first bus bar member 31 extends toward the electric motor 16 along the axial direction of the rotary shaft 17, and the second bus bar member 32 is the shaft of the rotary shaft 17. You may extend to the opposite side to the electric motor 16 along the direction. That is, the tip end of the first end portion 31a and the tip end of the second end portion 32a may be directed in different directions.

In the embodiment, the second bus bar member 32 may be bent.
In the embodiment, a cable may be applied as the wiring.
In the embodiment, the cover 20 may be made of resin.

  In the embodiment, the cover 20 may be fixed to the peripheral wall of the suction housing 13, and the motor drive circuit 18 may be stored in the storage space 20 a defined by the peripheral wall of the suction housing 13 and the cover 20.

  In the embodiment, the compression unit 15, the electric motor 16, and the motor drive circuit 18 are arranged in this order along the axial direction of the rotary shaft 17. The electric motor 16, the compression unit 15, and the motor drive circuit 18 may be arranged in this order along the direction.

In embodiment, the compression part 15 is not restricted to the type comprised by a fixed scroll and a movable scroll, For example, you may change into a piston type, a vane type, etc.
(Circle) in embodiment, the electric compressor 10 may not be used for a vehicle air conditioner, and may be used for another air conditioner.

Next, the technical idea that can be grasped from the above embodiment and other examples will be described below.
(A) The compression unit, the electric motor, and the motor drive circuit are arranged side by side along the axial direction of the rotating shaft, and the planar direction of the circuit board is orthogonal to the axial direction of the rotating shaft. ing.

  DESCRIPTION OF SYMBOLS 10 ... Electric compressor, 11 ... Housing, 15 ... Compression part, 16 ... Electric motor, 18 ... Motor drive circuit, 19 ... Circuit board, 20 ... Cover, 21, 21A ... Connector connection part, 30 ... Bus bar as wiring, 31 ... 1st bus bar member as 1st wiring member, 31a ... 1st edge part, 31b ... 1st connection part, 32 ... 2nd bus bar member as 2nd wiring member, 32a ... 2nd edge part, 32b ... 2nd 2 connection part, 33 ... connection terminal, 33a ... insertion part, 60 ... external power supply.

Claims (3)

A housing for housing the rotating shaft, the compression unit and the electric motor;
A bottomed cylindrical cover attached to the outer surface of the housing;
A motor drive circuit disposed between an outer surface of the housing and the cover;
Wiring for supplying power from an external power source to the circuit board of the motor drive circuit,
It said compression unit, the electric motor and the motor drive circuit are arranged side by side along the axial direction of the rotary shaft, and the connecting position and the front Symbol wiring between the circuit board and the first end of the wire an electric compressor disposed in positions displaced from each other in the direction in which the second end portion and the connection position between the external power source is perpendicular to the axial direction of the pre-Symbol rotation axis,
The wiring is
A first bus bar member having the first end;
A second bus bar member having the second end,
A second connecting portion and the first end of the first bus bar member and the second end of the first connecting portion and the second bus bar member is an end portion opposite an end portion opposite Are electrically connected via the connection terminals ,
The cover includes
A cylindrical extension extending from the outer peripheral surface of the cover in a direction orthogonal to the axial direction of the rotary shaft;
A cylindrical connector connecting portion that is continuous with the extending portion and extends in the axial direction of the rotating shaft, and protrudes.
The first bus bar member and the connection terminal are molded by a first resin portion,
The first inner connector constituted by the first bus bar member, the connection terminal, and the first resin portion is slidable in the extending direction of the extending portion with respect to the inner peripheral surface of the extending portion. Are fitted in the extending portion, and are in contact with the inner peripheral surface of the connector connecting portion in the extending direction of the extending portion,
The second bus bar member is molded by a second resin portion;
The second inner connector constituted by the second bus bar member and the second resin portion is slidable in the axial direction of the rotary shaft with respect to the inner peripheral surface of the connector connecting portion. And is in contact with the first inner connector in the axial direction of the rotating shaft,
The connection terminal electrically connects the first connection portion and the second connection portion in a state where the second inner connector is in contact with the first inner connector in the axial direction of the rotation shaft. An electric compressor characterized by being a thing. The second end prior SL is disposed inside the connector connecting portion,
The electric compressor according to claim 1, wherein a tip end of the first end portion and a tip end of the second end portion are oriented in the same direction. The connection terminal includes an insertion portion in which the second connecting portion before Symbol is inserted,
The electric compressor according to claim 1 or 2, wherein an insertion direction of the second connection portion with respect to the insertion portion is the same direction as a direction in which the second bus bar member extends.