The present invention relates to an electric compressor for vehicle air conditioner.
Japanese Patent Application Publication No. 2004-32494 discloses an electric compressor used for a vehicle air conditioner. This type of compressor has a housing that is formed with a plurality of mounting legs projecting from the housing. Each mounting leg includes a fastening portion to which a corresponding portion of an engine is fastened and a connecting portion which connects the fastening portion to the housing. The electric compressor is mounted on the engine in an engine compartment of the vehicle by fastening the fastening portions to the respective portion of the engine.
If any external force is applied to the vehicle and the electric compressor is moved in the engine compartment by receiving force transmitted from the vehicle, the compressor may collide against objects therearound such as an auxiliary machine and be damaged at the housing which accommodates a motor driving circuit, and the force may be transmitted to the motor driving circuit.
The present invention, which has been made in view of the above problem, is directed to providing an electric compressor for vehicle air conditioner, wherein an external force transmitted to the motor driving circuit is suppressed.
In accordance with an aspect of the present invention, there is provided an electric compressor to be mounted on an engine in an engine compartment of a vehicle. The electric compressor includes a compression mechanism, an electric motor, a motor driving circuit, a housing, a first mounting leg and a second mounting leg. The compression mechanism is provided for compressing refrigerant. The electric motor is provided for driving the compression mechanism. The motor driving circuit is provided for driving the electric motor. The housing accommodates therein the compression mechanism, the electric motor and the motor driving circuit. The first mounting leg projects from the housing at a position that is adjacent to the compression mechanism. The second mounting leg projects from the housing at a position that is adjacent to the motor driving circuit. Each of the first mounting leg and the second mounting leg includes a fastening portion to be fastened to a portion of the engine and a connecting portion that connects the fastening portion with the housing. The connecting portion of the first mounting leg is made to be broken more easily than connecting portion of the second mounting leg.
Other aspects and advantages of the invention will become apparent from the following description, taken in conjunction with the accompanying drawings, illustrating by way of example the principles of the invention.
The invention together with objects and advantages thereof, may best be understood by reference to the following description of the presently preferred embodiments together with the accompanying drawings in which:
The following will describe an embodiment of the present invention with reference to
As shown in
A motor driving circuit 17 that drives the electric motor 15 is provided between the bottom wall 13A of the suction housing 13 and the cover 16. According to the present embodiment, the compression mechanism 14, the electric motor 15 and the motor driving circuit 17 are arranged in this order along the axial direction of the housing 11A that is indicated by double-headed arrow X.
First mounting legs 21, 22 and a second mounting leg 23 are formed projecting from the suction housing 13. The first mounting legs 21, 22 and the second mounting leg 23 are formed integrally with the suction housing 13 and used to mount the electric compressor 11 to the block E1. The mounting legs 21, 22, 23 include fastening portions 21A, 22A, 23A, respectively, and a bolt B is inserted in each of the fastening portions 21A, 22A, 23A. The mounting legs 21, 22, 23 further include connecting portions 21B, 22B, 23B that connect the fastening portions 21A, 22A, 23A to the suction housing 13, respectively.
The first mounting legs 21, 22 are disposed on the outer peripheral surface at opposite sides of the suction housing 13 with respect to the longitudinal axis of the suction housing 13. The first mounting legs 21, 22 are formed at positions that are close to the discharge housing 12 (or the compression mechanism 14). The second mounting leg 23 is formed at a position on the outer peripheral surface of the suction housing 13 that is close to the cover 16 (or the motor driving circuit 17). The fastening portions 21A, 22A, 23A of the first and second mounting legs 21, 22, 23 extend parallel to each other and orthogonally to the axial direction of the housing 11A.
The bolts B are inserted into the fastening portions 21A, 22A, 23A and are screwed into the block E1, so that the fastening portion 21A, 22A, 23A are fastened to the block E1. According to the present embodiment, the electric compressor 11 is mounted on the engine E in such way that the discharge housing 12 of the electric compressor 11 is located closer to the outside of the engine compartment 10A than the cover 16. Consequently, the electric compressor 11 is mounted on the engine E in such an orientation that the first mounting legs 21, 22 are located at the position closer to the outside of the engine compartment 10A than the second mounting leg 23.
As shown in
Specifically, the surfaces R1, R2 connecting the outer peripheral surfaces of the suction housing 13 and the respective fastening portions 21A, 22A sequentially are cut so as to be recessed in the extending direction of the connecting portions 21B, 22B so that the dimension H1, H2 are substantially the same.
As shown in
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As shown in
The following will describe the operation of the compressor according to the embodiment of the present invention. The first mounting legs 21, 22 that are located closer to the outside of the engine compartment 10A are more likely to receive load from the external force applied to the vehicle 10 than the second mounting leg 23. In the electric compressor 11 of the present embodiment, the dimensions H1, H2 of the connecting portions 21B, 22B of first mounting legs 21, 22 are smaller in the extending direction than the dimension H3 of the connecting portion 23B of the second mounting leg 23. In addition, the dimensions H10, H20 of the connecting portions 21B, 22B of the first mounting legs 21, 22 are smaller in the axial direction of the housing 11A than the dimension H30 of the connecting portion 23B of the second mounting leg 23. Therefore, the rigidity of the connecting portions 21B, 22B of the first mounting legs 21, 22 is lower than that of the connecting portion 23B of the second mounting leg 23.
In the electric compressor 11 of the present embodiment, if any external force applied to the vehicle 10 is transmitted to the housing 11A and the connecting portions 21B, 22B of the first mounting legs 21, 22 are broken, the force transmitted from the housing 11A to the second mounting leg 23 is suppressed. Thus, the connecting portion 23B is hard to be broken and the movement of the electric compressor 11 in the engine compartment 10A is restricted. This prevents the electric compressor 11 from colliding against objects therearound such as an auxiliary machine in the engine compartment 10A, so that the housing 11A accommodating therein the motor driving circuit 17 is protected against a damage. As a result, the transmission of external force to the motor driving circuit 17 can be suppressed.
Furthermore, the thickness removing portions 21D, 22D are formed in the connecting portions 21B, 22B of the first mounting legs 21, 22. With this configuration, the connecting portions 21B, 22B of the first mounting legs 21, 22 have rigidity lower than the connection portion 23B of the second mounting leg 23. That is, the rigidity of the connecting portions 21B, 22B of the first mounting legs 21, 22 are reduced partially. Accordingly, the connecting portions 21B, 22B are formed so as to be broken more easily than the connecting portion 23B when any external force is applied to the vehicle 10.
The above-described embodiment of the present invention offers the following effects.
(1) The connecting portions 21B, 22B of the first mounting legs 21, 22 are made so as to be broken more easily than the connecting portion 23B of the second mounting leg 23. Thus, when the external force applied to the vehicle 10 is transmitted to the housing 11A, the connecting portions 21B, 22B of the first mounting legs 21, 22 that are close to the compression mechanism 14 are broken to suppress the transmission of the external force to the connecting portion 23B of the second mounting leg 23. Consequently, the connecting portion 23B becomes hard to be broken and the movement of the electric compressor 11 in the engine compartment 10A can be restricted. Therefore, damage to the housing 11A accommodating therein the motor driving circuit 17, that is caused by collision of the electric compressor 11 against objects therearound such as an auxiliary machine in the engine compartment 10A, is prevented, and the transmission of the external force to the motor driving circuit 17 is suppressed.
(2) The thickness removing portions 21D, 22D are formed in the connecting portions 21B, 22B of the first mounting leg 21, 22. This enables the connecting portions 21B, 22B to break easily by the external force applied to vehicle 10.
(3) The dimensions H1, H2 of the connecting portions 21B, 22B of the first mounting legs 21, 22 are smaller in the extending direction than the dimension H3 of the connecting portion 23B of the second mounting leg 23. Moreover, the dimensions H10, H20 of the first mounting legs 21, 22 are smaller in the axial direction of the housing 11A than the dimension H30 of the connecting portion 23B of the second mounting leg 23. Therefore, the rigidity of connecting portions 21B and 22B of the first mounting legs 21, 22 is lower than that of the connecting portion 23B of the second mounting leg 23. That is that the connecting portion 23B is harder to be broken than the connecting portion 21B, 22B.
(4) The provision of the thickness removing portions 21D, 22D in the first mounting legs 21, 22 makes the weight of the electric compressor 11 lighter as compared with a case in which no such thickness removing portion is formed.
(5) The linking portions 21E, 22E are formed in the fastening portions 21A, 22A of the mounting legs 21, 22 to connect the opposite axial ends of the fastening portions 21A, 22A, respectively, despite the thickness removing portions 21D, 22D of the first mounting legs 21, 22. Therefore, when the first mounting legs 21, 22 and the block E1 are fastened with the bolts B, the fastening portions 21A and 22A are prevented from bending in the axial direction thereof.
The above-described embodiment may be modified in various ways as exemplified below. The linking portions 21E, 22E of the fastening portions 21A, 22A may be dispensed with. In this case, the opposite axial ends of the fastening portions 21A, 22A may be joined only by the connecting portions 21B, 22B.
The formation of the thickness removing portions 21D, 22D in the first mounting legs 21, 22 may be omitted.
The dimensions H10, H20 of the connecting portions 21B, 22B of the first mounting legs 21, 22 may be the same in the axial direction of the housing 11A as the dimension H30 of the connecting portion 23B of the second mounting leg 23.
The embodiment may be modified so that the dimensions H1, H2, H3 of the connecting portions 21B, 22B, 23B of the first and second mounting legs 21, 22, 23 in the extending direction are the same.
In the embodiment, the first mounting legs 21, 22 may be disposed at positions shifted from the positions shown in
In the embodiment, the connecting portions 21B, 22B of the first mounting legs 21, 22 may be made of a material whose rigidity is lower than that of the connecting portions 23B of the second mounting leg 23.
The electric compressor 11 may not be fixed to the engine E by fastening the fastening portions 21A, 22A, 23A to the block E1 with the bolts B. Alternatively, the fastening portions 21A, 22A, 23A may be welded to the block E1.
According to the present invention, the number of mounting legs is not specifically limited to two first mounting legs such as 21, 22 and one second mounting leg such as 23.
According to the present invention, the position of the electric compressor 11 in the engine compartment 10A is not specifically limited. However, it is desirable that the electric compressor 11 should be mounted on the engine E so that the discharge housing 12 of the electric compressor 11 is located at a position that is closer to the outside of the engine compartment 10A than the cover 16.
According to the present invention, the motor driving circuit 17 may be provided in the suction housing 13 at a position that is radially outward and close to the second mounting leg 23.
According to the present embodiment, the compression mechanism 14 is of a scroll type, however it is not limited thereto. Alternatively, the compression mechanism may be piston type or vane type.
Number | Date | Country | Kind |
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2013-246585 | Nov 2013 | JP | national |