JP2011084198A - Arrangement structure of air-conditioner compressor in hybrid vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an arrangement structure of an air-conditioner compressor in hybrid vehicle in which the air-conditioner compressor can be reasonably arranged within an engine room. <P>SOLUTION: An air-conditioner compressor 13 is arranged and firmly secured on the side of a driving motor 7. A power generation motor 3 and the driving motor 7 are provided in parallel in a front-to-rear direction of a vehicle. The power generation motor 3 and the driving motor 7 are accommodated in individual motor cases 3A and 7A, respectively, and the air-conditioner compressor 13 is firmly secured on the side of the one motor case 7A. Furthermore, the one motor case 7A to which the air-conditioner compressor 13 is firmly secured, is arranged at the rear of the other motor case 3A and at a higher position than the other motor case 3A. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an arrangement structure of a compressor for an air conditioner in a hybrid vehicle (HEV) adopting a series system.

  5 and 6 show layout examples of various devices in the engine room of a conventional vehicle that runs using only the output of the engine as a driving force.

  That is, FIG. 5 is a partial plan view showing a layout example of various devices in the engine room of the conventional vehicle, and FIG. 6 is a partial side view thereof. As shown in FIG. An engine 102 is disposed on the right side of the vehicle with respect to the center line CL, a transmission 106 connected to the engine 102 is disposed on the left side of the vehicle, and a 12V battery 120 is disposed above the transmission 106. Air conditioner compressor 113 and alternator 121, which are auxiliary machines, are attached to the front and rear of engine 102, respectively.

  Further, when the layout in which the exhaust pipe 104 extends from the front of the engine 102 is adopted, the radiator 105 is arranged close to the left side in order to avoid the thermal influence from the exhaust pipe 104. 5 and 6, S1 to S3 are engine mounts, 110 is a brake hydraulic pressure generator such as a brake master cylinder and a brake booster, and t shown in FIG. 6 is an engine crank center (center of the crankshaft). , U is the center of the output shaft of the transmission.

  By the way, in recent years, a hybrid vehicle (HEV) equipped with an engine and an electric motor has appeared in order to reduce exhaust gas and improve fuel efficiency. There are various types of drive systems for this hybrid vehicle, such as series system, parallel system, motor assist system, series / parallel system (switching system), etc. In the series system where the engine and the motor for power generation are arranged in series, The power generation motor is driven by the engine, the electric power is charged in the battery, and the driving motor is driven by the electric power charged in the battery to rotate the wheels.

  In the conventional vehicle using only the output of the engine 102 shown in FIGS. 5 and 6 as the driving force, the air-conditioning compressor 113 is driven by the engine 102, but in the hybrid vehicle, the engine is stopped. Therefore, it is necessary to drive the air-conditioning compressor with an electric motor (for example, see Patent Document 1). Actually, an electric compressor driven by a built-in electric motor is used as an air conditioner compressor.

  Regarding the arrangement structure of the air conditioner compressor, Patent Document 2 discloses that the electric motor portion of the air conditioner compressor is arranged on the center of gravity side where the vibration of the engine is small, thereby suppressing the excitation force acting on the electric motor portion to be small. The structure which prevents the damage of is proposed.

  Further, in Patent Document 3, a protrusion is provided on the compressor housing, and the rear surface of the traveling engine of the protrusion is disposed on the engine side with respect to the engine side end surface of the inverter housing. Even when the mounting leg portion is broken due to a load from the inverter, the projection device interferes with the engine prior to the inverter device to stop the movement of the electric compressor, and the inverter device avoids interference with the engine. A configuration has been proposed that prevents damage to the device.

Japanese Patent Laid-Open No. 9-077640 Japanese Patent No. 423014 JP 2009-103100 A

  By the way, the compressor for an air conditioner mounted on a hybrid vehicle has a problem that it is difficult to secure the arrangement place because it is large in size because it incorporates an electric motor for driving.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide an arrangement structure of an air conditioner compressor in a hybrid vehicle that can rationally arrange an air conditioner compressor in an engine room. is there.

  In order to achieve the above object, the invention described in claim 1 is characterized in that an air conditioner compressor is arranged and fixed on a side portion of a power generation motor or a drive motor.

  According to a second aspect of the present invention, in the first aspect of the invention, the power generation motor and the drive motor are juxtaposed in the vehicle front-rear direction, and the power generation motor and the drive motor are individually motorized. The air conditioner compressor is fixed to a side portion of one motor case.

  According to a third aspect of the present invention, in the second aspect of the present invention, the one motor case to which the air conditioner compressor is fixed is arranged behind the other motor case and at a position higher than the other motor case. Features.

  According to a fourth aspect of the present invention, in the second or third aspect of the present invention, the air conditioner compressor is fixed to a side portion of a motor case that houses the drive motor.

  According to the first aspect of the present invention, since the air conditioner compressor is disposed and fixed on the side of the power generation motor or the drive motor, the mounting surface of the air conditioner compressor can be easily secured, and the air conditioner to the engine room can be secured. Rational arrangement of compressors is possible. In addition, since the compressor for an air conditioner generates vibration, it has to be attached to the vehicle body via an elastic member, but the side portion of the power generation motor or drive motor attached to the vehicle body via the elastic member. Since the air conditioner compressor is fixed to the air conditioner, an elastic member dedicated to the air conditioner compressor is not required, and the propagation of vibrations of the air conditioner compressor to other components can be blocked while reducing the number of components.

  According to the second aspect of the invention, since the power generation motor and the drive motor are arranged in parallel in the vehicle front-rear direction, the length in the left-right direction of the equipment including these can be shortened, and the compressor for the air conditioner is installed in the engine room. An arrangement space can be easily secured. In addition, since the compressor for the air conditioner is fixed to the side of one motor case, high accuracy can be secured on the mounting surface (side surface of one motor case) with respect to the mounting surface straddling the two parts, and vibrations can be prevented. It is possible to install the generated air-conditioning compressor with high rigidity and reliability.

  According to the invention described in claim 3, since the one motor case to which the compressor for the air conditioner is fixed is arranged at the rear of the other motor case and at a position higher than the other motor case, the impact load is input from the front and rear. The air conditioner compressor can be disposed at a position that is not easily damaged by deformation of the vehicle, and the air conditioner compressor can be effectively protected from impact. In addition, since the air conditioner compressor can be arranged at a higher position, it is possible to suppress flying water and flying stones accompanying the traveling of the vehicle from reaching the air conditioner compressor, thereby improving the durability of the air conditioner compressor.

  According to the invention of claim 4, because the compressor for the air conditioner is fixed to the side of the motor case of the driving motor disposed behind the power generating motor, not the motor case of the power generating motor coupled to the engine, The compressor for the air conditioner is positioned away from the mount of the engine or the like, and the arrangement and shape of the mount are not restricted by the compressor for the air conditioner, and the mount of the engine or the like can be arranged at the optimum position.

It is a top view of the engine room of the vehicle which shows the arrangement structure of the compressor for air-conditioners concerning the present invention. It is a side view of the engine room of the vehicle showing the arrangement structure of the compressor for an air conditioner according to the present invention. It is a partial rear view which shows the attachment structure of the compressor for air conditioners. It is a fragmentary perspective view of the compressor attachment part for an air conditioner. It is a partial top view which shows the example of a layout of the various apparatuses in the engine room of the conventional vehicle. It is a partial side view which shows the example of a layout of the various apparatuses in the engine room of the conventional vehicle.

  Embodiments of the present invention will be described below with reference to the accompanying drawings. Note that the directions (left / right / front / rear) in the description indicate the left / right / front / rear directions of the vehicle, respectively.

  FIG. 1 is a plan view of an engine room of a vehicle showing the arrangement structure of an air conditioner compressor according to the present invention, FIG. 2 is a side view of the engine room of the vehicle showing the arrangement structure of the air conditioner compressor, and FIG. 4 is a partial rear view showing the mounting structure, and FIG. 4 is a partial perspective view of the compressor mounting portion for the air conditioner.

  The present invention is applied to a hybrid vehicle (HEV) adopting a series system, and an engine room 1 of a vehicle employing a series system includes an engine 2 and a power generation motor 3 as shown in FIG. It is arranged and connected in series in the vehicle width direction. Specifically, the engine 2 is arranged on the right side (left side in FIG. 1) with respect to the vehicle width direction center line CL of the vehicle, and the power generation motor 3 is arranged in series on the left side. In the engine 2, the exhaust pipe 4 is connected to the front side (lower side in FIG. 1), and the exhaust pipe 4 extends from here. In order to avoid thermal influence from the exhaust pipe 4, The radiator 5 that cools the inverter 11 is arranged near the left side in front of the power generation motor 3.

  Further, behind the engine 2 and the power generation motor 3 in the engine room 1 (above FIG. 1), a drive motor 7 for driving the vehicle and a driving force generated by the drive motor 7 are amplified to drive shaft ( A transmission 6 for transmission to the axle is arranged and connected in series in the vehicle width direction. Specifically, the transmission 6 is disposed behind the right engine 2 with respect to the center line CL in the vehicle width direction, and the drive motor 7 is disposed on the left side thereof. The coupling surface that couples the engine 2 and the power generation motor 3 and the coupling surface that couples the transmission 6 and the drive motor 7 are located on the same plane, so that the accuracy of processing and positioning can be improved. ing. A brake vacuum pump 8 is disposed on the right side of the vehicle with respect to the transmission 6 and behind the engine 2. A dash panel 9 behind the engine 2 has a brake hydraulic pressure generator 10 such as a brake master cylinder or a brake booster. Is arranged. In the hybrid vehicle, since the engine 2 is running with the engine 2 stopped, the intake negative pressure of the engine 2 cannot be used as the assist force for the brake operation. For this reason, the brake vacuum pump 8 that generates negative pressure is necessary. In this embodiment, the brake vacuum pump is located at the position (right rear of the engine 2) where the alternator that has become unnecessary due to the hybridization is disposed. A pump 8 was arranged. Since this position is close to the brake master cylinder 10, a brake pipe (not shown) that connects the brake vacuum pump 8 and the brake master cylinder 10 can be shortened.

  Further, on the right side of the center line CL in the vehicle width direction of the engine room 1 and above the power generation motor 3 and the drive motor 7, between each motor (the power generation motor 3 and the drive motor 7) and the battery. An inverter 11 for converting electric power is arranged. In FIG. 2, t is the crank center (crank shaft center) of the engine 2, w is the output shaft center of the transmission 6, and u is the rotation shaft center of the drive motor 7.

  By the way, in the present embodiment, the engine 2 and the power generation motor 3 and the transmission 6 and the drive motor 7 that are arranged in series in the vehicle width direction as a unit are arranged in a pair of left and right by engine mounts S1 and S2. It is elastically supported by the apron side member 12, and one place in the center in the vehicle width direction at the rear end is elastically supported by a suspension member (not shown) by an engine mount S3.

  Thus, the present embodiment is characterized in that the air conditioner compressor 13 is arranged and fixed on the side portion of the drive motor 7. In the hybrid vehicle according to the present embodiment, the engine 2 is not used for driving the vehicle, but is used only for driving the power generation motor 3 to generate electric power. On the other hand, the engine 2 can be made smaller, and the engine layout can be made closer to the right side of the vehicle. Accordingly, the power generation motor 3 and the drive motor 7 can also be arranged on the right side. Therefore, as shown in FIG. 1, there is a space between the power generation motor 3 or the drive motor 7 and the apron side member 12 on the left side (the side where the engine 2 is not disposed) of the power generation motor 3 or the drive motor 7. Can produce. In this embodiment, the air conditioner compressor 13 is disposed and fixed on the side portion of the drive motor 7 using this space. Regarding the air conditioner compressor 13, in a hybrid vehicle, the engine 2 may be stopped, so the air conditioner compressor 13 needs to be an electric type instead of an engine driven type. Here, the air conditioner compressor 13 incorporates an electric motor (not shown) as a power source, and is configured by connecting an electric motor portion 13A and a compressor portion 13B in series as shown in FIG.

  Incidentally, the power generation motor 3 and the drive motor 7 arranged in parallel in the vehicle longitudinal direction on the left side of the vehicle width direction center line CL of the vehicle are housed in individual motor cases 3A and 7A, respectively. In the embodiment, the air conditioner compressor 13 is fixed to the side (left end) of the motor case 7A in which the drive motor 7 is accommodated, and the motor case 7A to which the air conditioner compressor 13 is fixed is shown in FIG. As shown, the motor case 3 </ b> A that houses the power generation motor 3 is disposed behind and higher than the motor case 3 </ b> A.

  Here, the structure for attaching the air conditioner compressor 13 to the side portion of the motor case 7A is shown in FIGS. 3 and 4, and the air conditioner compressor 13 is arranged so that its longitudinal direction is along the front and rear of the vehicle. A lower mounting boss 13a extending in the vehicle width direction is integrally formed on the front and rear of the bottom portion of 13 and a screw is provided at a position corresponding to the boss 13a on the lower bottom portion of the side portion (left end portion) of the motor case 7A. The cut boss 7a is integrally formed. The air conditioner compressor 13 is screwed into a boss 7a on the motor case 7A side by inserting a long bolt 16 inserted laterally into a boss 13a formed on the bottom of the air conditioner compressor 13 so that the bottom of the air conditioner compressor 13 becomes the motor case 7A. Is attached.

  As shown in FIG. 4, a lateral T-shaped bracket 15 is attached to the side end surface (left end portion) of the motor case 7 </ b> A with bolts 14, and the bracket 13 b is integrated with the upper portion of the air conditioner compressor 13. Projected to The upper part of the air conditioner compressor 13 is attached to the side end surface of the motor case 7A by screwing bolts 17 inserted into the bracket 3b of the upper part of the air conditioner compressor 13 from the lateral direction into the screw holes of the bracket 15. Here, the mounting bolts 16 and 14 of the air conditioner compressor 13 are both tightened from the side (left side) of the vehicle and the boss 13a and the bracket 13b are compared to reach the left side of the air conditioner compressor 13. Since it is formed high (long), it is easy to attach and detach the air conditioner compressor 13.

  As described above, in the present embodiment, since the air conditioner compressor 13 is disposed and fixed on the side portion of the drive motor 7, the mounting surface of the air conditioner compressor 13 can be easily secured, A rational arrangement of the air conditioner compressor 13 is possible. Since the air conditioner compressor 13 generates vibration, it has to be attached to the vehicle body via an elastic member. However, the engine mounts S1 to S3 are elastic to the vehicle body together with the engine 2, the generator motor 3 and the transmission 6. Since the air conditioner compressor 13 is fixed to the side of the supported drive motor 7, a dedicated elastic member is not necessary for the air conditioner compressor 13, and the number of parts is reduced, and the vibration of the air conditioner compressor 13 is transferred to other parts. Can be blocked.

  Further, in the present embodiment, since the power generation motor 3 and the drive motor 7 are arranged side by side in the vehicle front-rear direction, the length in the left-right direction of the equipment including these can be shortened, and the compressor for an air conditioner is installed in the engine room 1. Thirteen arrangement spaces can be easily secured. And since the compressor 13 for air conditioners was fixed only to the side part of the motor case 7A which accommodates the drive motor 7, it is an attachment surface with respect to the attachment surface formed so that it might straddle two components (motor case 3A, 7A). A high accuracy can be ensured in the surface accuracy of the (side surface of the motor case 7A), and a highly rigid and reliable attachment can be made to the air conditioner compressor 13 that generates vibration.

  Further, in the present embodiment, one motor case 7A to which the air conditioner compressor 13 is fixed is disposed at the rear of the other motor case 3A and higher than the other motor case 3A, and thus is applied to the vehicle body from the front. The air conditioner compressor 13 can be disposed at a position that is not easily damaged by the impact load, and the air conditioner compressor 13 can be effectively protected from the impact. Since the air conditioner compressor 13 can be disposed at a higher position, it is possible to suppress flying water and flying stones from traveling to the air conditioner compressor 13 and to improve the durability of the air conditioner compressor 13. .

  In this embodiment, the compressor for the air conditioner is not provided in the motor case 3A of the power generation motor 3 coupled to the engine 2 but on the side of the motor case 7A of the drive motor 7 disposed behind the power generation motor 3. 13 is fixed, a drive shaft is disposed below the air conditioner compressor 13 to protect the lower portion of the air conditioner compressor 13, and the air conditioner compressor 13 is used for mounting the engine 2 and the like on the vehicle body. The engine mounts S <b> 1 to S <b> 3 can be arranged at optimum positions without any restriction on the positions of the engine mounts S <b> 1 to S <b> 1 (particularly, the engine mount S <b> 1).

  In the above embodiment, the air conditioner compressor 13 is arranged and fixed on the side portion of the drive motor 7, but the same effect as described above can be obtained even if the air conditioner compressor 13 is arranged and fixed on the side portion of the power generation motor 3. Is obtained.

DESCRIPTION OF SYMBOLS 1 Engine room 2 Engine 3 Motor for electric power generation 3A Motor case for motor for electric power generation 4 Exhaust pipe 5 Radiator 6 Transmission 7 Motor for driving 7A Motor case for motor for driving 7a Boss of motor case 8 Brake vacuum pump 9 Dash panel 10 Hydraulic pressure Generator 11 Inverter 12 Apron side member 13 Air-conditioner compressor 13A Air-conditioner compressor electric motor 13B Air-conditioner compressor compressor 13a Air-conditioner compressor boss 13b Air-conditioner compressor bracket 14 Bolt 15 Bracket 16, 17 Bolt CL Vehicle Center line in the vehicle width direction S1 to S3 Engine mount t Engine crank center u Rotation center of drive motor w Output shaft center of transmission

Claims (4)

  An arrangement structure of an air conditioner compressor in a hybrid vehicle, wherein an air conditioner compressor is arranged and fixed on a side of a power generation motor or a drive motor.   The power generation motor and the drive motor are juxtaposed in the longitudinal direction of the vehicle, and the power generation motor and the drive motor are housed in separate motor cases, respectively, and the air conditioner compressor is arranged on the side of one motor case. The arrangement structure of the compressor for an air conditioner in the hybrid vehicle according to claim 1, wherein the compressor is fixed to the air conditioner.   3. The arrangement of an air conditioner compressor in a hybrid vehicle according to claim 2, wherein the one motor case to which the air conditioner compressor is fixed is arranged at a position behind the other motor case and higher than the other motor case. Construction. 4. The arrangement structure of an air conditioner compressor in a hybrid vehicle according to claim 2, wherein the air conditioner compressor is fixed to a side portion of a motor case housing the drive motor.

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