JP2007290479A - Protector structure for vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a protector structure for a vehicle improved in utility. <P>SOLUTION: The protector structure for a vehicle comprises a transaxle 21 mounted on a vehicle, an inverter 12 arranged to be adjacent to the transaxle 21, and a protector 31 fixed on the transaxle 21 and shifting a traveling direction of the inverter 12 moving at the time of vehicular collision from a direction toward the transaxle 21. The protector 31 has a damping function canceling vibrations generated in the transaxle 21. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention generally relates to a protector structure for a vehicle, and more particularly to a protector structure for a vehicle provided to avoid a collision between an electric motor and an inverter at the time of a vehicle collision.

Regarding a conventional protector structure for a vehicle, for example, Japanese Patent Application Laid-Open No. 9-272459 discloses an electric power for the purpose of effectively absorbing the energy immediately after the collision by eliminating the delay in the transmission of the collision energy to the motor. A vehicle body front structure is disclosed (Patent Document 1). In Patent Document 1, rigid parts such as a power steering pump and a compressor having high rigidity are arranged in front of the electric motor and below the control unit box.
Japanese Patent Laid-Open No. 9-272459

  In the above-described Patent Document 1, when a vehicle collides with an obstacle, energy due to the collision with the obstacle is transmitted to the control unit box and the hard object. Thereafter, energy is transferred from the rigid body to the underbody via the electric motor. As a result, the collision energy is transmitted to the control unit box and the electric motor almost simultaneously, so that the energy can be absorbed more effectively and the safety at the time of the vehicle collision can be improved.

  On the other hand, in an electric vehicle disclosed in Patent Document 1 and a hybrid vehicle equipped with an electric motor as a power source, a protector that avoids a collision between the electric motor and the inverter may be provided in order to ensure safety during a vehicle collision. . However, the addition of protectors involves trade-offs such as increased costs and space consumption. For this reason, a more useful protector structure that meets this contradiction is required.

  Accordingly, an object of the present invention is to solve the above-described problems and to provide a protector structure for a vehicle that is improved in usefulness.

  The protector structure for a vehicle according to the present invention has an electric motor mounted on the vehicle, an inverter arranged adjacent to the electric motor, and a traveling direction of the inverter that is fixed to the electric motor and moves when the vehicle collides, toward the electric motor. And a protector for shifting from the direction. The protector has a damping function that cancels vibrations generated by the electric motor.

  According to the protector structure for a vehicle configured as described above, the protector has a function of canceling vibration generated by the electric motor in addition to a function of avoiding a collision between the inverter and the electric motor at the time of a vehicle collision. For this reason, by providing the protector, it is possible to improve the NV (noise and vibration) performance of the vehicle while protecting the inverter and the electric motor. Thereby, the usefulness of a protector can be improved.

  Preferably, the protector includes a guide part that changes the traveling direction of the inverter by contacting the inverter at the time of a vehicle collision, and an elastic part interposed between the electric motor and the guide part. According to the protector structure for a vehicle configured as described above, the protector can function as an active damper. Thereby, the vibration which generate | occur | produces with an electric motor can be attenuated more effectively.

  Preferably, the protector has an inclined portion that extends while inclining downward in the vertical direction. A space is formed between the inclined portion and the electric motor. According to the protector structure for a vehicle configured as described above, by providing the protector, it is possible to insert a transportation jig into a space formed between the inclined portion and the electric motor. Thereby, the usefulness of a protector can further be improved.

  Preferably, wiring is routed between the protector and the electric motor. According to the protector structure for a vehicle configured as described above, it is possible to protect the wiring by providing the protector. Thereby, the usefulness of a protector can further be improved.

  Preferably, the wiring is sandwiched between the protector and the electric motor. According to the protector structure for a vehicle configured as described above, the wiring can be further fixed on the route on which the wiring is routed.

  Preferably, the protector is provided integrally with the wiring connected to the electric motor. According to the protector structure for a vehicle configured as described above, the wiring can be connected to the electric motor simultaneously with the step of fixing the protector to the electric motor when the electric motor is assembled. Thereby, workability | operativity at the time of the assembly | attachment of an electric motor can be improved.

  As described above, according to the present invention, it is possible to provide a protector structure for a vehicle that is improved in usefulness.

  Embodiments of the present invention will be described with reference to the drawings. In the drawings referred to below, the same or corresponding members are denoted by the same reference numerals.

  1 is a plan view showing the inside of an engine room of a vehicle to which a vehicle protector structure according to Embodiment 1 of the present invention is applied. The vehicle shown in the figure is a hybrid vehicle that uses an internal combustion engine such as a gasoline engine or a diesel engine and a motor supplied with power from a chargeable / dischargeable secondary battery (battery) as a power source.

  With reference to FIG. 1, an engine 56 is mounted in an engine room 53 of the vehicle. The engine room 53 is formed between the front bumper 52 and the cowl board 51 in front of the vehicle. The cowl board 51 partitions the engine room 53 and the vehicle compartment 54. The engine room 53 is not limited to the front of the vehicle, and may be formed at the rear of the vehicle, for example.

  The engine room 53 further accommodates the transaxle 21 connected to the engine 56 and the inverter 12. The inverter 12 is disposed adjacent to the vehicle body. In the present embodiment, inverter 12 is arranged adjacent to the left front of the vehicle body. Transaxle 21 is arranged on the opposite side of the vehicle body with respect to inverter 12. The inverter 12 and the transaxle 21 are arranged next to each other.

  The transaxle 21 includes a motor generator, a power split mechanism that switches between engine / motor drive and power generation by the generator, a speed reduction mechanism that decelerates the power transmitted from the power split mechanism, and power from the speed reduction mechanism. And differentials distributed to the left and right front tires. When functioning as a motor, the motor generator assists the output of the engine to increase the driving force, or generates power by regenerative braking during deceleration. Further, when the motor generator functions as a generator, the motor generator performs power generation by the output of the engine or plays the role of a starter when the engine is started. In the present embodiment, the transaxle 21 is provided as an electric motor that is a machine that generates a rotational force by the interaction between a current flowing in a coil and a magnetic field.

  FIG. 2 is a side view showing the transaxle viewed from the direction indicated by the arrow II in FIG. Referring to FIGS. 1 and 2, transaxle 21 has a case body 28. The case body 28 includes a motor storage unit 22 that stores a motor generator, and a terminal block storage unit 23 that stores a terminal block.

  The inverter 12 is electrically connected to the motor generator. The inverter 12 converts a direct current from the battery into an alternating current for driving the motor, or converts an alternating current generated by the motor generator by the regenerative brake into a direct current for charging the battery. The terminal block relays a U-phase cable, a V-phase cable and a W-phase cable extending from the stator constituting the motor generator, and a power cable 41 extending from the inverter 12.

  The case body 28 is made of metal. Case body 28 is made of, for example, aluminum. The motor storage unit 22 and the terminal block storage unit 23 are integrally formed. The terminal block storage part 23 is provided so as to protrude from the surface of the motor storage part 22. In the present embodiment, the terminal block storage portion 23 is provided so as to protrude upward in the vertical direction from the top surface 22 a of the motor storage portion 22. The volume of the case body 28 in the motor storage portion 22 is larger than the volume of the case body 28 in the terminal block storage portion 23. The weight of the transaxle 21 in the motor storage unit 22 is larger than the weight of the transaxle 21 in the terminal block storage unit 23. A lid 24 is attached to the terminal block storage portion 23 so as to close a space for storing the terminal block.

  In the transaxle 21 having such a shape, vibration is more likely to be generated in the terminal block storage portion 23 than in the motor storage portion 22. The transaxle 21 includes a terminal base storage portion 23 as a first portion that is relatively susceptible to vibration, and a motor storage portion 22 as a second portion that is relatively difficult to generate vibration.

  FIG. 3 is a front view showing the transaxle viewed from the direction indicated by the arrow III in FIG. With reference to FIGS. 1 to 3, a protector 31 is fixed to the transaxle 21. In the present embodiment, the protector 31 is fixed to the terminal block storage unit 23. The protector 31 is fixed to the lid body 24 with bolts 26.

  The protector 31 includes a guide part 32 and an elastic part 33. The guide part 32 is made of metal. The guide part 32 is formed from cast iron, for example. The guide part 32 has a weight of 0.5 kg or more, for example. The guide part 32 has a shape bent from the position on the lid 24 to the lower side in the vertical direction. The guide part 32 has an inclined part 32d extending while being inclined downward in the vertical direction. The inclined portion 32 d is provided so as to block between the terminal block storage portion 23 and the inverter 12.

  A space is formed between the inclined portion 32d and the transaxle 21. In the present embodiment, a space is formed between the inclined portion 32 d and the top surface 22 a of the motor storage portion 22. The space is formed adjacent to the terminal block storage portion 23. With such a configuration, the transaxle 21 can be transported by locking the rope to the inclined portion 32d when the transaxle 21 is assembled or maintained. Thereby, it is not necessary to separately provide a hook for locking the rope, and the structure of the transaxle 21 can be simplified.

  The elastic part 33 is interposed between the guide part 32 and the transaxle 21. The elastic part 33 is provided integrally with the guide part 32. The elastic part 33 may be provided separately from the guide part 32. The elastic portion 33 is provided in contact with the transaxle 21. The guide part 32 is provided so as not to contact the transaxle 21. The elastic part 33 is formed from a material having elasticity. The elastic part 33 is formed from a rubber member. The elastic part 33 is made of, for example, silicon rubber. Silicone rubber is preferable as a material for forming the elastic portion 33 because it has excellent cold resistance and can maintain physical properties even at low temperatures.

  When the vehicle collides sideways with a thin structure such as a utility pole, the inverter 12 may move toward the terminal block housing portion 23 of the transaxle 21. In the present embodiment, in such a case, the inverter 12 is guided upward in the vertical direction by the inclined portion 32d, and the traveling direction of the inverter 12 deviates from the direction toward the terminal block storage portion 23. Thereby, the collision with the inverter 12 and the terminal block storage part 23 is avoided.

  On the other hand, the guide portion 32 is provided in a state of being elastically supported with respect to the transaxle 21 by the elastic portion 33. For this reason, the guide part 32 comprises the new spring mass system different from the transaxle 21, and it becomes possible for the protector 31 to function as an active damper. In this case, when the guide portion 32 vibrates, the vibration system of the transaxle 21 decreases the amplitude of the resonance frequency.

  In particular, in the present embodiment, since the protector 31 functioning as an active damper is provided in the terminal block housing portion 23 where vibration is likely to occur, the vibration generated in the transaxle 21 can be attenuated more effectively. .

  A protector structure for a vehicle according to an embodiment of the present invention is fixed to a transaxle 21 as an electric motor mounted on the vehicle, an inverter 12 arranged adjacent to the transaxle 21, and the transaxle 21. And a protector 31 that shifts the traveling direction of the inverter 12 that moves at the time of the collision from the direction toward the transaxle 21. The protector 31 has a damping function that cancels vibration generated in the transaxle 21.

  According to the protector structure for a vehicle in the embodiment of the present invention configured as described above, by providing the protector 31, the inverter 12 and the transaxle 21 can be protected in the event of a vehicle collision.

  On the other hand, the bearing that supports the gear vibrates inside the transaxle 21 due to the forced force of the gear meshing. As a result, the case body 28 vibrates, and abnormal noise is generated in the vehicle through radiated sound and vibration of the mount of the transaxle 21. On the other hand, in the present embodiment, the protector 31 can function as an active damper to attenuate the vibration of the case body 28. Thereby, the NV performance of the vehicle can be improved.

  Thus, in this Embodiment, since the protector 31 is also provided with the damping function which cancels a vibration besides the function as a protection member, the usefulness of the protector 31 can be improved.

  FIG. 4 is a front view showing a first modification of the protector structure for a vehicle in FIG. Referring to FIG. 4, a power cable 41 connected to the terminal block storage portion 23 via the connector 42 is shown.

  In this modification, a wire harness 46 is routed between the protector 31 and the transaxle 21. The wire harness 46 is routed directly below the inclined portion 32d. The wire harness 46 is sandwiched between the inclined portion 32d and the connector 42. The wire harness 46 is, for example, wiring for detecting rotation of the motor extending from the motor generator. The wire harness 46 is not limited to the wiring connected to the transaxle 21 or the inverter 12.

  With such a configuration, by providing the protector 31, the wire harness 46 can be protected from flying objects such as mud and damage to the wire harness 46 can be prevented. Further, it is not necessary to newly provide a part for fixing the wire harness 46. For this reason, the usefulness of the protector 31 can be further improved.

  FIG. 5 is a front view showing a second modification of the vehicle protector structure in FIG. 3. Referring to FIG. 5, in this modification, a protector 31 and a power cable 41 are integrally provided. The power cable 41 is fixed to the inclined portion 32d of the guide portion 32 with an adhesive, for example.

  With such a configuration, when the transaxle 21 is assembled, the power cable 41 can be connected to the terminal block housing portion 23 at the same time as attaching the protector 31 to the lid 24. Thereby, workability | operativity at the time of the assembly | attachment of the transaxle 21 can be improved.

  Next, a description will be given of an example carried out in order to confirm the effect obtained by the vehicle protector structure in the present embodiment in FIG. In this example, microphones were provided at a plurality of locations around the transaxle 21, and the sound pressure at each frequency of gear noise was measured. For comparison, the sound pressure was also measured when the protector 31 was not provided with the elastic portion 33.

  FIG. 6 is a graph showing the relationship between gear noise frequency and sound pressure in the present embodiment. With reference to FIG. 6, the vertical axis represents the total value of sound pressures measured at a plurality of locations. The solid line 100 is the measurement result of the present example, and the solid line 200 is the measurement result of the comparative example. As can be seen by comparing the solid line 100 and the solid line 200, the peak value of the sound pressure can be reduced by causing the protector 31 to function as an active damper.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

It is a top view which shows the inside of the engine room of the vehicle to which the protector structure for vehicles in Embodiment 1 of this invention was applied. It is a side view which shows the transaxle seen from the direction shown by the arrow II in FIG. It is a front view which shows the transaxle seen from the direction shown by the arrow III in FIG. It is a front view which shows the 1st modification of the protector structure for vehicles in FIG. It is a front view which shows the 2nd modification of the protector structure for vehicles in FIG. In an Example, it is a graph which shows the relationship between the frequency of gear noise, and a sound pressure.

Explanation of symbols

  12 inverter, 21 transaxle, 31 protector, 32 guide part, 32d inclined part, 33 elastic part, 41 power cable, 46 wire harness.

Claims (6)

An electric motor mounted on the vehicle;
An inverter arranged adjacent to the electric motor;
A protector that is fixed to the electric motor and that shifts the traveling direction of the inverter that moves during a vehicle collision from the direction toward the electric motor,
The protector structure for a vehicle, wherein the protector has a damping function that cancels vibration generated in the electric motor.   2. The vehicle according to claim 1, wherein the protector includes a guide portion that contacts the inverter and changes a traveling direction of the inverter in a vehicle collision, and an elastic portion that is interposed between the electric motor and the guide portion. Protector structure for use. The protector has an inclined portion extending while being inclined downward in the vertical direction,
The protector structure for vehicles according to claim 1 or 2 with which space is formed between said inclined part and said electric motor.   The protector structure for vehicles according to any one of claims 1 to 3, wherein wiring is routed between the protector and the electric motor.   The protector structure for a vehicle according to claim 4, wherein the wiring is sandwiched between the protector and the electric motor.   The protector structure for a vehicle according to any one of claims 1 to 5, wherein the protector is provided integrally with a wiring connected to the electric motor.

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