JP4465667B2 - Hybrid electric vehicle battery box structure - Google Patents

Description

  The present invention relates to a battery box structure for a hybrid electric vehicle.

  Japanese Patent Laid-Open No. 2002-67705 discloses a hybrid electric truck in which main devices including a radiator, a cooling water pump, an inverter, and a battery are housed in one housing, and this housing is attached under the floor of the truck's packing box. Are listed. Among the main devices, the inverter and the battery are arranged at the rearmost part of the casing farthest from the front wheel that causes water splash.

  Japanese Utility Model Registration No. 2558555 describes a structure in which a battery tray housing space in which a battery tray can be taken in and out is provided in a vehicle, and the battery is housed in the battery tray.

JP 2002-67705 A Utility Model Registration No. 2558555

  However, in the structure shown in Japanese Patent Application Laid-Open No. 2002-67705, all the main devices are accommodated in one housing, and the main devices are mixed with high frequency devices and low frequency devices. When replacing a frequently-used device, other devices (devices with low maintenance frequency) may be in the way, resulting in complicated operations.

  In addition, if the main equipment is submerged by traveling on a submerged channel, the battery will also be submerged in the same way as other equipment. There is a possibility of becoming.

  In addition, the utility model registration No. 2558555 only describes a structure in which a battery housing space is provided in the vehicle, and maintenance workability for a main device having a high maintenance frequency or when traveling on a submerged channel. This does not take into consideration the prevention of battery flooding.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a battery box structure of a hybrid electric vehicle that is easy to perform maintenance work and is difficult to flood a battery when traveling on a flooded channel.

In order to achieve the above object, the present invention provides a battery box structure for a hybrid electric vehicle in which a vehicle battery-related device group is disposed and attached on the outer side in the vehicle width direction of a side member extending in the longitudinal direction of the vehicle body. And an upper frame body. Lower frame body has a front and rear frame member which are spaced apart in the longitudinal direction from the vehicle width direction outer side of the side members Ru are respectively fixed to the front and rear stays extending downward of the vehicle, the first housing space Partition. The upper frame body defines a second housing space, is placed on the upper surface of the lower frame body, and is disposed on the lateral side of the side member in the vehicle width direction. The vehicle battery-related device group includes a first battery-related device group that has a low requirement for waterproofness and a high maintenance frequency, and a second battery-related device group that has a high requirement for waterproofness and a low maintenance frequency. The second battery related device group includes a battery. The first battery-related device group is housed in the first housing space and fixed to the lower frame body. The second battery-related device group is housed in the second housing space and fixed to the upper frame body. The upper portion of the upper frame body is fixed to the front and rear stays from above, and the lower portion of the upper frame body is fixed to the front and rear frame frames of the lower frame body.

  In the above configuration, the first battery-related device group with high maintenance frequency is stored in the first storage space, and the second battery-related device group with low maintenance frequency is stored in the second storage space. For this reason, the 1st battery related apparatus group with high maintenance frequency and the 2nd battery related apparatus group with low maintenance frequency among vehicle battery related apparatus groups do not coexist. Further, the upper frame body that partitions the second storage space is placed on the upper surface of the lower frame body that partitions the first storage space. Therefore, the maintenance of the first battery-related device group can be performed in a state where the second battery-related device group is removed together with the upper frame body, so that the maintenance work is easy.

  The upper frame body is placed on the upper surface of the lower frame body. For this reason, compared with the case where the side of the upper frame body is supported in a cantilevered manner from the vehicle body side, for example, high strength is not required for the mounting portion of the upper frame body, and the configuration of the mounting portion of the upper frame body is simplified. can do. Further, since the strength of the upper frame body itself can be kept low, the weight of the upper frame body can be reduced. Therefore, the upper frame body can be easily attached and detached during maintenance work.

  In addition, a second battery-related device group that includes a battery and has a higher waterproof requirement is disposed above the first battery-related device group that has a low requirement for waterproofness. For this reason, even if the battery box structure is submerged from below during traveling on the submerged channel, the second battery-related device group is difficult to submerge, and the second battery-related device group including the battery can be avoided from submergence. Therefore, it is possible to maintain the power supply to the electrical components used during traveling by the engine, and to avoid a situation in which traveling becomes impossible.

  Moreover, the battery box structure of the hybrid electric vehicle may include an upper cover that is attached to the upper frame body and covers the upper portion of the second accommodation space.

  In the said structure, the penetration | invasion from upper direction by rain, a car wash, etc. can be prevented with respect to the 2nd accommodation space in which the 2nd battery related apparatus group with a high request | requirement with respect to waterproofness is accommodated. Therefore, the second battery-related device group can be waterproofed against intrusion from above due to rain, car wash, or the like.

  The vehicle battery box structure may include a water cooling device and an air cooling device. The water cooling device cools the first battery-related device group with the liquid refrigerant. The air cooling device cools the second battery-related device group with air.

  In the above configuration, the first battery-related device group disposed below is cooled by the water cooling device, and the second battery-related device group disposed above is cooled by the air cooling device. Compared with the case where the first and second battery-related devices are cooled by connecting to the second housing space, the workability when attaching and removing the upper frame body to and from the lower frame body is good.

  According to the present invention, maintenance work is easy, and the battery is difficult to flood when traveling on a flooded channel.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Hereinafter, the front-rear direction means the front-rear direction of the traveling direction of the vehicle. In the figure, an arrow FR indicates the front of the vehicle, and an arrow UP indicates the upper side of the vehicle.

  An embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a perspective view showing a state where a battery mounting structure according to the present invention is provided in a vehicle, and FIG. 2 is a perspective view showing a lower frame body and a first battery-related device group of the battery mounting structure of FIG. FIG. 3 is a perspective view showing the upper box and the second battery-related device group of the battery mounting structure of FIG.

  The vehicle 1 of this embodiment is a hybrid electric vehicle, and is provided with a vehicle body frame 2, a stay 3, and a hybrid unit box 4.

  The vehicle body frame 2 includes a pair of side members 21 extending in the front-rear direction and arranged on the left and right sides, a first cross member 22 extending in the vehicle width direction and connecting the pair of side members 21, and the first cross member 22. A second cross member 23 that extends rearward in the vehicle width direction and connects the pair of side members 21 to each other is provided.

  Two stays 3 are fixed to the outer side surface in the vehicle width direction of the side member 21 on the right side when viewed from the front of the vehicle, and have bolt insertion holes 32 in the upper end portion 31, downward from the vicinity of the upper end edge of the side member 21 to the lower end edge. Extend.

  The hybrid unit box 4 is provided on the vehicle width direction outer side of the side member 21 on the right side when viewed from the front of the vehicle, and is provided between a front wheel (not shown) and a rear wheel (not shown) of the vehicle 1. The hybrid unit box 4 includes a lower frame body 5, an upper box 8, an outer cover 110, and a vehicle battery related device group 40. The vehicle battery-related device group 40 of the present embodiment includes a cold water pipe 34, a first battery-related device group 41 accommodated in the first accommodation space 50, and a second accommodation space 80. 2 battery-related equipment group 45 and surge tank 49.

  The lower frame body 5 includes a bottom surface portion 51, a rear frame 52, a first frame frame 56, a second frame frame 62, a frame frame connecting portion 68, a bottom frame 70, and a front side frame portion 75. And a first storage space 50 is defined.

  The bottom surface portion 51 is a rectangular metal plate member.

  The rear frame 52 is a pair of metal members, and includes a rear vertical frame portion 53 and a rear side frame portion 54. The rear vertical frame portion 53 is fixed to both ends in the vehicle width direction of the rear end portion of the bottom surface portion 51 and extends upward. The rear side frame portion 54 continuously extends forward from the upper end of the rear vertical frame portion 53, and the front portion 55 is bent downward in a substantially S shape. The rear side frame portion 54 disposed on the outer side in the vehicle width direction has a bolt insertion hole 76.

  The first frame frame 56 is a metal member, and includes a first vertical frame portion 57 and a first cross frame portion 60. The first vertical frame portion 57 is fixed to the front of the rear frame 52 at both ends in the vehicle width direction of the bottom surface portion 51 and extends upward. The first vertical frame portion 57 disposed on the outer side in the vehicle width direction has a bolt insertion hole 59 at the upper end portion 58. A front end of the rear side frame portion 54 is connected to the first vertical frame portion 57. The first cross frame portion 60 extends continuously inward in the vehicle width direction from the upper end of the first vertical frame portion 57. An inner end 61 in the vehicle width direction of the first cross frame portion 60 is attached to the stay 3.

  The second frame frame 62 is a metal member, and includes a second vertical frame portion 63 and a second cross frame portion 66. The 2nd vertical frame part 63 is fixed to the front-end part of the vehicle width direction both ends of the bottom face part 51, and is extended upwards. The second vertical frame portion 63 disposed on the outer side in the vehicle width direction has a bolt insertion hole 65 at the upper end portion 64. The second cross frame portion 66 extends continuously inward in the vehicle width direction from the upper end of the second vertical frame portion 63. An inner end 67 in the vehicle width direction of the second cross frame portion 66 is attached to the stay 3.

  The frame frame connecting portion 68 is a metal member, and includes an upper portion of an inner end portion 61 in the vehicle width direction of the first cross frame portion 60 and an upper portion of the inner end portion 67 in the vehicle width direction of the second cross frame portion 66. Link.

  The bottom frame 70 is a metal member and includes a frame-shaped portion 71, a front extension 72, and a front cross frame 74. The frame-like portion 71 extends to the vehicle width direction outer edge, the vehicle width direction inner edge, and the rear end edge of the bottom surface portion 51. The front extending portion 72 extends obliquely forward and upward from the front end of the frame-shaped portion 71. The front cross frame portion 74 extends in the vehicle width direction and connects the front ends of the front extension portion 72.

  The front side frame portion 75 is a metal member, and extends downward in a substantially S shape from both ends in the vehicle width direction of the front cross frame portion 74 to the rear, and the rear end is connected to the second vertical frame portion 63. Is done. The front side frame portion 75 disposed on the outer side in the vehicle width direction has a bolt insertion hole 76.

  The lower frame body 5 defines a first accommodation space 50 inside. In the first storage space 50, among the battery-related equipment group 40 for vehicles, the first battery-related equipment group 41 with low demand for waterproofness and high maintenance frequency is housed. The requirement for waterproofing according to the present invention is a high priority for protection from flooding, and the requirement for waterproofing is low is the priority for protection from flooding compared to the second battery-related device group 45. It means low. The first battery-related device group 41 includes a radiator 42, a water pump 43, and an inverter 44. The first battery-related device group 41 has many parts that require periodic replacement, and a person using the vehicle 1 can perform maintenance.

  The radiator 42 is attached between the first frame frame 56 and the second frame frame 62 and on the outer side in the vehicle width direction on the bottom surface portion 51. The water pump 43 is attached below the second frame 62 and on the inner side in the vehicle width direction on the bottom surface portion 51. The water pump 43 is connected to the cold water pipe 34 and circulates the cooling water (liquid refrigerant) in the cold water pipe 34. The water pump 43 and the cold water pipe 34 constitute a water cooling device according to the present invention, and cool the first battery-related device group 41. The inverter 44 is mounted on the bottom surface 51 behind the first frame 56. Since the inverter 44 is disposed in the rear part of the first accommodation space 50, the front wheel provided in front of the hybrid unit box 4 is less affected by water splashing.

  The lower frame body 5 is attached to the vehicle body frame 2 via the stay 3. In the present embodiment, the vehicle width direction inner end portion 61 of the first cross frame portion 60 of the first frame frame 56 and the vehicle width direction inner end portion 67 of the second frame frame 62 and the second cross frame portion 66 are stationary. 3 is attached.

  The upper box 8 has a case part (upper frame body) 81 and a top cover part (upper cover) 105, and defines a second accommodation space 80. In FIG. 1 and FIG. 3, the upper box 8 is shown to be transmissive for the inside description, but the upper box 8 of this embodiment is made of a non-permeable member.

  The case portion 81 includes a bottom portion 82, a vehicle width direction outer side plate portion 88, a vehicle width direction inner side plate portion 94, a front plate portion 97, a rear plate portion 98, and an opening 103, and is mounted on the upper surface of the lower frame body 5. Placed.

  The bottom portion 82 includes a bottom plate portion 83, a unit attachment portion 84, a handle 85, and a lower frame fastening portion 86. The bottom plate portion 83 is a substantially rectangular metal plate member. The handle 85 is a member that is fixed to the lower surface of the bottom plate portion 83 and has portions that protrude to both sides in the vehicle width direction from the bottom plate portion 83, and the front portion 55 and the front side of the rear side frame portion 54 of the lower frame body 5. The frame portion 75 is provided above the portion bent in a substantially S shape. Two handles 85 are provided on each of the inner side in the vehicle width direction and the outer side in the vehicle width direction. The lower frame fastening portion 86 has a bolt insertion hole 87, extends downward from the lower surface of the bottom plate portion 83, and is provided one each at the front and rear portions on the outer side in the vehicle width direction. The bolt insertion hole 87 of the lower frame fastening portion 86 and the bolt insertion holes 76 provided in the rear side frame portion 54 and the front side frame portion 75 disposed on the outer side in the vehicle width direction of the lower frame body 5 are overlapped. In this state, the bolt is inserted into the bolt insertion holes 76 and 87 and fastened by the bolt and the nut.

  The vehicle width direction outer side plate portion 88 is a rectangular metal plate-like member, and includes an air supply port 89, an exhaust port 91, and a lower frame fastening portion 92. The air supply port 89 is a substantially rectangular opening and is provided with a filter 90. The filter 90 inhibits outside dust from entering the second storage space 80. The exhaust port 91 is a substantially rectangular opening. The filter 90 is replaceably attached and is periodically replaced. The lower frame fastening portion 92 has a bolt insertion hole 93, is disposed to face the first frame frame 56 and the second frame frame 62 of the lower frame body 5, and extends downward. In a state where the bolt insertion hole 93 of the lower frame fastening portion 92 and the bolt insertion hole 59 of the first frame frame 56 or the bolt insertion hole 65 of the second frame frame 62 are overlapped, the bolt insertion holes 59, 65, 93 Bolts are inserted and fastened with bolts and nuts.

  The vehicle width direction inner side plate portion 94 is a rectangular metal plate-like member, and has an attachment portion 95 extending upward. The attachment portion 95 has a wedge-shaped tip portion 96. The distal end portion 96 is fastened to the bolt insertion hole 32 of the upper end portion 31 of the stay 3 by a bolt and a nut.

  The front plate portion 97 is a rectangular metal plate member.

  The rear plate portion 98 is a rectangular metal plate-like member, and has an electric wire insertion portion 99 opened in a substantially rectangular shape. A service plug cover 100 is provided in the electric wire insertion portion 99. The service plug cover 100 includes a waterproof part 107 and an electric wire insertion hole 101. The waterproof part 107 is a waterproof sponge, is provided on the front side, and covers the electric wire insertion part 99. The waterproof part 107 prevents intrusion from the electric wire insertion part 99. Two electric wire insertion holes 101 are provided, and the electric wire 102 is inserted therethrough.

  The upper end edge of the vehicle width direction outer side plate portion 88, the upper end edge of the vehicle width direction inner side plate portion 94, the upper end edge of the front plate portion 97, and the upper end edge of the rear plate portion 98 form an opening 103. The opening 103 defines an upper opening of the case portion 81 and includes a bolt insertion hole 104 and a waterproof seal portion 108. The bolt insertion hole 104 is a hole-shaped portion provided in plural along the opening. The waterproof seal portion 108 is a waterproof sponge and is disposed at a contact portion with the top cover portion 105 over the entire circumference of the opening.

  The top cover portion 105 is a rectangular plate-like member and has a bolt insertion hole 106. The bolt insertion port 106 of the top cover part 105 is disposed opposite to the bolt insertion hole 104 of the opening 103 of the case part 81. The top cover part 105 covers the upper part of the second accommodation space 80.

  The top cover part 105 is attached to the case part 81. In the present embodiment, the case portion 81 and the top cover portion 105 are fastened by bolts and nuts by inserting bolts into the bolt insertion holes 104 and 106. The case part 81 and the top cover part 105 are sealed by the waterproof seal part 108 of the opening 103 of the case part 81. The waterproof seal portion 108 seals the case portion 81 and the top cover portion 105, and prevents entry into the second storage space 80 during rainfall or car washing.

  The upper box 8 defines a second accommodation space 80 inside. In the second accommodation space 80, only the air supply port 89 and the exhaust port 91 are opened to the outside, and other portions are covered with the upper box 8. The second accommodation space 80 is blocked from the outside of the upper box 8 except for the air supply port 89 and the exhaust port 91. Of the vehicle battery-related device group 40, the second storage space 80 accommodates a second battery-related device group 45 that has a high waterproof requirement and a low maintenance frequency. The requirement for waterproofing according to the present invention is a high priority for protection from flooding, and the requirement for waterproofing is high when the priority for protection from flooding is higher than that of the first battery-related device group 41. It's expensive. The second battery-related device group 45 includes a fan / duct 46, a battery 47, a battery control unit 48, and a junction pallet (not shown). The second battery-related device group 45 has more high-voltage components than the first battery-related device group 41, and is basically maintained by a qualified person. For this reason, the second battery-related device group 45 is housed in the upper box 8 so that the person using the vehicle 1 cannot easily touch it compared to the first battery-related device group 41. Is arranged.

  The fan duct 46 includes an air supply unit 35 and an exhaust unit 36 and is provided in two stages. The fan duct 46 is attached to the front part in the second accommodating space 80. The fan duct 46 constitutes an air cooling device according to the present invention, and cools the second battery-related device group 45 with air. The air supply unit 35 is connected to the air supply port 89 of the upper box 8 and takes in the outside air of the upper box 8. The exhaust part 36 is connected to the exhaust port 91 of the upper box 8 and exhausts the inside air of the second accommodation space 80. The battery 47 is a lithium ion battery and is provided in two stages. The battery 47 is attached to the central portion in the second accommodation space 80. The battery control unit 48 is mounted on the rear unit mounting portion 84 in the second accommodation space 80. The battery control unit 48 mainly controls the battery 47. The junction pallet is disposed in the vicinity of the battery control unit 48 and switches the flow of electricity.

  The upper box 8 is detachably mounted on the upper surface of the lower frame body 5. In the present embodiment, the upper box 8 is placed on the upper surface of the lower frame body 5, and the bolt insertion hole 76 of the lower frame body 5 and the lower frame fastening portions 86 and 92 of the upper box are fastened by bolts and nuts. .

  By arranging the upper box 8 at a high position, it is possible to prevent intrusion into the second accommodation space 80 from below. In the present embodiment, the position of the water surface of the submerged channel is below the lower end of the upper box 8 when the vehicle 1 travels on the submerged channel, and is not submerged above the lower end of the upper box 8.

  Since the second battery-related device group 45 including the battery 47 and the battery control unit 48 is not flooded, the power to the electrical components used when the hybrid mechanism is stopped by flooding and is run by the engine (not shown) Since the supply is ensured, it is possible to avoid a situation where the vehicle cannot run.

  In addition, by waterproofing the second battery-related device group 45, which has more high-voltage devices than the first battery-related device group 41, the second battery-related device group 45 may be short-circuited due to flooding and broken. Can be prevented.

  In the vehicle battery-related equipment group 40, the surge tank 49 is connected to the cold water pipe 34 and attached to the front of the upper box 8. The cold water pipe 34 cools the motor generator via the vicinity of a motor generator (not shown) fixed to the side member 21. Since the motor generator and the first battery-related device group 41 reach a high temperature when driven, stability is ensured by water cooling with the water pump 43 or the like.

  The outer cover 110 includes a side cover part 111 and a rear cover part 114. In FIG. 1, the outer cover 110 is shown to be permeable for explanation of the inside.

  The side cover portion 111 is a metal plate-like member, has a vent 112, and covers the outer side in the vehicle width direction of the lower frame body 5 and the upper box 8. The peripheral edge portion of the side cover portion 111 is fastened to the lower end edge, the front end edge, the rear end edge of the lower frame body 5, and the upper end edge, the front end edge, and the rear end edge of the upper box 8 by bolts and nuts. The vehicle width direction outer side surface of the vehicle width direction outer side plate portion 88 of the upper box 8 and the vehicle width direction inner side surface of the side cover portion 111 of the outer cover 110 define a ventilation gap 113 having a predetermined interval. The vent 112 is a plurality of openings provided at locations not facing the air supply port 89 and the exhaust port 91 of the vehicle width direction outer side plate portion 88 of the upper box 8. In the present embodiment, the vent 112 includes the one disposed to face the radiator 42, and is disposed below the air supply port 89 and the exhaust port 91. The rear cover portion 114 is a metal plate-like member and covers the rear portions of the lower frame body 5 and the upper box 8.

  The side cover portion 111 of the outer cover 110 covers the lateral sides of the air supply port 89 and the exhaust port 91 on the outer side in the vehicle width direction, and the air supply port 89 and the exhaust port 91 do not face the ventilation port 112. Direct intrusion into the second accommodation space 80 from the four sides is suppressed.

  The outside air of the hybrid unit box 4 taken in from the air vent 112 is supplied to the fan duct 46 in the second accommodation space 80 from the air supply opening 89 through the air gap 113. The inside air in the second accommodation space 80 exhausted from the exhaust port 91 by the fan duct 46 is exhausted from the air vent 112 to the outside of the hybrid unit box 4 through the air gap 113. In this way, the inside air of the second accommodation space 80 is exchanged with the outside air of the hybrid unit box 4 from the air supply port 89, the exhaust port 91, and the ventilation port 112 through the ventilation gap 113. Since the second battery-related device group 45 accommodated in the second accommodating space 80 is at a relatively low temperature relative to the motor generator or the like when driven, sufficient stability is achieved by air cooling using the fan / duct 46 or the like. Is secured.

  In the present embodiment, the hybrid unit box 4 has an outer cover 110 detachably attached to the lower frame body 5 and the upper box 8.

  In addition, the upper box 8 has a mounting portion 95 of the vehicle width direction inner side plate portion 94 detachably attached to the stay 3.

  The upper box 8 is detachably attached to the lower frame body 5.

  The lower frame body 5 and the upper box 8 are detachably fastened to the first frame frame 56 and the second frame frame 62 of the lower frame body 5 and the lower frame fastening portions 86 and 92 of the upper box 8. When the lower frame body 5 is separated from the upper box 8, the fastening between the first frame frame 56 and the second frame frame 62 of the lower frame body 5 and the lower frame fastening portions 86 and 92 of the upper box 8 is released. Then, the handle 85 of the bottom portion 82 of the upper box 8 is gripped and pulled outward in the vehicle width direction, and the upper box 8 is lifted upward to separate the upper box 8 from the lower frame body 5.

  The upper box 8 has a vehicle width direction outer side plate portion 88, a vehicle width direction inner side plate portion 94, a front plate portion 97, and a rear plate portion 98 which are detachably attached. When performing maintenance on the second battery-related device group 45, the service plug provided in the upper box 8 is removed, the voltage in the second housing space 80 is shut down, and the vehicle width direction outer side plate portion 88 and the vehicle width direction inner side are This is performed in a state where the fastening of the plate portion 94, the front plate portion 97, and the rear plate portion 98 is released.

  Thus, in the hybrid unit box 4, the first and second battery-related device groups 41, 45 can be attached and removed with the outer cover 110 removed and the upper box 8 removed from the upper surface of the lower frame body 5. Done. For this reason, since the battery related apparatus group 40 for vehicles can be assembled | attached to the vehicle body side in the state accommodated in the hybrid unit box 4 at the time of manufacture of the vehicle 1, workability | operativity is good.

  In the present embodiment, the first battery-related device group 41 with high maintenance frequency is stored in the first storage space 50, and the second battery-related device group 45 with low maintenance frequency is stored in the second storage space 80. The For this reason, the 1st battery related apparatus group 41 with a high maintenance frequency among the battery battery related apparatus groups 40 for vehicles and the 2nd battery related apparatus group 45 with a low maintenance frequency do not coexist. Further, the upper box 8 that partitions the second storage space 80 is placed on the upper surface of the lower frame body 5 that partitions the first storage space 50. Therefore, since the maintenance of the first battery-related device group 41 can be performed in a state where the second battery-related device group 45 is removed together with the upper box 8, the maintenance work is easy.

  The upper box 8 is placed on the upper surface of the lower frame body 5. For this reason, compared with the case where the side of the upper box 8 is supported in a cantilevered manner from the outer side surface of the side member 21 in the vehicle width direction, for example, high strength is not required for the mounting portion of the upper box 8 The structure of the attachment portion can be simplified. Further, since the strength of the upper box 8 itself can be kept low, the weight of the upper box 8 can be reduced. Therefore, it is possible to easily attach and remove the upper box 8 during maintenance work.

  Further, since the hybrid unit box 4 is attached to the outer side surface of the side member 21 in the vehicle width direction, the upper surface of the lower frame 5 is exposed with the upper box 8 removed. For this reason, the maintenance work of the 1st battery related apparatus group 41 with a high maintenance frequency is easy.

  In addition, the second battery-related device group 45 including the battery 47 and having a high waterproof requirement is disposed above the first battery-related device group 41 having a low requirement for waterproofness. For this reason, even if the hybrid unit box 4 is submerged from below during traveling on the submerged road, the second battery-related device group 45 is difficult to submerge, and the second battery-related device group 45 including the battery 47 is avoided from the submergence. be able to. Therefore, it is possible to maintain the power supply to the electrical components used during traveling by the engine, and to avoid a situation in which traveling becomes impossible.

  Moreover, since the top cover part 105 which is attached to the case part 81 and covers the upper part of the 2nd accommodation space 80 is provided, the 2nd accommodation space in which the 2nd battery related apparatus group 45 with a high request | requirement with respect to waterproofness is accommodated. 80, it is possible to prevent intrusion from above due to rain, car wash, or the like. Therefore, the second battery-related device group 45 can be waterproofed against intrusion from above due to rain, car wash, or the like.

  In addition, the first battery-related device group 41 disposed below is cooled by the water pump 43, and the second battery-related device group 45 disposed above is cooled by the fan duct 46. Compared to the case where the first and second battery-related equipment groups 41 and 45 are cooled by being connected to the first and second accommodation spaces 50 and 80, the upper box 8 is attached to and detached from the lower frame body 5. Good workability when

  As mentioned above, although the embodiment to which the invention made by the present inventor is applied has been described, the present invention is not limited by the discussion and the drawings that form part of the disclosure of the present invention according to this embodiment. That is, it should be added that other embodiments, examples, operation techniques, and the like made by those skilled in the art based on this embodiment are all included in the scope of the present invention.

It is a perspective view which shows the state in which the battery attachment structure concerning this invention was provided in the vehicle. It is a perspective view which shows the lower frame and 1st battery related apparatus group of the battery attachment structure of FIG. It is a perspective view which shows the upper box and 2nd battery related apparatus group of the battery attachment structure of FIG.

Explanation of symbols

1: Vehicle (hybrid electric vehicle)
2: Body frame 3: Stay 4: Hybrid unit box 5: Lower frame body 8: Upper box 21: Side member 34: Cold water pipe (water cooling device)
40: Vehicle battery-related equipment group 41: First battery-related equipment group 43: Water pump (water cooling device)
45: Second battery-related equipment group 46: Fan duct (air cooling device)
50: 1st accommodation space 80: 2nd accommodation space 81: Case part (upper frame body)
105: Top cover part (upper cover)

Claims (3)

A battery box structure for a hybrid electric vehicle in which a vehicle battery-related device group including a battery is disposed and attached to the outside in the vehicle width direction of a side member extending in the vehicle front-rear direction,
Has a longitudinal frame member that the front and rear of the stay Ru respectively fixed extending from the vehicle width direction outer side of the side members are spaced apart in the longitudinal direction below the vehicle, the lower frame defining a first housing space Body,
An upper frame body that divides a second housing space, is placed on the upper surface of the lower frame body, and is disposed on the lateral side of the side member in the vehicle width direction,
The vehicle battery-related device group includes a first battery-related device group with a low requirement for waterproofness and a high maintenance frequency, and a second battery-related device group with a high requirement for waterproofness and a low maintenance frequency,
The second battery-related device group includes the battery,
The first battery-related device group is housed in the first housing space and fixed to the lower frame body,
The second battery-related device group is housed in the second housing space and fixed to the upper frame body,
An upper part of the upper frame body is fixed to the front and rear stays from above, and a lower part of the upper frame body is fixed to the front and rear frame frames of the lower frame body. . A battery box structure for a hybrid electric vehicle according to claim 1,
The lower frame is disposed between a front wheel and a rear wheel of the vehicle,
The first battery-related device group includes an inverter,
The inverter is disposed at a rear portion of the first housing space that is less affected by water splashing of the front wheels. A battery box structure for a hybrid electric vehicle, wherein: A battery box structure for a hybrid electric vehicle according to claim 1 or 2,
An upper cover attached to the upper frame body and covering the upper side of the second accommodation space;
A water cooling device for cooling the first battery-related device group with a liquid refrigerant;
An air-cooling device that cools the second battery-related device group with air.

Images