JP2019006395A - On-vehicle battery - Google Patents

Abstract

To improve collision performance of a vehicle and ensure a sufficient space for an on-vehicle battery by effectively utilizing the space.SOLUTION: At least three battery modules are provided. At least two battery modules are arranged vertically in two stages. At least two of the battery modules are arranged side by side in a longitudinal direction. One battery module is arranged at the frontmost side. A part of the battery module arranged the frontmost side and a part of a storage case are positioned in a space surrounded by a backrest of a rear seat and an inclined part of a floor part. The battery module arranged at the frontmost side is arranged in a middle stage with respect to the two battery modules arranged vertically in two stages. Control equipment for controlling the plurality of battery modules is arranged above the battery module arranged at the frontmost side and in front of the battery module arranged at an upper stage, or below the battery module disposed at the frontmost side and in front of the battery module arranged at a lower stage.SELECTED DRAWING: Figure 13

Description

  The present invention relates to a technical field relating to an in-vehicle battery that is mounted on a vehicle such as an automobile and can be used even in a cold region.

Japanese Patent No. 5206110

  Various types of vehicles such as automobiles are equipped with in-vehicle batteries for supplying electric power to motors and various electrical components.

  In recent years, vehicles such as EVs (Electric Vehicles), HEVs (Hybrid Electric Vehicles), and PHEVs (Plug-in Hybrid Electric Vehicles) are becoming popular. In a vehicle powered by electricity, an in-vehicle battery having a high power storage function is mounted.

  The in-vehicle battery is provided with a storage case and a battery module stored in the storage case, and the battery module is configured by arranging a plurality of battery cells (secondary batteries) such as a nickel metal hydride battery and a lithium ion battery, for example. Has been. Further, in a vehicle-mounted battery mounted on an electric vehicle or the like, a plurality of battery modules are arranged in a storage case in order to maintain a high power storage function, and the battery cells of these plurality of battery modules are connected in series or Connected in parallel.

  Such a vehicle-mounted battery includes a type in which battery modules are arranged in two upper and lower stages in a storage case as a configuration that maintains a high power storage function (see, for example, Patent Document 1).

  The in-vehicle battery described in Patent Document 1 is disposed in the rear luggage compartment, and the lower battery module is inserted into a recess formed in the floor panel so as to open upward. Is secured.

  By the way, in a vehicle equipped with an in-vehicle battery, in the unlikely event of a collision, it is necessary to provide an impact absorbing portion that is crushed and absorbs the impact at the time of the collision, and the in-vehicle battery is affected by the collision at the time of the collision. It is necessary to be arranged in a position that does not receive.

  In particular, a vehicle-mounted battery in which a plurality of battery modules as described above are arranged is likely to become large in size, and is present in the vehicle in order to secure a sufficient space for arranging the vehicle-mounted battery. It is also necessary to make effective use of space.

  SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to overcome the above-described problems, to improve the collision performance of a vehicle, and to secure a sufficient space for an in-vehicle battery by effectively using the space.

First, an in-vehicle battery according to the present invention includes a plurality of battery modules each having a plurality of battery cells arranged therein, and a storage case that stores the plurality of battery modules, and the battery module includes at least three battery modules. And at least two battery modules are arranged in two upper and lower stages, at least two of the battery modules are arranged side by side, one battery module is arranged on the foremost side, and arranged on the foremost side. In addition, a part of the battery module and a part of the storage case are positioned in a space surrounded by a backrest of a rear seat and an inclined part of the floor panel, and the battery module arranged at the frontmost side is in two upper and lower stages. The battery module is arranged in the middle of the two battery modules arranged on the And a control device that controls the plurality of battery modules in front of the battery module disposed in the upper stage, or below the battery module disposed in the foremost side and in front of the battery module disposed in the lower stage. It is arranged .

As a result, the vehicle-mounted battery is positioned close to the backrest of the rear seat, and the distance from the vehicle-mounted battery to the rear end of the vehicle is increased. Moreover, it becomes easy to arrange | position the battery module located in the foremost side in the back part of the space for arrange | positioning a vehicle-mounted battery. Further, the battery module and the control device are arranged together at the front end in the internal space of the storage case.

2ndly, in the vehicle-mounted battery which concerns on above-mentioned this invention, the inclination part which is displaced back is formed in the front wall of the said storage case as it goes upwards, and the front-end part of a bottom face wall is from other parts of a bottom face wall. It is desirable that it is formed as an upper step portion that is one step higher, and is located in a space surrounded by the backrest of the rear seat and the inclined portion of the floor panel.

Thirdly, in the above-described vehicle-mounted battery according to the present invention, the floor panel is formed with a recessed portion opened upward, and the recessed portion includes a part of the battery module disposed at the lower stage, and It is desirable that a part of the battery module disposed in the middle stage is disposed at a position one step higher in front of the recess.

Thereby, a recessed part is used as an arrangement | positioning space of a vehicle-mounted battery.

Fourth, in the above-described vehicle-mounted battery according to the present invention, an intake duct that sends cooling air to the inside of the plurality of battery modules is provided, and the cooling air flows inside the battery module via the intake duct. It is desirable to be taken in from behind.

As a result, the intake duct is disposed in the space on the rear side.

Fifthly, in the above-described vehicle-mounted battery according to the present invention, a fan connected to the intake duct is provided, and the fan is disposed at least one of the left side and the right side at the rear end portion of the storage case. It is desirable that

This shortens the path of the intake duct.

  According to the present invention, since the vehicle-mounted battery is positioned close to the backrest of the rear seat and the distance from the vehicle-mounted battery to the rear end of the vehicle is increased, the collision performance of the vehicle can be improved. Sufficient space for in-vehicle batteries can be secured by effective use of space.

2 to 13 show an embodiment of the in-vehicle battery of the present invention, and this figure is a perspective view of the in-vehicle battery. It is a perspective view which shows the state which abbreviate | omitted a vehicle-mounted battery. It is the schematic which shows the arrangement | positioning state etc. of the battery module in a vehicle-mounted battery. It is a schematic exploded perspective view which shows a battery module and a joint duct. It is a perspective view of a 1st cooling unit. It is a perspective view of a 2nd cooling unit. It is an expanded sectional view showing the state where a current plate is arranged. The battery module and the joint duct are shown together with FIGS. 9 to 12, and this figure is a perspective view showing the first battery module and the first joint duct. It is a perspective view which shows a 2nd battery module and a 2nd joint duct. It is a perspective view which shows a 3rd battery module and a 3rd joint duct. It is a perspective view which shows a 4th battery module and a 4th joint duct. It is a perspective view which shows a 5th battery module and a 5th joint duct. It is a schematic side view which shows the arrangement | positioning state with respect to the vehicle of a vehicle-mounted battery by making a part into a cross section.

  EMBODIMENT OF THE INVENTION Below, the form for implementing this vehicle-mounted battery of this invention is demonstrated with reference to an accompanying drawing.

  The in-vehicle battery 1 has a storage case 2 and battery modules 3, 3,... (See FIGS. 1 to 3). The vehicle-mounted battery 1 is disposed, for example, in a vehicle luggage compartment.

  The storage case 2 has a storage portion 4 that opens upward and a flat lid portion 5 that closes the opening of the storage portion 4 from above.

  The storage unit 4 includes a front wall 6 facing in the front-rear direction, a rear wall 7 positioned on the rear side of the front wall 6, a side wall 8, 8 positioned on the left and right sides, and a bottom wall 9 facing in the up-down direction. And have. The front wall 6, the rear wall 7, the side walls 8, 8 and the bottom wall 9 are all formed by, for example, extrusion molding of aluminum or the like and have a hollow cross-sectional shape.

  The front wall 6 is formed with, for example, a plurality of cavities (not shown) extending left and right and arranged vertically, and the rear wall 7 is formed with a plurality of cavities (not shown) extending left and right and arranged vertically. In the side walls 8, 8 are formed, for example, a plurality of unillustrated cavities extending in the front-rear direction and arranged vertically. The bottom wall 9 is formed with, for example, a plurality of unillustrated cavities extending in the left-right direction and arranged in the front-rear direction.

  The upper half of the front wall 6 is provided as an inclined portion 6a, and the inclined portion 6a is inclined so as to be displaced rearward as it goes upward.

  The bottom wall 9 is provided as an upper step 9a whose front end is positioned one step higher than the other portions (see FIG. 3). The bottom wall 9 is provided as a step portion 9b whose rear side that is continuous with the upper step portion 9a faces substantially in the front-rear direction, and a rear portion that is continuous with the step portion 9b is provided as a lower step portion 9c.

  For example, five of the battery modules 3, 3,... As the battery modules 3, 3,..., The first battery module 3A located at the foremost side, the second battery module 3B located at the rear side of the first battery module 3A, and the second battery module. A fourth battery module 3D and a fourth battery module 3D located on the rear side of the third battery module 3C and the second battery module 3B located on the rear side of the first battery module 3A. A fifth battery module 3E is provided which is located on the rear side of the battery module 3D and located directly above the third battery module 3C.

  The first battery module 3A, the second battery module 3B, the third battery module 3C, the fourth battery module 3D, and the fifth battery module 3E are connected in series by electric wires.

  The battery module 3 includes a case body 10 and a plurality of battery cells 11, 11,... Accommodated inside the case body 10 (see FIG. 4).

  The case body 10 is formed in a horizontally long box shape opened upward and rearward, and a horizontally long front surface portion 12 facing in the front-rear direction and side surface portions 13 and 13 positioned in the left-right direction and spaced apart from each other in the left-right direction. And a horizontally long bottom surface portion 14 facing the surface. The internal space of the case body 10 is formed as a storage space.

  The front surface portion 12 is formed with a discharge hole 12a penetrating back and forth at any position of the right end portion, the left end portion or the central portion in the left-right direction. Specifically, the first battery module 3A has a discharge hole 12a formed at the right end of the front surface portion 12, and the second battery module 3B has a discharge hole 12a formed at the left end of the front surface portion 12. In the third battery module 3C, a discharge hole 12a is formed at the center in the left-right direction of the front surface portion 12, and in the fourth battery module 3D, a discharge hole 12a is formed at the right end portion of the front surface portion 12. In the module 3E, a discharge hole 12a is formed at the center of the front surface portion 12 in the left-right direction. FIG. 4 shows an example in which a discharge hole 12 a is formed at the right end of the front surface portion 12.

  The battery cells 11, 11,... Are housed in the housing space and held in the case body 10 in a state in which the thickness direction is the left-right direction and are arranged at equal intervals on the left and right, for example. For example, 19 battery cells 11, 11,... Are held in the case body 10. In a state where the battery cells 11, 11,... Are held in the case body 10, a certain gap is formed between the battery cells 11, 11,. The battery cells 11, 11,... Are connected in series.

  As described above, in the in-vehicle battery 1, the battery modules 3, 3,... Are arranged inside the storage case 2 with the direction in which the battery cells 11, 11,. Has been. Accordingly, the battery modules 3, 3,... Have a horizontally long shape, and the battery cells 11, 11,. It is possible to increase the number, and it is possible to improve the performance while ensuring miniaturization of the in-vehicle battery 1.

  The case body 10 is provided with a smoke exhaust pipe 15 extending in the left-right direction. The smoke exhaust pipe 15 has a base plate portion 15a facing in the vertical direction and a cylindrical portion 15b positioned on the upper surface of the base plate portion 15a. The cylindrical part 15b is located in the center part in the front-back direction of the base plate part 15a. The smoke exhaust pipe 15 is attached to the case body 10 in a state where the base plate portion 15 a closes the opening on the upper side of the case body 10.

  Gas flow holes (not shown) are formed on the lower surface of the smoke exhaust pipe 15 at equal intervals on the left and right. The smoke exhaust pipe 15 has gas flow holes positioned directly above the battery cells 11, 11,.

  Substrate 16 and 16 formed in a horizontally long shape are attached to the front and rear end portions of the base plate portion 15a in the smoke exhaust pipe 15, respectively. Electric wires, which will be described later, are connected to the substrates 16 and 16, respectively, and electrical control and the like for the battery cells 11, 11,.

  Each of the battery cells 11, 11,... Is provided with a valve (not shown) that can communicate with the inside, and each valve communicates with a gas flow hole of the smoke exhaust pipe 15. In the battery cell 11, if an abnormality occurs, gas may be generated inside. However, when gas is generated, the internal pressure of the battery cell 11 is increased and the valve is opened, and the generated gas is discharged from the valve to the gas flow hole. To the flue gas pipe 15.

  Each of the battery modules 3, 3,... Is attached to the storage case 2 by a mounting plate (not shown) and is disposed at a predetermined position (see FIG. 3). The second battery module 3B and the third battery module 3C are arranged in the lower stage, the fourth battery module 3D and the fifth battery module 3E are arranged in the upper stage, and the first battery module 3A is the second battery module. 3B, the third battery module 3C, the fourth battery module 3D, and the fifth battery module 3E are arranged in the middle stage. The first battery module 3A may be arranged in the lower stage at the same position as the second battery module 3B and the third battery module 3C, and the fourth battery module 3D and the fifth battery module 3E You may arrange | position in the upper stage in the same position.

  When the battery modules 3, 3,... Are driven, cooling air is taken into the battery modules 3, 3,... By the first intake unit 17 and the second intake unit 18, respectively (FIG. 1, FIG. 3, see FIGS. 5 and 6).

  The first intake unit 17 includes a first intake duct 19, a first intake fan 20, a first intake pipe 21, and joint ducts 22, 22, and 22 (see FIGS. 1 and 5). .

  The first intake duct 19 has a function of taking cooling air into the first battery module 3A, the second battery module 3B, and the third battery module 3C. The first intake duct 19 has an intake portion 23, an intermediate portion 24, a first inflow portion 25, a second inflow portion 26, and a third inflow portion 27.

  The intake portion 23 is formed in a substantially square shape located on the right side, and is formed in a shape in which one substantially half extends substantially vertically and the other substantially half extends substantially left and right. The intermediate portion 24 extends to the left and right, and the right end portion is continuous with the left end portion of the intake portion 23.

  In the first inflow portion 25, a portion excluding the front end portion extends in the front-rear direction, the front end portion is bent upward with respect to the other portions, and the rear end portion is continuous with the left end portion of the intermediate portion 24. In the second inflow portion 26, a portion excluding the front end portion extends in the front-rear direction, the front end portion is bent upward with respect to the other portions, and the rear end portion is continuous with the right end portion of the intermediate portion 24. The third inflow portion 27 extends in the front-rear direction, and the rear end portion is continuous with the substantially central portion of the intermediate portion 24 in the left-right direction. The first inflow portion 25, the second inflow portion 26, and the third inflow portion 27 are formed so that the lengths in the front-rear direction are shortened in order.

  The first intake fan 20 is connected to the upper end portion of the intake portion 23.

  The lower end of the first intake pipe 21 is connected to the first intake fan 20. Accordingly, when the first intake fan 20 is rotated, the cooling air is taken in from the first intake pipe 21, and the taken-in cooling air flows toward the first intake duct 19.

  As the joint ducts 22, 22 and 22, a first joint duct 22A, a second joint duct 22B and a third joint duct 22C are provided. The first joint duct 22A has a function of taking cooling air into the first battery module 3A, and the second joint duct 22B has a function of taking cooling air into the second battery module 3B. The third joint duct 22C has a function of taking cooling air into the third battery module 3C. The first joint duct 22A, the second joint duct 22B, and the third joint duct 22C are sequentially positioned from the front side.

  The joint duct 22 has a main body portion 28 formed in a horizontally long and substantially rectangular shape and a connecting portion 29 protruding from the main body portion 28. The joint duct 22 has a space inside. The main body 28 is provided with ejection protrusions 28a, 28a,... Protruding forward and spaced apart at equal intervals on the left and right. The discharge projection 28a has an open end.

  The connecting portion 29 of the first joint duct 22A protrudes downward from the left end portion of the main body portion 28, and the connecting portion 29 of the second joint duct 22B protrudes downward from the right end portion of the main body portion 28, The connecting portion 29 of the third joint duct 22C is provided so as to protrude rearward from the central portion of the main body portion 28 in the left-right direction.

  The second intake unit 18 includes a second intake duct 30, a second intake fan 31, a second intake pipe 32, and joint ducts 22 and 22 (see FIGS. 1 and 6).

  The second intake duct 30 has a function of taking cooling air into the fourth battery module 3D and the fifth battery module 3E. The second intake duct 30 has an intake portion 33, an intermediate portion 34, a fourth inflow portion 35, and a fifth inflow portion 36.

  The intake portion 33 is located on the left side and is formed in a substantially square shape, and is formed in a shape in which one approximately half portion extends substantially vertically and the other approximately half portion extends substantially horizontally. The intermediate portion 34 extends to the left and right, and the left end portion is continuous with the right end portion of the intake portion 33.

  In the fourth inflow portion 35, the portion excluding the front end portion extends in the front-rear direction, the front end portion is bent rightward with respect to the other portions, and the rear end portion is continued to the left end portion of the intermediate portion 34. The fifth inflow portion 36 extends in the front-rear direction, and the rear end portion is continuous with the right end portion of the intermediate portion 34. The fourth inflow portion 35 is formed longer than the fifth inflow portion 36 in the front-rear direction.

  The second intake fan 31 is connected to the upper end portion of the intake portion 33.

  The lower end of the second intake pipe 32 is connected to the second intake fan 31. Therefore, when the second intake fan 31 is rotated, cooling air is taken in from the second intake pipe 32 and the taken cooling air flows toward the second intake duct 30.

  As the joint ducts 22 and 22, a fourth joint duct 22D and a fifth joint duct 22E are provided. The fourth joint duct 22D has a function of taking cooling air into the fourth battery module 3D, and the fifth joint duct 22E has a function of taking cooling air into the fifth battery module 3E. Yes. The fourth joint duct 22D is located in front of the fifth joint duct 22E.

  The connecting portion 29 of the fourth joint duct 22D protrudes leftward from the left end portion of the main body portion 28, and the connecting portion 29 of the fifth joint duct 22E protrudes rearward from the center portion in the left-right direction of the main body portion 28. Is provided.

  The inside of the connecting portion 29 of the third joint duct 22C located on the rearmost side in the first intake unit 17 and the connecting portion 29 of the fifth joint duct 22E located on the rear side in the second intake unit 18 Are provided with rectifying fins 37, 37, 37, respectively (see FIG. 7). The rectifying fins 37, 37, 37 are spaced apart from each other left and right, the rectifying fins 37 positioned in the center are positioned in the left-right direction, and the rectifying fins 37 positioned on the left are positioned in the center as they go forward. The rectifying fins 37 are inclined so as to move away from the rectifying fins 37, and the rectifying fins 37 positioned on the right side are inclined so as to move away from the rectifying fins 37 located in the center as going forward. Has been.

  As shown in FIG. 1, in the first intake unit 17, the first intake fan 20 is positioned on the right side of the rear end portion of the storage case 2, and the intermediate portion 24 of the first intake duct 19 is stored. The case 2 is disposed with respect to the storage case 2 in a state of being opposed to the rear side of the rear wall 7.

  In a state in which the first intake unit 17 is disposed with respect to the storage case 2, the rear end portion of the first inflow portion 25 is penetrated through the rear wall 7, and the main body portion 28 of the first joint duct 22 </ b> A is The battery cells 11, 11... Of the battery module 3A of 1 are positioned to face the rear surfaces (see FIG. 8). The first inflow portion 25 is positioned below the second battery module 3B and the third battery module 3C in the storage case 2.

  The rear end portion of the first inflow portion 25 is coupled to the rear wall 7 in a state of protruding rearward from the rear wall 7 (see FIG. 2). The opening on the rear side of the first inflow portion 25 functions as a first air intake port 38 for taking cooling air into the first battery module 3A.

  In the state where the first intake unit 17 is disposed with respect to the storage case 2, the rear end portion of the second inflow portion 26 penetrates the rear wall 7 (see FIG. 1), and the second joint duct. The body part 28 of 22B is located facing the rear surface of the battery cells 11, 11,... Of the second battery module 3B (see FIG. 9). The second inflow portion 26 is positioned below the third battery module 3 </ b> C inside the storage case 2.

  The rear end portion of the second inflow portion 26 is coupled to the rear wall 7 in a state of protruding rearward from the rear wall 7 (see FIG. 2). The rear opening of the second inflow portion 26 functions as a second air intake port 39 for taking cooling air into the second battery module 3B.

  Further, in a state where the first intake unit 17 is disposed with respect to the storage case 2, the third inflow portion 27 passes through the rear wall 7 (see FIG. 1), and the main body portion of the third joint duct 22 </ b> C. 28 is positioned to face the rear surface of the battery cells 11, 11,... Of the third battery module 3C (see FIG. 10).

  The third inflow portion 27 is coupled to the rear wall 7 in a state of protruding rearward from the rear wall 7 (see FIG. 2). The opening on the rear side of the third inflow portion 27 functions as a third air intake port 40 for taking cooling air into the third battery module 3C.

  As shown in FIG. 1, in the second intake unit 18, the second intake fan 31 is positioned on the left side of the rear end portion of the storage case 2, and the intermediate portion 34 of the second intake duct 30 is stored. The case 2 is disposed with respect to the storage case 2 in a state of being opposed to the rear side of the rear wall 7. The intermediate part 34 is positioned above the intermediate part 24 of the first intake unit 17. Therefore, the intermediate portion 24 and the intermediate portion 34 do not overlap in the front-rear direction, and the vehicle-mounted battery 1 can be reduced in size in the front-rear direction.

  In a state where the second intake unit 18 is disposed with respect to the storage case 2, the rear end portion of the fourth inflow portion 35 is penetrated through the rear wall 7 (see FIG. 1), and the fourth joint duct 22D The main body 28 is positioned to face the rear surface of the battery cells 11, 11,... Of the fourth battery module 3D (see FIG. 11). The fourth inflow portion 35 is located on the left side of the fifth battery module 3 </ b> E inside the storage case 2.

  The rear end portion of the fourth inflow portion 35 is coupled to the rear wall 7 in a state of protruding rearward from the rear wall 7 (see FIG. 2). The opening on the rear side of the fourth inflow portion 35 functions as a fourth air intake port 41 for taking cooling air into the fourth battery module 3D.

  Further, in a state where the second intake unit 18 is disposed with respect to the storage case 2, the fifth inflow portion 36 penetrates the rear wall 7 (see FIG. 1), and the main body portion of the fifth joint duct 22E. 28 is positioned to face the rear surface of the battery cells 11, 11,... Of the fifth battery module 3E (see FIG. 12).

  The fifth inflow portion 36 is coupled to the rear wall 7 in a state of protruding rearward from the rear wall 7 (see FIG. 2). The opening on the rear side of the fifth inflow portion 36 functions as a fifth air intake 42 for taking in cooling air into the fifth battery module 3E.

  As described above, the joint ducts 22, 22,... Are positioned so that the main body portions 28, 28,... Face the rear surfaces of the battery cells 11, 11,. reference). At this time, the ejection protrusions 28a, 28a, ... of the main body 28 are positioned between the battery cells 11, 11, ..., respectively (see Fig. 7). Therefore, the cooling air discharged from the discharge protrusions 28a, 28a,... Travels forward through the gaps formed between the battery cells 11, 11,.

  Hereinafter, the flow path of the cooling air will be described.

  When the first intake fan 20 and the second intake fan 31 are rotated, the air existing outside the storage case 2 from the first intake pipe 21 and the second intake pipe 32 becomes the cooling air, respectively. The air is taken into the first intake duct 19 and the second intake duct 30.

  The cooling air taken into the first intake duct 19 flows from the intake portion 23 to the intermediate portion 24 and is divided into the first inflow portion 25, the second inflow portion 26, and the third inflow portion 27, respectively. The fluid flows toward the first joint duct 22A, the second joint duct 22B, and the third joint duct 22C, and is discharged into the first battery module 3A, the second battery module 3B, and the third battery module 3C, respectively. Is done.

  At this time, since the rectifying fins 37, 37, 37 are provided inside the connecting portion 29 in the third joint duct 22 </ b> C located at the rearmost side in the first intake unit 17, the rectifying fins 37, 37, A pressure loss is generated by 37, and the cooling air that has flowed to the intermediate portion 24 can easily flow into the first inflow portion 25 and the second inflow portion 26.

  Further, the cooling air flowing from the central portion in the left-right direction with respect to the third joint duct 22C is easily flown to the left and right by the rectifying fins 37, 37, 37, and is uniform in the left-right direction inside the third battery module 3C. It becomes easy to discharge a cooling air.

  The cooling air discharged into the first battery module 3A, the second battery module 3B, and the third battery module 3C travels forward through a gap formed between the battery cells 11, 11,. The battery cells 11, 11,... Are cooled by the cooling air. The cooling air directed forward through the gap formed between the battery cells 11, 11,... Is discharged from the discharge hole 12 a of the front surface portion 12 to the internal space of the storage case 2.

  On the other hand, the cooling air taken into the second intake duct 30 flows from the intake portion 33 to the intermediate portion 34 and is divided into the fourth inflow portion 35 and the fifth inflow portion 36, respectively, and the fourth joint duct 22D. And flow toward the fifth joint duct 22E and discharged into the fourth battery module 3D and the fifth battery module 3E, respectively.

  At this time, since the rectifying fins 37, 37, 37 are provided inside the connecting portion 29 in the fifth joint duct 22E located on the rear side in the second intake unit 18, the rectifying fins 37, 37, 37 are provided. As a result, a pressure loss occurs, and the cooling air that has flowed to the intermediate portion 34 is likely to flow into the fourth inflow portion 35.

  In addition, the cooling air flowing from the central portion in the left-right direction with respect to the fifth joint duct 22E is easily flown to the left and right by the rectifying fins 37, 37, 37, and is uniform in the left-right direction inside the fifth battery module 3E. It becomes easy to discharge a cooling air.

  The cooling air discharged into the fourth battery module 3D and the fifth battery module 3E travels forward through the gap formed between the battery cells 11, 11,... , 11,... Are cooled. The cooling air directed forward through the gap formed between the battery cells 11, 11,... Is discharged from the discharge hole 12 a of the front surface portion 12 to the internal space of the storage case 2.

  As described above, in the in-vehicle battery 1, the first intake fan 20 and the second intake fan 31 are arranged on the left side and the right side at the rear end of the storage case 2, respectively. The path between the first intake duct 19 and the second intake duct 30 is short, and the structure of the in-vehicle battery 1 can be simplified and the space efficiency can be improved.

  In particular, since the first intake fan 20 and the second intake fan 31 are not positioned behind the storage case 2 and are arranged on the left and right sides at the rear end of the storage case 2, the storage case 2 The space behind can be increased. As will be described later, for example, the vehicle-mounted battery 1 is disposed above a floor panel such as a luggage compartment behind the rear seat of the vehicle, so that a large luggage compartment can be secured and at the rear end of the vehicle. It is possible to secure a sufficient space for providing an impact absorbing portion in the event of a collision, and it is possible to improve the collision performance.

  In addition, the first intake fan 20 and the second intake fan 31 are disposed on the left and right sides of the rear end of the storage case 2, respectively, so that the intermediate portion 24 of the first intake duct 19 is provided. And the intermediate portion 34 of the second intake duct 30 can be formed in a substantially linear shape extending left and right.

  Therefore, the vehicle-mounted battery 1 can be reduced in size in the front-rear direction, and pressure loss is unlikely to occur in the intermediate portion 24 and the intermediate portion 34, and the cooling performance by the cooling air can be improved.

  As described above, since the second battery module 3B is disposed between the first battery module 3A and the third battery module 3C and is located below the fourth battery module 3D, the temperature rises. Although it is in an easy state, in the first cooling unit 17, the length of the second inflow portion 26 toward the second battery module 3B is shorter than the length of the first inflow portion 25 toward the first battery module 3A. Has been.

  Therefore, since the cooling air flowing through the second inflow portion 26 has a short flow distance, it is not easily affected by the internal temperature of the storage case 2 in the flow process, and the battery cells 11, 11, High cooling performance for.

  A smoke exhaust duct 43 is arranged on the left side of the battery modules 3, 3,... (See FIG. 2). The smoke exhaust duct 43 is connected to the smoke exhaust pipes 15, 15,... Arranged on the upper side of the battery modules 3, 3,. Only the connecting portion 44 is shown), and a projecting portion 45 protruding leftward from one connecting portion 44 and an exhaust portion 46 connected to the projecting portion 45.

  The connecting portions 44 and 44 are disposed in the internal space of the storage case 2. The connecting portion 44 is provided with connecting protrusions 44a, 44a, 44a protruding rightward, and the connecting protrusions 44a, 44a, 44a are connected to the left end portions of the smoke exhaust pipes 15, 15,. Has been.

  The projecting portion 45 penetrates the side wall 8 of the storage case 2.

  The exhaust part 46 is disposed along the side wall 8 outside the side wall 8, and an opening at the tip is formed as an exhaust port 46a.

  The gas when an abnormality occurs in the battery cells 11, 11,... Flows from the smoke exhaust pipes 15, 15,. The air is discharged from the exhaust port 46a to the outside of the storage case 2.

  A first junction box 47 and a second junction box 48 functioning as control devices for controlling the battery modules 3, 3,... Are disposed in the internal space of the storage case 2 (see FIG. 1). The first junction box 47 and the second junction box 48 are arranged side by side and are positioned on the upper side of the first battery module 3A and on the front side of the fourth battery module 3D.

  Thus, the 1st junction box 47 and the 2nd junction box 48 which function as control equipment are arranged above the 1st battery module 3A.

  Accordingly, the first battery module 3A, the first junction box 47, and the second junction box 48 are collectively arranged at the front end portion in the internal space of the storage case 2 so that the internal space of the storage case 2 can be effectively used. The battery 1 can be downsized.

  In addition, although the example which the 1st junction box 47 and the 2nd junction box 48 were located above the 1st battery module 3A was shown above, conversely, the 1st junction box 47 and the 2nd The junction box 48 may be positioned below the first battery module 3A. Moreover, the 1st junction box 47 and the 2nd junction box 48 may be located in the back of the battery modules 3, 3, ....

  The first junction box 47 and the second junction box 48 have control parts 49, 49,... That control current and the like, respectively. Examples of the control parts 49, 49,. And connector terminals are provided. The first junction box 47 and the second junction box 48 are connected to a power supply circuit (inverter) (not shown) mounted under the floor of the vehicle by a conductive wire described later.

  In the internal space of the storage case 2, the region where the first junction box 47 and the second junction box 48 are arranged is discharged from the joint ducts 22, 22,. Cooling air that has cooled the battery cells 11, 11,... Flows in, and the first junction box 47 and the second junction box 48 are cooled by the cooling air.

  In general, in temperature management, the battery module 3 is preferably set to 60 ° C. or lower, and the first junction box 47 and the second junction box 48 are preferably set to 100 ° C. or lower. Therefore, even if the first junction box 47 and the second junction box 48 cool the battery cells 11, 11,... And are cooled by the cooling air whose temperature has risen, the first junction box 47 and the second junction box 47 are cooled by the cooling air. Sufficient cooling performance for the second junction box 48 is ensured.

  Auxiliary equipment 50 and a control unit (not shown) are arranged vertically on the right end of the internal space of the storage case 2. The auxiliary device 50 is a device for charging when the vehicle is not running at night or the like, and the control unit is a unit that controls the entire vehicle battery 1.

  The cooling air that has cooled the battery cells 11, 11,... Flows into the area where the auxiliary device 50 is disposed in the internal space of the storage case 2, and the auxiliary device 50 and the control unit are cooled by this cooling air.

  Below, the arrangement | positioning position with respect to the vehicle of the vehicle-mounted battery 1 is demonstrated (refer FIG. 13).

  The in-vehicle battery 1 is disposed, for example, in a luggage compartment 200 of the vehicle.

  The floor panel 201 of the luggage compartment 200 is formed with a recess 202 opened upward. The concave portion 202 may be formed as a spare tire storage portion, for example, and is formed as a first placement portion 202a whose front end portion is shallower than the other portions, and a rear portion of the first placement portion 202a is a first portion. It is formed as two arrangement parts 202b.

  A portion constituting the front end portion of the recess 202 in the floor panel 201 is provided with a first inclined portion 201a and a second inclined portion 201b that are displaced downward as going back. The first inclined portion 201a is a portion constituting the first arrangement portion 202a of the recess 202, and the second inclined portion 201b is a portion constituting the second arrangement portion 202b of the recess 202.

  A rear seat 100 is installed on the front side of the luggage compartment 200, and the rear seat 100 has a seat cushion 101 and a backrest 102. The backrest 102 is inclined so as to be displaced rearward as it goes upward. The backrest 102 is positioned directly above the recess 202 except for the lower end.

  A fuel tank, a seat belt anchor, and the like (not shown) are disposed below the rear seat 100.

  The in-vehicle battery 1 is disposed in the luggage compartment 200 with the lower end of the storage case 2 inserted into the recess 202. In a state where the storage case 2 is disposed in the luggage compartment 200, the front end portion is positioned in a space 300 surrounded by the backrest 102 and the first inclined portion 201a and the second inclined portion 201b of the floor panel 201. . Therefore, a part of the portion where the first battery module 3 </ b> A, the first junction box 47, and the second junction box 48 in the in-vehicle battery 1 are disposed is positioned in the space 300. At this time, the inclined portion 6 a of the front wall 6 in the storage case 2 is positioned along the backrest 102.

  Since the storage case 2 is thus provided with the inclined portion 6a, the in-vehicle battery 1 and the backrest 102 do not interfere with each other, and the in-vehicle battery 1 can be positioned close to the backrest 102 and forward. it can.

  In addition, the storage case 2 is positioned by inserting a part of the upper step portion 9a of the bottom wall 9 into the first arrangement portion 202a of the recess 202, and the step portion 9b of the bottom wall 9 faces the second inclined portion 201b. Therefore, the bottom wall 9 and the floor panel 201 do not interfere with each other, and the vehicle-mounted battery 1 can be positioned closer to the backrest 102 as far as possible.

  As described above, in the vehicle-mounted battery 1, the second battery module 3B and the fourth battery module 3D are arranged in two upper and lower stages, and the third battery module 3C and the fifth battery module 3E are arranged vertically. The first battery module 3 </ b> A is arranged at the frontmost side, and a part of the first battery module 3 </ b> A arranged at the frontmost side and a part of the storage case 2 are positioned in the space 300. Is done.

  Accordingly, since the vehicle-mounted battery 1 is positioned close to the backrest 102 of the rear seat 100 and the distance from the vehicle-mounted battery 1 to the rear end of the vehicle increases, the vehicle rear end portion is crushed at the time of a collision. It is possible to secure a sufficient space for providing an impact absorbing portion that absorbs the impact, thereby improving the collision performance of the vehicle and securing a sufficient space for the in-vehicle battery 1 by effectively utilizing the space.

  Further, since the first battery module 3A arranged at the foremost side is arranged at the middle stage with respect to the battery modules 3 and 3 arranged at the upper and lower two stages, the first battery module 3A located at the foremost side. Can be easily placed in the back of the space for placing the in-vehicle battery 1, and further effective use of the placement space can be achieved.

  Further, the in-vehicle battery 1 is provided with a first intake duct 19 and a second intake duct 30 that send cooling air into the battery modules 3, 3... .. Are taken from the rear into the battery modules 3, 3,... Via the first intake duct 19 and the second intake duct 30.

  Therefore, the first intake duct 19 and the second intake duct 30 are arranged in the rear space, and the battery modules 3, 3,. It is possible to improve the cooling performance while improving the space efficiency of the intake duct 30.

  Furthermore, since the recessed part 202 opened upwards is formed in the vehicle body, and a part of the vehicle-mounted battery 1 is arranged in the recessed part 202, the recessed part 202 is used as an arrangement space for the vehicle-mounted battery 1, and the space is effective. Can be used.

  In particular, since a part of the vehicle-mounted battery 1 is inserted and disposed in the recess 202 formed in the luggage compartment 200, the luggage compartment 200 can be widened to improve the usability of the vehicle.

  In addition, although the example in which the five battery modules 3, 3,... Are arranged is shown above, the number of the battery modules 3 arranged in the storage case 2 may be at least three. It suffices that at least two battery modules 3 and 3 are arranged in a two-tiered state, and one battery module 3 is arranged on the foremost side.

DESCRIPTION OF SYMBOLS 1 ... Vehicle-mounted battery, 2 ... Storage case, 3 ... Battery module, 6 ... Front wall, 6a ... Inclined part, 9 ... Bottom wall, 9a ... Upper part, 11 ... Battery cell, 19 ... 1st air intake duct, DESCRIPTION OF SYMBOLS 20 ... 1st intake fan, 30 ... 2nd intake duct, 31 ... 2nd intake fan, 47 ... 1st junction box (control apparatus), 48 ... 2nd junction box (control apparatus) , 100 ... rear seat, 102 ... backrest, 201 ... floor panel, 201a ... first slope, 201b ... second slope, 202 ... recess, 300 ... space

Claims (5)

A plurality of battery modules each having a plurality of battery cells disposed therein;
A storage case for storing the plurality of battery modules;
At least three of the battery modules are provided, and at least two of the battery modules are arranged in two upper and lower stages,
At least two of the battery modules are arranged side by side,
One battery module is arranged on the frontmost side,
A part of the battery module arranged at the most front side and a part of the storage case are located in a space surrounded by a backrest of a rear seat and an inclined part of a floor panel;
The battery module arranged in the foremost side is arranged in the middle with respect to the two battery modules arranged in the upper and lower two stages,
Above the battery module arranged at the most front side and in front of the battery module arranged at the upper stage, or below the battery module arranged at the most front side and in front of the battery module arranged at the lower stage. A vehicle-mounted battery in which a control device for controlling the plurality of battery modules is disposed . An inclined portion that is displaced rearward as it goes upward is formed on the front wall of the storage case. Located in the space surrounded by the rest and the sloped part of the floor panel
The vehicle-mounted battery according to claim 1. A concave portion opened upward is formed in the floor panel,
A part of the battery module disposed in the lower stage is disposed in the recess, and a part of the battery module disposed in the middle stage is disposed at a position one step higher in front of the recess.
The in-vehicle battery according to claim 1 or 2. An intake duct for sending cooling air to the inside of the plurality of battery modules is provided;
Cooling air is taken into the inside of the battery module from the rear through the intake duct.
The vehicle-mounted battery according to claim 1, claim 2 or claim 3. A fan connected to the intake duct is provided;
The fan is disposed on at least one of the left side and the right side at the rear end of the storage case.
The in-vehicle battery according to claim 4.

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