WO2021098428A9 - 电池包及电动车 - Google Patents
电池包及电动车 Download PDFInfo
- Publication number
- WO2021098428A9 WO2021098428A9 PCT/CN2020/121840 CN2020121840W WO2021098428A9 WO 2021098428 A9 WO2021098428 A9 WO 2021098428A9 CN 2020121840 W CN2020121840 W CN 2020121840W WO 2021098428 A9 WO2021098428 A9 WO 2021098428A9
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- WIPO (PCT)
- Prior art keywords
- battery
- battery assembly
- single cells
- reinforcing member
- cells
- Prior art date
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Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/233—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders characterised by physical properties of casings or racks, e.g. dimensions
- H01M50/242—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders characterised by physical properties of casings or racks, e.g. dimensions adapted for protecting batteries against vibrations, collision impact or swelling
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M10/00—Secondary cells; Manufacture thereof
- H01M10/60—Heating or cooling; Temperature control
- H01M10/65—Means for temperature control structurally associated with the cells
- H01M10/653—Means for temperature control structurally associated with the cells characterised by electrically insulating or thermally conductive materials
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/204—Racks, modules or packs for multiple batteries or multiple cells
- H01M50/207—Racks, modules or packs for multiple batteries or multiple cells characterised by their shape
- H01M50/209—Racks, modules or packs for multiple batteries or multiple cells characterised by their shape adapted for prismatic or rectangular cells
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/244—Secondary casings; Racks; Suspension devices; Carrying devices; Holders characterised by their mounting method
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/249—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders specially adapted for aircraft or vehicles, e.g. cars or trains
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/262—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders with fastening means, e.g. locks
- H01M50/264—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders with fastening means, e.g. locks for cells or batteries, e.g. straps, tie rods or peripheral frames
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/289—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders characterised by spacing elements or positioning means within frames, racks or packs
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M2220/00—Batteries for particular applications
- H01M2220/20—Batteries in motive systems, e.g. vehicle, ship, plane
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/60—Other road transportation technologies with climate change mitigation effect
- Y02T10/70—Energy storage systems for electromobility, e.g. batteries
Definitions
- the present application relates to the field of battery technology, in particular to a battery pack and an electric vehicle.
- a power battery pack used in electric vehicles mainly includes a pack body and a plurality of battery modules installed in the pack body, wherein the battery module includes a battery array composed of a plurality of batteries arranged in sequence, and a battery pack arranged in the battery array. Side plates on both sides and end plates arranged at both ends of the battery array. The side plate and the end plate are connected by means of screws, pull rods or welding, so as to realize the fixation of the battery array. After the battery module is assembled, it is installed in the package body through fasteners such as screws, and in order to improve the strength of the battery package, it is usually necessary to set a reinforcing beam in the battery package.
- the existing patent CN201822274851.1 provides a battery module, which includes a first battery module, a second battery module, and a liquid cooling plate.
- a battery module which includes a first battery module, a second battery module, and a liquid cooling plate.
- There are a plurality of single cells in the battery module and each single cell in the battery module is laid flat (that is, the two opposite large surfaces of the single cells are arranged in the vertical direction).
- the liquid cooling plate is vertically disposed between the first battery module and the second battery module, and two side surfaces of the liquid cooling plate are respectively bonded to the first battery module and the second battery module by means of thermal conductive glue.
- an accommodating cavity for accommodating the cooling liquid is provided inside the liquid cooling plate, and the accommodating cavity needs to have a certain thickness.
- the liquid-cooling plate of this structure has low strength and cannot bear excessive structural force, so as to avoid damage to the liquid-cooling plate resulting in the outflow of cooling liquid and short-circuit of the single battery, so the liquid-cooling plate cannot play a role in the battery module. Strengthening and supporting role.
- the present application aims to provide a battery pack and an electric vehicle with simple structure, convenient assembly, high structural strength, high space utilization and energy density.
- an embodiment of the present application provides a battery pack, including:
- the casing has a bottom surface and a top surface;
- the battery assembly includes a battery unit and a reinforcement;
- the battery unit includes N single cells, N>2 and an integer, the reinforcement contains M, M>1 and an integer; at least one of the battery cells Some of the single cells are connected by M pieces of the reinforcements; one of the reinforcements is fixed and pasted on the first side surface of at least some of the single cells of the Q adjacent single cells, and Q satisfies: N>Q ⁇ 2 and is an integer;
- the outer surface of the single battery includes a bottom surface, a top surface and a side surface, the bottom surface of the single battery faces the bottom surface in the casing, and the top surface of the single battery faces the top surface in the casing;
- the The side surface includes a first side surface and two opposite second side surfaces, and the first side surface has the largest area among the side surfaces; the area of the first side surface is larger than the area of the bottom surface of the single cell, and the first side surface is The area of the N single cells is larger than the area of the top surface of the single cell; the N single cells are arranged in sequence, the second sides of the adjacent two single cells are arranged oppositely, and the single cells are arranged in the first direction. direction.
- the dimension of the reinforcement member along the second direction is D0, the second direction is perpendicular to the first direction, and at least one single cell connected to the reinforcement member in the Q adjacent single cells is along the second direction.
- the number of the single cells connected to the reinforcement in the Q adjacent single cells is not less than Q/2.
- the M reinforcing pieces connect the N single cells into battery cells; one of the reinforcing pieces is fixedly adhered to the first side surface of each single cell in the Q adjacent single cells.
- the length of the battery assembly along the first direction is 400-2500 mm, and the battery assembly is in contact with the bottom surface of the casing to be supported on the bottom surface of the casing.
- the length of the reinforcing member pasted on the first side of the at least one unit cell projected on the first side of the unit cell along the first direction is S
- the length of the unit cell along the first direction is P.
- the M reinforcements are located on one side of the battery assembly, the M reinforcements are arranged in sequence along a preset direction, and the first reinforcement is fixed and pasted on each of the first to Qth single cells.
- the first side of each single cell, the second reinforcing member is fixedly pasted on the first side of each single cell in the Qth to 2Q-1 single cells, and the third reinforcing member is fixedly pasted on the 2Q-th single cell.
- -1 single cell to the first side of each single cell in the 3Q-2 single cell, and so on, the Mth reinforcement is fixed and pasted on the M ⁇ Q-(M-1)-(Q -1) the first side of each of the single cells to the MxQ-(M-1)th single cell.
- one of the reinforcing members is fixedly adhered to the first side surface of each of the two adjacent single cells.
- the side surfaces include two opposite first side surfaces, the M reinforcing members are distributed on both sides of the battery assembly, and the reinforcing members located on one side of the battery assembly are fixed and pasted on the Q adjacent units.
- the first side surface of each single cell in the bulk battery, and the reinforcing member located on the other side of the battery assembly is fixedly adhered to the other first side surface of each single cell in the Q adjacent single cells.
- the reinforcing member on one side of the battery assembly is fixedly adhered to at least a part of the surface of the first side surface of each of the Q adjacent single cells
- the reinforcing member on the other side of the battery assembly is The component is fixedly adhered to at least a part of the surface of the other first side surface of each of the Q adjacent single cells.
- the reinforcing members on both sides of the battery assembly are arranged in sequence along a preset direction, and the first reinforcing member on one side of the battery assembly is fixed and pasted on each of the first to Qth single cells.
- the second reinforcing member is fixed and pasted on the first side of each single cell in the Q-th to 2Q-1 single-cell batteries, and so on, and the M-th reinforcing member is fixed and pasted on the first side of the single cell.
- the first reinforcing member located on the other side of the battery assembly is fixedly pasted on the other first side of each single cell in the first to Qth single cells, and the second reinforcing member is fixedly pasted on the Qth single cell.
- the Mth reinforcement is fixed and pasted on the M ⁇ Q-(M-1)-(Q-1)th
- the other first side of each of the single cells to the M ⁇ Q-(M-1)th single cell.
- the reinforcing members on both sides of the battery assembly are arranged in sequence along a preset direction, and the first reinforcing member on one side of the battery assembly is fixed and pasted on each of the first to Qth single cells.
- the first reinforcing member located on the other side of the battery assembly is fixed and pasted on the other first side of each single cell in the Qth to 2Q-1th single cells, so
- the second reinforcing member on one side of the battery assembly is fixed and pasted on the first side of each single cell in the 2Q-1 to 3Q-2 single cells, and the second reinforcing member on the other side of the battery assembly
- the reinforcing member is fixedly pasted on the other first side of each single cell in the 3Q-2 to 4Q-3 single cells, and so on, the M-th reinforcing member located on one side of the battery assembly is fixed and pasted Each cell in the 2 ⁇ M ⁇ Q-(2M-1)-2(Q-1) to 2 ⁇ M ⁇ Q-(2M-
- the reinforcing members on both sides of the battery assembly are arranged in sequence along a preset direction, and the first reinforcing member on one side of the battery assembly is fixed and pasted on each of the first to Qth single cells.
- the second reinforcing member is fixedly pasted on the first side of each single cell in the Q+1 to 2Q single cells, and so on, the Mth reinforcing member is fixed and pasted on the first side of the single cell.
- the first reinforcing member located on the other side of the battery assembly is fixedly pasted on the other first side of each single cell in the second to Q+1th single cells, and the second reinforcing member is fixedly pasted on the The other first side of each single cell in the Q+2 to 2Q+1 single cells, and so on, the Mth reinforcement is fixed and pasted on the M ⁇ Q-(Q-1)+1th The other first side surface of each of the single cells to the M ⁇ Q+1th single cell.
- one end of the reinforcing member is provided with an extension portion, and the extension portion is attached to the top surface or the bottom surface of the at least one unit cell.
- two opposite ends of the reinforcing member are provided with extension parts, one of the extension parts is attached to the top surface of the at least one unit cell, and the other extension part is attached to the bottom surface of the at least one unit cell.
- the casing has mutually perpendicular X, Y and Z directions, and a plurality of battery assemblies are provided, and the plurality of battery assemblies are arranged in the casing along the X direction, and the N
- the single cells are arranged in sequence along the Y direction, the top surface and the bottom surface of the single cells are oppositely arranged along the Z direction, and the first direction is parallel to the Y direction.
- the single cell is generally a rectangular parallelepiped, the single cell has a length L, a width H and a thickness D, the length L of the single cell is greater than or equal to the width H, and the width H of the single cell greater than the thickness D, wherein the X direction is the thickness direction of the single cell, the Y direction is one of the length direction and the width direction of the single cell, and the Z direction is the length direction and width of the single cell the other direction.
- the single cell includes six surfaces, namely a bottom surface, a top surface, two first side surfaces and two second side surfaces, the two first side surfaces are opposite along the thickness direction, and the two second side surfaces are along the length.
- the directions are opposite, and the bottom surface and the top surface are opposite in the width direction.
- the housing includes a first frame and a second frame oppositely arranged along the Y direction, the battery assembly is arranged between the first frame and the second frame, and one end of the battery assembly is supported on the the first frame, and the other end of the battery assembly is supported on the second frame.
- the reinforcing member is fixed and adhered to the first side surface of each of the Q adjacent single cells by means of structural adhesive.
- the structural adhesive is a thermally conductive structural adhesive.
- the reinforcing member is a reinforcing plate.
- the reinforcing plate is a steel plate, an aluminum plate or a glass fiber plate.
- the second side surfaces of two adjacent single cells in the battery unit are attached to each other.
- reinforcing members are provided between at least two adjacent battery assemblies.
- the reinforcement member is fixedly adhered to the battery assemblies located on both sides of the reinforcement member.
- the reinforcement is an aluminum plate or a steel plate.
- the casing includes a tray and an upper cover, the tray and the upper cover jointly define a accommodating space, the battery assembly is located in the accommodating space, and the top surfaces of the single cells in the battery assembly are fixed and pasted.
- the bottom surface of the single battery is fixedly adhered to the inner surface of the tray.
- the tray and/or the upper cover is a multi-layer composite structure.
- the multi-layer composite structure includes two layers of aluminum plates, and a steel plate or a foamed aluminum plate sandwiched between the two layers of aluminum plates.
- the multi-layer composite structure includes two fiber composite layers, and a foam material layer sandwiched between the two fiber composite layers.
- the fiber composite layer includes a glass fiber layer and/or a carbon fiber layer.
- a plurality of battery assemblies are provided, and the second side surfaces of two adjacent single cells in one battery assembly are attached to each other, and the attaching position is marked as the first position, and the adjacent battery assemblies are in phase with each other.
- the second side surfaces of the two adjacent single cells are attached to each other, and the attached position is marked as the second position, and the first position and the second position are arranged at intervals along the first direction.
- two adjacent single cells in one battery assembly are arranged at intervals of a first interval, and two adjacent single cells in another adjacent battery assembly are arranged at a second interval.
- the interval is set, and the projection of the first interval in the first direction does not overlap with the projection of the second interval in the first direction.
- the number of single cells in two adjacent battery assemblies is different, one battery assembly is marked as the first battery assembly, the other battery assembly is marked as the second battery assembly, and the number of single cells in the first battery assembly is The number is greater than the number of single cells in the second battery assembly, and the second battery assembly is provided with a reinforcement block, and the reinforcement block is connected with the single cells in the second battery assembly.
- an embodiment of the present application further provides an electric vehicle, which includes the above-mentioned battery pack.
- the reinforcing member is fixedly pasted on the first side surface of at least some of the single cells in the Q adjacent single cells, and so on. At least some of the single cells are connected as a whole; the area of the first side is relatively large in the side, top and bottom surfaces of the single cell (that is, the first side is a large surface with a larger area), which can ensure that the reinforcement and the The bonding area of the single cell is conducive to ensuring the bonding strength of the two.
- the large surface of the single cell faces the top and bottom surfaces of the casing, that is, the battery module is formed by horizontal placement, and the single cells are arranged in sequence in the horizontal direction.
- the battery module is affected by the vertical direction.
- the battery assembly When the vertical force is applied, the battery assembly is easily deformed in the vertical direction, so it is necessary to thicken the bottom of the casing or provide reinforcement ribs at the bottom of the casing to ensure that the casing has a certain structural strength.
- this will reduce the gravimetric energy density or volumetric energy density of the battery pack.
- the top surface of the single battery of the present application faces the top surface inside the casing, and the bottom surface of the single battery faces the bottom surface inside the casing, that is, the single battery is placed vertically in the casing, and the reinforcing member is also placed vertically. .
- the vertical force easily deforms the battery assembly in the horizontal direction, and the surrounding walls of the casing can limit the deformation.
- at least part of the single cells in the battery assembly can be connected as a whole due to the reinforcing member, and the overall strength of the battery assembly can be improved due to the reinforcing and supporting functions of the reinforcing member.
- the battery assembly can take on the role of reinforcing beams in the casing, so there is no need to provide additional reinforcing beams in the casing (and the thickness of the reinforcing beams provided in the casing in the prior art is at least ten millimeters), which greatly simplifies the casing
- the structure of the body is beneficial to improve the space utilization rate of the battery pack.
- the reinforcing member in the present application has a relatively small thickness while ensuring sufficient strength of the battery assembly, thereby helping to reduce the weight of the battery pack and improve the energy density of the battery pack.
- the battery components are directly arranged and arranged in the casing. This structural design omits the structural components for installing and fixing the single battery, which not only helps to reduce the weight of the entire battery pack, but also simplifies the assembly process and helps reduce production costs. .
- FIG. 1 is a schematic structural diagram of a battery pack provided by an embodiment of the present application.
- FIG. 2 is a schematic structural diagram of a battery assembly provided by an embodiment of the present application.
- Fig. 3 is the exploded view of Fig. 2;
- Fig. 4 is the top view of Fig. 2;
- FIG. 5 is a top view of a battery assembly provided by an embodiment of the present application.
- Fig. 6 is the exploded view of Fig. 5;
- FIG. 7 is a schematic structural diagram of a battery assembly provided by an embodiment of the present application.
- FIG. 8 is a top view of a battery assembly provided by an embodiment of the present application.
- FIG. 9 is a top view of a battery assembly provided by an embodiment of the present application.
- FIG. 10 is a top view of a battery assembly provided by an embodiment of the present application.
- FIG. 11 is a top view of a battery assembly provided by an embodiment of the present application.
- FIG. 12 is a top view of a battery assembly provided by an embodiment of the present application.
- FIG. 13 is a top view of a battery assembly provided by an embodiment of the present application.
- FIG. 14 is a schematic structural diagram of a battery assembly provided by an embodiment of the present application.
- FIG. 15 is a schematic structural diagram of a battery assembly provided by an embodiment of the present application.
- 16 is a schematic structural diagram of a single battery provided by an embodiment of the present application.
- FIG. 17 is a schematic structural diagram of a housing provided by an embodiment of the present application.
- FIG. 18 is a schematic structural diagram of a battery assembly provided by an embodiment of the present application.
- FIG. 19 is another schematic structural diagram of a battery pack provided by an embodiment of the present application.
- 200 battery assembly; 201, battery unit; 202, single cell; 203, first side; 204, second side; 205, top surface; 206, bottom surface; 207, electrode terminal;
- an embodiment of the present application provides a battery pack 10 , which includes a casing 100 and a battery assembly 200 located in the casing 100 .
- the casing 100 has a bottom surface and a top surface.
- the battery assembly 200 includes a battery cell 201 and a reinforcement member 300; the battery cell 201 includes N single cells 202, N>2 and an integer, and the reinforcement member 300 contains M, M>1 and an integer.
- the outer surface of the single cells 202 in the battery unit 201 are connected by M reinforcing members 300, the outer surface of the single cells 202 includes a bottom surface 206, a top surface 205 and side surfaces, and the bottom surface 206 of the single cells 202 faces the bottom surface inside the casing 100,
- the top surface 205 of the single cell 202 faces the top surface in the casing 100;
- the side surface includes a first side surface 203 and two opposite second side surfaces 204, and the area of the first side surface 203 is the largest among the side surfaces; the area of the first side surface 203 is larger than
- the area of the bottom surface 206 of the single cell 202 and the area of the first side surface 203 are larger than the area of the top surface 205 of the single cell 202; 204 are disposed opposite to each other, and the arrangement direction of the single cells 202 is the first direction.
- One reinforcing member 300 is fixedly adhered to the first side surfaces 203 of at least some of the single cells 202 among the Q adjacent
- one reinforcing member 300 is fixedly adhered to the first side surface 203 of one unit cell 202 among the three adjacent unit cells 202 , and the first side surfaces 203 of the other two unit cells 202 are not adhered to the reinforcing member 300 .
- one reinforcing member 300 is fixedly adhered to the first side surfaces 203 of two unit cells 202 among the three adjacent unit cells 202 , and the first side surface 203 of the other unit cell 202 is not adhered to the reinforcing member 300 .
- one reinforcing member 300 is fixedly adhered to the first side surface 203 of one unit cell 202 among the four adjacent unit cells 202 , and the first side surface 203 of the other three unit cells 202 is not adhered to the reinforcing member 300 .
- one reinforcing member 300 is fixedly adhered to the first side surfaces 203 of two unit cells 202 among the four adjacent unit cells 202 , and the first side surfaces 203 of the other two unit cells 202 are not adhered to the reinforcing member 300 .
- the shape, size and structure of the two opposite second side surfaces 204 of the single cell 202 may be the same or different.
- the first side surface 203 may be the entire surface of the first side surface 203 , or may be a part of the surface of the first side surface 203 .
- the reinforcements 300 are fixedly and pasted on the first side surfaces 203 of at least some of the single cells 202 in the Q adjacent single cells 202 , and so on, through the M reinforcements 300 At least some of the single cells 202 in the battery assembly 200 are connected into a whole; the area of the first side 203 is relatively large among the side, top and bottom surfaces of the single cells 202 (that is, the first side 203 is a large area with a larger area). surface), in this way, the bonding area between the reinforcing member 300 and the single cell 202 can be ensured, which is beneficial to ensure the bonding strength of the two.
- the large surfaces of the single cells 202 face the top and bottom surfaces of the casing, that is, they are placed horizontally, and the single cells 202 are arranged in sequence along the horizontal direction to form a battery module.
- the force in the vertical direction is easy to deform the battery assembly 200 in the vertical direction, it is necessary to thicken the bottom of the casing or set a reinforcing rib on the bottom of the casing to ensure that the casing has a certain Structural strength.
- this will reduce the gravimetric energy density or volumetric energy density of the battery pack 10 .
- the top surface of the single battery 202 faces the top surface inside the casing, and the bottom surface of the single battery 202 faces the bottom surface inside the casing, that is, the single battery 202 is placed vertically in the casing, and the reinforcing member is also vertically placed. placement method.
- the vertical force easily deforms the battery assembly 200 in the horizontal direction, and the surrounding walls of the casing can limit the deformation.
- at least part of the single cells 202 in the battery assembly 200 can be connected as a whole due to the reinforcing member, and the overall strength of the battery assembly 200 can be improved due to the reinforcing and supporting functions of the reinforcing member.
- the battery assembly 200 can act as a reinforcing beam in the casing, so there is no need to provide additional reinforcing beams in the casing (and the thickness of the reinforcing beams disposed in the casing in the prior art is at least ten millimeters), which greatly simplifies
- the structure of the casing is beneficial to improve the space utilization rate of the battery pack 10 .
- the reinforcing member in the present application has a relatively small thickness of only a few millimeters while ensuring sufficient strength of the battery assembly 200 , which is beneficial to reduce the weight of the battery pack 10 and improve the energy density of the battery pack 10 .
- the battery assemblies 200 are directly arranged and arranged in the casing. This structural design omits the structural members for installing and fixing the single cells 202, which not only helps to reduce the weight of the entire battery pack 10, but also simplifies the assembly process, which is beneficial to Reduce production costs.
- the casing 100 of the battery pack 10 can be understood as a casing for accommodating the battery assembly 200, which can include a tray 101 and an upper cover (not shown in the figure), and the tray 101 and the upper cover together
- An accommodation space for accommodating the battery pack 200 is defined.
- the tray and the upper cover are hermetically connected to form a receiving space.
- the battery assembly 200 is disposed on the tray 101 and covered by an upper cover.
- the number of the battery assemblies 200 in the casing 100 can be set according to actual needs, for example, two or three.
- the battery pack 10 also includes at least one of a battery management system (BMS), a battery connector, a battery sampler, and a battery thermal management system.
- BMS battery management system
- the dimension of the reinforcing member 300 along the second direction is D0
- the second direction is perpendicular to the first direction
- the weight of one of the single cells 202 fixed and pasted with the reinforcing member 300 is G
- This arrangement can further improve the strength of the battery assembly and reduce the thickness of the reinforcing member 300 , thereby helping to reduce the weight of the battery pack 10 and improve the energy density of the battery pack 10 .
- the dimension of the reinforcement along the second direction is D0, and the second direction is perpendicular to the first direction.
- This arrangement can not only prevent the thickness of the single battery 202 from being too large, but also ensure that the reinforcing member 300 and the single battery 202 have greater bonding strength.
- the number of the single cells 202 connected to the reinforcing member 300 in the Q adjacent single cells 202 is not less than Q/2.
- the number of the unit cells 202 connected to the reinforcing member 300 among the three adjacent unit cells 202 is two or three.
- the number of the single cells 202 connected to the reinforcing member 300 among the four adjacent single cells 202 is two, three or four.
- the M reinforcements 300 connect the N single cells 202 to form the battery unit 201 , and one reinforcement 300 is fixed and pasted on the first part of each single cell 202 in the Q adjacent single cells 202 .
- Side 203 is fixed and pasted on the first part of each single cell 202 in the Q adjacent single cells 202 .
- One reinforcing member 300 is fixedly adhered to the first side surface 203 of each single cell 202 in the Q adjacent single cells 202 , and so on, through the M reinforcing members 300 , the N cells in the battery unit 201 can be fixed
- the batteries 202 are connected as a whole to further improve the overall strength of the battery assembly 200 .
- the battery assembly 200 can act as a reinforcing beam in the casing 100 , so the structure of the casing 100 can be greatly simplified, and the space occupied by the reinforcing ribs can be reduced, which is beneficial to improve the space utilization rate of the battery pack 10 and the battery Energy density of package 10.
- the battery assembly 200 is directly arranged and arranged in the casing 100. This structural design omits the structural components for installing and fixing the single battery 202, which not only helps to reduce the weight of the entire battery pack 10, but also simplifies the assembly process. Helps to reduce production costs.
- the length of the battery assembly 200 along the first direction is 400-2500 mm, and the battery assembly 200 is in contact with the bottom surface of the casing 100 to be supported on the bottom surface of the casing 100 .
- the single cells 202 in the battery assembly 200 can be connected as a whole by the reinforcing member 300 , and the overall strength of the battery assembly 200 can be improved due to the reinforcing and supporting functions of the reinforcing member 300 .
- the battery assembly 200 can act as a reinforcing beam in the casing 100 , so the structure of the casing 100 can be greatly simplified, and the space occupied by the reinforcing ribs can be reduced, which is beneficial to improve the space utilization rate of the battery pack 10 and the battery Energy density of package 10.
- the battery assembly 200 is directly arranged and arranged in the casing 100. This structural design omits the structural components for installing and fixing the single battery 202, which not only helps to reduce the weight of the entire battery pack 10, but also simplifies the assembly process. Helps to reduce production costs.
- the length of the battery assembly 200 along the first direction is 600-2500 mm to meet the needs of use.
- the battery cell 201 includes four single cells 202 .
- the number of the single cells 202 included in the battery unit 201 can also be set according to actual needs, for example, three or five or more.
- one reinforcing member 300 is fixedly adhered to the first side surface 203 of each of the two adjacent single cells 202 .
- one reinforcing member 300 is fixedly adhered to the first side surface 203 of each of the three adjacent single cells 202 .
- the reinforcement member 300 is fixedly adhered to at least a part of the surface of the first side surface 203 of each of the Q adjacent single cells 202 .
- the reinforcing member 300 is fixedly adhered to at least a part of the surface of the first side surface 203 of each of the two adjacent unit cells 202 .
- the adhesive reinforcement 300 is fixed to a part of the surfaces of the first side surfaces 203 of the two adjacent unit cells 202 .
- the reinforcing member 300 may also be fixedly adhered to the entire surface of the first side surface 203 of one of the single cells 202 and a part of the surface of the first side surface 203 of the other single cell 202 .
- the reinforcing member 300 is fixedly adhered to at least a part of the surface of the first side surface 203 of each of the three adjacent single cells 202 .
- the adhesive reinforcement 300 is fixed to a part of the surface of the first side surface 203 of the two unit cells 202 and the entire surface of the first side surface 203 of one unit cell 202 among the three adjacent unit cells 202 .
- the reinforcing member 300 may also be fixed to a part of the surface of the first side surface 203 of the three adjacent single cells 202 .
- the M reinforcements 300 are located on one side of the battery assembly 200 , the M reinforcements 300 are arranged in sequence along a predetermined direction, and the first reinforcement 300 is fixed and pasted on the first reinforcement 300 .
- the first side surface 203 of each of the single cells 202 from the one to the Qth single cells 202, the second reinforcing member 300 is fixedly pasted on each of the single cells 202 of the Qth to 2Q-1th single cells 202
- the third reinforcing member 300 is fixed and pasted on the first side 203 of each unit cell 202 in the 2Q-1 unit cell 202 to the 3Q-2 unit cell 202, and sequentially
- the M th reinforcing member 300 is fixed and pasted on each of the M ⁇ Q-(M-1)-(Q-1) th unit cells 202 to the M ⁇ Q-(M-1) th unit cells 202 .
- the first side surface 203 of each unit cell 202 is fixedly pasted on each of the single cells 202 of the Qth to 2Q-1th single cells 202 .
- the preset direction may be parallel to the first direction, or may form a certain angle with the first direction.
- the battery unit 201 includes four single cells 202 , three reinforcement members 300 are located on one side of the battery assembly 200 , and each reinforcement member 300 is fixedly adhered to each of the two adjacent single cells 202 The first side surface 203 of the unit cell 202 .
- the first reinforcing member 300 is fixedly adhered to the first side surface 203 of each unit cell 202 in the first to second unit cells 202
- the second reinforcing member 300 is fixedly adhered to the second to third unit cells 202 .
- the first side 203 of each unit cell 202 in the bulk battery 202, the third reinforcing member 300 is fixedly pasted on the first side of each unit cell 202 in the third unit cell 202 to the fourth unit cell 202 Side 203.
- the battery unit 201 includes five single cells 202 , two reinforcement members 300 are located on one side of the battery assembly 200 , and each reinforcement member 300 is fixedly attached to each of the three adjacent single cells 202 .
- the first side surface 203 of the bulk battery 202 The first reinforcing member 300 is fixedly adhered to the first side surface 203 of each unit cell 202 in the first to third unit cells 202, and the second reinforcing member 300 is fixedly adhered to the third to fifth unit cells 202.
- the first side surface 203 of each unit cell 202 in the bulk battery 202 is fixedly adhered to the third to fifth unit cells 202.
- the side surfaces include two opposite first side surfaces 203 , M reinforcing members 300 are distributed on both sides of the battery assembly 200 , and the reinforcing members 300 on one side of the battery assembly 200
- the first side surface 203 of each unit cell 202 of the Q adjacent unit cells 202 is fixedly pasted, and the reinforcing member 300 located on the other side of the battery assembly 200 is fixedly pasted to each of the Q adjacent unit cells 202.
- the other first side surface 203 of each single battery 202 can further improve the strength of the battery unit 201 .
- the number of Q is not specifically limited, and may be two, three or more.
- the reinforcing member 300 located on one side of the battery assembly 200 is fixedly attached to the first side surface 203 of each single cell 202 in the Q adjacent single cells 202 . It can be understood that the reinforcing member 300 is fixedly attached to the The entire surface or a part of the surface of the first side surface 203 of each of the Q adjacent single cells 202 . Similarly, the reinforcing member 300 located on the other side of the battery assembly 200 is fixedly adhered to the other first side surface 203 of each single cell 202 of the Q adjacent single cells 202, it can be understood that the reinforcing member 300 is fixedly adhered to the The entire surface or a part of the surface of the other first side surface 203 of each of the Q adjacent single cells 202 .
- the reinforcing member 300 located on one side of the battery assembly 200 is fixedly adhered to at least a part of the surface of the first side surface 203 of each single cell 202 in the Q adjacent single cells 202, and is located on the other side of the battery assembly 200.
- the reinforcing member 300 on one side is fixedly adhered to at least a part of the surface of the other first side surface 203 of each of the Q adjacent single cells 202 .
- the reinforcing member 300 on one side of the battery assembly 200 is fixedly adhered to at least a part of the surface of the first side surface 203 of each of the two adjacent single cells 202 .
- the reinforcing member 300 on the other side of the battery assembly 200 is fixedly adhered to at least a part of the surface of the other first side surface 203 of each of the two adjacent single cells 202 .
- the reinforcing member 300 located on one side of the battery assembly 200 is fixedly adhered to the first side surface 203 of each of the three adjacent single cells 202 . at least a portion of the surface.
- the reinforcing member 300 on the other side of the battery assembly 200 is fixedly adhered to at least a part of the surface of the other first side surface 203 of each of the three adjacent single cells 202 .
- the reinforcing members 300 on both sides of the battery assembly 200 are arranged in sequence along a preset direction, and the first reinforcing member 300 on one side of the battery assembly 200 is fixed and pasted on the first to the second On the first side surface 203 of each single cell 202 of the Q single cells 202 , the second reinforcing member 300 is fixedly pasted on the first side surface 203 of each single cell 202 of the Qth to 2Q-1st single cells 202 .
- the side 203, and so on, the M th reinforcement 300 is fixed and pasted on the M ⁇ Q-(M-1)-(Q-1) th unit battery 202 to the M ⁇ Q-(M-1) th unit the first side surface 203 of each single cell 202 in the battery 202;
- the first reinforcing member 300 located on the other side of the battery assembly 200 is fixedly adhered to the other first side surface 203 of each single cell 202 in the first to Qth single cells 202, and the second reinforcing member 300 is fixed It is pasted on the other first side surface 203 of each single cell 202 in the Qth to 2Q-1th single cells 202, and so on, and the Mth reinforcing member 300 is fixed and pasted on the M ⁇ Q-(M-1 )-(Q-1) unit cells 202 to M ⁇ Q-(M-1)th unit cells 202 , the other first side surface 203 of each unit cell 202 .
- the battery unit 201 includes four single cells 202 .
- Three reinforcement members 300 are located on one side of the battery assembly 200 , and each reinforcement member 300 is fixedly adhered to the first side surface 203 of each of the two adjacent single cells 202 .
- Three reinforcement members 300 are located on the other side of the battery assembly 200 , and each reinforcement member 300 is fixedly adhered to the other first side surface 203 of each of the two adjacent single cells 202 .
- the first reinforcing member 300 located on one side of the battery assembly 200 is fixedly adhered to the first side surface 203 of each single cell 202 in the first to second cells, and the second reinforcing member 300 is fixedly adhered to the second To the first side 203 of each unit cell 202 in the third unit cell 202 , the third reinforcing member 300 is fixedly adhered to each unit cell in the third unit cell 202 to the fourth unit cell 202
- the first side surface 203 of the battery 202; the first reinforcing member 300 located on the other side of the battery assembly 200 is fixedly adhered to the other first side surface 203 of each single cell 202 in the first to second cells.
- the two reinforcing members 300 are fixedly adhered to the other first side surface 203 of each unit cell 202 in the second to third unit cells 202 , and the third reinforcing member 300 is fixedly adhered to the third unit cell 202 to the other first side surface 203 of each unit cell 202 in the fourth unit cell 202 .
- the battery cell 201 includes five single cells 202 .
- Two reinforcement members 300 are located on one side of the battery assembly 200 , and each reinforcement member 300 is fixedly adhered to the first side surface 203 of each of the three adjacent single cells 202 .
- Two reinforcement members 300 are located on the other side of the battery assembly 200 , and each reinforcement member 300 is fixedly adhered to the other first side surface 203 of each of the three adjacent single cells 202 .
- the first reinforcing member 300 located on one side of the battery assembly 200 is fixedly adhered to the first side surface 203 of each single cell 202 in the first to third single cells 202, and the second reinforcing member 300 is fixedly adhered to the first to the third single cell 202.
- the first side 203 of each unit cell 202 in the three to fifth unit cells 202; the first reinforcing member 300 located on the other side of the battery assembly 200 is fixedly adhered to the first to third unit cells
- the other first side 203 of each unit cell 202 in the 202, the second reinforcing member 300 is fixedly pasted on the other first side 203 of each unit cell 202 in the third to fifth unit cells 202 .
- the reinforcing members 300 on both sides of the battery assembly 200 are arranged in sequence along a predetermined direction, and the first reinforcing member 300 on one side of the battery assembly 200 is fixed and pasted on the first to Qth single
- the first reinforcing member 300 on the other side of the battery assembly 200 is fixedly adhered to each unit in the Qth to 2Q-1th unit cells 202
- the second reinforcing member 300 on the side of the battery assembly 200 is fixed and pasted on the first side of each unit cell 202 in the 2Q-1 to 3Q-2 unit cells 202 .
- the second reinforcing member 300 on the other side of the battery assembly 200 is fixed and pasted on the other first side 203 of each single cell 202 in the 3Q-2 to 4Q-3 single cells 202, and sequentially
- the M-th reinforcing member 300 located on the side of the battery assembly 200 is fixed and pasted on the 2 ⁇ M ⁇ Q-(2M-1)-2(Q-1) to the 2 ⁇ M ⁇ Q-(2M-1 )-(Q-1)
- the M-th reinforcing member 300 on the other side of the battery assembly 200 is fixedly pasted on the 2 ⁇ M ⁇ Q-( The other first side surface 203 of each unit cell 202 in the 2M-1)-(Q-1) to 2 ⁇ M ⁇ Q-(2M-1) unit cells 202 .
- the battery unit 201 includes five single cells 202 .
- Two reinforcement members 300 are located on one side of the battery assembly 200 , and each reinforcement member 300 is fixedly adhered to the first side surface 203 of each of the two adjacent single cells 202 .
- the two reinforcement members 300 are located on the other side of the battery assembly 200 , and each reinforcement member 300 is fixedly adhered to the other first side surface 203 of each of the two adjacent single cells 202 .
- the first reinforcing member 300 on one side of the battery assembly 200 is fixedly adhered to the first side 203 of each single cell 202 in the first to second cells, and the first reinforcing member on the other side of the battery assembly 200 300 is fixedly adhered to the other first side surface 203 of each of the second to third single cells 202 .
- the second reinforcing member 300 located on one side of the battery assembly 200 is fixedly adhered to the first side 203 of each single cell 202 in the third to fourth single cells 202 , and the second reinforcing member 300 located on the other side of the battery assembly 200
- Each of the reinforcing members 300 is fixedly adhered to the other first side surface 203 of each unit cell 202 in the fourth to fifth unit cells 202 .
- the battery unit 201 includes seven single cells 202 , two reinforcing members 300 are located on one side of the battery assembly 200 , and each reinforcing member 300 is fixedly adhered to three phases.
- a reinforcement member 300 is located on the other side of the battery assembly 200 , and the reinforcement member 300 is fixedly adhered to the other first side surface 203 of each of the three adjacent single cells 202 .
- the first reinforcing member 300 on one side of the battery assembly 200 is fixedly adhered to the first side 203 of each single cell 202 in the first to third cells, and the first reinforcing member on the other side of the battery assembly 200 300 is fixedly adhered to the other first side surface 203 of each unit cell 202 in the third to fifth unit cells 202 .
- the second reinforcing member 300 on one side of the battery assembly 200 is fixedly adhered to the first side surface 203 of each of the fifth to seventh single cells 202 .
- the reinforcing members 300 on both sides of the battery assembly 200 are arranged in sequence along a preset direction, and the first reinforcing member 300 on one side of the battery assembly 200 is fixed and pasted on the first to Qth single
- the first side 203 of each unit cell 202 in the bulk battery 202 the second reinforcing member 300 is fixedly pasted on the first side 203 of each unit cell 202 in the Q+1 to 2Q unit cells 202
- the M th reinforcing member 300 is fixedly pasted on the first side surface 203 of each single cell 202 in the M ⁇ Q- (Q ⁇ 1) th single cell 202 to the M ⁇ Q th single cell 202 ;
- the first reinforcing member 300 located on the other side of the battery assembly 200 is fixedly adhered to the other first side surface 203 of each single cell 202 in the second to Q+1th single cells 202, and the second reinforcing member 300 is fixedly pasted on the other first side surface 203 of each single cell 202 in the Q+2 to 2Q+1 single cells 202, and so on, the Mth reinforcement 300 is fixedly pasted on the M ⁇ Q-th
- the battery unit 201 includes five single cells 202 , two reinforcement members 300 are located on one side of the battery assembly 200 , and each reinforcement member 300 is fixedly adhered to two adjacent cells The first side 203 of each cell 202 in the battery 202 .
- the two reinforcement members 300 are located on the other side of the battery assembly 200 , and each reinforcement member 300 is fixedly adhered to the other first side surface 203 of each of the two adjacent single cells 202 .
- the first reinforcing member 300 located on one side of the battery assembly 200 is fixedly adhered to the first side surface 203 of each single cell 202 in the first to second cells, and the second reinforcing member 300 is fixedly adhered to the third to second cells.
- the first side 203 of each unit cell 202 in the fourth unit cell 202 ; the first reinforcing member 300 located on the other side of the battery assembly 200 is fixedly adhered to each of the second to third unit cells 202
- the second reinforcing member 300 is fixedly adhered to the other first side surface 203 of each unit cell 202 in the fourth to fifth unit cells 202 .
- the battery unit 201 includes four single cells 202 , two reinforcing members 300 are located on one side of the battery assembly 200 , and each reinforcing member 300 is fixedly adhered to two phases.
- a reinforcement member 300 is located on the other side of the battery assembly 200 , and the reinforcement member 300 is fixedly adhered to the other first side surface 203 of each of the two adjacent single cells 202 .
- the first reinforcing member 300 located on one side of the battery assembly 200 is fixedly adhered to the first side surface 203 of each single cell 202 in the first to second cells, and the second reinforcing member 300 is fixedly adhered to the third to second cells.
- the first side 203 of each unit cell 202 in the fourth unit cell 202 ; the first reinforcing member 300 located on the other side of the battery assembly 200 is fixedly adhered to each of the second to third unit cells 202
- the other first side surface 203 of each unit cell 202 is fixedly adhered to each of the second to third unit cells.
- one end of the reinforcing member 300 is provided with an extension portion 400 , and the extension portion 400 is attached to the top surface 205 or the bottom surface 206 of at least one single cell 202 to further enhance the battery.
- Strength of cell 201 For example, the extension portion 400 may be attached to the top surface 205 or the bottom surface 206 of a single cell 202 , or attached to the top surface 205 or the bottom surface 206 of a single cell 202 .
- the reinforcing member 300 and the extension portion 400 are integrally formed.
- the reinforcing member 300 and the extension portion 400 can also be made separately and then connected.
- two opposite ends of the reinforcing member 300 are provided with extension parts 400 , one extension part 400 is attached to the top surface 205 of at least one unit cell 202 , and the other extension part is 400 is attached to the bottom surface 206 of at least one single battery 202 to further improve the strength of the battery unit 201 .
- one extension 400 may be attached to the top surface 205 of a single cell 202, and another extension 400 may be attached to the bottom surface 206 of a single cell 202.
- one extension 400 may be attached to the top surfaces 205 of the two single cells 202 , and the other extension 400 may be attached to the bottom surfaces 206 of the two single cells 202 .
- the housing 100 has mutually perpendicular X, Y, and Z directions, a plurality of battery assemblies 200 are provided, and the plurality of battery assemblies 200 are arranged along the X direction.
- N single cells 202 are arranged in sequence along the Y direction.
- the top surface 205 and the bottom surface 206 of the single cells 202 are arranged opposite to each other along the Z direction, the first direction is parallel to the Y direction, and the second direction is parallel to the X direction.
- the single cell 202 is generally a rectangular parallelepiped, the single cell 202 has a length L, a width H and a thickness D, and the length L of the single cell 202 is greater than or equal to Width H, the width H of the single battery 202 is greater than the thickness D, wherein the X direction is the thickness direction of the single battery 202, the Y direction is one of the length direction and the width direction of the single battery 202, and the Z direction is the single battery 202. The other of the length direction and the width direction of the battery 202 .
- the single cell 202 is generally cuboid in this document, it can be understood that the single cell 202 may be cuboid, cube, or partially shaped, but roughly cuboid or cube; From, chamfered, radian, curved, but the overall shape is approximately cuboid, square.
- the single cell 202 includes six surfaces, namely a bottom surface 206, a top surface 205, two first side surfaces 203 and two second side surfaces 204.
- the two first side surfaces 203 are opposite along the thickness direction, and the two second side surfaces 204 are along the thickness direction.
- the length direction is opposite, and the bottom surface 206 and the top surface 205 are opposite in the width direction.
- the housing 100 includes a first frame 102 and a second frame 103 oppositely disposed along the Y direction.
- the battery assembly 200 is disposed between the first frame 102 and the second frame 103 , and one end of the battery assembly 200 is supported on the first frame 102 .
- the other end of the assembly 200 is supported on the second frame 103 . That is, the battery assembly 200 extends from the first frame 102 to the second frame 103 in the Y direction. In other words, the battery assembly 200 extends from one side of the casing 100 to the other side along the Y direction, and one battery assembly 200 is disposed in the casing 100 along the Y direction.
- the reinforcing member 300 is fixed and pasted on the first side surface 203 of the unit cell 202 to connect the unit cell 202 as a whole, and the overall strength of the battery assembly 200 can be improved due to the reinforcing and supporting functions of the reinforcing member 300 .
- the battery assembly 200 can act as a reinforcing beam in the casing 100 , so the structure of the casing can be greatly simplified, and the space occupied by the reinforcing ribs can be reduced, which is beneficial to improve the space utilization rate of the battery pack 10 and the battery pack 10 energy density.
- the battery assembly 200 is directly arranged and arranged in the casing 100. This structural design omits the structural components for installing and fixing the single battery 202, which not only helps to reduce the weight of the entire battery pack 10, but also simplifies the assembly process. Helps to reduce production costs.
- one end of the battery assembly 200 may be directly or indirectly supported on the first frame 102 , and the other end of the battery assembly 200 may be directly or indirectly supported on the second frame 103 .
- the direct meaning means that one end of the battery assembly 200 is in direct contact with the first frame 102 for support, and the other end of the battery assembly 200 is in direct contact with the second frame 103 for support;
- the indirect meaning means that, for example, in some embodiments, the battery assembly One end of the battery assembly 200 is supported and supported by the first frame 102 through the middle piece, and the other end of the battery assembly 200 is supported by the second frame 103 through the middle piece.
- both ends of the battery assembly 200 can also be fixed on the first frame 102 and the second frame 103 .
- the specific fixing method is described in detail below, and the application does not limit the specific support and fixing method.
- the distance between the first frame 102 and the second frame 103 matches the size of the battery assembly 200 , and the matching here refers to the distance between the two frames.
- a battery assembly 200 can be installed with the distance between them, and the fit can be in various fit modes such as clearance fit, interference fit, tight fit, and fixed fit, so as to achieve the purpose of the present application.
- the casing 100 further includes a third frame 104 and a fourth frame 105 oppositely disposed along the X direction, and a plurality of battery assemblies 200 are arranged side by side between the third frame 104 and the fourth frame 105 along the X direction.
- the housing 100 includes a tray 101 and an upper cover.
- the tray 101 and the upper cover jointly define a receiving space.
- the battery assembly 200 is located in the receiving space.
- the bottom surface of the unit cell 202 is fixedly adhered to the inner surface of the tray 101 .
- the battery assembly 200 can form an integral structure with the upper cover and the tray 101, and the integral structure has higher mechanical strength, that is, the battery pack 10 has higher structural strength, so that it can better withstand the impact of external force.
- the battery pack 10 is in use, since it has sufficient structural strength, it can be used as a part of the structural strength of the whole vehicle.
- the battery pack 10 can be used to increase the structural strength of the entire vehicle, without the need to design additional structural components on the entire vehicle to protect the battery pack 10.
- This design can simplify or even cancel the entire vehicle.
- the design structure of the frame to protect the structural strength of the battery pack 10 is conducive to realizing the design requirements of the lightweight of the whole vehicle, reducing the design and manufacturing costs of the whole vehicle, and improving the production efficiency of the whole vehicle.
- the inner surface of the upper cover refers to the surface of the upper cover on the side close to the single cells 202
- the inner surface of the tray 101 refers to the surface of the tray 101 on the side close to the single cells 202
- the top surface of the single cell 202 in the battery assembly 200 may be directly fixed and pasted on the inner surface of the upper cover, or may be indirectly fixed and pasted on the inner surface of the upper cover.
- the top surface of the single cell 202 in the battery assembly 200 may be fixed It is pasted on one side of the connecting plate, and the other side of the connecting plate is fixed and pasted on the inner surface of the upper cover.
- the bottom surface of the single cell 202 in the battery assembly 200 can be directly fixed and pasted on the inner surface of the tray 101, or it can be indirectly fixed and pasted on the inner surface of the tray 101.
- the bottom surface of the single cell 202 in the battery assembly 200 can be fixed and pasted.
- the other side of the connecting plate is fixedly adhered to the inner surface of the tray 101 .
- the tray 101 includes a first frame 102 and a second frame 103 oppositely arranged along the Y direction, and a third frame 104 and a fourth frame 105 oppositely arranged along the X direction.
- first frame 102 and the second frame 103 are perpendicular to and connected to the third frame 104 and the fourth frame 105, so that the casing 100 is formed into a rectangle or a square.
- first frame 102 and the second frame 103 may be parallel to each other, and the third frame 104 and the fourth frame 105 may be arranged at an angle with the first frame 102 and the second frame 103, so that the housing 100 is formed as Trapezoid, parallelogram, etc.
- the present application does not limit the specific shape of the casing 100 formed by the first frame 102 , the second frame 103 , the third frame 104 and the fourth frame 105 .
- the third frame 104 applies a force toward the fourth frame 105 to the battery assemblies 200 disposed adjacent to the third frame 104
- the fourth frame 105 applies a force to the battery assemblies 200 disposed adjacent to the fourth frame 105
- the force toward the third frame 104 enables the plurality of battery assemblies 200 to be closely arranged between the third frame 104 and the fourth frame 105 along the X direction, and the plurality of battery assemblies 200 can be attached to each other.
- the third frame 104 and the fourth frame 105 can limit the plurality of battery assemblies 200 in the X direction, especially when the battery assemblies 200 expand a little, they can buffer and provide inward pressure to the battery assemblies 200 It can prevent the expansion and deformation of the battery assembly 200 from being too large.
- the upper cover is a multi-layer composite structure.
- the multi-layer composite structure includes two layers of aluminum plates and a steel plate sandwiched between the two layers of aluminum plates; or, the multi-layer composite structure includes two layers of aluminum plates and a foamed aluminum plate sandwiched between the two layers of aluminum plates; or, a multi-layer composite structure
- the composite structure includes two fiber composite layers, and a foam material layer sandwiched between the two fiber composite layers.
- the fiber composite layer includes a glass fiber layer and/or a carbon fiber layer.
- the tray 101 is also a multi-layer composite structure.
- the multi-layer composite structure includes two layers of aluminum plates and a steel plate sandwiched between the two layers of aluminum plates; or, the multi-layer composite structure includes two layers of aluminum plates and a foamed aluminum plate sandwiched between the two layers of aluminum plates; or, a multi-layer composite structure
- the composite structure includes two fiber composite layers, and a foam material layer sandwiched between the two fiber composite layers.
- the fiber composite layer includes a glass fiber layer and/or a carbon fiber layer.
- the reinforcing member 300 is a reinforcing plate, and the dimension of the reinforcing member 300 along the second direction is the thickness of the reinforcing plate. It should be noted that the reinforcing member 300 is not limited to a plate-like structure, and it can also be in other shapes, and a reinforcing rib can also be provided on the plate-like structure to further improve the strength.
- the reinforcing plate is a steel plate or an aluminum plate or a glass fiber plate.
- the reinforcing member 300 is fixedly adhered to the first side surface 203 of each of the Q adjacent single cells 202 through the structural adhesive 500 .
- the number of Q is not specifically limited, for example, three or four.
- the structural adhesive 500 is a thermally conductive structural adhesive 500 .
- the thermally conductive structural adhesive 500 can not only ensure a good bonding effect between the reinforcing member 300 and the first side surface 203 of the single cell 202 , but also conduct heat generated by the single cell 202 during operation.
- the length of the reinforcement 300 pasted on the first side surface 203 of at least one unit cell 202 projected on the first side surface 203 of the unit cell 202 along the first direction is S
- the length of the unit cell 202 is S
- the length of the bulk battery 202 along the first direction is P
- the first direction is parallel to the Y direction.
- the length P of the unit cell 202 along the first direction is the length L of the unit cell 202 .
- the battery unit 201 includes four single cells 202 , and the projection of the reinforcement member 300 on the first side surface 203 of each single cell 202 along the first direction has a length S of S.
- the projection on the first side surface 203 of one single cell 202 or two single cells 202 may have a length S along the first direction.
- the gap is used for accommodating the expansion of the single battery 202 during operation.
- the gap can also be used as a cooling air duct, or a liquid cooling plate can be arranged in the gap to cool and dissipate the single cells 202 .
- the battery cells 201 are connected in series or in parallel or in a mixed connection, and the single cells 202 in the battery cells 201 are connected in series or in parallel or in a mixed connection, so as to meet the requirements of practical use.
- the battery pack 10 further includes a power connector 600 , and the single cells 202 in the battery unit 201 are connected in series or in parallel through the power connector 600 .
- the electrode terminals 207 of the single cells 202 are provided on the top surface 205 of the single cells 202 to facilitate the arrangement of the battery assembly 200 in the casing 100 .
- a plurality of battery assemblies 200 are provided, and reinforcing members are provided between at least two adjacent battery assemblies 200 .
- the number of battery assemblies 200 can be set according to actual needs, for example, two, three or four.
- three battery assemblies 200 are provided, and reinforcing members are provided between the first battery assembly 200 and the second battery assembly 200 along the arrangement direction of the battery assemblies 200 ;
- a reinforcing member is provided between the two battery assemblies 200 and the third battery assembly 200; alternatively, between the first battery assembly 200 and the second battery assembly 200, and between the second battery assembly 200 and the third battery assembly Between 200 there are reinforcements.
- the reinforcement member is fixedly adhered to the battery assemblies 200 located on both sides of the reinforcement member.
- the reinforcement is fixed and pasted on both sides of the reinforcement by means of structural adhesive.
- Structural adhesive can not only ensure good bonding strength between the two, but also play a thermal conductivity function.
- the reinforcement is a reinforcement plate
- the reinforcement plate is a solid structure, for example, a solid aluminum plate or a steel plate.
- a plurality of battery assemblies 200 are provided, two adjacent single cells 202 in one battery assembly 200 are arranged at intervals of a first interval, and two adjacent cells
- the bulk cells 202 are arranged at intervals of second intervals, and the projection of the first interval in the first direction does not overlap with the projection of the second interval in the first direction.
- the size of the first interval and the size of the second interval may be the same or different.
- This arrangement can make the position where the structural strength of one battery assembly is relatively weak (that is, the position in the first interval) and the position in which the structural strength of another adjacent battery assembly is relatively weak (that is, the position in the second interval) is relatively weak. Positions) are staggered from each other, so that the relatively weak structural strength of one battery assembly can be balanced by another adjacent battery assembly, thereby helping to improve the overall strength of the battery pack.
- the first unit cell 202 and the second unit cell 202 arranged in the first direction are arranged at a first interval, and another battery unit 200 adjacent to the battery assembly 200 is arranged at a first interval.
- the first unit cells 202 and the second unit cells 202 arranged along the first direction are arranged at intervals of a second interval, and the projection of the first interval in the first direction and the projection of the second interval in the first direction do not overlap.
- the second unit cell 202 and the third unit cell 202 arranged in the first direction in one battery assembly 200 are arranged at a first interval, and another battery assembly 200 adjacent to the battery assembly 200
- the second unit cells 202 and the third unit cells 202 arranged along the first direction are arranged at intervals of a second interval, and the projection of the first interval in the first direction and the projection of the second interval in the first direction do not overlap.
- FIG. 2 , FIG. 18 and FIG. 19 there are multiple battery assemblies 200 , and the second side surfaces 204 of two adjacent single cells 202 in one battery assembly 200 are attached to each other.
- the bonding position is marked as the first position
- the second side surfaces 204 of the two adjacent single cells 202 in another adjacent battery assembly 200 are bonded to each other, and the bonding position is marked as the second position, the first position and The second positions are spaced apart along the first direction.
- the positions of two adjacent battery assemblies 200 with relatively weak structural strength can be staggered from each other, that is, the first position and the second position are staggered from each other, thereby facilitating the improvement of the battery pack 10. overall strength.
- the second side surfaces 204 of the two adjacent single cells 202 in the battery assembly 200 are attached to each other, which is beneficial to reduce the space occupied by the battery pack 10 , thereby improving the volume utilization rate of the battery pack 10 .
- the second side surface 204 of the first unit cell 202 and the second side surface 204 of the second unit cell 202 arranged in the first direction are attached to each other, and the attachment position is marked as the first position; the second side surface 204 of the first unit cell 202 and the second side surface 204 of the second unit cell 202 arranged in the first direction of another battery unit 200 adjacent to the battery unit 200 are attached to each other,
- the abutting position is marked as a second position, and the first position and the second position are spaced apart along the first direction.
- the second side surface 204 of the second unit cell 202 and the second side surface 204 of the third unit cell 202 arranged in the first direction in one battery assembly 200 are attached to each other, and the attachment position is marked as the first position; the second side surface 204 of the second unit cell 202 and the second side surface 204 of the third unit cell 202 arranged in the first direction of another battery unit 200 adjacent to the battery unit 200 are attached to each other, The abutting position is marked as a second position, and the first position and the second position are spaced apart along the first direction.
- the number of single cells 202 in two adjacent battery assemblies 200 is different, one of the battery assemblies 200 is marked as the first battery assembly, the other battery assembly 200 is marked as the second battery assembly, and the single battery assembly in the first battery assembly
- the number of bulk cells 202 is greater than the number of single cells 202 in the second battery assembly.
- the second battery assembly is provided with a reinforcing block 700, and the reinforcing block 700 is connected to the single cells 202 in the second battery assembly. It can be understood that after the single cells 202 in the two adjacent battery assemblies 200 are arranged in the above-mentioned manner, the battery cells 201 in the second battery assembly will form a vacancy at a certain position, and at this time, a reinforcing block is arranged at the vacant position.
- the reinforcing block 700 is connected with the single battery 202, so that the strength of the battery assembly 200 can be further improved, and the overall strength of the battery pack 10 can also be improved.
- one end or both ends of the battery cells of the second battery assembly along the first direction are formed with a vacancy, or a middle position of the battery cells of the second battery assembly is formed with a vacancy.
- a reinforcing block is placed in the vacant position.
- the reinforcing block can be fixedly adhered to the second side surface of the single battery, or the reinforcing block can be fixedly adhered to the reinforcing member, and the reinforcing member can be fixedly adhered to the first side surface of the single battery.
- the number of single cells 202 in the first battery assembly is four, the number of single cells 202 in the second battery assembly is three, and one or both ends of the battery cells 201 in the second battery assembly along the first direction are both A reinforcement block 700 is provided.
- the number of single cells 202 in the first battery assembly is three, the number of single cells 202 in the second battery assembly is two, and one or both ends of the battery cells 201 in the second battery assembly along the first direction are both A reinforcement block 700 is provided.
- the size of the first battery assembly along the first direction is the same as the size of the second battery assembly along the first direction, and the first battery assembly and the second battery assembly are alternately arranged in sequence along the X direction in the casing 100 .
- Such arrangement not only facilitates the arrangement of the battery assembly 200 in the casing 100 , but also improves the space utilization rate of the battery pack 10 .
- structural adhesive is used between the single battery 202 and the single battery 202, and between the single battery 202 and the casing 100, preferably by pouring glue, so that the interior of the battery pack 10 can be firmly formed as a whole. , thereby helping to improve the overall strength of the battery pack.
- the present application also provides an electric vehicle, which includes the above-mentioned battery pack 10 .
- the above-mentioned battery pack 10 has high structural strength.
- the battery pack 10 of this structure is arranged at the bottom of the vehicle, which can well support the structural strength of the entire vehicle and reduce the strength design of the entire vehicle, thereby reducing the design cost of the entire vehicle. Difficulty and Period.
- the four cuboid-shaped single cells 202 are arranged along the Y direction, and connected by three reinforcement members 300 , each reinforcement member 300 is connected to two single cells 202 respectively, and the reinforcement member 300 is located in the battery
- the shape of the reinforcing member 300 is a flat plate as shown in FIG. 2
- the four single cells 202 are assembled into a battery assembly 200
- the twelve battery assemblies 200 are arranged in the X direction.
- both ends of each battery assembly 200 are supported on the first frame 102 and the second frame 103 , and then sealed with an upper cover to form a battery pack.
- the reinforcement 300 and the single cell 202 in each embodiment meet Table 1, according to GB/T 31467.3-2015 Lithium-ion power battery pack and system for electric vehicles Part 3: Safety requirements and test results of the test method As shown in Table 1:
- FIG. 7 four rectangular parallelepiped cells 202 are arranged in the Y direction and connected by three reinforcing members 300 .
- one side of the battery assembly 200 is provided with two reinforcing members 300, and the other side of the battery assembly 200 is provided with one reinforcing member 300.
- Each reinforcing member 300 is connected to two single cells 202.
- the shape of the reinforcing member 300 is as shown in the appendix.
- Fig. 7 shows a flat plate shape.
- the four single cells 202 are assembled into a battery assembly 200.
- the twelve battery assemblies 200 are arranged in the tray 101 as shown in Fig. 17 along the X direction.
- each battery assembly 200 Both ends of each battery assembly 200 are supported on the first frame 102 and the second frame 103, and then sealed with an upper cover to form a battery pack.
- the reinforcing member 300 and the single cell 202 in each embodiment meet Table 2, according to GB/T 31467.3-2015 Lithium-ion power battery pack and system for electric vehicles Part 3: Safety requirements and test results of the test method As shown in table 2:
- first and second are only used for descriptive purposes, and should not be construed as indicating or implying relative importance or implying the number of indicated technical features. Thus, a feature delimited with “first”, “second” may expressly or implicitly include at least one of that feature.
- plurality means at least two, such as two, three, etc., unless expressly and specifically defined otherwise.
- connection In this application, unless otherwise expressly specified and limited, the terms “installation”, “connection”, “connection”, “fixation” and other terms should be understood in a broad sense, for example, it may be a fixed connection or a detachable connection , or integrated; it can be a mechanical connection or an electrical connection; it can be directly connected or indirectly connected through an intermediate medium, it can be the internal connection of two elements or the interaction relationship between the two elements, unless otherwise specified limit.
- fixing and other terms should be understood in a broad sense, for example, it may be a fixed connection or a detachable connection , or integrated; it can be a mechanical connection or an electrical connection; it can be directly connected or indirectly connected through an intermediate medium, it can be the internal connection of two elements or the interaction relationship between the two elements, unless otherwise specified limit.
- the specific meanings of the above terms in this application can be understood according to specific situations.
- a first feature "on” or “under” a second feature may be in direct contact with the first and second features, or the first and second features indirectly through an intermediary touch.
- the first feature being “above”, “over” and “above” the second feature may mean that the first feature is directly above or obliquely above the second feature, or simply means that the first feature is level higher than the second feature.
- the first feature being “below”, “below” and “below” the second feature may mean that the first feature is directly below or obliquely below the second feature, or simply means that the first feature has a lower level than the second feature.
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- Sealing Battery Cases Or Jackets (AREA)
Abstract
Description
Claims (38)
- 一种电池包,其特征在于,包括:壳体及位于壳体内的电池组件,所述壳体内具有底面和顶面;所述电池组件包括电池单元和加强件;所述电池单元包括N个单体电池,N>2且为整数,所述加强件含有M个,M>1且为整数;所述电池单元中至少部分所述单体电池通过M个所述加强件连接;一个所述加强件固定粘贴在Q个相邻单体电池的至少部分单体电池的第一侧面,Q满足:N>Q≥2且为整数;所述单体电池的外表面包括底面、顶面和侧面,所述单体电池的底面面向所述壳体内的底面,所述单体电池的顶面面向所述壳体内的顶面;所述侧面包括第一侧面及两个相对的第二侧面,所述侧面中所述第一侧面的面积最大;所述第一侧面的面积大于所述单体电池的底面的面积,所述第一侧面的面积大于所述单体电池的顶面的面积;所述N个单体电池依次排列,相邻的两个单体电池的第二侧面相对设置,所述单体电池的排列方向为第一方向。
- 根据权利要求1所述的电池包,其特征在于,所述加强件沿第二方向的尺寸为D0,所述第二方向与第一方向垂直,Q个相邻单体电池中与加强件连接的其中一个单体电池沿第二方向的尺寸为D1,D0与D1之间满足:0.006≤D0/D1≤0.5,D1=10~90mm。
- 根据权利要求2所述的电池包,其特征在于,0.012≤D0/D1≤0.4。
- 根据权利要求1-3任一项所述的电池包,其特征在于,Q个相邻单体电池中与加强件连接的单体电池的数量不小于Q/2。
- 根据权利要求1-4任一项所述的电池包,其特征在于,所述M个加强件将N个单体电池连接成电池单元;一个所述加强件固定粘贴在Q个相邻单体电池中的每个单体电池的第一侧面。
- 根据权利要求1-5任一项所述的电池包,其特征在于,所述电池组件沿第一方向的长度为400~2500mm,所述电池组件与所述壳体内的底面对接以支撑于所述壳体内的底面上。
- 根据权利要求1-6任一项所述的电池包,其特征在于,至少一个单体电池的第一侧面上粘贴的加强件在该单体电池的第一侧面上投影沿第一方向的长度为S,该单体电池沿第一方向的长度为P,其中S和P之间满足:S=0.1P~0.5P。
- 根据权利要求1-7任一项所述的电池包,其特征在于,所述M个加强件位于所述电池组件的一侧,M个加强件沿预设方向依次排列,第一个加强件固定粘贴在第一个至第Q个单体电池中每个单体电池的第一侧面,第二个加强件固定粘贴在第Q个至第2Q-1个单体电池中每个单体电池的第一侧面,第三个加强件固定粘贴在第2Q-1个单体电池至第3Q-2 个单体电池中每个单体电池的第一侧面,依次类推,第M个加强件固定粘贴在第M×Q-(M-1)-(Q-1)个单体电池至第M×Q-(M-1)个单体电池中每个单体电池的第一侧面。
- 根据权利要求1-8任一项所述的电池包,其特征在于,一个所述加强件固定粘贴在两个相邻单体电池中的每个单体电池的第一侧面。
- 根据权利要求1-9任一项所述的电池包,其特征在于,所述侧面包括两个相对的第一侧面,所述M个加强件分布于所述电池组件的两侧,位于所述电池组件一侧的加强件固定粘贴在Q个相邻单体电池中的每个单体电池的第一侧面,位于所述电池组件另一侧的加强件固定粘贴在Q个相邻单体电池中的每个单体电池的另一个第一侧面。
- 根据权利要求10所述的电池包,其特征在于,位于所述电池组件一侧的加强件固定粘贴在Q个相邻单体电池中的每个单体电池的第一侧面的至少一部分表面,位于所述电池组件另一侧的加强件固定粘贴在Q个相邻单体电池中的每个单体电池的另一个第一侧面的至少一部分表面。
- 根据权利要求10或11所述的电池包,其特征在于,位于所述电池组件两侧的加强件沿预设方向依次排列,位于所述电池组件一侧的第一个加强件固定粘贴在第一个至第Q个单体电池中每个单体电池的第一侧面,第二个加强件固定粘贴在第Q至第2Q-1个单体电池中每个单体电池的第一侧面,依次类推,第M个加强件固定粘贴在第M×Q-(M-1)-(Q-1)个单体电池至第M×Q-(M-1)个单体电池中每个单体电池的第一侧面;位于所述电池组件另一侧的第一个加强件固定粘贴在第一个至第Q个单体电池中每个单体电池的另一个第一侧面,第二个加强件固定粘贴在第Q至第2Q-1个单体电池中每个单体电池的另一个第一侧面,依次类推,第M个加强件固定粘贴在第M×Q-(M-1)-(Q-1)个单体电池至第M×Q-(M-1)个单体电池中每个单体电池的另一个第一侧面。
- 根据权利要求10-12任一项所述的电池包,其特征在于,位于所述电池组件两侧的加强件沿预设方向依次排列,位于所述电池组件一侧的第一个加强件固定粘贴在第一个至第Q个单体电池中每个单体电池的第一侧面,位于所述电池组件另一侧的第一加强件固定粘贴在第Q个至第2Q-1个单体电池中每个单体电池的另一个第一侧面,所述电池组件一侧的第二个加强件固定粘贴在第2Q-1个至第3Q-2个单体电池中每个单体电池的第一侧面,所述电池组件另一侧的第二个加强件固定粘贴在第3Q-2个至第4Q-3个单体电池中每个单体电池的另一个第一侧面,依次类推,位于所述电池组件一侧的第M个加强件固定粘贴在第2×M×Q-(2M-1)-2(Q-1)个至第2×M×Q-(2M-1)-(Q-1)个单体电池中每个单体电池的第一侧面,位于所述电池组件另一侧的第M个加强件固定粘贴在第2×M×Q-(2M-1)-(Q-1)个至第2×M×Q-(2M-1)个单体电池中每个单体电池的另一个第一侧面。
- 根据权利要求10-13任一项所述的电池包,其特征在于,位于所述电池组件两侧 的加强件沿预设方向依次排列,位于所述电池组件一侧的第一个加强件固定粘贴在第一个至第Q个单体电池中每个单体电池的第一侧面,第二个加强件固定粘贴在第Q+1至第2Q个单体电池中每个单体电池的第一侧面,依次类推,第M个加强件固定粘贴在第M×Q-(Q-1)个单体电池至第M×Q个单体电池中每个单体电池的第一侧面;位于所述电池组件另一侧的第一个加强件固定粘贴在第二个至第Q+1个单体电池中每个单体电池的另一个第一侧面,第二个加强件固定粘贴在第Q+2至第2Q+1个单体电池中每个单体电池的另一个第一侧面,依次类推,第M个加强件固定粘贴在第M×Q-(Q-1)+1个单体电池至第M×Q+1个单体电池中每个单体电池的另一个第一侧面。
- 根据权利要求1-14任一项所述的电池包,其特征在于,所述加强件的一端设有延伸部,所述延伸部贴附于至少一个单体电池的顶面或者底面。
- 根据权利要求1-15任一项所述的电池包,其特征在于,所述加强件相对的两端设有延伸部,一个所述延伸部贴附于至少一个单体电池的顶面,另一个所述延伸部贴附于至少一个单体电池的底面。
- 根据权利要求1-16任一项所述的电池包,其特征在于,所述壳体具有相互垂直的X方向、Y方向和Z方向,所述电池组件设有多个,多个所述电池组件沿X方向排布于所述壳体内,所述N个单体电池沿Y方向依次排列,所述单体电池的顶面和底面沿Z方向相对设置,第一方向与Y方向平行。
- 根据权利要求17所述的电池包,其特征在于,所述单体电池大体为长方体,所述单体电池具有长度L、宽度H和厚度D,所述单体电池的长度L大于或者等于宽度H,所述单体电池的宽度H大于厚度D,其中,X方向为所述单体电池的厚度方向,Y方向为所述单体电池的长度方向和宽度方向的其中一者,Z方向为所述单体电池的长度方向和宽度方向的另一者。
- 根据权利要求17或18所述的电池包,其特征在于,所述单体电池包括六个表面,分别为底面、顶面、两个第一侧面和两个第二侧面,两个第一侧面沿厚度方向相对,两个第二侧面沿长度方向相对,底面和顶面沿宽度方向相对。
- 根据权利要求17-19任一项所述的电池包,其特征在于,所述壳体包括沿Y方向相对设置的第一边框和第二边框,所述电池组件设于所述第一边框和第二边框之间,所述电池组件的一端支撑于所述第一边框,所述电池组件的另一端支撑于所述第二边框。
- 根据权利要求1-20任一项所述的电池包,其特征在于,所述加强件通过结构胶固定粘贴在Q个相邻单体电池中的每个单体电池的第一侧面。
- 根据权利要求21所述的电池包,其特征在于,所述结构胶为导热结构胶。
- 根据权利要求1-22任一项所述的电池包,其特征在于,所述加强件为加强板。
- 根据权利要求23所述的电池包,其特征在于,所述加强板为钢板或者铝板或者玻纤板。
- 根据权利要求1-24任一项所述的电池包,其特征在于,所述电池组件设有多个,相邻的两个所述电池组件之间具有间隙。
- 根据权利要求1-25任一项所述的电池包,其特征在于,所述电池单元中相邻的两个单体电池的第二侧面相互贴合。
- 根据权利要求1-26任一项所述的电池包,其特征在于,所述电池组件设有多个,至少两个相邻的所述电池组件之间设有加固件。
- 根据权利要求27所述的电池包,其特征在于,所述加固件与位于所述加固件两侧的电池组件固定粘贴。
- 根据权利要求28所述的电池包,其特征在于,所述加固件为铝板或者钢板。
- 根据权利要求1-29任一项所述的电池包,其特征在于,所述壳体包括托盘及上盖,所述托盘和上盖共同限定出容纳空间,所述电池组件位于所述容纳空间内,所述电池组件中单体电池的顶面固定粘贴在所述上盖的内表面上,单体电池的底面固定粘贴在所述托盘的内表面上。
- 根据权利要求30所述的电池包,其特征在于,所述托盘和/或所述上盖为多层复合结构。
- 根据权利要求31所述的电池包,其特征在于,所述多层复合结构包括两层铝板,以及夹设于所述两层铝板之间的钢板或发泡铝板。
- 根据权利要求31或32所述的电池包,其特征在于,所述多层复合结构包括两层纤维复合层,以及夹设于所述两层纤维复合层之间的发泡材料层。
- 根据权利要求33所述的电池包,其特征在于,所述纤维复合层包括玻璃纤维层和/或碳纤维层。
- 根据权利要求1-34任一项所述的电池包,其特征在于,电池组件设有多个,一个电池组件中相邻的两个单体电池的第二侧面相互贴合,该贴合位置标记为第一位置,相邻的另一个电池组件中相邻的两个单体电池的第二侧面相互贴合,该贴合位置标记为第二位置,第一位置和第二位置沿第一方向间隔设置。
- 根据权利要求1-35任一项所述的电池包,其特征在于,电池组件设有多个,一个电池组件中相邻的两个单体电池以第一区间间隔设置,相邻的另一个电池组件中相邻的两个单体电池以第二区间间隔设置,第一区间在第一方向的投影与第二区间在第一方向的投影不重叠。
- 根据权利要求35或36所述的电池包,其特征在于,相邻的两个电池组件中单体 电池的数量不同,其中一个电池组件标记为第一电池组件,另一个电池组件标记为第二电池组件,第一电池组件中单体电池的数量大于第二电池组件中单体电池的数量,第二电池组件中设有加强块,所述加强块与第二电池组件中的单体电池连接。
- 一种电动车,其特征在于,包括如权利要求1-37任一项所述的电池包。
Priority Applications (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US17/777,819 US20220416346A1 (en) | 2019-11-18 | 2020-10-19 | Battery pack and electric vehicle |
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CN111009629B (zh) * | 2019-11-18 | 2022-02-08 | 比亚迪股份有限公司 | 一种电池包和电动车 |
CN110993845B (zh) * | 2019-11-18 | 2021-12-07 | 比亚迪股份有限公司 | 电池包及电动车 |
CN113851775A (zh) * | 2021-08-31 | 2021-12-28 | 蔚来汽车科技(安徽)有限公司 | 一种电池包以及具有其的车辆 |
DE102021122904B4 (de) | 2021-09-03 | 2023-11-30 | Kirchhoff Automotive Deutschland Gmbh | Traktionsbatterieeinheit |
CN113904054B (zh) * | 2021-09-27 | 2023-06-30 | 蜂巢能源科技有限公司 | 一种电池包和动力装置 |
CN114267925A (zh) * | 2021-11-18 | 2022-04-01 | 三一重工股份有限公司 | 一种电池箱、车辆及电池箱组装方法 |
CN114267915B (zh) * | 2021-11-29 | 2023-04-18 | 三一重工股份有限公司 | 电池箱和车辆 |
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JP7451703B2 (ja) | 2024-03-18 |
WO2021098428A1 (zh) | 2021-05-27 |
CN110993845A (zh) | 2020-04-10 |
CN110993845B (zh) | 2021-12-07 |
JP2023501742A (ja) | 2023-01-18 |
JP2024075604A (ja) | 2024-06-04 |
EP4060794A1 (en) | 2022-09-21 |
KR20220101692A (ko) | 2022-07-19 |
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