KR20230097897A - Logical cell, secondary battery module and secondary battery pack including the same - Google Patents

Abstract

The present invention relates to a logical cell, a secondary battery module, and a secondary battery pack including the same, wherein a pouch cell assembly in which a plurality of pouch cells are arranged is stored in a case along a longitudinal direction, and a center bus is provided between the pouch cell assemblies. It relates to a logical cell, a secondary battery module, and a secondary battery pack including the same that can maximize the ease of handling of a pouch cell and the utilization rate of space in a pack by forming a logical cell by electrically connecting using a bar frame assembly and a center bus bar. .
The logical cell according to the present invention is a pouch cell assembly formed by arranging a plurality of pouch cells in the thickness direction, and a plurality of pouch cell assemblies stored inside along the length direction, one end and the other end being open. It includes a formed case, a center bus bar frame assembly provided between the plurality of pouch cell assemblies, and a center bus bar provided on the center bus bar frame assembly and electrically connecting the plurality of pouch cell assemblies.

Description

Logical cell, secondary battery module and secondary battery pack including the same {LOGICAL CELL, SECONDARY BATTERY MODULE AND SECONDARY BATTERY PACK INCLUDING THE SAME}

The present invention relates to a logical cell, a secondary battery module, and a secondary battery pack including the same, wherein a pouch cell assembly in which a plurality of pouch cells are arranged is stored in a case along a longitudinal direction, and a center bus is provided between the pouch cell assemblies. It relates to a logical cell, a secondary battery module, and a secondary battery pack including the same that can maximize the ease of handling of a pouch cell and the utilization rate of space in a pack by forming a logical cell by electrically connecting using a bar frame assembly and a center bus bar. .

A secondary battery refers to a battery capable of being charged and discharged, unlike a primary battery that cannot be charged, and types of secondary batteries include a nickel cadmium battery, a nickel hydride battery, a lithium ion battery, and a lithium ion polymer battery. These secondary batteries are used not only for small products such as digital cameras, laptops, mobile phones, PDAs and E-bikes, but also for large products requiring high output, such as electric vehicles and hybrid vehicles, and power storage devices that store surplus generated power or renewable energy. and backup power storage devices are also applied and used.

These secondary batteries are classified into pouch type and can type according to the material of the battery case accommodating the electrode assembly. In the pouch type, an electrode assembly is accommodated in a pouch made of a flexible polymer material having an irregular shape. In the can type, the electrode assembly is accommodated in a case made of a material such as metal or plastic having a constant shape.

In addition, the secondary battery may be composed of a cell, a module, or a pack according to a unit in which the secondary battery is collected. A cell is a basic unit of a secondary battery that can be used by charging and discharging electrical energy, and may be the aforementioned pouch-type or can-type secondary battery. A secondary battery module refers to an assembly that is bundled in a certain number or placed in a frame to protect cells from external shock, heat, vibration, etc., and a pack is the final form of a battery system, which includes various types of secondary battery modules such as BMS and cooling system. It is completed by installing a control and protection system.

1 is a perspective view showing a conventional secondary battery module. 2 is a perspective view showing a conventional secondary battery pack. Referring to FIGS. 1 and 2 , in conventional secondary battery modules and packs, cells are arranged in the thickness direction of the cells to form modules, and the secondary battery modules are placed inside the pack case in a lattice form. However, in this method, a lot of space and parts (A) are required to arrange or connect the secondary battery modules in a grid. As this becomes necessary, the distance between cells in a pack unit increases. This not only lowers the energy density per unit volume in the pack unit, but also increases the volume of the pack, resulting in an increase in the space occupied by the battery in the final product stage.

Accordingly, there is a need to develop a logical cell of a more simplified unit capable of maximizing the utilization rate of space inside the secondary battery pack and increasing energy density, and a secondary battery module and a secondary battery pack including the logical cell.

The present invention has been made to solve the above problems, and an object of the present invention is to accommodate a pouch cell assembly in which a plurality of pouch cells are arranged along the longitudinal direction inside a case, and to place a center bus between the pouch cell assemblies. By forming a logical cell by electrically connecting using a bar frame assembly and a center bus bar, a logical cell, a secondary battery module, and a secondary battery pack including the same can maximize the ease of handling of the pouch cell and the utilization rate of space in the pack. will be.

The logical cell according to the first embodiment of the present invention is a pouch cell assembly formed by arranging a plurality of pouch cells in the thickness direction, and a plurality of the pouch cell assemblies are stored inside along the length direction, one end and the other end being open A case formed in a curved shape, a center bus bar frame assembly provided between the plurality of pouch cell assemblies, and a center bus bar provided in the center bus bar frame assembly and electrically connecting the plurality of pouch cell assemblies.

The center bus bar frame assembly includes a pair of support parts formed to support the pouch cell assembly between the pouch cell assemblies and a pair of support parts formed to be recessed in a direction perpendicular to the pair of support parts between the pair of support parts. A center bus bar seating portion may be included, and the center bus bar may be inserted into the center bus bar seating portion.

The pouch cell assembly may include a lead protruding from the pouch cell, and the lead may be coupled to the center bus bar by welding to electrically connect the plurality of pouch cell assemblies.

A front bus bar frame assembly coupled to the pouch cell assembly at one side of the case, a front cover plate coupled to one side of the front bus bar frame assembly and covering an open end of the case, and the front bus bar A front bus bar provided between the frame assembly and the front cover plate and electrically connected to the pouch cell assembly to transmit an output to the outside may be further included.

The pouch cell assembly includes a lead protruding from the pouch cell, and the lead is electrically connected to the front bus bar by welding to transmit an output to the outside.

The front cover plate may be coupled to a lower portion of one side of the front bus bar frame assembly, and may be coupled to the front bus bar frame assembly such that an upper portion of the front bus bar is exposed.

A rear bus bar frame assembly coupled to the pouch cell assembly on the other side of the case, a rear cover plate coupled to one side of the rear bus bar frame assembly and covering the other open end of the case, and the rear bus bar A rear bus bar may be provided between the frame assembly and the rear cover plate and connect the pouch cells of the pouch cell assembly.

A rear cover plate may be coupled to one side of the rear bus bar frame assembly to cover the entire surface of the rear bus bar.

The case may include a first case formed in a recessed shape to accommodate the pouch cell assembly, and a second case formed in a planar shape coupled to the first case at one side of the first case.

A side shape of one open end of the case may be formed to correspond to a shape of a side surface where the front cover plate and the front bus bar frame assembly are coupled.

A secondary battery module according to Example 2 of the present invention includes a plurality of logical cells arranged to overlap in a thickness direction, a circuit board integrally welded to the plurality of logical cells at one side of the plurality of logical cells, and the plurality of logical cells A cover member integrally coupled to the plurality of logical cells at one side of the cell and covering the circuit board, wherein the logical cell is a pouch cell assembly formed by arranging a plurality of pouch cells in a thickness direction, a plurality of A case in which the pouch cell assembly is accommodated therein along the longitudinal direction, one end and the other end being formed in an open form, a center bus bar frame assembly provided between the plurality of pouch cell assemblies, and the center bus bar frame It is provided in the assembly and includes a center bus bar electrically connecting the plurality of pouch cell assemblies.

The logical cell includes a front bus bar frame assembly coupled to the pouch cell assembly at one side of the case, a front cover plate coupled to one side of the front bus bar frame assembly and covering an open end of the case, and A front bus bar provided between the front bus bar frame assembly and the front cover plate and electrically connected to the pouch cell assembly to transmit an output to the outside, wherein the circuit board is a front bus of the plurality of logical cells It can be welded integrally with the bar.

A secondary battery pack according to Example 3 of the present invention includes a pack case having a storage space therein and a plurality of secondary battery modules provided in the storage space of the pack case and arranged along a thickness direction, and the secondary battery The module includes a plurality of logical cells arranged to overlap in a thickness direction, a circuit board integrally welded to the plurality of logical cells at one side of the plurality of logical cells, and a plurality of logical cells at one side of the plurality of logical cells. It is integrally coupled to and includes a cover member covering the circuit board, and the logical cell is a pouch cell assembly formed by arranging a plurality of pouch cells in a thickness direction, and a plurality of pouch cell assemblies are formed along the longitudinal direction. A case that is received and formed in an open form at one end and the other end, a center bus bar frame assembly provided between the plurality of pouch cell assemblies, and provided in the center bus bar frame assembly, the plurality of pouch cell assemblies It includes a center bus bar that electrically connects the

The logical cell according to the present invention is a pouch cell assembly formed by arranging a plurality of pouch cells in the thickness direction, and a plurality of pouch cell assemblies stored inside along the length direction, one end and the other end being open. A case formed, a center bus bar frame assembly provided between the plurality of pouch cell assemblies, and a center bus bar provided in the center bus bar frame assembly and electrically connecting the plurality of pouch cell assemblies, thereby making the module Alternatively, it is possible to maximize the ease of handling of the pouch cell within the pack and the space utilization rate and energy density within the pack.

1 is a perspective view showing a conventional secondary battery module.
2 is a perspective view showing a conventional secondary battery pack.
3 is a perspective view illustrating a logical cell according to a first embodiment of the present invention.
4 is an exploded perspective view illustrating an exploded logical cell according to a first embodiment of the present invention.
5 is a perspective view illustrating a state in which a case of a logical cell according to a first embodiment of the present invention is removed.
6A is a perspective view illustrating a state in which a center bus bar is provided in a center bus bar frame assembly of a logical cell according to a first embodiment of the present invention.
6B is an exploded perspective view illustrating an exploded view of a center bus bar frame assembly and a center bus bar of a logical cell according to a first embodiment of the present invention.
7 is an enlarged perspective view illustrating a state in which a center bus bar frame assembly and a center bus bar are provided between a plurality of pouch cell assemblies.
8A is a perspective view illustrating a state in which a front bus bar frame assembly, a front cover plate, and a front bus bar of a logical cell are coupled according to a first embodiment of the present invention.
8B is an exploded perspective view illustrating a state in which the front bus bar frame assembly, the front cover plate, and the front bus bar of the logical cell according to the first embodiment of the present invention are disassembled.
9 is a view showing a state in which the front bus bar frame assembly and the front bus bar of the logical cell according to the first embodiment of the present invention are coupled to the lead of the pouch cell assembly.
10A is a perspective view illustrating a combination of a rear bus bar frame assembly and a rear cover plate of a logical cell according to a first embodiment of the present invention.
10B is an exploded perspective view illustrating a state in which a rear bus bar frame assembly, a rear cover plate, and a rear bus bar of a logical cell according to a first embodiment of the present invention are disassembled.
11 is a perspective view illustrating a secondary battery module according to a second embodiment of the present invention.
12 is a perspective view illustrating a secondary battery pack according to a third embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail so that those skilled in the art can easily practice with reference to the accompanying drawings. However, the present invention can be implemented in many different forms and is not limited or limited by the following examples.

In order to clearly describe the present invention, parts irrelevant to the description or detailed descriptions of related known technologies that may unnecessarily obscure the subject matter of the present invention have been omitted, and in this specification, reference numerals are added to the components of each drawing. In the specification, the same or similar reference numerals are assigned to the same or similar components throughout the specification.

In addition, the terms or words used in this specification and claims should not be construed as being limited to ordinary or dictionary meanings, and the inventor appropriately defines the concept of terms in order to best describe his/her invention. It should be interpreted as meaning and concept consistent with the technical idea of the present invention based on the principle that it can be done.

Example 1

3 is a perspective view illustrating a logical cell according to a first embodiment of the present invention. 4 is an exploded perspective view illustrating an exploded logical cell according to a first embodiment of the present invention. 5 is a perspective view illustrating a state in which a case of a logical cell according to a first embodiment of the present invention is removed.

3, 4 and 5, the logical cell 100 according to the first embodiment of the present invention includes a pouch cell assembly 110, a case 120, and a center bus bar frame assembly 130 and a center bus bar 140.

First, the pouch cell assembly 110 is formed by arranging a plurality of pouch cells 111 in the thickness direction (DT), the case 120 is formed in a form with one end and the other end open, and a plurality of pouch cells. The assembly 110 is accommodated therein along the longitudinal direction DL. In addition, the center bus bar frame assembly 130 is provided between the plurality of pouch cell assemblies 110, the center bus bar 140 is provided in the center bus bar frame assembly 130, and the plurality of pouch cell assemblies 110 electrically connect That is, the logical cell 100 of the present invention may mean a unit in which a plurality of pouch cells 111 or pouch cell assemblies 110 are electrically connected.

As described above, the present invention arranges the pouch cells 111 in the thickness direction (DT) to form the pouch cell assembly 110, and stores a plurality of pouch cell assemblies 110 in the longitudinal direction (DL) to By forming the logical cell 100, it is possible to improve the ease of handling of the cell compared to the pouch cell 111 inserted into a conventional secondary battery module or pack. That is, by achieving modularization of the pouch cell 111 at a stage prior to the module of the secondary battery, it can be applied to secondary battery packs of various structures and sizes.

In addition, in the process of arranging the secondary battery module inside the secondary battery pack, it can be arranged in one direction (thickness direction (DT) of the pouch cell 111 or logical cell 100), so that the isolation cover provided in the secondary battery pack And by minimizing the number of inter busbars and reducing the distance between the logical cells 100, it is possible to maximize the space utilization rate inside the secondary battery pack, ultimately optimizing the volume of the secondary battery pack and maximizing the energy density per unit volume. can do.

Hereinafter, each configuration of the logical cell 100 according to the present invention will be described in detail with reference to FIGS. 3 to 10 .

First, referring to FIGS. 3, 4 and 5, the pouch cell assembly 110 is formed by gathering a plurality of pouch cells 111, and in the present invention, preferably two pouch cells 111 are pouch cells 111 ) may be arranged side by side in the thickness direction (DT) of the thickness direction (DT), length direction (DL), and width direction (DT) to form the pouch cell assembly 110. The pouch cell 111 includes a soft pouch corresponding to an exterior material, an electrode assembly stored inside the pouch, a plurality of electrode tabs drawn out from the electrode assembly, and a lead 112 connected to the plurality of electrode tabs and protruding out of the pouch. ) may be included. Accordingly, the pouch cell assembly 110 may include a lead 112 protruding from the pouch cell 111 .

Next, in the case 120, a plurality of pouch cell assemblies 110 are accommodated therein along the longitudinal direction DL, and in the present invention, preferably two pouch cell assemblies 110 are of the pouch cell assembly 110. It may be accommodated inside along the longitudinal direction DL. In addition, one end and the other end may be formed in an open shape and covered by a front cover plate 160-1 and a rear cover plate 160-2 to be described later. As such, the logical cell 100 according to the present invention can additionally secure rigidity by being housed in the case 120 additionally provided in addition to the pouch of the pouch cell 111, thereby reducing the need to secure rigidity in the pack unit, Simplification of structure and volume can be achieved. In addition, an insulating sheet (I) is provided between the pouch cell 111 and the case 120 to achieve insulation.

Meanwhile, the case 120 may be integrally formed, but may be formed by combining the first case 121 and the second case 122 . Describing this in detail, the first case 121 may be formed in a recessed shape in which the pouch cell assembly 110 is accommodated, and the second case 122 is formed in a flat shape and is one part of the first case 121. It may be coupled with the first case 121 on the side. In this way, when the case 120 is formed in the form of including the first case 121 and the second case 122 and coupling the second case 122 to the first case 121, the logical cell 100 Ease of manufacture can be improved.

Next, the center bus bar frame assembly 130 will be described in detail with reference to FIGS. 4 and 6a, 6b and 7 . 4 is an exploded perspective view illustrating an exploded logical cell according to a first embodiment of the present invention. 6A is a perspective view illustrating a state in which a center bus bar is provided in a center bus bar frame assembly of a logical cell according to a first embodiment of the present invention. 6B is an exploded perspective view illustrating an exploded view of a center bus bar frame assembly and a center bus bar of a logical cell according to a first embodiment of the present invention. 7 is an enlarged perspective view illustrating a state in which a center bus bar frame assembly and a center bus bar are provided between a plurality of pouch cell assemblies.

As shown in FIGS. 6A and 6B , the center bus bar frame assembly 130 may include a pair of support parts 131 and a pair of center bus bar seating parts 132 .

The support part 131 may be formed as a pair to support the pouch cell assembly 110 between the pouch cell assemblies 110 (see FIG. 4 ), and the center bus bar mounting part 132 is a pair of support parts 131 ) It may be formed as a pair to be indented in a direction perpendicular to the pair of support parts 131 between them. Here, that the support parts 131 are formed as a pair may mean that the two support parts 131 are formed to face opposite directions on the same line. Also, that the center bus bar seating parts 132 are formed as a pair may mean that the two center bus bar seating parts 132 are formed to face opposite directions on the same line.

The center bus bar 140 may be provided by being inserted into the center bus bar mounting portion 132 . The center bus bar 140 is formed of a conductor to transmit electrical energy, and is provided on both sides of the center bus bar frame assembly 130 while being inserted into the center bus bar mounting portion 132. The pouch cell assembly 110 ) can be electrically connected. 7, the pouch cell assembly 110 includes a lead 112 protruding from the pouch cell 111, and the lead 112 is coupled to the center bus bar 140 by welding. Thus, the plurality of pouch cell assemblies 110 may be electrically connected.

As such, the center bus bar seating portion 132 is formed to be recessed in a direction perpendicular to the support portion 131 formed to support the pouch cell assembly 110, and the bus bar is inserted into the center bus bar seating portion 132, At the same time that the pouch cell assembly 110 is supported by the support part 131, the lead 112 formed by protruding in the longitudinal direction of the pouch cell assembly 110 is coupled to the bus bar to both sides of the center bus bar frame assembly 130. The pouch cell assembly 110 provided in can be electrically connected.

As shown in FIGS. 4, 8A, 8B and 9, the logical cell 100 according to the present invention includes a front bus bar frame assembly 150-1, a front cover plate 160-1 and a front bus bar ( 170-1) may be further included. 8A is a perspective view illustrating a state in which a front bus bar frame assembly, a front cover plate, and a front bus bar of a logical cell are coupled according to a first embodiment of the present invention. 8B is an exploded perspective view illustrating a state in which the front bus bar frame assembly, the front cover plate, and the front bus bar of the logical cell according to the first embodiment of the present invention are disassembled. 9 is a view showing a state in which the front bus bar frame assembly and the front bus bar of the logical cell according to the first embodiment of the present invention are coupled to the lead of the pouch cell assembly.

Referring to FIGS. 4 and 8A and 8B , the front bus bar frame assembly 150-1 may be an injection product coupled to the pouch cell assembly 110 on one side of the case 120. Here, one side of the case 120 may mean any one side of both sides of the case 120 in the longitudinal direction. In the front bus bar frame assembly 150-1, the front bus bar 170-1 mounting portion and the lead 112 through which the front bus bar 170-1 can be seated pass through the front bus bar 170-1. A lead through hole may be formed to be bonded with.

In addition, the front cover plate 160-1 is coupled to one side of the front bus bar frame assembly 150-1 and may cover one open end of the case 120. Here, one side of the front bus bar frame assembly 150-1 means a side opposite to the side where the front bus bar frame assembly 150-1 is coupled to the pouch cell assembly 110, and at the same time, the case 120 It may mean a direction toward the outside of . In addition, covering the open end of one side of the case 120 may mean, for example, that the end surface of the open side of the case 120 and the end surface of the case 120 are closed so that a step does not occur. It is not limited and may mean that the end of the case 120 is closed so that the pouch cell assembly 110 is not exposed to the outside of the case 120 even if a step is partially generated.

The front bus bar 170-1 is provided between the front bus bar frame assembly 150-1 and the front cover plate 160-1, and is electrically connected to the pouch cell assembly 110 to transmit output to the outside. A front bus bar 170-1 may be further included. As such, the logical cell 100 according to the present invention has the front bus bar 170-1 electrically connected to the pouch cell assembly 110 at one side of the case 120 as described above, so that the external Since output can be delivered to the module, it can be easily placed and assembled inside the module or pack.

In addition, referring to FIG. 9, as described above, the pouch cell assembly 110 includes a lead 112 protruding from the pouch cell, and the lead 112 is electrically connected to the front bus bar 170-1 by welding. It is connected and output can be delivered to the outside. That is, the leads 112 are formed on both sides of the pouch cell assembly 110, and may be electrically connected to the center bus bar and the front bus bar 170-1 by welding, respectively.

On the other hand, the front cover plate 160-1 is coupled to the lower part of one side of the front bus bar frame assembly 150-1, so that the upper part of the front bus bar 170-1 is exposed. 1) can be combined.

Referring also to FIG. 4, the side shape of one open end of the case 120 of the logical cell 100 according to the present invention is the front cover plate 160-1 and the front bus bar frame assembly 150-1 It may be formed to correspond to the shape of the coupled side.

Next, referring to FIGS. 4, 10A, and 10B, the logical cell 100 according to the present invention includes a rear bus bar frame assembly 150-2, a rear cover plate 160-2, and a rear bus bar 170-2. ) may be included. 10A is a perspective view illustrating a combination of a rear bus bar frame assembly and a rear cover plate of a logical cell according to a first embodiment of the present invention. 10B is an exploded perspective view illustrating a state in which a rear bus bar frame assembly, a rear cover plate, and a rear bus bar of a logical cell according to a first embodiment of the present invention are disassembled.

The rear bus bar frame assembly 150 - 2 may be an injection-molded product coupled to the pouch cell assembly 110 on the other side of the case 120 . Here, the other side of the case 120 may mean the other side opposite to one side of both sides of the case 120 in the longitudinal direction. In the rear bus bar frame assembly 150-2, the rear bus bar 170-2 mounting portion and the lead 112 through which the rear bus bar 170-2 can be seated pass through the rear bus bar 170-2. A through hole may be formed in the lead 112 to be bonded with.

In addition, the rear cover plate 160-2 is coupled to one side of the rear bus bar frame assembly 150-2 and may cover the open end of the other side of the case 120. One side of the rear bus bar frame assembly 150-2 means a side opposite to the side where the rear bus bar frame assembly 150-2 is coupled to the pouch cell assembly 110, and at the same time, the outer side of the case 120 can mean a direction towards . In addition, covering the end of the other side of the case 120 may mean, for example, that the end surface of the case 120 where the other side is open and the end surface of the case 120 are not matched so that a step does not occur, but is not necessarily limited thereto. Otherwise, it may mean that the end of the case 120 is closed so that the pouch cell assembly 110 is not exposed to the outside of the case 120 even if a step is partially generated.

In addition, the rear bus bar 170-2 is provided between the rear bus bar frame assembly 150-2 and the rear cover plate 160-2 and electrically connects the pouch cells 111 of the pouch cell assembly 110. can That is, the rear bus bar 170 - 2 may serve to electrically connect the pouch cells 111 of the pouch cell assembly 110 without transmitting the output of the pouch cell assembly 110 to the outside.

Meanwhile, the rear cover plate 160-2 may be coupled to one side of the rear bus bar frame assembly 150-2 to cover the entire surface of the rear bus bar 170-2. That is, the rear bus bar 170-2 located on the other side of the case 120 is provided between the rear bus bar frame assembly 150-2 and the rear cover plate 160-2, and the rear bus bar frame assembly It is not exposed to the outside by the rear cover plate 160-2 covering the entire surface of 150-2, and thus the logical cell 100 according to the present invention is provided on one side of the unidirectional case 120 The output is transferred to the outside from the front bus bar 170-1. As a result, in the logical cell 100 according to the present invention, since the output terminal by the bus bar is unified in one direction (one side of the case), it is possible to easily combine parts, connect cells to cells, and form modules.

Example 2

Embodiment 2 of the present invention is different from embodiment 1 in that it is a secondary battery module 10 including the logical cell 100 of embodiment 1. Contents common to Example 1 will be omitted as much as possible, and Example 2 will be described with a focus on differences. That is, it is obvious that the content not described in Example 2 can be regarded as the content of Example 1 when necessary.

Referring to FIG. 11 , a secondary battery module 10 according to a second embodiment of the present invention includes a logical cell 100 , a circuit board 200 and a cover member 300 . 11 is a perspective view illustrating a secondary battery module according to a second embodiment of the present invention.

First, in the secondary battery module 10 according to the present invention, the logical cell 100 is provided with a plurality of logical cells 100 and arranged to overlap in the thickness direction. Preferably, five logical cells 100 are logical cells ( 100) to form one secondary battery module 10. Here, the logical cell 100 may be understood as the same as the logical cell 100 of Example 1, and as shown in FIG. 4, a pouch cell assembly formed by arranging a plurality of pouch cells 111 in the thickness direction ( 110) and a plurality of pouch cell assemblies 110 are accommodated therein along the longitudinal direction, and a case 120 formed in an open form with one end and the other end provided between the plurality of pouch cell assemblies 110 The center bus bar 140 is provided on the center bus bar frame assembly 130 and the center bus bar frame assembly 130 and electrically connects the plurality of pouch cell assemblies 110 to each other.

The circuit board 200 is a printed circuit board (PCB) 200, electrically connecting the front bus bars 170-1 of the plurality of logical cells 100, and at the same time a component necessary for controlling the secondary battery module 10 It is integrally welded to the plurality of logical cells 100 at one side of the plurality of logical cells 100 so that they can be connected.

Also, the cover member 300 may be integrally coupled to the plurality of logical cells 100 at one side of the plurality of logical cells 100 and may be coupled to cover the circuit board 200 . The cover member 300 may be a sensing component that protects the circuit board 200 and the bus bar from external impact and performs sensing.

As described above, in the secondary battery module 10 according to the present invention, the logical cell 100 in which the pouch cell assembly 110 is accommodated along the longitudinal direction constitutes a module, so that components for connecting modules to modules when placed in a secondary battery pack can be minimized, space utilization rate inside the pack can be maximized, and energy density can be increased.

In addition, the logical cell 100 is a front bus bar frame assembly 150-1 coupled to the pouch cell assembly 110 on one side of the case 120 and one side of the front bus bar frame assembly 150-1 coupled, provided between the front cover plate 160-1 covering the open end of the case 120 and the front bus bar frame assembly 150-1 and the front cover plate 160-1, the pouch A front bus bar 170-1 electrically connected to the cell assembly 110 and transmitting an output to the outside may be further included. In this case, the circuit board 200 may be integrally welded to the front bus bar 170-1 of the plurality of logical cells 100.

As such, the logical cell 100 of the secondary battery module 10 according to the present invention includes the front bus bar 170-1 electrically connected to the pouch cell assembly 110 at one side of the case 120 as described above. By providing, since the output direction of the secondary battery module 10 is unified in one direction, it is easy to arrange and assemble inside the pack, and the structure can be simplified, so that the energy density in the secondary battery pack can be improved.

In addition, the detailed configuration of the logical cell 100 and the resulting effect, which are not separately described in the second embodiment of the present invention, can be understood as the same as the logical cell 100 of the first embodiment.

Example 3

Embodiment 3 of the present invention is different from Embodiments 1 and 2 in that it is a secondary battery pack 1 including the logical cell 100 of Embodiment 1 and the secondary battery module 10 of Embodiment 2. Contents common to Embodiments 1 and 2 will be omitted as much as possible, and Embodiment 3 will be described with a focus on differences. That is, it is obvious that the content not described in Example 3 can be regarded as the content of Embodiments 1 and 2 when necessary.

Referring to FIG. 12 , a secondary battery pack 1 according to a third embodiment of the present invention includes a pack case 20 and a secondary battery module 10 . 12 is a perspective view illustrating a secondary battery pack according to a third embodiment of the present invention.

The pack case 20 has a storage space therein, and may be formed of a material having rigidity to protect the secondary battery module 10 or the logical cell 100 stored therein from external impact. The shape and size of the pack case 20 may be variously formed as needed, but the size of the internal storage space of the pack case 20 may be formed such that the length of at least one side corresponds to the length of the secondary battery module 10. can In addition, the secondary battery module 10 is provided in the storage space of the pack case 20, and is particularly arranged in the storage space of the pack case 20 along the thickness direction of the secondary battery module 10.

Conventionally, secondary battery modules 10 are arranged in a grid pattern in the storage space inside the secondary battery pack 1, and structures for connecting modules occupy space inside the pack, but the present invention provides a plurality of logical cells 100 The secondary battery module 10 composed of is arranged in a thickness direction, which is one direction, so that the space utilization rate inside the pack can be increased and the energy density can be improved.

In addition, the detailed configuration of the logical cell 100 and the secondary battery module 10 and the effects thereof, which are not separately described in the third embodiment of the present invention, are the logical cell 100 and the secondary battery module 10 in the first and second embodiments. ) can be understood in the same way as

Although the present invention has been described above with limited examples and drawings, the present invention is not limited thereto, and is described below with the technical spirit of the present invention by those skilled in the art to which the present invention belongs. Various implementations are possible within the scope of equivalents of the claims to be made.

1: secondary battery pack
10: secondary battery module
20: pack case
100: logical cell
110: pouch cell assembly
111: pouch cell
112 lead
120: case
121: first case
122: second case
130: center busbar frame assembly
131: support
132: center bus bar seating part
140: center bus bar
150-1: Front busbar frame assembly
150-2: Rear busbar frame assembly
160-1: front cover plate
160-2: rear cover plate
170-1: front bus bar
170-2: rear bus bar
200: circuit board
300: cover member

Claims (13)

A pouch cell assembly formed by arranging a plurality of pouch cells in a thickness direction;
a case in which the plurality of pouch cell assemblies are accommodated in a longitudinal direction, and one end and the other end are formed in an open form;
a center bus bar frame assembly provided between the plurality of pouch cell assemblies; and
A logical cell including a center bus bar provided in the center bus bar frame assembly and electrically connecting the plurality of pouch cell assemblies. According to claim 1,
The center bus bar frame assembly,
a pair of support parts formed between the pouch cell assemblies to support the pouch cell assembly; and
Including a pair of center bus bar seating parts formed to be recessed in a direction perpendicular to the pair of supports between the pair of supports,
The center bus bar,
A logical cell inserted into the center bus bar mounting portion. According to claim 2,
The pouch cell assembly,
Including a lead protruding from the pouch cell,
The lead,
A logical cell coupled to the center bus bar by welding to electrically connect the plurality of pouch cell assemblies. According to claim 1,
a front bus bar frame assembly coupled to the pouch cell assembly at one side of the case;
a front cover plate coupled to one side of the front bus bar frame assembly and covering an open end of the case; and
The logical cell further comprising a front bus bar provided between the front bus bar frame assembly and the front cover plate and electrically connected to the pouch cell assembly to transmit an output to the outside. According to claim 4,
The pouch cell assembly,
Including a lead protruding from the pouch cell,
The lead,
A logical cell that is electrically connected to the front bus bar by welding and transmits an output to the outside. According to claim 4,
The front cover plate,
It is coupled to the lower part of one side of the front bus bar frame assembly,
A logical cell coupled to the front bus bar frame assembly such that an upper portion of the front bus bar is exposed. According to claim 1,
a rear bus bar frame assembly coupled to the pouch cell assembly on the other side of the case;
a rear cover plate coupled to one side of the rear bus bar frame assembly and covering the other open end of the case; and
A logical cell including a rear bus bar provided between the rear bus bar frame assembly and the rear cover plate and electrically connecting pouch cells of the pouch cell assembly. According to claim 7,
The rear cover plate,
A logical cell coupled to one side of the rear bus bar frame assembly to cover the entire surface of the rear bus bar. According to claim 1,
The case is
a first case formed in a recessed shape to accommodate the pouch cell assembly; and
A logical cell comprising a planar second case coupled to the first case at one side of the first case. According to claim 4,
The side shape of one open end of the case is,
A logical cell formed to correspond to a shape of a side surface where the front cover plate and the front bus bar frame assembly are coupled. a plurality of logical cells arranged to overlap each other in the thickness direction;
a circuit board integrally welded to the plurality of logical cells at one side of the plurality of logical cells; and
A cover member integrally coupled to the plurality of logical cells at one side of the plurality of logical cells and covering the circuit board;
The logical cell,
A pouch cell assembly formed by arranging a plurality of pouch cells in a thickness direction;
a case in which the plurality of pouch cell assemblies are accommodated in a longitudinal direction, and one end and the other end are formed in an open form;
a center bus bar frame assembly provided between the plurality of pouch cell assemblies; and
A secondary battery module comprising a center bus bar provided in the center bus bar frame assembly and electrically connecting the plurality of pouch cell assemblies. According to claim 11,
The logical cell,
a front bus bar frame assembly coupled to the pouch cell assembly at one side of the case;
a front cover plate coupled to one side of the front bus bar frame assembly and covering an open end of the case; and
A front bus bar provided between the front bus bar frame assembly and the front cover plate and electrically connected to the pouch cell assembly to transmit an output to the outside;
The circuit board,
A secondary battery module integrally welded to the front bus bar of the plurality of logical cells. A pack case provided with a storage space therein; and
It is provided in the storage space of the pack case and includes a plurality of secondary battery modules arranged along a thickness direction,
The secondary battery module,
a plurality of logical cells arranged to overlap each other in the thickness direction;
a circuit board integrally welded to the plurality of logical cells at one side of the plurality of logical cells; and
A cover member integrally coupled to the plurality of logical cells at one side of the plurality of logical cells and covering the circuit board;
The logical cell,
A pouch cell assembly formed by arranging a plurality of pouch cells in a thickness direction;
a case in which the plurality of pouch cell assemblies are accommodated in a longitudinal direction, and one end and the other end are formed in an open form;
a center bus bar frame assembly provided between the plurality of pouch cell assemblies; and
A secondary battery pack comprising a center bus bar provided in the center bus bar frame assembly and electrically connecting the plurality of pouch cell assemblies.

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