KR20230144475A - Secondary battery module, secondary battery pack including the same, and secondary battery module inspection device for inspecting the same - Google Patents

Abstract

The present invention relates to a secondary battery module, a secondary battery pack containing the same, and a secondary battery module inspection device for inspecting the same. More specifically, the present invention relates to a secondary battery module containing a plurality of secondary batteries, a secondary battery pack containing the same, and a secondary battery module inspection device for inspecting the same. This relates to a secondary battery module inspection device.
The present invention includes a plurality of secondary batteries arranged in parallel; and a plurality of buffer pads disposed adjacent to the secondary batteries along the arrangement direction of the plurality of secondary batteries; A secondary battery module is provided in which the plurality of buffer pads are provided in plural numbers to have different thicknesses, and are selectively inserted according to the thickness of the neighboring secondary batteries.

Description

Secondary battery module, secondary battery pack including the same, and secondary battery module inspection device for inspecting the same}

The present invention relates to a secondary battery module, a secondary battery pack containing the same, and a secondary battery module inspection device for inspecting the same. More specifically, the present invention relates to a secondary battery module containing a plurality of secondary batteries, a secondary battery pack containing the same, and a secondary battery module inspection device for inspecting the same. This relates to a secondary battery module inspection device.

Recently, secondary batteries have been attracting attention as a power source for electric vehicles (EV) and hybrid electric vehicles (HEV), which are being proposed as a solution to air pollution from existing gasoline and diesel vehicles that use fossil fuels.

While one or two or three or four secondary batteries are used in small mobile devices, medium-to-large devices such as electric vehicles require high output and large capacity, and battery modules that electrically connect multiple secondary battery cells or multiple battery modules are electrically connected to each other. Use the connected battery pack.

As an example, a battery module includes a secondary battery assembly, which is a collection of secondary batteries, a bus bar (or metal plate) for connecting secondary batteries in series and/or parallel, a sensing assembly for voltage and temperature sensing, and electrical components for charge and discharge control. and a module housing for storing them. One of the most popular secondary batteries among the currently commercialized secondary batteries is the lithium secondary battery. Lithium secondary batteries can be classified into can-type and pouch-type depending on the type of exterior material. Among these, pouch-type secondary batteries are widely used in medium to large-sized battery modules due to their advantages of high energy density and ease of stacking.

However, pouch-type secondary batteries are generally prepared with an electrode assembly built into an aluminum laminate sheet, so they have the advantage of high energy density compared to their small size and weight, but have the disadvantage of weak mechanical rigidity. In particular, in the case of pouch-type secondary batteries, the electrode may become thick during repeated charging and discharging, or the internal electrolyte may decompose due to side reactions and gas may be generated. At this time, the phenomenon in which the pouch-type secondary battery swells due to electrode expansion and/or generated gas is called the 'swelling phenomenon'. For reference, the swelling phenomenon is largely due to factors related to electrode expansion during charging and discharging.

If the swelling phenomenon intensifies in such a pouch-type secondary battery, not only may the performance of the secondary battery module deteriorate, but it may also change the appearance of the module housing, which may adversely affect the structural stability of the secondary battery module. Accordingly, as one of the swelling prevention technologies, a technology that distributes the expansion force and compensates for the increase in the thickness of the secondary battery by adding a buffer pad between the secondary batteries or between the secondary battery and the housing is being applied.

Specifically, the buffer pad is a foam material with a predetermined thickness, which is placed in contact with one side of the secondary battery, absorbs the expansion force of the secondary battery, and is compressed to prevent shock between secondary batteries.

However, in the case of the prior art, there was a problem in that the buffer pads applied to the secondary battery module had a uniform thickness without considering the thickness of the secondary battery, so they could not flexibly respond to the swelling of the secondary battery. In particular, when a thick secondary battery is applied to a secondary battery module, there is a problem that the module mechanism is damaged due to insufficient space inside the module even if the buffer pad is compressed to the maximum.

Accordingly, there is a need to develop technology to solve the above problems.

The present invention was developed to solve the above problems, and the object of the present invention is to provide a secondary battery module equipped with pads of various thicknesses that can flexibly respond to secondary battery swelling.

The present invention includes a plurality of secondary batteries arranged in parallel; and a plurality of buffer pads disposed adjacent to the secondary batteries along the arrangement direction of the plurality of secondary batteries; The plurality of buffer pads are provided in plural numbers with different thicknesses, and are selectively inserted according to the thickness of neighboring secondary batteries.

Some of the plurality of buffer pads may have a different thickness from the remaining buffer pads.

Some of the plurality of secondary batteries may have a thickness different from the remaining secondary batteries.

The buffer pad may be selectively arranged according to thickness corresponding to the thickness of the neighboring secondary battery.

The buffer pad is located between the plurality of secondary batteries; The buffer pad may be selectively arranged according to thickness by comparing the sum of the thicknesses of the neighboring secondary batteries with a preset value.

The plurality of buffer pads may include at least one first buffer pad having a first thickness; and

It may include at least one second cushioning pad having a second thickness thinner than the first thickness.

When the thickness of the secondary battery is relatively thicker than other secondary batteries, the second buffer pad is disposed adjacent to the secondary battery which is relatively thicker than the other secondary batteries, and when the thickness of the secondary battery is relatively thinner than the other secondary batteries, the first buffer pad is disposed adjacent to the secondary battery which is relatively thicker than the other secondary batteries. The buffer pad may be placed adjacent to a secondary battery that is relatively thinner than other secondary batteries.

The first thickness may be between 1 mm and 2 mm.

The second thickness may be between 0.1 mm and 1 mm.

The material of the buffer pad may be any one of polyurethane (PU), silicone, airgel, polyurethane + mica (Mica) composite material, silicon + mica (Mica) composite material, and airgel + mica (Mica) composite material. there is.

The plurality of buffer pads may have different colors depending on their thickness.

Meanwhile, the secondary battery module according to the present invention further includes a housing having an accommodating space therein; The plurality of secondary batteries and the plurality of buffer pads may be accommodated in the accommodation space.

In addition, the secondary battery module according to the present invention may further include a cooling plate provided between the plurality of secondary batteries in the accommodation space to cool heat emitted from the secondary batteries.

Meanwhile, the present invention may be a secondary battery pack including a plurality of secondary battery modules arranged in a stack, where the secondary battery modules include a plurality of secondary batteries arranged in parallel; and a plurality of buffer pads disposed adjacent to the secondary batteries along the arrangement direction of the plurality of secondary batteries; The plurality of buffer pads are provided in plural numbers with different thicknesses, and are selectively inserted according to the thickness of the neighboring secondary battery.

Some of the plurality of buffer pads may have a different thickness from the remaining buffer pads.

In addition, the present invention includes a plurality of secondary batteries arranged in parallel, and a plurality of buffer pads inserted adjacent to the secondary batteries along the arrangement direction of the plurality of secondary batteries, wherein the plurality of buffer pads have different elasticities. It is provided in plural pieces and may be selectively inserted depending on the thickness of the neighboring secondary battery.

Some of the plurality of buffer pads may have a different elasticity than the remaining buffer pads.

Some of the plurality of secondary batteries may have a thickness different from the remaining secondary batteries.

Buffer pads may be selectively arranged according to elasticity corresponding to the thickness of neighboring secondary batteries.

The buffer pad is located between a plurality of secondary batteries, and the buffer pad can be selectively arranged according to elasticity by comparing the sum of the thicknesses of neighboring secondary batteries with a preset value.

The plurality of cushioning pads may include at least one first cushioning pad having a first elasticity, and at least one second cushioning pad having a second elasticity less than the first elasticity.

When the thickness of the secondary battery is relatively thicker than other secondary batteries, the second buffer pad is disposed adjacent to the secondary battery which is relatively thicker than the other secondary batteries, and when the thickness of the secondary battery is relatively thinner than the other secondary batteries, the first buffer pad is disposed adjacent to the secondary battery which is relatively thicker than the other secondary batteries. The buffer pad may be placed adjacent to a secondary battery that is relatively thinner than other secondary batteries.

The plurality of cushioning pads may have different colors depending on their elasticity.

The present invention provides buffer pads of various thicknesses in a secondary battery module, which has the effect of preventing damage to the module mechanism while flexibly compensating for space when the secondary battery expands due to a swelling phenomenon.

In addition, the present invention sets the buffer pad to a different color according to thickness, so that it can be detected by thickness through a color sensor, thereby quickly and accurately detecting assembly defects when buffer pads of different thickness are incorrectly assembled in a secondary battery module. There is a detectable effect.

Figure 1 is a front view showing a typical pouch-type secondary battery.
Figure 2 is a cross-sectional view showing a cross-section in the XY plane of the secondary battery module according to Example 1 of the present invention.
FIG. 3 is a cross-sectional view showing a cross-section of the secondary battery module of FIG. 2 in the YZ plane.
Figure 4 is a conceptual diagram showing the secondary battery module inspection device according to Example 2 of the present invention inspecting the secondary battery module.

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

In order to clearly explain the present invention, detailed descriptions of parts unrelated to the description or related known technologies that may unnecessarily obscure the gist of the present invention have been omitted, and reference signs are added to components in each drawing in this specification. In this regard, identical or similar reference signs are used to designate identical or similar components throughout the specification.

In addition, terms or words used in this specification and claims should not be construed as limited to their usual or dictionary meanings, and the inventor may appropriately define the concept of terms in order to explain his or her invention in the best way. It must be interpreted with meaning and concept consistent with the technical idea of the present invention based on the principle that it can be done.

Secondary battery module

The present invention includes a plurality of secondary batteries 200 arranged in parallel; and a plurality of buffer pads 300 disposed adjacent to the secondary batteries 200 along the arrangement direction of the plurality of secondary batteries 200; The plurality of buffer pads 300 may be provided in plural numbers so that they have different thicknesses. And the plurality of buffer pads 300 are selectively inserted according to the thickness of the neighboring secondary battery.

Some of the plurality of buffer pads 300 may be provided with secondary battery modules 10 having a thickness different from that of the remaining buffer pads 300.

That is, in the present invention, the plurality of buffer pads 300 are prepared in three or more types with different thicknesses, and can be selectively inserted (or placed) into a buffer pad of an appropriate thickness among them according to the thickness of the secondary battery. Alternatively, the plurality of buffer pads 300 may be provided in two types with different thicknesses and inserted into the buffer pads with an appropriate thickness according to the thickness of the secondary battery.

First, as shown in FIG. 1, the secondary battery 200 includes an electrode assembly 210 and a battery case 220 that accommodates the electrode assembly 210, and various configurations are possible.

Here, the electrode assembly 210 may have a configuration in which positive and negative electrodes and separators are alternately arranged. Specifically, the electrode assembly 210 is stacked in the following order: positive electrode current collector/positive electrode active material layer/separator/negative electrode active material layer/negative electrode current collector, so that the positive electrode active material layer on one side of the separator faces the negative electrode active material layer on the other side. You can have a structure like this. At this time, note that in FIG. 1, the electrode assembly 210 is stored inside the battery case 220 and is indicated by a dotted line.

And the battery case 220 is comprised of a storage portion 221 in which the electrode assembly 210 is accommodated, and an edge portion 222 extending along the edge of the storage portion 221. Various configurations are possible.

Here, the storage portion 221 is an area that is concavely formed to have an empty space on the battery case 220 so that the electrode assembly 210 described above can be accommodated, and is used together with the electrode assembly 210 described above. Electrolyte solution, etc. may be accommodated.

And the edge portion 222 may be an area extending along the edge of the storage portion 221 on the battery case 220 . This edge portion 222 may have a sealed structure to prevent the electrode assembly 210 stored in the storage portion 221 from being damaged by exposure to external moisture and air.

One or more electrode leads 230 may be protruding from the battery case 220 described above. For example, as shown in FIG. 1, a pair of electrode leads 230 may protrude from both ends of the battery case 220. One end of this electrode lead 230 is electrically connected to the electrode assembly 210, and the other end protrudes out of the battery case 220, so that the secondary battery 200 can be connected to another secondary battery 200 or an external electrical device. It can play the role of electrically connecting with.

Meanwhile, the plurality of secondary batteries 200 provided in one secondary battery module 10 may be provided to have the same thickness or may be provided to have different thicknesses.

For example, some of the plurality of secondary batteries 200 have a first thickness T1, as shown in FIG. 2, and others of the plurality of secondary batteries 200 have a first thickness T1. It may be provided with a thicker second thickness (T2) (T1<T2).

Here, the first thickness (T1) and the second thickness (T2) can be understood as the width of the secondary battery in the Y direction based on FIG. 2. And the first thickness (T1) and the second thickness (T2) may be set in various ways. For example, the first thickness (T1) may be set to 8 mm to 8.2 mm, and preferably 8.09 mm. . And the second thickness (T2) is set to 8.2 mm to 8.5 mm, and preferably 8.41 mm.

Meanwhile, the secondary battery 200 described above may be provided in plural numbers in the secondary battery module 10. In this case, as shown in FIG. 2, a plurality of secondary batteries 200 may be sequentially arranged in parallel along one direction (Y direction based on FIG. 2).

At this time, at least one buffer pad 300 may be arranged between the secondary batteries 200 to prevent damage between the secondary batteries 200 due to swelling of the secondary batteries 200 or external shock.

Specifically, as shown in FIG. 2, the buffer pad 300 may be arranged adjacent to the secondary batteries 200 along the arrangement direction of the plurality of secondary batteries 200 (Y direction based on FIG. 2). . In this case, the buffer pad 300 may be placed between the secondary batteries 200 or between the secondary batteries 200 and the housing 100, which will be described later.

The buffer pad 300 may be provided in various thicknesses. Specifically, the cushioning pad 300 may be provided with various thicknesses between 0.1 mm and 2 mm.

Meanwhile, a plurality of buffer pads 300 may be provided with different thicknesses in one secondary battery module 10. In this case, the buffer pad 300 occupies a certain space to fix the position of the neighboring secondary battery 200, and flexibly compensates for the space when swelling of the secondary battery 200 occurs to prevent damage to the module. It can be selectively arranged by thickness in correspondence with the thickness of the neighboring secondary battery 200.

For example, the plurality of buffer pads 300 include at least one first buffer pad 300a having a first thickness t1; and at least one second cushioning pad 300b having a second thickness t2 that is thinner than the first thickness t1.

Here, the first thickness (t1) and the second thickness (t2) can be set in various ways. For example, the first thickness t1 may be between 1 mm and 2 mm, and the second thickness t2 may be between 0.1 mm and 1 mm.

Specifically, in one secondary battery module 10, the first buffer pad 300a and the second buffer pad 300b may be selectively disposed on neighboring secondary batteries 200 according to their thickness. In more detail, when the thickness of the secondary battery 200 is relatively thicker than the other secondary batteries 200, the second buffer pad 300b is adjacent to the secondary battery 200, which is relatively thicker than the other secondary batteries 200. It can be placed like this.

In addition, when the thickness of the secondary battery 200 is relatively thinner than the other secondary batteries 200, the first buffer pad 300a is adjacent to the secondary battery 200, which is relatively thinner than the other secondary batteries 200. can be placed.

And when the one buffer pad 300 is disposed between two secondary batteries 200, the buffer pad 300 compares the sum of the thicknesses of the neighboring secondary batteries 200 with a preset value. Therefore, they may be selectively arranged according to thickness.

For example, when the preset value is 16.82mm, if the sum of the thicknesses of the neighboring secondary batteries 200 is greater than 16.82mm, a relatively thin second buffer pad 300b is inserted between the secondary batteries 200. When the sum of the thicknesses of the secondary batteries 200 is less than 16.82 mm, a relatively thick first buffer pad 300a can be placed between the secondary batteries 200.

This buffer pad 300 may have various materials. For example, the cushioning pad 300 may be made of polyurethane (PU), which has excellent vibration absorption and compression resistance. In addition, the material of the cushioning pad includes any one of polyurethane (PU), silicone, airgel, polyurethane + mica (Mica) composite, silicon + mica (Mica) composite, and airgel + mica (Mica) composite. This can be prepared.

Additionally, the plurality of buffer pads 300 may be provided to have different colors according to thickness. In this case, the buffer pad 300 can be detected by thickness by the color sensor of the secondary battery module inspection device 1000, which will be described later. A detailed explanation of this will be provided later.

Meanwhile, the secondary battery module 10 according to the present invention may further include a housing 100 with a receiving space formed therein.

Here, the housing 100 may have any structure as long as the plurality of secondary batteries 200 and the plurality of buffer pads 300 are accommodated in the receiving space.

For example, as shown in FIG. 2, when a plurality of secondary batteries 200 are stacked in one direction to form a secondary battery 200 stack, the housing 100 is stacked with the secondary batteries 200. A pair of end plates 110 located on the front or rear of the secondary battery 200 located on the outermost side of the sieve; A pair of bolt portions 120 extending along the arrangement direction of the plurality of secondary batteries 200 to couple the pair of end plates 110 to each other; And it may include a body plate 130 that is connected to an end of the end plate 110 and forms the receiving space together with the end plate 110.

Here, the end plate 110, bolt portion 120, and body plate 130 may have various shapes. For example, the body plate 130 may have a 'ㅁ' shape with a hollow formed inside.

When the housing 100 described above is provided, the cushioning pad 300 may be interposed between the end plate 110 and the secondary battery 200 stack. In this case, the buffer pad 300 can not only alleviate swelling by providing spatial compensation, but can also serve to electrically insulate the secondary battery 200 and the end plate 110. .

Meanwhile, the secondary battery module 10 according to the present invention further includes a cooling plate 400 provided between the plurality of secondary batteries 200 in the accommodation space to cool the heat emitted from the secondary batteries 200. It may also be included. This cooling plate 400 is a plate-shaped member with thermal conductivity, and has a coolant flow path formed therein, or is directly or indirectly connected to a cooling device having a coolant flow path formed therein to cool the heat emitted from the secondary battery 200. .

Accordingly, the secondary battery 200, the first buffer pad 300a, the second buffer pad 300b, and the cooling plate 400 may be alternately arranged in the receiving space of the housing 100. At this time, in Figures 2 and 3, the secondary battery 200, the first buffer pad 300a, the second buffer pad 300b, and the cooling plate 400 are not depicted around the wave-marked area, but these are omitted in the drawing representation. In other words, it can be understood that the secondary battery 200, the first buffer pad 300a, the second buffer pad 300b, and the cooling plate 400 are sequentially arranged within the internal accommodation space of the housing 100.

Additionally, the secondary battery module 10 according to the present invention may be further provided with a cartridge (not shown) in which at least one secondary battery 200 is accommodated. In this case, the secondary battery 200 may be accommodated in the cartridge and arranged along one direction in the internal receiving space of the housing 100. In this cartridge, a hollow space is formed inside to accommodate the secondary battery 200 in order to protect the edge portion 222 of the secondary battery 200 from damage while accommodating the secondary battery 200, and the edge portion includes the secondary battery 200. It may have a structure including a frame surrounding the edge of the portion 222.

Meanwhile, the present invention can be implemented in another form.

The present invention includes a plurality of secondary batteries 200 arranged in parallel; and a plurality of buffer pads 300 disposed adjacent to the secondary batteries 200 along the arrangement direction of the plurality of secondary batteries 200; The plurality of cushioning pads 300 may be provided in plural numbers so that there are different types of elasticity. And the plurality of buffer pads 300 are selectively inserted according to the thickness of the neighboring secondary battery.

Some of the plurality of buffer pads 300 may be provided with secondary battery modules 10 having different elasticity than the remaining buffer pads 300.

That is, in the present invention, the plurality of buffer pads 300 are prepared in three or more different types with different elasticities, and the buffer pads with appropriate elasticity among them are selectively inserted (or placed) according to the thickness of the secondary battery. Alternatively, a plurality of buffer pads 300 may be provided in two types with different elasticities and inserted into the buffer pads with appropriate elasticity depending on the thickness of the secondary battery.

Here, elasticity is a term that indicates the amount of elastic deformation per unit stress. High elasticity may mean that the amount of elastic deformation is small with respect to unit stress, and low elasticity may mean that the amount of elastic deformation is large with respect to unit stress. In other words, if the elasticity is high, the material may be relatively harder, and if the elasticity is low, the material may be relatively softer.

The plurality of secondary batteries 200 provided in one secondary battery module 10 may be provided to have the same thickness or may be provided to have different thicknesses. Here, a plurality of secondary batteries 200 may be provided in the secondary battery module 10.

At this time, at least one buffer pad 300 may be arranged between the secondary batteries 200 to prevent damage between the secondary batteries 200 due to swelling of the secondary batteries 200 or external shock.

Specifically, the buffer pad 300 may be arranged adjacent to the secondary batteries 200 along the arrangement direction of the plurality of secondary batteries 200. In this case, the buffer pad 300 may be placed between the secondary batteries 200 or between the secondary batteries 200 and the housing 100, which will be described later.

This buffer pad 300 may be provided with various degrees of elasticity.

A plurality of buffer pads 300 may be provided with different elasticities in one secondary battery module 10. In this case, the buffer pad 300 occupies a certain space to fix the position of the neighboring secondary battery 200, and flexibly compensates for the space when swelling of the secondary battery 200 occurs to prevent damage to the module. It can be selectively arranged according to elasticity in correspondence with the thickness of the neighboring secondary battery 200.

For example, the plurality of cushioning pads 300 may include at least one first cushioning pad having a first elasticity and at least one second cushioning pad having a second elasticity thinner than the first elasticity. You can. Here, the thickness of the plurality of buffer pads may be the same or different from each other. Here, the first elasticity and the second elasticity can be set in various ways.

Specifically, in one secondary battery module 10, the first buffer pad and the second buffer pad may be selectively arranged according to the thickness of the neighboring secondary battery 200. In more detail, when the thickness of the secondary battery 200 is relatively thicker than the other secondary batteries 200, the second buffer pad may be placed adjacent to the secondary battery 200, which is relatively thicker than the other secondary batteries 200. You can.

Additionally, when the thickness of the secondary battery 200 is relatively thinner than that of other secondary batteries 200, the first buffer pad may be placed adjacent to the secondary battery 200, which is relatively thinner than the other secondary batteries 200. there is.

And when the one buffer pad 300 is disposed between two secondary batteries 200, the buffer pad 300 compares the sum of the thicknesses of the neighboring secondary batteries 200 with a preset value. Therefore, they may be selectively arranged according to elasticity.

For example, assuming that the preset value is 16.82 mm, if the sum of the thicknesses of the neighboring secondary batteries 200 is greater than 16.82 mm, a second buffer pad with low elasticity is placed between the secondary batteries 200. If the sum of the thicknesses of the secondary batteries 200 is less than 16.82 mm, a first buffer pad with relatively high elasticity can be disposed between the secondary batteries 200.

This buffer pad 300 may have various materials. For example, it can be manufactured including any one of polyurethane (PU), silicone, airgel, polyurethane + mica (Mica) composite material, silicon + mica (Mica) composite material, and airgel + mica (Mica) composite material. there is.

Additionally, the plurality of cushioning pads 300 may be provided to have different colors according to elasticity.

Meanwhile, the secondary battery module 10 according to the present invention may further include a housing 100 with a receiving space formed therein.

Here, the housing 100 may have any structure as long as the plurality of secondary batteries 200 and the plurality of buffer pads 300 are accommodated in the receiving space.

For example, when a plurality of secondary batteries 200 are stacked in one direction to form a secondary battery 200 stack, the housing 100 is a secondary battery located at the outermost part of the secondary battery 200 stack. A pair of end plates 110 located at the front or rear of 200; A pair of bolt portions 120 extending along the arrangement direction of the plurality of secondary batteries 200 to couple the pair of end plates 110 to each other; And it may include a body plate 130 that is connected to an end of the end plate 110 and forms the receiving space together with the end plate 110.

When the housing 100 described above is provided, the cushioning pad 300 may be interposed between the end plate 110 and the secondary battery 200 stack. In this case, the buffer pad 300 can not only alleviate swelling by providing spatial compensation, but can also serve to electrically insulate the secondary battery 200 and the end plate 110.

Meanwhile, the secondary battery module 10 according to the present invention further includes a cooling plate 400 provided between the plurality of secondary batteries 200 in the accommodation space to cool the heat emitted from the secondary batteries 200. It may also be included. This cooling plate 400 is a plate-shaped member with thermal conductivity, and has a coolant flow path formed therein, or is directly or indirectly connected to a cooling device having a coolant flow path formed therein to cool the heat emitted from the secondary battery 200. .

Accordingly, the secondary battery 200, the first buffer pad, the second buffer pad, and the cooling plate 400 may be alternately arranged in the receiving space of the housing 100.

Additionally, the secondary battery module 10 according to the present invention may be further provided with a cartridge (not shown) in which at least one secondary battery 200 is accommodated. In this case, the secondary battery 200 may be accommodated in the cartridge and arranged along one direction in the internal receiving space of the housing 100. In this cartridge, a hollow space is formed inside to accommodate the secondary battery 200 in order to protect the edge portion 222 of the secondary battery 200 from damage while accommodating the secondary battery 200, and the edge portion includes the secondary battery 200. It may have a structure including a frame surrounding the edge of the portion 222.

Secondary battery pack

The present invention relates to a secondary battery 200 pack including a plurality of secondary battery modules 10 arranged in a stacked manner, wherein the secondary battery module 10 includes a plurality of secondary batteries 200 arranged in parallel; and a plurality of buffer pads 300 disposed adjacent to the secondary batteries 200 along the arrangement direction of the plurality of secondary batteries 200; The plurality of cushioning pads 300 may be provided in plural numbers to have different thicknesses. And it may be selectively inserted depending on the thickness of the neighboring secondary battery.

In addition, some of the plurality of buffer pads 300 may have a thickness different from that of the remaining buffer pads 300, thereby providing a secondary battery pack.

The secondary battery pack may include a plurality of secondary battery modules 10, a battery management system (BMS), a cooling system, a control system, etc. Here, the detailed description of the secondary battery module 10 can be replaced with the above-described content.

Secondary battery module inspection device

Meanwhile, the present invention includes a plurality of secondary batteries 200 arranged in parallel; and a secondary battery module inspection device 1000 that inspects a secondary battery module 10 including a plurality of buffer pads 300 disposed adjacent to the secondary battery 200. Here, some of the plurality of secondary batteries 200 may be provided to have a thickness different from that of the remaining secondary batteries 200.

Specifically, the secondary battery module inspection device 1000 includes a main body 1100; and an inspection unit 1200 that inspects whether the cushioning pad 300 is assembled properly; Some of the plurality of buffer pads 300 have different thicknesses and colors from the remaining buffer pads 300; The inspection unit 1200 may detect the color of the cushioning pad 300 and inspect whether the cushioning pad 300 is assembled poorly based on the sensed information.

Here, the main body 1100 may be configured to directly or indirectly support the sensing unit 1210, which will be described later, so that the sensing unit 1210 is provided at a position facing the secondary battery module 10.

The inspection unit 1200 is a component that detects the color of the cushioning pad 300 and inspects whether the cushioning pad 300 is assembled poorly based on the sensed information. Various configurations are possible.

Specifically, the inspection unit 1200 includes a detection unit 1210 that detects the color of the buffer pad 300 and the thickness data of the secondary battery 200; and a determination unit 1220 that determines whether the cushioning pad 300 is poorly assembled based on the color of the cushioning pad 300 and the thickness data of the secondary battery 200.

Specifically, the sensing unit 1210 is a component that detects the color of the buffer pad 300 and the thickness data of the secondary battery 200, and various configurations are possible.

At this time, the detection unit 1210 may include a color sensor, which is one of optical sensors, to detect the color of the buffer pad 300, and a laser displacement sensor, etc. to detect thickness data of the secondary battery 200. may include. At this time, when a barcode storing thickness data is displayed on the surface of the secondary battery 200, the detection unit 1210 may include a barcode reader that can indirectly derive the thickness data.

Meanwhile. The determination unit 1220 is a component that determines whether the cushioning pad 300 is assembled poorly based on the color of the cushioning pad 300 and the thickness data of the secondary battery 200, and various configurations are possible.

Specifically, the determination unit 1220 determines whether the buffer pad 300 is placed in an appropriate position based on the color value of the buffer pad 300 and the thickness data of the secondary battery 200 received from the detection unit 1210. can be determined.

For example, the determination unit 1220 compares the sum of the thicknesses of the one buffer pad 300 and two adjacent secondary batteries 200 with a preset value and determines the color of the buffer pad 300. It can be determined whether a buffer pad 300 of an appropriate thickness is disposed between the secondary batteries 200.

To explain in more detail with reference to the foregoing, when the preset value is 16.82 mm, if the sum of the thicknesses of the neighboring secondary batteries 200 is greater than 16.82 mm, a relatively thin second buffer pad ( 300b) should be applied between the secondary batteries 200. In this case, if the color information received from the detection unit 1210 is the same as the color information of the second buffer pad 300b, the determination unit 1220 may determine the secondary battery module 10 as a good product, and the detection unit 1220 may determine that the secondary battery module 10 is a good product. If the color information received from the unit 1210 is different from the color information of the second buffer pad 300b (i.e., if it is the color information of the first buffer pad 300a), the determination unit 1220 determines the secondary battery module. (10) can be determined as an assembly defect. And the information determined by the determination unit 1220 can be delivered to the user wired or wirelessly.

Meanwhile, the above-described secondary battery module inspection device 1000 is not only used to inspect the assembly defects of the secondary battery module 10 after the assembly of the buffer pad 300, but also to inspect the secondary battery module 10 before assembly of the buffer pad 300. Of course, it can also be used in the battery module 10 manufacturing device.

That is, in the secondary battery module inspection device 1000, the detection unit 1210 detects the thickness of the secondary battery 200 and the thickness of the buffer pad 300, compares it with a preset thickness value, and installs an appropriate buffer pad 300 on the secondary battery. It may also be used to assemble between cells 200.

Although the present invention has been described above with limited examples and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following description will be provided by those skilled in the art in the technical field to which the present invention pertains. Various implementations are possible within the scope of equivalence of the claims.

10: Secondary battery module
100: housing
110 end plate
120: bolt part
130: body plate
200: Secondary battery
210: Electrode assembly
220: Battery case
221: Storage unit
222: Edge part
230: electrode lead
300: Shock pad
300a: first buffer pad
300b: second buffer pad
400: cooling plate
1000: Secondary battery module inspection device
1100: body
1200: Inspection Department
1210: detection unit
1220: Determination unit
T1: first thickness
T2: second thickness
t1: first thickness
t2: second thickness

Claims (22)

A plurality of secondary batteries arranged in parallel; and
It includes a plurality of buffer pads inserted adjacent to the secondary batteries along the arrangement direction of the plurality of secondary batteries;
The plurality of buffer pads are,
It is provided in plural pieces so that there are different types of thickness,
A secondary battery module characterized in that it is selectively inserted according to the thickness of the neighboring secondary battery. In claim 1,
A secondary battery module in which some of the plurality of buffer pads have a thickness different from the remaining buffer pads. In claim 1,
A secondary battery module in which some of the plurality of secondary batteries have a thickness different from that of the remaining secondary batteries. In claim 3,
The buffer pad is a secondary battery module in which the buffer pad is selectively arranged by thickness to correspond to the thickness of the neighboring secondary battery. In claim 3,
The buffer pad is located between the plurality of secondary batteries;
The buffer pad is a secondary battery module that is selectively arranged according to thickness by comparing the sum of the thicknesses of the neighboring secondary batteries with a preset value. In claim 1,
A plurality of buffer pads,
at least one first cushioning pad having a first thickness; and
A secondary battery module including at least one second buffer pad having a second thickness thinner than the first thickness. In claim 6,
When the thickness of the secondary battery is relatively thicker than other secondary batteries, the second buffer pad is disposed adjacent to the secondary battery that is relatively thicker than the other secondary batteries,
When the thickness of the secondary battery is relatively thinner than other secondary batteries, a secondary battery module in which the first buffer pad is disposed adjacent to the secondary battery that is relatively thinner than the other secondary batteries. In claim 6,
The first thickness is a secondary battery module between 1mm and 2mm. In claim 6,
The secondary battery module has a second thickness of between 0.1mm and 1mm. In claim 1,
The material of the buffer pad includes any one of polyurethane (PU), silicone, airgel, polyurethane + mica (Mica) composite material, silicon + mica (Mica) composite material, and airgel + mica (Mica) composite material. secondary battery module. In claim 1,
The plurality of buffer pads are secondary battery modules having different colors according to thickness. In claim 1,
It further includes a housing having a receiving space therein;
A secondary battery module in which the plurality of secondary batteries and the plurality of buffer pads are accommodated in the receiving space. In claim 12,
A secondary battery module further comprising a cooling plate provided between the plurality of secondary batteries in the accommodation space to cool heat emitted from the secondary batteries. In the secondary battery pack including a plurality of secondary battery modules arranged in a stack,
The secondary battery module,
A plurality of secondary batteries arranged in parallel; and
It includes a plurality of buffer pads disposed adjacent to the secondary batteries along an arrangement direction of the plurality of secondary batteries;
The plurality of buffer pads are
It is provided in plural pieces so that there are different types of thickness,
A secondary battery pack, characterized in that the secondary battery pack is selectively inserted according to the thickness of the neighboring secondary battery.
A plurality of secondary batteries arranged in parallel; and
It includes a plurality of buffer pads inserted adjacent to the secondary batteries along the arrangement direction of the plurality of secondary batteries;
The plurality of buffer pads are,
It is provided in plural pieces so that there are different types of elasticity,
A secondary battery module characterized in that it is selectively inserted according to the thickness of the neighboring secondary battery. In claim 15,
A secondary battery module in which some of the plurality of buffer pads have a different elasticity from the remaining buffer pads. In claim 15,
A secondary battery module in which some of the plurality of secondary batteries have a thickness different from that of the remaining secondary batteries. In claim 17,
The buffer pad is a secondary battery module in which the buffer pad is selectively arranged according to elasticity corresponding to the thickness of the neighboring secondary battery. In claim 17,
The buffer pad is located between the plurality of secondary batteries;
The buffer pad is a secondary battery module that is selectively arranged according to elasticity by comparing the sum of the thicknesses of the neighboring secondary batteries with a preset value. In claim 15,
A plurality of buffer pads,
At least one first cushioning pad having a first elasticity; and
A secondary battery module comprising at least one second buffer pad having a second elasticity that is smaller than the first elasticity. In claim 20,
When the thickness of the secondary battery is relatively thicker than other secondary batteries, the second buffer pad is disposed adjacent to the secondary battery that is relatively thicker than the other secondary batteries,
When the thickness of the secondary battery is relatively thinner than other secondary batteries, a secondary battery module in which the first buffer pad is disposed adjacent to the secondary battery that is relatively thinner than the other secondary batteries. In claim 15,
The plurality of buffer pads are secondary battery modules having different colors according to elasticity.

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