KR102006899B1 - Method for Manufacturing Battery Pack Comprising Protect Assembly Having Safety Element for Protection against Overheating - Google Patents

Abstract

The present invention is a method of manufacturing a battery pack comprising a plate-shaped battery cell in which the electrode assembly is accommodated and then sealed to form a sealing excess and a protection element for preventing overheating of the battery cell.
(a) attaching an insulating tape to an upper surface of a sealing surplus of a battery case in which a positive electrode lead and a negative electrode lead are formed;
(b) electrically connecting one side of the protection assembly including one or more high temperature blocking elements to prevent overheating with one of the positive and negative electrode leads;
(c) binding said protective assembly onto an insulating tape of an excess of sealing; And
(d) covering the protective assembly entirely with a cover tape and fixing it to a sealing excess;
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It provides a manufacturing method characterized in that the double-sided adhesive tape is attached to one surface of the protective assembly in order to bind the protective assembly to the sealing excess.

Description

Method for Manufacturing Battery Pack Comprising Protect Assembly Having Safety Element for Protection against Overheating}

The present invention relates to a method of manufacturing a battery pack comprising an assembly comprising a protection element for preventing overheating.

Recently, the increase in the price of energy sources due to the depletion of fossil fuels, interest in environmental pollution is amplified, and the demand for environmentally friendly alternative energy sources has become an indispensable factor for future life. Various researches on power generation technologies such as nuclear power, solar power, wind power, and tidal power have been continuing, and electric power storage devices for more efficient use of such generated energy have also been attracting much attention.

In particular, as technology development and demand for mobile devices increase, the demand for batteries as energy sources is rapidly increasing, and in recent years, the use of secondary batteries as power sources for electric vehicles (EVs) and hybrid electric vehicles (HEVs) has been realized. In addition, the field of use has also been extended to applications such as a power auxiliary power supply through gridization, and thus, many studies on batteries capable of meeting various needs have been conducted.

Typically, in terms of the shape of a battery, there is a high demand for a prismatic secondary battery and a pouch-type secondary battery which can be applied to products such as mobile phones with a small thickness, and has advantages such as high energy density, discharge voltage, There is a high demand for lithium secondary batteries such as lithium ion batteries and lithium ion polymer batteries.

Among these, pouch-type batteries have recently attracted a lot of attention due to their advantages such as low weight, low manufacturing cost, and easy shape deformation because they use an aluminum laminate sheet as an exterior member.

1 is an exploded perspective view schematically showing a general structure of a conventional representative pouch type secondary battery.

Referring to FIG. 1, the pouch type secondary battery 10 includes two stacked electrode assemblies 20 having a plurality of electrode tabs 21 and 22 protruding therefrom, and two electrode tabs 21 and 22 respectively connected to the electrode tabs 21 and 22. Electrode lead 30, 31, and a part of the electrode lead (30, 31) is configured to include a battery case 40 of a structure for receiving and sealing the stacked electrode assembly 20 so as to be exposed to the outside.

The battery case 40 includes a lower case 42 including a concave shaped storage portion 41 on which the stacked electrode assembly 20 can be placed and a stacked electrode assembly 20 And an upper case 43 for sealing the upper case 43. The upper case 43 and the lower case 42 are heat-sealed in a state where the stacked electrode assembly 20 is embedded to form a sealing part (not shown) along the outer circumferential surface of the battery case.

On the other hand, such a pouch-type secondary battery generates a large amount of heat during the charge and discharge process. In particular, the laminate sheet of the pouch-type battery widely used in the battery module is coated with a low thermal conductivity polymer material, it is difficult to effectively cool the temperature of the entire battery cell.

In other words, if the heat of the battery module generated in the charging and discharging process is not effectively removed, thermal accumulation occurs and consequently promotes deterioration of the battery module, and in some cases may cause fire or explosion.

Therefore, in the pouch type secondary battery of the prior art, a protection circuit module is used to prevent overcharge, overdischarge, overcurrent, and the like. In addition, in order to increase the temperature detection performance of the secondary battery, a technique in which a resistor element including a positive temperature coefficient is installed in the battery case is used.

Here, the resistor element blocks the electrical connection between the electrode lead and the protection circuit module when the temperature of the secondary battery reaches the set value, and restores the electrical connection between the positive lead and the protection circuit module when the temperature of the secondary battery falls below the set value. Perform the function.

In addition, in the prior art, various types of coupling structures have been developed in order to install a configuration including a protection element such as a resistor element on an outer surface of a battery cell.

However, according to the size and shape of the safety device, the coupling member for attaching to the outer surface of the battery case also needs to be formed in various structures, there is a hassle of frequent design changes of the coupling member according to the various types of safety device.

In addition, since the safety device must be electrically connected to the electrode lead and the protection circuit module, it is required to install the components at precise positions and precise positions between the two components in order to prevent the occurrence of an internal short circuit due to a poor connection between the components. However, when the safety device is electrically connected to the electrode lead first, and then the safety device is fastened to the battery case of the pouch type secondary battery, a set binding position and an error occur, which makes it difficult to assemble precisely and decreases the process efficiency. there was.

Therefore, there is a high need for a technique capable of fundamentally solving such problems.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-described problems of the prior art and the technical problems required from the past.

After extensive research and various experiments, the inventors of the present application have a double-sided adhesive tape attached to one surface of a protective assembly in the process of binding the protective assembly on an insulating tape of a surplus sealing as described later. It is not necessary to change the design of the coupling member for the protection assembly according to the change of the other type of safety element, and it is possible to fix the protection assembly in place on the outer surface of the battery case to reduce the distance error between the electrode lead and the protection circuit module, and It was confirmed that the efficiency of the process can be improved and the defect rate can be drastically reduced, and the present invention has been completed.

Method for manufacturing a battery pack according to the present invention for achieving the above object,

A method of manufacturing a battery pack including a plate-shaped battery cell in which an electrode assembly is accommodated and then sealed to form a sealing surplus, and a protection device for preventing overheating of the battery cell.

(a) attaching an insulating tape to an upper surface of a sealing surplus of a battery case in which a positive electrode lead and a negative electrode lead are formed;

(b) electrically connecting one side of the protection assembly including one or more high temperature blocking elements to prevent overheating with one of the positive and negative electrode leads;

(c) binding said protective assembly onto an insulating tape of an excess of sealing; And

(d) covering the protective assembly entirely with a cover tape and fixing it to a sealing excess;

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A double-sided adhesive tape is attached to one surface of the protection assembly in order to bind the protection assembly to the sealing excess.

However, the present invention is not necessarily limited to the sequential steps of the processes (a) to (d), and the process (c) may be performed before the process (b), and such a manufacturing method is also described. It may be included in the scope of the invention.

Therefore, in the method for manufacturing a battery pack according to the present invention, by attaching a double-sided adhesive tape on one surface of the protective assembly, the protective assembly is placed on the insulating tape of the sealing surplus of the plate-shaped battery cell every time a different type of safety element is applied. Eliminates the need to change the design of the coupling member for the binding process, and also allows the protection assembly to be fixed in place on the outer surface of the battery case, reducing the distance error between the electrode lead and the protection circuit module and improving the efficiency of the manufacturing process. It is effective to increase and significantly reduce the defective rate.

In addition, the protective assembly of the present invention can be fixed to the outer surface of the protective assembly by the cover tape in order to more firmly fixed to the outer surface of the battery case and to achieve a complete sealing with the outside.

In one specific example, the plate-shaped battery cell may be made of a structure in which the electrode assembly is sealed in a pouch-type battery case of a laminate sheet including a resin layer and a metal layer, the electrode assembly, one or more positive electrodes, one or more negative electrodes And a separator interposed between the positive electrode and the negative electrode, and may be sealed inside the battery case together with the electrolyte.

In addition, the sealing surplus portion may be an upper sealing part formed by heat sealing of the battery case.

In one specific example, the protection assembly includes a lead coupling portion for electrically connecting the electrode lead and the protection element, an element portion including the protection element, and a connection plate for electrically connecting the protection circuit module. You may be doing

In one specific example, the element portion of the protective assembly includes a body of a thin rectangular parallelepiped structure, one end of the body is formed extending the lead coupling portion of the strip form, the other end of the body of the strip-shaped connection The plate may be extended.

In one specific example, the double-sided adhesive tape may be a structure attached to one side of the element portion between the lead coupling portion and the connection plate, by limiting the adhesive portion to the element portion, reducing the manufacturing cost while the element is the outer surface of the battery cell By binding to, the appropriate level of protection can be achieved.

Specifically, the double-sided adhesive tape may be attached in a size corresponding to the width and / or width on the plane of the main body of the protective element, more specifically, the width of the double-sided adhesive tape is 2 mm to 10 mm, The width of the double-sided adhesive tape can be 5 mm to 35 mm.

In one specific example, the double-sided adhesive tape may have a structure in which an adhesive layer is coated on both sides of the film substrate of the polymer resin.

On the other hand, when the double-sided tape is added in close proximity to the lead coupling portion of the protective assembly welded with the electrode lead, the heat deformation or adhesion of the double-sided tape may be degraded due to high heat during welding of the lead coupling portion and the electrode lead.

Therefore, in the manufacturing method according to the present invention, a release paper including a heat insulating material may be further added to one surface of the double-sided adhesive tape facing the insulating tape of the excess sealing portion, and the release paper is welded to the lead coupling portion and the electrode lead. Due to high heat can be blocked, it is possible to prevent the phenomenon that the heat deformation to the adhesive strength of the double-sided adhesive tape falls.

In one specific example, the polymer resin film may be a polycarbonate (PC) tape, a nomex tape, a polypropylene tape, a polyethylene tape, or a polyethylene terephthalate tape.

In addition, the protection element may be at least one selected from the group consisting of a PTC element (positive temperature coefficient element), a fuse and a thermal cutoff element, more specifically, the protection element is a TCO element and PTC Device, or TCO device.

Here, the TCO element cuts off the electrical connection between the electrode lead and the protection circuit module when the temperature of the battery exceeds the set value, and restores the electrical connection between the electrode lead and the protection circuit module when the temperature of the battery falls below the set value. It performs the function.

In addition, the connection plate may have a structure extending vertically from the element portion in a plane. That is, the overall protection assembly may have an 'L' shape or the like, but is not necessarily limited to such a shape, it can be manufactured in various shapes according to the position of the electrode lead and the protection circuit module.

In addition, the protection assembly may be made of a material that can be deformed by appropriately bent in accordance with the position of the electrode lead and the protection circuit module, for example, the lead coupling portion or the connection plate on the plane of the body of the element portion It may be a structure that is bent vertically to the.

In one specific example, the lead coupling portion may be connected to the electrode lead by welding, the electrode lead may be an anode lead, the welding may be used in a variety of ways, for example, the welding spot welding spot welding, laser welding or ultrasonic welding, but are not necessarily limited to these methods.

The manufacturing method may further include bending the electrode lead at least once in a state in which the lead coupling part is connected to the electrode lead, thereby forming a shape in which the connection plate protrudes in parallel with the protruding direction of the remaining electrode leads. . By using the structure of the protective assembly, the connection plate can make an electrical connection with the protective circuit module in place of the lead lead and the electrode lead welded.

In addition, the manufacturing method according to the present invention further includes a step of vertical bending after the step (d) in a state in which the protective assembly is bound to the outer surface of the sealing surplus portion to face one sidewall of the electrode assembly accommodating portion. can do.

By the above structure, dead space that can be generated due to the empty space on the upper part of the sealing surplus at the top of the battery cell is reduced, and the battery can be designed with a larger capacity than the existing volume, thereby increasing energy density. have.

The present invention also provides a battery pack, characterized in that produced by the above production method.

The present invention also provides a device including the battery pack as a power source. Specifically, the device may include, for example, a mobile phone, a portable computer, a wearable electronic device, a tablet PC, a smart pad, a netbook, a light electronic vehicle (LEV), an electric vehicle, a hybrid electric vehicle, a plug-in hybrid electric vehicle, and It may be selected from the group consisting of a power storage device.

The structure and manufacturing method of such a device are well known in the art, so a detailed description thereof will be omitted herein.

As described above, in the method for manufacturing a battery pack according to the present invention, by attaching a double-sided adhesive tape to one surface of the protection assembly, the protection assembly is insulated from the excess of the sealing excess of the plate-shaped battery cell every time a different type of safety device is applied. Eliminates the need to change the design of the coupling member for binding on the tape, and also allows the protection assembly to be fixed in place on the outer surface of the battery case to reduce the distance error between the electrode lead and the protection circuit module. It has the effect of increasing the efficiency and reducing the defective rate significantly.

1 is an exploded perspective view showing a general structure of a typical representative pouch type secondary battery;
2 is a flowchart illustrating a method of manufacturing a battery pack according to an embodiment of the present invention;
3 is a schematic perspective view of a battery pack according to an embodiment of the present invention;
4 is a schematic perspective view of a plate-shaped battery cell according to an embodiment of the present invention;
5 is a schematic plan view of a protective assembly according to one embodiment of the present invention;
6 and 7 are schematic plan views showing a part of a battery pack to explain a method of manufacturing a battery pack according to an embodiment of the present invention;
8 and 9 are schematic plan views showing a part of a battery pack for explaining a method of manufacturing a battery pack according to an embodiment of the present invention;
10 is a schematic cross-sectional view showing a part of a double-sided adhesive tape according to one embodiment of the present invention;
11 is a schematic side view of a battery cell provided with a protection assembly according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, but the present invention is not limited by the scope of the present invention.

2 is a flow chart showing a method of manufacturing a battery pack according to an embodiment of the present invention, Figure 3 is a perspective view of a battery pack according to an embodiment of the present invention is shown schematically, Figure 4 schematically illustrates a perspective view of a battery cell according to an embodiment of the present invention.

2 to 4 together, the method 600 of manufacturing the battery pack of the present invention, the plate-shaped battery is formed by sealing the sealing portion 112 is formed after the electrode assembly (not shown) is accommodated A method 600 of manufacturing a battery pack 500 including a protection element (not shown) for preventing overheating of the cell 110 and the battery cell 110 is provided. Here, the sealing surplus portion 112 is an upper sealing portion formed by heat fusion sealing of the battery case 115.

5 is a schematic plan view of a protective assembly according to one embodiment of the present invention.

Referring to FIG. 4 together with FIG. 4, the protection assembly 200 includes a lead coupling portion 230 and a protection element 210 for electrically connecting the anode lead 130 and the protection element 210. The device unit 220 and a connection plate 240 for electrically connecting the protection circuit module (not shown) are included.

In addition, the device unit 220 of the protection assembly 200 includes a main body 222 of a thin rectangular parallelepiped structure, and one side end of the main body 222 is formed by extending the lead coupling portion 230 in a strip shape. At the other end of the main body 222, a strip-shaped connection plate 240 extends.

In addition, the connection plate 240 is formed in a structure extending vertically from the element portion 220 in a plane. Thus, the protective assembly 200 is the overall shape of the 'L' shape. Here, the protection element 210 used a TCO element.

6 and 7 are plan views schematically showing a part of a battery pack to explain a method of manufacturing a battery pack according to an embodiment of the present invention.

First, referring to FIGS. 2 and 6, the insulating tape 300 is attached to an upper surface of the sealing surplus portion 112 of the battery case 115 in which the positive lead 130 and the negative lead 131 are formed. Process (a) 610 is performed.

2 and 7, a process of electrically connecting the lead coupling portion 230 of the protection assembly 200 including the high temperature blocking element 210 to prevent overheating to the anode lead 130. (b) 620 is performed.

At this time, the lead coupling portion 230 is connected to the anode lead 130 by ultrasonic welding.

In addition, a double-sided adhesive tape 310 is added to one surface of the protection assembly 200 to bind the protection assembly 200 to the sealing surplus portion 112.

The double-sided adhesive tape 310 is a structure that is attached to one surface of the element portion 220 between the lead coupling portion 230 and the connection plate 240, the adhesive portion is added to the portion corresponding to the element portion 220 As it is, the protection assembly 200 performs an appropriate level of protection while binding to the outer surface of the battery cell 110 while reducing the manufacturing cost.

That is, the double-sided adhesive tape 310 is attached in a size corresponding to the width D of the plane of the main body 222 of the protective element 210, the width (D) of the double-sided adhesive tape 310 is 2 mm to 10 mm, and the width W of the double-sided adhesive tape 310 is 5 mm to 35 mm.

10 is a sectional view schematically showing a part of the double-sided adhesive tape according to one embodiment of the present invention.

Referring to FIG. 7 and FIG. 10, the double-sided adhesive tape 310 is coated with adhesive layers 311 and 312 on both sides of the film substrate 314 of the polymer resin, and the insulating tape of the sealing surplus portion 112 is formed. Release paper 315 including an insulating material is added to one surface of the double-sided adhesive tape 310 to face, such release paper 315 can block the high temperature due to the welding of the lead coupling portion 230 and the electrode lead, both sides It is possible to prevent the phenomenon that the thermal deformation or the adhesion of the adhesive tape 310 falls.

In addition, a heat shielding film was used as the heat insulating material, and a polypropylene (PP) tape was used as the film of the polymer resin.

8 and 9 are plan views schematically showing a part of a battery pack to explain a method of manufacturing a battery pack according to an embodiment of the present invention.

Referring to FIG. 2 together with FIG. 2, a process (c) 630 of binding the protective assembly 200 on the insulating tape 300 of the sealing excess portion 112 is performed.

Referring back to FIGS. 10 and 8, after the release paper 315 is detached from the double-sided adhesive tape 310 on one surface of the protective assembly 200, the double-sided adhesive tape 310 is insulated on the sealing excess 112. By attaching the tape 300 to the top surface, the protection assembly 200 is bound to the battery cell 110.

In addition, during the process (c), the positive lead 130 is bent at least one or more times in a state in which the lead coupling part 230 is connected to the positive lead 130, so that the connection plate 240 has the remaining positive lead 130. It forms a shape protruding upward in parallel with the protruding direction of.

By using the structure of the protection assembly 200, the connection plate 240 may make an electrical connection with a protection circuit module (not shown) in place of the lead coupling portion 230 and the anode lead 130 welded thereto. .

Referring to FIG. 9 along with FIG. 2, a process (d) 640 of covering the protection assembly 200 entirely with the cover tape 310 and fixing the sealing assembly 112 to the sealing excess part 112 is performed.

Therefore, the protection assembly 200 of the present invention is firmly fixed to the outer surface of the battery case 115 and the protection element (not shown) in order to achieve a complete sealing with the outside, the protection assembly 200 by the cover tape 310 Can be fixed by covering the outer surface of the).

11 is a schematic side view of a battery cell in which a protective assembly according to another embodiment of the present invention is installed.

Referring to FIG. 2 together with FIG. 2, the manufacturing method 600 according to the present invention may be sealed after the protection assembly 200 is bound to the sealing surplus portion 112 after the process (d) 640. A process 650 of bending the excess portion 112 vertically to face one sidewall 153 of the electrode assembly accommodating part 152 is further performed.

Therefore, dead space that may be generated due to the empty space on the upper surface of the sealing surplus 112 at the top of the battery cell 110 is reduced, and a battery having a larger capacity than the existing volume can be designed to increase energy density. Can be.

As described above with reference to the drawings, the method of manufacturing a battery pack of the present invention, by attaching a double-sided adhesive tape on one surface of the protection assembly, the excess of the sealing assembly of the plate-shaped battery cell each time a different type of safety device is applied Eliminates the need to change the design of the coupling member for the process of binding on the negative insulating tape, and also allows the protection assembly to be fixed in place on the outer surface of the battery case, reducing the distance error between the electrode lead and the protection circuit module. It has the effect of increasing the efficiency of the manufacturing process and drastically reducing the defective rate.

Those skilled in the art to which the present invention pertains will be able to perform various applications and modifications within the scope of the present invention based on the contents.

Claims (21)

A method of manufacturing a battery pack including a plate-shaped battery cell in which an electrode assembly is accommodated and then sealed to form a sealing surplus, and a protection device for preventing overheating of the battery cell.
(a) attaching an insulating tape to an upper surface of a sealing surplus of a battery case in which a positive electrode lead and a negative electrode lead are formed;
(b) electrically connecting one side of the protection assembly including one or more high temperature blocking elements to prevent overheating with one of the positive and negative electrode leads;
(c) binding said protective assembly onto an insulating tape of an excess of sealing; And
(d) covering the protective assembly with a cover tape as a whole and fixing it to a sealing surplus;
Double-sided adhesive tape is attached to one surface of the protection assembly to bind the protection assembly to the sealing excess,
The double-sided adhesive tape is a structure in which an adhesive layer is coated on both sides of the film base material of the polymer resin,
The double-sided adhesive tape is a release paper including a heat insulating material is added to one surface facing the insulating tape of the excess sealing portion, and after the step (b) is carried out the manufacturing method characterized in that detaching the release paper. The method according to claim 1, wherein the plate-shaped battery cell has a structure in which an electrode assembly is sealed in a pouch-type battery case of a laminate sheet including a resin layer and a metal layer. The method of claim 2, wherein the electrode assembly includes at least one positive electrode, at least one negative electrode, and a separator interposed between the positive electrode and the negative electrode, and is sealed inside the battery case together with an electrolyte. The method of claim 1, wherein the sealing surplus portion is a top sealing portion formed by heat sealing of the battery case. The protection assembly of claim 1, wherein the protection assembly includes a lead coupling portion for electrically connecting the electrode lead and the protection element, an element portion including the protection element, and a connection plate for electrically connecting the protection circuit module. The manufacturing method characterized by the above-mentioned. The method of claim 5, wherein the element portion of the protective assembly comprises a body of a thin rectangular parallelepiped structure, one end of the main body is formed extending the lead coupling portion of the strip form, the other end of the main body of the strip-shaped connection The manufacturing method characterized in that the plate is formed extending. 7. The manufacturing method according to claim 6, wherein the double-sided adhesive tape is attached to one surface of the element portion between the lead engaging portion and the connecting plate. 7. The manufacturing method according to claim 6, wherein the double-sided adhesive tape is attached in a size corresponding to the width and / or width on the plane of the main body of the protective element. The method of claim 8, wherein the width of the double-sided adhesive tape is 2 mm to 10 mm, the width of the double-sided adhesive tape is 5 mm to 35 mm. delete delete The method of claim 1, wherein the polymer resin film is a polycarbonate tape, a nomex tape, a polypropylene tape, a polyethylene tape or a polyethylene terephthalate tape. . The method of claim 1, wherein the protection element is at least one selected from the group consisting of a PTC temperature (positive temperature coefficient element), a fuse and a thermal cutoff element (TCO). 7. The manufacturing method according to claim 6, wherein the connection plate has a structure extending vertically from the element portion in plan view. 6. The manufacturing method according to claim 5, wherein the lead coupling portion is connected to the electrode lead by welding. The method of claim 1, wherein the electrode lead is a positive electrode lead. The method of claim 15, wherein the welding is spot welding, laser welding, or ultrasonic welding. The method of claim 6, further comprising bending the electrode lead at least once in a state in which the lead coupling part is connected to the electrode lead, thereby forming a shape in which the connecting plate protrudes in parallel with the protruding direction of the remaining electrode leads. Manufacturing method characterized in that. The method of claim 1, further comprising, after the step (d), in the state in which the protection assembly is bound to the outer surface of the sealing excess, vertically bending the sealing excess to face one side wall of the electrode assembly accommodating portion. Manufacturing method. delete delete

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