KR20210109793A - Pouch type secondary battery sealing system and sealing method teherof - Google Patents

Abstract

The present invention relates to a sealing system for a pouch-type secondary battery and a method for sealing the same, for the purpose of suppressing heat loss that occurs in the existing tab sealing process. To this end, the sealing system comprises a tab heating unit (100) and a pouch preheating unit (200) for providing additional heat to a pouch, thereby improving both quality and productivity as well as enhancing sealing property.

Description

POUCH TYPE SECONDARY BATTERY SEALING SYSTEM AND SEALING METHOD TEHEROF}

The present invention relates to a pouch-type secondary battery system and a sealing method, and more particularly, to a pouch-type secondary battery in which a preheating device is added in a tab sealing process of sealing a pouch and an electrode tab during a process for producing a pouch-type secondary battery. It relates to a sealing system and a sealing method using the same.

A battery is used as a power source for many products in modern times, and although it is a concept that collectively refers to a physical battery and a chemical battery, it is commonly used as a general term for a chemical battery. At this time, the battery is largely divided into a primary battery and a secondary battery. The primary battery is a battery that cannot be used repeatedly because only the discharge function operates, and the secondary battery means a semi-permanent chemical battery that can be used repeatedly because it can be charged and discharged.

Such a secondary battery has been used as a core technology in electronic devices such as notebook computers, PCs, and mobile communication terminals in the past. At this time, the secondary batteries are largely divided into cylindrical, prismatic, and pouch-type batteries. Among them, the pouch-type secondary battery is manufactured in a stacking method and has a large amount of energy that can be stored, and contracts and expands only up and down during charging and discharging. It has the advantage of being able to use it for a longer period of time. And currently, a number of methods for manufacturing the pouch-type secondary battery are disclosed, including Korean Patent Registration No. 10-1793729 (“Pouch-type secondary battery and manufacturing method thereof”, announcement on November 3, 2017). At this time, referring to FIG. 1 , a process for manufacturing a conventional pouch-type secondary battery will be described as follows.

As shown in FIG. 1 , in the related art, a process of heat-sealing one end of a pouch case 2 having an electrode assembly 1 embedded therein using an upper jig block 3 and a lower jig block 4 is included. . At this time, the method of transferring heat and pressure through the upper jig block 3 and the lower jig block 4 as above should be made to increase the applied heat and pressure in order to shorten the process time for producing the pouch-type secondary battery. However, when heat and pressure applied through the upper jig block and the lower jig block are increased, sufficient heat is not distributed to the tabs and pouches of the electrode assembly, so that the quality of the produced product is unstable. Accordingly, there is a problem in that it is difficult to shorten the process time for sealing the tab of the electrode assembly and the pouch case in the conventional method.

KR 10-1793729 B1 ("Pouch-type secondary battery and manufacturing method thereof") 2017.11.03.

The present invention has been devised to solve the above problems, and a pouch-type secondary battery sealing system including a preheating device for compensating for heat lost to improve sealing properties between an electrode tab and a pouch in the tab sealing process, and the same It relates to a pouch-type secondary battery sealing method used.

The present invention provides a sealing system for sealing a pouch-type secondary battery in order to achieve the object as described above, wherein the pouch-type secondary battery includes a pouch case having a receiving part formed therein and a pressing part protruding to one side of the pouch case a pouch, an electrode assembly accommodated on the accommodating part, and an electrode tab having one end electrically connected to the electrode assembly and having the other end exposed to the outside through the pressing part, wherein the sealing system includes: a tab heating unit that applies heat and pressure to an outer surface of the pressing unit to seal the pressing unit; and a pouch preheating unit for applying heat to the outer surface of the pouch case or the outer surface of the pressing unit so that the pouch case is heated.

In addition, the pouch preheating unit may transfer heat by directly contacting the outer surface of the pouch case or the outer surface of the pressing unit.

In addition, the pouch preheating unit may transfer heat in any one or more methods of high frequency, IR and UV in non-contact with the outer surface of the pouch case or the outer surface of the pressing unit.

In addition, the tab heating part and the pouch preheating part of the present invention may be made of a heat-resistant material.

In addition, the tab heating part and the pouch preheating part of the present invention may be made of the same material.

In addition, the present invention may further include a controller for controlling the heating temperature of the tab heating unit and the pouch preheating unit, and the tab heating unit and the pouch preheating unit may be controlled at a temperature of 40°C to 250°C.

In addition, the tab heating unit and the pouch preheating unit of the present invention may be controlled to the same temperature.

In addition, the pouch-type secondary battery sealing method of the present invention using the above-described pouch-type secondary battery sealing system includes the steps of accommodating an electrode assembly in a receiving portion of the pouch; injecting an electrolyte into the receiving part of the pouch; heating the pouch with the pouch preheating unit; and sealing the pouch tab by hot-pressing the pressing portion of the pouch with the tab heating unit.

In the present invention, when the pouch case is heated to a preset temperature in the step of heating the pouch, the step of sealing the pouch tab may be performed.

In addition, the present invention may be accompanied by the steps of heating the pouch and sealing the pouch tab.

In the present invention, in the step of heating the pouch or sealing the pouch tab, the outer surface of the pouch may be heated to a temperature of 40°C to 200°C.

In the present invention, in the step of heating the pouch or sealing the pouch tab, the outer surface of the electrode assembly may be heated to a temperature of 40°C to 200°C.

The sealing system of the pouch-type secondary battery and the sealing method of the pouch-type secondary battery of the present invention according to the above configuration can be provided so that heat is concentrated on the sealing part in the tab sealing process by applying surplus heat to the pouch part, In addition to compensating for heat loss, as the sealing property is strengthened, there is an effect of improving quality and productivity.

Furthermore, in the sealing system of the pouch-type secondary battery and the sealing method of the pouch-type secondary battery of the present invention, the internal pressure increases as the sealing property is strengthened, so that the stability of the cell can be improved, and the internal electrolyte can be prevented from leaking in advance. There are advantages that can be

1 is a view showing a heat-sealing process of a pouch-type secondary battery according to the prior art.
Figure 2 is a block diagram according to a pouch-type secondary battery sealing method.
3 is a view showing that the electrode assembly is accommodated in the pouch according to the present invention.
4 is a view showing a pouch-type secondary battery sealing system according to the prior art.
5 is a view showing a pouch-type secondary battery sealing system according to a first embodiment of the present invention.
6 is a view showing a pouch-type secondary battery sealing system according to a second embodiment of the present invention.
7 is a view showing a pouch-type secondary battery sealing system according to a third embodiment of the present invention.
8 is a view showing a pouch-type secondary battery sealing system according to a fourth embodiment of the present invention.
9 is a view showing a pouch-type secondary battery sealing system according to a fifth embodiment of the present invention.

Hereinafter, a pouch-type secondary battery system and a pouch-type secondary battery sealing method using the same according to various embodiments of the present invention will be described in detail with reference to the accompanying drawings. The drawings introduced below are provided as examples in order to sufficiently convey the spirit of the present invention to those skilled in the art. Accordingly, the present invention is not limited to the drawings presented below and may be embodied in other forms. Also, like reference numerals refer to like elements throughout.

If there is no other definition in the technical terms and scientific terms used at this time, it has the meaning commonly understood by those of ordinary skill in the art to which this invention belongs, and the gist of the present invention is unnecessary in the following description and accompanying drawings Descriptions of known functions and configurations that may be blurry will be omitted.

[Sealing method of pouch-type secondary battery]

FIG. 2 relates to a pouch-type secondary battery sealing method, and FIGS. 2-(a) and 2-(b) show block diagrams of the pouch-type secondary battery sealing method, respectively.

Referring to FIG. 2-(a), the pouch-type secondary battery sealing method of the present invention includes a step of accommodating an electrode assembly (S100), a step of injecting an electrolyte (S200), a step of heating the pouch (S300), and the pouch. It may consist of a step (S400) of sealing the tab, and the listed steps may be made sequentially. To describe the above steps, the step of accommodating the electrode assembly ( S100 ) may be a step of accommodating the electrode assembly on a pouch having an accommodating part formed therein. And the step (S200) of injecting the electrolyte is to be configured to inject the electrolyte into the interior when the electrode assembly is a rim of the pouch portion closed, wherein the available electrolyte salt is A ⁺ B ^- A salt of the structure, such as, A ⁺ includes an ion consisting of an alkali metal cation such as ^{Li +} , Na ⁺ , K ^{+ or a combination thereof, and B -} is PF ₆ ^- , BF ₄ ^- , Cl ^- , Br ^- , I ^- , ClO ₄ ^- , AsF ₆ ^- , CH ₃ CO ₂ ^- , CF ₃ SO ₃ ^- , N(CF ₃ SO ₂ ) ₂ ^- , C(CF ₂ SO ₂ ) ₃ ^- or a salt containing an ion consisting of a combination thereof am. In particular, a lithium salt is preferable. For example, LiClO ₄ , LiCF ₃ SO ₃ , LiPF ₆ , LiAsF ₆ , LiN(CF ₃ SO ₂ ) _{2 ,} or a mixture thereof may be used.

In addition, the organic solvent is a commonly known solvent, such as a cyclic carbonate system with or without a halogen substituent; A linear carbonate-based, ester-based, nitrile-based, phosphate-based solvent or a mixture thereof may be used. For example, propylene carbonate (PC), ethylene carbonate (EC), diethyl carbonate (DEC), dimethyl carbonate (DMC), dipropyl carbonate (DPC), dimethyl sulfoxide, acetonitrile, dimethoxyethane, diethoxyethane, Tetrahydrofuran, N-methyl-2-pyrrolidone (NMP), ethylmethyl carbonate (EMC), gamma butyrolactone (GBL), fluoroethylene carbonate (FEC), methyl formate, ethyl formate, propyl formate, acetic acid methyl, ethyl acetate, propyl acetate, pentyl acetate, methyl propionate, ethyl propionate, ethyl propionate and butyl propionate, or mixtures thereof and the like can be used. The above describes some of the electrolytes that can be used, but the present invention does not limit the components of the electrolyte. In addition, the present invention may include a case in which the electrolyte is made of a solid phase.

The step of heating the pouch (S300) and the step of sealing the pouch tab (S400) may be accompanied as shown in FIG. 2-(b), and after the step of heating the pouch (S300), the pouch A step (S400) of sealing the tab may be followed. At this time, in the step (S300) of heating the pouch, a pouch preheating unit for applying heat to the pouch can be used, and in the step (S400) of sealing the pouch tab, a tab heating unit that applies heat and pressure to the pressing unit in contact with the electrode tab can be used. . At this time, the pouch preheating unit and the tab heating unit will be described in more detail in the pouch-type secondary battery sealing system to be described later.

[Pouch-type secondary battery sealing system]

3 and 4 relate to a pouch-type secondary battery sealing method, FIG. 3 is a view showing that an electrode assembly is accommodated in the pouch, and FIG. 4 is a view showing a pouch-type secondary battery sealing system according to the prior art. each is indicated.

First, referring to FIG. 3 , the pouch 10 of the pouch-type secondary battery may have an accommodating part 11 formed therein, and the electrode assembly 20 and the electrolyte may be accommodated in the accommodating part 11 . In this case, the pouch 10 may be composed of a first case 10a and a second case 10b so that both sides can be folded around one end. Here, the first case 10a and the second case 10b may be sealed after one end is connected to each other and the other end is in contact with each other. In the first case 10a and the second case 10b, receiving portions 11 corresponding to a part and another part of the electrode assembly 20, respectively, are disposed, or the first case 10a or the second case 10b The accommodating part 11 may be disposed in any one of the case 10b.

In addition, the electrode assembly 20 may be configured in a jelly roll (J/R) form or in a form in which unit cells are stacked. At this time, when the electrode assembly 20 is embedded in the pouch 10, the other ends of the first case 10a and the second case 10b may be coupled to each other so that the electrolyte is injected into the partially opened portion. can do. At this time, the electrolyte may include a conventional electrolyte component, for example, an electrolyte salt and an organic solvent as described above. Here, the electrode tab 21 may protrude to one side of the electrode assembly 20 , and the electrode tab 21 is composed of at least one pair to be coupled to the positive electrode and the negative electrode of the electrode assembly 20 , respectively. can At this time, the electrode tab 21 and the first case 10a and the second case 10b may be in contact with each other, and the above-described step of sealing the pouch tab (S400) is performed between the electrode tab 21 and the first case 10b. It may be a step of coupling the case 10a and the second case 10b to be sealed to each other. In addition, the pair of electrode tabs 21 may protrude in different directions or may protrude in parallel with each other.

Referring to FIG. 4-(a) , the terminal portion 20a of the electrode assembly 20 embedded in the pouch 10 may be fusion-bonded to the electrode tab 21 to enable electrical conduction with each other. In addition, one end of the first case 10a and the second case 10b of the pouch 10 may be connected to each other, and the electrode tab 21 may be disposed on the other end. Here, the first case 10a and the second case 10b on which the electrode tab 21 is disposed may be formed to extend to one side, and the electrode tab 21 may also extend in one direction to be stacked on each other. have. At this time, a sealant 30 may be disposed and adhered between one side of each of the first case 10a and the second case 10b and the electrode tab 21 , and the first case 10a and the second case 10b may be disposed. An insulating film may be included between one side of each case 10b and the electrode tab 21 .

Referring to FIG. 4-(b), the pouch-type secondary battery sealing system may include a tab heating unit 100 that applies heat and pressure to one side of the first case 10a and the second case 10b. have. In this case, the tab heating unit 100 presses the outer surfaces of the first case 10a and the second case 10b so that one side on which the electrode tab 21 is disposed may be sealed.

<Example 1>

5 is a view showing a pouch-type secondary battery sealing system according to a first embodiment of the present invention.

As shown in FIG. 5 , the pouch 10 includes a pouch case 12 including a receiving part 11 in which the electrode assembly 20 is accommodated, and a pressing part extending to one side of the pouch case 12 . (13) may be included. In addition, the pouch-type secondary battery sealing system of the present invention includes a tab heating unit 100 that applies heat and pressure to the pressurizing unit 13 and a pouch preheating unit 200 that heats the pouch 10 to compensate for lost heat. ) may be further included.

When the above-described step of heating the pouch (S300) and the step of sealing the pouch tab (S400) are sequentially performed, the pouch preheating unit 200 applies heat to the pressing unit 13 to the pouch 10 to be preheated, and the pouch 10 and the electrode tab 21 may be sealed to each other through the tab heating unit 100 in a state in which the pouch 10 is preheated to a predetermined temperature. Alternatively, when the above-described step of heating the pouch (S300) and the step of sealing the pouch tab (S400) proceed simultaneously, the tab heating unit 100 and the pouch preheating unit 200 are mounted on the pressing unit 13 . Although heat is applied together, the pouch 10 and the electrode tab 21 may be sealed by pressing the tab heating unit 100 . In this case, the tab heating unit 100 and the pouch preheating unit 200 may be made of a heat-resistant material, and among a plurality of heat-resistant materials, the tab heating unit 100 and the pouch preheating unit 200 may be made of the same material, or The tab heating unit 100 and the pouch preheating unit 200 may be configured in various forms, such as being composed of different types of materials. At this time, it is preferable that the tab heating unit 100 and the pouch preheating unit 200 are made of a material that does not permanently change at a temperature of 250° C. or less.

<Example 2>

6 is a view showing a pouch-type secondary battery sealing system according to a second embodiment of the present invention.

As shown in FIG. 6 , the tab heating unit 100 applies heat and pressure to the pressing unit 13 of the pouch 10 , and the pouch preheating unit 200 is a pouch case of the pouch 10 . Heat may also be applied on the outer surface of (12). Even at this time, as described above, when the step of heating the pouch (S300) and the step of sealing the pouch tab (S400) are sequentially performed, the pouch 10 is heated to a predetermined temperature by the pouch preheating unit 200 . In the preheated state, the pouch 10 and the electrode tab 21 may be sealed to each other through the tab heating unit 100 . In addition, when the above-described step of heating the pouch (S300) and the step of sealing the pouch tab (S400) are simultaneously performed, the tab heating unit 100 and the pouch preheating unit 200 are respectively formed in the pouch case 12 and Although heat is applied to the pressing part 13 together, as the tab heating part 100 is pressed into the pressing part 13, heat lost can be compensated to minimize heat loss.

<Example 3>

7 is a view showing a pouch-type secondary battery sealing system according to a third embodiment of the present invention.

As shown in FIG. 7 , in the present invention, a plurality of pouch preheating units 200 may be configured to apply heat to different regions of the pouch 10 . This will be explained more clearly by exemplifying that the pouch preheating unit 200 is composed of a first pouch preheating unit 200a, a second pouch preheating unit 200b and a third pouch preheating unit 200c. Here, the first pouch preheating part 200a is configured to apply heat to the pressing part 13 of the pouch 10, and the second pouch preheating part 200b is the pouch case ( 12) is configured to apply heat to the outer surface of one side, and the third pouch preheating unit 200c may be configured to apply heat to the outer surface of the other side of the pouch case 12 . At this time, in the step of heating the pouch described above, only one of the first pouch preheating unit 200a, the second pouch preheating unit 200b, and the third pouch preheating unit 200c may be used, or two or more may be used together.

The heating temperature of the first pouch preheating unit 200a, the second pouch preheating unit 200b, the third pouch preheating unit 200c and the tab heating unit 100 may be controlled through a controller. In this case, the tab heating unit 100 _{may be controlled in a} first temperature range (Ta), and the first pouch preheating unit 200a, the second pouch preheating unit 200b, and the third pouch preheating unit 200c) may be controlled in the second temperature range (T _b1 ), the third temperature range (T _b2 ), and the fourth temperature range (T _b3 ), respectively. In this case, the 1-4th temperature range (Ta,T _b1 , T _b2 , T _b3 ) may be controlled in the same temperature range as each other, and may be controlled to a temperature between 40°C and 250°C. Here, when a plurality of pouch preheating units 200 are used, the first pouch preheating unit 200a close to the electrode tab 21 may be output at a higher temperature than the relatively spaced third pouch preheating unit 200c. have.

Even at this time, the step of heating the pouch ( S300 ) and the step of sealing the pouch tab ( S400 ) may be sequentially performed or may be accompanied by each other. And in the step of heating the pouch (S300) or the step of sealing the pouch tab (S400), the outer surface of the pouch 10 _{may be heated to a temperature (T o} ) between 40°C and 200°C, and the jelly roll The outer surface of the electrode assembly 20 formed of ( _J/R ) may be controlled to be heated to a temperature (T J/R ) between 40°C and 200°C.

<Example 4>

8 is a view showing a pouch-type secondary battery sealing system according to a fourth embodiment of the present invention.

As shown in FIG. 8 , in the present invention, the step (S300) of heating the pouch by using any one or more pouch preheating units among the contact-type pouch preheating unit 200 and the non-contact pouch preheating unit 300 may be performed. . In this case, the contact type may be in direct contact with the pouch 10 to transfer heat, and the non-contact type may be spaced apart from the pouch 10 and transfer through indirect heat by means such as high frequency, IR and UV.

In the present invention, the contact-type pouch preheating unit 200 may be disposed on the pressing unit 13 , and the non-contact pouch preheating unit 300 may be disposed to be spaced apart from the outer surface of the pouch case 12 . Here, the tab heating unit 100 is in a first temperature range (T _a ), and the contact type pouch preheating unit 200 and the non-contact type pouch preheating unit 300 are in a predetermined temperature range (T _b , T _c ), respectively. The output can be controlled. At this time, the tab heating unit 100 and the contact/non-contact pouch preheating unit 200 and 300 are controlled in a temperature range between 40° C. and 250° C., or the contact-type pouch preheating unit 200 is a non-contact pouch preheating unit. It may be controlled so that the temperature output is higher than (300). Through this, when the tab heating unit 100 applies heat to the pressing unit 13, which is one side of the pouch 10, in the step (S400) of sealing the pouch tab described above, the pouch case having a relatively low temperature ( 12), in addition to being able to prevent heat loss from being transferred, there is an advantage in that sealing properties are strengthened compared to the existing ones.

<Example 5>

9 is a view showing a pouch-type secondary battery sealing system according to a fifth embodiment of the present invention.

As shown in FIG. 9 , the present invention may further include an airtight chamber 400 disposed on the outside of the pouch 10 to prevent heat from being emitted to the outside. At this time, the sealing chamber 400 may be formed to surround the pouch case 12 as shown. At this time, the sealed chamber 400 and the pouch preheating unit 200 may be driven together through the power means (M), or may be moved by separate power means (M). Accordingly, heat of the tab heating unit 100 applied to the pressing unit 13 is transferred to the pouch case 12 and is prevented from being emitted to the outside, thereby preventing heat loss.

As described above, the present invention has been described with specific matters such as specific components and limited embodiment drawings, but these are only provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , various modifications and variations are possible from these descriptions by those of ordinary skill in the art to which the present invention pertains.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and not only the claims described below, but also all those with equivalent or equivalent modifications to the claims are said to be within the scope of the spirit of the present invention. will be.

10 : pouch
10a: first case 10b: second case
11: accommodating part 12: pouch case
13: pressurizing part
20: electrode assembly
20a: terminal 21: electrode tab
30: sealant
100: tap heating unit
200: pouch preheating part (contact type)
200a: first pouch preheating unit 200b: second pouch preheating unit
200c: 3rd pouch preheating part
300: pouch preheating part (non-contact type)
400: sealed chamber

Claims (12)

In the sealing system for sealing a pouch-type secondary battery,
The pouch-type secondary battery is
A pouch including a pouch case having an accommodating part formed therein and a pressing part protruding to one side of the pouch case, an electrode assembly accommodated on the accommodating part, and one end electrically connected to the electrode assembly, the other end passing through the pressing part Including the electrode tab exposed to the outside,
The sealing system is
a tab heating unit for applying heat and pressure to an outer surface of the pressing unit to seal the pressing unit of the pouch; and
A pouch-type secondary battery sealing system comprising a; a pouch preheating unit for applying heat to the outer surface of the pouch case or the outer surface of the pressing unit so that the pouch case is heated. According to claim 1,
The pouch preheating unit,
A pouch-type secondary battery sealing system that transfers heat in direct contact with the outer surface of the pouch case or the outer surface of the pressing unit.
According to claim 1,
The pouch preheating unit,
A pouch-type secondary battery sealing system that transfers heat in any one or more methods of high frequency, IR and UV in non-contact with the outer surface of the pouch case or the outer surface of the pressing unit.
According to claim 1,
A pouch-type secondary battery sealing system in which the tab heating part and the pouch preheating part are made of a heat-resistant material.
5. The method of claim 4,
A pouch-type secondary battery sealing system in which the tab heating unit and the pouch preheating unit are made of the same material.
According to claim 1,
a controller for controlling the heating temperature of the tab heating unit and the pouch preheating unit;
further comprising,
A pouch-type secondary battery sealing system in which the tab heating unit and the pouch preheating unit are controlled at a temperature of 40°C to 250°C by the controller.
7. The method of claim 6,
A pouch-type secondary battery sealing system in which the tab heating unit and the pouch preheating unit are controlled to the same temperature.
In the pouch-type secondary battery sealing method using the pouch-type secondary battery sealing system of any one of claims 1 to 7,
accommodating the electrode assembly in the receiving portion of the pouch;
injecting an electrolyte into the receiving part of the pouch;
heating the pouch with the pouch preheating unit; and
sealing the pouch tab by hot-pressing the pressing portion of the pouch with the tab heating unit;
A pouch-type secondary battery sealing method comprising a.
9. The method of claim 8,
When the pouch case is heated to a preset temperature in the step of heating the pouch, sealing the pouch tab is performed.
9. The method of claim 8,
A pouch-type secondary battery sealing method accompanied by heating the pouch and sealing the pouch tab.
9. The method of claim 8,
In the step of heating the pouch or sealing the pouch tab,
A pouch-type secondary battery sealing method in which the outer surface of the pouch is heated to a temperature of 40°C to 200°C.
9. The method of claim 8,
In the step of heating the pouch or sealing the pouch tab,
A pouch-type secondary battery sealing method in which the outer surface of the electrode assembly is heated to a temperature of 40°C to 200°C.

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