JP2017152140A - Secondary battery, seal bar, and method of manufacturing secondary battery - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a secondary battery capable of more reliably preventing a storage liquid from being leaked at a heat seal portion where a tab terminal is projected to the outside.SOLUTION: In a secondary battery 10, a positive electrode layer and a negative electrode layer are sealed in an outer packaging body 13 and at least one tab terminal 15 of the positive electrode layer and the negative electrode layer projects from a heat seal portion 21 of the outer packaging body 13 to the outside. A thick seal portion 22 of the heat seal portion 21 is provided at an existence region 23a of the tab terminal 15, and side walls 22a formed on both sides of the thick seal portion 22 in a width direction X are formed such that the spacing between both side walls 22a is wider on a root portion 22a2 side than on a top portion 22a1 side.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a secondary battery, a seal bar, and a method for manufacturing a secondary battery.

  Conventionally, a secondary battery in which a positive electrode layer and a negative electrode layer are stacked via a separator and sealed in an outer package, and each tab terminal of the positive electrode layer and the negative electrode layer is protruded from a heat seal portion of the outer package is known. . For example, in patent document 1, the electrical storage body is enclosed with the exterior body which heat-sealed the 1st film and the 2nd film around, and the tab terminal protrudes from the upper heat seal part.

For example, a seal bar 31 as shown in FIG. 7 is used to heat-seal by protruding the tab terminal to the outside of the exterior body. The upper surface of the lower receiving portion 33 is formed flat, and the upper seal bar 31 is formed with a recess 31 c corresponding to the shape of the tab terminal 15 at a position corresponding to the tab terminal 15.
The recess 31c is formed in a substantially quadrangular cross section according to the shape of the tab terminal 15 having a substantially quadrangular cross section.

  The tab terminal 15 whose both surfaces are covered with the sealant film 17 is disposed between the opposing walls 14 and 14 made of the film of the exterior body 13, and is pressurized while being heated by the seal bar 31. Thereby, in the heat seal part heat-sealed among the secondary batteries, the tab terminal 15 can be liquid-tightly sealed in a state of protruding from the heat seal part.

  When heat sealing, if the space between the side walls 31d on both sides of the recess 31c of the seal bar 31 and the tab terminal 15 is wide, poor sealing occurs at both sides in the width direction of the tab terminal 15 after sealing, and a liquid such as an electrolyte solution is contained. Leakage occurs. Therefore, the width of the recess 31 c of the seal bar 31 is made to correspond to the width of the tab terminal 15.

JP 2012-175084 A

However, at the time of heat sealing, deviation occurs in the relative position between the tab terminal 15 in which both surfaces are covered with the sealant film 17 and disposed between the opposing walls 14 and 14 of the exterior body 13 and the recess 31c of the seal bar 31. There is.
The tab terminal 15 is formed of a hard material with a substantially square cross section, and the recess 31c of the seal bar 31 is also formed of a hard material. Therefore, when a displacement occurs in the width direction, a strong shearing force acts on the sealant film 17 and the opposing walls 14 and 14 of the exterior body 13 because the side wall of the recess 31 c of the seal bar 31 and the tab terminal 15 are excessively close to each other. To do.

Since the side wall 31d on both sides of the recess 31c of the seal bar 31 and the tab terminal 15 are close enough to each other, the sealant film 17 and the exterior body 13 become excessively thin at the both edges of the tab terminal 15 and are damaged. easy.
As a result, when the secondary battery is used, there is a problem that the stored liquid leaks in the vicinity of the tab terminal 15 or the tab terminal 15 contacts an aluminum layer (not shown) of the outer package 13.

  The present invention has been made in view of such a problem, and in a heat seal portion in which a tab terminal protrudes to the outside, a secondary battery, a seal bar, and a secondary battery that can more reliably prevent leakage of stored liquid. It aims at providing the manufacturing method of a secondary battery.

  The secondary battery of the present invention is a secondary battery in which a positive electrode layer and a negative electrode layer are sealed in an outer package, and at least one tab terminal of the positive electrode layer and the negative electrode layer protrudes from a heat seal portion of the outer package. In the present invention, a thick seal portion of the heat seal portion is provided in an area where the tab terminal is present, and the side wall formed on both sides in the width direction of the thick seal portion is closer to the root side than to the top side. It is characterized in that it is formed so that the interval between the both side walls is wide.

According to the secondary battery of the present invention, the thick seal portion of the heat seal portion provided in the region where the tab terminal exists is formed so that the width is wider on the root side than on the top side. Therefore, the thickness of the sealant film and the outer package can be ensured even if the relative position between the concave portion of the seal bar and the tab terminal is displaced. Therefore, it is easy to disperse stress and vibration applied to the thick seal portion of the heat seal portion during manufacture and use, and damage to the heat seal portion can be prevented.
Therefore, it is possible to provide a secondary battery that can more reliably prevent leakage of the contained liquid in the heat seal portion in which the tab terminal protrudes to the outside.

  The seal bar of the present invention is a state in which at least one tab terminal of the positive electrode layer and the negative electrode layer accommodated in the exterior body is projected outside from the exterior body and covered with a sealant film wider than the tab terminal, In a seal bar that is arranged between opposing walls of an exterior body and pressurizes while heating from the outside, a first pressure surface that pressurizes the absence region of the tab terminal, and a first pressure surface that corresponds to the tab terminal And recesses that pressurize the existence area of the tab terminal, and the side walls formed on both sides in the width direction of the recesses are formed so that the distance between the side walls becomes wider toward the opening side. It is characterized by having.

According to the seal bar of the present invention, the recess for pressurizing the region where the tab terminal exists is formed so as to become wider toward the opening side. Therefore, the thickness of the sealant film and the exterior body can be ensured even when pressure is applied in a state where the relative position between the concave portion of the seal bar and the tab terminal is displaced.
Therefore, it is possible to prevent the sealant film and the exterior body from being damaged during pressurization. Further, in the secondary battery obtained by heat sealing with this seal bar, stress and vibration applied to the thick seal portion of the heat seal portion during use can be easily dispersed, and damage to the heat seal portion can be prevented.
Accordingly, it is possible to provide a seal bar suitable for manufacturing a secondary battery that can more reliably prevent leakage of the contained liquid in the heat seal portion in which the tab terminal protrudes to the outside.

  According to the secondary battery manufacturing method of the present invention, the positive electrode layer and the negative electrode layer are accommodated in the state in which the tab terminal protrudes from the exterior body by heat sealing using the above-described seal bar. A method of manufacturing a secondary battery sealed in a body, wherein the tab terminals covered with the sealant film are disposed between opposing walls of the exterior body, and are heated by the seal bar from the outside of the exterior body. By pressurizing, the absence area of the tab terminal is pressurized by the first pressure surface, and the existence area of the tab terminal is pressurized by the recess.

  According to the method for manufacturing a secondary battery of the present invention, the tab terminal is packaged by heat-sealing using a seal bar formed so that the recess for pressurizing the region where the tab terminal exists is wider toward the opening side. The positive electrode layer and the negative electrode layer are sealed in the container in a state of protruding from the body. Therefore, the thickness of the sealant film and the exterior body can be ensured even when pressure is applied in a state where the relative position between the concave portion of the seal bar and the tab terminal is displaced.

Therefore, it is possible to prevent the sealant film and the exterior body from being damaged during pressurization. In the manufactured secondary battery, it is easy to disperse stress and vibration applied to the thick seal portion of the heat seal portion during use, and damage to the heat seal portion can be prevented.
Accordingly, it is possible to provide a method for manufacturing a secondary battery that can more reliably prevent leakage of the contained liquid in the heat seal portion in which the tab terminal protrudes to the outside.

According to the present invention, since the thick seal part of the heat seal part can be formed so as to be wider on the base part side than the top part side, the sealant can be used even if the relative position between the concave part of the seal bar and the tab terminal is displaced. The thickness of the film and the outer package can be secured. Therefore, it is easy to disperse stress and vibration applied to the thick seal portion of the heat seal portion during manufacture and use, and damage to the heat seal portion can be prevented.
Accordingly, it is possible to provide a secondary battery, a seal bar, and a method for manufacturing the secondary battery that can highly prevent leakage in the heat seal portion in which the tab terminal protrudes to the outside.

It is a general | schematic partial top view of the secondary battery of embodiment. It is the elements on larger scale which show the junction part of the tab terminal of an embodiment, and an exterior body. It is AA sectional drawing of FIG. It is a partial expanded sectional view which shows a part of apparatus which performs heat sealing using the seal bar of embodiment. It is a partial expanded sectional view which shows a part of apparatus which performs heat sealing using the seal bar of a modification. It is a partial expanded sectional view which shows a part of apparatus which performs heat sealing using the seal bar of another modification. It is a partial expanded sectional view of the sealing device using the conventional seal bar.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a schematic partial plan view of a secondary battery, FIG. 2 is a partially enlarged view showing a joint portion between a tab terminal and an exterior body, and FIG. 3 is a cross-sectional view taken along line AA in FIG. .
As shown in FIGS. 1 to 3, in the present embodiment, the positive electrode layer 11 and the negative electrode layer 12 are laminated via a separator (not shown), and are housed in an outer package 13 together with an electrolyte solution (not shown). By being stopped, the secondary battery 10 is configured.
A tab terminal 15 is connected to each of the positive electrode layer 11 and the negative electrode layer 12. Each tab terminal 15 is bonded to the heat seal portion 21 of the secondary battery 10 via the sealant film 17 and protrudes to the outside.

The exterior body 13 includes a pair of opposing walls 14 each having a resin sheet. The hollow exterior body 13 is configured by the opposing walls 14 and 14 being joined together in a liquid-tight manner at the peripheral heat seal portion 21.
Each opposing wall 14 is made of a laminate material. The laminate material can be selected as appropriate. In this embodiment, the opposing wall 14 is formed by laminating a modified PP (polypropylene) layer 14a, an aluminum layer 14b, a nylon layer 14c, and a PET (polyethylene terephthalate) layer 14d from the inner layer side. Has been.
The modified PP layer 14a disposed in the innermost layer is made of a gradient material, and the inner layer side can be firmly heat-welded with the sealant film 17, and the outer layer side can be strongly heat-welded with the aluminum layer 14b.

  The tab terminal 15 is made of a conductive material. In the present embodiment, the tab terminal 15 of the positive electrode layer 11 and the tab terminal 15 of the negative electrode layer 12 are formed of different metal plates. Although not particularly limited, each tab terminal 15 of the present embodiment is formed to a thickness of 0.5 mm or less.

  Each tab terminal 15 of the positive electrode layer 11 and the negative electrode layer 12 protrudes from a part of the heat seal portion 21 and is connected to a circuit (not shown) or the like. Each tab terminal 15 is sandwiched between the opposing walls 14 and 14 while being covered with the sealant film 17, and is integrally joined to the heat seal portion 21.

A thick seal portion 22 is provided in the region 23 a where the tab terminal 15 of the heat seal portion 21 exists. Note that the existence area 23 a referred to here means an area where the tab terminal 15 exists in the width direction X. The absence region 23b described later means a region where the tab terminal 15 does not exist in the width direction X.
As shown in FIG. 3 and the like, the thick seal portion 22 is formed in a shape protruding in the thickness direction Z of the tab terminal 15 from other portions of the heat seal portion 21. The length that the thick seal portion 22 protrudes in the thickness direction Z is, for example, about 0.3 to 0.5 mm.
The side wall 22a (one side wall 22a is not shown) provided on both sides in the width direction X of the thick seal portion 22 (also in the width direction of the tab terminal 15) is closer to the root portion 22a2 side than to the top portion 22a1 side. The gap between both side walls 22a is formed to be wide. That is, the interval W2 of the root portion 22a2 is wider than the interval W1 between the top portions 22a1 of the pair of side walls 22a and 22a.

The sealant film 17 is formed of a resin that can be bonded to the tab terminal 15 and can be firmly bonded to the opposing walls 14 and 14 constituting the exterior body 13. In the present embodiment, the sealant film 17 is formed of the same modified PP as the innermost layer of the exterior body 13.
The sealant film 17 has a shape corresponding to the heat seal portion 21 and is formed wider than the width W3 (see FIG. 3) of the tab terminal 15. The sealant film 17 covers both the front and back surfaces of the tab terminal 15, is disposed between the opposing walls 14, 14 of the exterior body 13, and is joined to the opposing walls 14, 14.

Next, the secondary battery 10 is manufactured by housing the positive electrode layer 11 and the negative electrode layer 12 in the exterior body 13 and heat-sealing in a state where the tab terminal 15 protrudes from the exterior body 13. A method for manufacturing the battery 10 will be described.
FIG. 4 is a partially enlarged cross-sectional view of the sealing device 30 that performs heat sealing using the seal bar 31.

  The sealing device 30 includes a receiving portion 33 having a flat upper surface and a seal bar 31 facing the receiving portion 33. The opposing walls 14 and 14 of the exterior body 13 are disposed between the seal bar 31 and the receiving portion 33. The exterior body 13 can be pressurized by relatively displacing the seal bar 31 and the receiving portion 33 while heating.

The seal bar 31 of the present embodiment is formed to be recessed from the first pressure surface 31a so as to correspond to the tab terminal 15 and the first pressure surface 31a that pressurizes the absence region 23b of the tab terminal 15. And a recess 31c that pressurizes the existence region 23a. The recess 31 c has a second pressure surface 31 b for pressing a portion corresponding to the tab terminal 15.
The recess 31 c has a width wider than the tab terminal 15 and a width narrower than the sealant film 17.

Further, the side walls 31d (one side wall 31d not shown) formed on both sides in the width direction X of the recess 31c are closer to the opening 31c1 side of the recess 31c than to the second pressure surface 31b side which is the bottom surface of the recess 31c. It is formed so that the interval between 31d becomes wide.
Specifically, as shown in FIG. 4, the side walls 31d formed on both sides in the width direction X of the recess 31c are inclined so that the interval W6 on the opening 31c1 side is wider than the interval W5 on the second pressure surface 31b side. It is formed as a surface. In the seal bar 31, the internal angle θ of the corner 31e formed by the first pressure surface 31a and the side wall 31d becomes an obtuse angle.

In order to heat-seal the opposing walls 14 and 14 of the exterior body 13 by the sealing device 30, the positive electrode layer 11 and the negative electrode layer 12 are accommodated in a container, such as a separator or an electrolyte solution, in the exterior body 13 with one side opened. At the same time, it is accommodated in the exterior body 13.
With the tab terminals 15 of the accommodated positive electrode layer 11 and negative electrode layer 12 covered on both sides with the sealant film 17, a part of the tab terminal 15 protrudes from the exterior body 13 to the outside, and the opposing wall of the exterior body 13 14 and 14.

By relatively moving the seal bar 31 and the receiving portion 33 in the closing direction, the opposing walls 14 and 14 of the exterior body 13 with the tab terminals 15 interposed therebetween are heated from the outside by the seal bar 31 and the receiving portion 33. Pressurize. The absence region 23b of the tab terminal 15 is pressurized by the first pressure surface 31a and the receiving portion 33 of the seal bar 31, and the tab terminal 15 is pressurized by the second pressure surface 31b and the receiving portion 33 to perform heat sealing.
At this time, for example, the modified PP layer 14a and the sealant film 17 on the facing wall 14 are melted to change the shape. When the modified PP layer 14a and the sealant film 17 are pushed by the side walls 31d of the seal bar 31, the pressure is applied in a state in which the relative position in the width direction X between the concave portion 31c of the seal bar 31 and the tab terminal 15 is generated. However, the thickness of the sealant film 17 and the outer package 13 can be secured. Since the internal angle θ1 of the corner 31e is an obtuse angle, the opposing wall 14 and the like are hardly damaged during pressurization.

Thus, the positive electrode layer 11 and the negative electrode layer 12 can be sealed in the outer package 13 with the tab terminal 15 protruding from the outer package 13.
Then, it is possible to manufacture the secondary battery 10 by performing a remaining process suitably.

As described above, according to the secondary battery 10 of the present embodiment, the thick seal portion 22 of the heat seal portion 21 provided in the existence region 23a of the tab terminal 15 is closer to the root portion 22a2 side than the top portion 22a1 side. The gap is formed to be wide. Therefore, the thickness of the sealant film 17 and the exterior body 13 can be ensured even if the relative position between the recess 31 c of the seal bar 31 and the tab terminal 15 is shifted. Therefore, it is easy to disperse stress and vibration applied to the thick seal portion 22 of the heat seal portion 21 during manufacture and use, and damage to the heat seal portion 21 can be prevented.
Therefore, leakage of the stored liquid can be more reliably prevented in the heat seal portion 21 in which the tab terminal 15 protrudes to the outside.

  Moreover, according to the seal bar 31 of this embodiment, the recessed part 31c for pressurizing the area | region 23a of the tab terminal 15 is formed so that it may become so wide as the opening side. Therefore, the thickness of the sealant film 17 and the exterior body 13 can be ensured even when pressure is applied in a state where the relative position between the concave portion 31 c of the seal bar 31 and the tab terminal 15 is shifted.

  Therefore, it is possible to prevent the sealant film 17 and the exterior body 13 from being damaged during pressurization. Further, in the secondary battery 10 obtained by heat sealing with the seal bar 31, it is easy to disperse stress and vibration applied to the thick seal portion 22 of the heat seal portion 21 during use, and damage to the heat seal portion 21 is prevented. Can be prevented.

Furthermore, according to the manufacturing method of the secondary battery 10, heat sealing is performed by using the seal bar 31 formed so that the recess 31c for pressurizing the existence region 23a of the tab terminal 15 becomes wider toward the opening 31c1 side. The positive electrode layer 11 and the negative electrode layer 12 are sealed in the outer package 13 with the tab terminals 15 protruding from the outer package 13. Therefore, the thickness of the sealant film 17 and the exterior body 13 can be ensured even when pressure is applied in a state where the relative position between the concave portion 31 c of the seal bar 31 and the tab terminal 15 is shifted.
Therefore, the sealant film 17 and the outer package 13 can be prevented from being damaged during pressurization. Further, in the manufactured secondary battery 10, it is easy to disperse stress and vibration applied to the thick seal portion 22 of the heat seal portion 21 during use, and damage to the heat seal portion 21 can be prevented.

As mentioned above, although one embodiment of the present invention has been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and modifications, combinations, and deletions within a scope that does not depart from the gist of the present invention. Etc. are also included.
For example, in the said embodiment, although the side wall 31d of the recessed part 31c in the seal bar 31 was formed as an inclined surface, it is not specifically limited.
For example, as shown in FIG. 5, the side wall 31d may be formed in a plurality of steps so that the interval between the side walls 31d becomes wider toward the opening 31c1 of the recess 31c. By reducing the depth per step of the recess 31c, it is possible to prevent the sealant film 17 and the exterior body 13 from being damaged during pressurization.
Further, as shown in FIG. 6, the end of the side wall 31d on the opening 31c1 side is formed in a curved surface shape (arc shape) so that the interval between the side walls 31d becomes wider toward the opening 31c1 side of the recess 31c. Is also possible. Since the inner angle θ1 of the corner 31e is an obtuse angle, it is possible to prevent the sealant film 17 and the exterior body 13 from being damaged during pressurization.

  In the above description, the tab terminal 15 is formed of a metal plate. However, for example, the tab terminal 15 can be formed by crushing a metal pipe or a metal rod into a flat shape. By forming the tab terminal 15 in this way, burrs are hardly formed on the tab terminal 15.

DESCRIPTION OF SYMBOLS 10 ... Secondary battery 11 ... Positive electrode layer 12 ... Negative electrode layer 13 ... Exterior body 14 ... Opposite wall 14a ... Modified PP layer 14b ... Aluminum layer 14c ... Nylon layer 14d ... PET layer 15 ... Tab terminal 17 ... Sealant film 21 ... Heat seal Part 22: Thick seal part 22a ... Side wall 23a ... Presence area 23b ... Absence area 30 ... Sealing device 31 ... Seal bar 31a ... First pressure surface 31b ... Second pressure surface 31c ... Recess 31d ... Side wall 33 ... Receiving part

Claims (3)

In the secondary battery in which the positive electrode layer and the negative electrode layer are sealed in the outer package, and at least one tab terminal of the positive electrode layer and the negative electrode layer protrudes from the heat seal portion of the outer package,
Thick seal portions of the heat seal portion are provided in the region where the tab terminal is present, and the side walls formed on both sides in the width direction of the thick seal portion are closer to the root side than the top side. A secondary battery characterized in that it is formed so that a space between walls is wide. At least one tab terminal of the positive electrode layer and the negative electrode layer accommodated in the exterior body is projected between the exterior body and covered with a sealant film wider than the tab terminal, and between the opposing walls of the exterior body. In the seal bar that is placed and heated while being heated from the outside,
A first pressure surface that pressurizes the absence region of the tab terminal;
A concave portion that is formed to be recessed from the first pressure surface so as to correspond to the tab terminal, and pressurizes an existing area of the tab terminal,
The side wall formed on both sides in the width direction of the concave portion is formed so that the interval between the side walls becomes wider toward the opening side. A secondary battery that seals the positive electrode layer and the negative electrode layer in the exterior body in a state where the tab terminal protrudes from the exterior body by heat-sealing using the seal bar according to claim 2. A manufacturing method of
The tab terminal covered with the sealant film is disposed between the opposing walls of the exterior body,
By pressurizing while heating by the seal bar from the outside of the exterior body, the absence area of the tab terminal is pressurized by the first pressure surface, and the existence area of the tab terminal is pressurized by the recess. A method for producing a secondary battery.

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