KR101264440B1 - Secondary battery - Google Patents

Abstract

According to an aspect of the present invention, there is provided a secondary battery including: an electrode assembly including a battery unit and electrode tabs drawn from the electrodes of the battery unit; A case accommodating the electrode assembly and having a side flange portion and a front flange portion extended outwardly and sealed at both side surfaces and a front surface of the accommodation space; And a circuit board connected to the electrode tab exposed to the outside of the case through the front flange part, and after the front flange part and the electrode tab are bent upward, only the electrode tab is bent downward again. The portion of the electrode tab in contact with the front flange portion is wrapped with an insulating protective member, the front end of the protective member is characterized in that located on the reference line below or equal to the best end of the front flange portion.

Description

Secondary Battery {SECONDARY BATTERY}

1A and 1B are perspective views of each manufacturing step of the pouch type secondary battery according to one embodiment of the present invention;

2a to 2e is a perspective view of each manufacturing step of the pouch-type secondary battery according to another embodiment of the present invention,

3 is a front view of the pouch type secondary battery illustrated in FIG. 2D.

Explanation of symbols on the main parts of the drawings

114, 114 ': first electrode tab 115, 115': second electrode tab

116, 116 ': protective member 117, 117': protective member

120: case 121, 121 ': 1st area | region

122, 122 ': second region 124, 124': side flange portion

125: front flange 130, 130 ': circuit board

The present invention relates to a secondary battery, on the one hand, while using the same length of the battery pack, while increasing the length of the electrode assembly to enable high capacity, and on the other hand to be placed on the front of the pouch case with the circuit board standing up The present invention relates to a secondary battery that achieves structural stability during the process and facilitates the pack process by preventing the electrode tab from protruding out of the region of the case when viewed from the front.

In general, a secondary battery refers to a battery that can be charged and discharged, unlike a primary battery that cannot be charged, and is widely used in the field of advanced electronic devices such as a cellular phone, a notebook computer, a camcorder, and the like. In particular, lithium secondary batteries have an operating voltage of 3.6V, which is three times higher than nickel-cadmium batteries or nickel-hydrogen batteries, which are widely used as electronic equipment power sources, and are rapidly increasing in terms of high energy density per unit weight.

Such lithium secondary batteries mainly use lithium-based oxides as positive electrode active materials and carbon materials as negative electrode active materials. Moreover, although lithium secondary batteries are manufactured in various shapes, typical shapes include cylindrical shape, square shape, and pouch type.

The pouch type secondary battery includes an electrode assembly, a pouch-shaped case in which the electrode assembly is accommodated, and a circuit board positioned at one side of the case and electrically connected to the electrode assembly.

The electrode assembly includes a battery part formed by stacking or winding a positive electrode plate, a negative electrode plate, and a separator interposed between the two electrode plates, an electrode tab drawn out from the two electrode plates, and a protective tape surrounding the electrode tab. The role of the protective tape will be described later.

The pouch-shaped case includes a first region in which an accommodating space is provided to allow the electrode assembly to be seated, and a second region integrally connected to one end of the first region. The pouch film usually has a form in which a polymer film is laminated inside and outside the metal foil. Side flanges and front flange portions extending outwardly are formed at edges of the first region, specifically, both side surfaces and the front surface of the storage space to seal the pouch case by being heat-sealed with the second region.

When sealing the pouch case, at least one electrode tab of the electrode tabs is exposed to the outside of the pouch case. Typically, both the positive electrode tab and the negative electrode tab are exposed to the outside of the pouch case through the front flange part. At this time, a portion of the electrode tab in contact with the front flange of the pouch case is wrapped by an insulating protective tape.

The protective tape serves to increase the adhesiveness between the electrode tab and the front flange portion, and to increase the sealing reliability of the front flange portion at the portion where the electrode tab passes. In addition, the protective tape also serves to prevent electrical connection between the aluminum foil of the pouch film and the electrode tab.

On the other hand, by folding the side flanges formed on both sides of the pouch case to one side to reduce the battery width. In addition, the electrode tab exposed to the outside through the front flange portion is bent by about 180 degrees and then connected to the circuit board. Accordingly, the circuit board is positioned on the front flange portion.

However, in the conventional case, the protective tape protrudes forward from the front flange of the pouch case. In other words, the tip of the protective tape is located ahead of the front end of the front flange portion. This structure is adopted to prevent the electrical connection between the aluminum foil of the pouch film and the electrode tab, which may occur during thermal fusion. In general, the tip of the protective tape protrudes from the tip of the front flange portion is about 2.0 to 2.5 mm.

When bending the electrode tab exposed to the outside through the front flange, bending is performed at a position corresponding to the tip of the protective tape, so the length of about 2.0 to 2.5 mm is required as a space irrelevant to electricity generation. . If the length of this space can be added to the length of the battery portion of the electrode assembly that generates electricity, a higher capacity battery can be produced. In other respects, a battery of the same capacity may be made smaller.

Furthermore, if the circuit board is placed upright instead of lying down, a higher capacity battery may be manufactured. To this end, the front flange portion and the electrode tab are bent in the direction in which the storage space is formed (hereinafter referred to as "upper"), and only the electrode tab is bent downward again to connect the electrode tab with the circuit board upright. You can consider the method.

However, even in this case, if the protective tape protrudes upward from the front flange portion of the pouch case, even if the electrode tab is bent downward, the bent portion of the electrode tab protrudes upward of the pouch case when viewed from the front side. The protruding phenomenon of the electrode tab bent portion causes a non-uniform thickness of the battery. That is, although the thickness of the cell side in which the battery part is housed is thin, the thickness of the terminal side (connecting portion of the electrode tab and the circuit board) is thick, which makes it difficult to later pack the process.

Of course, if the front flange portion is formed in a smaller length, the bent portion of the electrode tab may not protrude, but the length of the front flange portion requires a certain length or more to secure the sealing of the pouch case. The protruding phenomenon cannot be prevented.

The present invention is to overcome the above-mentioned conventional problems, one object of the present invention is to increase the length of the electrode assembly while using a pack battery of the same length to enable high capacity.

Another object of the present invention is to ensure the structural stability during the pack process by placing the circuit board standing on the front of the pouch case, to facilitate the pack process by preventing the electrode tab from protruding out of the area of the case when viewed from the front will be.

A secondary battery according to an aspect of the present invention for achieving the above object,

An electrode assembly including a battery unit and electrode tabs drawn from the electrodes of the battery unit;

A case accommodating the electrode assembly and having a side flange portion and a front flange portion extended outwardly and sealed at both side surfaces and a front surface of the accommodation space; And

And a circuit board connected to the electrode tab exposed to the outside of the case through the front flange part.

A portion of the electrode tab in contact with the front flange portion is wrapped with an insulating protective member, the front end of the protective member is located on the reference line behind or the same as the top end of the front flange portion.

At this time, the portion of the front flange portion passing through the electrode tab is located behind the front end of the protective member may be exposed the front portion of the protective member.

On the other hand, the secondary battery according to another aspect of the present invention for achieving the above object,

An electrode assembly including a battery unit and electrode tabs drawn from the electrodes of the battery unit;

A case accommodating the electrode assembly and having a side flange portion and a front flange portion extended outwardly and sealed at both side surfaces and a front surface of the accommodation space; And

And a circuit board connected to the electrode tab exposed to the outside of the case through the front flange part.

After the front flange portion and the electrode tab are bent upwards, only the electrode tab is bent downward again, and a portion of the electrode tabs contacting the front flange portion is wrapped with an insulating protective member, and the tip of the protective member is It is characterized in that located on the baseline below or the same as the lower end than the front flange portion.

At this time, the portion of the front flange portion passing through the electrode tab is located below the front end of the protective member may be exposed the upper portion of the protective member.

In addition, the electrode tab is preferably defined in the area of the case when viewed from the front.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

1A and 1B, a secondary battery according to an exemplary embodiment of the present invention includes an electrode assembly (not shown), a pouch-shaped case 120 accommodating the same, and electrode tabs 114 and 115 drawn out of the electrode assembly. It includes a circuit board 130 connected to).

The electrode assembly includes a battery unit (not shown), electrode tabs 114 and 115 which are respectively drawn out from the two electrodes of the battery unit, and protective members 116 and 117 surrounding the electrode tab.

Here, the battery unit is wound in a substantially jelly roll form with the first electrode plate, the separator, and the second electrode plate laminated. Here, the first electrode plate is a metal foil, such as aluminum, and a positive electrode active material (for example, lithium cobalt (LiCoO2), lithium nickel (LiNiO2), lithium manganate (LiMn2O4) or its coated with a predetermined thickness on the metal foil Equivalents). In addition, the second electrode plate may be made of a metal foil such as copper, and a negative electrode active material (for example, graphite or an equivalent thereof) coated with a predetermined thickness on the metal foil. In addition, the separator may be a conventional gel type polymer electrolyte, but the present invention is not limited thereto.

In addition, when the first electrode plate is aluminum, the first electrode tab 114 connected thereto may be aluminum, and when the second electrode plate is copper, the second electrode tab 115 connected thereto may be nickel. However, the present invention is not limited to these materials.

In addition, when the pouch case is sealed, at least one electrode tab of the electrode tabs is exposed to the outside of the pouch case. Typically, the first and second electrode tabs 114 and 115 are disposed through the front flange 125. The pouch case is exposed outside. At this time, a portion of the electrode tabs 114 and 115 that contacts the front flange portion 125 of the pouch case is wrapped by the insulating protective members 116 and 117. The protective members 116 and 117 increase the adhesiveness between the electrode tab and the front flange portion, and also increase the sealing reliability of the front flange portion at the portion where the electrode tab passes. In addition, the protection members 116 and 117 also prevent electrical connection between the aluminum foil of the pouch film and the electrode tab.

Meanwhile, the pouch-shaped case 120 includes a first region 121 in which a storage space is provided to allow the electrode assembly to be seated, and a second region 122 integrally connected to a rear end of the first region 121. It is provided with. Side flanks 124 and front flanges 125 extending outward are formed on both sides and the front surface of the storage space of the first region 121 to seal the pouch case by being heat-sealed with the second region 122. I can do it.

The pouch case 120 may be generally formed of three layers. That is, the first insulating layer serving as the outer surface of the case 120 and the second insulating layer serving as the inner surface of the case 120 may be formed around the metal thin film.

The metal thin film is made of ductile aluminum, steel, stainless steel, or the like, which has a high strength so that external moisture, chemical and mechanical impacts are not transmitted to the electrode assembly, and can easily form an inner space of sufficient depth. It may be made, but the material is not limited thereto. In addition, the first insulating layer may be formed of nylon, polyethylene terephthalate (PET), or equivalent thereof, which is not easily peeled off from the metal thin film during the formation process of the storage space, but is not limited thereto. In addition, the second insulating layer may also be modified polypropylene (CPP) or an equivalent thereof, which is highly corrosion resistant and thermally fused to each other, but the material is not limited thereto.

In addition, by folding the side flange portions 124 formed on both sides of the pouch case in the direction in which the storage space is formed (hereinafter referred to as "upward") to reduce the battery width, exposed to the outside through the front flange portion 125 The electrode tabs 114 and 115 are bent by about 180 degrees and then connected to the circuit board 130. Accordingly, the circuit board 130 is positioned to be laid down on the front flange portion 125. Here, the bending of the electrode tab is not limited to the above-described shape, and may be formed in a sand shape or a Z-type.

Referring to FIG. 1A, the front ends of the protective members 116 and 117 of the secondary battery according to the exemplary embodiment of the present invention are positioned on the same reference line as the rear side or the same as the uppermost end of the front flange portion 125.

At this time, the portion of the front flange portion 125 that passes through the electrode tab 114, 115 is located behind the front end of the protective member (116, 117) to expose the front portion of the protective member. . That is, the front portion of the front flange portion 125 is cut out of the portion where the electrode tabs 114 and 115 pass through the front flange portion 125, and thus the front portion of the protective members 116 and 117 is exposed.

-형)으로 되어 있다. 전면플랜지부(125)의 밀봉 확보를 위해 전면플랜지부(125)의 오려지는 부분은 최소화되는 것이 바람직하고, 동시에 전극탭(114, 115)을 절곡한 후 이 전극탭과 전면플랜지부(125)의 선단이 접촉하지 않도록 할 필요가 있다. 따라서, 팩 공정시 전극탭(114, 115)의 위치가 약간 이동할 수 있는 점을 고려하여 오려질 전면플랜지부의 앞 부분은 폭이 넓게 되도록 하고, 전면플랜지부의 밀봉 확보 측면에서 전면플랜지부의 뒷부분으로 갈수록 폭이 좁아지도록 오려, 도 1a 에 도시한 바와 같이

-형으로 오리는 것이 바람직하다.In addition, a portion where the electrode tabs 114 and 115 pass among the front ends of the front flange portion 125 has a trapezoidal shape in which one side is opened toward the front (

-Type). In order to secure the sealing of the front flange portion 125, the cutout portion of the front flange portion 125 is preferably minimized, and at the same time, the electrode tabs 114 and 115 are bent and the electrode tab and the front flange portion 125 are formed. It is necessary to make sure that the tip does not touch. Therefore, in consideration of the fact that the positions of the electrode tabs 114 and 115 can be slightly moved during the pack process, the front portion of the front flange to be cut should be wider, and the front flange portion may be secured in terms of securing the sealing of the front flange portion. As it goes to the rear, the width gets narrower, as shown in Fig. 1A.

It is preferable to cut into a -type.

In addition, referring to FIG. 1B, the electrode tabs 114 and 115 are bent upwards at positions corresponding to the tips of the protection members 116 and 117.

Therefore, unlike the related art, since the bent portion of the electrode tabs 114 and 115 do not protrude substantially forward compared to the uppermost end of the front flange portion 125, the length of the battery portion that can be stored in the pack battery of the same length may be long. Will be. That is, the length of the battery unit can be lengthened by the length of about 2.0 to 2.5 mm, so that a battery of higher capacity can be manufactured. In other respects, a battery of the same capacity can be made smaller.

2D and 2E, in the rechargeable battery according to another exemplary embodiment of the present invention, the front flange portion 125 ′ and the electrode tabs 114 ′ and 115 ′ are bent upwards, and the electrode tab 114 ′ is bent upwardly. , Only 115 'is bent downward again, and a portion of the electrode tabs 114' and 115 'contacting the front flange portion 125' is wrapped with insulating protective members 116 'and 117'. The front ends of the protective members 116 ′ and 117 ′ are positioned below the front end of the front flange portion 125 ′ (refer to FIG. 2D) or on the same reference line.

In this case, a portion of the front flange portion 125 ′, through which the electrode tabs 114 ′ and 115 ′ pass, is located below the front ends of the protective members 116 ′ and 117 ′ so that the protective member 116 is disposed. ', 117') is exposed. That is, the upper portion of the front flange portion 125 'is cut out of the portion where the electrode tabs 114' and 115 'pass through the front flange portion 125', so that the upper portion of the protective members 116 'and 117' is cut off. Exposed

-형)으로 되어 있다. 전면플랜지부(125')의 밀봉 확보를 위해 전면플랜지부(125')의 오려지는 부분은 최소화되는 것이 바람직하고, 동시에 전극탭(114', 115')을 절곡한 후 이 전극탭(114', 115')과 전면플랜지부(125')의 선단이 접촉하지 않도록 할 필요가 있다. 따라서, 팩 공정시 전극탭(114', 115')의 위치가 약간 이동할 수 있는 점을 고려하여 오려질 전면플랜지부의 윗부분은 폭이 넓게 되도록 하고, 전면플랜지부의 밀봉 확보 측면에서 전면플랜지부의 아랫부분으로 갈수록 폭이 좁아지도록 오려, 도 2c 및 도 2d 에 도시한 바와 같이

-형으로 오리는 것이 바람직하다.In addition, a portion of the front flange portion 125 ′ that passes through the electrode tabs 114 ′ and 115 ′ has a trapezoidal shape in which one side thereof is open upward.

-Type). In order to secure the sealing of the front flange portion 125 ', the cutout portion of the front flange portion 125' is preferably minimized, and at the same time, the electrode tabs 114 'and 115' are bent and the electrode tabs 114 'are bent. , 115 ') and the front flange portion 125' need not be in contact with each other. Therefore, in consideration of the fact that the positions of the electrode tabs 114 ′ and 115 ′ may be slightly moved during the pack process, the upper portion of the front flange portion to be cut should be wider, and the front flange portion in terms of securing sealing of the front flange portion will be widened. The width becomes narrower toward the lower portion of, as shown in FIGS. 2C and 2D.

It is preferable to cut into a -type.

In addition, referring to FIG. 2D, the electrode tabs 114 ′ and 115 ′ are bent downward at positions corresponding to the front ends of the protective members 116 ′ and 117 ′.

Referring to FIG. 3, the electrode tabs 114 ′ and 115 ′ are defined in an area of the case 120 ′ when viewed from the front. That is, as shown in the figure, the bent portion bent downward among the electrode tabs 114 'and 115' is positioned below the upper end of the case 120 ', and the ends of the electrode tabs 114' and 115 'are disposed. It is located on the bottom of the case 120 '.

Therefore, as shown in FIG. 2E, the electrode tabs 114 ′ and 115 ′ protrude upward when the circuit board 130 ′ is placed on the front surface of the front flange portion 125 ′ and then subjected to the pack process. As a result, the battery thickness becomes uniform throughout, thereby facilitating the pack process. That is, the structure which can ensure the sealing of a pouch case and can facilitate a pack process can be obtained.

Referring to FIG. 2E, the side flange portion 124 ′ is bent upward, and the circuit board 130 ′ is positioned on the front surface of the front flange portion 125 ′ bent upward.

A portion where the side flange portion 124 'and the front flange portion 125' meet each other may be bent to contact an inner side (see FIGS. 2B to 2D) or an outer side of the front flange portion 125 'folded upward. have.

Alternatively, a portion where the side flange portion 124 'and the front flange portion 125' meet each other may be bent to contact the inside or the outside of the side flange portion 124 'folded upward.

Connection terminals (not shown) formed on the rear surface of the circuit board 130 'are bonded to front surfaces of the electrode tabs 114' and 115 '.

Accordingly, the secondary battery according to the present embodiment has a substantially rectangular parallelepiped shape.

Therefore, the front flange portion 125 ′ is bent to the front side of the storage space in the first region 121 ′, thereby increasing the length of the storage space formed in the case 120 ′. That is, the length of the storage space can be increased without changing the overall length of the pack battery, and thus the length of the electrode assembly seated in the storage space can be increased, thereby increasing the capacity of the battery. Alternatively, from another aspect, it is possible to manufacture a battery smaller than the existing while having the same capacity as the existing battery capacity.

According to the secondary battery according to the present invention, the length of the electrode assembly is increased while using pack batteries of the same length, thereby enabling high capacity. In addition, the structure of the circuit board is placed on the front of the pouch case to achieve structural stability during the pack process, and when viewed from the front can facilitate the pack process by preventing the electrode tab from protruding out of the area of the case.

Although the present invention has been described with reference to the illustrated embodiments, it is merely exemplary, and the present invention may encompass various modifications and equivalent other embodiments that can be made by those skilled in the art. Will understand.

Claims (15)

An electrode assembly including a battery unit and electrode tabs drawn from the electrodes of the battery unit; A case accommodating the electrode assembly and having a side flange portion and a front flange portion extended outwardly and sealed at both side surfaces and a front surface of the accommodation space; And In the secondary battery comprising a circuit board connected to the electrode tab exposed to the outside of the case through the front flange portion, A portion of the electrode tab in contact with the front flange portion is wrapped with an insulating protective member, the front end of the protective member is located on the reference line behind or the same as the rear end of the front flange portion, The portion of the front flange portion of the front end portion passing through the electrode tab is located below the tip of the protective member, the secondary battery, characterized in that the front portion of the protective member is exposed. delete The method of claim 1, A portion of the front flange portion through which the electrode tab passes has a trapezoidal shape with one side open toward the front (

-) Secondary battery characterized in that. The method of claim 1, The electrode tab is a secondary battery, characterized in that bent in the direction (hereinafter referred to as "upper") the storage space is formed at a position corresponding to the front end of the protective member. 5. The method of claim 4, And the side flange portion is bent upward, and the circuit board is positioned on the front flange portion. An electrode assembly including a battery unit and electrode tabs drawn from the electrodes of the battery unit; A case accommodating the electrode assembly and having a side flange portion and a front flange portion extended outwardly and sealed at both side surfaces and a front surface of the accommodation space; And In the secondary battery comprising a circuit board connected to the electrode tab exposed to the outside of the case through the front flange portion, After the front flange portion and the electrode tab are bent upwards, only the electrode tab is bent downward again, and a portion of the electrode tabs contacting the front flange portion is wrapped with an insulating protective member, and the tip of the protective member is Located on the baseline below or the same as the front end of the front flange portion, A portion of the front flange portion of the front end portion passing through the electrode tab is located below the tip of the protective member, the secondary battery, characterized in that the upper portion of the protective member is exposed. delete The method of claim 6, A portion of the front flange portion where the electrode tab passes through has a trapezoidal shape in which one side is open upward.

-) Secondary battery characterized in that. The method of claim 6, The electrode tab is a secondary battery, characterized in that bent downward at a position corresponding to the tip of the protective member. The method of claim 6, The electrode tab is secondary battery, characterized in that defined in the area of the case when viewed from the front. The method of claim 6, And the side flange portion is bent upward, and the circuit board is positioned on the front surface of the front flange portion. The method of claim 11, The side portion where the side flange portion and the front flange portion meet, the secondary battery, characterized in that bent to be in contact with the inside or the outside of the front flange portion folded upward. The method of claim 11, The side portion where the side flange portion and the front flange portion meet, the secondary battery, characterized in that bent to be in contact with the inside or outside of the side flange portion folded upward. The method of claim 6, And a connection terminal formed on a rear surface of the circuit board is bonded to a front surface of the electrode tab. The method of claim 6, The battery is a secondary battery characterized in that the rectangular parallelepiped shape.

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