JP4637305B2 - Battery pack - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a battery pack in which a plurality of rectangular unit cells are arranged and stored in one container.
[0002]
[Prior art]
In recent years, with the widespread use of portable electronic devices such as notebook personal computers, in order to reduce the thickness and weight, there is a demand for higher energy density of secondary batteries that occupy the largest volume and weight of the devices. In response to such demands, active development of battery active material has been actively carried out, and the energy density of the battery has been dramatically improved in recent years. In particular, the lithium ion secondary battery has the highest energy density among the existing batteries, and is most expected for the above demand.
[0003]
However, in order to incorporate a lithium ion secondary battery or the like as a product in a portable electronic device, a single battery cell is manufactured by enclosing the positive and negative electrode active material materials in a package, and further, the required voltage and required electricity of the device The number of unit cells corresponding to the capacity needs to be stored in one pack container together with a protection circuit or the like to form a battery pack.
[0004]
In many cases, the battery pack is required to have a rectangular shape in accordance with the shape of the portable electronic device. In this case, it is desirable that the single battery cell accommodated in the battery pack is also formed in a rectangular shape.
[0005]
In order to increase the energy density of such a battery pack, it is necessary to increase the energy density of each rectangular unit battery cell and to increase the charging efficiency of the rectangular unit battery cell into the battery pack.
[0006]
As a means for improving the energy density of the rectangular single battery cell, it is possible to use a laminate sheet obtained by laminating an aluminum sheet and a polymer sheet as a package instead of a conventional metal package. Is disclosed.
[0007]
The structure of this rectangular unit cell will be described with reference to the drawings. 3A is a perspective view of a rectangular unit battery cell, and FIG. 3B is a cross-sectional view thereof. In this rectangular unit cell 5, a battery element 1 in which a positive electrode, a negative electrode, and a separator are integrated with an adhesive is enclosed in a package 10 formed by laminating two planar laminate sheets 2 together with an electrolytic solution. Yes. The laminate sheet 2 is provided with heat fusion properties on the inner surface of the sheet, and the package 10 is sealed by bonding the laminate sheets 2 around the battery element 1 to each other by heat fusion. The seal portion 3 has a shape protruding from the side surface of the rectangular single battery cell 5. A lead terminal 4 for electrically connecting the battery element 1 to the outside of the package is drawn out through the seal portion 3. Since the package formed of the laminate sheet can be made lighter than the metal package, a rectangular unit battery cell having a higher weight energy density can be manufactured.
[0008]
A number of these rectangular unit cells are arranged according to the required voltage and required capacity of an electronic device in which the battery is incorporated, and the battery pack is manufactured by placing the rectangular unit battery cell in a pack container. FIGS. 4A and 4B show an example where three rectangular unit cells are arranged. 4A is a side view and FIG. 4B is a top view. The rectangular unit cells 5 are arranged in parallel and fixed to the battery pack container with an adhesive tape or the like. Each lead terminal 4 is electrically connected by a lead wire 7 and the end thereof is connected to the protection circuit 6, and then the battery pack is sealed to manufacture the battery pack. In FIG. 4, the battery pack container is omitted.
[0009]
[Problems to be solved by the invention]
However, when a battery pack is manufactured using such rectangular unit cells, there are the following problems.
(1) The seal portion 3 to which the laminate sheet 2 is bonded has a flange shape that protrudes from the side surface of the rectangular single battery cell 5. For this reason, when the rectangular unit cells are arranged in the battery pack, the area of the seal portion 3 is occupied in addition to the area of the battery element. On the other hand, the width of the seal portion 3 affects the airtightness of the rectangular single battery cell 5 and relates to the reliability as a battery. Therefore, it is desirable to increase the width as much as possible, and it is necessary to make the width at least several mm or more. . For this reason, there has been a problem that the volume energy density of the battery pack cannot be improved due to the decrease in the area occupied by the rectangular unit cells.
[0010]
(2) In the process of installing the rectangular unit cells in the battery pack, it is necessary to align the individual rectangular unit cells at a predetermined position in the battery pack container and fix them by bonding to the container at that position. Therefore, the process was complicated. Further, since the sliding friction on the surface of the laminate sheet is small, the rectangular single battery cell is liable to be displaced during the bonding operation, and there is a problem that the workability of the process is poor.
[0011]
(3) Further, in the completed battery pack, the rectangular unit cells are not fixed to each other. Therefore, the positional deviation is likely to occur due to vibration or the like, and when the positional deviation occurs, the lead wire 7 is disconnected. There was a possibility.
[0012]
The present invention has been made in view of the above-described problems of the prior art, and an object thereof is to provide a battery pack having a high volumetric energy density, easy manufacture, and high reliability.
[0013]
In order to achieve the above object, a first battery pack of the present invention is a battery pack in which a plurality of rectangular unit cells each having a seal flange protruding from an outer peripheral portion are arranged and stored in a single container. In adjacent rectangular unit cells, the seal flanges are arranged in parallel so that they are vertically inverted, the rectangular unit cells are uniaxial mirror symmetrical, and the adjacent rectangular unit cells are in contact with each other on the side surfaces. It is characterized by comprising . With this configuration, the seal flange projecting on the side surface is hidden behind the adjacent rectangular unit cell, so that the area occupied by the rectangular unit cell in the battery pack is reduced. In addition, since the rectangular unit cells are joined to each other, installation in the battery pack container is easy, and occurrence of misalignment after completion can be suppressed.
[0014]
Moreover, since the rectangular unit cells fit and contact each other, the occupation area of the rectangular unit cells can be minimized and the junction area between the rectangular unit cells can be increased.
[0015]
Moreover, it is preferable that the cross-sectional shape except the seal flange part of the said rectangular unit cell is trapezoid, and the side surface which contact | abutted in the said adjacent rectangular unit cell contributes to mutual joining as a rubbing surface by this. Thereby, the joining of rectangular cell cells can be made more rigid.
[0016]
Specifically, the rectangular unit cell includes a battery element having a positive electrode and a negative electrode facing each other with a separator holding an electrolytic solution therebetween, and a package enclosing the battery element inside, Preferably, the package is formed of a container having an outer peripheral flange portion projecting outward at an open edge with an open top surface, and a lid sheet that seals the open portion of the container and joins the outer peripheral flange portion. . The package having this configuration has an advantage that it can be easily manufactured by press molding a sheet-like material.
[0017]
The second battery pack of the present invention is a battery pack comprising a plurality of rectangular unit cells arranged and housed in one container,
The rectangular single battery cell is in contact with the adjacent rectangular single battery cell, and the outer surface including the area in which the rectangular single battery cell is in contact with each other has heat-fusibility. It is characterized by being joined together. With this configuration, the rectangular unit battery cells can be easily joined in an arrayed state, so that the rectangular unit battery cell can be easily installed in the battery pack. In addition, it is possible to suppress the occurrence of displacement of the rectangular single battery cell in the battery pack.
[0018]
The rectangular unit cell package includes an outer polymer layer forming an outer surface of the package, an inner polymer layer forming an inner surface of the package, and a metal layer formed between the polymer layers, and the outer polymer layer. Both the layer and the inner polymer layer are preferably heat-fusible. Thereby, both the sealing of the package of the rectangular unit cell itself and the joining of the unit cells in the battery pack can be easily performed by heat fusion, and the manufacturing process of the battery pack can be shortened.
[0019]
Furthermore, the battery pack having the characteristics of the first battery pack and the second battery pack according to the present invention has a small occupied area of the rectangular unit battery cell, and the rectangular unit battery cell is joined and installed in the battery pack container. Can be easily performed, and the occurrence of displacement of the rectangular unit cell can be suppressed.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings. FIGS. 1A and 1B are a perspective view (FIG. 1A) and a cross-sectional view (FIG. 1B) of a single rectangular battery cell housed in the battery pack of the present invention. FIG. 2 is a side view of the inside of the battery pack container when the rectangular unit battery cell shown in FIG. 1 is arranged and accommodated in the battery pack container to manufacture the battery pack of the present invention (FIG. 2A). FIG. 2 is a top view (FIG. 2B).
[0021]
The rectangular single battery cell shown in FIGS. 1A and 1B is an example of a rectangular single battery cell having a seal flange protruding from the outer periphery, and the package 16 of the rectangular single battery cell 15 is open at the top. The container 13 includes an outer peripheral flange projecting outward at the edge, and a lid sheet 14 that seals the open portion of the container 13 and joins the outer peripheral flange. Here, the portion where the outer peripheral flange and the lid sheet 14 are bonded together constitutes the seal flange 12 protruding from the outer peripheral portion. The container 13 can be easily manufactured, for example, by press molding a sheet-like material.
[0022]
Inside the package 16, a battery element 1 formed by winding a sheet-like material formed by repeatedly bonding a positive electrode and a negative electrode opposite to each other with a separator holding an electrolyte solution and bonding them together in advance is housed. Keep it. The lead terminal 4 for electrically connecting the battery element 1 to the outside of the package 16 is sealed between the container 13 and the lid sheet 14 and pulled out to the outside.
[0023]
The container 13 and the lid sheet 14 may be sealed under reduced pressure. In this case, it is preferable to form a recess 17 on the side surface of the container 13 on the short side. The side surface on the short side of the container 13 is in contact with the roll cross section of the roll-shaped battery element 1 formed by winding as described above in order to draw out the lead terminal 4. Since the roll cross section has a sharp shape, the side surface on the short side of the container 13 cannot follow the shape of the battery element 1 when sealing under reduced pressure, and is easily deformed into a bowl shape. By attaching the dent 17, the mechanical strength of the side surface of the container 13 can be improved and deformation of the container 13 can be suppressed.
[0024]
Next, as shown in FIGS. 2 (A) and 2 (B), the rectangular unit cells 15 are juxtaposed so that the seal flanges 12 are turned upside down in the adjacent rectangular unit cells.
[0025]
This arrangement results in a structure in which the seal flange 12 is hidden behind the adjacent rectangular cell 15, so that the width of the seal flange 12 does not directly contribute to the occupied area of the combined rectangular cell. Accordingly, it is possible to increase the volume energy density of the battery pack by increasing the width of the seal flange 12 and suppressing the occupied area of the rectangular battery cell in the battery pack while ensuring the reliability of the rectangular battery cell 15.
[0026]
Next, the parallel rectangular unit cells 15 are joined to each other on the upper and lower surfaces of the rectangular unit cells via the seal flange 12. Joining is performed by thermal fusion. In the present embodiment, the outer surface including the region where the rectangular unit cells 15 are in contact with each other, that is, the outer surface including the seal flange has heat-fusibility, and the rectangular unit cells are arranged so as to be in contact with each other. It is possible to easily join by heating while applying a certain pressure to the joint.
[0027]
In order to impart heat-fusibility to the outer surface of the rectangular unit cell 15, a heat-sealable film such as ethylene acrylic acid copolymer (hereinafter referred to as EAA), polyethylene, polypropylene, or the like is formed on the surface of the rectangular unit cell 15. Paste in advance. Among them, EAA is most preferable as a material to be attached to the outer surface because it can be heat-sealed at a low temperature.
[0028]
It should be noted that the heat fusibility is imparted, that is, the film is stuck on the surface of the rectangular unit cell 15 where the rectangular unit cell 15 is in contact with each other, but may be applied to the entire outer surface. good.
[0029]
As another method for imparting heat-fusibility to the outer surface of the rectangular unit cell 15, the outer polymer layer that forms the outer surface of the package can be made of a heat-fusible polymer material. As the heat-fusible polymer material, EAA, polyethylene, polypropylene or the like can be used.
[0030]
Furthermore, if the inner polymer layer that forms the inner surface of the package is also made of a heat-fusible polymer material, in addition to the process of joining the rectangular battery cells, the sealing process of the battery cell package can be easily performed by heat sealing. Battery pack production efficiency can be improved.
In this case, it is preferable to form a metal layer for blocking moisture between the outer polymer layer and the inner polymer layer. In addition to the metal layer, various layers having functions such as improving package mechanical strength and improving adhesion between layers may be formed. Aluminum or the like can be used as the metal layer. The same material as that of the outer polymer layer can be used for the inner polymer layer. Since high-temperature heating after sealing the rectangular unit cell 15 is not preferable, it is desirable to use a material that is heat-sealed at a low temperature such as EAA for the outer polymer layer. On the other hand, for the inner polymer layer, it is desirable to use a material having high adhesive strength such as polypropylene in order to ensure battery reliability.
[0031]
Adhesion by heat-fusibility is the most preferable joining means in that it can be manufactured easily and safely because it does not require chemical treatment, but in addition to this, various adhesion methods including adhesion by so-called double-sided tape etc. Can be used. However, for the convenience of manufacturing the battery pack, it is desirable that the rectangular unit battery cells have no adhesiveness when arranged at a predetermined position, and that the adhesiveness can be expressed by any method after the arrangement. As such an adhesion method, for example, the outer surface of a rectangular unit battery cell is covered with a cellulose-based coating material, and after being arranged in the battery pack container, an organic solvent such as acetone or ethyl acetate is sprayed to soften the cellulose-based coating material and adhere. A way to do this is conceivable.
[0032]
In addition, it is preferable that the rectangular single battery cell 15 is uniaxial mirror-symmetrical, and the adjacent rectangular single battery cell is contacting the side surface 18. Because of the uniaxial mirror-symmetrical shape, the side surfaces of the rectangular unit cells 15 can be brought into contact with each other when the adjacent rectangular unit cells are turned upside down, thereby minimizing the area occupied by the rectangular unit cells 15 in the battery pack container. In addition, the bonding area between the rectangular unit cells 15 can be increased to increase the bonding strength.
[0033]
Moreover, when the rectangular single battery cell 15 is contacting the side surface 18, it is preferable that the cross-sectional shape except the seal flange 12 of the rectangular single battery cell 15 is a trapezoid. As a result, the abutting side surface 18 can function as a rubbing surface, so that the bonding of the rectangular unit cells 15 can be made stronger. When the above-described container 13 is formed by press-molding a sheet-like material, the shape is inevitably a trapezoidal cross-sectional shape on the principle of press-molding. Although it is preferable to form the recess 17 on the side surface of the container 13 as described above, since the recess 17 only needs to be formed on the side surface on the short side that does not contact each other, this affects the function of the rubbing surface. Never do.
[0034]
Next, the rectangular unit battery cells 15 that are joined to form an assembled battery are installed in the battery pack container (not shown) together with the protection circuit 6 and fixed. For fixing, adhesive means such as pressure-sensitive adhesive tape and adhesive, and mechanical fixing means such as screws can be used. Further, the rectangular single battery cell 15 may be fixed by utilizing the heat fusion property of the cell.
[0035]
Since the rectangular unit cells 15 are assembled into batteries, they can be installed in the battery pack container at a time, and alignment of the individual rectangular unit cells 15 is not necessary. Therefore, the installation process of the rectangular single battery cell can be greatly simplified as compared with the conventional battery pack.
[0036]
Next, the lead terminals 4 of the respective rectangular unit cells 15 are electrically connected to each other by the lead wires 7, the ends thereof are connected to the protection circuit 6, and the battery pack container is sealed to complete the battery pack.
[0037]
In the battery pack thus completed, the rectangular unit cells 15 arranged in the pack are joined to each other. Therefore, the rectangular unit cells 15 are unlikely to be displaced due to vibration or the like. Can be prevented.
[0038]
In addition, joining rectangular single battery cells by heat fusion is effective when arranging not only the rectangular single battery cells having the seal flange but also single battery cells of any shape in the battery pack.
[0039]
【Example】
Examples of the present invention will be described. First, the battery element was produced by the following method. As the positive electrode, a positive electrode active material composed of 87 wt% LiCoO ₂ , graphite powder KS-68 wt%, and binder (polyvinylidene fluoride) 5 wt% was formed on an aluminum foil having a thickness of 100 μm and a thickness of 20 μm. As the negative electrode, a negative electrode active material composed of 95 wt% mesophase microbead carbon (manufactured by Osaka Gas) and 5 wt% binder was formed on a copper foil having a thickness of 100 μm and a thickness of 20 μm. The positive electrode and the negative electrode were bonded with a polyethylene porous sheet (Asahi Kasei ME9630) as a separator with an adhesive mainly composed of polyvinylidene fluoride to form an integral sheet. The integrated sheet-like material was cut into a certain width and wound, and then lead terminals made of aluminum and copper were attached to the positive electrode and the negative electrode to form a battery element.
[0040]
Next, the sufficiently dried battery element was immersed in an electrolytic solution containing ethylene carbonate and diethyl carbonate as solvents and lithium hexafluorophosphate as an electrolyte, and 0.5 to 1.0 at a current density of 1 mA / cm ^2. After performing the time charging operation, the battery element was taken out.
[0041]
A container and a bottom forming a package were prepared by the following method. A three-layer aluminum laminate sheet in which an aluminum foil was sandwiched between EAA and an unstretched polypropylene sheet was press-molded and formed into a box shape with a flange to produce a container. The outer dimension of the flange portion was 41.7 × 138.5 mm, and the box-shaped portion had a trapezoidal cross section with a bottom surface of 31.7 × 128.5 mm, a top surface of 28.6 × 125.4 mm, and a height of 6.5 mm. The same sheet was cut to an outer size of 41.7 × 138.5 mm to prepare a lid sheet.
[0042]
Place the battery element on the lid sheet, cover the container element so that the lead terminal of the battery element is sandwiched between the flange parts, and apply a pressure of 1 kg / cm ² under a reduced pressure of 50 torr between the flange part of the container and the lid sheet. And sealed by heating at 150 ° C. for 1 second. The seal width was 5 mm.
[0043]
Three rectangular unit cells formed in this way were prepared, turned upside down, and arranged in parallel so that the side surfaces abut each other and the seal portion overlaps the upper surface of the box-shaped portion of the container. Thereafter, the whole unit was heated at 80 ° C. for about 1 second while applying a pressure of 0.5 kg / cm ² , thereby joining the rectangular unit cells to each other.
[0044]
The rectangular unit cells thus integrated were fixed to the battery pack container with an adhesive tape. A lead wire was soldered to each lead terminal, and each rectangular unit battery cell and an adjacently installed protection circuit were electrically connected. The battery pack was completed by sealing the battery pack container.
[0045]
In the battery pack thus formed, the total occupied area of the rectangular single battery cells was 14.1 cm ² , which was about 80% of the area (17.3 cm ² ) obtained by triple the area of the single rectangular battery cell. That is, the volume energy density can be improved by about 20% compared to the battery pack manufactured by the conventional method.
[0046]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained.
[0047]
In the battery pack of the present invention, in the adjacent rectangular unit cells, the seal flanges are arranged side by side so that they are vertically inverted, and the adjacent rectangular unit cells are joined on the upper and lower surfaces via the seal flange, The area occupied by the rectangular single battery cells in the battery pack can be reduced, and a battery pack having a high volumetric energy density can be obtained. In addition, since the rectangular unit cells are assembled, the installation process in the battery pack container can be simplified and the battery pack can be easily manufactured. Furthermore, since the positional deviation of the completed rectangular unit battery cell can be suppressed, a highly reliable battery pack in which lead disconnection or the like hardly occurs can be obtained.
[0048]
Further, when the rectangular single battery cells have a uniaxial mirror symmetry shape and adjacent rectangular single battery cells abut each other on the side surfaces, the volume energy density of the battery pack can be maximized, and the rectangular single battery cells are fitted to each other. Since they are in close contact with each other, it is possible to further increase the reliability of the battery pack by expanding the joint area between the rectangular unit cells.
[0049]
Furthermore, when the cross-sectional shape excluding the seal flange portion of the rectangular unit cell is a trapezoid, the side surfaces in contact with the adjacent rectangular unit cell contribute to mutual joining as a rubbing surface. The reliability of the pack can be further increased.
[0050]
A container having an outer peripheral flange portion projecting outward from an open edge with an open top surface, and a lid sheet that seals the open portion of the container and is joined to the outer peripheral flange portion. By forming, the package can be easily manufactured by press-molding a sheet-like material, and the manufacturing process of the battery pack can be simplified.
[0051]
Further, the battery pack of the present invention has a rectangular unit battery cell because the outer surface including the region where the rectangular unit battery cells are in contact with each other has a heat sealing property, and the rectangular unit battery cells are bonded to each other by the heat sealing. The cells can be easily joined in an arrayed state, and the battery pack can be easily produced. In addition, it is possible to suppress the occurrence of positional deviation of the rectangular single battery cell in the battery pack, and to improve the reliability of the battery pack.
[0052]
The rectangular unit cell package has a structure having an outer polymer layer that forms the outer surface of the package, an inner polymer layer that forms the inner surface of the package, and a metal layer formed between these polymer layers. By making both the layer and the inner polymer layer heat fusible, both the sealing of the rectangular unit cell's own package and the joining of the unit cells in the battery pack can be easily performed by thermal fusion. This can shorten the battery pack manufacturing process.
[0053]
Furthermore, in the battery pack of the present invention, adjacent rectangular unit cells are juxtaposed in parallel so that the seal flange is turned upside down, and the rectangular unit cells are joined to each other by providing heat fusion to the outer surfaces that contact each other. Thus, the volume energy density of the battery pack can be increased, and the rectangular unit battery cells can be easily joined and installed to easily manufacture the battery pack, thereby preventing the positional deviation of the rectangular unit battery cells and improving the reliability of the battery pack. Can be increased.
[Brief description of the drawings]
FIG. 1 is a perspective view (A) and a cross-sectional view (B) of a rectangular single battery cell housed in a battery pack of the present invention.
FIG. 2 is a side view (A) and a top view (B) showing the internal structure of the battery pack of the present invention.
FIG. 3 is a perspective view (A) and a sectional view (B) of a rectangular single battery cell housed in a conventional battery pack.
FIG. 4 is a side view (A) and a top view (B) showing the internal structure of a conventional battery pack.
[Explanation of symbols]
15 rectangular cell, 12 seal flange, 1 battery element, 16 package, 13 container, 14 lid sheet, 17 dent, 18 side of rectangular cell, 4 lead terminal, 7 lead wire, 6 protection circuit.

Claims (3)

A battery pack comprising a plurality of rectangular unit cells each having a sealing flange projecting from an outer peripheral portion and arranged in a single container,
In adjacent rectangular unit cells, the seal flanges are parallel to each other so that they are vertically inverted,
A battery pack characterized in that the rectangular single battery cell has a uniaxial mirror-symmetric shape, and adjacent rectangular single battery cells are in contact with each other on the side surfaces . The cross-sectional shape excluding the seal flange portion of the rectangular unit cell is a trapezoid, and thereby the side surfaces in contact with each other in the adjacent rectangular unit cell contribute to mutual joining as a rubbing surface. The battery pack according to 1 . The battery pack according to claim 1 or 2 , wherein the adjacent rectangular single battery cells are joined to each other via the seal flange.

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