JP2009110803A - Pack battery - Google Patents

Abstract

Provided is a battery pack having a configuration capable of meeting demands for further miniaturization, weight reduction and cost reduction while ensuring rigidity of the entire package.
A lead plate 13a of a thermosensitive element 13 is in a state along a sealing plate 11a of a unit cell 11, and is arranged from a connecting portion with a terminal 11b toward one end on the upper right in the X-axis direction. .
The holder 12 has an end portion 12c at a location corresponding to the lower left end of the lead plate 13a in the X-axis direction. In the case 20, a step 20 b is formed on the outer wall surface along the sealing plate 11 a of the unit cell 11 in accordance with the end 12 c of the holder 12. Reinforcing ribs are formed on the opening edge in the portion where the step 20b is formed.
[Selection] Figure 1

Description

  The present invention relates to a battery pack, and more particularly to a battery pack having a configuration in which a core pack is housed inside a case.

Packed batteries are often used in mobile devices such as mobile phones and PDAs (Personal Digital Assistants). There are many types of battery packs, and an example will be described with reference to FIG.
As shown in FIG. 6, the battery pack has a configuration in which the core pack 60 is accommodated in the inner space 70 a of the bottomed shallow dish-like case 70 and the opening of the case 70 is sealed by sticking the exterior label 80. Have A submergence determination label 90 is also attached to the outer side surface of the case 70.

The core pack 60 includes a unit cell 61, a holder 62 attached to the unit cell 61, a protection circuit board 64, a thermal element 63, and the like.
The holder 62 has an L-shape composed of a strip-shaped portion 62a extending in the X-axis direction and a similarly strip-shaped portion 62b extending in the Y-axis direction. An opening 62c is provided in the portion 62a extending in the X-axis direction. The opening 62c is opened at a position corresponding to the terminal 61b projecting from the sealing portion 61a in the unit cell 61 in the Y-axis direction.

The thermosensitive element 63 is provided with two lead plates 63a and 63b on both sides. The thermal element 63 is arranged along the outer surface of the strip-shaped portion 62 a of the holder 62, and the lead plate 63 a is connected to the terminal 61 b of the unit cell 61 through the opening 62 c of the holder 62.
The protection circuit board 64 is provided with a protection circuit IC 64a and lead plates 64b and 64c extending from the board. The lead plate 64b has a strip shape, the end plate is connected to the lead plate 63b of the thermal element 63, the lead plate 64c has an L shape, and the end portion is the other extreme in the unit cell 61. It is connected to a child (not shown). The protection circuit board 64 is arranged along the outer surface of the strip-shaped portion 62 b in the holder 62.

Incidentally, there is a demand for further downsizing (higher density) of the battery pack. In response to such a demand, for example, a technique for reducing the size of the package as a whole by devising the arrangement of the unit cells has been proposed (Patent Document 1). In addition, in order to make the battery pack smaller, the case 70 is also made thinner.
Even when the thickness of the case 70 is reduced, it is necessary to maintain the rigidity of the battery pack as a whole. However, it is not preferable in terms of appearance quality to provide ribs on the inner wall of the case 70 or the like. For this reason, in order to reduce the size of the battery pack, in the conventional example shown in FIG. 6, the holder 62 is used to ensure rigidity. As shown in FIG. 6, the holder 62 is provided with a tip portion 62 d that is not along the lead plate 63 a of the thermal element 63, so that a gap is mainly formed between the unit cell 61 and the inner surface of the case 70. Therefore, the rigidity of the entire package can be ensured.
Japanese Patent No. 3749084

Here, the battery pack is desired to be further reduced in size, weight, and cost, but the front end portion 62d of the holder 62 is simply omitted in the battery pack according to the related art shown in FIG. When trying to do so, a gap is generated between the unit cell 61 and the case 70, and the rigidity of the entire battery pack cannot be ensured.
Accordingly, an object of the present invention is to provide a battery pack having a configuration that can cope with further downsizing, weight reduction, and cost reduction while ensuring the rigidity of the entire package.

In order to achieve the above object, the present invention employs the following configuration.
The battery pack according to the present invention has a configuration in which a unit cell, a lead, and a holder are housed in a case.
Unit cell: It has an exterior body formed by a plurality of outer walls, and a positive or negative terminal is formed on one outer wall of the plurality of outer walls.

・ Lead: Connected to the terminal of the unit cell.
-Holder: Inserted between the unit cell and the lead to hold the lead.
・ Case; Holds unit cell, lead and holder.
The lead has one end in the vicinity of the connection portion with the terminal of the unit cell and extends from the portion toward one end of the one outer wall along the wall surface of the one outer wall. ing.

In addition, the holder has an end portion at or near the junction of the lead with the terminal.
In addition, the side wall of the case facing the one outer wall of the unit cell has a shape in which a step is formed between the portion where the holder is inserted between the unit cell and the portion where the holder is not inserted. Have.

  In the battery pack according to the present invention, a step is formed between the portion where the holder is inserted and the portion where the holder is not inserted between the side wall of the case and the unit cell in accordance with the end position of the holder. It has become a shape. Therefore, since the holder is inserted between the outer wall of the case and the unit cell in the upper part with the step as a boundary, the rigidity in the part is kept high. On the other hand, the holder is not inserted in the lower part with the step as a boundary, but a large gap does not remain between the outer wall of the case and one outer wall of the unit cell. The rigidity is also kept high.

Further, in the battery pack according to the present invention, the end of the holder is matched with or brought close to one end of the lead, so that the holder in the further portion is omitted. That is, as compared with the battery pack according to the prior art shown in FIG. In addition, the cost can be reduced by cutting the holder.
Moreover, in the battery pack according to the present invention, the occupied space in the mounted device can be made smaller than the battery pack according to the prior art shown in FIG.

Therefore, the battery pack according to the present invention has a configuration that can meet demands for further downsizing, weight reduction, and cost reduction while ensuring the rigidity of the entire package.
In the battery pack according to the present invention, the following variations can be employed.
(Variation 1)
In the battery pack according to the above basic invention, the one outer wall is a sealing plate in the unit cell, and the terminal is a convex electrode protruding from the outer surface of the sealing plate toward the side wall of the case facing the sealing plate. It can be set as the concrete structure of these.

(Variation 2)
In the battery pack according to the present invention, the side wall formed with the step in the case has an upper part corresponding to the part where the holder is inserted, a lower part corresponding to the part where the holder is not inserted, and an upper part. Think separately from the connecting part connecting the lower part. In this case, the battery pack according to the present invention adopts a configuration in which a striking plate-like reinforcing rib that connects the outer surfaces of each other is formed in a part between the lower part and the connecting part. You can also. By forming reinforcing ribs between the outer surfaces, in the battery pack according to this variation, the rigidity of the entire package can be more reliably ensured even when the thickness of the case is reduced.

(Variation 3)
In the battery pack according to the variation 2, the case has a bottomed shallow dish shape having a rectangular parallelepiped space, and a configuration in which an opening portion is sealed by attaching an exterior label can be employed. And when employ | adopting this structure, the reinforcement rib is formed in the opening side edge in the said side wall surface, or its vicinity. In the battery pack according to this variation, it is possible to employ a configuration in which the reinforcing rib is formed in a bowl shape at the opening side edge or in the vicinity thereof on the side wall of the case. By employ | adopting such a structure, an exterior label can be reliably stuck also to a level | step-difference part.

(Variation 4)
The battery pack according to the variation 3 employs a configuration in which the exterior label is attached in a state of covering a part of the reinforcing rib, and the end side of the part is shaped along the oblique side of the reinforcing rib. You can also By defining the formation positions of the reinforcing ribs as described above, it is possible to secure the allowance between the label edge and the case edge without strict alignment when attaching the exterior label. That is, by adopting the above configuration, in the battery pack according to this variation, the exterior label is difficult to peel off, and the problem that the unit cell is exposed to the outside due to misalignment or the like hardly occurs.

(Variation 5)
In the battery pack according to Variation 3 or Variation 4, it is possible to adopt a configuration in which the end of the holder has a tapered shape that widens from the bottom surface of the case to the opening side. In the case of adopting such a configuration, it is possible to eliminate the catch between the step portion and the end of the holder when the core pack is fitted into the case. That is, by making the end of the holder into a tapered shape, the core pack can be smoothly fitted into the case.

  The core pack is a state in which a holder and a lead are assembled to a unit cell.

Hereinafter, the best mode for carrying out the present invention will be described with reference to an example. The embodiment used in the following description is an example used for easy understanding of the configuration, operation, and effect of the present invention, and the present invention is not limited to the essential features. Not limited.
1. Overall Configuration The configuration of the battery pack 1 according to the embodiment will be described with reference to FIG.

As shown in FIG. 1, the battery pack 1 according to the present embodiment stores the core pack 10 in the inner space 20 a of the bottomed shallow dish-shaped case 20, and the opening of the case 20 is the outer label 30. It has the structure sealed by sticking. A submergence determination label 40 is also attached to the outer side surface of the case 20 (the side surface in the X-axis direction in FIG. 1).
The core pack 10 is configured by assembling a unit cell 11, a holder 12 attached thereto, a protection circuit board 15, a thermal element 13, a lead plate 14, and the like.

  The unit cell 11 is, for example, a lithium ion battery. The outer shape of the unit cell 11 has a substantially rectangular parallelepiped shape in which the Z-axis direction dimension is smaller than both the X-axis and Y-axis direction dimensions. In the unit cell 11, the outer can has a function as a positive electrode terminal, and a terminal 11b provided at a substantially central portion in the X-axis direction of the sealing plate 11a is a negative electrode terminal. The terminal 11b is a convex electrode protruding from the outer surface of the sealing plate 11a toward the side wall of the case 20 facing the terminal plate 11a.

The holder 12 has an L-shape composed of a strip-shaped portion 12a extending in the X-axis direction and a similarly strip-shaped portion 12b extending in the Y-axis direction. An opening 12d is provided in the portion 12a extending in the X-axis direction. The opening 12d is opened at a position corresponding to the terminal 11b protruding from the sealing portion 11a in the unit cell 11 in the Y-axis direction.
The thermosensitive element 13 is provided with two lead plates 13a and 13b on both sides. The thermal element 13 is arranged along the outer surface of the strip-shaped portion 12 a of the holder 12, and the lead plate 13 a is connected to the terminal 11 b of the unit cell 11 through the opening 12 d of the holder 12.

  The protection circuit board 15 includes a protection circuit IC 15a and conductive lands 15b and 15c formed on the board. A lead plate 13b of the thermal element 13 is connected to the conductive land 15b, and a short side portion 14b of an L-shaped lead plate 14 is connected to the conductive land 15c. The protective circuit board 15 is disposed along the outer surface of the strip-shaped portion 12 b in the holder 12.

The long side portion 14 a of the lead plate 14 has a tip portion connected to a side surface in the Y-axis direction with respect to the outer can of the unit cell 11 (not shown). The outer can of the unit cell 11 has positive polarity.
The case 20 has a bottomed shallow dish shape, and the inner space 20 a has a flat rectangular parallelepiped shape corresponding to the shape of the core pack 10. Further, the case 20 has a step 20b on the outer surface of the side wall where the sealing plate 11a of the unit cell 11 faces when the core pack 10 is stored. The step 20b in the case 20 will be described with reference to FIG.

2. Step 20b in case 20
FIG. 2 is an enlarged partial perspective view of a portion where the step 20b in the case 20 of the battery pack 1 is formed.
As shown in FIG. 2, the right side wall of the case 20 in the Y-axis direction has a shape having a step 20b between the lower step portion 20c and the upper step portion 20d. That is, in the case of the battery pack 1 according to the present embodiment, the side wall in front of the Y-axis direction is not flat. That is, a step is formed at both the outside and inside of the case 20 at the level difference 20b.

  Further, as shown in FIG. 2, a reinforcing rib 20e that connects the outer wall surface of the portion connecting the lower portion 20c and the upper portion 20d and the outer wall surface of the lower portion 20c is formed on the step 20b. ing. The reinforcing rib 20e has a fire plate shape (substantially triangular shape), and is formed in a bowl shape at the opening edge portion of the wall surface on which the step 20b is formed. By forming the reinforcing rib 20e, the rigidity of the side wall on the right side in the Y-axis direction of the case 20 is further increased.

As shown in FIG. 1, in the battery pack 1, the corresponding part 30 a of the exterior label 30 has an inclined edge corresponding to the shape of the reinforcing rib 20 e in the part of the case 20 where the step 20 b is formed. ing.
3. Arrangement Relationship of Holder 12 with Unit Cell 11 Returning to FIG. 1, the holder 12 is arranged in a state along the two outer surfaces of the unit cell 11. Specifically, the strip-shaped portion 12a extending in the X-axis direction in the holder 12 is along the sealing plate 11a of the unit cell 11, and the strip-shaped portion 12b extending in the Y-axis direction is along the side wall at the back in the X-axis direction.

  The strip-shaped portion 12a disposed along the sealing plate 11a of the unit cell 11 does not extend along the entire area in the X-axis direction of the sealing plate 11a, but extends from the vicinity of the terminal 11b of the unit cell 11 along the upper right portion in the X-axis direction. Arranged. The sealing plate 11 a of the unit cell 11 faces the inner surface of the side wall of the case 20 without being covered with the holder 12 in a portion extending from the terminal 11 b toward the lower left in the X-axis direction.

4). Advantages of battery pack 1 (1) Weight reduction and cost reduction As shown in FIG. 1, in battery pack 1 according to the present embodiment, a holder 12 in core pack 10 is a strip-shaped portion extending in the X-axis direction. 12a is not the size that covers the entire sealing plate 11a of the unit cell 11, but the size that covers only the region from the terminal 11b to the upper right in the X-axis direction. Therefore, the size can be reduced as compared with the battery pack holder 62 according to the related art shown in FIG. Thus, in the battery pack 1 according to the present embodiment, the holder 12 can be reduced in weight and cost as compared with the battery pack according to the related art.

(2) Miniaturization In the battery pack 1, a step 20b is provided on one side wall of the case 20 (the side wall on the front side in the Y-axis direction in FIG. 1) corresponding to the end 12c of the holder 62 (FIG. 1). See). As shown in FIG. 2, in the lower portion 20c with the step 20b as a boundary, the width of the package in the Y-axis direction is narrower than the others, and the package is accordingly reduced in size. The superiority of this miniaturization will be described with reference to FIG.

As shown in FIG. 3, the battery pack 1 according to the present embodiment is used as a power supply source of a mobile phone 500. The mobile phone 500 is provided with a terminal 501 such as a USB terminal. However, by using the battery pack 1, the terminal 501 can be arranged using the space generated by the lower portion 20c.
Therefore, by using the battery pack 1, the space in the cellular phone 500 can be effectively used, which contributes to downsizing of the device to which the battery pack 1 is attached.

(3) Productivity As shown in FIG. 1, in the holder 12 of the battery pack 1, the end 12 c of the strip-shaped portion 12 a extending in the X-axis direction has an oblique side rather than a right angle in the X-axis direction. . As shown in FIG. 4, since the end side of the end portion 12 c is inclined, the step 20 b of the case 20 and the holder 12 are not caught when the core pack 10 is inserted into the case 20. Work becomes possible.

(4) Safety and Appearance Quality As shown in FIG. 2, in the battery pack 1 according to the present embodiment, a striking plate-like reinforcing rib 20e is formed with respect to the step 20b. As described above, the reinforcing rib 20e is formed at the opening edge portion of the wall surface on which the step 20b is formed. And as shown in FIG. 1, as for the exterior label 30, the edge 30a of the location corresponding to the reinforcement rib 20e of the case 20 is a hypotenuse. The superiority of this will be described with reference to FIGS. 5 (a) and 5 (b).

FIG. 5A shows a case where the exterior label 30 is attached to the case 20 as designed, and FIG. 5B shows a case where the exterior label 30 is slightly misaligned.
As shown in FIG. 5A, when the exterior label 30 is attached as designed, a distance W _{1 is} secured at a minimum between the oblique side of the exterior label 30 and the opening edge of the case 20. . On the other hand, as shown in FIG. 5B, when the exterior label 30 is attached at a position deviated from the design position, the gap between the oblique side of the exterior label 30 and the opening edge of the case 20 is becomes the distance W ₃ being a minimum (indicated by arrow B).

However, as shown in FIG. 5 (b), in the battery pack 1 according to the present embodiment, the outer end side of the reinforcing rib 20e is a hypotenuse, and the corresponding part of the exterior label 30 is a hypotenuse corresponding to this. pasting Chakudai the outer label 20 in this portion is the distance W ₂ maintained at a maximum (indicated by arrow a). Therefore, in the battery pack 1 according to the present embodiment, even when the sticking position of the exterior label 30 is slightly deviated from the design value, a sufficient sticking allowance can be secured and the exterior label 30 is difficult to peel off.

Therefore, in the battery pack 1 according to the present embodiment, the exterior label 30 is not easily peeled off, and the internal unit cell 11 is not exposed to the outside when the user is using it. That is, the battery pack 1 has an advantage from both viewpoints of safety and appearance quality.
A form as a comparison target is shown in FIGS.
As shown in FIG. 5C, the case 21 as a comparison target does not have the oblique sides of the reinforcing rib as shown in FIG. 2, and has two sides 31a and 31b that are substantially orthogonal to each other. The exterior label 31 is also formed with end sides along the two sides 31 a and 31 b of the case 21. When employing such a configuration, as shown in FIG. 5 (c), but if the outer label 31 is adhered as designed can ensure lamination Chakudai distance W _4, FIG. 5 ( as shown in d), when the adhering position of the outer label 31 is deviated slightly from the design value, for example, only pasting Chakudai portion (portion shown by arrow C) the distance W ₅ corresponding to the side 31b secured It will not be possible.

As shown in FIG.5 (d), when the sticking allowance becomes small, the adhesive strength of an exterior label falls and it becomes easy to peel. In such a case, the unit cell 11 housed inside may be exposed to the outside, which is not desirable from the viewpoint of safety and appearance quality.
However, even when the configurations shown in FIGS. 5C and 5D are adopted, the case 21 has a step, so that the advantages such as weight reduction, cost reduction, size reduction, and productivity are achieved. Can be better. Therefore, in the case where the positional accuracy related to the attachment of the exterior label 31 can be maintained high, it is possible to adopt these forms.

5). Other Matters In the above embodiment, the battery pack 1 in which the unit cell 11 of one cell is incorporated is taken as an example, but the present invention determines the number of unit cells to be built in, the appearance shape of each, the battery type, and the like. It is not limited to what was employ | adopted by the said embodiment. For example, it is possible to adopt a configuration in which unit cells of two or more cells are arranged so that the sealing plate formed with the terminals faces in the same direction and stored in the case in this state.

  Further, in the battery pack 1 according to the above embodiment, the unit cell 11 having a flat and substantially rectangular parallelepiped external shape is adopted, but the present invention is not limited to this, and various types of batteries are adopted as the unit cell. Is possible. For example, a cylindrical battery or the like can be employed. As for the type of battery, in addition to the lithium ion battery employed in the above embodiment, various batteries such as a nickel-cadmium battery and a nickel-hydrogen battery can be employed. Note that the polarity of the terminal 11b varies depending on the type of battery.

Moreover, in the said embodiment, although the bottomed shallow dish-like case 20 was employ | adopted and the structure which covers the opening part with the exterior label 30 was employ | adopted, the battery pack concerning this invention is necessarily limited to such a structure. Not. For example, a resin sealing body can be employed instead of the exterior label.
Also, the configuration of the core pack 10 in the battery pack 1 is not limited to the configuration shown in FIG. For example, the arrangement of the protection circuit board 15 and the arrangement and handling of the lead plate 14 or the thermal element 13 can be appropriately changed according to packaging. For example, when a nickel metal hydride battery is adopted as a unit cell, it may not be necessary to provide a protective circuit board or a thermal element.

  The present invention is a technique useful for realizing a battery pack that can be used as a power source for a mobile phone, a PDA, etc., and that can meet the demands of miniaturization, weight reduction, and cost reduction.

It is a model expanded view which shows the structure of the battery pack 1 which concerns on embodiment. 4 is an enlarged view showing a stepped portion 20b in the case 20. FIG. 6 is a schematic diagram showing the arrangement of the battery pack 1 and the connector 501 in the mobile phone 500. FIG. 4 is a schematic perspective view showing a process of fitting the core pack 10 into the case 20. FIG. (A), (b) is a schematic diagram which shows the sticking state of the exterior label 30 with respect to case 20 in the battery pack 1 which concerns on embodiment, (c), (d) is a pack as a comparison object It is a schematic diagram which shows the sticking state of the exterior label 31 with respect to the case 21 with a battery. It is an expanded view which shows the structure of the battery pack which concerns on a prior art.

Explanation of symbols

1. Pack battery 10. Core pack 11. Unit cell 12. Holder 13. Thermal element 14. Lead plate 15. Protection circuit board 20, 21. Case 20b. Level difference 30,31. Exterior label 40. Submergence determination label 500. Mobile phone 501. connector

Claims (6)

A unit cell having an exterior body formed by a plurality of outer walls, wherein a positive electrode or a negative electrode terminal is formed on one outer wall of the plurality of outer walls;
A lead connected to the terminal of the unit cell;
A holder inserted between the unit cell and the lead, and holding the lead;
A battery pack having the unit cell and a case for housing the lead and the holder,
The lead has one end in the vicinity of the connection point with the terminal, and extends from the portion toward one end of the one outer wall along the wall surface of the one outer wall,
The holder has an end portion at or near the connection portion with the terminal of the lead,
The side wall of the case facing the one outer wall of the unit cell is formed with a step between a portion where the holder is inserted and a portion where the holder is not inserted. A battery pack characterized by having a shape. The one outer wall is a sealing plate in the unit cell,
The battery pack according to claim 1, wherein the terminal is a convex electrode that protrudes from an outer surface of the sealing plate toward the side wall of the case. The side wall formed with the step in the case includes an upper part corresponding to a part where the holder is inserted, a lower part corresponding to a part where the holder is not inserted, the upper part and the lower part. When thinking separately from the connecting part that connects
3. The pack according to claim 1, wherein a striking plate-like reinforcing rib that connects the outer surfaces of each other is formed between the lower portion and the connecting portion. battery. The case has a bottomed shallow dish shape having a rectangular parallelepiped space, and the opening portion is sealed with the sticking of an exterior label,
4. The battery pack according to claim 3, wherein the reinforcing rib is formed in a bowl shape at or near the opening side edge of the side wall. 5. The said exterior label is stuck in the state which also covers a part of said reinforcement rib, and the edge in the said part becomes a shape along the oblique side of the said reinforcement rib. The battery pack described. 6. The battery pack according to claim 4, wherein the end of the holder has a tapered shape that expands from the bottom surface of the case to the opening side.

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