JP5512435B2 - Battery pack - Google Patents

Description

  The present invention relates to a battery pack, and more particularly to a structure for overcurrent countermeasures.

Battery packs are used in a wide range such as electric tools, electric assist bicycles, electric motorcycles, hybrid electric vehicles (HEV), and electric vehicles (PEV).
The battery pack has a configuration in which a plurality of unit cells are connected by a lead plate or the like, and a control circuit board is connected to the unit, and the unit is housed in a case. In the battery pack, a current fuse for interrupting the current when an overcurrent flows is inserted in the power input / output path.

  By the way, the battery pack is required to reduce the cost on the premise of ensuring its safety. In response to such a demand, for example, Patent Document 1 proposes using a fuse link instead of a current fuse conventionally used as a countermeasure against overcurrent. The fuse link is superior to current fuses in terms of lower component cost and higher space efficiency.

JP 2008-300315 A

However, the fuse link according to the prior art has a structure in which slits are provided on both sides in the width direction of the plate material, and a soluble portion is left in the center, and a force applied from the outside due to vibration during use of the battery pack, etc. However, improvement is necessary from the viewpoint of vibration resistance.
The present invention has been made to solve the above problem, and an object thereof is to provide a battery pack having high reliability and low manufacturing cost.

Therefore, the present invention adopts the following configuration.
The battery pack according to the present invention includes a unit cell, a battery holder that holds the unit cell, and a fuse link having one end connected to a positive electrode or a negative electrode of the unit cell. The fuse link is formed of a strip-shaped plate-like member, and in the region between the one end and the other end, a slit extending in the width direction is provided in the center region in the width direction. In the extending direction from one end portion to the other end portion, it is a portion remaining on both sides of the slit.

In the battery pack according to the present invention, a fuse link is used in place of the current fuse used for overcurrent countermeasures in the battery pack according to the prior art. For this reason, as compared with the battery pack according to the prior art, it is possible to reduce the manufacturing cost by replacing the current fuse with the fuse link.
Moreover, in the fuse link provided in the battery pack according to the present invention, a slit extending in the width direction is provided in the center region in the width direction of the plate-like member, and the portions remaining on both sides of the slit are the soluble portions. Therefore, the fuse link provided in the battery pack according to the present invention has a force when subjected to vibration as compared with a conventional fuse link having slits on both sides in the width direction and having a fusible portion in the center region in the width direction. Even when vibration is applied due to the dispersion of, it is difficult to break, and has higher vibration resistance than before.

As described above, the battery pack according to the present invention can be manufactured at low cost while having high reliability.
In the battery pack according to the present invention, the following variations can be employed as an example.
In the battery pack according to the present invention, in the above configuration, the battery holder has at least an insulating surface, and the fuse link is inserted through a hole provided in the wall of the battery holder. It is possible to employ a configuration in which the fusible part faces the inner wall surrounding the hole of the battery holder with a gap. Thus, high safety | security can be ensured by inserting a fuse link in the hole of a battery holder, and making a soluble part covered with the wall surrounding the hole of a battery holder. For example, it is effective for the UN Recommendations on Regulations on Transport of Dangerous Goods.

In addition, since the fusible part of the fuse link is arranged with a gap with respect to the inner wall surrounding the hole of the battery holder, the battery holder is ignited or fired even when the fusible part of the fuse link generates heat. Smoke can be prevented. From now on, it is effective to ensure high safety.
In the battery pack according to the present invention, in the above configuration, a part of the wall surrounding the hole in the battery holder protrudes toward the inside in the cross-sectional direction of the hole, and the top of the protruded part is a slit in the fuse link. A configuration in which a gap narrower than a gap between the fusible portion of the fuse link and the inner wall is provided with respect to the edge portion existing in the extending direction of the fuse link can be employed. Thus, in the battery pack according to the present invention, the fuse link is disposed close to the top of the protruding portion of the battery holder with a gap narrower than the gap between the fusible portion and the inner wall. Therefore, even when vibration is applied, it is possible to prevent the fusible portion of the fuse link from coming into contact with the battery holder. Therefore, high safety is ensured.

  In the battery pack according to the present invention, in the above configuration, the second unit cell is also held in the battery holder, and the positive electrode or the negative electrode of the second unit cell has one end portion and a soluble portion with respect to the fuse link. It is possible to adopt a configuration in which the connection is made in the region between the two, and the unit cell is electrically connected by the connection. In the case of adopting such a configuration, the fuse link has a function as a lead plate for connecting the batteries, and is excellent from the viewpoint of cost reduction and weight reduction. That is, compared with the case where the fuse link is provided separately from the lead plate for connecting the batteries, the number of parts can be reduced by one, and the cost and weight can be reduced.

  In the battery pack according to the present invention, in the above configuration, an element guiding portion is provided in a partial region of the battery holder so that the space narrows in a conical shape and the outer peripheral surface of the unit cell is exposed in the deepest part. The thermistor element is inserted into the element induction part of the battery holder, and the thermistor element is thermally coupled to the outer peripheral surface of the unit cell at the deepest part of the element induction part in the battery holder. Can be adopted. When such a configuration is adopted, when the battery pack is assembled, the thermistor element and the outer peripheral surface of the unit cell are inserted by inserting the thermistor element as far as possible into the element guiding portion that is a conical space. Can be reliably thermally coupled.

In addition, since the thermistor element is pushed into the deepest part of the element guiding portion, even when vibration is applied during use of the battery pack, the thermal coupling state between the thermistor element and the outer peripheral surface of the unit cell is reliably maintained. be able to.
In the battery pack according to the present invention, in the above configuration, the element lead wire is extended from the thermistor element, and the element lead wire is locked in a bent state at the outlet portion of the element guiding portion in the battery holder. A structure having a structure portion can be employed. In this way, when the element lead wire is bent and bent at the outlet portion of the element guiding portion, even if vibration is applied when the battery pack is used, the thermal coupling state between the thermistor element and the outer peripheral surface of the unit cell is further increased. It can be reliably maintained.

  The battery pack which concerns on this invention can also employ | adopt the structure that the thermistor element and the outer peripheral surface of a unit cell are thermally couple | bonded by interposition of a silicone resin part in the said structure. Thereby, the thermal coupling between the thermistor element and the outer peripheral surface of the unit cell can be further ensured.

It is a model perspective view which shows the external appearance structure of the battery pack 1 which concerns on embodiment. 2 is a schematic exploded perspective view showing the configuration of the battery pack 1. FIG. (A) is a model perspective view which expands and shows the arrangement | positioning part of the fuse link 31 of the battery pack 1, (b) is a model perspective view shown in the state which notched a part of the battery holder 11 of this part. FIG. 3 is a schematic plan view showing a configuration of a fuse link 31. FIG. (A) is a model perspective view which shows mutual arrangement | positioning relationship in the state which notched each part of the battery holder 11 and the fuse link 31, (b) is an upper surface of the battery holder 11 and the fuse link 31. It is the model top view seen more. It is a model perspective view which shows the attachment structure of the thermistor 60 in a battery pack. (A) is a schematic plan view showing a mutual arrangement relationship between the battery holder 11 and the thermistor 60, and (b) is a schematic cross-sectional view showing a mutual arrangement relationship between the unit cell 50 and the thermistor 60.

Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. In addition, the specific example shown below is an example used for easily explaining the configuration of the present invention and the operations and effects produced from the configuration, and the present invention is not limited to the components essential to the invention. The following specific examples are not limited at all.
1. Configuration of Battery Pack 1 The configuration of the battery pack 1 according to the embodiment will be described with reference to FIGS. 1 and 2.

As shown in FIG. 1, in the battery pack 1 according to the embodiment, battery holders 11 and 12 are combined, and a circuit board 41 is mounted on the upper part. And the lead wires 42-46 are extended from the circuit board 41 etc., and these are connected with an external apparatus.
The battery pack 1 may adopt a configuration in which the configuration shown in FIG. 1 is accommodated in an exterior body such as a case.

As shown in FIG. 1, the battery holder 11 is provided with a window at an end portion in the Y-axis direction, and a part of each of the connection lead plates 21 to 24 and the fuse link 31 is exposed. In addition, although illustration is abbreviate | omitted in FIG. 1, the battery holder 12 similarly has a window part, and the connection lead board is exposed from there. This will be described below with reference to FIG.
As shown in FIG. 2, the battery pack 1 includes 18 unit cells 50 each having a cylindrical appearance. Each of the 18 unit cells 50 is a lithium secondary battery, and is arranged in a two-stage stack so that the center axis of each unit cell is in the Y-axis direction. Eighteen unit cells 50 are held by the battery holders 11 and 12, and windows 11 a to 11 e,... Are provided at portions of the battery holders 11 and 12 that contact both ends of the unit cells 50.

The unit cell 50 is connected to each other by connection lead plates 21 to 29 and a fuse link 31, and is a portion extending to the upper side in the Z-axis direction of each connection lead plate 21 to 29 and the fuse link 31. Connected to lead wires.
As described above, the circuit board 41 is mounted on the upper portions of the battery holders 11 and 12 and screwed. Lead wires 42 to 44 are connected to the circuit board 41 and the like. The lead wires 45 and 46 are lead wires extending from the thermistor element, and are used for connection to an external device.

2. Arrangement Relationship Between Fuse Link 31 and Battery Holder 11 The mutual arrangement relationship between the fuse link 31 and the battery holder 11 will be described with reference to FIG. 3A is an enlarged view of a portion A in FIG. 1, and FIG. 3B is a schematic perspective view showing a state in which a part of the battery holder 11 is cut away.
As shown in FIG. 3A, the fuse link 31 has a strip-like plate-like member bent and has a connection portion 31a and a main body portion 31b. The main body portion 31b is fitted into a window portion 11e provided on the end surface of the battery holder 11 and joined to the end surface of the unit cell 50 held inside. Joining is performed by spot welding.

A boundary portion between the connection portion 31 a and the main body portion 31 b in the fuse link 31 is inserted through a hole 11 f provided in the battery holder 11. Thereby, the fuse link 31 is attached to the battery holder 11 without backlash.
As shown in FIG. 3B, the fuse link 31 is formed with a slit 31 c extending in the X-axis direction in a region arranged in the hole 11 f of the battery holder 11. The slit 31 c is formed in a substantially central region in the width direction (X-axis direction) of the fuse link 31.

Further, as shown in FIGS. 3A and 3B, the portion where the slit 31 c is provided in the fuse link 31 and both sides in the X-axis direction are covered with the cover portion 11 l of the battery holder 11. ing.
3. Configuration of Fuse Link 31 The configuration of the fuse link 31 will be described with reference to FIG. FIG. 4 is a plan view of the fuse link 31 in FIG.

  The fuse link 31 has a main body portion 31b extending in the Z-axis direction, and connection areas 31d and 31e with the unit cell 50 are provided. In the joining regions 31d and 31e with the unit cell 50, rounded bulges are provided in accordance with the shape of the end of the unit cell 50. In addition, slits are provided in the respective regions 31d and 31e in order to prevent generation of eddy currents during welding with the end face of the unit cell 50.

As described above, the slit 31c extending in the X-axis direction is provided in the upper end portion in the Z-axis direction of the main body portion 31b of the fuse link 31, that is, the portion close to the boundary between the main body portion 31b and the connection portion 31a. . In the fuse link 31, the slit 31 c is provided at the approximate center in the width direction, and the portions on both sides thereof are soluble portions 31 f and 31 g (C ₁ and C ₂ portions surrounded by a two-dot chain line).

  In the fuse link 31, when an overcurrent exceeding a certain level flows, the fusible portions 31f and 31g are blown. Thereby, the safety of the battery pack 1 is ensured. The fuse link 31 also has a function as a connection lead plate for electrically connecting the two unit cells 50. Thereby, compared with the case where a fuse link is provided separately, the cost of components can be reduced and the increase in weight can also be suppressed.

4). Structure of Hole 11f in Battery Holder 11 The structure of hole 11f in battery holder 11 will be described with reference to FIG. FIG. 5A is a schematic perspective view showing the battery holder 11 in a state where the fuse link 31 is inserted, with a part cut away, and FIG. 5B shows these as FIG. It is the top view seen from the direction of arrow D.

  As shown in FIG. 5A, in the hole 11f of the battery holder 31 through which the fuse link 31 is inserted, there are provided projecting portions 11g and 11h that project from both inner walls in the Y-axis direction. The protrusions 11g and 11h are provided at the substantially central portion of the hole 11f in the X-axis direction. The tops of the protrusions 11g and 11h are close to the slit 31c in the fuse link 31.

As shown in FIG. 5 (b), the protrusions 11g and 11h protruding from the inner wall of the hole 11f are close to the edge of the slit 31c of the fuse link 31, but do not come into contact in a steady state. It has become. And the other part in the hole 11f has a larger distance in the Y-axis direction than the part where the top parts of the projecting parts 11g and 11h face each other.
The cross-sectional shape of the hole 11 f as described above prevents the fusible portions 31 f and 31 g in the fuse link 31 from contacting the inner wall of the hole 11 f in the battery holder 11 even when vibration is applied to the battery pack 1. For this reason, it is suppressed that the heat of fusion of the fuse link 31 to the battery holder 11 is transmitted, and it is possible to respond to regulations recommended by the United Nations (UN) regarding dangerous goods transportation.

5. Superiority In the battery pack 1, a fuse link 31 is used instead of the current fuse used for overcurrent countermeasures in the battery pack according to the related art. For this reason, compared with the battery pack which concerns on a prior art, the manufacturing cost for the part which replaced the current fuse with the fuse link 31 can be reduced. Further, in the battery pack 1, since the fuse link 31 has a function as a connection lead plate for connecting the unit cells 50, the manufacturing cost and weight can be reduced by the amount that one connection lead plate can be omitted. Can be achieved.

In addition, since the battery holder 11 is provided with the cover portion 11l so as to cover the outside of the fusible portions 31f and 31g in the fuse link 31, even when the fusible portions 31f and 31g become high temperature, Safety is ensured.
Further, in the fuse link 31 provided in the battery pack 1, a slit 31c extending in the width direction is provided in a central region in the width direction of the plate-like member, and portions remaining on both sides of the slit 31c are soluble portions 31f and 31g. Therefore, compared with the conventional fuse link that has slits on both sides in the width direction and has a fusible part in the center region in the width direction, the force when receiving vibration is distributed and the vibration resistance performance is higher than before Have.

In the battery pack 1, the protrusions 11 g and 11 h are provided in the holes 11 f of the battery holder 11, so that the fusible portions 31 f and 31 g of the fuse link 31 can be formed in the holes in the battery holder 11 even when vibration is applied. There is no contact with the inner wall surrounding 11f.
As described above, the battery pack 1 according to the present embodiment can keep the manufacturing cost low while having high reliability.

6). Attachment Structure of Thermistor 60 The attachment structure of the thermistor 60 in the battery pack 1 will be described with reference to FIGS.
As shown in FIG. 6, in the battery pack 1, the thermistor element 60 is inserted into the element guiding portion 11 i provided in the battery holder 11. The element lead wires 61 and 62 extending from the thermistor element 60 are bent by approximately 90 [°] at a portion close to the exit portion of the element guiding portion 11i.

The battery holder 12 is provided with ribs 12a to 12d for locking the element lead wires 61 and 62 on the outer peripheral portion thereof (portions indicated by arrows E and F).
As shown in FIG. 7A, the element guiding portion in the battery holder 11 is formed of a conical space, and the cross-sectional area becomes smaller toward the back. As shown in FIG. 7B, the thermistor element 60 is in contact with the outer peripheral surface of the unit cell 50 in the back part of the element guiding part (the part indicated by the arrow G). The element induction portion is filled with a silicone resin portion 70, thereby achieving good thermal coupling between the outer peripheral surface of the unit cell 50 and the thermistor element 60.

In addition, the filling formation of the silicone resin part 70 is not necessarily essential.
7). Other Matters In the above embodiment, the cylindrical lithium secondary battery is adopted as the unit cell 50, but the present invention is not limited to this. For example, a square secondary battery can be adopted, and a nickel hydride secondary battery or a nickel cadmium secondary battery can also be adopted as the battery type.

In the above embodiment, the 18 unit cells 50 are provided. However, the number of the unit cells 50 is not limited to this. That is, the number may be 17 or less, or 19 or more.
In addition, the fuse link 31 according to the above-described embodiment is an example in which the fuse link 31 is connected to the positive electrode of the unit cell 50. The fuse link 31 has a function as a connection lead plate for connecting the two unit cells 50, but has a function as a lead plate for connecting the three or more unit cells 50. Alternatively, it may be configured to be connected to one unit cell 50 without having a function as a lead plate for connecting the unit cells 50 to each other.

  The present invention can maintain a high reliability even when used in an environment in which vibration is applied from the outside, including an electric tool, and to realize a battery pack with low manufacturing cost. Useful.

1. Battery pack 11,12. Battery holder 21-29. Connection lead plate 31. Fuse link 41. Circuit board 42-46. Lead wire 50. Unit cell 60. Thermistor 61, 62. Element lead wire 70. Silicone resin part

Claims (7)

A battery pack comprising a unit cell, a battery holder for holding the unit cell, and a fuse link having one end connected to a positive electrode or a negative electrode of the unit cell,
The fuse link is formed of a strip-shaped plate-like member, and in the region between the one end and the other end, a slit extending in the width direction is provided in the center region in the width direction,
The soluble part in the said fuse link is a part which remains on the both sides of the said slit in the extending | stretching direction toward the other end part from the said one end part. The battery pack characterized by the above-mentioned. The battery holder has at least an insulating surface,
The fuse link is inserted through a hole provided in a wall of the battery holder, and the soluble portion is opposed to an inner wall surrounding the hole of the battery holder with a gap. The battery pack according to claim 1. In the battery holder, a part of the wall surrounding the hole protrudes toward the inside in the cross-sectional direction of the hole,
The top of the protruding portion is arranged with a gap narrower than the gap between the fusible portion and the inner wall with respect to the edge of the fuse link in the extending direction of the slit. The battery pack according to claim 2, wherein: The battery holder holds a second unit cell separately from the unit cell,
The positive or negative electrode of the second unit cell is connected to the fuse link in a region between the one end portion and the soluble portion, and is electrically connected to the unit cell by the connection. The battery pack according to any one of claims 1 to 3, wherein the battery pack is illustrated. In a partial region of the battery holder, a space is narrowed in a conical shape, and an element induction part is provided in which the outer peripheral surface of the unit cell is exposed at the deepest part,
The thermistor element is inserted in the element guiding part of the battery holder,
The said thermistor element is thermally coupled with the outer peripheral surface of the said unit cell in the deepest part of the element induction | guidance | derivation part in the said battery holder. The any one of Claims 1-4 characterized by the above-mentioned. The battery pack described. From the thermistor element, an element lead wire is extended,
The battery pack according to claim 5, wherein the battery holder has a locking structure portion that locks the element lead wire in a bent state at an exit portion of the element guiding section. 7. The battery pack according to claim 5, wherein the thermistor element and the outer peripheral surface of the unit cell are thermally coupled with each other through a silicone resin portion.

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