DE102023206357A1 - Battery pack - Google Patents

Abstract

A battery pack is provided for ensuring the waterproof property of a casing for accommodating battery cells and for quickly operating a degassing function in the event of a sudden increase in the internal pressure of the casing.[Solvent]A battery pack containing a plurality of battery cells and a casing for storing battery cells Accommodating the plurality of battery cells is provided with an air hole that suppresses the fluctuation of the internal pressure of the case due to the expansion and compression of air inside the case due to the temperature change inside the case, at least one smoke outlet hole having a flow channel sectional surface is larger than a flow channel sectional area of the air hole, and provided with a cover element which closes the at least one smoke outlet hole, wherein an edge section of an opening of the smoke outlet hole and the cover element are joined to one another in a gas-tight manner by means of an adhesive element, and wherein there is a joining section in which the Edge section and the cover element are joined together by means of the adhesive element, has a fragile section which detaches the edge section and the cover element from one another when the internal pressure of the housing increases by releasing a gas via a pressure release valve due to the increase in the internal pressure of the battery cell.

Description

[Technical area]

The present invention relates to a battery pack, wherein several battery cells are accommodated in a housing.

[State of the art]

In a battery cell of a battery pack used in an electric vehicle or similar. is installed, e.g. B. generally provides a degassing function. This is to ensure that the battery cell does not burst even if a gas is to be generated in the battery cell. Further, a casing in which battery cells are housed has a waterproof function, while also providing the function of discharging a gas to the outside of the casing to prevent a gas in the battery cell from being discharged to the exterior of the battery cell the internal pressure of the casing in which battery cells are housed increases and the casing is broken.

Patent Document 1 discloses e.g. B. an explosion protection valve of a battery pack, wherein the explosion protection valve of the battery pack has the function of an air hole and is constructed in such a way that it is not necessary to specifically provide a ventilation opening provided with a ventilation membrane.

Further, Patent Document 2 discloses an energy storage device in which a plurality of energy storage elements (battery cells) arrayed in a predetermined direction are provided, each energy storage element having a valve that exhausts the gas generated inside the energy storage element to the outside of the energy storage element, with electrode terminals each energy storage element penetrates a substrate equipped with electronic components, wherein an opening portion is formed in the substrate which passes the gas discharged from the valve, and wherein a channel into which the gas passed through the opening portion of the substrate enters is provided.

[Prior Art Documents]

[patent documents]

• [Patent Document 1] JP 2013-168293 A
• [Patent Document 2] JP 2015-041595 A

[Summary of the Invention]

[Problem to be solved by the invention]

However, if a gas is released from a battery cell in a large amount and the internal pressure of a case rises sharply, the case may deform to a large extent in a short period of time and the case may burst before operation of a degassing function.

The aim of the present invention is to provide a battery pack with which the waterproof property of a housing for accommodating battery cells can be ensured and a degassing function can be operated quickly in the event of a sudden increase in the internal pressure of the housing.

[Means for solving the task]

To solve the aforementioned object, according to one aspect of the present invention, a battery pack is provided which has a plurality of battery cells and a housing for accommodating the plurality of battery cells,
where the multiple battery cells
are each provided with a pressure release valve that releases gas when the internal pressure of the battery cell increases,
where the housing
with an air hole that suppresses the fluctuation of the internal pressure of the case due to the expansion and compression of air inside the case due to the temperature change inside the case,
at least one smoke outlet hole having a flow channel sectional area larger than a flow channel sectional area of the air hole, and
a cover element which closes the at least one smoke outlet hole, wherein an edge section of an opening of the at least one smoke outlet hole and the cover element are joined together in a gas-tight manner by means of an adhesive element, and
wherein in a joining section in which the edge section and the cover element are joined together by means of the adhesive element, a fragile section which, when the internal pressure of the housing increases by releasing the gas via the pressure release valve due to the increase in the internal pressure of the battery cell, separates the edge section and the cover element separated from each other, is provided.

[Advantages of the invention]

As explained above, according to the present invention, the waterproof property A housing to accommodate battery cells can be ensured and a degassing function can be operated quickly in the event of a sudden increase in the internal pressure of the housing.

[Brief description of the drawings]

• [ 1 ] is an external view showing an exemplary overall structure of a battery pack according to the embodiment of the present invention.
• [ 2 ] is an explanatory view showing battery cells accommodated inside the case according to the same embodiment.
• [ 3 ] is a view in which a lid member of a comparative example is viewed from the back surface side.
• [ 4 ] is an explanatory view showing a joining portion between the lid member of the comparative example and an edge portion of an opening of a smoke outlet hole.
• [ 5 ] is a sectional view showing the joining portion between the lid member of the comparative example and the edge portion of the opening of the smoke outlet hole.
• [ 6 ] is a view in which the lid member of the first embodiment of the present embodiment is viewed from the back surface side.
• [ 7 ] is an explanatory view showing a joining portion between the lid member of the first embodiment and the edge portion of the opening of the smoke outlet hole.
• [ 8th ] is a sectional view showing the joining portion between the lid member of the first embodiment and the edge portion of the opening of the smoke outlet hole.
• [ 9 ] is a view in which the lid member of the second embodiment of the present embodiment is viewed from the back surface side.
• [ 10 ] is an explanatory view showing a joining portion between the lid member of the second embodiment and the edge portion of the opening of the smoke outlet hole.
• [ 11 ] is a sectional view showing the joining portion between the lid member of the second embodiment and the edge portion of the opening of the smoke outlet hole.
• [ 12 ] is a view in which the lid member of the third embodiment of the present embodiment is viewed from the back surface side.
• [ 13 ] is an explanatory view showing a joining portion between the lid member of the third embodiment and the edge portion of the opening of the smoke outlet hole.
• [ 14 ] is a sectional view showing the joining portion between the lid member of the third embodiment and the edge portion of the opening of the smoke outlet hole.

[Embodiment of the invention]

Below, the embodiment relating to the battery pack of the present invention will be specifically explained. However, this embodiment, which shows an embodiment of the present invention and does not limit this invention, can be arbitrarily varied within the scope of the present invention. In the respective figures, objects denoted by the same reference numerals indicate identical elements, and explanation is omitted as the circumstances require.

<1. Overall structure of the battery pack>

First, an example of the overall structure of a battery pack according to the present embodiment will be explained.

1 is a perspective view showing the appearance of a battery pack 1 according to the present embodiment. 2 is an explanatory view showing a plurality of battery cells 30 accommodated in a case 5.

The battery pack 1 according to the present embodiment is a battery pack 1 installed in a hybrid electric vehicle or a pure electric vehicle. The battery pack 1 is provided with a housing 5 and several battery cells 30 which are accommodated in the housing 5. The housing 5 is constructed from an upper housing part 10 and a lower housing part 20. The upper housing part 10 and the lower housing part 20 are firmly coupled to one another by means of fixing bolts or fixing screws (not shown) in such a way that an adhesive or a sealing element or a flat gasket made of an elastic material or the like. exist, is sandwiched between them. This ensures the gas-tightness of the joining section between the upper housing part 10 and the lower housing part 20.

The upper housing part 10 and the lower housing part 20 are each constructed as a molded body formed with a resin. Since the battery pack 1 according to the present embodiment is a vehicle-installed battery pack, weight reduction is aimed at by making the case 5 relatively thin with a resin. This increases the fuel or electricity consumption performance. Even if this is the relatively thin housing 5 constructed with a resin, for the purpose of ensuring strength against vibrations or the like. of the vehicle on the upper housing part 10 and on the lower housing part 20 each reinforcing ribs 11, 13, 21 are provided.

The housing 5 has an air hole 19. The air hole 19 allows air to enter and exit between the inside and outside of the case 5 to suppress the fluctuation of the internal pressure of the case 5 due to the expansion and compression of air inside the case 5 due to the temperature change inside the case 5 . On the other hand, the flow channel sectional area of the air hole 19 is made small in order to prevent dust or water from penetrating into the interior of the housing 5 via the air hole 19. The flow channel cutting surface can e.g. B. be 1 mm ² . The air hole 19 can be formed by a groove or a hole which is provided in at least one of the upper housing part 10 and the lower housing part 20, and also through a groove or a hole which is provided in a flat gasket or in a sealing element , be educated. The structure of the air hole 19 is not particularly limited as long as it is constructed to allow air to enter and exit between the inside and outside of the case 5 and to have the function of suppressing the fluctuation of the internal pressure of the case 5 due to the temperature change in the case 5 Inside the housing 5 can run.

Several battery cells 30 are accommodated inside the lower housing part 20 of the housing 5. Each battery cell 30 has a three-dimensional shape of a cuboid, and the plurality of battery cells 30 are stacked one on top of the other in the thickness direction. The multiple battery cells 30 are connected by means of a wedge or the like, not shown. loaded in the stacking direction (see the white arrow on the 2 ). This suppresses the plurality of battery cells 30 inside the housing 5 from being moved or expanded.

The battery cells 30, each of which has a positive terminal 31a and a negative terminal 31b on both sides in the longitudinal direction of the surface, are stacked on each other such that the positive terminal 31a and the negative terminal 31b are alternately placed on one side. Further, the positive terminal and the negative terminal of adjacent battery cells 30 are electrically connected to each other by means of a bus bar 32, and the plurality of battery cells 30 are connected to each other in series as a whole. The two ends of the plurality of battery cells 30, which are connected to each other in series, are each electrically connected to a battery positive terminal 37a and a battery negative terminal 37b, which protrude from the upper part of the upper housing part 10.

Further, each battery cell 30 has a gas release hole 33 at the center in the longitudinal direction of the surface and a pressure release valve 35 that closes the gas release hole 33. The pressure release valve 35 closes the gas release hole 33 in a gas-tight manner, while it opens the gas release hole 33 when the internal pressure of the battery cell 30 increases. The increase in the internal pressure of the battery cell 30 can, for. B. occur due to a short circuit between the positive pole and the negative pole in the battery cell 30.

The upper housing part 10 has at least one smoke outlet hole 17. The at least one smoke outlet hole 17 is open to the inside and outside of the housing 5 and has the function of further exhausting the gas released from the battery cell 30 into the housing 5 via the pressure relief valve 35 to the outside of the housing 5. The at least one smoke outlet hole 17 is closed by a cover element 40. Im in 1 In the battery pack 1 shown, a plurality of smoke outlet holes 17 are provided at positions of the upper housing part 10 that correspond to the two sides in the longitudinal direction of the surface of each battery cell 30. In 1 Seven smoke outlet holes 17 are shown, which are provided on the front side, while smoke outlet holes, which are also provided on the depth side, are covered by a cover member 50 and are not shown.

Seven smoke outlet holes 17 provided on the front side will be explained. The seven smoke outlet holes 17 are provided along the stacking direction of the battery cells 30. In the present embodiment, a trough 16 is provided between adjacent smoke outlet holes 17, but this trough 16 need not be provided. The seven smoke outlet holes 17 are closed by the cover element 40. The cover element 40 consists of a long, plate-shaped element which has a longitudinal direction along the stacking direction of the battery cells 30. The lid member 40, which is a molded article formed with a resin, is e.g. B. in the form of a thin plate of about 0.5 to 1.0 mm and constructed to be easily deformable.

An edge section 18 of the openings of the seven smoke outlet holes 17 and the cover element 40 are secured by means of an adhesive element (shown in 1 omitted) are joined together in a gas-tight manner. This prevents dust or water from entering the interior of the housing 5 via the smoke outlet holes 17 during general use. In the joining section between the edge section 18 of the openings of the smoke outlet holes 17 and the cover element 40, a fragile section is provided which, when the internal pressure of the housing 5 increases by releasing a gas via the pressure release valve 35 due to the increase in the internal pressure of the battery cell 30, the edge section 18 and the cover element 40 detaches from one another. The joining method between the lid member 40 and the edge portion 18 of the openings of the smoke outlet holes 17, including the fragile portion, will be explained in detail later.

On the outer peripheral part of the lid member 40, a plurality of tongues 41a to 41g are provided. Rivet insertion holes 43a to 43g are provided in the respective tongues 41a to 41g. The plurality of tongues 41a to 41g and the plurality of rivet insertion holes 43a to 43g are positioned on the side closer to the outer circumference than the joining portion between the edge portion 18 of the openings of the smoke outlet holes 17 and the lid member 40, and do not affect the gas tightness between the edge portion 18 of the openings the smoke outlet holes 17 and the cover element 40. In the in 1 In the example shown, five tongues 41c to 41g and five rivet insertion holes 43c to 43g are provided along one side 42b of two sides 42a, 42b which run along the longitudinal direction of the cover member 40, which is positioned on the side closer to the outer circumference of the upper housing part 10 . Further, at both ends of the other side 42a of two sides 42a, 42b extending along the longitudinal direction, two tongues 41a, 41b and two rivet insertion holes 43a, 43b are provided.

Rivets 15a to 15g provided on the upper housing part 10 are inserted into the respective rivet insertion holes 43a to 43g, and the cover member 40 is loosely fixed on the upper housing part 10 by pressurizing or heating the rivets 15a to 15g. The cover member 40 can be fixed loosely rather than firmly by means of the rivets 15a to 15g, so that when a gas has been released from the battery cell 30 into the housing 5 via the pressure release valve 35, the internal pressure of the housing 5 can be quickly released by this Lid member 40 is deformed due to the increase in the internal pressure of the housing 5 and the lid member 40 is detached from the edge portion 18 of the openings of the smoke outlet holes 17. The loose fixing may be a state in which the diameter of the rivet insertion holes 43a to 43g is made larger compared to the diameter of the rivet 15a to 15g, or a state in which the edge of the rivet insertion holes 43a to 43g of the cover element 40 is not compressed by the rivets 15a to 15g in the pressurized state. That is, it is sufficient that this is a fixing method that can allow the deformation of the lid member 40.

The illustration and detailed explanation of the edge portion of the openings of the other smoke outlet holes and the lid member 50 that closes the smoke outlet holes are omitted because a fragile portion is partially provided by the same method as in the lid member 40 and the joining to the edge portion of the openings of the Smoke outlet holes are made.

<2. Structure of the joining section between the cover element and the edge section of the opening of the smoke outlet hole>

Next, the structure of the joining portion between the lid member and the edge portion of the opening of the smoke outlet hole of the present embodiment will be explained in detail using the aforementioned lid member 40 as an example. Structural examples of the joining portion according to the present embodiment will be explained below after explaining the structure of a comparative example of the present embodiment.

(2-1. Comparative example)

First, a comparative example will be explained in which the joining portion between the lid member and the edge portion of the opening of the smoke outlet hole is not provided with any fragile portion.

3 until 5 are views shown to explain the structure of the comparative example. 3 shows a plan view in which the cover element 40 of the comparative example is viewed from the side closer to the surface opposite the smoke outlet hole 17 (hereinafter referred to as “back surface”). 4 is a plan view showing the position of the smoke outlet hole 17 and the trough 16 when joining the cover element 40 of the comparative example to the upper housing part 10. 5 is a sectional view of a joining portion 60 between the edge portion 18 of the opening of the smoke outlet hole 17 and the lid member 40, and a view showing a section extending in a direction orthogonal to the longitudinal direction of the lid member 40.

A double-sided adhesive tape 45 adheres to the rear surface of the lid member 40 as an adhesive member. In the comparative example, the width W is made uniform in a direction of an adhesive portion of the double-sided adhesive tape 45 which is adhered to the edge portion 18 on the respective two sides 42a, 42b along sides closer to the longitudinal direction of the lid member 40 that intersects the aforementioned direction. Consequently, in the comparative example, the cover element 40 is joined using approximately the entire surface of the edge section 18 on the respective sides 42a, 42b closer to the two sides, whereby the adhesive strength on the respective sides closer to the two sides 42a, 42b is increased. Therefore, the waterproof property of the joining portion 60 can be ensured, but it may happen that when the internal pressure of the housing 5 increases suddenly, the lid member 40 is difficult to detach in the entire area of the joining portion 60 between the lid member 40 and the edge portion 18 and the Internal pressure of the housing 5 cannot be quickly released to the outside of the housing 5.

(2-2. First embodiment)

In the first embodiment, a fragile portion is formed by reducing the adhesive strength of a part of the bonding portion by giving differences in the area bonded by a double-sided adhesive tape.

6 until 8th are views shown for explaining the first example of the battery pack 1 according to the present embodiment. 6 until 8th show views that correspond to each 3 until 5 are equivalent to. The two-dimensional external shape of the cover element 40 shown in the first exemplary embodiment is identical to that of the cover element 40 shown in the comparative example.

In the first embodiment, the position of one end of outer peripheral ends of the double-sided adhesive tape 45 adhering to the back surface of the lid member 40, which extends along the side 42a on which two tongues 41a, 41b are provided, is compared to the position of the end in the case of the comparative example of the side 42a of the cover element 40 is adjusted further back. That is, the distance between the end of the double-sided adhesive tape 45 extending along this side 42a and the end of the lid member 40 is further increased compared to the case of the comparative example. Therefore, the width of the sticking area (width of the joining portion 60) w1 in the direction intersecting the longitudinal direction of the lid member 40 on the side closer to this side 42a is made smaller than the width of the sticking area (width of the joining portion 60) w2 on the side closer to the side 42b , on which five tongues 41c to 41g are provided.

As a result, the adhesive surface between the edge section 18 and the cover element 40 on the side closer to the side 42a, on which two tongues 41a, 41b are provided, becomes smaller than the adhesive surface between the edge section 18 and the cover element 40 on the side closer to the side 42b, on which five tongues 41c to 41g are provided, whereby a fragile section 47 is built up, in which the adhesive strength on the aforementioned side closer to side 42a is made relatively low. Therefore, the waterproof property of the joining portion 60 can be ensured, and there is a tendency that when the internal pressure of the housing 5 increases sharply due to the deformation of the thin plate-shaped lid member 40, the lid member 40 on this side closer to the side 42a tends to be separated from the edge portion 18 is detached and the smoke outlet hole 17 is opened to the outside. As a result, the case 5 can be prevented from being broken due to the internal pressure of the case 5.

In particular, the adhesive strength is reduced on the side closer to side 42a, on which the number of points loosely fixed to the upper housing part 10 by means of the rivet 15 is relatively small and the arrangement distance of the rivet insertion holes 43 is larger compared to that on side 42b, whereby there is a tendency for the lid member 40 to be detached from the edge portion 18 on this side closer to the side 42a due to the deformation of the lid member 40 formed in the form of a thin plate. Further, according to the structure of the first embodiment, the adhesive strength of a part of the joining portion 60 can be easily reduced only by changing the width of the double-sided adhesive tape 45.

In the aforementioned first embodiment, the double-sided adhesive tape 45 is also arranged in an area opposite to the smoke outlet hole 17 and the trough 16. However, it is also possible for an opening to be provided in an area of the double-sided adhesive tape 45 that completely or partially contains this area. However, the work efficiency in adhering the double-sided adhesive tape 45 to the lid member 40 can be improved, and the tolerance range of position deviation in adhering the double-sided adhesive tape 45 can be made larger by using the double-sided adhesive tape 45 not having such an opening. Furthermore, in the aforementioned first exemplary embodiment the double-sided adhesive tape 45 is used as an adhesive element. However, it is also possible that an adhesive made of a resin material is used instead of a double-sided adhesive tape. However, it is preferable that the double-sided adhesive tape 45 is used because it may be difficult to control the width of the joining portion 60 using an adhesive.

(2-3. Second embodiment)

In the second embodiment, also like in the first embodiment, a fragile portion is formed by reducing the adhesive strength of a part of the joining portion by providing differences in the area bonded by a double-sided adhesive tape. However, the adhesive strength of a part of the bonding portion is reduced by providing an unadhered portion to the double-sided adhesive tape instead of rearwardly adjusting the position of one end of the double-sided adhesive tape.

9 until 11 are views shown for explaining the second example of the battery pack 1 according to the present embodiment. 9 until 11 show views that correspond to each 3 until 5 are equivalent to. The two-dimensional external shape of the cover element 40 shown in the second exemplary embodiment is identical to that of the cover element 40 shown in the comparative example.

In the second embodiment, an unglued portion 45a is provided in a portion of the double-sided adhesive tape 45 adhered to the rear surface of the lid member 40, which extends along the side 42a on which two tongues 41a, 41b are provided. The unglued portion 45a is one or more holes or elongated holes formed in the double-sided adhesive tape 45, and the double-sided adhesive tape 45 is constructed so that it does not come into contact with the edge portion 18 of the opening of the smoke outlet hole 17 in the area of the unglued portion 45a Contact is made. As a result, the adhesive surface between the edge section 18 and the cover element 40 on the side closer to the side 42a, on which two tongues 41a, 41b are provided, becomes smaller than the adhesive surface between the edge section 18 and the cover element 40 on the side closer to the side 42b, on which five tongues 41c to 41g are provided, which means that the adhesive strength on the aforementioned side closer to side 42a is made relatively low.

Therefore, the waterproof property of the joining portion 60 can be ensured, and there is a tendency that when the internal pressure of the housing 5 increases sharply due to the deformation of the thin plate-shaped lid member 40, the lid member 40 on this side closer to the side 42a tends to be separated from the edge portion 18 is detached and the smoke outlet hole 17 is opened to the outside. As a result, the case 5 can be prevented from being broken due to the internal pressure of the case 5. In particular, the adhesive strength is reduced on the side closer to the side 42a, on which the number of points loosely fixed to the upper housing part 10 by means of the rivet 15 is relatively small, whereby there is a tendency for the cover element 40 formed in the form of a thin plate to be deformed Lid element 40 is detached from the edge section 18 on this side closer to side 42a.

In the second exemplary embodiment, it is possible for the width of the adhesive area (width of the entire joining section 60) in the direction intersecting the longitudinal direction of the cover element 40 to be the same or different between two sides 42a, 42b of the cover element 40. Furthermore, it is also possible for an opening to be provided in an area of the double-sided adhesive tape 45, which completely or partially contains an area opposite the smoke outlet hole 17 and the trough 16, in the aforementioned second exemplary embodiment. However, the work efficiency in adhering the double-sided adhesive tape 45 to the lid member 40 can be improved, and the tolerance range of position deviation in adhering the double-sided adhesive tape 45 can be made larger by using the double-sided adhesive tape 45 not having such an opening. Furthermore, it is also possible for an adhesive made of a resin material to be used instead of a double-sided adhesive tape in the aforementioned second embodiment. However, it is preferable that the double-sided adhesive tape 45 be used because it may be difficult to control the size of the unglued portion 45a using an adhesive.

(2-4. Third embodiment)

In the third embodiment, a fragile portion is constructed by using an adhesive obtained by mixing glass beads into a resin material as an adhesive member.

12 until 14 are views shown for explaining the third example of the battery pack 1 according to the present embodiment. 12 until 14 show views that correspond to each 3 until 5 are equivalent to. The two-dimensional external shape of the cover element 40 shown in the third exemplary embodiment is with identical to that of the cover element 40 shown in the comparative example.

In the third embodiment, an adhesive 46 is applied as an adhesive member to a region of the rear surface of the lid member 40, which corresponds to the joining portion 60 in which joining is carried out to the edge portion 18 of the openings of the plurality of smoke outlet holes 17. The adhesive 46 is z. B. applied to a desired area by using a dispenser. As the adhesive 46, an adhesive obtained by mixing glass beads, which are inorganic materials, into an organic resin material is used.

Therefore, the waterproof property of the joining portion 60 can be ensured, and there is a tendency that when a stress is applied to the adhesive 46 due to the deformation of the thin plate-shaped lid member 40 when the internal pressure of the housing 5 increases sharply, A crack in the adhesive 46 occurs starting from the interface between the resin material and the glass beads. That is, in the third embodiment, the interface between resin material and glass beads functions as a fragile portion 47. As a result, the lid member 40 tends to be detached from the edge portion 18 of the opening of the smoke outlet hole 17 and the smoke outlet hole 17 is opened to the outside. As a result, the case 5 can be prevented from being broken due to the internal pressure of the case 5.

In the third exemplary embodiment, it is possible for the width of the adhesive area (width of the entire joining section 60) in the direction intersecting the longitudinal direction of the cover element 40 to be the same or different between two sides 42a, 42b of the cover element 40. Furthermore, it is also possible that in the aforementioned third exemplary embodiment, the adhesive 46 is also applied to an area of the rear surface of the cover element 40, which contains an area opposite the smoke outlet hole 17 and the trough 16. However, the consumption amount of adhesive can be reduced and the manufacturing cost can be reduced by selecting a structure in which adhesive is not applied to this area.

As explained above, the battery pack 1 according to each embodiment of the present disclosure has the fragile portion at the joining portion 60 between the thin plate-shaped lid member 40 that is joined to the edge portion 18 of an opening of the at least one smoke outlet hole 17 and this edge portion 18 47 on. Therefore, the waterproof property of the joining portion 60 can be ensured, and when a gas has been released through the pressure relief valve 35 due to the increase in the internal pressure of the battery cell 30 and the internal pressure of the case 5 has increased, the fragile portion 47 may be the cause Part of the cover element 40 is detached from the upper housing part 10. Consequently, when the internal pressure of the casing 5 increases sharply, the pressure can be quickly released to the outside of the casing 5 and the rupture of the casing 5 can be prevented.

In the foregoing, the preferred embodiment of the present invention has been explained in detail with reference to the accompanying drawings. However, the present invention is not limited to these examples. It is obvious that various types of variants or modifications within the scope of the technical thought according to the patent claims will be obvious to those skilled in the art having general knowledge in the technical field of the present invention. These variants or modifications are also, of course, considered to be within the technical scope of the present invention.

[reference symbol list]

1: battery pack, 5: housing, 10: upper housing part, 11: reinforcing ribs, 13: reinforcing ribs, 15: rivet, 16: trough, 17: smoke outlet hole, 18: edge section, 19: air hole, 20: lower housing part, 21: reinforcing ribs, 30: Battery cells, 33: Gas release hole, 35: Pressure release valve, 40: Lid member, 41a to 41g: Tongues, 42a and 42b: Sides, 43a to 43g: Rivet insertion holes, 45: Double-sided adhesive tape, 45a: Non-glued section, 46: Adhesive, 47 : Fragile section, 50: Cover element, 60: Joining section

QUOTES INCLUDED IN THE DESCRIPTION

This list of documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• JP 2013168293 A [0004]
• JP 2015041595 A [0004]

Claims (5)

Battery pack (1), comprising a plurality of battery cells (30) and a housing (5) for accommodating the plurality of battery cells (30), wherein the multiple battery cells (30) are each provided with a pressure release valve (35), which releases gas when the internal pressure of the battery cell (30) increases, whereby the housing (5) with an air hole (19) which suppresses the fluctuation of the internal pressure of the housing (5) due to the expansion and compression of air inside the housing (5) due to the change in temperature inside the housing (5), at least one smoke outlet hole (17), which has a flow channel sectional area that is larger than a flow channel sectional area of the air hole (19), and a cover element (40), which closes the at least one smoke outlet hole (17), wherein an edge section (18) of an opening of the at least one smoke outlet hole (17) and the cover element (40) are joined together in a gas-tight manner by means of an adhesive element (45), and wherein in a joining section (60), in which the edge section (18) and the cover element (40) are joined together by means of the adhesive element (45), a fragile section (47) which is caused by the increase in the internal pressure of the housing (5). Discharge of the gas via the pressure release valve (35) due to the increase in the internal pressure of the battery cell (30) separates the edge section (18) and the cover element (40) from each other is provided. battery pack Claim 1 , wherein the cover element (40) has rivet insertion holes (43) which are provided in several places on the side closer to the outer circumference than the joining section (60), with several rivets (15) being provided on the housing (5), to fix the cover element (40) on the housing (5) into the rivet insertion holes (43), and the fragile section (47) at a point on the outer peripheral part of the cover element (40) at which the arrangement distance of the rivet insertion holes (43) is larger compared to that at other locations. battery pack Claim 1 , wherein the width (w1) of the joining section (60) in the direction intersecting the extension direction of the joining section (60) on the fragile section (47) is smaller than the width (w2) of the joining section (60) in the direction of extension of the joining section (60). cutting direction in places that are not the fragile section (47). battery pack Claim 1 , wherein it has one or more non-glued sections (45a) in the adhesive element (45) on the fragile section (47). battery pack Claim 1 , wherein the fragile portion (47) is constructed by using an adhesive obtained by mixing glass beads into a resin material as the adhesive member (46).

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