JP6784099B2 - Battery pack - Google Patents

Description

The present invention relates to a battery pack.

As a conventional battery pack, for example, the technique described in Patent Document 1 is known. The battery pack described in Patent Document 1 includes a plurality of batteries and a battery case in which these batteries are housed. On the upper surface of the battery cover of the battery case, a pressure release portion that opens as the internal pressure of the battery case rises is provided. An opening is formed in a predetermined area on the upper surface of the battery cover. The pressure release portion has a sealing plate for sealing the opening and a fastening member for fixing the sealing plate to the battery cover at the outer peripheral portion of the opening. The entire area inside the opening sealed with the sealing plate is a fragile part. The sealing plate is provided with a break portion formed of two slit-shaped through holes arranged side by side at predetermined intervals so as to straddle the opening. When gas is generated due to an abnormality in the battery, the battery case is filled with gas, and the internal pressure rises, pressure is applied to the fragile part, and this pressure deforms the sealing plate, causing the broken part to break. The opening is opened, and gas is discharged to the outside from the opening.

Japanese Unexamined Patent Publication No. 2011-198570

Here, in the configuration provided with the pressure release unit as in the above-mentioned prior art, the pressure is opened at the timing when the internal pressure rises to a predetermined pressure, but the appropriate release pressure may differ depending on, for example, the specifications of the battery pack. is there. Therefore, it has been required to be able to release the pressure release unit at an appropriate timing.

Therefore, an object of the present invention is to provide a battery pack capable of releasing the pressure release unit at an appropriate timing.

The battery pack according to one aspect of the present invention includes a housing, a battery cell housed in the housing, a pressure release unit attached to the upper surface of the housing and releasing the internal pressure of the housing when the internal pressure of the housing rises. The pressure release unit is provided with a resin plate supported on the upper surface side of the housing, a metal frame body arranged on the resin plate and forming the opening window portion, and the frame body via the resin plate. It has a fixing portion fixed to the upper surface of the housing, and is characterized in that the frame body is provided with an opening pressure adjusting portion for adjusting the opening pressure of the pressure releasing unit.

In such a battery pack, when the gas is discharged from the battery cell, the inside of the housing is filled with the gas, so that the internal pressure of the housing rises. Therefore, the resin plate and the metal frame are elastically deformed by the gas to form an opening. Then, the gas is released to the outside from the opening, so that the internal pressure of the housing is released. Further, when a fire ignites in the housing, the resin plate melts and the opening area is widened to cope with a sudden increase in pressure. Here, the frame body is provided with an opening pressure adjusting portion for adjusting the opening pressure of the pressure releasing unit. Therefore, it is possible to adjust the opening pressure in the opening pressure adjusting unit to an appropriate pressure, for example, according to the specifications of the battery pack. That is, the pressure release unit can be adjusted to be released at an appropriate timing. As described above, the pressure release unit can be released at an appropriate timing.

The frame body may include an outer peripheral member that surrounds the opening window portion from the outer peripheral side, and the opening pressure adjusting portion may be composed of a beam member that is connected to the outer peripheral member to partition the opening window portion. In this case, the ease of elastic deformation of the frame can be easily finely adjusted by partially increasing the strength of the frame by the beam member. Therefore, the opening pressure can be easily finely adjusted by the opening pressure adjusting unit. Further, when a falling object falls on the frame body and the resin plate, the beam member can protect the resin plate from the falling object.

The opening pressure adjusting portion may be composed of a groove portion formed in the frame body. In this case, the ease of elastic deformation of the frame can be easily finely adjusted by partially reducing the strength of the frame by the groove. Therefore, the opening pressure can be easily finely adjusted by the opening pressure adjusting unit.

The frame body includes an outer peripheral member that surrounds the opening window portion from the outer peripheral side, and the groove portion extends between the inner peripheral end portion and the outer peripheral end portion of the outer peripheral member, and is open at the inner peripheral end portion and the outer peripheral end portion. Good. In this case, even if water collects on the opening window side, the water can be discharged to the outside from the outer peripheral end portion of the frame body through the groove portion.

The frame body includes an outer peripheral member that surrounds the opening window portion from the outer peripheral side, and the opening pressure adjusting portion is composed of a beam member that is connected to the outer peripheral member to partition the opening window portion and a groove portion formed in the outer peripheral member. The groove may be formed at the position of the connecting portion of the outer peripheral member with the beam member. In this case, if the beam member is provided in the opening window portion, the strength of that portion is increased, and other portions of the frame body are easily released by pressure. Therefore, by forming the groove portion at the position of the connecting portion with the beam member in the frame body, the portion of the beam member can be easily partially opened. This makes it possible to reduce the difference in ease of opening depending on the position of the frame.

According to the present invention, when the internal pressure of the housing rises sharply, the momentum of gas ejection from the housing can be appropriately suppressed.

It is a perspective view which shows the appearance of the battery pack which concerns on one Embodiment of this invention. It is a vertical sectional view of the battery pack shown in FIG. It is a top view of the battery module shown in FIG. It is an enlarged perspective view of the pressure release unit shown in FIG. It is an exploded perspective view of the pressure release unit shown in FIG. It is sectional drawing of the pressure release unit shown in FIG. It is a perspective view of the metal member shown in FIG. It is a perspective view of the resin plate shown in FIG. FIG. 5 is a schematic view showing a state in which the resin of the resin plate shown in FIG. 5 is melted and accumulated at the bottom of a recess of a metal member. 6 is a detailed cross-sectional view of the pressure release unit shown in FIG. 6 when viewed from another direction. It is a top view of the frame body when a beam member is adopted as an open pressure adjustment part. It is a figure explaining the effect when the beam member is adopted as an open pressure adjustment part. It is a perspective view of the frame body when the groove part is adopted as the opening pressure adjustment part. It is sectional drawing explaining the effect when the groove part is adopted as the opening pressure adjustment part.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a perspective view showing the appearance of a battery pack according to an embodiment of the present invention. FIG. 2 is a vertical cross-sectional view of the battery pack shown in FIG. In FIGS. 1 and 2, the battery pack 1 of the present embodiment includes a housing 2.

The housing 2 has a main body portion 3 having a substantially rectangular box shape, a protruding portion 4 arranged above the main body portion 3, and side wall portions 5 and 6 fixed to the main body portion 3 so as to sandwich the main body portion 3. And have. The side wall portions 5 and 6 extend above the upper surface 3a of the main body portion 3. The housing 2 is made of metal (for example, iron). A plurality of battery modules 7 are housed inside the main body 3. The battery module 7 is fixed to the inner wall surface of the side wall portions 5 and 6.

As shown in FIG. 3, the battery module 7 includes a plurality of battery cells 8 arranged in one direction, and a restraint 9 for restraining the plurality of battery cells 8 in the arrangement direction of the battery cells 8. The battery cell 8 is held in the cell holder 10.

The battery cell 8 is a non-aqueous electrolyte secondary battery such as a lithium ion secondary battery. Although not particularly shown, the battery cell 8 has a rectangular parallelepiped-shaped case and an electrode assembly housed in the case. The electrode assembly has a structure in which a plurality of positive electrode sheets and a plurality of negative electrode sheets are alternately laminated via a separator. The case is filled with an electrolytic solution.

The battery cell 8 has a positive electrode terminal 11 and a negative electrode terminal 12. The positive electrode terminal 11 is provided on one end side of the upper surface of the battery cell 8 and is electrically connected to the positive electrode sheet of the electrode assembly. The negative electrode terminal 12 is provided on the other end side of the upper surface of the battery cell 8 and is electrically connected to the negative electrode sheet of the electrode assembly. The positive electrode terminals 11 and the negative electrode terminals 12 of the plurality of battery cells 8 are alternately arranged along the arrangement direction of the battery cells 8. That is, the two adjacent battery cells 8 are arranged so that the positive electrode terminal 11 and the negative electrode terminal 12 are opposite to each other. The positive electrode terminal 11 and the negative electrode terminal 12 of two adjacent battery cells 8 are electrically connected to each other by a bus bar 13.

Further, a safety valve 14 is provided between the positive electrode terminal 11 and the negative electrode terminal 12 on the upper surface of the battery cell 8. The safety valve 14 releases the gas existing inside the battery cell 8 to the outside when the internal pressure of the battery cell 8 rises to a specified pressure due to the generation of gas inside the battery cell 8.

The restraint 9 arranges the battery cells 8 in the plurality of battery cells 8 by fastening the pair of end plates 15 sandwiching the plurality of battery cells 8 in the arrangement direction of the battery cells 8 to each other. It has a plurality of sets of bolts 16 and nuts 17 that apply a directional restraint load. The end plate 15 is made of metal (eg iron). An elastic member 18 such as rubber for absorbing the expansion of the battery cell 8 is arranged between the end plate 15 and the battery cell 8.

Returning to FIGS. 1 and 2, a power supply system 19 including a harness and the like connected to each battery module 7 is housed inside the protrusion 4. Further, a charging connector (not shown) is arranged on one end side of the main body 3 in the longitudinal direction (X direction).

A pressure release unit 20 that releases the internal pressure of the housing 2 when the internal pressure of the housing 2 rises is attached to the upper surface 3a of the main body 3 on the other end side in the X direction (opposite the charging connector to the protruding portion 4). ing.

FIG. 4 is an enlarged perspective view of the pressure release unit 20. FIG. 5 is an exploded perspective view of the pressure release unit 20. FIG. 6 is a cross-sectional view of the pressure release unit 20. In FIGS. 4 to 6, the pressure release unit 20 includes a metal member 21 supported on the upper surface 3a of the main body 3 of the housing 2, a resin plate 22 arranged on the metal member 21, and the resin plate. It has a metal frame 23 which is arranged on the 22 and constitutes the opening window portion 23a.

As shown in FIG. 5, the upper surface 3a of the main body 3 is provided with two rectangular opening window portions 24 arranged side by side in the longitudinal direction (X direction) of the housing 2. A plurality of screw holes 25 with female threads (only one is shown in FIG. 5) are provided between the opening window portions 24 on the upper surface 3a of the main body portion 3. A screw 40, which will be described later, is screwed into the screw hole 25. The screw holes 25 are arranged in a state of being alternately displaced in the X direction along the width direction (Y direction) of the housing 2. The width direction of the housing 2 is a direction perpendicular to the longitudinal direction of the housing 2.

The metal member 21 is made of, for example, iron. As shown in FIG. 7, the metal member 21 is erected on two rectangular bottom plate portions 26 and above the edge portion of the bottom plate portion 26 (on the resin plate 22 side), and cooperates with the bottom plate portion 26. Two rectangular side plate portions 28 that define a concave portion 27 having a rectangular cross section, a connecting portion 29 that connects the upper ends of the side plate portions 28 to each other, and an outer end of each side plate portion 28 and the connecting portion 29. It is provided so as to project laterally, and has a rectangular flange portion 30 mounted on the upper surface 3a of the main body portion 3 of the housing 2.

The bottom plate portion 26 is arranged so as to be exposed to the gas released from the safety valve 14 of each battery cell 8. The bottom surface of the recess 27 has a flat surface. The side plate portion 28 has a pair of side walls 28a facing the width direction (Y direction) of the housing 2 and a pair of side walls 28b facing the longitudinal direction (X direction) of the housing 2. The side wall 28a extends parallel to the parallel direction of the two recesses 27.

The side wall 28a is provided with a plurality of holes 31 having a circular cross section. The holes 31 are regularly arranged in a plurality of rows (for example, two rows). The side wall 28a is configured as, for example, a punching metal. The holes 31 may be arranged in one row, or may be arranged in three or more rows. Further, the holes 31 may be randomly arranged.

The connecting portion 29 is provided with a plurality of stupid holes 32 having a circular cross section through which the shaft portion 40a of the screw 40, which will be described later, passes. The stupid holes 32 are arranged in a state of being alternately displaced in the X direction along the Y direction. The diameter of the stupid hole 32 is larger than the diameter of the shaft portion 40a of the screw 40.

As shown in FIG. 8, the resin plate 22 has a rectangular shape in a plan view. The resin plate 22 is made of a resin such as ABS resin (acrylonitrile-butadiene-styrene copolymer synthetic resin).

A plurality of stupid holes 33 through which the shaft portion 40a of the screw 40, which will be described later, passes are provided in the central portion of the resin plate 22 in the X direction. The stupid holes 33 are arranged in a state of being alternately displaced in the X direction along the Y direction. A metal collar 34 is fitted in the stupid hole 33. The diameter of the stupid hole 33 is larger than the diameter of the shaft portion 40a of the screw 40.

As shown in FIG. 9, the resin plate 22 is provided on the side plate portion 28 when the resin S of the resin plate 22 is melted by ignition of the battery pack 1 or the like and accumulates at the bottom of the recess 27 of the metal member 21. The hole 31 has a volume so that the resin S does not completely block it. That is, the thickness d ₂ of the resin S when the resin S of the resin plate 22 is melted and accumulated at the bottom of the recess 27 is the distance d ₁ or less from the bottom surface of the recess 27 to the hole 31. The thickness of the resin plate 22 at room temperature (20 ° C.) is, for example, about 3 mm.

The frame body 23 is a member that reinforces the strength of the resin plate 22, and is made of, for example, iron. The frame body 23 has a rectangular outer frame 35 in a plan view, an extending portion 36 extending in the Y direction so as to connect the central portions of the outer frame 35 in the X direction, and an extending portion 36 extending in the Y direction of the outer frame 35. It has a pair of beam members 37 extending in the X direction so as to be connected to the central portion of the existing portion 36 in the Y direction. Therefore, the frame body 23 constitutes the four opening window portions 23a. A more detailed description of the frame body 23 will be described later.

The extending portion 36 is provided with a plurality of stupid holes 38 through which the shaft portion 40a of the screw 40, which will be described later, passes. The stupid holes 38 are arranged in a state of being alternately displaced in the X direction along the Y direction. The diameter of the stupid hole 38 is larger than the diameter of the shaft portion 40a of the screw 40.

Further, the pressure release unit 20 has a fixing portion 39 for fixing the frame body 23 to the upper surface 3a of the main body portion 3 of the housing 2 via the resin plate 22 and the metal member 21. The fixing portion 39 mainly has a plurality of screws 40 screwed into each screw hole 25 provided on the upper surface 3a of the main body portion 3. Further, a plurality of stupid holes 32 provided in the connecting portion 29 of the metal member 21, a plurality of stupid holes 33 provided in the resin plate 22, and a plurality of stupid holes provided in the extending portion 36 of the frame body 23. 38 constitutes a part of the fixing portion 39. The shaft portions 40a of the plurality of screws 40 are screwed into the screw holes 25 through the stupid holes 38, 33, 32, so that the frame body 23 is fixed to the upper surface 3a of the main body portion 3 via the resin plate 22 and the metal member 21. ..

At this time, the fixing portion 39 fixes the central portion of the frame 23 in the X direction to the upper surface 3a of the main body 3 via the resin plate 22 and the metal member 21. Therefore, two recesses 27 of the metal member 21 are arranged side by side so as to sandwich the fixing portion 39.

Further, as shown in FIG. 10, the pressure release unit 20 is a rectangular annular seal member 41 (in FIGS. 5 and 6) arranged between the upper surface 3a of the main body 3 of the housing 2 and the resin plate 22. Omitted). The seal member 41 is made of rubber or the like. The flange portion 30 of the metal member 21 also has a function of regulating the compressibility of the seal member 41. Therefore, the thickness of the seal member 41 is set to the thickness of the flange portion 30. A gap is formed between the inner wall surface 3b of the main body 3 of the housing 2 and the side wall 28a of the side plate 28 of the metal member 21.

In the battery pack 1 configured as described above, when the gas generated in the battery cell 8 is released from the safety valve 14, the housing 2 is filled with the gas, so that the internal pressure of the housing 2 rises. At this time, the gas released from the safety valve 14 hits the bottom plate portion 26 of the metal member 21 and is diffused inside the housing 2. Then, the gas wraps around in the gap between the inner wall surface 3b of the main body 3 of the housing 2 and the side wall 28a of the side plate 28 of the metal member 21, and passes through the holes 31 provided in the side wall 28a to metal. It enters the recess 27 of the member 21. Therefore, both side portions of the fixing portion 39 of the resin plate 22 and the frame body 23 are elastically changed upward by the gas to form an opening. Then, the internal pressure of the housing 2 is released by releasing the gas to the outside through the opening.

Further, when the battery pack 1 is ignited for some reason, the internal pressure of the housing 2 rises sharply. At this time, since the resin S of the resin plate 22 melts and melts down into the recess 27 of the metal member 21, the opening window portion 23a of the frame body 23 opens. Then, the internal pressure of the housing 2 is released by releasing the gas to the outside through the opening.

As described above, according to the present embodiment, even if the internal pressure of the housing 2 rises sharply, the resin S of the resin plate 22 melts to open the opening window portion 23a of the frame body 23, so that the resin plate The opening area of the pressure release unit 20 is larger than that when the 22 and the frame 23 are elastically deformed. As a result, the momentum of gas ejection from the inside of the housing 2 is suppressed. Therefore, the flow velocity of the gas discharged to the outside of the battery pack 1 can be reduced. Further, since the opening area of the pressure release unit 20 becomes large, it is possible to prevent damage to the housing 2.

Further, a side plate portion 28 having a plurality of hole portions 31 is arranged in the path through which the gas flows in the housing 2. Therefore, even if the internal parts of the battery pack 1 flow through the housing 2 due to the flow of gas, the internal parts hit the side plate portion 28 having the plurality of holes 31. Therefore, even if the opening area of the pressure release unit 20 becomes large, the internal parts of the battery pack 1 are prevented from being scattered to the outside.

Further, in the present embodiment, the seal member 41 is arranged between the upper surface 3a of the housing 2 and the resin plate 22, and the flange portion 30 of the metal member 21 is placed on the upper surface 3a of the housing 2. To. Therefore, the flange portion 30 also has a function of regulating the compressibility of the seal member 41. Therefore, since it is not necessary to separately provide parts such as spacers that regulate the compressibility of the seal member 41, the number of parts of the battery pack 1 can be reduced and the parts cost can be reduced.

Further, in the present embodiment, the fixing portion 39 fixes the central portion of the frame body 23 to the upper surface 3a of the housing 2 via the resin plate 22 and the metal member 21. Therefore, the resin plate 22 and the frame 23 are elastically deformed to form two openings sandwiching the fixing portion 39, and the frame 23, the resin plate 22 and the metal member 21 are placed on the upper surface 3a of the housing 2. Can be fixed in a well-balanced manner.

Further, in the present embodiment, the plurality of holes 31 are provided on the pair of side walls 28a facing each other of the side plate 28. Therefore, since it is not necessary to perform the processing of forming the hole portion 31 in the entire side plate portion 28, the manufacturing cost of the metal member 21 can be suppressed.

Further, in the present embodiment, the resin plate 22 has a volume that does not block the hole 31 when the resin S of the resin plate 22 is melted and accumulated at the bottom of the recess 27 of the metal member 21. .. Therefore, when the internal pressure of the housing 2 suddenly rises, it is possible to reliably prevent a further rise in the internal pressure due to the hole 31 being closed by the resin S.

Further, in the present embodiment, since the frame body 23 has the beam member 37, the frame body 23 is reinforced and the resin plate 22 is less likely to be impacted from the outside.

Next, the open pressure adjusting unit 100 of the battery pack 1 according to the present embodiment will be described with reference to FIGS. 11 to 14. The frame 23 of the pressure release unit 20 of the battery pack 1 according to the present embodiment is provided with an release pressure adjusting unit 100 for adjusting the release pressure of the pressure release unit 20. Here, the "opening pressure" means that the internal pressure of the housing 2 rises, and both side portions of the fixing portion 39 of the resin plate 22 and the frame body 23 are elastically changed upward by the gas to form an opening. It shall be the internal pressure when it is done. The optimum value of the opening pressure may differ slightly depending on the specifications of the battery pack 1 and the like. The opening pressure adjusting unit 100 is configured to finely adjust the opening pressure related to such a slight difference. That is, the opening pressure adjusting unit 100 adjusts the opening pressure by changing the prerequisite structure such as the shape, length, and thickness of the frame body 23 (when the prerequisite configuration is changed, the opening pressure changes significantly). Instead, the premise structure is the same, but the open pressure is finely adjusted. In this embodiment, the premise configuration is the shape, width, length, thickness, etc. of the outer peripheral member 53 and the extending portion 36.

The opening pressure adjusting portion 100 is composed of a beam member 37 connected to the outer peripheral member 53 of the frame body 23 to partition the opening window portion 23a. Specifically, the outer peripheral member 53 is a rectangular annular member that surrounds the opening window portion 23a from the outer peripheral side. The outer peripheral member 53 includes side portions 54A and 54B facing in the Y-axis direction and side portions 54C and 54D facing in the X-axis direction. The central positions of the side portions 54A and 54B in the X-axis direction are connected by an extending portion 36 extending straight in the Y-axis direction. The central positions of the side portions 54C and 54D in the Y-axis direction are connected by a beam member 37 extending straight in the X-axis direction. The beam member 37 is divided into two opening window portions 23a by extending between the side portion 54C and the extending portion 36. The beam member 37 is divided into two opening window portions 23a by extending between the side portion 54D and the extending portion 36. The thickness of the beam member 37 may be the same as that of the outer peripheral member 53, or may be thinner than that of the outer peripheral member 53.

By supporting the side portions 54D and the side portions 54C of the outer peripheral member 53, the beam member 37 improves the strength of the frame body 23. For example, assuming that the size, width, thickness, etc. of the outer peripheral member 53 and the extending portion 36 are unchanged, by providing the beam member 37, the strength of the frame 23 is improved and elastic deformation is less likely to occur. Therefore, it can be finely adjusted so that the opening pressure becomes high. Further, the opening pressure can be finely adjusted by adjusting the width and thickness of the beam member 37. As shown by the virtual line in the drawing, a plurality of beam members 37 extending in the X-axis direction may be provided at intervals in the Y-axis direction. When a plurality of beam members 37 are present in this way, some of the beam members 37 may be cut in order to facilitate elastic deformation of the frame body 23. Further, the beam member 37 may extend straight in the Y-axis direction. Further, the beam member 37 may extend in an oblique direction.

Further, as shown in FIG. 13, the opening pressure adjusting portion 100 may be composed of a groove portion 51 formed in the frame body 23. FIG. 13 shows the configuration of the lower surface side of the frame body 23. As shown in FIG. 13A, groove portions 51 are formed on the lower surfaces of the side portions 54A to 54D of the outer peripheral member 53. The groove portion 51 extends between the inner peripheral end portion 53a and the outer peripheral end portion 53b of the outer peripheral member 53, and is opened at the inner peripheral end portion 53a and the outer peripheral end portion 53b. The cross-sectional shape of the groove 51 is not particularly limited, but may be rectangular, for example, as shown in FIG. 14 (b).

When having such a configuration, as shown in FIG. 14A, the internal space of the opening window portion 23a of the frame body 23 and the external space on the outer peripheral side of the frame body 23 are communicated with each other via the groove portion 51. To. Here, a recess is formed by the inner peripheral end portion 53a of the outer peripheral member 53 and the resin plate 22. In the battery pack 1, water W may accumulate in the recesses by cleaning the incorporated device or by causing dew condensation. In the present embodiment, since the groove portion 51 that communicates the internal space and the external space of the recess is formed on the lower surface of the outer peripheral member 53 (that is, the surface that contacts the resin plate 22), the water W is discharged through the groove portion 51. It is discharged to the external space. The depth of the groove 51 is secured so that water does not stop flowing due to the influence of surface tension. Further, by increasing the number of grooves 51, drainage can be improved. However, it is preferable that the depth of the groove 51 is not too deep or the number of the groove 51 is too large so that the strength of the frame 23 is not excessively lowered.

Returning to FIG. 13A, an example of the formation position of the groove 51 will be described. As shown in FIG. 13A, the groove portion 51 is formed at the center position of the side portions 54C and 54D. Further, the groove portion 51 is formed near the boundary position between the opening window portion 23a and the extending portion 36 on the side portions 54A and 54B. At the boundary position between the opening window portion 23a and the extending portion 36, the groove portion 51 communicates with the opening window portion 23a. As described above, the groove 51 is formed on each of the side portions 54A to 54B in the four directions. By forming the groove 51 in the four directions in this way, the water W can be discharged from either direction even if the frame 23 is tilted due to the presence of strain. Further, the extending portion 36 fixed with screws is arranged at a lower position by sinking downward as compared with other portions in the frame body 23. Therefore, in the internal space of the opening window portion 23a, the water W is most likely to accumulate at the position closer to the extending portion 36. Therefore, the drainage property can be improved by forming the groove 51 in the vicinity of the extending portion 36. The width dimension of the groove 51 formed at each position may be the same. However, the groove 51 formed in the vicinity of the extending portion 36, which is close to the screw fastening position, has a great influence on the ease of elastic deformation of the frame body 23. Therefore, the frame body 23 may be easily elastically deformed by making the width dimension of the groove portion 51 in the portion larger than that in the groove portion 51 in the other portion. Alternatively, by making the width dimension of the groove 51 in the portion smaller than that in the groove 51 in the other portion, it may be possible to prevent the elastic deformation from becoming too easy.

Further, as shown in FIG. 13B, the beam member 37 and the groove portion 51 may be combined to form the open pressure adjusting portion 100. When the beam member 37 is provided, the groove portion 51 may be formed at the position of the connecting portion with the beam member 37 in the outer peripheral member 53. In the example of FIG. 13B, the groove portions 51 extend from the opening window portions 23a on both sides in the Y-axis direction, merge near the central position in the width direction of the beam member 37, and extend to the outer peripheral end portion 53b. ing. However, the present invention is not limited to this, and may extend to the outer peripheral end portion 53b independently of each of the opening window portions 23a on both sides in the Y-axis direction. In this case, the pair of groove portions 51 may be extended in a manner in which both ends of the beam member 37 in the width direction are extended. Such a structure has a structure in which the beam member 37 is provided at a position between the pair of groove portions 51 of the side portions 54C and 54D in FIG. 13A.

Next, the operation / effect of the battery pack 1 according to the present embodiment will be described.

In the battery pack 1 according to the present embodiment, when the gas is discharged from the battery cell 8, the housing 2 is filled with the gas, so that the internal pressure of the housing 2 rises. Therefore, the resin plate and the metal frame 23 are elastically deformed by the gas to form an opening. Then, the internal pressure of the housing 2 is released by releasing the gas to the outside through the opening. Further, when the ignition occurs in the housing 2, the resin plate 22 melts to widen the opening area, so that a sudden increase in pressure can be dealt with. Here, the frame body 23 is provided with an opening pressure adjusting unit 100 for adjusting the opening pressure of the pressure releasing unit 20. Therefore, for example, the opening pressure in the opening pressure adjusting unit 100 can be adjusted to an appropriate pressure according to the specifications of the battery pack 1. That is, the pressure release unit 20 can be adjusted to be released at an appropriate timing. As described above, the pressure release unit 20 can be released at an appropriate timing.

The frame body 23 includes an outer peripheral member 53 that surrounds the opening window portion 23a from the outer peripheral side, and the opening pressure adjusting portion 100 may be composed of a beam member 37 that is connected to the outer peripheral member 53 to partition the opening window portion 23a. .. In this case, the ease of elastic deformation of the frame body 23 can be easily finely adjusted by partially increasing the strength of the frame body 23 by the beam member 37. Therefore, the opening pressure can be easily finely adjusted by the opening pressure adjusting unit 100. Further, when a falling object falls on the frame body 23 and the resin plate 22, the beam member 37 can protect the resin plate 22 from the falling object. Specifically, as shown in FIG. 12B, when a falling object TL such as a tool falls on the pressure release unit 20 when the beam member 37 is not provided, the falling object TL is a resin plate 22. There is a possibility of a direct collision with. On the other hand, as shown in FIG. 12A, when the beam member 37 is provided, when the falling object TL falls to the pressure release unit 20, it collides with the beam member 37 and directly to the resin plate 22. It may be possible to avoid a collision.

The opening pressure adjusting portion 100 may be composed of a groove portion 51 formed in the frame body 23. In this case, the ease of elastic deformation of the frame body 23 can be easily finely adjusted by partially reducing the strength of the frame body 23 by the groove portion 51. Therefore, the opening pressure can be easily finely adjusted by the opening pressure adjusting unit 100.

The frame body 23 includes an outer peripheral member 53 that surrounds the opening window portion 23a from the outer peripheral side, and the groove portion 51 extends between the inner peripheral end portion 53a and the outer peripheral end portion 53b of the outer peripheral member 53, and the inner peripheral end portion 53a and the inner peripheral end portion 53a. It may be opened at the outer peripheral end portion 53b. In this case, even if water collects on the opening window portion 23a side, the water can be discharged to the outside from the outer peripheral end portion 53b of the frame body 23 through the groove portion 51.

The frame body 23 includes an outer peripheral member 53 that surrounds the opening window portion 23a from the outer peripheral side, and the opening pressure adjusting portion 100 includes a beam member 37 that is connected to the outer peripheral member 53 to partition the opening window portion 23a and the outer peripheral member 53. The groove portion 51 is composed of the formed groove portion 51, and the groove portion 51 may be formed at a position of a connecting portion with the beam member 37 in the outer peripheral member 53. In this case, if the beam member 37 is provided in the opening window portion 23a, the strength of that portion is increased, and other portions of the frame body 23 are easily released by pressure. Therefore, by forming the groove 51 at the position of the connecting portion of the frame body 23 with the beam member 37, the portion of the beam member 37 can be easily partially opened. As a result, it is possible to reduce the difference in ease of opening depending on the position of the frame body 23.

The present invention is not limited to the above embodiment.

For example, the groove portion 51 extends straight from the inner peripheral end portion 53a of the outer peripheral member 53 toward the outer peripheral end portion 53b, but may be extended in any shape as long as the opening pressure can be adjusted. For example, although the effect of draining water is not obtained, a groove extending along each side portion 54A to 54D may be formed. Further, the width of the groove 51 may be wider than that shown in FIG.

Further, in the above embodiment, the bottom surface of the recess 27 of the metal member 21 is flat, but the shape of the recess 27 is not particularly limited to that, and for example, a cross section that becomes deeper toward the center of the recess 27. It may be V-shaped or the like.

Further, in the above embodiment, the resin plate 22 has a volume that does not completely close the hole 31 when the resin S of the resin plate 22 is melted and accumulated at the bottom of the recess 27. It is not particularly limited to that form. For example, the resin plate 22 has a volume that slightly closes the hole 31 (for example, about a few percent or less of the opening area of the hole 31) when the resin S of the resin plate 22 melts and accumulates at the bottom of the recess 27. May have.

Further, in the above embodiment, the fixing portion 39 fixes the central portion of the frame body 23 to the upper surface 3a of the housing 2 via the resin plate 22 and the metal member 21, but the fixing portion 39 of the frame body 23 The fixing location is not particularly limited to that, and may be a position deviated from the central portion of the frame body 23 in the longitudinal direction (X direction) of the housing 2.

Further, in the above embodiment, the housing 2 has a main body portion 3 having a substantially rectangular box shape and a protruding portion 4 arranged above the main body portion 3, but the housing 2 has a main body portion 4. The structure is not particularly limited to this, and a structure having a substantially rectangular box shape without a protruding portion may be used.

1 ... Battery pack, 2 ... Housing, 8 ... Battery cell, 20 ... Pressure release unit, 22 ... Resin plate, 23 ... Frame, 23a ... Opening window, 37 ... Beam member, 51 ... Groove, 53 ... Outer peripheral member , 53a ... Inner peripheral end, 53b ... Outer peripheral end, 100 ... Open pressure adjusting part.

Claims (4)

With the housing
The battery cell housed in the housing and
A pressure release unit that is attached to the upper surface of the housing and releases the internal pressure of the housing when the internal pressure of the housing rises is provided.
The pressure release unit is
A resin plate supported on the upper surface side of the housing and
A metal frame that is placed on the resin plate and constitutes the opening window,
It has a fixing portion for fixing the frame body to the upper surface of the housing via the resin plate.
An opening is formed by elastically deforming the resin plate and the frame body starting from the fixed portion.
It said frame body, the opening pressure adjusting unit for adjusting the opening pressure of the pressure release unit provided et al is,
The frame body includes an outer peripheral member that surrounds the opening window portion from the outer peripheral side.
The opening pressure adjusting unit pack batteries, characterized in that formed by the beam member partitioning the opening window portion is connected to said peripheral member. With the housing
The battery cell housed in the housing and
A pressure release unit that is attached to the upper surface of the housing and releases the internal pressure of the housing when the internal pressure of the housing rises is provided.
The pressure release unit is
A resin plate supported on the upper surface side of the housing and
A metal frame that is placed on the resin plate and constitutes the opening window,
It has a fixing portion for fixing the frame body to the upper surface of the housing via the resin plate.
An opening is formed by elastically deforming the resin plate and the frame body starting from the fixed portion.
The frame body is provided with an opening pressure adjusting portion for adjusting the opening pressure of the pressure releasing unit.
The battery pack is characterized in that the open pressure adjusting portion is composed of a groove portion formed in the frame body . The frame body includes an outer peripheral member that surrounds the opening window portion from the outer peripheral side.
The battery pack according to claim 2 , wherein the groove portion extends between the inner peripheral end portion and the outer peripheral end portion of the outer peripheral member, and is opened at the inner peripheral end portion and the outer peripheral end portion. .. The frame body includes an outer peripheral member that surrounds the opening window portion from the outer peripheral side.
The opening pressure adjusting portion is composed of a beam member connected to the outer peripheral member to partition the opening window portion and a groove portion formed in the outer peripheral member.
The battery pack according to claim 1, wherein the groove portion is formed at a position of a connecting portion with the beam member among the outer peripheral members.

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