JP2018079933A - Battery cover - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a battery cover which has improved thermal insulation performance.SOLUTION: A battery cover 1 includes: side walls 2 (a left wall 5, a right wall 6, a front wall 7, and a rear wall 8) with which four side surfaces of a battery 31 are covered; and a first spacer 3, which is provided on an upper portion of the side walls 2 for disposing a space 37 between the battery 31 and the side walls 2.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a battery cover, and more particularly to a battery cover used for protecting a vehicle battery from heat.

  The vehicle battery is generally installed together with the engine in the engine room. In a vehicle battery, the surface of the battery is heated by heat from the engine, and the battery liquid inside the battery rises to a high temperature. As a result, the battery life is reduced.

  Therefore, in order to protect the battery from heat, a battery cover that covers the side surface of the battery has been proposed (see, for example, Patent Document 1).

  Patent Document 1 discloses a battery cover in which a side wall portion has a double wall structure including an outer wall and an inner wall, and a hollow sealed space is formed between the outer wall and the inner wall.

JP-A-8-2349

  However, when the battery cover described in Patent Document 1 is used, the entire inner wall is in close contact with the side surface of the battery. On the other hand, the battery liquid is filled in the lower part inside the battery.

  Therefore, when the exposed surface of the upper part of the battery is heated by heat from the outside, the heat spreads to the entire side surface of the battery through the inner wall of the battery cover and is conducted to the battery fluid. There is a problem that the battery is not well protected. Therefore, further improvement is demanded for heat insulation that can suppress heat from the outside to be conducted to the battery side surface or the battery liquid.

  Accordingly, an object of the present invention is to provide a battery cover with improved heat insulation.

  In order to achieve the above object, a battery cover according to the present invention includes a side wall that covers four side surfaces of a battery, a first spacer that is provided on an upper portion of the side wall, and that provides a space between the battery and the side wall. It is characterized by providing.

  According to such a configuration, a space (air layer) is generated between the side surface of the battery and the battery cover. Therefore, heat conducted from the outside to the side wall of the battery cover is not directly conducted to the side surface of the battery through the battery cover. As a result, the battery cover has excellent heat insulation properties, and can effectively protect the battery from external heat.

  In the battery cover of the present invention, it is preferable that the second spacer is provided on the side wall along the vertical direction.

  According to such a configuration, since the second spacer contacts the side surface of the battery along the vertical direction, a space between the side wall of the battery cover and the side surface of the battery can be maintained.

  In the battery cover of the present invention, it is preferable that the second spacer is provided on the side wall so as to contact a corner of the side surface of the battery when the battery cover is attached to the battery. It is.

  According to such a configuration, the strength of the corners on the side surface of the battery is high, so that the battery cover can be more securely attached to the battery.

  In the battery cover of the present invention, at least four of the second spacers are provided, and at least four of the second spacers are provided on the side wall so as to contact each of the four corners of the side surface of the battery. It is suitable that it is provided.

  According to such a configuration, since the second spacer comes into contact with the four corners of the battery, the space between the side wall of the battery cover and the side surface of the battery can be secured while the battery cover can be more securely attached to the battery. Can be held.

  In the battery cover of the present invention, it is preferable that at least four folded portions are provided on the side wall at a distance from each other.

  According to such a configuration, the battery cover can be folded, and can be carried and stored compactly.

  In the battery cover of the present invention, it is preferable that each of the folded portions includes two folded portions.

  According to such a configuration, when the battery cover is attached to the battery, two corners can be formed at the corner of the battery cover. As a result, by bringing the corner of the battery cover into contact with the corner of the side surface of the battery, a space can be reliably formed between the side wall of the battery cover and the side surface of the battery.

  Moreover, according to such a structure, when a battery cover is folded, the stress which arises when the 1st spacers which oppose in a folding part contact can be relieve | moderated. As a result, when the battery cover is folded and stored, damage to the first spacer can be reduced.

  In addition, it is preferable that the battery cover of the present invention further includes an outside air intake mechanism that takes outside air into the space.

  According to this configuration, fresh air can be taken into the space between the side surface of the battery and the battery cover. As a result, the battery can be quickly cooled.

  In the battery cover of the present invention, it is preferable that the outside air intake mechanism includes an opening that communicates the inside and outside of the space and a flap that opens and closes the opening.

  According to such a configuration, air can be taken into the space from the opening by an appropriate opening operation of the flap. As a result, the battery can be reliably cooled.

  In the battery cover of the present invention, it is preferable that the outside air intake mechanism includes at least two openings that communicate the inside and outside of the space.

  According to such a configuration, fresh air can be taken into the space from any one of the openings, and air inside the space can be exhausted to the outside from the other openings. As a result, the battery can be reliably cooled.

  In the battery cover of the present invention, at least two of the openings are provided in the side wall and / or the first spacer, at least one of the openings is an intake port, and at least one of the openings is The exhaust port is preferable.

  According to such a configuration, since fresh air can be taken in from the intake port and exhausted from the exhaust port, a passage path for fresh air can be formed in the space. As a result, the battery can be cooled more efficiently.

  In the battery cover of the present invention, it is preferable that an expansion / contraction portion is provided so as to contact a corner of the side surface of the battery when the battery cover is attached to the battery.

  According to such a configuration, when the battery cover is attached to the battery, the stretchable portion extends corresponding to the corner of the side surface of the battery, so that the battery cover can be easily attached to the battery.

  In the battery cover of the present invention, it is preferable that the side wall is formed of a heat insulating material.

  According to such a configuration, the heat insulating property of the battery cover is further improved. Therefore, the battery can be protected from heat.

  In the battery cover of the present invention, it is preferable that the side wall includes a foam layer and a skin laminated on both surfaces of the foam layer.

  According to such a configuration, the heat insulating property of the battery cover is further improved. Therefore, the battery can be further protected from heat.

  The battery cover of the present invention is excellent in heat insulation. Therefore, the battery can be effectively protected from external heat.

FIG. 1 shows a perspective view of a first embodiment of a battery cover of the present invention. FIG. 2 is a development view of the battery cover shown in FIG. 3A and 3B are cross-sectional views of FIG. 2, in which FIG. 3A is a cross-sectional view taken along the line AA, and FIG. 3B is a cross-sectional view taken along the line BB. FIG. 4 is a perspective view showing a state in which the battery cover of FIG. 1 is attached to the battery. FIG. 5 is a side sectional view taken along the line CC of FIG. FIG. 6 is a cross-sectional plan view taken along the line DD of FIG. FIG. 7 shows one form of the battery cover of FIG. 1 in a folded state, where (a) shows a side view and (b) shows a plan view. FIGS. 8A and 8B are other forms in which the battery cover of FIG. 1 is folded. FIG. 8A shows a side view, and FIG. 8B shows a plan view. FIG. 9 shows a perspective view of a second embodiment of the battery cover of the present invention. FIG. 10 is a side sectional view of FIG. 9, in which (a) shows a closed state of the flap, and (b) shows an open state of the flap. FIG. 11 shows a side sectional view of the battery cover according to the third embodiment of the present invention mounted on the battery. FIG. 12 is a side sectional view showing a state in which the battery cover according to the fourth embodiment of the present invention is attached to the battery. FIG. 13 is a side sectional view of the battery cover according to the fifth embodiment of the present invention mounted on the battery. FIG. 14 shows a partially enlarged view of the battery cover of the present invention, (a) shows the sixth embodiment, and (b) shows the seventh embodiment. FIG. 15 shows a perspective view and a partially enlarged view of a ninth embodiment of the battery cover of the present invention. FIG. 16 shows a side sectional view of a tenth embodiment of the battery cover of the present invention. FIG. 17 is a side sectional view of an eleventh embodiment of the battery cover of the present invention. FIG. 18 is a sectional side view of a twelfth embodiment of the battery cover of the present invention. FIG. 19 shows a perspective view of a thirteenth embodiment of the battery cover of the present invention.

  In FIG. 1, FIG. 4, FIG. 9, FIG. 15, and FIG. 19, the directions described below are as described in the directional arrows shown in each figure. The directions in FIGS. 5, 6 and 10 to 13 also conform to the direction shown in FIG. 1. Further, the direction in FIG. 2 is the upper side on the paper surface, the lower side on the paper surface is the lower side, the left direction on the paper surface is one direction in the longitudinal direction of the battery cover, and the right direction on the paper surface is the other direction in the longitudinal direction of the battery cover. The front side direction of the paper surface is the inner side direction of the battery cover, and the rear side direction of the paper surface is the outer side direction of the battery cover. The directions in FIGS. 3, 7, 8, 14, and FIGS.

<First Embodiment>
1. Battery Cover In the first embodiment, as shown in FIG. 1, the battery cover 1 has a rectangular tube shape extending in the vertical direction and is formed in a substantially rectangular frame shape in plan view. The battery cover 1 includes a plurality of (four) side walls 2, a plurality (four) of connecting portions 23 that connect the side walls 2, and a first spacer 3 provided at the upper ends of the inner surfaces of the side walls 2 and the connecting portions 23. And a third spacer 4 (see FIG. 2 and FIG. 3) provided at the lower end of the inner surface of the side wall 2 and the connecting portion 23.

  The four side walls 2 include a left wall 5 and a right wall 6 that are arranged to face each other in the left-right direction, and a front wall 7 and a rear wall 8 that are arranged to face each other in the front-rear direction. Yes.

  The four connecting portions 23 include a left front connecting portion 9 that connects the left wall 5 and the front wall 7, a left rear connecting portion 10 that connects the left wall 5 and the rear wall 8, and the right wall 6 and the front wall 7. And a right rear connecting portion 12 for connecting the right wall 6 and the rear wall 8 to each other.

  As shown in the development view of FIG. 2, the side wall 2 and the connecting portion 23 are formed in a substantially rectangular shape that is long in the circumferential direction (longitudinal direction). A thin portion (described later) is formed at the upper end portion and the lower end portion of the side wall 2 and the connecting portion 23, and a thick portion (described later) having heat insulating properties is formed at the center portion. A first spacer 3 is provided at the thin portion at the upper end, and a third spacer 4 is provided at the thin portion at the lower end.

  Each connecting portion 23 includes a second spacer (described later) provided along the vertical direction and two bent portions (described later) provided on both sides of the second spacer.

  In each connecting portion 23, one of the side walls 2 adjacent to each other is connected to a second spacer (described later) via one bent portion (described later), and the other side wall 2 is connected to the other bent portion. To the second spacer.

  Specifically, as shown in FIG. 2, the left wall 5 is formed in a substantially rectangular shape in a side view in which the vertical length is longer than the longitudinal length.

  The left wall 5 is integrally provided with a left thick portion 5a, an upper left thin portion 5b, and a lower left thin portion 5c.

  The left thick portion 5a is formed in a substantially rectangular shape in a side view at the approximate center of the left wall 5 in the vertical direction. As shown in FIG. 3A, the left thick portion 5a bulges inward. A thickness L1 (a distance from the inner side surface to the outer side surface) of the left thick part 5a is formed to be larger than the thicknesses of the upper left thin part 5b and the lower left thin part 5c.

  The upper left thin part 5b is formed adjacent to the upper side of the left thick part 5a, as shown by the broken line in FIG. 2 and FIG. 3A. The upper left thin part 5b is formed in a substantially rectangular shape in side view extending in the longitudinal direction. The vertical length of the upper left thin portion 5 b is substantially the same as the vertical length of the first spacer 3.

  The lower left thin portion 5c is formed adjacent to the lower side of the left thick portion 5a, as shown by the broken line in FIG. 2 and FIG. 3A. The upper left thin part 5b is formed in a substantially rectangular shape in side view extending in the longitudinal direction. The vertical length of the lower left thin portion 5 c is substantially the same as the vertical length of the third spacer 4.

  As shown in FIG. 2, an engaged portion 13 is provided at the other end portion in the longitudinal direction of the left wall 5.

  The engaged portion 13 is provided to engage with an engaging portion 21 (described later) of the left rear connecting portion 10 to hold the battery cover 1 in a cylindrical shape. The engaged portion 13 has a substantially U shape that is open toward one side in the longitudinal direction, and is formed in a thin shape. The first engaged portion 14, the first engaged portion 14, and the lower portion Are integrally provided with a second engaged portion 15 disposed at a distance from each other, and an overlapping portion 16 that connects the first engaged portion 14 and the second engaged portion 15.

  The first engaged portion 14 has a substantially rectangular shape in a side view, and a first slit 18 for inserting a first projecting portion 17 (described later) is formed along the vertical direction at the center in the vertical direction. .

  The second engaged portion 15 has a substantially rectangular shape in a side view, and a second slit 20 for inserting a second protrusion 19 (described later) is formed in the vertical direction center along the vertical direction. . The vertical length and the longitudinal length of the second engaged portion 15 and the first engaged portion 14 are substantially the same. The vertical lengths of the second slit 20 and the first slit 18 are substantially the same. That is, the shape of the second engaged portion 15 is substantially the same as the shape of the first engaged portion 14.

  The overlapping portion 16 has a substantially rectangular shape when viewed from the side, and the length in the longitudinal direction is formed to be shorter than the length in the longitudinal direction of the first engaged portion 14.

  The other longitudinal ends of the first engaged portion 14, the second engaged portion 15, and the overlapping portion 16 are formed flush with each other.

  A left front connecting portion 9 is formed integrally with the left wall 5 on one side in the longitudinal direction of the left wall 5.

  The left front connecting portion 9 is elongated in the vertical direction, and includes a second left front spacer 9a as a second spacer, a left front upper thin portion 9b, a left front lower thin portion 9c, and two left front bent portions 9d as bent portions. , 9e are integrally provided.

  The second left front spacer 9a has a substantially rectangular shape in a side view along the vertical direction, and is formed thick so as to bulge inward. The second left front spacer 9a is formed such that its thickness L2 (distance from the inner surface to the outer surface) is larger than the thickness of the left front upper thin portion 9b and the left front lower thin portion 9c. It is formed to be the same or smaller than the thickness.

  The left front upper thin part 9b is formed adjacent to the upper side of the second left front spacer 9a as referred to by the broken line in FIG. 2 and FIG. 3B. The left front upper thin part 9b is formed in a substantially rectangular shape in a side view. The vertical length of the upper left thin portion 9 b is substantially the same as the vertical length of the first spacer 3.

  The left front lower thin portion 9c is formed adjacent to the lower side of the second left front spacer 9a as referred to by the broken line in FIG. 2 and FIG. 3B. The left front lower thin portion 9c is formed in a substantially rectangular shape in side view. The vertical length of the left front lower thin portion 9 c is substantially the same as the vertical length of the third spacer 4.

  The two left front bent portions 9d and 9e are formed adjacent to each other in one longitudinal direction and the other direction of the second left front spacer 9a, the left front upper thin portion 9b, and the left front lower thin portion 9c. The two left front bent portions 9d and 9e are formed in a linear shape extending in the vertical direction and are formed thin. Each vertical length is the same length as the sum of the vertical lengths of the second left front spacer 9a, the left front upper thin part 9b, and the left front lower thin part 9c.

  The second left front spacer 9a is connected to the left wall 5 through one left front bent portion 9d, and is connected to the front wall 7 through the other left front bent portion 9e.

  A front wall 7 is formed integrally with the left front connecting portion 9 on one side in the longitudinal direction of the left front connecting portion 9.

  The front wall 7 has a substantially rectangular shape in a side view having a length in the longitudinal direction longer than that of the left wall 5, and an upper end portion of the front wall 7 is cut out in a substantially U shape in a side view. The front wall 7 is integrally provided with a front thick part 7a, a front upper thin part 7b, and a front lower thin part 7c.

  The front thick portion 7a is formed in a substantially rectangular shape in a side view at the approximate center of the front wall 7 in the vertical direction. The front thick part 7a bulges inward. The thickness (the distance from the inner side surface to the outer side surface) of the front thick part 7a is substantially the same as the thickness of the left thick part 5a.

  The front upper thin part 7b is formed adjacent to the upper side of the front thick part 7a. The front upper thin portion 7 b is formed in a substantially U shape whose upper end edge is along the upper end portion of the front wall 7.

  The front lower thin portion 7c is formed adjacent to the lower side of the front thick portion 7a as shown by the broken line in FIG. The front lower thin portion 7c is formed in a substantially rectangular shape in side view extending in the longitudinal direction. The vertical length of the front lower thin portion 7 c is substantially the same as the vertical length of the third spacer 4.

  A right front connecting portion 11 is formed integrally with the front wall 7 on one side in the longitudinal direction of the front wall 7.

  The right front connecting part 11 is substantially the same shape as the left front connecting part 9 and is elongated in the vertical direction. The second right front spacer 11a as the second spacer, the right front upper thin part 11b, the right front lower thin part 11c, The front right bent portions 11d and 11e as the bent portions are integrally provided.

  The second right front spacer 11a has a substantially rectangular shape in side view along the vertical direction, and is formed thick so as to bulge inward. The thickness of the second right front spacer 11a is substantially the same as the thickness of the second left front spacer 9a.

  The right front upper thin part 11b is formed adjacent to the upper side of the second right front spacer 11a as shown by the broken line in FIG. The front right upper thin part 11b is formed in a substantially rectangular shape in a side view. The vertical length of the upper right thin portion 11 b is substantially the same as the vertical length of the first spacer 3.

  The right front lower thin portion 11c is formed adjacent to the lower side of the second right front spacer 11a, as indicated by a broken line in FIG. The right front lower thin part 11c is formed in a substantially rectangular shape in a side view. The vertical length of the right front lower thin portion 11 c is substantially the same as the vertical length of the third spacer 4.

  The two right front bent portions 11d and 11e are formed adjacent to each other in one longitudinal direction and the other direction of the second right front spacer 11a, the right front upper thin portion 11b, and the right front lower thin portion 11c. The two right front bent portions 11d and 11e are formed in a linear shape extending in the vertical direction and are formed thin. Each vertical length is the same as the sum of the vertical lengths of the second right front spacer 11a, the right front upper thin portion 11b, and the right front lower thin portion 11c.

  The second right front spacer 11a is connected to the front wall 7 through one right front bent part 11d and is connected to the right wall 6 through the other right front bent part 11e.

  The right wall 6 is formed integrally with the right front connecting part 11 on one side in the longitudinal direction of the right front connecting part 11.

  The right wall 6 is shorter than the front wall 7 and has a substantially rectangular shape in side view having substantially the same length in the longitudinal direction as the left wall 5, and includes a right thick portion 6a, an upper right thin portion 6b, and a lower right thin portion. 6c is integrally provided.

  The right thick portion 6a is formed in a substantially rectangular shape in a side view at the approximate center of the right wall 6 in the vertical direction. The right thick part 6a bulges inward. The right thick portion 6a is formed so that the thickness thereof is larger than the thickness of the upper right thin portion 6b and the lower right thin portion 6c, and is substantially the same as the thickness of the left thick portion 5a.

  The upper right thin portion 6b is formed adjacent to the upper side of the right thick portion 6a as shown by the broken line in FIG. The upper right thin portion 6b is formed in a substantially rectangular shape in side view extending in the longitudinal direction. The vertical length of the upper right thin portion 6 b is substantially the same as the vertical length of the first spacer 3.

  The lower right thin portion 6c is formed adjacent to the lower side of the right thick portion 6a, as shown by the broken line in FIG. The lower right thin portion 6c is formed in a substantially rectangular shape in side view extending in the longitudinal direction. The vertical length of the lower right thin portion 6 c is substantially the same as the vertical length of the third spacer 4.

  A right rear connecting portion 12 is formed integrally with the right wall 6 on one side in the longitudinal direction of the right wall 6.

  The right rear connecting portion 12 is substantially the same shape as the left front connecting portion 9 and is elongated in the vertical direction. The second right rear spacer 12a as the second spacer, the right rear upper thin portion 12b, and the right rear lower thin portion 12c. And two rear right bent portions 12d and 12e as bent portions are integrally provided.

  The second right rear spacer 12a has a substantially rectangular shape in a side view along the vertical direction, and is formed thick so as to bulge inward. The thickness of the second right rear spacer 12a is substantially the same as the thickness of the second left front spacer 9a.

  The right rear upper thin part 12b is formed adjacent to the upper side of the second right rear spacer 12a, as shown by the broken line in FIG. The right rear upper thin part 12b is formed in a substantially rectangular shape in a side view. The vertical length of the right rear upper thin portion 12 b is substantially the same as the vertical length of the first spacer 3.

  The right rear lower thin portion 12c is formed adjacent to the lower side of the second right rear spacer 12a, as indicated by a broken line in FIG. The right rear lower thin portion 12c is formed in a substantially rectangular shape in a side view. The vertical length of the right rear lower thin portion 12 c is substantially the same as the vertical length of the third spacer 4.

  The two right rear bent portions 12d and 12e are formed adjacent to each other in one longitudinal direction and the other direction of the second right rear spacer 12a, the right front upper thin portion 11b, and the right front lower thin portion 11c. The two right rear bent portions 12d and 12e are formed in a linear shape extending in the vertical direction and are formed thin. Each vertical length is the same as the sum of the vertical lengths of the second right rear spacer 12a, the right rear upper thin portion 12b, and the right rear lower thin portion 12c.

  The second right rear spacer 12a is connected to the right wall 6 through one right rear bent portion 12d, and is connected to the rear wall 8 through the other right rear bent portion 12e.

  A rear wall 8 is formed integrally with the right rear connecting portion 12 on one side in the longitudinal direction of the right rear connecting portion 12.

  The rear wall 8 is longer than the right wall 6 and has a substantially rectangular shape in a side view having substantially the same longitudinal length as the front wall 7, and its upper end is shallower than the upper end of the front wall 7. It is cut out in a substantially U shape when viewed from the side. The rear wall 8 is integrally provided with a rear thick portion 8a, a rear upper thin portion 8b, and a rear lower thin portion 8c.

  The rear thick portion 8a is formed in a substantially rectangular shape in a side view at a substantially center in the vertical direction of the rear wall 8. The rear thick part 8a bulges inward. The thickness of the rear thick part 8a is substantially the same as the thickness of the left thick part 5a.

  The rear upper thin part 8b is formed adjacent to the upper side of the rear thick part 8a. The rear upper thin portion 8 b has an upper end edge formed in a substantially U shape along the upper end portion of the rear wall 8.

  The rear lower thin portion 8c is formed adjacent to the lower side of the rear thick portion 8a as shown by the broken line in FIG. The rear lower thin portion 8c is formed in a substantially rectangular shape in side view extending in the longitudinal direction. The vertical length of the rear lower thin portion 8 c is substantially the same as the vertical length of the third spacer 4.

  A left rear connecting portion 10 is formed integrally with the rear wall 8 on one side in the longitudinal direction of the rear wall 8.

  The left rear connecting portion 10 has substantially the same shape as the left front connecting portion 9 and is elongated in the vertical direction. The second left rear spacer 10a as the second spacer, the left rear upper thin portion 10b, and the left rear lower thin portion 10c. And two rear left bent portions 10d and 10e as bent portions.

  The second left rear spacer 10a has a substantially rectangular shape in a side view along the vertical direction, and is formed thick so as to bulge inward. The thickness of the second left rear spacer 10a is substantially the same as the thickness of the second left front spacer 9a.

  The left rear upper thin part 10b is formed adjacent to the upper side of the second left rear spacer 10a, as indicated by a broken line in FIG. The left rear upper thin part 10b is formed in a substantially rectangular shape in a side view. The vertical length of the left rear upper thin portion 10 b is substantially the same as the vertical length of the first spacer 3.

  The left rear lower thin portion 10c is formed adjacent to the lower side of the second left rear spacer 10a, as indicated by a broken line in FIG. The left rear lower thin portion 10c is formed in a substantially rectangular shape in side view. The vertical length of the left rear lower thin portion 10 c is substantially the same as the vertical length of the third spacer 4.

  The two left rear bent portions 10d, 10e are formed adjacent to each other in one longitudinal direction and the other direction of the second left rear spacer 10a, the left rear upper thin portion 10b, and the left rear lower thin portion 10c. . The two left rear bent portions 10d and 10e are formed in a linear shape extending in the vertical direction and are formed thin. Each vertical length is the same as the sum of the vertical lengths of the second left rear spacer 10a, the left rear upper thin portion 10b, and the left rear lower thin portion 10c.

  The second left rear spacer 10a is connected to the rear wall 8 through one left rear bent portion 10d, and is connected to an engaging portion 21 (described later) through the other left rear bent portion 10e.

  The left rear connecting portion 10 includes an engaging portion 21 at one end portion in the longitudinal direction. The engaging portion 21 is formed in a thin shape, and includes a first protruding portion 17 and a second protruding portion 19 on one side in the longitudinal direction.

  The first projecting portion 17 projects in one longitudinal direction above the engaging portion 21 and is formed from a first projecting portion 24 formed in a substantially rectangular shape in a side view and from one end in the longitudinal direction of the first projecting portion 24 or A head 25 that bulges downward is integrally provided.

  The vertical length of the first protrusion 24 is formed to be substantially the same as the vertical length of the first slit 18.

  The second projecting portion 19 is provided to be spaced downward from the first projecting portion 17 and is formed to project in one longitudinal direction of the engaging portion 21. The second protrusion 19 is formed in substantially the same shape as the first protrusion 17. That is, the second projecting portion 19 projects in one longitudinal direction below the engaging portion 21 and is formed from a second projecting portion 26 formed in a substantially rectangular shape in side view and one end portion in the longitudinal direction of the second projecting portion 26. A second head 27 bulging upward or downward is integrally provided.

  The vertical length of the second protrusion 26 is formed to be substantially the same as the vertical length of the second slit 20.

  Each of the four connecting portions 23 (the left front connecting portion 9, the left rear connecting portion 10, the right front connecting portion 11, and the right rear connecting portion 12) constitutes a folding portion 28, so that the inner surface of the side wall 2 is in contact with the battery. The cover 1 can be folded.

  A first spacer 3 is provided on the upper edge of each side wall 2 of the battery cover 1 and the inner side surface of each connecting portion 23. More specifically, the first spacer 3 includes the upper left thin portion 5b, the left front upper thin portion 9b, the front upper thin portion 7b, the right front upper thin portion 11b, the upper right thin portion 6b, the right rear upper thin portion 12b, and the rear upper thin portion. It is provided continuously along the upper edge of the inner surface of the portion 8b and the left rear upper thin portion 10b. The first spacers 3 are disposed on the side walls 2 and the connection portions 23 so that the upper end portions of the side walls 2 and the connection portions 23 and the upper end portions of the first spacers 3 are flush with each other.

  The inner side surface of the first spacer 3 is located on the inner side of the inner side surfaces of the thick portions (the left thick portion 5a, the right thick portion 6a, the front thick portion 7a, and the rear thick portion 8a) of each side wall 2. And it is located inside the second spacer (second left front spacer 9a, second left rear spacer 10a, second right front spacer 11a and second right rear spacer 12a) of each connecting portion 23.

  The first spacer 3 is formed in a substantially rectangular shape in cross-section extending in the longitudinal direction, and is formed from a foam (sponge).

  A third spacer 4 is provided at the lower edge of each side wall 2 of the battery cover 1 and the inner side surface of each connecting portion 23. More specifically, the third spacer 4 includes a left lower thin part 5c, a left front lower thin part 9c, a front lower thin part 7c, a right front lower thin part 11c, a right lower thin part 6c, a right rear lower thin part 12c, and a rear lower part. It is provided continuously along the lower end edge of the inner side surface of the thin portion 8c and the left rear lower thin portion 10c. The third spacer 4 is disposed on each side wall 2 and each connecting portion 23 so that the lower end surfaces of each side wall 2 and each connecting portion 23 and the lower end surface of the third spacer 4 are flush with each other.

  The inner side surface of the third spacer 4 is located on the inner side of the inner side surfaces of the thick portions (the left thick portion 5a, the right thick portion 6a, the front thick portion 7a, and the rear thick portion 8a) of each side wall 2. And it is located inside the second spacer (second left front spacer 9a, second left rear spacer 10a, second right front spacer 11a and second right rear spacer 12a) of each connecting portion 23.

  The third spacer 4 is formed in a substantially rectangular shape in sectional view extending in the longitudinal direction. The third spacer 4 is formed of the same material as the first spacer 3, that is, a foam (sponge).

2. First, a foam layer (indicated by reference numeral 39 in FIGS. 1 and 3) and a skin (indicated by reference numeral 40 in FIGS. 1 and 3) laminated on both surfaces of the foam layer. A heat-insulating cover material is prepared.

  Examples of the foam layer include polyurethane foam, polystyrene foam, polyolefin foam, chloroprene foam, and polyester foam. By using the foam layer, the heat insulating property of the battery cover is improved. Among these foam layers, a polyurethane foam is preferably used from the viewpoints of moldability and heat insulation.

  Examples of the skin include polyester felt impregnated with a thermosetting resin, polypropylene, nylon, and a mixture of polyester and rayon. Examples of the thermosetting resin include a phenol resin and a leisonsinol resin.

  Examples of the foam layer and the skin include elastic members such as heat-resistant ethylene / propylene / diene rubber-based foams (EPDM foams) and silicone-based foams. By using these, when the battery is attached to the battery cover, the battery cover can be extended outward, and the attachment of the battery can be facilitated.

  The thickness of the foam layer is, for example, 1 mm or more, preferably 5 mm or more, and for example, 20 mm or less, preferably 15 mm or less.

  The thickness of the epidermis is, for example, 0.05 mm or more, preferably 0.3 mm or more, and for example, 1.5 mm or less, preferably 1 mm or less.

  The total thickness of the cover material (corresponding to the thickness of each thick portion) is, for example, 1 mm or more, preferably 5 mm or more, and for example, 20 mm or less, preferably 15 mm or less.

  Next, a predetermined portion of the cover material is thermally compressed to form a thin portion. Specifically, the cover material is made of each thin portion (the upper left thin portion 5b, the left front upper thin portion 9b, the front upper thin portion 7b, the right front upper thin portion 11b, the upper right thin portion 6b, the right rear upper thin portion 12b, the rear upper portion. Thin portion 8b, left rear upper thin portion 10b, left lower thin portion 5c, left front lower thin portion 9c, front lower thin portion 7c, right front lower thin portion 11c, right lower thin portion 6c, right rear lower thin portion 12c, rear Lower thin portion 8c, left rear lower thin portion 10c, left front bent portions 9d and 9e, left rear bent portions 10d and 10e, right front bent portions 11d and 11e, right rear bent portions 12d and 12e, engaging portion 21, and One surface (inner surface) of the cover material is compressed with a heating plate having a shape corresponding to each thin portion so that the engaging portion 13) is obtained. By forming the thin portion, the bent portion can be easily formed, and buffering and contact with the peripheral portion can be avoided.

  The temperature of a heating plate is 120 degreeC or more, for example, Preferably, it is 140 degreeC or more, for example, is 230 degrees C or less, Preferably, it is also 200 degrees C or less.

  Specifically, the thickness L1 of the left thick portion 5a is, for example, 5 mm or more, preferably 10 mm or more, and for example, 20 mm or less, preferably 15 mm or less. Moreover, the thickness of the front thick part 7a, the right thick part 6a, and the rear thick part 8a is also the same as the said range.

  Specifically, the thickness L2 of the second left front spacer 9a is, for example, 1 mm or more, preferably 2 mm or more, and for example, 15 mm or less, preferably 10 mm or less. The thicknesses of the second right front spacer 11a, the second right rear spacer 12a, and the second left rear spacer 10a are also the same as the above range.

  The thickness of each thin part is almost the same, specifically, for example, 0.1 mm or more, preferably 0.5 mm or more, and, for example, 2 mm or less, preferably 1.5 mm or less. But there is.

  Specifically, for example, the longitudinal length of each bent portion (left front bent portions 9d, 9e, left rear bent portions 10d, 10e, right front bent portions 11d, 11e, right rear bent portions 12d, 12e) is, for example, It is 2 mm or more, preferably 6 mm or more, and for example, 35 mm or less, preferably 20 mm or less.

  Next, the outer shape is processed. More specifically, the cover material is cut along the outside of each thin portion.

  Thereby, the left wall 5, the left front connecting part 9, the front wall 7, the right front connecting part 11, the right wall 6, the right rear connecting part 12, the rear wall 8, and the left rear connecting part 10 are successively arranged in this order. An integrally molded battery cover wall material is obtained.

  Next, a long first spacer 3 having a substantially rectangular shape in side view is attached along the upper edge of the inner side surface of the battery cover wall material.

  The first spacer 3 is formed from a foam. Examples of the foam include ethylene / propylene / diene rubber foam (EPDM foam), ethylene / propylene foam (EPM foam), polyurethane foam, polystyrene foam, polyolefin foam, and chloroprene foam. . Preferably, EPDM foam is used.

  The thickness (the distance from the innermost side to the outermost side) of the first spacer 3 is, for example, 1 mm or more, preferably 5 mm or more, and for example, 15 mm or less, preferably 10 mm or less. The vertical length of the first spacer 3 is, for example, 3 mm or more, preferably 7 mm or more, and for example, 15 mm or less, preferably 10 mm or less.

  Next, a long third spacer 4 having a substantially rectangular shape in side view is attached along the lower edge of the inner side surface of the battery cover wall material.

  The third spacer 4 is formed from a foam. As a foam, the same thing as the 1st spacer 3 is mentioned, for example. Preferably, EPDM foam is used. The thickness and the vertical length of the third spacer 4 are substantially the same as the thickness and the vertical length of the first spacer 3, respectively.

  And by inserting the 1st protrusion part 17 and the 2nd protrusion part 19 of the left rear connection part 10 into the 1st slit 18 and the 2nd slit 20 of the left wall 5, respectively, the left wall 5 and the left rear connection part 10 are The connected rectangular tube-shaped battery cover 1 is obtained.

  Specifically, as described above, in the battery cover 1, the front wall 7 and the rear wall 8 face each other with a space in the front-rear direction, and the left wall 5 and the right wall 6 face each other with a space in the left-right direction. It is formed in a substantially rectangular shape in plan view long in the left-right direction.

  In each of the four corners of the battery cover 1, the side walls 2 (front wall 7 and left wall 5, left wall 5 and rear wall 8, rear wall 8 and right wall 6, right wall 6, which are arranged adjacent to each other at substantially right angles. And the front wall 7) are connected via respective connecting portions 23 (left front connecting portion 9, left rear connecting portion 10, right front connecting portion 11, right rear connecting portion 12). In each connecting portion 23, two bent portions (left front bent portions 9d, 9e, sandwiching the second spacer (second left front spacer 9a, second left rear spacer 10a, second right front spacer 11a, second right rear spacer 12a)) The left rear bent portions 10d and 10e, the right front bent portions 11d and 11e, and the right rear bent portions 12d and 12e) are bent to realize a substantially right-angled arrangement of the side walls 2 adjacent to each other.

  That is, one of the side walls 2 adjacent to each other (for example, the front wall 7) and the connecting portion 23 (for example, the left front connecting portion 9) are bent at one bent portion (for example, the left front bent portion 9e). The side walls 2 adjacent to each other are connected so that an obtuse angle (for example, 100 to 175 degrees, preferably 120 to 150 degrees, most preferably 135 degrees) is formed inside the rectangular tube shape. The other side wall 2 (for example, the left wall 5) and the connecting portion 23 (for example, the left front connecting portion 9) are bent at the other bent portion (for example, the bent portion 9d), so that the inside of the rectangular tube shape is formed. It connects so that an obtuse angle may be formed.

  Accordingly, each of the four corners of the battery cover 1 is formed in a substantially trapezoidal shape in plan view by forming two corners (obtuse angles) by the side walls 2 and the connecting portions 23 arranged adjacent to each other at substantially right angles. Is done.

3. As shown in FIG. 4, the battery 31 is a secondary battery mounted on a vehicle, a ship, or the like, and is filled with a battery liquid 32.

  The battery 31 is formed in a substantially rectangular parallelepiped shape. Two terminals 33 are provided on the upper surface, and a battery liquid detection unit 35 that allows the battery liquid interface 34 to be visually observed from the outside is provided on the front surface. Yes. The battery liquid detection unit 35 is provided with an upper limit scale 36a indicating the upper limit of the filling amount of the battery liquid 32 and a lower limit scale 36b indicating the lower limit of the filling amount of the battery liquid 32. The battery liquid 32 is filled in the battery 31 so that the battery liquid interface 34 is located between the upper limit scale and the lower limit scale.

  The battery cover 1 is attached to the battery 31 such that the side surface (front surface) where the battery liquid detection unit 35 of the battery 31 is disposed is opposed to the front wall 7 of the battery cover 1. At this time, the battery fluid detection unit 35 is exposed from the upper end portion of the front wall 7 cut out in a substantially U shape.

  As shown in FIGS. 5 and 6, the battery cover 1 is formed such that a space defined from the four side walls 2 (inner side surfaces) of the battery cover 1 is slightly larger than the side surface of the battery 31. Yes.

  As shown in FIG. 6, at each of the four corners of the battery cover 1, there are two bent portions (left front bent portions 9d and 9e, left rear bent portions 10d and 10e, right front bent portions 11d and 11e, and right rear bent portions 12d and 12e. ) Are bent, the outer peripheral shape of the battery cover 1 is formed into a shape in which the corners of the four corners are chamfered obliquely, that is, a substantially octagonal shape in plan view. On the inner peripheral surface of the battery cover 1, four second corners (in particular, four second left spacers 9a, a second left rear spacer 10a, a second right front spacer 11a, and a second right rear spacer 12a). (Spacer) protrudes inward. Therefore, when the battery 31 is attached to the battery cover 1, the four second spacers come into contact with the four corners 38 (corners: 38a, 38b, 38c, 38d) of the side surface of the battery, and the battery cover 1 It is fixed to the battery 31.

  The first spacer 3 is in contact with the upper part of the side surface of the battery 31, and the third spacer 4 is in contact with the lower part of the side surface of the battery 31. Specifically, the inner side surface of the first spacer 3 is in contact with the side surface of the battery 31 in the entire circumferential direction, and the inner side surface of the third spacer 4 is in contact with the side surface of the battery 31 in the entire circumferential direction.

  The bottom surface of the battery 31 is flush with the lower end surface of the third spacer 4 and the lower end surface of the side wall 2 of the battery cover 1.

  Then, four sealed spaces 37 (air layers) are defined by the inner side surface of the side wall 2 of the battery cover 1, the side surface of the battery 31, the first spacer 3, the second spacer, and the third spacer 4. Is done.

  Specifically, in front of the battery 31, a front space 37a is defined from the first spacer 3, the second left front spacer 9a, the second right front spacer 11a, the third spacer 4, the front wall 7, and the front surface of the battery 31. . Behind the battery 31, a rear space 37b is defined from the first spacer 3, the second left rear spacer 10a, the second right rear spacer 12a, the third spacer 4, the rear wall 8, and the rear side surface of the battery. On the left side of the battery 31, a left space 37c is defined from the first spacer 3, the second left front spacer 9a, the second left rear spacer 10a, the third spacer 4, the left wall 5, and the left side surface of the battery 31. . On the right side of the battery 31, a right space 37d is defined from the first spacer 3, the second right front spacer 11a, the second right rear spacer 12a, the third spacer 4, the right wall 6, and the right side surface of the battery.

  The distance of each space 37 (distance between the inner surface of each side wall 2 of the battery cover 1 and the side surface of the battery 31) is, for example, 1 mm or more, preferably 3 mm or more, and for example, 15 mm or less, preferably It is also 10 mm or less.

4). Folding
The battery cover 1 can be folded as shown in FIG. 7 or FIG.

  Specifically, in FIG. 7, the right front bent portions 11 d and 11 e of the right front connecting portion 11 and the left rear bent portions 10 d and 10 e of the left rear connecting portion 10 are bent, and the left front bent portion 9 d of the left front connecting portion 9 and By extending 9e and right rear bent portions 12d and 12e of the right rear connecting portion 12, the front wall 7, the left front connecting portion 9 and the left wall 5 are continuously formed into a flat plate shape, and the rear wall 8 and the right rear connecting portion are connected. The part 12 and the right wall 6 are continuously formed into a flat plate shape and are folded so as to overlap each other.

  At this time, in the right front connecting portion 11 and the front wall 7 and the right wall 6 connected to both sides of the right front connecting portion 11, the first spacer 3 and the third spacer 4 extend along the two right front bent portions 11d and 11e. And bent into a substantially U shape in plan view.

  On the other hand, in FIG. 8, the left front bent portions 9d and 9e of the left front connecting portion 9 and the right rear bent portions 12d and 12e of the right rear connecting portion 12 are bent, and the right front bent portions 11d and 11e of the right front connecting portion 11 are By extending the left rear bent portions 10d and 10e of the left rear connecting portion 10, the front wall 7, the right front connecting portion 11 and the right wall 6 are continuously formed into a flat plate shape, and the rear wall 8, the left rear connecting portion 10 and The left wall 5 is continuously flat and folded so that they overlap.

  At this time, in the left front connecting portion 9 and the front wall 7 and the left wall 5 connected to both sides of the left front connecting portion 9, the first spacer 3 and the third spacer 4 are along the two left front bent portions 9d and 9e. And bent into a substantially U shape in plan view.

5. The battery cover 1 includes a side wall 2 (left wall 5, right wall 6, front wall 7, and rear wall 8) that covers the four side surfaces of the battery 31, and a first spacer 3 provided on the upper side of the side wall 2. Therefore, a space 37 (air layer) is generated between the side surface of the battery 31 and each side wall 2 of the battery cover 1.

  Therefore, heat conducted from the outside to the side wall 2 of the battery cover 1 is not directly conducted to the side surface of the battery 31 through the battery cover 1. As a result, the battery cover 1 is excellent in heat insulation, and can effectively protect the battery 31 from external heat.

  In the battery cover 1, second spacers (second left front spacer 9a, second left rear spacer 10a, second right front spacer 11a and second right rear spacer 12a) are provided on the side wall 2 along the vertical direction. The battery 31 contacts the side surface of the battery 31 along the vertical direction.

  Therefore, the space 37 between the side wall 2 of the battery cover 1 and the side surface of the battery 31 can be held.

  Specifically, in the battery cover 1, when the battery cover 1 is attached to the battery 31, the second spacer contacts the corners 38 (38a, 38b, 38c and 38d) on the side surface of the battery. Provided on the side wall 2.

  Therefore, since the strength of the corner 38 on the side surface of the battery 31 is high, the battery cover 1 can be attached to the battery 31 more reliably.

  Specifically, four second spacers (second left front spacer 9a, second left rear spacer 10a, second right front spacer 11a, and second right rear spacer 12a) are provided at each of the four corners 38 on the side surface of the battery 31. It is provided in the side wall 2 so that it may contact.

  Therefore, since the second spacer contacts the four corners 38a, 38b, 38c and 38d of the battery 31, the battery cover 1 can be more securely attached to the battery 31, while the side wall 2 of the battery cover 1 and the battery 31 A space 37 between the side surfaces can be maintained.

  That is, the battery cover 1 includes each side wall 2 (left wall 5, right wall 6, front wall 7 and rear wall 8) and each connecting portion 23 (left front connecting portion 9, left rear connecting portion 10, right front connecting portion 11 and The right rear connecting portion 12) forms a substantially octagonal shape in plan view. Therefore, a space can be reliably formed between the side wall 2 of the battery cover 1 and the side surface of the battery 31.

  More specifically, when the battery cover 1 is attached to the battery 31, the four spaces (37a, 37b, 37c and 37d) are partitioned as described above. Therefore, the space 37 can be formed and stored between the battery cover 1 and the battery 31 more reliably.

  In addition, the battery cover 1 is provided with four folding portions 28 (a left front connecting portion 9, a left rear connecting portion 10, a right front connecting portion 11 and a right rear connecting portion 12) spaced apart from each other. Therefore, since the battery cover 1 can be folded so that the inner surface of the side wall 2 contacts, it can be carried compactly and stored.

  More specifically, in the battery cover 1, each of the folding portions 28 includes two bent portions (left front bent portions 9d and 9e, left rear bent portions 10d and 10e, right front bent portions 11d and 11e, and right rear bent portion 12d. And 12e). For this reason, when the battery cover 1 is attached to the battery 31 and has a rectangular tube shape, two corners can be formed at each corner of the battery cover 1. Therefore, the battery cover 1 can be formed in a substantially octagonal shape in plan view as described above, and a space can be reliably formed between the side wall 2 of the battery cover 1 and the side surface of the battery 31.

  In addition, when the battery cover 1 is folded, the side walls 2 facing each other at the folding portion 28 can be kept at a predetermined distance, so that the stress generated by the contact between the first spacers 3 provided on the inner surface of the side wall 2. Can be relaxed. As a result, when the battery cover 1 is folded and stored, damage to the first spacer 3 can be reduced.

  Moreover, in this battery cover 1, since the side wall 2 is provided with the foam layer formed from a heat insulating material, the heat insulation of the battery cover 1 further improves. Therefore, the battery 31 can be further protected from heat.

  Specifically, since the side wall 2 includes a foam layer and skins laminated on both surfaces of the foam layer, the heat insulating property of the battery cover 1 is further improved. Therefore, the battery 31 can be further protected from heat.

Second Embodiment
As shown in FIG. 9, the battery cover 1 of the second embodiment includes an opening 41 and a flap 42 as an outside air intake mechanism that takes outside air into the space 37.

  The opening 41 is formed in a substantially rectangular shape in a side view passing through the thickness direction of the front wall 7 in the approximate center of the front wall 7 and communicates the inside and outside of the space.

  The flap 42 is made of a flexible material such as an elastic film, and is formed in a substantially rectangular flat plate shape that is slightly larger than the opening 41. The flap 42 is disposed so as to cover the opening 41 from the inner surface of the front wall 7. As shown in FIG. 10A, the upper end of the flap 42 is fixed to the inner surface of the front wall 7 above the opening 41, and the peripheral end (left end, excluding the upper end of the flap 42). The right end portion and the lower end portion are in contact with the peripheral edge portion of the opening 41 in the front wall 7 so as to be separable.

  The battery cover 1 is attached to the battery 31 so that the opening 41 faces the front of the vehicle. As shown in FIG. 10B, when air flows in from the front, the flap 42 swings backward with the upper end portion as a fulcrum to open the opening 41.

  Therefore, when the vehicle is stopped, the opening 41 is closed by the flap 42, while when the vehicle is running, as described above, the flap 42 opens the opening 41 and takes outside air into the space 37. be able to.

  Such a battery cover 1 includes an opening 41 that communicates the inside and outside of the space 37, and a flap 42 that opens and closes the opening 41. Therefore, fresh air can be taken into the space 37 from the opening 41 by an appropriate opening operation of the flap 42. As a result, the battery 31 can be cooled quickly and reliably.

  In addition, although not shown in figure, the ventilation fan etc. can also be provided in the inside of the opening part 41. FIG.

<Third Embodiment>
As shown in FIG. 11, the battery cover 1 according to the third embodiment includes two first openings 43 and second openings that communicate with the inside and outside of the space 37 as an outside air intake mechanism that takes outside air into the space 37. 44.

  The first opening 43 is provided as an air inlet, penetrates the thickness direction below the front wall 7, and communicates the inner side surface and the outer side surface of the front wall 7. The first opening 43 has a cylindrical shape and is arranged so that the axial direction extends in the front-rear direction. The 1st opening part 43 is a straw structure or a non-return valve structure, and can let external air flow in one direction into the inside (space 37).

  The second opening 44 is provided as an exhaust port, and is disposed between the first spacer 3 and the inner surface of the front wall 7 above the front wall 7, and connects the inner surface and the outer surface of the first spacer 3. Communicate. The second opening 44 has a cylindrical shape and is arranged so that the axial direction extends in the up-down direction. The second opening 44 has a straw structure or a check valve structure, and allows the air inside (space 37) to flow in one direction to the outside.

The battery cover 1 includes a first opening 43 and a second opening 44, members that define a front space (front wall 7, battery front, first spacer 3, second left front spacer 9a, second right front spacer 11a, The third spacer 4) constitutes a pump structure.
Therefore, when the vehicle is traveling, outside air is taken into the space 37 and exhausted inside the space 37 in the order of the first opening 43, the space 37, and the second opening 44. Can do.

  In addition, since the battery cover 1 includes two first openings 43 and second openings 44 that communicate between the inside and the outside of the space 37, fresh air can be taken into the space 37 from the first opening 43. In addition, air inside the space 37 can be exhausted from the second opening 44 to the outside, and the battery 31 can be cooled reliably.

  Specifically, in the battery cover 1, the first opening 43 is provided in the side wall 2, the second opening 44 is provided in the first spacer 3, the first opening 43 serves as an intake port, The two openings 44 serve as exhaust ports. Therefore, since fresh air can be taken in from the first opening 43 and exhausted from the second opening 44, a passage path for fresh air can be formed inside the space 37. As a result, the battery 31 can be cooled more efficiently.

<Fourth embodiment>
As shown in FIG. 12, in the battery cover 1 of the fourth embodiment, a fourth spacer 46 is provided at the substantially vertical center of the inner surface of the side wall 2 of the battery cover 1. The fourth spacer 46 is formed in a substantially rectangular shape in cross section, and the inner side surface of the fourth spacer 46 contacts the side surface of the battery 31 when mounted on the battery 31.

  The fourth spacer 46 can also be formed in a substantially rectangular frame shape in plan view over the entire side wall 2 of the battery cover 1 (that is, the left wall 5, the right wall 6, the front wall 7, and the rear wall 8). It can also be formed on a part of the side wall 2 of the battery cover 1 (for example, the front wall 7 and the rear wall 8).

  If the fourth spacer 46 is provided in this way, the gap between the battery cover 1 and the battery 31 can be reliably ensured in each space 37, and the heat insulation can be improved.

<Fifth Embodiment>
As shown in FIG. 13, the battery cover 1 of the fifth embodiment includes a film 48 with good slipperiness on the bottom surface.

  The slippery film 48 is formed in a substantially rectangular frame shape along the third spacer 4, the side wall 2, and the connecting portion 23 in a bottom view. The slippery film 48 is made of a material such as polyester (PET), polyethylene (PE), or polypropylene (PP).

  By providing the film 48 with good slipperiness, the battery cover 1 can be easily attached to the battery 31 from above.

<6th Embodiment and 7th Embodiment>
As shown in FIG. 14A, in the battery cover 1 of the sixth embodiment, the first spacer 3a includes a fin structure having flexibility in the vertical direction extending slightly upward from the outside toward the inside. Yes. The first spacer 3a in the fifth embodiment is formed of rubber, olefin material, or the like.

  As shown in FIG. 14B, in the battery cover 1 of the seventh embodiment, the first spacer 3 b is formed integrally with the side wall 2. That is, the first spacer 3b is formed by bending the upper end portion of the side wall 2 of the battery cover 1 inward. The first spacer 3 is formed so as to extend upward from the outside toward the inside.

  In the sixth embodiment and the seventh embodiment, the first spacer 3 b has a substantially rectangular frame shape in plan view, is formed over all the side walls 2, and is disposed so as to contact all the side surfaces of the battery 31.

  Although not shown, the third spacer 4 can also be formed in the same manner as the first spacer 3 of the sixth embodiment or the seventh embodiment.

<Eighth Embodiment>
In the battery cover 1 of the eighth embodiment, although not shown, a stretchable spacer as a stretchable part is adopted as the second spacer. The stretchable spacer is formed of a material that expands due to tensile stress, a material that contracts due to heat, or the like.

  The stretchable spacer is provided so as to come into contact with the corner 38 on the side surface of the battery 31 when the battery cover 1 is attached to the battery 31.

  If the second spacer is a stretchable spacer, the battery cover 1 can be attached to the batteries 31 of different sizes. In addition, since a gap can be formed between the battery 31 and the battery cover 1 before mounting, the battery cover 1 can be easily attached around the battery 31. On the other hand, since the battery cover 1 can be contracted after attachment, the battery cover 1 can be easily adhered and fixed to the battery. Furthermore, the material area of the battery cover 1 can be reduced due to the shrinkability of the stretchable spacer.

  In the eighth embodiment, the stretchable spacer may be employed for all four second spacers, or may be employed for one second spacer, or may be partially employed. May be.

<Ninth Embodiment>
As shown in FIG. 15, in the battery cover 1 of the ninth embodiment, for example, a stretchable connecting member 51 as a stretchable portion is employed in the connecting portion 23.

  The stretchable connecting member 51 is formed in a substantially rectangular shape in a side view extending in the vertical direction, and is formed in a thin shape.

  A cutout 53 is formed in the stretchable connecting member 51.

  A plurality of cut portions 53 are formed in the vertical direction with a space therebetween, and each cut portion 53 is formed so as to extend in the vertical direction and penetrate the thickness direction of the stretchable connecting member 51. . The plurality of cut portions 53 form a line-like (straight-line) cut line 52 over the entire vertical direction of the stretchable connecting member 51. A plurality of the cutting lines 52 are arranged in parallel at intervals in the longitudinal direction. Each cut line 52 is formed with a joint portion 54 that connects the cut portions 53 adjacent to each other in the vertical direction.

  Further, a connection protection member 55 is provided outside the stretchable connection member 51. The connection protection member 55 is a heat insulating elastic body, and is formed in a substantially rectangular shape in side view. The connection protection member 55 is formed so that the length in the vertical direction and the length in the longitudinal direction are substantially the same as the length in the vertical direction and the length in the longitudinal direction of the stretchable connection member 51.

  If the connecting portion 23 is an elastic connecting member 51, the battery cover 1 can be attached to the batteries 31 of different sizes. That is, since the battery cover 1 can be extended in the longitudinal direction, a gap can be formed between the battery 31 and the battery cover 1 before mounting, so that the battery cover 1 can be easily attached around the battery 31. Can be attached to. On the other hand, since the battery cover 1 can be contracted after the attachment, the battery cover 1 can be easily adhered and fixed to the battery 31. Furthermore, the material area of the battery cover 1 can be reduced due to the shrinkability of the stretchable spacer.

  Moreover, by providing the connection protection member 55, it is possible to prevent air leakage from the cut portion 52, and to improve the sealing performance and heat insulation performance of the battery cover 1.

  In the ninth embodiment, the stretchable connecting member 51 may be used for all four connecting portions (9, 10, 11, 12), and may be used for one of the connecting portions. Or may be partially adopted. Furthermore, the entire left wall 5, right wall 6, front wall 7, and rear wall 8 may be used.

<Tenth Embodiment and Eleventh Embodiment>
As shown in FIGS. 16 and 17, in the battery cover 1 of the tenth embodiment and the eleventh embodiment, for example, a stretchable engagement portion is employed as the engagement portion 21.

  As shown in FIG. 16, the battery cover 1 of the tenth embodiment includes a first stretchable engagement portion 21 a as a stretchable engagement portion, and the first stretchable engagement portion 21 a is a first protrusion 24. And the 2nd protrusion 26 is formed long in the longitudinal direction. That is, when the first protrusion 17 and the second protrusion 19 are inserted into the first slit 18 and the second slit 20, respectively, when viewed from the inside (inside the battery cover 1), the first protrusion 24 and the second protrusion A part of the two protrusions 26 is formed to be exposed.

  If the first elastic engagement portion 21a is provided, the battery cover 1 can be attached to the batteries 31 of different sizes. In particular, before installation, since the first elastic engagement portion 21a can be extended to create a gap between the battery 31 and the battery cover 1, the battery cover 1 is easily attached around the battery 31. be able to.

  As shown in FIG. 17, the battery cover 1 of the eleventh embodiment includes a second stretchable engagement portion 21b as a stretchable engagement portion, and the second stretchable engagement portion 21b has a first head 25. And the spring part 56 is provided in each of the 2nd head 27 so that it may extend in a longitudinal direction. The spring portion 56 is formed of an elastic body, and integrally includes a fixing portion 57 and an expansion / contraction portion 58. The fixing portion 57 is fixed to a substantially central portion of the left thick portion 5a so that the left thick portion 5a is spaced from one side in the longitudinal direction of the first protruding portion 17 and the second protruding portion 19. The expansion / contraction part 58 is formed in a saw blade shape.

  If the second elastic engagement portion 21b is provided, the battery cover 1 can be attached to the batteries 31 of different sizes. In particular, after the mounting, tension is applied to the second stretchable engagement portion 21b toward the one side in the longitudinal direction by the spring portion 56, that is, the tension is reduced so as to reduce the inner peripheral surface of the battery cover 1. Since it works, the battery cover 1 can be securely adhered and fixed to the battery 31.

<Twelfth embodiment>
As shown in FIG. 18, in the battery cover 1 of the twelfth embodiment, a fused part 64 is employed for the engaged part 13, and a fused part 63 is employed for the engaging part 21.

  In the twelfth embodiment, the battery cover 1 is composed of two members (a first battery cover part 61 and a second battery cover part 62). The first battery cover component 61 and the second battery cover component 62 have a fusion-bonded portion 63 formed at one end portion in the longitudinal direction and a fusion portion 64 formed at the other end portion in the longitudinal direction.

  The fused part 64 is formed in a substantially rectangular shape in a side view extending in the vertical direction, and is formed in a thin shape. The surface of the fused part 64 is made of a material that is melted by heat or the like and connected to the fused part 63.

  The fused portion 63 is formed in a substantially rectangular shape in a side view extending in the vertical direction, and is formed in a thin shape.

  Then, the inner side surface (the front side in FIG. 18) of the fused part 64 of the first battery cover component 61 is the outer side surface (the rear side of the page in FIG. 18) of the fused part 63 of the second battery cover component 62. ) And the inner side surface of the fused part 64 of the second battery cover part 62 is fused to the outer side surface of the fused part 63 of the first battery cover part 61. Can be manufactured.

  Note that the fused portion 64 and the fused portion 63 may be employed in the first embodiment shown in FIG. In that case, a fused part 64 is formed instead of the engaged part 13, and a fused part 63 is adopted instead of the engaging part 21.

  Moreover, the fused part 63 and the fused part 64 can also be formed from a stretchable member. If formed from an elastic member, the same effect as the eighth embodiment can be obtained.

<13th Embodiment>
In the battery cover 1 of the thirteenth embodiment, as shown in FIG. 19, for example, the first spacer 3 includes eight first spacers 3 (3a, 3b, 3c, 3d, 3e, 3f, 3g, 3h). It is configured.

  That is, the first spacers are arranged at the upper ends of the inner surfaces of the left wall 5, the left front connecting portion 9, the front wall 7, the right front connecting portion 11, the right wall 6, the right rear connecting portion 12, the rear wall 8 and the left rear connecting portion 10. Are provided independently of each other. Cuts 60 are formed between the first spacers 3 (3a, 3b, 3c, 3d, 3e, 3f, 3g, 3h).

  If the first spacer 3 is composed of the eight first spacers 3, the battery 31 can be smoothly mounted on the battery cover 1.

<Fourteenth embodiment>
In the battery cover 1 of the fourteenth embodiment, although not shown, a slightly adhesive layer is formed on the inner surface of the first spacer 3. The slightly adhesive layer is formed over the entire inner surface of the first spacer 3. The slight adhesion layer is made of a material that adheres to the battery 31 but can be separated from the battery 31 with a slight force. For example, the slightly adhesive layer is made of a material such as an acrylic polymer.

  If this slightly adhesive layer is provided, the sealing performance between the first spacer 3 and the battery 31 is improved, and external air intrusion and internal air leakage can be effectively prevented.

  Although not shown, a slightly adhesive layer can also be formed on the inner surface of the third spacer 4.

<Fifteenth embodiment>
In the battery cover 1 of the fifteenth embodiment, although not shown, the left thick part 5a, the right thick part 6a, the front thick part 7a, the rear thick part 8a, the second left front spacer 9a, and the second left rear spacer 10a. The second right front spacer 11 a and the second right rear spacer 12 a can also bulge toward the outside of the battery cover 1. The battery cover 1 of the fifteenth embodiment can obtain the same effects as those of the first embodiment.

DESCRIPTION OF SYMBOLS 1 Battery cover 2 Side wall 3 1st spacer 5 Left wall 6 Right wall 7 Front wall 8 Rear wall 9a Second left front spacer 9d, 9e Left front bending part 10a Second left rear spacer 10d, 10e Left rear bending part 11a Second right front spacer 11d, 11e Right front bent portion 12a Second right rear spacer 12d, 12e Right rear bent portion 28 Folded portion 31 Battery 37 Space 39 Foam layer 40 Skin 41 Open portion 42 Flap 43 First opening portion 44 Second opening portion

Claims (4)

Four side walls covering the four sides of the battery,
A first spacer provided at an upper portion of the inner peripheral surface of the four side walls, for providing a space between the battery and the side wall by contacting the side surface of the battery;
The side wall is formed by compressing a cover material including a foam layer and a skin laminated on both surfaces of the foam layer.
The side wall includes a thin portion formed by compressing the cover material, and a thick portion having heat insulation,
The thin portion is provided at the upper end of the side wall,
The battery cover according to claim 1, wherein the thick portion is provided at a central portion of the side wall.   The battery cover according to claim 1, wherein the second spacer is provided on the side wall along the vertical direction.   The said 2nd spacer is provided in the said side wall so that it may contact the corner of the said side surface of the said battery when the said battery cover is mounted | worn with the said battery, The said side wall is provided. Battery cover. At least four of the second spacers are provided;
The battery cover according to claim 3, wherein at least four of the second spacers are provided on the side wall so as to contact each of four corners of the side surface of the battery.

Images