KR101343776B1 - Lead battery - Google Patents

Abstract

The present invention provides a lead acid battery that can prevent engagement of ribs provided on an outer side surface of a roll of a plurality of adjacent lead acid batteries.
In a lead acid battery having a roll box 11 and a roll box body 10 formed of a roll cover 12 that closes an upper opening of the roll box 11, the lead storage battery includes a roll box 11 in a longitudinal direction on a side surface of the roll box body 10. A plurality of longitudinal ribs 15 protruding in a thin line, the protruding longitudinal ribs 15 are formed so as not to protrude from the main side surface of the roll cover 12, the transverse ribs 16 connecting the adjacent longitudinal ribs 15 It is characterized by having).

Description

Lead Acid Battery {LEAD BATTERY}

The present invention relates to a lead acid battery in which ribs are formed on an outer side surface of a rolled metal.

Conventionally, a lead acid battery alternately stacks a positive electrode plate and a negative electrode plate, each of which is filled with a positive electrode active material and a negative electrode active material, respectively, on a positive electrode substrate and a negative electrode substrate having lead as a main component, through a separator, and the ends of the electrode plates of the same polarity are separated. By connecting the parts by welding to form the electrode plate group, the electrode plate group is housed in a roll box, and the roll cover having an opening for pouring or exhausting the roll box is welded or glued, and the electrolyte solution is opened from the opening. Lead-acid batteries manufactured by injecting a powder are known (see Patent Document 1, for example). This type of lead acid battery has a standard external dimension. Therefore, in order to restrict the internal space of the roll box main body and match the external dimension of a roll box to a specification with the number of electrode plates accommodated in a roll box, the rib is formed in the outer side surface of a roll box main body. .

In addition, it is known to improve the strength of the roll by forming a plurality of longitudinal ribs on the outer side surface of the roll box main body, increasing the width dimension of the longitudinal rib in the center and decreasing the width toward the side (for example, See Patent Document 2).

Japanese Patent Publication No. 2007-184124 Japanese Utility Model Publication No. 61-136465

However, this type of lead acid battery is locked and packed by arranging a plurality of lead acid batteries in a pallet during transportation. However, since the longitudinal ribs are formed so as not to protrude from the main side of the rolled lid, the lead acid battery moves under vibration during transportation, and the longitudinal ribs provided on the outer side of the rolled box main body of adjacent lead acid batteries are adjacent to each other. It is thought that the ribs are interleaved and the ribs are engaged with each other. When ribs of adjacent lead storage batteries are engaged with each other during transport, adjacent roll box main bodies approach each other as much as the ribs are engaged with each other. On the other hand, since the rolling cover which seals and closes the opening part of a rolling box is formed in the specification dimension of a lead acid battery as seen from the upper surface, even if the rib of adjacent lead acid batteries is engaged, it does not mutually approach. Therefore, it is thought that the lead acid batteries in which the lower part of a roll box approach | adjacent to a rolling cover approach each other, and a lead acid battery inclines and collapses on a pallet. In particular, when using the roll box main body in which some taper is formed from the upper part to the lower part, the collapse on a pallet becomes remarkable.

SUMMARY OF THE INVENTION An object of the present invention is to provide a lead acid battery that can solve the problems of the prior art described above and prevent engagement of ribs provided on the outer side surfaces of a plurality of adjacent lead acid batteries.

In order to achieve the above object, the present invention provides a lead-acid battery having a roll box and a roll cover body formed of a roll cover covering an upper opening of the roll box, a plurality of thin in the longitudinal direction on the side of the roll box body. It has a longitudinal rib protruding in a line, the protruding longitudinal rib is formed so as not to protrude from the main side surface of the roll cover, characterized in that it has a transverse rib connecting the adjacent longitudinal ribs.

According to this configuration, the transverse ribs connecting the adjacent longitudinal ribs of the longitudinal ribs protruding in the longitudinal direction to the side of the roll box main body are provided. Even when the lead acid batteries shift to the side due to the vibration, the longitudinal ribs of one lead acid battery of an adjacent lead acid battery can interfere with the horizontal ribs of the other lead acid battery, and the longitudinal ribs can be prevented from being engaged.

In this configuration, the lateral ribs may be provided at a position lower than the center of gravity of the lead acid battery.

According to this configuration, since the horizontal ribs which prevent the interleaving of the adjacent ribs of the lead acid batteries from each other are provided at a position lower than the center of gravity of the lead acid battery, the lead acid battery is inclined to the lead acid battery by vibration during transportation of the lead acid battery 1. Even when a force is applied in the lateral direction, the horizontal ribs provided at a position lower than the center of gravity of the lead acid battery can be interfered with the longitudinal ribs of the adjacent lead acid battery to prevent the lead acid battery from tilting.

In addition, the longitudinal rib is provided on a pair of opposing side surfaces of the roll box main body, and a horizontal rib connecting the longitudinal ribs is provided at an end of one side and an end of the other side, and a horizontal rib provided on one side. The transverse ribs provided at the end portions of the other side surfaces may be arranged at point symmetrical positions.

According to this structure, the horizontal rib which connects between longitudinal ribs can be provided in a part of roll box main body side surface, and the engagement of longitudinal ribs can be prevented. In addition, the horizontal ribs can be formed into a mold of a partial slide, and the cost of mold production can be reduced. Further, by providing the lateral ribs at the end portions of the roll box main body side surfaces, it is possible to prevent the lead acid batteries arranged in plural from being rotated with respect to the adjacent lead acid batteries by receiving vibration during transportation. Further, by providing lateral ribs at the point symmetrical positions of a pair of opposing side surfaces of the lead box main body of the lead acid battery, even if the opposite surfaces of the adjacent lead acid batteries rotate 180 degrees, the lateral ribs interfere with the longitudinal ribs of the adjacent lead acid battery. It is placed in the position to. Therefore, since the lead acid battery can be loaded without considering the direction in which the lead acid batteries are arranged at the time of transportation, the efficiency of the transportation operation is improved.

According to the present invention, the transverse ribs connecting the adjacent longitudinal ribs of the longitudinal ribs protruding in the longitudinal direction to the side of the roll box main body are provided. Even if the lead acid battery shifts laterally due to vibration, the longitudinal ribs of one adjacent lead acid battery interfere with the lateral ribs of the other lead acid battery, thereby preventing the longitudinal ribs of adjacent lead acid batteries from engaging with each other.

1 is a perspective view illustrating a state in which a plurality of lead storage batteries of the present embodiment are arranged.
2 is a front view of a lead acid battery.
3 is a side view of a lead acid battery.
4 is a bottom view of a lead acid battery.
5 is a bottom view showing a state where lead acid batteries are arranged.

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

1 is a perspective view of a state where a plurality of lead storage batteries 1 according to an embodiment to which the present invention is applied are arranged. 2 is a front view of the lead acid battery 1, FIG. 3 is a side view, FIG. 4 is a bottom view, and FIG. 5 is a bottom view showing a state where lead batteries are arranged.

The lead acid battery 1 is a control valve type lead acid battery, and as shown in FIG. 1, the rolling box 11 formed in a substantially rectangular box shape and the top opening 11A of the rolling box 11 are closed and sealed. Has a roll box body 10 composed of a roll cover 12. Although not shown in the figure, the electrode plate group 10 and the electrolyte solution formed by alternately stacking the positive electrode plate and the negative electrode plate through the separator and connecting the ears of the same type electrode plate by welding are housed inside the roll box main body 10. The roll cover 12 is welded or bonded to 11A of upper openings of the roll box 11. In addition, the lead acid battery 1 is provided with the positive electrode terminal 13 and the negative electrode terminal 14 which protruded upward from the rolling lid 12.

The lead acid battery 1 is transported by loading it in a pallet and locking it in the state arranged in multiple numbers. At this time, by providing the lateral ribs 16 connecting the longitudinal ribs, it is possible to prevent the longitudinal ribs 15 facing each other when the plurality of lead acid batteries 1 are arranged and stacked. Although not shown, these lead-acid batteries 1 are arranged so that the positive electrode terminals 13 and the negative electrode terminals 14 are alternately arranged in a row, and the terminals of different polarities of adjacent lead-acid batteries 1 are batteries. It is connected and connected with the board | substrate between boards, and is used, forming the assembled battery to which the several lead acid battery was connected.

The height H, the width W, and the length L of the lead acid battery 1 are standardized. For example, when the lead acid battery 1 has a capacity of 150 Ah, the height H of the lead acid battery 1 is 365 mm, the width W is 170 mm, and the length L is 106 mm. Is formed. The roll cover 12 is formed in the width | variety W and the length L according to this specification dimension when seen from the upper surface. The rolling box 11 is composed of a group of pole plates (not shown), a box portion 11B for accommodating an electrolyte solution, and an upper edge portion 11C formed integrally with the box portion 11B and provided with an upper opening 11A. .

The box portion 11B is formed in a predetermined box width W2 that can accommodate the required number of electrode plates inside the rolled box body 10 in accordance with the rated capacity of the lead acid battery 1. For example, in the lead acid battery 1 in which the longitudinal ribs are formed so as not to protrude from the main side surface of the roll cover having a capacity of 150 Ah, the width W2 is smaller than the width W. FIG. The upper edge portion 11C is formed with a width W and a length L of standard dimensions in accordance with the roll cover 12 so that the roll cover 12 can be welded or bonded.

As shown in FIG. 2, the side surface of the box part 11B of the rolled box 11 in which the base side length is formed by the length L of the specification dimension of the lead acid battery 1 ( 17A and 17B are provided with a plurality of thin ribs 15. The longitudinal rib 15 is provided over the top and bottom of the rolled box 11 from the bottom face of the box part 11B to the bottom face of 11 C of upper edge parts.

The intervals between the various ribs 15 may be equal or may be uneven. In this embodiment, the lead-acid battery 1 which shows the pair of longitudinal ribs 15 and 15 which are equal in distance from the side surface 20A and the side surface 20B in which the longitudinal rib 15 is not provided, respectively is shown in FIG. When viewed from the front side, it was provided symmetrically, and four longitudinal ribs 15 were provided in each side surface 17A, 17B.

Moreover, the side rib 20A which is not provided with the longitudinal rib 15 of the rolling box 11, or the position which is closest to the side surface 20B, ie, the longitudinal rib 15 provided in the shortest part in the some longitudinal rib 15, Between the longitudinal ribs 15 adjacent to the longitudinal ribs 15 of the shortest portion, horizontal ribs 16 are formed to connect the pair of longitudinal ribs 15 and 15. The horizontal ribs 16 are provided to be perpendicular to the longitudinal ribs 15 and 15. As shown in FIG. 1, the horizontal ribs 16 prevent the opposing longitudinal ribs 15 from engaging each other when the plurality of lead acid batteries 1 are arranged and connected. The horizontal rib 16 is formed integrally with the longitudinal rib 15 and is installed below the center of gravity position X of the lead acid battery 1. By providing the lateral rib 16 below the center of gravity position X of the lead acid battery 1, it is possible to more reliably prevent the tilting than the case where the lateral rib 16 is provided above.

The roll box 11 and the roll cover 12 are formed of synthetic resin (made of ABS resin), and are formed by resin molding, respectively. The horizontal rib 16 is formed by setting the partial slide called the slide core for forming the horizontal rib 16 in the metal mold which forms the rolling box 11. In this manner, the partial ribs can be used to form the horizontal ribs 16 by partially forming the horizontal ribs 16, thereby reducing the cost of the metal mold for manufacturing the roll box 11.

The longitudinal rib 15 is provided in order to match the external dimension of the roll box 11 with the external dimension seen from the upper surface of the roll cover 12, as shown in FIG. The box part 11B is formed with the box width W2, and the longitudinal rib 15 is formed with the rib width W3. The longitudinal rib 15 is formed in the same rib width W3 before and after the width direction of the box part 11B, and is provided so that it may protrude toward the exterior of the roll box 11 at substantially right angles from the side surfaces 17A and 17B. have. The longitudinal rib 15 is integrally formed with the roll box 11, and has the effect of preventing the expansion of the roll box 11 by increasing the strength of the roll box 11.

It is preferable that the horizontal rib 16 is provided above the bottom face 11D. According to this configuration, even when the lead acid battery 1 rises due to vertical vibration during transportation, the bottom surface of the longitudinal ribs 15 is prevented from rising on the horizontal ribs 16 of the adjacent lead acid battery 1. can do.

In addition, although illustration is abbreviate | omitted, you may have the structure which cut | disconnected the longitudinal rib 15 lower than the horizontal rib 16 toward the horizontal rib 16 from the bottom face 11D of the rolling box 11. As shown in FIG.

According to this configuration, even when the lead acid battery 1 rises due to the vertical vibration during transportation, the bottom surface of the longitudinal rib 15, which is cut out at an angle, rises on the horizontal rib 16 or the horizontal rib 16 It is possible to prevent the longitudinal ribs 15 or the lateral ribs 16 of the adjacent lead storage batteries 1 from engaging with each other without being drawn into the upper surface.

As shown in FIG. 4, the longitudinal rib 15 is integrally provided with a pair of opposing side surfaces 17A and 17B so that the space | interval from side surface 20A or side surface 20B becomes equal. However, in FIG. 4, the upper edge part 11C of the rolling box 11 seen far from the lower surface of the rolling box main body 10 is shown with the broken line in order to show the horizontal rib 16 in the figure.

The horizontal ribs 16 are provided on the side surface 17A side and the side surface 17B side, respectively, and the horizontal rib 16 on the side surface 17A side and the horizontal rib 16 on the side surface 17B side are lead acid batteries. When viewed from the lower surface of (1) or viewed from the upper surface, it is provided in the point symmetrical position. The width of the horizontal rib 16 and the width of the longitudinal rib 15 are all formed in the rib width W3 mentioned above.

FIG. 5 is a bottom view showing a state where the lead storage batteries 1A and 1B are arranged such that the side surfaces 17A or the side surfaces 17B face each other. Also in FIG. 5, similarly to FIG. 4, the upper edge part 11C of the roll box 11 seen from the lower surface of the roll box main body 10 was shown with the broken line in order to show the horizontal rib 16 in the figure. . As described above, the lead acid battery 1 can be used by connecting several dozens or hundreds, and when the lead acid battery 1 is transported, a plurality of lead acid batteries 1 are loaded into a pallet (not shown) and transported. .

The horizontal ribs 16 and 16 are provided in the point symmetrical position of side surface 17A, 17B as mentioned above. Therefore, when the lead acid battery 1 is arranged, even if the side surface of the lead acid battery 1B which opposes the side surface 17A of the lead acid battery 1A is the side surface 17A or the side surface 17B, it is shown in FIG. As described above, the pair of longitudinal ribs 15, 15 provided with the horizontal ribs 16 and the pair of longitudinal ribs 15, 15 not interposed between the horizontal ribs 16 face each other.

Therefore, the longitudinal ribs 15 and 15 of the lead acid battery 1B do not enter between the longitudinal ribs 15 and 15 of the lead acid battery 1A, and the longitudinal ribs 15 can be prevented from being engaged with each other. Accordingly, even when arranged in a pallet for transportation of the lead acid battery 1, even if arranged without considering the direction of the adjacent lead acid batteries 1, due to vibration during transportation between the adjacent lead acid batteries 1, etc. Since the longitudinal ribs 15 can be prevented from interlocking with each other, each of the lead storage batteries 1 can be held in a normal posture during transportation.

Moreover, since the horizontal rib 16 is formed between the longitudinal rib 15 of the shortest part of each side surface 17A, 17B, and the longitudinal rib 15 adjacent to the longitudinal rib 15 of the shortest part, the lead acid battery 1A is carried out. Can be prevented from rotating relative to the adjacent lead acid battery 1B, and each lead acid battery 1 can be kept in a normal posture when transporting a plurality of lead acid batteries 1.

As described above, according to the present embodiment, the horizontal ribs connecting the adjacent longitudinal ribs 15 and 15 of the longitudinal ribs 15 of the plurality of thin strings provided on the side surfaces 17A and 17B of the roll box main body 11B ( Since 16 is provided, even when the lead acid batteries 1 are shifted sideways due to the vibration at the time of transport when the plurality of lead acid batteries 1 are arranged and transported, one lead acid battery 1A of the adjacent lead acid batteries 1 is adjacent. ) Longitudinal rib 15 of the other lead acid battery 1B can be prevented from interlocking with the longitudinal ribs 15 and 15 of the adjacent lead acid battery 1.

Moreover, according to this embodiment, the horizontal rib 16 which prevents the longitudinal rib 15 of the adjacent lead acid battery 1 from engaging each other is provided in the position lower than the center of gravity position X of the lead acid battery 1, Therefore, even when a force is applied to the lead acid battery 1 in the direction inclined by vibration at the time of transport, the lateral ribs 16 provided at a position lower than the center of gravity position X of the lead acid battery 1 are adjacent to each other. By interfering with the longitudinal ribs 15 of the lead acid battery 1, the longitudinal ribs 15 of the adjacent lead acid batteries 1 are not engaged with each other, and the lead acid battery 1 can be prevented from tilting.

Moreover, according to this embodiment, since the horizontal rib 16 can be provided in a part of side surface 17A, 17B, the horizontal rib 16 can be formed in the metal mold of a partial slide, and the rolling box 11 is formed. The manufacturing cost of the metal mold | die for this purpose can be reduced.

Moreover, since the horizontal rib 16 was provided in the shortest part of the side surface 17A, 17B, in the direction which the lead acid battery 1 arranged in multiple numbers by the vibration at the time of transportation rotates with respect to the adjacent lead acid battery 1, Even when a force is applied, the horizontal rib 16 can prevent the lead-acid battery 1 from rotating by interfering with the longitudinal ribs 15 of the adjacent lead-acid battery 1.

Moreover, since the horizontal rib 16 was provided in the point symmetrical position in the side surface 17A of the lead acid battery 1 and the side surface 17B which opposes the side surface 17A, the adjacent lead acid battery 1 opposes. In the case where the side surfaces are the side surfaces 17A and 17A, or in the case where the one side lead acid battery 1A is rotated 180 degrees and the side surfaces 17A and 17B, the lateral rib 16 is adjacent to the lead, It arrange | positions in the position which interferes with the longitudinal ribs 15 and 15 which do not have the horizontal rib 16 of the storage battery 1B between. Therefore, since the lead acid battery 1 can be loaded without considering the direction in which the lead acid batteries 1 are arranged at the time of transportation, the efficiency of the transportation operation is improved.

In addition, according to the present embodiment, since the horizontal rib 16 is provided above the dimension of the width W3 of the longitudinal rib 15 from the bottom surface 11D of the roll box 11, the lead-acid battery 1 Even when the lead acid battery 1 floats due to the vibration in the longitudinal direction during transportation, the bottom surface of the longitudinal rib 15 of one lead acid battery 1A of the adjacent lead acid battery 1 is lower than the other lead acid battery 1B. Climbing on the horizontal ribs 16 can be prevented, and longitudinal ribs 15 can be prevented from being engaged with each other.

1, 1A, 1B: Lead Acid Battery
W: width
W2: box width
W3: rib width
10: roll box body
11: rolling box
11B: box
12: rolling cover
15: longitudinal rib
16: lateral rib
17A, 17B: side
X: center of gravity position

Claims (3)

In a lead-acid battery having a roll box and a roll box body formed of a roll cover which closes an upper opening of the roll box,
Longitudinal ribs protruding into a plurality of thin lines in the longitudinal direction on the side of the roll box body, wherein the protruding longitudinal ribs are formed so as not to protrude from the main side of the roll cover, the adjacent longitudinal ribs A transverse rib connecting the liver,
The longitudinal rib is provided on a pair of opposing side surfaces of the roll box main body, and a horizontal rib connecting the longitudinal ribs is provided at an end of one side and an end of the other side, and the other side of the transverse rib provided on one side. A lateral rib provided at an end of the side surface is installed at a point symmetrical position. The lead acid battery according to claim 1, wherein the lateral ribs are provided at a position lower than the center of gravity of the lead acid battery. In a lead-acid battery having a roll box and a roll box body formed of a roll cover covering an upper opening of the roll box,
A longitudinal rib protruding in the longitudinal direction on a side surface of the roll box main body, and a transverse rib connecting the adjacent longitudinal ribs;
The longitudinal rib is provided on a pair of opposing side surfaces of the roll box main body, and a horizontal rib connecting the longitudinal ribs is provided at an end of one side and an end of the other side, and the other side of the transverse rib provided on one side. A lateral rib provided at an end of the side surface is installed at a point symmetrical position.

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