JPH0471161A - Lead storage battery - Google Patents

Abstract

PURPOSE:To prevent an electrolyte from leaking out of the conjoined portion of a battery jar and a cover by forming an intermediate cover of a synthetic resin which can be bonded without being pretreated, and hot-welding the battery jar to the cover. CONSTITUTION:A battery jar 2 is formed out of a thermoplastic synthetic-resin which can not be bonded without being pretreated by a bonding agent 21. Also a cover 3 is formed out of a thermoplastic synthetic-resin which can not be bonded without being pretreated by the bonding agent 21, and an intermediate cover 14 on the other hand is formed out of a synthetic resin which can be bonded without being pretreated by the bonding agent 21. Pretreatment is first given to a region from the upper end- portion of a partition wall 12 in the battery jar to a projected wall 22. Namely, the region is roasted over a flame. The pretreated battery-jar is used to form a member into the figure of a strap 6, subsequently the intermediate cover 14 is turned out so that a proper quantity of the filling bonding-agent 21 is filled into the cover, and then the member formed into the figure of the strap 6 is buried into the resultant filling bonding-agent 21. After the filling bonding-agent 21 is then cured, the battery jar 2 and the cover 3 are hot-welded together at a portion 23 through a hot-welding process.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a monoblock lead-acid battery in which a plurality of cell tanks are integrally formed.
This relates to a monoblock lead-acid battery in which cells are electrically connected in a straight line.

2. Description of the Related Art A conventional monoblock lead-acid battery in which cells are connected in a straight line consists of a 2V cell tank 28, 28' separated by a partition wall 2727', positive and negative electrode plates, and a separator, as shown in Fig. 8. A group of electrode plates 29 and 29' is accommodated, and the positive and negative electrode plates of adjacent cells are integrally connected to a lead alloy bar 30 (hereinafter referred to as a strap) formed beyond the upper part of the partition wall 27, and the back side of the lid 31 A recess 32 and a groove 33 are formed,
The strap 30 is accommodated in the recess 32, and the recess 33
The partition wall 27' is fitted into the groove 3 from the recess 32.
3 and filled with adhesive 34.

11 Problems to be Solved by the Invention If the conventional battery case and lid described above are made of polypropylene resin that is inexpensive and has excellent properties such as chemical resistance, impact resistance, weather resistance, and heat resistance, Since polypropylene resin cannot be bonded with a filler adhesive without pretreatment, the adhesive portion between the battery case and the lid was previously heated with flame to bond the battery case and the lid together. However, in order to pre-treat the lid, it is necessary to pre-treat the inner wall surface of the groove 33, but since the groove 33 is narrow and deep and runs horizontally and vertically over a long distance, it is necessary to pre-treat the inner wall surface of the groove 33. There was a problem in that it was difficult to reliably pre-treat the inner wall surface, and due to insufficient pre-treatment, some areas were not bonded and the electrolyte leaked from these areas.

In addition, if polypropylene resin is used for the container and lid of a sealed lead-acid battery, the internal pressure of the sealed lead-acid battery is always around 0.3 atmospheres, so there is always a constant tensile load at the bonding point. This caused the condition to become even more unfavorable, and the rgIII point 1 was significant.

The present invention was made in view of the above-mentioned problems of the conventional technology, and its purpose is to use a filling adhesive that prevents electrolyte from leaking from the joint between the battery case and the lid. The aim is to provide a lead-acid battery that has a long history.

Means for Solving the Problems In order to achieve the above object, the lead-acid battery according to the present invention has a battery case 2, a lid 3, and a middle! 14, an electrode plate group 8, and straps 6a to 6e. It has a plurality of cell tanks 7, 10, and 10', and has an upwardly extending wall 25 on the outside of the outer peripheral wall edge and a protruding wall 22 on the inside, and the above 1 [3 is without pretreatment. The inner lid 14 is made of a synthetic resin that can be bonded with the adhesive 21 without pretreatment, and the electrode plate group 8 is made of a thermoplastic synthetic resin that cannot be bonded with the adhesive 21 without pretreatment. The straps 6a to 6e connect the electrode plate groups 8 of the adjacent cell tanks by straddling the upper part of the partition wall 12. Yes, the middle 114 is connected to the battery case 2 and the straps 6a to 6.
covering the upper end of e, the middle 114, the protruding wall 22, and the partition wall I2;
An adhesive 21 is filled in the gaps between the straps 6a to 6e, and the lid 3 is fixed to the inner lid! 4 is heat-welded to the wall 25 of the battery case 2 so as to cover the battery case 2.

During operation, the lid is made of synthetic resin that can be bonded without pretreatment, so it can be bonded to the top of the battery case just by pretreating the protruding wall of the battery case, and the liquid between adjacent cells can be It is possible to maintain confidentiality.

Furthermore, since the battery case and the lid are heat-welded, they are firmly connected.

Furthermore, since the inner lid is protected from the outside by the lid, the battery is less likely to deteriorate during use.

Example Examples will be described with reference to the drawings.

1 to 7rM, 1 is a lead-acid battery of the present invention, and includes a battery case 2 made of polypropylene resin and a lid 3. A positive terminal 4 and a negative terminal are provided in the upper corner notch of the lid 3. 4 stands out. Reference numeral 5 denotes a gas exhaust passage, which communicates with a plurality of 2-cell cells constituting the lead-acid battery 1 of the present invention through a gas exhaust hole 5 (FIG. 2).

6a, 6b, 6c, 6d, and 6e indicate straps formed inside the storage battery, and the straps 6a,
As shown in FIG. 2, 6d is connected to the lug 99' of the positive and negative electrode plates of the electrode plate group 8, which consists of the positive and negative electrode plates and the separator, housed in the cell container 7 of the battery case 2. As shown in Figure 3, the strap 6C connects all the positive electrode plates 11 of the electrode plate group 8 housed in one 2V cell tank 10, and straddles the partition wall 12 to connect the positive electrode plates 11 housed in the other 2V cell tank 10'. This is combined with all the negative electrode plates 13 of group 8. Further, the strap 6 connects two cells in a straight line.

Reference numeral 14 designates the inner lid, which is made of a synthetic resin such as ABS resin or polystyrene resin that can be easily bonded with a filling adhesive such as polyurethane resin without pretreatment. As shown in the figure, it has a skirt wall 15 extending downward around the periphery, a strap accommodating portion 16 protrudes from the upper surface, and a sleeve 17.
A pole through hole 20 having an opening 18 and a sleeve 19 is formed. In order to manufacture the inner lid 14 at a low cost, for example, after placing a sheet such as ABS on the top of the mold, heating the sheet from above,
It may also be formed by a method of molding by applying negative pressure to the inside of a mold, that is, by thermoforming. In FIG. 3, reference numeral 21 denotes a thermosetting filling adhesive made of polyurethane resin or the like, which is filled so as to cover the strap 6, the upper end of the partition wall 12 of the battery case 2, and the protruding wall 22. . 23 is a heat-welded portion between the battery case 2 and the lid 3, which is formed as follows. That is, the battery case 2 is
As shown in the figure, the partition wall 12 and the protruding wall 2 are formed at the same height.
2, a groove 24 is formed therein, and an upwardly extending wall positioned higher than the partition wall 12 and the protruding wall 22 is provided on the edge of the outer peripheral wall across the groove 24. 25 is formed. A wall 26 (Fig. 3) extending downward from the outer circumferential wall of the lid 3 is formed to correspond to this wall 25, and the tips of both are heated and melted and then welded by applying pressure. .

To assemble this, first, the upper end of the partition wall 12 of the battery case and the protruding wall 22 (FIGS. 4 and 5) are pretreated. In other words, it is roasted by flame.

At this time, the portion of the protruding wall 22 facing the groove 24 side is
Even if the pretreatment is insufficient, as long as the pretreatment is applied to the opening surface on the opposite side, liquid tightness can be sufficiently compensated for in that area, so there will be no problem due to insufficient liquid tightness. Using the treated battery case, attach the strap 6 according to the usual method.
As shown in FIG. Put it into the filling adhesive 21 so that it is facing downward. Then, after the filling adhesive 21 is cured, the battery case 2 and the lid 3 are heat-welded at 23 locations using a normal heat-welding method.

Effects of the Invention Since the present invention is configured as described above, it produces the following effects.

(1) The pretreatment is applied to the upper part of the partition wall and the protruding wall of the battery case, and the protruding wall may be treated only on the mouth surface,
In addition, all the areas where pretreatment is applied face a large space,
It is extremely easy to perform the pretreatment, and therefore the pretreatment can be performed reliably.

(2) Since the inner lid is formed of a synthetic resin that can be bonded with the filling adhesive without pretreatment, it easily adheres to the filled filling adhesive, and the adhesive can be reliably bonded to the filling adhesive without pretreatment. The upper part of the partition wall and the protruding wall of the battery case are easily adhered to each other, so that the liquid tightness between two adjacent cells is reliably maintained.

(3) Since the battery case and the lid are welded together by a heat welding method, the welding around the outer periphery of the storage battery is strong, and the electrolyte will not leak even in a sealed lead-acid battery.

[Brief explanation of the drawing]

Fig. 1 is an external perspective view of the lead-acid battery of the present invention, Fig. 2 is a longitudinal sectional front view taken along the line AA' in Fig. 1, Fig. 3 is a longitudinal sectional front view taken along the BB' section of Fig. 1, and Fig. 4 is a battery case. Fig. 5 is a sectional view of the main part, Fig. ε is a perspective view of the main part of the inner lid, and Fig. 7 is an external appearance of the main part of the inner lid with the reverse side filled with filling adhesive. Perspective view, No. 8
The figure is a longitudinal sectional front view of the main part of the inter-cell connection part of the conventional example, and FIG. 9 is a plan view of the open lid filled with filling adhesive. 2... Battery case 3... Lid 6a-6e... Strap? , 10.10'... Cell tank 8... Plate group 12
... Partition wall 14 ... Inner lid 21 ... Adhesive 22 ... Projection wall 25 ... Wall extending upward

Claims (1)

[Claims] The battery case (2), the lid (3), the inner lid (14), and the electrode plate group (
8) and straps (6a to 6e), the battery case (2) is made of thermoplastic synthetic resin that cannot be bonded with an adhesive (21) without pretreatment, and has a partition wall (12).
) partitioned by a plurality of cell tanks (7, 10, 10
') and extends upwardly outside the upper edge of the outer peripheral wall (2
5) and a protruding wall (22) on the inside, the lid (3) is made of a thermoplastic synthetic resin that cannot be bonded with an adhesive (21) without pretreatment, and the inner lid (14) is made of synthetic resin that can be bonded with adhesive (21) without pretreatment, and the electrode plate group (8) is accommodated in the cell tank (7, 10, 10'). The straps (6a to 6e) connect the electrode plate groups (8) of the adjacent cell tanks by straddling the upper part of the partition wall (12), and the inner lid (14) ) covers the upper ends of the battery case (2) and the straps (6a to 6e), and includes the inner lid (14), the protruding wall (22), the partition wall (12), and the strap ( 6a to 6e), and the lid (3) is attached to the wall (2) of the battery case (2) so as to cover the inner lid (14).
25) A lead-acid battery characterized by being thermally welded with.