RU2297079C1 - Method for sealing lead battery - Google Patents

Abstract

FIELD: electrical engineering; lead battery manufacture.

SUBSTANCE: in order to ensure reliable sealing of tank-to-lid joint of lead battery lid whose side walls are beveled through 3- 5 deg. is placed into tank to form through slot, tank bottom is covered with easily compressed gasket of foamed polymeric material, and sealing is effected by filling slot under pressure with high-strength shock-resistant adhesive (adhesive strength 90 to 120 kgf/cm²).Proposed method provides for reliable filling of clearance with adhesive avoiding contact between adhesive and electrolyte.

EFFECT: enhanced reliability and service life of battery.

1 cl, 1 dwg

Description

The invention relates to the electrical industry and can be used in the manufacture of lead batteries.

A known method of sealing a lead battery (MA Dasoyan, VV Novoderezhkin, FF Tomashevsky "Production of electric batteries", "Higher School". M., 1970, pp. 132-134, pp. 282-283 ), selected as an analogue, consisting in filling the gap between the upper upper edges of the tanks and the ends of the lids with the corresponding bevels using bituminous mastics using asbestos or rubber cords.

A disadvantage of the known method of sealing a lead battery is the ability of filling mastics to crack, soften and lose their dielectric properties in a wide temperature range, insufficient mechanical strength.

As a prototype, a method for sealing a lead battery was selected (RF Patent No. 2158989 of 09.21.1998 "Method for sealing a high-power lead battery"), which consists in sealing the lid resting on the tank with the help of pins placed in the holes of the side walls of the tank and the deaf coaxially located with them openings of the end edges of the covers on the sealed compounds.

The disadvantage of the prototype is that this method of sealing does not provide reliable filling with a sealant gap between the side walls of the tank and the lid. When exposed to shock loads, destruction of the lid and side walls of the tank may occur. In addition, with this method, the sealing compound is in contact with a sulfuric acid electrolyte, resulting in its chemical destruction, leading to the destruction of the sealing layer and reduce the battery life.

The present invention is aimed at eliminating these disadvantages of the analogue and prototype and to solving the problem of increasing the reliability of sealing the tank with a lead battery cover.

This object is achieved by the fact that in the proposed method of sealing a lead battery, the essence of which is to place a cover on the electrode block, seal it with pole leads using o-rings and nuts, install pins placed in the tank openings and the blind end holes aligned with them the edges of the lids, sealing is carried out in the lid, having bevels of the side walls of 3-5 °, into the tank with the formation of a through groove, the bottom of which is closed by installing an easy-to-press release liner of expanded polymeric material and filling the groove under the pressure of a high-strength high-impact adhesive (bonding strength of 90-120 kg / cm ^2).

A comparative analysis with known methods for sealing a lead battery shows that the proposed solution is new.

The invention is illustrated in the drawing and consists in the following. The electrode block with the cap, after sealing it with the pole terminals, is lowered into the tank 2 by means of the sealing rings and nuts so that the cap 1 having the bevels of the side walls enters the tank and a through groove is formed between the side walls of the tank and the cap. Through holes are drilled in the side walls of the tank, blind holes are drilled coaxially with them in the lid. The holes are installed pins 3, fixing the position of the cover. In the groove between the walls of the tank and the lid, a gasket 5 made of foamed polymeric material is installed, which has a multiple compression ratio and forms the bottom of the groove, preventing the sealing adhesive from contacting the battery acid sulfuric electrolyte. The prepared groove is filled using a hand gun or other device with high-strength impact-resistant adhesive 4, while the created pressure ensures 100% filling of the groove. Sealing according to the proposed method ensures reliable filling of the gap to be sealed with adhesive, eliminates contact with the electrolyte, thereby increasing the reliability and service life of the battery, and the use of high-strength sealant provides the requirements for shock and shock resistance of batteries. The method provides reliable visual control of the sealing process.

An example implementation of the method (see drawing). In the tank 2 lower the lid 1 with a block of electrodes. The top of the lid with a lifting device is aligned with the upper ends of the tank, after which holes are drilled in the walls of the tank and coaxial blind holes in the lid with a diameter of 10.1 mm, into which fiberglass pins 3 with a diameter of 10 mm are installed. Using a thin plate, a gasket is installed in the groove between the tank and the lid (width at the top of 3 mm and the bottom of 1 mm) so that it forms the bottom of the groove with a thickness of 8-10 mm. As a cushioning material, a strip of foamed polyethylene having an initial thickness of 10 mm is used. The prepared groove is filled under pressure of 0.2-0.3 kg / cm ² silicon-containing epoxy adhesive using a hand gun for sealants. Curing of the adhesive is carried out at a temperature of 20-35 ° C during the day. After curing, the strength of the connection of the tank with the lid is not less than 110 kgf / cm ² , which provides reliable strength and shock resistance of the seal.

Claims (1)

A method of sealing a lead battery, which consists in placing the lid on the electrode block, sealing it with pole leads using o-rings and nuts, installing the block in the tank, installing pins placed in the openings of the side walls of the tank and the blind holes of the end edges of the cover aligned with them, characterized in that the lid is made with bevels of the side walls of 3-5 ° and forms a groove between the walls of the tank and the lid, into which a gasket is installed that forms the bottom of the groove and is made of foamed polymer material having a multiple degree of compression, after which the groove is filled with pressurized organosilicon epoxy adhesive, providing the adhesive strength of 90-120 kg / cm ^2.