CN211480219U - Electrolyte layering improves ware and goes into groove auxiliary fixtures - Google Patents

Abstract

The utility model provides an electrolyte layering improver cell-in auxiliary fixtures, including the handle portion, connect and be used for preventing that layering improver from going into the cell and damaging the scrapped inserted part that the baffle leads to the battery short circuit failure at a handle portion tip, the inserted part is vertical to be inserted between the baffle of battery cell body and utmost point group during the use, the handle portion is to the inboard bending of battery cell and is certain angle with the inserted part, the angle scope between handle portion and the inserted part is 100 and adds one's complement of 160, the inserted part width is the same with layering improver width, inserted part length is greater than the distance between the lower bottom wall lower extreme of layering improver afterbody to the liquid outlet upper end, handle portion width and battery cell body list grid length match, the handle portion, inserted part thickness is 1-5mm, guarantee that the cell in-process.

Description

Electrolyte layering improves ware and goes into groove auxiliary fixtures

Technical Field

The utility model belongs to lead acid battery manufacture equipment field especially relates to an electrolyte layering improves ware and goes into groove auxiliary fixtures.

Background

In the using process of the rich-solution lead-acid storage battery, an electrolyte layering improving device is adopted for improving electrolyte layering and is used for mixing the densities of the upper electrolyte and the lower electrolyte of the storage battery. The layering improver is added before the heat sealing of the battery large cover, and because the large cover is added before the heat sealing, the pole group has completed the groove entering and butt welding, and the gap between the partition plate bag and the groove wall in the pole group is too small, so that the layering improver is sealed at the right angle of the sealing top of the partition plate to block the groove entering of the layering improver, and the partition plate is punctured by external force friction, is opened at the sealing part, and leads to the short-circuit failure of the battery to be scrapped.

Disclosure of Invention

The utility model aims at overcoming the above-mentioned not enough of prior art, and provide an electrolyte layering improves ware and goes into groove auxiliary fixtures, baffle receives external force friction puncture, involution position opening when having avoided repacking layering to improve the ware device, leads to the battery short circuit inefficacy to scrap the problem, improves work efficiency, practices thrift manufacturing cost.

The utility model provides an electrolyte layering improver income cell auxiliary fixtures, including the handle portion, connect and be used for preventing that layering improver from going into the cell and damaging the scrapped inserted part of baffle and leading to battery short circuit failure at handle portion tip, the inserted part is vertical to be inserted between the baffle of battery cell body and utmost point group during the use, the handle portion is to the inboard bending of battery cell and is certain angle with the inserted part, the angle scope between handle portion and the inserted part is 100 and adds one's complement of 160, the inserted part width is the same with layering improver width, inserted part length is greater than the distance between the lower bottom wall lower extreme of layering improver afterbody to the liquid outlet upper end, handle portion width and battery cell body list grid length match, the handle portion, inserted part thickness is 1-5.

The length of the insertion part is 10-30 mm.

The length of the handle part is 10-20 cm.

The angle between the handle portion and the insertion portion ranges from 120 deg. to 150 deg..

The handle part and the insertion part are made of the same plastic material as the battery jar.

The layering improving device comprises a head part for receiving liquid and a tail part for guiding flow, the head part is an open groove, an open end at the upper part of the open groove is an electrolyte inlet, the lower part of the open groove is connected with a liquid outlet at one side of the tail part, and the liquid outlet is communicated with the tail part; the lower bottom wall of the tail part inclines towards one side of the battery jar and forms a certain inclination angle with the vertical part, and a plurality of electrolyte outlets are formed in the lower bottom wall.

Compared with the prior art, the utility model has small volume, simple structure and convenient use; the groove can be rapidly filled with the layering improving device, the partition plate is prevented from being damaged by external force in the groove filling process, the problem that the partition plate of the storage battery is damaged in the insertion process of the layering improving device of the conventional lead-acid storage battery is solved, the problem that the partition plate is broken due to external force friction and is scrapped due to short circuit failure of the battery due to opening of sealing parts is avoided, the working efficiency is improved, and the production cost is saved.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a state diagram of the layered improver assembly entering a tank;

in the figure: 1. an insertion portion; 2. a handle portion; 3. a pole group; 4. a head portion; 5. and a tail portion.

Detailed Description

In fig. 1, the design of the auxiliary tool for entering the groove comprises a handle part 2 and an insertion part 1, wherein the handle part 2 is used for providing a hand-held part for an operator, the insertion part 1 is inserted between a battery groove body and a partition plate of a polar group when in use and is used for preventing the lamination improver from damaging the groove and causing the short circuit failure and scrapping of the battery due to the damage of the partition plate, the width of the insertion part 1 is the same as that of the lamination improver, the length of the insertion part 1 is greater than the distance from the lower bottom wall lower end of the tail part 5 of the lamination improver to the upper end of a liquid outlet, the length of the insertion part 1 is set to be 10-30mm, the situation that the liquid outlet at the position of the lamination improver device 5 is not interfered with the partition plate is ensured, meanwhile, the insertion part is prevented from being too; the width of the handle part 2 is matched with the length of the cell of the battery groove body, the length is set to be 10-20cm, after the insertion part 1 is inserted, the handle part 2 can integrally cover the cell of the storage battery in the length direction, so that the situation that the short circuit of the battery is caused because impurities such as scrap iron, lead chips and the like enter the cell of the storage battery is avoided, the width of the handle part 2 is matched with the length of the cell of the battery groove body, and the thicknesses of the handle part 2 and the insertion part 1 are both 1-; the handle part 2 is bent towards the inner side of the battery jar and forms a certain angle with the insertion part 1, the angle range between the handle part 2 and the insertion part 1 is 100-.

In fig. 2, the layered improver is inserted into the cell body of the cell, the insertion part 1 of the auxiliary groove-entering tool is inserted against the cell wall of the cell during the insertion process, the operator holds the handle part 2 with hands to vertically insert the insertion part 1 between the cell body and the partition plate of the pole group, then the tail part 5 of the layered improver is inserted against the cell wall of the cell, after the inclined lower end wall of the tail part 5 of the layered improver is completely inserted, the auxiliary tool is taken out, and the layered improver is inserted against the cell wall; the layering improving device comprises a head part 4 for receiving liquid and a tail part 5 for guiding flow, wherein the head part 4 is an open groove, an open end at the upper part of the open groove is an electrolyte inlet, a liquid outlet of the head part 4 is arranged at one side of the lower part connected with the tail part, and the liquid outlet is communicated with the tail part 5; the lower bottom wall of the tail part 5 inclines towards one side of the battery jar and forms a certain inclination angle with the vertical surface, and a plurality of electrolyte outlets are formed in the lower bottom wall.

Claims (6)

1. The utility model provides an electrolyte layering improves ware and goes into groove auxiliary fixtures which characterized in that: the battery short circuit failure scrap prevention insertion part comprises a handle part (2) and an insertion part (1) which is connected to one end of the handle part (2) and used for preventing a separator from being damaged by a laminated improver groove-entering groove to cause battery short circuit failure scrap, when the battery short circuit failure scrap prevention insertion part is used, the insertion part (1) is vertically inserted between a battery groove body and the separator of a polar group, the handle part (2) bends towards the inner side of the battery groove and forms a certain angle with the insertion part (1), the angle range between the handle part (2) and the insertion part (1) is 100 degrees and 160 degrees, the width of the insertion part (1) is the same as that of the laminated improver, the length of the insertion part (1) is larger than the distance between the lower bottom wall lower end of the tail part (5) of the laminated improver and the upper end of a liquid outlet, the.

2. The electrolyte layering improver entering groove auxiliary tool according to claim 1, characterized in that: the length of the insertion part (1) is 10-30 mm.

3. The electrolyte layering improver entering groove auxiliary tool according to claim 1, characterized in that: the length of the handle part (2) is 10-20 cm.

4. The electrolyte layering improver entering groove auxiliary tool according to claim 1, characterized in that: the angle between the handle portion (2) and the insertion portion (1) ranges from 120 DEG to 150 deg.

5. The electrolyte layering improver entering groove auxiliary tool according to claim 1, characterized in that: the handle part (2) and the insertion part (1) are made of the same plastic material as the battery jar.

6. The electrolyte layering improver entering groove auxiliary tool according to claim 1, characterized in that: the layering improving device comprises a head part (4) used for receiving liquid and a tail part (5) used for guiding flow, the head part (4) is an open groove, an electrolyte inlet is arranged at the open end of the upper part of the open groove, a liquid outlet of the head part (4) is arranged at one side of the lower part of the open groove, and the liquid outlet is communicated with the tail part (5); the lower bottom wall of the tail part (5) inclines towards one side of the battery jar and forms a certain inclination angle with the vertical surface, and a plurality of electrolyte outlets are formed in the lower bottom wall.

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