CN111162240A - Device and method for acidification formation of storage battery - Google Patents

Abstract

The invention discloses a storage battery acidification forming device, which comprises an acidification machine and a formation tank, wherein a mounting plate capable of horizontally moving along the formation tank is arranged above the formation tank, a mounting seat capable of moving up and down is arranged below the mounting plate, and an acidification plate with an acidification pipe or an acid extraction plate with an acid extraction pipe is detachably mounted on the mounting seat; the acid adding machine is connected with the acid adding pipe or the acid pumping pipe through a hose; the storage battery acidification formation device is provided with a first use state that an acidification plate is arranged on the mounting seat and used for adding acid to the storage battery, and a second use state that an acid pumping plate is arranged on the mounting seat and used for pumping acid to the storage battery. The device of the invention combines the acidification process and the formation process, does not need to move the battery after the acidification is finished, stands still in the formation tank for cooling, and performs formation from the completion of the acidification of the battery to the start of the charger, thus effectively solving the cooling problem after the acidification of the storage battery and simultaneously having simple and convenient operation process.

Description

Device and method for acidification formation of storage battery

Technical Field

The invention belongs to the technical field of lead-acid storage battery production, and particularly relates to a storage battery acidification formation device and method.

Background

At present, all power type lead-acid storage batteries adopt an internal formation charging process, and an external acid pot is required to be arranged on the batteries before the storage batteries are formed, and electrolyte is added. In the current stage, a semi-automatic acid adding machine is adopted, a worker places a battery to be added with acid at an acid adding position of the acid adding machine, and then presses an acid adding switch to finish acid adding.

For example, chinese patent publication No. CN207426052U discloses an acid adding machine for storage batteries, which includes a closed and openable vacuum chamber, and the vacuum chamber can accommodate an acid adding kettle set and a storage battery set; the top of the vacuum bin is provided with a plurality of acid injection pipes which penetrate through the inside and the outside, the upper ends of the acid injection pipes are communicated to the acid liquid quantifying device, the lower ends of the acid injection pipes are correspondingly inserted into acid inlet holes at the upper bottom of the acid adding kettle group one by one, and an exhaust gap is formed between the lower ends of the acid injection pipes and the acid inlet holes; the vacuum chamber is also provided with a vacuum pumping port and communicated to a vacuum pump.

The production efficiency of the existing acid adding machine has high requirement on the skill of staff, and after the electrolyte is added, the sulfuric acid and the polar plate are subjected to chemical reaction to generate a large amount of heat, so that the temperature of the battery is increased rapidly, and the high temperature of the battery can accelerate the precipitation of additives in a negative plate of the battery, thereby affecting the low-temperature performance and the service life of the battery. At present, the commonly adopted cooling mode is that after the battery is filled with electrolyte, the battery is put into a cooling water tank to be cooled for 15-20min as soon as possible, and then the battery is transported to a charging rack for battery formation by a transportation rail.

For example, chinese patent publication No. CN103943893A discloses an internal formation process of a valve-closed charging type valve-controlled sealed lead-acid battery, wherein the valve-controlled sealed battery is subjected to acid addition, the battery is cooled in a water bath after the acid addition, the battery is static for 2-4 hours, after the battery is static, a safety valve is covered, a battery cover plate is bonded and connected with a charger, and the internal formation process of the battery is divided into three stages.

The method can play a certain role in cooling, but is still imperfect, because the batteries are conveyed to the charging rack through the conveying belt after being discharged from the cooling water tank, the process of starting circulating water is about 0.5-1h after one layer of the batteries of the charging rack is full, no cooling measures are taken in the process, and the performance of the batteries is influenced by the continuous rise of the temperature of the batteries.

Disclosure of Invention

The invention provides a device and a method for acidification formation of a storage battery, aiming at the problems that in the prior art, the dependence on the proficiency of acidification staff is strong, and the problem of cooling of the storage battery after acidification is difficult to solve.

A storage battery acidification formation device comprises an acidification machine and a formation tank, wherein a mounting plate capable of horizontally moving along the formation tank is arranged above the formation tank, a mounting seat capable of moving up and down is arranged below the mounting plate, and an acidification plate with an acidification pipe or an acid extraction plate with an acid extraction pipe is detachably mounted on the mounting seat; the acid adding machine is connected with the acid adding pipe or the acid pumping pipe through a hose;

the storage battery acidification formation device is provided with a first use state that an acidification plate is arranged on the mounting seat and used for adding acid to the storage battery, and a second use state that an acid pumping plate is arranged on the mounting seat and used for pumping acid to the storage battery.

In order to fix the position of the tray in the formation groove conveniently, a limiting baffle for fixing the tray is arranged in the formation groove, and in order to fix the position of the storage battery in the tray conveniently, a limiter is arranged in the tray.

The storage battery acidification device further comprises a rack, and a plurality of acidification tanks are arranged on the rack.

The rack above each chemical tank is provided with a horizontal worm driven by a first motor, and the mounting plate is provided with a horizontal threaded hole matched with the horizontal worm. The horizontal worm is driven to rotate through the first motor, and the mounting plate can be driven to horizontally move along the upper part of the chemical tank.

The mounting base upper end is fixed with the second motor, the output of second motor is connected with vertical worm, the mounting panel on be equipped with the vertical screw hole with vertical worm matching. The vertical worm is driven to rotate through the second motor, and the mounting plate can be driven to move up and down in the vertical direction.

The both ends of mount pad all are equipped with waist type hole, add sour board or take out sour board and pass through the bolt and fix with the waist type hole cooperation on the mount pad, can carry out convenient dismouting and regulation to adding sour board or taking out sour board according to concrete needs.

Waist-shaped mounting holes are formed in the acid adding plate and the acid extracting plate, sleeves matched with the waist-shaped mounting holes are arranged on the acid adding pipe and the acid extracting pipe, and external threads are arranged on the sleeves; the acid adding pipe and the acid pumping pipe are respectively fixed on the acid adding plate and the acid pumping plate through the matching of the screw cap and the external thread of the sleeve.

The output end of the hose is provided with a branch pipe connector which is respectively in plug-in connection with a plurality of acid adding pipes or a plurality of acid pumping pipes.

In order to make the mounting panel along the chemical bath horizontal migration in-process, the hose can be placed in order, the side of chemical bath is equipped with the holding tank that matches with the hose.

The invention also provides a storage battery acidification forming method, which uses the storage battery acidification forming device and comprises the following specific steps:

(1) sleeving an acid kettle on a semi-finished product storage battery to be added with acid, and placing the semi-finished product storage battery on a tray;

(2) placing a plurality of trays with the storage batteries in a formation tank, and fixing the position of each battery in the formation tank;

(3) starting a circulating water device in the chemical tank, and ensuring the normal operation of the circulating water before the acid is not added into the storage battery, so that the chemical tank has a cooling effect;

(4) starting an acid adding machine, sequentially adding acid to the storage batteries in the formation tank in a first use state that an acid adding plate is installed on the installation plate, wherein during acid adding, an acid adding pipe is accurately aligned to the storage batteries in the tray below, and the installation plate moves downwards to enable the acid adding pipe to be inserted into an acid pot;

(5) after the acid is added, the storage battery is placed in a formation tank for standing and cooling, and a charger is started for formation;

(6) the acid adding plate on the mounting seat is replaced by an acid pumping plate, the hose is connected with an acid pumping pipe on the acid pumping plate, and after the storage battery formation is finished, residual acid is pumped.

In the step (5), the storage battery in the formation process can be periodically vacuumized by an acid adding machine in the formation process, so that the formation efficiency is improved. Because the storage battery has the hydrogen in the formation process, when the hydrogen is not processed in time and reaches a certain concentration, the hydrogen explosion phenomenon can be caused, so that the hydrogen concentration can be effectively reduced by regularly vacuumizing, and the hydrogen explosion is avoided.

Compared with the prior art, the invention has the following beneficial effects:

1. the device combines the acidification machine and the formation tank together, so that the acidification process and the formation process are combined, the storage battery is acidified in the formation tank, the storage battery does not need to move after the acidification is finished, the storage battery is kept stand and cooled in the formation tank, the formation is carried out from the completion of the acidification of the storage battery to the start of the charger, and the temperature of the storage battery is effectively controlled.

2. The method for acidification formation by using the device provided by the invention has the advantages that the whole operation process is simple and convenient, the dependence on acid addition staff can be reduced, the cooling problem after the acid addition of the storage battery is effectively solved, the auxiliary formation method can effectively improve the formation efficiency, and the kettle frying risk caused by hydrogen aggregation in the formation process is reduced.

Drawings

Fig. 1 is a schematic view of an overall structure of a storage battery acidification formation device according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the overall structure of one of the formation tanks in the embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an acid-adding plate mounted on a mounting seat according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a tray according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an acid extraction plate mounted on a mounting seat in an embodiment of the invention.

Detailed Description

The invention will be described in further detail below with reference to the drawings and examples, which are intended to facilitate the understanding of the invention without limiting it in any way.

As shown in fig. 1 to 5, the storage battery acidification forming device comprises an acidification machine 1, a rack 2 and three formation tanks 3 arranged on the rack 2, wherein two horizontal guide rods 8 and a horizontal worm 7 driven by a first motor 6 are arranged on the rack 1 above each formation tank 3. When the first motor 6 works, the horizontal worm 7 is driven to rotate, and the mounting plate 5 above the chemical synthesis groove 3 can be driven to horizontally move along the horizontal guide rod 8.

The below of mounting panel 5 is equipped with the mount pad 51 that can reciprocate, specifically, and the mount pad 51 upper end is fixed with second motor 52, and the output of second motor 52 is connected with vertical worm 53, is equipped with the vertical screw hole that matches with vertical worm 53 on the mounting panel 5. The second motor 52 drives the vertical worm 53 to rotate when operating, and can drive the mounting seat 51 to move up and down. In order to stabilize the up-and-down movement, two vertical guide rods 54 are provided between the mounting plate 5 and the mounting seat 51.

As shown in fig. 3 and 5, an acid adding plate 56 with an acid adding pipe 561 or an acid extracting plate 57 with an acid extracting pipe 571 is detachably mounted on the mounting base 51. The acid adding machine 1 is connected with an acid adding pipe 561 or an acid pumping pipe 571 through a hose 9. The output end of the hose 9 is provided with a branch pipe connector 91, which is respectively connected with a plurality of acid adding pipes 561 or a plurality of acid pumping pipes 571 in an inserting manner. The acid adding pipe 561 and the upper end of the acid pumping pipe 571 have the same structure, so that the acid adding pipe 561 and the branch pipe connector 91 of the hose 9 can be conveniently matched and spliced; the lower end of the acid pumping pipe 571 is more slender than the acid adding pipe 561, so that acid pumping is facilitated.

The battery acidification device of the invention has a first use state that an acidification plate 56 is arranged on a mounting seat 51 and used for adding acid to the battery, and a second use state that an acid extraction plate 57 is arranged on the mounting seat 51 and used for extracting acid from the battery.

In order to make the acid adding plate 56 and the acid extracting plate 57 more convenient to disassemble and assemble, the two ends of the mounting seat 51 are provided with kidney-shaped holes 55, and the acid adding plate 56 or the acid extracting plate 57 is matched and fixed with the kidney-shaped holes 55 on the mounting seat 51 through bolts. In this embodiment, the acid adding plate 56 and the acid extracting plate 57 are both two, and the distance between the two acid adding plates 56 or the two acid extracting plates 57 can be conveniently adjusted according to actual needs, so as to match different storage batteries.

Meanwhile, in order to enable the acid adding pipe 561 and the acid adding plate 56 as well as the acid pumping pipe 571 and the acid pumping plate 57 to be more easily detached and adjusted, waist-shaped mounting holes are formed in the acid adding plate 56 and the acid pumping plate 57, a sleeve 562 matched with the waist-shaped mounting holes is arranged on the acid adding pipe 561, a sleeve 572 matched with the waist-shaped mounting holes is arranged on the acid pumping pipe 571, and the sleeve is provided with external threads; the acid adding pipe 561 and the acid pumping pipe 571 are fixed on the acid adding plate 56 and the acid pumping plate 57 respectively by the nut matching with the external thread of the sleeve.

The formation tank 3 is internally provided with a tray 4, a semi-finished storage battery to be added with acid is placed in the tray 4, and in order to enable the acid adding pipe 561 and the acid pumping pipe 571 to be accurately aligned with the storage battery in the tray 4 below, a limit baffle for fixing the position of the tray 4 is arranged in the formation tank 3. As shown in fig. 4, six storage batteries can be placed in each tray 4, and stoppers 41 for fixing the positions of the storage batteries are provided at four corners of the placement position of each storage battery.

In order to enable the installation plate 5 to be placed orderly above the formation tank 3 in the horizontal moving process, the side edge of the formation tank 3 is provided with an accommodating groove 10 matched with the hose 9.

The device of the invention, when in use, is in the following way:

s1, placing the semi-finished battery to be added with acid on the tray 4 with the stopper 41 after sleeving the acid pot, and fixing the position of the storage battery on the tray 4 due to the stopper 41.

And S2, conveying each tray of storage batteries (without acid) into the chemical tank 3 with a limit baffle, wherein the position of each tray of storage batteries on the chemical tank 3 is fixed due to the existence of the limit baffle, and the position of each single storage battery on the chemical tank 3 is also fixed.

S3, starting a circulating water device in the chemical synthesis tank 3, ensuring the normal running of the circulating water before the acid is not added into the storage battery, and having the function of cooling.

S4, starting the acid adding machine 1, wherein the acid adding principle of the acid adding machine 1 is the same as that of the traditional acid adding machine, the main difference lies in that the main body of the acid adding machine is separated from an acid adding pipe, the main body of the acid adding machine and the acid adding pipe are connected through a hose 9, the acid adding pipe is arranged above each layer of formation tank 3 and can freely move in parallel, and the acid adding pipe 561 can accurately align to the storage battery in the tray 4 below in the moving process due to the fact that the position of the storage battery to be added in the formation tank 3 is fixed, and the acid adding of the whole layer of storage battery is completed.

The alignment process of this step can be specifically performed by the photoelectric sensing device, and when the acid adding pipe 561 moves to a position aligned with the storage battery below, the photoelectric sensing device receives a signal to control the acid adding pipe to be inserted downwards into the acid pot on the storage battery for adding acid.

And S5, after the acid adding is completed, the storage battery does not need to be moved, the storage battery can be kept stand and cooled in the formation tank 3, the formation is carried out from the time when the acid adding of the storage battery is completed to the time when the charger is started, and the temperature of the storage battery is effectively controlled.

S6, because acid adding machine 1 is from taking the evacuation function, accessible control acid adding machine 1, set for acid adding machine 1 and regularly carry out the evacuation to being in the storage battery that becomes the in-process, improve and become efficiency, when the storage battery becomes in ordinary charging frame simultaneously, because the formation in-process has the production of hydrogen, when hydrogen is not handled in time, when reaching certain concentration, can cause the hydrogen explosion phenomenon, can effectively reduce hydrogen concentration through regularly taking the evacuation, avoid the emergence of hydrogen explosion.

And S7, after the storage battery formation is finished, replacing the acid adding plate 56 on the mounting seat 51 with the acid pumping plate 57, and connecting the hose 9 with the acid pumping pipe 571 on the acid pumping plate 57 to realize automatic residual acid pumping.

The process of replacing the acid-extracting plate 57 can be performed after the formation of the storage battery is completed, or can be replaced after the storage battery is periodically vacuumized.

In the process, the storage battery is added with acid in the formation tank, the storage battery does not need to be moved after the acid addition is completed, the storage battery is kept stand and cooled in the formation tank, the formation is performed from the completion of the acid addition of the storage battery to the starting of the charger, the cooling problem after the acid addition of the storage battery can be effectively solved, and meanwhile, the whole operation process is simple and convenient.

The embodiments described above are intended to illustrate the technical solutions and advantages of the present invention, and it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, additions and equivalents made within the scope of the principles of the present invention should be included in the scope of the present invention.

Claims (10)

1. A storage battery acidification formation device comprises an acidification machine and a formation tank, and is characterized in that a mounting plate capable of horizontally moving along the formation tank is arranged above the formation tank, a mounting seat capable of moving up and down is arranged below the mounting plate, and an acidification plate with an acidification pipe or an acid extraction plate with an acid extraction pipe is detachably mounted on the mounting seat; the acid adding machine is connected with the acid adding pipe or the acid pumping pipe through a hose;

the storage battery acidification formation device is provided with a first use state that an acidification plate is arranged on the mounting seat and used for adding acid to the storage battery, and a second use state that an acid pumping plate is arranged on the mounting seat and used for pumping acid to the storage battery.

2. The battery acidification device as claimed in claim 1, wherein a limit baffle for fixing a tray is arranged in the acidification tank, and a limiter is arranged in the tray.

3. The battery acidification device according to claim 1, further comprising a frame, wherein the frame is provided with a plurality of acidification grooves.

4. The battery acidification device according to claim 3, wherein a horizontal worm driven by the first motor is arranged on the rack above each acidification tank, and the mounting plate is provided with a horizontal threaded hole matched with the horizontal worm.

5. The storage battery acidification device as claimed in claim 1, wherein a second motor is fixed at the upper end of the mounting seat, the output end of the second motor is connected with a vertical worm, and the mounting plate is provided with a vertical threaded hole matched with the vertical worm.

6. The battery acidification device according to claim 1, wherein waist-shaped holes are formed in both ends of the mounting seat, and the acidification plate or the acid extraction plate is fixed to the waist-shaped holes in the mounting seat through bolts in a matched mode.

7. The storage battery acidification forming device according to claim 1, wherein waist-shaped mounting holes are formed in the acidification plate and the acid extraction plate, sleeves matched with the waist-shaped mounting holes are arranged on the acidification pipe and the acid extraction pipe, and the sleeves are provided with external threads; the acid adding pipe and the acid pumping pipe are respectively fixed on the acid adding plate and the acid pumping plate through the matching of the screw cap and the external thread of the sleeve.

8. The storage battery acidification forming device according to claim 1, wherein the output end of the hose is provided with a branch pipe connector which is respectively in plug connection with a plurality of acidification pipes or a plurality of acid extraction pipes.

9. The battery acidification device of claim 1, wherein the sides of the acidification tank are provided with accommodating grooves matched with hoses.

10. A storage battery acidification forming method is characterized in that the storage battery acidification forming device of any claim 1-8 is used, and the method comprises the following specific steps:

(1) sleeving an acid kettle on a semi-finished product storage battery to be added with acid, and placing the semi-finished product storage battery on a tray;

(2) placing a plurality of trays with the storage batteries in a formation tank, and fixing the position of each battery in the formation tank;

(3) starting a circulating water device in the chemical tank, and ensuring the normal operation of the circulating water before the acid is not added into the storage battery, so that the chemical tank has a cooling effect;

(4) starting an acid adding machine, sequentially adding acid to the storage batteries in the formation tank in a first use state that an acid adding plate is installed on the installation plate, wherein during acid adding, an acid adding pipe is accurately aligned to the storage batteries in the tray below, and the installation plate moves downwards to enable the acid adding pipe to be inserted into an acid pot;

(5) after the acid is added, the storage battery is placed in a formation tank for standing and cooling, and a charger is started for formation;

(6) the acid adding plate on the mounting seat is replaced by an acid pumping plate, the hose is connected with an acid pumping pipe on the acid pumping plate, and after the storage battery formation is finished, residual acid is pumped.

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