CN215451715U - Recovery mechanism of lead-acid storage battery acid adding device - Google Patents

Abstract

The utility model provides a recovery mechanism of a lead-acid storage battery acid adding device, which relates to the technical field of storage batteries and comprises an acid adding cabinet, an acid adding box and a recovery tank, wherein the acid adding groove is formed in the middle of the upper end of the acid adding cabinet, a storage cavity is formed in the lower end of the interior of the acid adding cabinet, and the acid adding box is embedded into the acid adding cabinet at the inner side of the acid adding groove. The electrolyte that conveniently retrieves is handled for it is more convenient to use.

Description

Recovery mechanism of lead-acid storage battery acid adding device

Technical Field

The utility model relates to the technical field of storage batteries, in particular to an acid adding device for a lead-acid storage battery.

Background

Lead-acid batteries are batteries whose electrodes are mainly made of lead and its oxides and whose electrolyte is a sulfuric acid solution, and are classified into vented batteries and maintenance-free lead-acid batteries. The production and manufacturing processes of the storage battery are many, wherein one process is to charge electrolyte into the storage battery;

at present, the mode of adding electrolyte to the storage battery is that the electrolyte is poured into the storage battery through an injection hole, the opening of the injection hole of the electrolyte of the storage battery is small, so that manual pouring is not easy to align, the electrolyte is a sulfuric acid aqueous solution and has corrosivity, the electrolyte leaks once the electrolyte overflows when being poured manually, and the electrolyte is not recycled in an effective mode due to strong corrosivity, so that the electrolyte is wasted, and the electrolyte is exposed at the outer end and can hurt the body of a worker;

therefore, further research needs to be carried out on the existing lead-acid storage battery acid adding device, and a new recovery mechanism of the lead-acid storage battery acid adding device is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the prior art and provides a recovery mechanism of an acid adding device of a lead-acid storage battery.

In order to achieve the purpose, the utility model provides the following technical scheme: a recovery mechanism of a lead-acid storage battery acidification device comprises an acidification cabinet, an acidification box and a recovery tank, wherein an acidification groove is arranged in the middle of the upper end of the acidification cabinet, a storage cavity is arranged at the lower end of the interior of the acidification cabinet, the acidification cabinet is embedded into the acidification groove and is provided with the acidification box, a placement groove is arranged in the acidification box, a placement frame is arranged on the side surface of the acidification box, which is positioned on the placement groove, a diversion box is arranged at the lower end of the acidification box, a liquid leakage pipe is arranged at the bottom of the diversion box, a movable groove is arranged in the liquid leakage pipe, a liquid outlet is arranged in the middle of the interior of the liquid leakage pipe, a diversion pipe is nested at the lower end of the liquid leakage pipe, a fixture block is arranged at the upper end of the diversion pipe, a connecting strip is fixedly connected to the side surface of the diversion pipe, a movable box door is movably connected to the outer end of the acidification cabinet, which is positioned on the storage cavity, through a hinge, the side fixedly connected with handle of activity chamber door, acid-adding cabinet has placed the recovery jar in the inside in storing chamber, recovery jar upper end is provided with the butt joint pipe, the front fixedly connected with handle of recovery jar.

Preferably, the acid adding groove is communicated with the storage cavity, and the acid adding box is supported at the upper end of the joint of the acid adding groove and the storage cavity.

Preferably, the front surface of the acid adding box is provided with an opening, and the opening of the acid adding box is positioned at the upper end of the placing frame.

Preferably, the rack is trapezoidal, and the outside of rack is the slope setting.

Preferably, the flow guide box penetrates through the inner wall of the acid adding cabinet and extends to the inside of the storage cavity, and the flow guide box is funnel-shaped.

Preferably, the fixture block is clamped at the lower end of the movable groove, and the flow guide pipe is movably connected with the liquid leakage pipe.

Preferably, the recovery tank is located right below the draft tube, and the lower end of the draft tube is embedded in the butt joint pipe.

Compared with the prior art, the utility model has the following beneficial effects:

(1) this kind of lead acid battery acidification device's recovery mechanism, the outside of rack is the slope setting, place and have the interval between battery bottom lower extreme department on the rack and the rack, electrolyte is from the upper end drippage, slope and down along the inner wall of rack, fall into in the baffle box, because the baffle box is hourglass hopper-shaped, leak hopper-shaped baffle box assembles electrolyte, in the recovery jar of the leading-in storing chamber of weeping pipe and the honeycomb duct through the bottom, retrieve the electrolyte of revealing through retrieving the jar, the electrolyte that will reveal that can be quick is retrieved and is stored, reduce the loss of electrolyte when retrieving, effectively retrieve electrolyte, and avoid electrolyte to expose in the outer end, contact to the staff and cause the injury.

(2) The honeycomb duct is arranged at the lower end of the liquid leakage pipe in an embedded mode, the clamping block is connected to the lower end of the movable groove in a clamped mode, the honeycomb duct is movably connected with the liquid leakage pipe, the honeycomb duct can stretch up and down at the lower end of the liquid leakage pipe, the position of the honeycomb duct is adjusted, the electrolyte is recycled by the recycling tank, the honeycomb duct is pulled upwards through the connecting strip, the honeycomb duct is pulled out from the butt joint pipe at the upper end of the recycling tank, the recycling tank is separated from the honeycomb duct, the recycling tank is taken out conveniently, the recycled electrolyte is processed conveniently, and the liquid leakage pipe is convenient to use.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the internal connection structure of the acid adding cabinet of the present invention.

FIG. 3 is a schematic view of the connection structure of the acid adding tank of the present invention.

Fig. 4 is a schematic view of a specific connection structure of the liquid leakage pipe and the liquid guide pipe.

Fig. 5 is a schematic view of a specific connection structure of the recovery tank of the present invention.

In the figure: 1-acid adding cabinet; 2-acid adding box; 3, placing a rack; 4-a flow guide box; 5-a liquid leakage pipe; 6-a liquid outlet; 7-a flow guide pipe; 8-a connecting strip; 9-movable box door; 10-a handle; 11-a recovery tank; 12-butt joint pipe; 13-handle; 101-acid adding tank; 102-a storage chamber; 201-placing grooves; 501-an active slot; 701-fixture block.

Detailed Description

Example (b):

as shown in figures 1-5;

the embodiment provides a recovery mechanism of a lead-acid storage battery acid adding device, which comprises an acid adding cabinet 1, an acid adding box 2 and a recovery tank 11, wherein an acid adding groove 101 is arranged in the middle of the upper end of the acid adding cabinet 1, a storage cavity 102 is arranged at the lower end of the interior of the acid adding cabinet 1, the acid adding box 2 is embedded in the acid adding groove 101 of the acid adding cabinet 1, a placing groove 201 is arranged in the acid adding box 2, a placing frame 3 is arranged on the side surface of the acid adding box 2, the lower end of the acid adding box 2 is provided with a flow guide box 4, a liquid leakage pipe 5 is arranged at the bottom of the flow guide box 4, a movable groove 501 is arranged in the liquid leakage pipe 5, a liquid outlet 6 is arranged in the middle of the interior of the liquid leakage pipe 5, a flow guide pipe 7 is nested at the lower end of the liquid leakage pipe 5, a fixture block 701 is arranged at the upper end of the flow guide pipe 7, a connecting strip 8 is fixedly connected to the side surface of the flow guide pipe 7, a box door 9 is movably connected to the outer end of the acid adding cabinet 1, which is arranged in the storage cavity 102, the side fixedly connected with handle 10 of activity chamber door 9 adds sour cabinet 1 and is located the inside of storing chamber 102 and has placed recovery tank 11, and recovery tank 11 upper end is provided with butt joint pipe 12, and the positive fixedly connected with handle 13 of recovery tank 11.

Further, the acid adding groove 101 is communicated with the storage cavity 102, and the acid adding box 2 is supported at the upper end of the joint of the acid adding groove 101 and the storage cavity 102.

Further, the front surface of the acid adding box 2 is provided with an opening, and the opening of the acid adding box 2 is positioned at the upper end of the placing frame 3.

Further, rack 3 is trapezoidal setting, and the outside of rack 3 is the slope setting.

Further, the diversion box 4 penetrates through the inner wall of the acid adding cabinet 1 and extends to the inside of the storage cavity 102, and the diversion box 4 is funnel-shaped.

Further, the fixture block 701 is clamped at the lower end of the movable groove 501, and the guide pipe 7 is movably connected with the liquid leakage pipe 5.

Further, the recovery tank 11 is located right below the draft tube 7, and the lower end of the draft tube 7 is embedded inside the butt pipe 12.

When the utility model is used, a storage battery which needs to be added with electrolyte is placed on the placing frame 3 of the acid adding box 2, the electrolyte is added into the storage battery in the acid adding box 2, when the added electrolyte overflows, because the placing frame 3 is in a trapezoidal arrangement and the outer side of the placing frame 3 is in an inclined arrangement, a gap is arranged between the lower end of the bottom of the storage battery placed on the placing frame 3 and the placing frame 3, the electrolyte drops from the upper end and falls down along the inner wall of the placing frame 3 in an inclined manner, the electrolyte drops into the flow guide box 4, because the flow guide box 4 is in a funnel shape, the funnel-shaped flow guide box 4 collects the electrolyte, the electrolyte is guided into the recovery tank 11 of the storage cavity 102 through the leakage pipe 5 and the flow guide pipe 7 at the bottom, the leaked electrolyte is recovered through the recovery tank 11, the leaked electrolyte can be rapidly recovered and stored, the loss of the electrolyte during recovery is reduced, and the electrolyte is effectively recovered, the electrolyte is prevented from being exposed at the outer end and contacting with workers to cause injury to the workers;

be provided with honeycomb duct 7 through the lower extreme nestification at weeping pipe 5, fixture block 701 joint is in the lower extreme department of movable groove 501, and honeycomb duct 7 is swing joint with weeping pipe 5, honeycomb duct 7 can stretch out and draw back from top to bottom at the lower extreme of weeping pipe 5, adjust honeycomb duct 7's position, retrieve jar 11 and retrieve the back of accomplishing to electrolyte, upwards stimulate honeycomb duct 7 through connecting strip 8, extract honeycomb duct 7 from retrieving jar 11 upper end to the joint pipe 12, thereby will retrieve jar 11 and honeycomb duct 7 separation, conveniently take out recovery jar 11, conveniently handle the electrolyte of retrieving, make and use more convenient.

Claims (7)

1. The recovery mechanism of the lead-acid storage battery acidification device comprises an acidification cabinet (1), an acidification box (2) and a recovery tank (11), wherein an acidification tank (101) is arranged in the middle of the upper end of the acidification cabinet (1), a storage cavity (102) is arranged at the lower end of the interior of the acidification cabinet (1), the acidification box (2) is embedded into the acidification cabinet (1) at the inner side of the acidification tank (101), and a placement groove (201) is arranged in the acidification box (2);

a placing rack (3) is arranged on the side, located on the placing groove (201), of the acid adding box (2), a guide box (4) is arranged at the lower end of the acid adding box (2), a liquid leakage pipe (5) is arranged at the bottom of the guide box (4), a movable groove (501) is arranged inside the liquid leakage pipe (5), a liquid outlet (6) is arranged in the middle of the inside of the liquid leakage pipe (5), a guide pipe (7) is arranged at the lower end of the liquid leakage pipe (5) in a nested mode, a clamping block (701) is arranged at the upper end of the guide pipe (7), and a connecting strip (8) is fixedly connected to the side of the guide pipe (7);

acid-adding cabinet (1) is located the outer end department in storing chamber (102) and has activity chamber door (9) through hinge pivot swing joint, the side fixedly connected with handle (10) of activity chamber door (9), acid-adding cabinet (1) is located the inside in storing chamber (102) and has placed recovery jar (11), recovery jar (11) upper end is provided with butt joint pipe (12), the positive fixedly connected with handle (13) of recovery jar (11).

2. The recovery mechanism of the acid adding device for the lead-acid storage battery according to claim 1 is characterized in that the acid adding groove (101) is communicated with the storage cavity (102), and the acid adding box (2) is supported at the upper end of the joint of the acid adding groove (101) and the storage cavity (102).

3. The recovery mechanism of the acid adding device for the lead-acid storage battery according to claim 1 is characterized in that the front surface of the acid adding box (2) is provided with an opening, and the opening of the acid adding box (2) is positioned at the upper end of the placing frame (3).

4. The recovery mechanism of the acid adding device for the lead-acid storage battery according to claim 1, wherein the placing rack (3) is trapezoidal, and the outer side of the placing rack (3) is inclined.

5. The recovery mechanism of the acid adding device for the lead-acid storage battery according to claim 1 is characterized in that the flow guide box (4) extends to the inside of the storage cavity (102) through the inner wall of the acid adding cabinet (1), and the flow guide box (4) is funnel-shaped.

6. The recovery mechanism of the acid adding device for the lead-acid storage battery according to claim 1, wherein the fixture block (701) is clamped at the lower end of the movable groove (501), and the guide pipe (7) is movably connected with the liquid leakage pipe (5).

7. The recovery mechanism of the acid adding device for the lead-acid storage battery according to claim 1 is characterized in that the recovery tank (11) is positioned right below the draft tube (7), and the lower end of the draft tube (7) is embedded in the butt joint pipe (12).

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