CN117878464A - Lead mud recovery device for lead storage battery - Google Patents

Abstract

The invention discloses a lead mud recovery device of a lead storage battery, which comprises a compression assembly, a compression assembly and a pressure recovery assembly, wherein the compression assembly comprises a machine table, a hydraulic plate, a filtering diaphragm and a fixed block, the hydraulic plate is arranged in the machine table, the filtering diaphragm is positioned in the machine table, and the fixed block is arranged at the top of the filtering diaphragm; and scraping the subassembly, set up in the board top, including support piece, lifting part, strike off piece, moving part and piece that resets, support piece set up in the board top, the lifting part is located in the support piece, strike off the piece set up in the lifting part bottom, the moving part is located in the support piece, the piece that resets set up in support piece one side. The invention has the beneficial effects that: can strike off the plumbous paste on filtration membrane surface through setting up the piece that strikes off, can remove filtration membrane through setting up the moving part to strike off the plumbous paste of every filtration membrane both sides.

Description

Lead mud recovery device for lead storage battery

Technical Field

The invention relates to the technical field of lead slime recovery, in particular to a lead slime recovery device of a lead storage battery.

Background

The production development of waste lead-acid storage batteries is rapid, along with the continuous expansion of the application fields of the lead-acid storage batteries in China, the fields of automobiles, electric vehicles, communication and the like begin to apply the batteries, the demand of the lead-acid storage batteries is increased continuously, the expansion of the production capacity of the lead-acid storage batteries is further promoted, the sustainable development of the production industry of the lead-acid storage batteries is promoted, the rapid development of the lead-acid storage battery industry is accompanied, the number of waste lead-acid storage batteries generated each year is large, the waste lead-acid storage batteries with huge number and increased year by year are heavy tasks, and when lead mud is recovered, the neutralized lead-acid solution needs to be filtered by using a diaphragm filter press, so that sticky lead paste is obtained, but because the lead paste is high in viscosity and easy to adhere to the surface of a diaphragm, the lead paste on the diaphragm is usually required to be manually shoveled, and the workload of workers is greatly increased.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description summary and in the title of the application, to avoid obscuring the purpose of this section, the description summary and the title of the invention, which should not be used to limit the scope of the invention.

The present invention has been made in view of the above-mentioned and/or problems occurring in the conventional lead slime recovery devices for lead storage batteries.

Therefore, the problem to be solved by the invention is that the lead paste is easy to adhere to the surface of the diaphragm due to the high viscosity of the lead paste, and the lead paste on the diaphragm is usually required to be manually shoveled, so that the workload of workers is greatly increased.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a lead storage battery lead mud recovery unit, its includes, compression subassembly, including board, hydraulic plate, filtration diaphragm and fixed block, the hydraulic plate set up in the board, the filtration diaphragm is located in the board, the fixed block set up in filtration diaphragm top; the method comprises the steps of,

the scraping assembly is arranged at the top of the machine table and comprises a supporting piece, a lifting piece, a scraping piece, a moving piece and a resetting piece, wherein the supporting piece is arranged at the top of the machine table, the lifting piece is arranged in the supporting piece, the scraping piece is arranged at the bottom of the lifting piece, the moving piece is arranged in the supporting piece, and the resetting piece is arranged at one side of the supporting piece.

As a preferable scheme of the lead mud recovery device of the lead storage battery, the invention comprises the following steps: the support piece comprises a support block, a support shaft, a support frame and a friction block, wherein the support block is arranged at the top of the machine table, the support shaft is positioned in the support block, the support frame is arranged on the surface of the support shaft, and the friction block is arranged in the support frame.

As a preferable scheme of the lead mud recovery device of the lead storage battery, the invention comprises the following steps: the lifting piece comprises a driving motor and a driving gear, wherein the driving motor is arranged on one side of the supporting frame, and the driving gear is positioned at the output end of the driving motor.

As a preferable scheme of the lead mud recovery device of the lead storage battery, the invention comprises the following steps: the lifting piece further comprises a threaded shaft, a belt pulley, a transmission gear and a limiting frame, wherein the threaded shaft is arranged in the supporting frame, the belt pulley is positioned on the surface of the threaded shaft, the transmission gear is arranged on one side of the belt pulley, and the limiting frame is positioned at the top of the supporting frame.

As a preferable scheme of the lead mud recovery device of the lead storage battery, the invention comprises the following steps: the scraping piece comprises a fixing plate, a connecting block and a connecting plate, wherein the fixing plate is arranged at the end part of the threaded shaft, the connecting block is positioned at the bottom of the fixing plate, and the connecting plate is arranged in the connecting block.

As a preferable scheme of the lead mud recovery device of the lead storage battery, the invention comprises the following steps: the scraping piece further comprises a scraping strip, a clamping block and an elastic piece, the scraping strip is arranged at the bottom of the connecting plate, the clamping block is located at the bottom of the supporting frame, and the elastic piece is arranged at the top of the scraping strip.

As a preferable scheme of the lead mud recovery device of the lead storage battery, the invention comprises the following steps: the movable part comprises a deflection plate and a fixed shaft, the deflection plate is arranged in the supporting frame, and the fixed shaft is positioned on one side of the deflection plate.

As a preferable scheme of the lead mud recovery device of the lead storage battery, the invention comprises the following steps: the movable part further comprises a pressing plate and a weight block, the pressing plate is arranged on one side of the deflection plate, and the weight block is located at the end part of the pressing plate.

As a preferable scheme of the lead mud recovery device of the lead storage battery, the invention comprises the following steps: the movable part further comprises a connecting shaft, a shifting plate, a limiting block, a pull rod and a spring, wherein the connecting shaft is arranged in the deflection plate, the shifting plate is positioned on the surface of the connecting shaft, the limiting block is arranged on the surface of the deflection plate, the pull rod is positioned on the surface of the shifting plate, and the spring is arranged on one side of the pull rod.

As a preferable scheme of the lead mud recovery device of the lead storage battery, the invention comprises the following steps: the reset piece comprises a support rod, an inductor, a reset motor and a rotating gear, wherein the support rod is arranged at the top of the machine table, the inductor is positioned in the support rod, the reset motor is arranged on one side of the support frame, and the rotating gear is positioned on the surface of the output end of the reset motor.

The invention has the beneficial effects that: can strike off the plumbous paste on filtration membrane surface through setting up the piece that strikes off, can remove filtration membrane through setting up the moving part to strike off the plumbous paste of every filtration membrane both sides.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

fig. 1 is a block diagram of a lead slime recovery device for a lead storage battery.

Fig. 2 is an enlarged view of a partial structure of the lead slime recovery device of the lead storage battery at a position a in fig. 1.

Fig. 3 is a connecting shaft, a poking plate and a limiting block connecting structure diagram of the lead mud recovery device of the lead storage battery.

Fig. 4 is a structure diagram of connection between a support frame and a reset motor of the lead mud recovery device of the lead storage battery.

Fig. 5 is a partial structural sectional view of a lead slime recovery device of a lead storage battery.

Fig. 6 is a schematic diagram of the movement track of the fixed plate of the lead slime recovery device of the lead storage battery.

Description of the embodiments

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present invention is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Examples

Referring to fig. 1 to 6, in a first embodiment of the present invention, a lead-acid storage battery lead-mud recovery device is provided, where the lead-acid storage battery lead-mud recovery device includes a compression assembly 100 and a scraping assembly 200, the compression assembly 100 is used for filtering a neutralized lead-acid solution, so that lead mud in the lead-acid solution adheres to a surface of a filtering diaphragm 103, and the scraping assembly 200 is used for scraping lead mud on the surface of the filtering diaphragm 103.

Specifically, the compression assembly 100 includes a machine 101, a hydraulic plate 102, a filter membrane 103 and a fixed block 104, the hydraulic plate 102 is disposed in the machine 101, the filter membrane 103 is disposed in the machine 101, and the fixed block 104 is disposed on top of the filter membrane 103; the method comprises the steps of,

the board 101 is the support frame of membrane filter press, and hydraulic plate 102 is used for extruding filtering diaphragm 103, and filtering diaphragm 103 is used for filtering lead acid solution to filter lead mud, be convenient for follow-up processing lead mud, fixed block 104 is fixed in filtering diaphragm 103 top for drive filtering diaphragm 103 and remove, thereby be convenient for strike off the lead mud on filtering diaphragm 103 surface.

The scraping assembly 200 is arranged at the top of the machine 101 and comprises a supporting piece 201, a lifting piece 202, a scraping piece 203, a moving piece 204 and a resetting piece 205, wherein the supporting piece 201 is arranged at the top of the machine 101, the lifting piece 202 is arranged in the supporting piece 201, the scraping piece 203 is arranged at the bottom of the lifting piece 202, the moving piece 204 is arranged in the supporting piece 201, and the resetting piece 205 is arranged at one side of the supporting piece 201.

The support piece 201 is used for supporting the lifting piece 202, the lifting piece 202 is used for driving the scraping piece 203 to lift and move, the scraping piece 203 is used for scraping lead mud on the surface of the filtering diaphragm 103, the moving piece 204 pushes the filtering diaphragm 103 scraped with the lead mud, and meanwhile the support piece 201 can be pushed to move at the top of the filtering diaphragm 103, so that lead mud on the surface of the next filtering diaphragm 103 is scraped conveniently, and the reset piece 205 is used for driving the support piece 201 to reset.

Specifically, the supporting member 201 includes a supporting block 201a, a supporting shaft 201b, a supporting frame 201c and a friction block 201d, the supporting block 201a is disposed on the top of the machine 101, the supporting shaft 201b is located in the supporting block 201a, the supporting frame 201c is disposed on the surface of the supporting shaft 201b, and the friction block 201d is disposed in the supporting frame 201 c.

The number of the supporting blocks 201a is four, the supporting blocks are fixed on the top of the machine 101 in a fixing mode such as welding and the like and used for supporting the supporting shafts 201b, the number of the supporting shafts 201b is two and is fixed in the supporting blocks 201a, the supporting frames 201c slide on the surfaces of the supporting shafts 201b and are used for supporting and fixing the lifting pieces 202, the number of the friction blocks 201d is four and is fixed in the supporting frames 201c and used for increasing friction force between the supporting frames 201c and the supporting shafts 201 b.

Specifically, the lifting member 202 includes a driving motor 202a and a driving gear 202b, the driving motor 202a is disposed on one side of the supporting frame 201c, and the driving gear 202b is disposed at an output end of the driving motor 202 a.

The driving motor 202a is fixed on one side of the supporting frame 201c, the driving gear 202b is fixed on the output end of the driving motor 202a, and the driving motor 202a is used for providing power for the lifting member 202, so that the scraping member 203 is driven to scrape lead mud on the surface of the filtering diaphragm 103, and the driving gear 202b can be driven to rotate by starting the driving motor 202 a.

Specifically, the lifting member 202 further includes a threaded shaft 202c, a belt pulley 202d, a transmission gear 202e and a limiting frame 202f, the threaded shaft 202c is disposed in the supporting frame 201c, the belt pulley 202d is disposed on the surface of the threaded shaft 202c, the transmission gear 202e is disposed on one side of the belt pulley 202d, and the limiting frame 202f is disposed on the top of the supporting frame 201 c.

The number of the threaded shafts 202c is two, the threaded shafts 202c slide in the supporting frame 201c, the number of the pulleys 202d is two, the pulleys 202d are connected to the surface of the threaded shafts 202c through threaded rotation, the two pulleys 202d are connected through a belt, the transmission gear 202e is fixed to the top of one of the pulleys 202d, the limiting frame 202f is fixed to the top of the supporting frame 201c through fixing modes such as welding, the driving gear 202b is meshed with the transmission gear 202e, the driving motor 202a is started to drive the transmission gear 202e to rotate, and therefore the two pulleys 202d are driven to rotate, and the two threaded shafts 202c are driven to lift simultaneously.

Examples

Referring to fig. 2 and 4-6, a second embodiment of the present invention is based on the previous embodiment.

Specifically, the scraping member 203 includes a fixing plate 203a, a connection plate 203b, and a connection plate 203c, the fixing plate 203a is disposed at an end of the threaded shaft 202c, the connection plate 203b is disposed at a bottom of the fixing plate 203a, and the connection plate 203c is disposed in the connection plate 203 b.

The fixed plate 203a slides in the support frame 201c, and two screw shafts 202c tip all is fixed in fixed plate 203a top, and two locating holes have been seted up in every connecting block 203b to the quantity of connecting block 203b, and the quantity of connecting plate 203c has two, all rotates through the fixed axle and connects in connecting block 203b one side for two connecting plates 203c can mutually separate, and when screw shaft 202c goes up and down to remove, can drive fixed plate 203a and reciprocate, thereby drive connecting plate 203c and remove.

Specifically, the scraping member 203 further includes a scraping strip 203d, a clamping block 203e, and an elastic piece 203f, where the scraping strip 203d is disposed at the bottom of the connecting plate 203c, the clamping block 203e is disposed at the bottom of the supporting frame 201c, and the elastic piece 203f is disposed at the top of the scraping strip 203 d.

The number of the scraping strips 203d is two, the scraping strips 203d are respectively fixed at the bottoms of the two connecting plates 203c, soft materials can be used for enabling the scraping strips 203d to be more attached to the surface of the filtering diaphragm 103, lead mud on the surface of the filtering diaphragm 103 is scraped more cleanly, the number of the clamping blocks 203e is four, the scraping strips 203d are symmetrically distributed and fixed at the bottom of the supporting frame 201c and used for limiting the scraping strips 203d, the two scraping strips 203d are mutually close, the number of the elastic sheets 203f is two, the two ends of the elastic sheets 203f are respectively fixed at the tops of the two scraping strips 203d, when the scraping strips 203d lose the limit of the clamping blocks 203e, the elastic force of the elastic sheets 203f can enable the two scraping strips 203d to be mutually away, and at the moment, the scraping strips 203d are just located on one side of the top of the filtering diaphragm 103, so that the scraping strips 203d are attached to one side of the filtering diaphragm 103, and lead mud on the surface of the filtering diaphragm 103 is completely scraped.

Examples

Referring to fig. 1 to 6, a third embodiment of the present invention is based on the first two embodiments.

Specifically, the moving member 204 includes a deflector 204a and a fixed shaft 204b, the deflector 204a is disposed in the supporting frame 201c, and the fixed shaft 204b is located at one side of the deflector 204 a.

The number of the fixed shafts 204b is two, and the fixed shafts are respectively fixed on two sides of the deflection plate 204a, so that the deflection plate 204a can rotate in the supporting frame 201c to support the moving member 204, and the moving member 204 can be driven to push the fixed block 104 to move through the rotation of the deflection plate 204a, so that the fixed block 104 drives the filter membrane 103 after the lead mud is scraped to move, and the lead mud on the surface of the next filter membrane 103 is scraped conveniently.

Specifically, the moving member 204 further includes a pressing plate 204c and a weight block 204d, the pressing plate 204c is disposed on one side of the deflection plate 204a, and the weight block 204d is located at an end of the pressing plate 204 c.

The pressing plate 204c is fixed on one side of the deflection plate 204a, when the fixing plate 203a moves upwards under the driving of the threaded shaft 202c, the fixing plate 203a pushes the pressing plate 204c to move upwards, so as to drive the deflection plate 204a to rotate, and when the fixing plate 203a moves downwards under the driving of the threaded shaft 202c, the pressing plate 204c moves downwards under the driving of the weight 204d, so as to drive the deflection plate 204a to rotate reversely.

Specifically, the moving member 204 further includes a connecting shaft 204e, a pulling plate 204f, a limiting block 204g, a pull rod 204h, and a spring 204i, where the connecting shaft 204e is disposed in the deflecting plate 204a, the pulling plate 204f is located on the surface of the connecting shaft 204e, the limiting block 204g is disposed on the surface of the deflecting plate 204a, the pull rod 204h is located on the surface of the pulling plate 204f, and the spring 204i is disposed on one side of the pull rod 204 h.

The connecting shaft 204e is rotatably connected in the deflection plate 204a, the pulling plate 204f is fixed on the surface of the connecting shaft 204e and is used for stirring the fixed block 104 to move, so that the filtering diaphragm 103 for scraping lead mud moves, a plurality of limiting blocks 204g are arranged on the surface of the deflection plate 204a and are used for limiting the pulling plate 204f, so that the pulling plate 204f is supported to drive the fixed block 104 to move, a plurality of pulling rods 204h are arranged on the surface of the pulling plate 204f and are used for driving the pulling plate 204f to deflect, meanwhile, the pulling rods 204h can balance the weight of the pulling plate 204f, the pulling rods 204h and the gravity center of the pulling plate 204f fall on the connecting shaft 204e, the pulling plate 204f is driven to move by a negative weight 204d, two springs 204i are respectively fixed on one side of the pulling rods 204h and one side of the deflection plate 204a, so that the pulling plate 204f moves to one side of the limiting blocks 204g, one side of the pulling plate 204f is used for stirring the fixed block 104, the other side of the pulling plate 204c is the arc-shaped, and when the supporting frame 201c is reset, the pulling plate 201c is reset, and the supporting frame 201c is not reset, and the moving on one side of the arc-shaped supporting frame 201c is not affected.

When the fixed plate 203a moves downwards, the weight block 204d drives the pressing plate 204c to move downwards under the action of gravity, so that the pressing plate 204c drives the deflection plate 204a to rotate, the deflection plate 204a drives the shifting plate 204f to move, one side of the shifting plate 204f is contacted with the fixed block 104, under the action of gravity of the weight block 204d, the shifting plate 204f is far away from the limiting block 204g, meanwhile, the spring 204i is stretched, the shifting plate 204f slides over from the top of the fixed block 104, and when the shifting plate 204f moves to one side of the fixed block 104, the shifting plate 204f is pulled to the limiting block 204g under the action of the pulling force of the spring 204i, so that the shifting plate 204f is positioned on the side of the fixed block 104 on the top of the filter membrane 103, which is not scraped with lead mud.

When the fixing plate 203a moves upwards, the fixing plate 203a pushes the pressing plate 204c to move upwards, so that the pressing plate 204c drives the deflection plate 204a to rotate, the deflection plate 204a drives the shifting plate 204f to move through the limiting block 204g, and the shifting plate 204f moves the filtering diaphragm 103 after scraping lead mud through shifting the fixing block 104, so that the filtering diaphragm 103 is moved to one side after scraping lead mud.

Specifically, the reset element 205 includes a support rod 205a, an inductor 205b, a reset motor 205c and a rotating gear 205d, the support rod 205a is disposed on the top of the machine 101, the inductor 205b is disposed in the support rod 205a, the reset motor 205c is disposed on one side of the support frame 201c, and the rotating gear 205d is disposed on the surface of the output end of the reset motor 205 c.

The supporting rod 205a is fixed on the top of the machine 101 through fixing modes such as welding and is used for supporting and fixing the inductor 205b, the inductor 205b is fixed in the supporting rod 205a through fixing modes such as bolts and is used for sensing the position of the reset motor 205c, the reset motor 205c is fixed on one side of the supporting frame 201c, the reset motor 205c is a double-shaft motor, the number of the rotating gears 205d is two and is respectively fixed on two output ends of the reset motor 205c, tooth grooves are formed in the surface of the supporting shaft 201b, the rotating gears 205d are meshed with the tooth grooves in the surface of the supporting shaft 201b, when the reset motor 205c moves to one side of the inductor 205b, the inductor 205b sends out signals to enable the reset motor 205c to drive the rotating gears 205d to rotate, so that the supporting frame 201c is far away from one side of the inductor 205b, the supporting frame 201c resets, and lead mud on the surface of the filtering diaphragm 103 is scraped after the next diaphragm filter press filters lead-acid solution.

When in use, the membrane filter press filters the lead-acid solution.

When the lead mud on the surface of the filtering diaphragm 103 needs to be scraped, the diaphragm filter press drives the hydraulic plate 102 to be far away from the filtering diaphragm 103 by a distance equal to the thickness of the filtering diaphragm 103, at this time, the supporting frame 201c is positioned above a gap between the hydraulic plate 102 and the filtering diaphragm 103, the driving motor 202a is started to drive the driving gear 202b to drive the transmission gear 202e to rotate, thereby driving the two pulleys 202d to rotate simultaneously, the pulleys 202d drive the two threaded shafts 202c to descend through the threads on the inner walls of the pulleys 202d, so as to drive the fixing plate 203a to move downwards, when the fixing plate 203a moves downwards, the pressing plate 204c loses the support of the fixing plate 203a, moves downwards under the drive of the loading block 204d, so as to drive the shifting plate 204f to move through the deflection plate 204a, so that the shifting plate 204f slides on the top of the fixing block 104 on the filtering diaphragm 103 without scraping the lead mud, when the pulling plate 204f slides to one side of the fixed block 104, under the action of the pull force of the spring 204i, the pulling plate 204f moves to the limiting block 204g and falls on one side of the fixed block 104, the fixed block 104 can be pulled to move, in the process, the position of the supporting frame 201c is fixed through the friction force between the friction block 201d and the supporting shaft 201b, when the fixed plate 203a moves out of the supporting frame 201c, the scraping strip 203d loses the limit of the clamping block 203e, under the action of the elastic force of the elastic piece 203f, the two scraping strips 203d are separated from each other, so that the scraping strip 203d is attached to the surface of the filtering diaphragm 103, the scraping strip 203d is driven to scrape lead mud on the surface of the filtering diaphragm 103 through the downward movement of the threaded shaft 202c, and the broken line part in fig. 6 indicates the moving directions of the fixed plate 203a, the loading block 204d and the pulling plate 204 f.

When the lead mud on the surface of the filter membrane 103 is scraped, the driving motor 202a reversely rotates, so that the two threaded shafts 202c move upwards, at the moment, the connecting plates 203c are driven by the fixing plate 203a to be retracted into the supporting frame 201c, at the moment, the two connecting plates 203c are mutually close, the two scraping strips 203d are driven to be mutually close, so that the scraping strips 203d compress the elastic sheet 203f, the fixing plate 203a pushes the pressing plate 204c when the fixing plate 203a ascends, the pressing plate 204c moves upwards, the pressing plate 204c drives the deflection plate 204a to rotate, the deflection plate 204a drives the pulling plate 204f to move through the limiting effect of the limiting block 204g on the pulling plate 204f, the pulling plate 204f drives the fixing block 104 to move, and therefore the fixing block 104 drives the filter membrane 103 to move to the side of the hydraulic plate 102, the friction force of the friction block 201d on the supporting shaft 201b is larger than the friction force between the filter membrane 103 and the machine table 101, after the filter membrane 103 moves to the side of the hydraulic plate 102, the supporting frame 201c is pushed by the pulling plate 204f to slide through the pulling plate 204f, the lead membrane 103 c slides to the side of the filter membrane 201c, and the filter membrane is further slid to the side of the filter membrane 203 d.

It should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered in the scope of the claims of the present invention.

Claims (10)

1. A lead mud recovery device of a lead storage battery is characterized in that: comprising the steps of (a) a step of,

the compression assembly (100) comprises a machine table (101), a hydraulic plate (102), a filtering diaphragm (103) and a fixed block (104), wherein the hydraulic plate (102) is arranged in the machine table (101), the filtering diaphragm (103) is positioned in the machine table (101), and the fixed block (104) is arranged at the top of the filtering diaphragm (103); the method comprises the steps of,

strike off subassembly (200), set up in board (101) top, including support piece (201), lifting unit (202), strike off piece (203), remove piece (204) and reset piece (205), support piece (201) set up in board (101) top, lifting unit (202) are located in support piece (201), strike off piece (203) set up in lifting unit (202) bottom, remove piece (204) are located in support piece (201), reset piece (205) set up in support piece (201) one side.

2. The lead slime recovery device for lead storage batteries as claimed in claim 1, wherein: the support piece (201) comprises a support block (201 a), a support shaft (201 b), a support frame (201 c) and a friction block (201 d), wherein the support block (201 a) is arranged at the top of the machine table (101), the support shaft (201 b) is positioned in the support block (201 a), the support frame (201 c) is arranged on the surface of the support shaft (201 b), and the friction block (201 d) is arranged in the support frame (201 c).

3. The lead slime recovery device for lead storage batteries as claimed in claim 2, wherein: the lifting piece (202) comprises a driving motor (202 a) and a driving gear (202 b), wherein the driving motor (202 a) is arranged on one side of the supporting frame (201 c), and the driving gear (202 b) is positioned at the output end of the driving motor (202 a).

4. A lead-acid battery lead-mud recovery device as set forth in claim 3, wherein: the lifting piece (202) further comprises a threaded shaft (202 c), a belt pulley (202 d), a transmission gear (202 e) and a limiting frame (202 f), wherein the threaded shaft (202 c) is arranged in the supporting frame (201 c), the belt pulley (202 d) is located on the surface of the threaded shaft (202 c), the transmission gear (202 e) is arranged on one side of the belt pulley (202 d), and the limiting frame (202 f) is located at the top of the supporting frame (201 c).

5. The lead slime recovery device for lead storage batteries as claimed in claim 4, wherein: the scraping piece (203) comprises a fixed plate (203 a), a connecting block (203 b) and a connecting plate (203 c), wherein the fixed plate (203 a) is arranged at the end part of the threaded shaft (202 c), the connecting block (203 b) is positioned at the bottom of the fixed plate (203 a), and the connecting plate (203 c) is arranged in the connecting block (203 b).

6. The lead slime recovery device for lead storage batteries as claimed in claim 5, wherein: the scraping piece (203) further comprises a scraping strip (203 d), a clamping block (203 e) and an elastic piece (203 f), wherein the scraping strip (203 d) is arranged at the bottom of the connecting plate (203 c), the clamping block (203 e) is located at the bottom of the supporting frame (201 c), and the elastic piece (203 f) is arranged at the top of the scraping strip (203 d).

7. The lead slime recovery device for lead storage batteries as claimed in claim 5 or 6, wherein: the moving part (204) comprises a deflection plate (204 a) and a fixed shaft (204 b), the deflection plate (204 a) is arranged in the supporting frame (201 c), and the fixed shaft (204 b) is positioned on one side of the deflection plate (204 a).

8. The lead slime recovery device for lead storage batteries as claimed in claim 7, wherein: the moving part (204) further comprises a pressing plate (204 c) and a loading block (204 d), wherein the pressing plate (204 c) is arranged on one side of the deflection plate (204 a), and the loading block (204 d) is located at the end part of the pressing plate (204 c).

9. The lead slime recovery device for lead storage batteries as claimed in claim 8, wherein: the movable part (204) further comprises a connecting shaft (204 e), a pulling plate (204 f), a limiting block (204 g), a pull rod (204 h) and a spring (204 i), wherein the connecting shaft (204 e) is arranged in the deflection plate (204 a), the pulling plate (204 f) is arranged on the surface of the connecting shaft (204 e), the limiting block (204 g) is arranged on the surface of the deflection plate (204 a), the pull rod (204 h) is arranged on the surface of the pulling plate (204 f), and the spring (204 i) is arranged on one side of the pull rod (204 h).

10. The lead-acid battery lead-mud recovery device according to claim 8 or 9, characterized in that: the reset piece (205) comprises a support rod (205 a), an inductor (205 b), a reset motor (205 c) and a rotating gear (205 d), wherein the support rod (205 a) is arranged at the top of the machine table (101), the inductor (205 b) is positioned in the support rod (205 a), the reset motor (205 c) is arranged on one side of the support frame (201 c), and the rotating gear (205 d) is positioned on the surface of the output end of the reset motor (205 c).