CN105428604A - Integrated machine for treating two-sheet lead-acid battery polar plate - Google Patents

Abstract

The present invention relates to an integrated machine for treating a two-sheet lead-acid battery polar plate, and belongs to the technical field of the lead-acid battery manufacturing industry. The integrated machine comprises a machine rack, a sheet conveying mechanism, an upper-and-lower-edge brushing mechanism, a sheet sucking and feeding mechanism, a lug making mechanism, a lug brushing mechanism, a plate separating mechanism, a sheet stacking mechanism, a sorting mechanism, a tab side brushing mechanism, an opposite-to-tab-side brushing mechanism, a polar plate conveying apparatus, a tab recycling mechanism, a waste recycling mechanism I, a waste recycling mechanism II and an electrical control system. The opposite-to-tab-side brushing mechanism comprises a third horizontal guide mechanism and a third actuator mechanism. The third horizontal guide mechanism is fixedly connected to a top plate of the machine rack. The third horizontal guide mechanism is connected to the third actuator mechanism via a double-axis guide rail. The third actuator mechanism is a rolling brush controlled and driven by a cylinder. According to the integrated machine for processing a two-sheet lead-acid battery polar plate, driving performed by a cylinder in the structure is reduced, thereby improving device stability; and moreover, the probability of scrapping of the polar plate during conveying and treatment is greatly reduced.

Description

Two polar plate of lead acid storage battery process all-in-ones in flakes

Technical field

The invention belongs to lead acid accumulator manufacturing technical field, be specifically related to one two polar plate of lead acid storage battery process all-in-one in flakes.

Background technology

In lead-acid storage battery production process, in order to the battery quality kept, coated pole plate is after overcuring drying, need by cream more than plate peripheries and deburred clean, and technique lug is removed, brushed off by lead plaster on lug, expose the lug of light, this process is referred to as pole plate process simultaneously.

In prior art, energy automation completes the machine of this pole plate processing procedure, comprise the name being both the applicant's application to be called: " storage battery and semi-automatic brush Er Qieer brush frame machine ", patent of invention number is the Chinese invention patent of 201310008960.8, name is called: " accumulator plate brushes Er Qieer brush frame machine automatically ", the patent No. is the Chinese invention patent of 201320012523.9.The flow-line equipment that this device is connected by plate feeding device, pole plate conveying device, ear-brushing device, chamfering device, transition apparatus, lamination device, collating unit, brush frame device and catcher order, achieves pole plate treatment process from semi-hand to the transformation of automation.Its main production process is: monolithic pole plate is first through brush ear, cut through transition apparatus transition after ear process, the pole plate collecting some by lamination device is formed and collects plate and fold, then is arranged by collating unit, then by brush frame device brush circumferential side frame, last catcher takes up.

But in actual applications, because pole plate is collected in formation pole process cannot accurately locate via lamination device, so in follow-up collating unit arrangement process, in brush frame device brush circumferential side frame process, the easy bending of pole plate is scrapped.Meanwhile, this device have employed a lot of air cylinder driven, complex structure; And the lead dust produced in production process easily deposits in the cylinder, so equipment fault produces also frequent.

Summary of the invention

Object of the present invention is exactly the defect for prior art, provides one two polar plate of lead acid storage battery process all-in-one in flakes.

The technical solution used in the present invention is: comprise frame, also comprises feeding mechanism, brushes following mechanism, Xi Pianshangpian mechanism, cuts ear mechanism, tag brushing machine structure, board separator structure, stacking mechanism, dressing mechanism, brush lug limit mechanism, brush lug edge aligning mechanism, pole plate conveying device, lug recovering mechanism, Waste recovery mechanism 1, Waste recovery mechanism II and electrical apparatus control system; Described feeding mechanism, brush following mechanism, Xi Pian mechanism, cut ear mechanism, tag brushing machine structure, board separator structure, stacking mechanism, dressing mechanism, brush lug limit mechanism, brush lug edge aligning mechanism be connected sequentially, is separately fixed on installation frame; Described electrical apparatus control system connects feeding mechanism respectively, brushes following mechanism, Xi Pianshangpian mechanism, cut ear mechanism, tag brushing machine structure, board separator structure, stacking mechanism, dressing mechanism, brush lug limit mechanism, brush lug edge aligning mechanism, pole plate conveying device, lug recovering mechanism, Waste recovery mechanism 1, Waste recovery mechanism II; Described brush lug edge aligning mechanism comprises the 3rd horizontally-guided mechanism, the 3rd actuator; Described 3rd horizontally-guided mechanism is fixedly connected with frame top board; Described 3rd horizontally-guided mechanism is connected with the 3rd actuator by Double-axis guide rail; Described 3rd actuator is the round brush that cylinder controls to drive.

Preferred structure further, described pole plate conveying device comprises the first, second, third, fourth, the 5th pole plate transportation section with sequencing, is arranged in described frame respectively; Described first pole plate transportation section is connected by described Xi Pianshangpian mechanism with the second pole plate transportation section, described second pole plate transportation section and tri-electrode transportation section are by flying roller and stacking mechanism is connected, described tri-electrode transportation section is connected with the turning device of quadripolar plate transportation section by dressing mechanism, and described quadripolar plate transportation section contacts with the 5th pole plate transportation section and is connected.

Described first, second, third, fourth pole plate transportation section is sprocket chain strip transmission mechanism, and described 5th pole plate transportation section is roller conveyor structure.

Describedly brush following Plant arrangement in the first conveyor surface top and bottom, pole plate transportation section; Describedly cut ear mechanism, tag brushing machine structure, board separator structure be disposed in order in the second side, pole plate transportation section, wherein cut ear mechanism, tag brushing machine structure is symmetrically arranged in the second both sides, pole plate transportation section respectively, board separator structure is arranged in the second pole plate conveying left side; Described stacking mechanism, dressing mechanism are successively arranged on described tri-electrode transportation section, and wherein said dressing mechanism is symmetrically arranged in both sides, tri-electrode transportation section; Described brush lug limit mechanism is symmetrically arranged in both sides, described quadripolar plate transportation section, and described brush lug edge aligning mechanism is arranged in above described quadripolar plate transportation section; 5th pole plate transportation section is as slice receiving mechanism of slice.

Preferred structure further, described first pole plate transportation section, the second pole plate transportation section are two groups of sprocket chain strip transmission mechanisms of symmetrical distribution, wherein the one group of sprocket chain strip transmission mechanism in right side is driven by the first driving mechanisms control, and one group, left side sprocket chain strip transmission mechanism is driven by the second driving mechanisms control; Described Xi Pianshangpian mechanism, the second pole plate transportation section are all driven by the 3rd driving mechanisms control; Described tri-electrode transportation section is driven by four-wheel drive mechanism controls; Described quadripolar plate transportation section is driven by the 5th driving mechanisms control; Described 5th pole plate transportation section is unpowered driving.

Preferred structure further, described first driving mechanism and the second driving mechanism are the motor of same model, are symmetrically arranged in frame.

Preferred structure further, described stacking mechanism adopts electricity Gang mechanism to be separated and neat being stacked on fishplate bar by two panels pole plate.

Further preferred structure, described tri-electrode transportation section comprises the right and left chain horizontal feed, and chain horizontal feed angle is 2 degree, by separate two in flakes pole plate separate further.

Preferred structure further, described dressing mechanism comprises the first driving cylinder mechanism and second being individually fixed in frame both sides and drives cylinder mechanism; Described first drives the drive end of cylinder mechanism and the first catch to fix; Described second drives the drive end of cylinder mechanism and the second catch to fix; Described first catch and the second catch are oppositely arranged.

In such scheme, described first drives cylinder mechanism and second to drive cylinder mechanism drive end to stretch out, be adjusted to the width range between the first catch, the second catch and middle catch position, arrange stacked pole plate, and the spacing on two folded pole plate lug opposites and next station brush diameter match.

Preferred structure, arranges by turning device between described first catch and the second catch further, and described upset connects servomotor.By Serve Motor Control angle, stacked pole plate is gone to vertical placement from horizontal direction.

Further preferred structure, described brush lug limit mechanism comprise be individually fixed in frame both sides the first horizontal adjusting mechanism, the first vertical guiding mechanism, the first actuator and the second horizontal adjusting mechanism, the second vertical guiding mechanism, the second actuator; Described first horizontal adjusting mechanism comprises the first horizontally-guided device and the first thread screw level(l)ing device, first horizontally-guided device is fixedly connected with frame, and the first horizontally-guided device is connected with the first vertical guiding mechanism and the first actuator by the first base plate; Described first vertical guiding mechanism is slidably connected by the first slide block and the first actuator, and described first actuator is the bowl brush that cylinder controls to drive; Described second horizontal adjusting mechanism comprises the second horizontally-guided device and the second thread screw level(l)ing device, second horizontally-guided device is fixedly connected with frame, and the second horizontally-guided device is connected with the second vertical guiding mechanism and the second actuator by the second base plate; Described second vertical guiding mechanism is slidably connected by the second slide block and the second actuator, and described second actuator is the bowl brush that cylinder controls to drive.

Preferred structure further, described brush lug limit mechanism is also connected with angle regulator.

In such scheme: brush lug mechanism can regulate front and back, and left and right adjusting, can also rotate adjustment, and bowl brush is controlled by cylinder, moves up and down brush frame.

Preferred structure further, described lug recovering mechanism is arranged in be cut below ear mechanism, and described Waste recovery mechanism I and Waste recovery mechanism II are disposed in order immediately below described pole plate conveying device; Described lug recovering mechanism is driven by the 7th driving mechanisms control, and described Waste recovery mechanism I is driven by the 3rd driving mechanism, and described Waste recovery mechanism II is driven by the 6th driving mechanisms control.

The working method of pole plate process all-in-one of the present invention is the remaining cream burr first focusing on pole upper and lower side frame, again to two in flakes pole plate cut ear, brush ear, point plate, pole plate limit after the removal of dataller's skill ear, stacking mechanism separately stacks in flakes by two, and the horizontal feed chain of process in 2 ° of angles further two folded pole plates separates and be transported to dressing mechanism, slice receiving mechanism of slice.This greatly simplifies the mechanical structure of existing pole plate treatment facility, decrease the air cylinder driven in structure, improve stabilization of equipment performance; Greatly reduce simultaneously pole plate transmission and processing procedure in scrap probability.In addition, the present invention has also set up Waste recovery mechanism, dust centralized collection mechanism, greatly reduces the lead dust in production process and waste entrainment.

Accompanying drawing explanation

Fig. 1 is the right view of pole plate process all-in-one of the present invention;

Fig. 2 is the vertical view of pole plate process all-in-one of the present invention;

Fig. 3 is dressing mechanism axonometric drawing;

Fig. 4, Fig. 5 are brush lug limit mechanism shaft mappings;

Fig. 6 is brush lug edge aligning mechanism axonometric drawing.

In figure, 1-frame, 2-feeding mechanism, 3-brush following mechanism, 4-Xi Pianshangpian mechanism, 5-cut ear mechanism, 6-tag brushing machine structure, 7-board separator structure, 8-stacking mechanism, 9-dressing mechanism, 10-brush lug limit mechanism, 11-brush lug edge aligning mechanism, 12-slice receiving mechanism of slice, 13-dust centralized collection mechanism, 14-lug recovering mechanism, 15-Waste recovery mechanism II, 16-Waste recovery mechanism I, 17-electric control system.

Embodiment

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail, is convenient to be well understood to the present invention, but they do not form restriction to the present invention.

As Fig. 1, as shown in Figure 2, the present invention includes frame 1, feeding mechanism 2, brush following mechanism 3, Xi Pianshangpian mechanism 4, cut ear mechanism 5, tag brushing machine structure 6, board separator structure 7, stacking mechanism 8, dressing mechanism 9, brush lug limit mechanism 10, brush lug edge aligning mechanism 11 and pole plate conveying device are connected sequentially, be fixedly mounted in frame 1 respectively, electric control system 17 connects feeding mechanism 2 respectively, brush following mechanism 3, Xi Pianshangpian mechanism 4, cut ear mechanism 5, tag brushing machine structure 6, board separator structure 7, stacking mechanism 8, dressing mechanism 9, brush lug limit mechanism 10, brush lug edge aligning mechanism 11 and pole plate conveying device.

Pole plate conveying device comprises the first pole plate transportation section A1, the second pole plate transportation section A2, tri-electrode transportation section A3, quadripolar plate transportation section A4, slice receiving mechanism of slice 12, the dust centralized collection mechanism 13 with sequencing and is installed in frame 1; First pole plate transportation section A1 is connected by Xi Pianshangpian mechanism 4 with the second pole plate transportation section A2, second pole plate transportation section A2 and tri-electrode transportation section A3 are by flying roller and stacking mechanism 8 is connected, tri-electrode transportation section A3 is connected with turning device 905 by dressing mechanism 9 with quadripolar plate transportation section A4, and quadripolar plate transportation section A4 contacts with slice receiving mechanism of slice 12 and connects; First, second, third, fourth pole plate transportation section is sprocket chain strip transmission mechanism, and the 5th pole plate transportation section is no-power drum conveying mechanism; Brush following mechanism 3 and be arranged in the first A1 conveyor surface top and bottom, pole plate transportation section, cut ear mechanism 5, tag brushing machine structure 6 order is symmetrically arranged in the second A2 both sides, pole plate transportation section, board separator structure 7 is arranged on the left of the second pole plate transportation section A2; Stacking mechanism 8, dressing mechanism 9 are successively arranged on described tri-electrode transportation section A3, wherein stacking mechanism 8 is arranged in the 3rd by first section of A3, dressing mechanism 9 is symmetrically arranged in A3 tail end both sides, tri-electrode transportation section, brush lug limit mechanism 10 is symmetrically arranged in A4 both sides, quadripolar plate transportation section, brush lug edge aligning mechanism 11 is arranged in A4 top, quadripolar plate transportation section, and slice receiving mechanism of slice 12 is the 5th pole plate transportation section.

First pole plate transportation section A1, the second pole plate transportation section A2 are two groups of sprocket chain strip transmission mechanisms of symmetrical distribution, wherein the one group of sprocket chain strip transmission mechanism in right side is driven by the first driving mechanisms control, and one group, left side sprocket chain strip transmission mechanism is driven by the second driving mechanisms control; Xi Pianshangpian mechanism 4, second pole plate transportation section A2 is all driven by the 3rd driving mechanisms control; Tri-electrode transportation section A3 is driven by four-wheel drive mechanism controls; Quadripolar plate transportation section A4 is driven by the 5th driving mechanisms control; 5th pole plate transportation section is unpowered driving.

First driving mechanism and the second driving mechanism are the motor of same model, are symmetrically arranged in frame.

As shown in Figure 3, dressing mechanism 9 comprises the first driving cylinder mechanism 901 and the second driving cylinder mechanism 902 being individually fixed in frame both sides; First drives the drive end of cylinder mechanism 901 and the first catch 903 to fix; Second drives the drive end of cylinder mechanism 902 and the second catch 904 to fix; First catch 903 and the second catch 904 are oppositely arranged.

Be furnished with turning device 905 between first catch 903 and the second catch 904, turning device 905 connects servomotor.

As shown in Figure 4, Figure 5, brush lug limit mechanism 10 comprise be individually fixed in frame both sides the first horizontal adjusting mechanism, the first vertical guiding mechanism 1013, first actuator 1014 and the second horizontal adjusting mechanism, the second vertical guiding mechanism 1023, second actuator 1024; First horizontal adjusting mechanism comprises the first horizontally-guided device 1011 and the first thread screw level(l)ing device 1012, first horizontally-guided device 1011 is fixedly connected with frame 1, and the first horizontally-guided device 1011 is connected with the first vertical guiding mechanism 1013 and the first actuator 1014 by the first base plate 1017; First vertical guiding mechanism 1013 is slidably connected by the first slide block 1015 and the first actuator 1014, the bowl brush that the first actuator 1014 drives for cylinder control; Second horizontal adjusting mechanism comprises the second horizontally-guided device 1021 and the second thread screw level(l)ing device 1022, second horizontally-guided device 1021 is fixedly connected with frame 1, and the second horizontally-guided device 1021 is connected with the second vertical guiding mechanism 1023 and the second actuator 1024 by the second base plate 1027; Second vertical guiding mechanism 1023 is slidably connected by the second slide block 1025 and the second actuator 1024, the bowl brush that the second actuator 1024 drives for cylinder control.

Brush lug limit mechanism 10 is also connected with angle regulator 1016 and 1026.

As shown in Figure 6, brush lug edge aligning mechanism 11 comprises the 3rd horizontally-guided mechanism 1101, the 3rd actuator 1102; Described 3rd horizontally-guided mechanism 1101 is fixedly connected with frame 1 top board; Described 3rd horizontally-guided mechanism 1101 is connected with the 3rd actuator 1202 by Double-axis guide rail 1103; The round brush that described 3rd actuator 1102 drives for cylinder control.

The present invention also comprises dust centralized recovery mechanism 13, lug recovering mechanism 14, Waste recovery mechanism I 16 and Waste recovery mechanism II 15.Described lug recovering mechanism 14 is arranged in be cut below ear mechanism 5, and described Waste recovery mechanism I 16 and Waste recovery mechanism II 15 are disposed in order immediately below described pole plate conveying device; Described lug recovering mechanism 14 is driven by the 7th driving mechanisms control, and described Waste recovery mechanism I is driven by the 3rd driving mechanism, and described Waste recovery mechanism II is driven by the 6th driving mechanisms control.

Streamline pole plate process all-in-one of the present invention automatically cooperates under the control of electric control system 17, the brush frame completing battery pole plates cuts ear brush ear operation, master operation comprises: vertically place the pole stacked, by the lug of both sides, technique lug hangs on the first pole plate transportation section A1, enter pole plate process integral machine, brushing pole plate upper and lower side frame, pole is transported to Xi Pianshangpian mechanism 4 by the first pole plate transportation section A1, Xi Pianshangpian mechanism 4 draws two pole plates in flakes from pole, be placed into the second pole plate transportation section A2, what the second A2 both sides, pole plate transportation section was arranged cuts ear mechanism 5, tag brushing machine structure 6 carries out excision technique lug, brushing lug, after brushing the treatment process such as technique lug side burr, board separator structure 7 by two in flakes pole plate be split up into two panels monolithic, two monolithics make pole plate level build up two folded (number of laminations is adjustable) by film flying mechanism and stacking mechanism 8, two folded pole plates are transported to dressing mechanism 9 by tri-electrode transportation section A3, dressing mechanism 9 turns over and turn 90 degrees arrangement, turn over again and turn 90 degrees to quadripolar plate transportation section A4, brush lug limit and lug edge aligning mechanism 10, 11 are arranged in A4 both sides, quadripolar plate transportation section and top respectively, quadripolar plate transportation section A4 contacts with the 5th pole plate transportation section and connects, 5th pole plate transportation section is as taking up, unpowered transmission.Meanwhile, enclosed air exhausting environmental protection is arranged, and lug recovering mechanism 14, Waste recovery mechanism I 16 and Waste recovery mechanism II 15 are started working, and runs through whole brush frame and cut ear brush ear operation.Compared with prior art, have structure and simplify rationally, production efficiency is higher in the present invention, and stability is better, the feature of environmental protection more high-quality.

It should be noted last that, above embodiment is only in order to illustrate technical scheme of the present invention and unrestricted, although with reference to preferred embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that, can modify to technical scheme of the present invention or equivalent replacement, and not departing from the spirit and scope of technical solution of the present invention, it all should be encompassed in the middle of right of the present invention.

Claims (10)

1. a polar plate of lead acid storage battery process all-in-one in flakes, comprise frame, it is characterized in that: also comprise feeding mechanism, brush following mechanism, Xi Pianshangpian mechanism, cut ear mechanism, tag brushing machine structure, board separator structure, stacking mechanism, dressing mechanism, brush lug limit mechanism, brush lug edge aligning mechanism, pole plate conveying device, lug recovering mechanism, Waste recovery mechanism 1, Waste recovery mechanism II and electrical apparatus control system; Described feeding mechanism, brush following mechanism, Xi Pian mechanism, cut ear mechanism, tag brushing machine structure, board separator structure, stacking mechanism, dressing mechanism, brush lug limit mechanism, brush lug edge aligning mechanism be connected sequentially, is separately fixed on installation frame; Described electrical apparatus control system connects feeding mechanism respectively, brushes following mechanism, Xi Pianshangpian mechanism, cut ear mechanism, tag brushing machine structure, board separator structure, stacking mechanism, dressing mechanism, brush lug limit mechanism, brush lug edge aligning mechanism, pole plate conveying device, lug recovering mechanism, Waste recovery mechanism 1, Waste recovery mechanism II; Described brush lug edge aligning mechanism comprises the 3rd horizontally-guided mechanism, the 3rd actuator; Described 3rd horizontally-guided mechanism is fixedly connected with frame top board; Described 3rd horizontally-guided mechanism is connected with the 3rd actuator by Double-axis guide rail; Described 3rd actuator is the round brush that cylinder controls to drive.

2. according to claim 1 two polar plate of lead acid storage battery process all-in-ones in flakes, it is characterized in that: described pole plate conveying device comprises the first, second, third, fourth, the 5th pole plate transportation section with sequencing, is arranged in described frame respectively; Described first pole plate transportation section is connected by described Xi Pianshangpian mechanism with the second pole plate transportation section, described second pole plate transportation section and tri-electrode transportation section are by flying roller and stacking mechanism is connected, described tri-electrode transportation section is connected with the turning device of quadripolar plate transportation section by dressing mechanism, and described quadripolar plate transportation section contacts with the 5th pole plate transportation section and is connected;

Described first, second, third, fourth pole plate transportation section is sprocket chain strip transmission mechanism, and described 5th pole plate transportation section is roller conveyor structure;

Describedly brush following Plant arrangement in the first conveyor surface top and bottom, pole plate transportation section; Describedly cut ear mechanism, tag brushing machine structure, board separator structure be disposed in order in the second side, pole plate transportation section, wherein cut ear mechanism, tag brushing machine structure is symmetrically arranged in the second both sides, pole plate transportation section respectively, board separator structure is arranged in the second pole plate conveying left side; Described stacking mechanism, dressing mechanism are successively arranged on described tri-electrode transportation section, and wherein said dressing mechanism is symmetrically arranged in both sides, tri-electrode transportation section; Described brush lug limit mechanism is symmetrically arranged in both sides, described quadripolar plate transportation section, and described brush lug edge aligning mechanism is arranged in above described quadripolar plate transportation section; 5th pole plate transportation section is as slice receiving mechanism of slice.

3. according to claim 2 two polar plate of lead acid storage battery process all-in-ones in flakes, it is characterized in that: described first pole plate transportation section, the second pole plate transportation section are two groups of sprocket chain strip transmission mechanisms of symmetrical distribution, wherein the one group of sprocket chain strip transmission mechanism in right side is driven by the first driving mechanisms control, and one group, left side sprocket chain strip transmission mechanism is driven by the second driving mechanisms control; Described Xi Pianshangpian mechanism, the second pole plate transportation section are all driven by the 3rd driving mechanisms control; Described tri-electrode transportation section is driven by four-wheel drive mechanism controls; Described quadripolar plate transportation section is driven by the 5th driving mechanisms control; Described 5th pole plate transportation section is unpowered driving.

4. according to claim 3 two polar plate of lead acid storage battery process all-in-ones in flakes, is characterized in that: described first driving mechanism and the second driving mechanism are the motor of same model, are symmetrically arranged in frame.

5. according to claim 1 two polar plate of lead acid storage battery process all-in-ones in flakes, is characterized in that: described stacking mechanism adopts electricity Gang mechanism by two panels pole plate separately and neat being stacked on fishplate bar.

6. according to claim 2 two polar plate of lead acid storage battery process all-in-ones in flakes, it is characterized in that: described tri-electrode transportation section comprises the right and left chain horizontal feed, chain horizontal feed angle is 2 degree, by separate two in flakes pole plate separate further.

7. according to claim 1 two polar plate of lead acid storage battery process all-in-ones in flakes, is characterized in that: described dressing mechanism comprises and is individually fixed in first of frame both sides and drives cylinder mechanism and second to drive cylinder mechanism; Described first drives the drive end of cylinder mechanism and the first catch to fix; Described second drives the drive end of cylinder mechanism and the second catch to fix; Described first catch and the second catch are oppositely arranged.

8. according to claim 7 two polar plate of lead acid storage battery process all-in-ones in flakes, is characterized in that: arrange by turning device between described first catch and the second catch, and described turning device connects servomotor.

9. according to claim 1 two polar plate of lead acid storage battery process all-in-ones in flakes, is characterized in that: described brush lug limit mechanism comprise be individually fixed in frame both sides the first horizontal adjusting mechanism, the first vertical guiding mechanism, the first actuator and the second horizontal adjusting mechanism, the second vertical guiding mechanism, the second actuator; Described first horizontal adjusting mechanism comprises the first horizontally-guided device and the first thread screw level(l)ing device, and the first horizontally-guided device is connected with the first vertical guiding mechanism and the first actuator by the first base plate; Described first vertical guiding mechanism is slidably connected by the first slide block and the first actuator, and described first actuator is the bowl brush that cylinder controls to drive; Described second horizontal adjusting mechanism comprises the second horizontally-guided device and the second thread screw level(l)ing device, and the second horizontally-guided device is connected with the second vertical guiding mechanism and the second actuator by the second base plate; Described second vertical guiding mechanism is slidably connected by the second slide block and the second actuator, and described second actuator is the bowl brush that cylinder controls to drive; Described brush lug limit mechanism is also connected with angle regulator.

10. according to claim 1 two polar plate of lead acid storage battery process all-in-ones in flakes, it is characterized in that: described lug recovering mechanism is arranged in be cut below ear mechanism, described Waste recovery mechanism I and Waste recovery mechanism II are disposed in order immediately below described pole plate conveying device; Described lug recovering mechanism is driven by the 7th driving mechanisms control, and described Waste recovery mechanism I is driven by the 3rd driving mechanism, and described Waste recovery mechanism II is driven by the 6th driving mechanisms control.