CN210805909U - Storage battery processing structure - Google Patents

Abstract

The utility model discloses a battery processing structure aims at providing a long service life, maintains easy maintenance, simultaneously from the battery processing structure of taking battery upset function. The novel multifunctional electric brush comprises a case, a first cavity and a second cavity are arranged in the case, a cutting lug assembly and a plurality of brush lug assemblies are arranged in the case, working parts of the cutting lug assembly and the brush lug assemblies are all installed in the first cavity, machine base parts of the cutting lug assembly and the brush lug assemblies are all installed in the second cavity, a fixed plate is connected to the case in a sliding mode, a lifting assembly is arranged below the fixed plate, and the lifting assembly is provided with a feeding assembly, a clamping assembly and a discharging assembly. The utility model has the advantages that: the easily damaged parts in the parts can be prevented from contacting with lead dust, and the service life is greatly prolonged; the maintenance, the maintenance and the replacement of parts of the machine are simple and convenient; no other overturning equipment is needed; cleaning efficiency in cleaning the machine is improved.

Description

Storage battery processing structure

Technical Field

The utility model belongs to the technical field of the relevant technique of battery processing and specifically relates to indicate a battery processing structure.

Background

The trimming process of the pole group pole ear in the manufacturing process of the lead-acid storage battery is an important link, the quality of the trimming directly affects the product quality of the storage battery, and the trimming generally comprises two steps of cutting the pole ear, cutting the pole ear of each pole plate of the pole group into a uniform height, and ensuring the welding quality; and secondly, the lug is brushed to remove burrs, dirt and an oxide layer on the polar plate and the polar lug, so that the welding is convenient.

At present, tab trimming is mainly realized by means of manual processing in China, but production requirements are difficult to meet in fact, the labor intensity of the tab cutting and brushing processes is high, a large amount of dust and lead ash are generated in the tab brushing process, and the health of operators is seriously influenced; moreover, manual ear cutting and ear brushing efficiency is low, so that the whole production period is prolonged, and the cost is increased. In order to improve the working environment and improve the automation of the production of the storage battery, storage battery cutting and brushing integrated machines are also available at home and abroad, and the machines have a plurality of defects during working, for example, when the machine is used for turning over the battery, the machine does not have a battery turning function, and other turning equipment platforms are additionally needed; dust and lead ash generated in the working process of the machine can directly enter vulnerable parts such as a motor, a cylinder, a guide rail and the like in the machine, so that the service life of the machine is greatly reduced; the machine has a complex structure, and the internal parts are various and have high density, which is not beneficial to maintenance, repair and part replacement.

SUMMERY OF THE UTILITY MODEL

The utility model relates to an overcome among the prior art life weak point, maintain the maintenance difficulty and do not possess the not enough of battery upset function, provide a long service life, maintain easy maintenance, from the battery processing structure of taking battery upset function simultaneously.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a battery processing structure, includes quick-witted case, the machine incasement is equipped with cavity one and cavity two, the machine incasement is equipped with surely ear subassembly and a plurality of brush ear subassembly in proper order, surely ear subassembly and brush ear subassembly constitute by frame part and working part, the working part of surely ear subassembly and the working part of brush ear subassembly are all installed in cavity one, the frame part of surely ear subassembly and the frame part of brush ear subassembly are all installed in cavity two, be fixed with the frame on the machine case, the frame is arranged in directly over cavity one, sliding connection has the fixed plate in the frame, the below of fixed plate is equipped with lifting unit, the last frame that is fixed with of lifting unit, be equipped with material loading subassembly, a plurality of clamping component and unloading subassembly in proper order in the frame, material loading subassembly and unloading subassembly all are connected with the frame rotation, the up end of cavity one be provided with the working part assorted standing groove one of surely ear subassembly and with the worker of brush ear subassembly And a second placing groove which is partially matched with the first placing groove and the second placing groove are linearly distributed and are arranged in the same vertical plane with the frame.

A first cavity and a second cavity are arranged in the case, a cutting lug assembly and a plurality of brush lug assemblies are sequentially arranged in the case, one cutting lug and two brush lugs are sequentially used for cutting and brushing, the cutting lug assembly and the brush lug assemblies are respectively composed of a machine base part and a working part, the working part of the cutting lug assembly and the working part of the brush lug assembly are both arranged in the first cavity, the machine base part of the cutting lug assembly and the machine base part of the brush lug assembly are both arranged in the second cavity, the cutting lug assembly and the brush lug assemblies are respectively designed by adopting the machine base part and the working part in an offset manner, so that easily damaged parts such as a motor, a cylinder, a guide rail and the like in the parts can be prevented from contacting with lead dust, the service life is greatly prolonged, the maintenance, the parts are simpler and more convenient to maintain and replace, a frame is fixed on the case and is arranged right above the first cavity, a fixed plate is connected to the frame in, a lifting component is arranged below the fixed plate, a frame is fixed on the lifting component, the frame slides up and down relative to the fixed plate to carry the battery, a feeding component, a plurality of clamping components and a discharging component are sequentially arranged in the frame, the feeding component and the discharging component are rotationally connected with the frame, the frame is provided with five manipulators comprising three clamping components, a feeding component and a discharging component, the feeding component and the discharging component can be overturned for 180 degrees without other overturning equipment, the upper end surface of the cavity I is provided with a placing groove I matched with the working part of the ear cutting component and a placing groove II matched with the working part of the ear brushing component, the battery sequentially passes through the placing groove I and the placing groove II, the ear cutting component performs ear cutting work on the battery placed in the placing groove I, and the ear brushing component performs ear brushing work on the battery placed in the placing groove II, the first placing groove and the second placing groove are distributed linearly and are arranged in the same vertical plane with the frame.

Preferably, the upper end face of the case is provided with a transition groove, the first placing groove and the second placing groove are located on the same straight line, the first placing groove is arranged between the transition groove and the second placing groove, the machine is provided with four stations including the transition groove, the first placing groove and the second placing groove, the loading assembly is used for grabbing a battery to be processed and placing the battery into the transition groove, the first clamping assembly is used for grabbing the battery in the transition groove and placing the battery into the first placing groove, the second clamping assembly is used for grabbing the battery in the first placing groove and placing the battery into the first placing groove, the third clamping assembly is used for grabbing the battery in the first placing groove and placing the battery into the second placing groove, and the unloading assembly is used for grabbing the battery in the second placing groove and placing the battery into the next working procedure.

Preferably, a waste box is installed at the bottom of the case, the waste box is located right below the first cavity and is communicated with the first cavity, a waste receiving drawer is connected to one side face of the waste box in a sliding mode, an air suction opening is formed in the other side face of the waste box, and dust and lead ash generated when the machine brushes the batteries are sucked into the waste receiving drawer under the suction effect of the air suction opening.

Preferably, the machine base part of the lug cutting assembly comprises a lug cutting base plate, the lug cutting base plate is fixed on the bottom surface of the cavity II, a lug cutting cylinder is fixed on the lug cutting base plate, a lug cutting connecting block is fixed on the lug cutting cylinder, a base plate sliding rail I is arranged on the upper end surface of the lug cutting base plate, a connecting block sliding block matched with the base plate sliding rail I is arranged on the lug cutting connecting block, the lug cutting connecting block is in sliding connection with the lug cutting base plate through the matching of the connecting block sliding block and the base plate sliding rail I, the lug cutting connecting block is driven by the lug cutting cylinder to slide on the lug cutting base plate, the battery is cut back and forth, a lug cutting motor is fixed on the lug cutting connecting block and is arranged in the cavity II, and the offset design of the lug cutting assembly can enable vulnerable parts such as the lug cutting motor, the lug cutting.

Preferably, the working part of the lug cutting assembly comprises a first rotating shaft mounting seat, a first lug cutting motor is fixed at one end of the lug cutting connecting block, a first rotating shaft mounting seat is fixed at the other end of the lug cutting connecting block, the offset design of the lug cutting assembly can enable vulnerable parts such as the lug cutting motor, a lug cutting cylinder and a guide rail to be prevented from contacting with lead dust, the service life is greatly prolonged, and the maintenance, the maintenance and the replacement of the parts are simpler and more convenient, the first rotating shaft mounting seat is arranged in the first cavity and positioned at the opening of the first placing groove, the first rotating shaft is rotatably connected to the first rotating shaft mounting seat, a first belt is arranged between the first rotating shaft and the lug cutting motor, the first rotating shaft is in transmission connection with the lug cutting motor through the first belt, the transmission of the belt is stable and noiseless, the first rotating shaft can buffer and absorb vibration, the lug cutting blades are fixed at two ends of the first rotating shaft, the, 20 teeth, 38 pieces in total.

Preferably, the machine base part of the brush ear assembly comprises a brush ear chassis, the brush ear chassis is fixed on the bottom surface of the cavity II, a brush ear cylinder is fixed on the brush ear chassis, a brush ear support is fixed on the brush ear cylinder, a chassis slide rail II is arranged on the upper end surface of the brush ear chassis, a support slide block matched with the chassis slide rail II is arranged on the brush ear support, the brush ear support is in sliding connection with the brush ear chassis through the matching of the support slide block and the chassis slide rail II, the brush ear support is driven by the brush ear cylinder to slide on the brush ear chassis to brush the battery back and forth, the upper end surface of the brush ear support is in threaded connection with a wire rod piece, a brush ear connecting block is fixed on the wire rod piece, the height of the steel wire brush barrel is adjusted by adopting a screw rod, the adjustment of the steel wire brush barrel is greatly facilitated, a brush ear motor is fixed on the bottom surface of the brush ear support, the brush ear motor is arranged in the cavity II, easily damaged parts such as the brush ear cylinder and the guide rail are prevented from contacting with lead dust.

Preferably, the working part of the brush lug assembly comprises a second rotating shaft mounting seat, one end of the brush lug connecting block is fixed on the wire rod piece, the second rotating shaft mounting seat is fixed at the other end of the brush lug connecting block, the brush lug motor can be arranged in the offset design of the brush lug assembly, easily damaged parts such as a brush lug cylinder and a guide rail are prevented from being in contact with lead dust, the service life is greatly prolonged, maintenance is facilitated, and the parts are maintained and replaced more simply and conveniently.

Preferably, a motor is installed on the side face of the rack, the fixed plate is connected with the rack in a sliding mode through the motor, a rack sliding rail is arranged on the upper end face of the rack, a first fixed plate sliding block matched with the rack sliding rail is arranged on the lower end face of the fixed plate, the fixed plate is connected with the rack in a sliding mode through the matching of the first fixed plate sliding block and the rack sliding rail, and the fixed plate moves horizontally relative to the rack under the driving of the motor.

Preferably, the lifting assembly comprises a lifting cylinder, the lifting cylinder is fixed at the central position of the fixed plate, a connecting plate is fixed on the lifting cylinder, the frame is fixed on the lower end face of the connecting plate, the upper end face of the connecting plate is provided with a plurality of U-shaped blocks, the top ends of two side edges of each U-shaped block are respectively fixed on two sides of the connecting plate, the fixed plate is provided with a fixed plate through hole matched with the side edge of each U-shaped block, the side edge of each U-shaped block is arranged in the fixed plate through hole, a U-shaped block slide rail is arranged on the side edge of each U-shaped block, a fixed plate slide block II matched with the U-shaped block slide rail is fixed on the fixed plate, the fixed plate is in, the left and right movement and the up and down movement of the frame are realized through the matching of the motor and the lifting cylinder, so that the carrying work of the battery is carried out.

Preferably, a first partition plate is arranged between the feeding assembly and the clamping assembly, the feeding assembly comprises a first clamping cylinder, the first clamping cylinder is fixed on the first partition plate, a first overturning cylinder is fixed on the first clamping cylinder, a first rotating idler matched with the first overturning cylinder is arranged on the inner side wall of the frame, a feeding clamping plate is fixed on each of the first rotating idler and the first overturning cylinder, when feeding is performed, a battery to be processed is clamped by the first clamping cylinder, then the battery is overturned for 180 degrees by the overturning cylinder in the carrying process, the overturned battery is placed in the transition groove, the clamping assembly comprises two clamping cylinders with the same shape and size, the two clamping cylinders are symmetrically arranged on two sides in the frame respectively, the clamping plates are fixed on the two clamping cylinders, the clamping assemblies are three, the first clamping assembly grabs the battery in the transition groove and places the battery in the placing groove for ear cutting work, a battery in the first placing groove is picked up and placed in the second placing groove by the second clamping assembly to perform first-step ear brushing work, a battery in the first placing groove is picked up and placed in the second placing groove by the third clamping assembly to perform second-step ear brushing work, a partition plate II is arranged between the blanking assembly and the clamping assembly, the blanking assembly comprises a clamping cylinder III, the clamping cylinder III is fixed on the partition plate II, a turning cylinder II is fixed on the clamping cylinder III, a rotary idler wheel II matched with the turning cylinder II is arranged on the inner side wall of the frame, blanking clamping plates are fixed on the rotary idler wheel II and the turning cylinder II, the battery in the second placing groove is clamped by the clamping cylinder III during blanking, then the two batteries are turned over for 180 degrees by the turning cylinder in the carrying process, the battery after turning is placed in the next process, a feeding assembly in the frame, The clamping assembly and the blanking assembly can grab at the same time, and the machining efficiency of the machine is greatly improved.

The utility model has the advantages that: the offset design of the lug cutting assembly and the lug brushing assembly can avoid the contact between easily damaged parts in the parts and lead dust, greatly prolong the service life and simultaneously ensure that the maintenance, the maintenance and the replacement of the parts are simpler and more convenient; the feeding assembly and the discharging assembly can be overturned for 180 degrees under the action of the overturning cylinder without additionally using other overturning equipment; the waste material drawer that connects that adds can concentrate the clearance to dust and lead ash that the machine produced when surely brushing the battery, cleaning efficiency when having improved cleaning machine greatly.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is a left side view of FIG. 1;

FIG. 5 is a schematic view of the construction of the ear cutting assembly;

FIG. 6 is a schematic view of a construction of a brush ear assembly;

FIG. 7 is a schematic view of the structure at the rack of FIG. 1;

FIG. 8 is a schematic view of the structure at the frame of FIG. 7;

fig. 9 is a top view of the frame.

In the figure: 1. the lifting assembly, 2, a fixed plate, 3, a frame, 4, a frame, 5, a case, 6, a waste collecting drawer, 7, a waste box, 8, a motor, 9, a connecting plate, 10, a second placing groove, 11, a first placing groove, 12, a transition groove, 13, a feeding assembly, 14, a clamping assembly, 15, a discharging assembly, 16, an air suction opening, 17, a first cavity, 18, a second cavity, 19, a lug cutting assembly, 20, a lug cutting motor, 21, a first belt, 22, a first rotating shaft mounting seat, 23, a lug cutting blade, 24, a first rotating shaft, 25, a lug cutting connecting block, 26, a first chassis sliding rail, 27, a connecting block sliding block, 28, a lug cutting chassis, 29, a lug cutting air cylinder, 30, a lug brushing assembly, 31, a lug brushing motor, 32, a lug brushing support, 33, a filament rod piece, 34, a second belt, 35, a second rotating shaft mounting seat, 36, a second rotating shaft, 37, a steel wire brushing cylinder, 38, a lug connecting block, 39, a brushing chassis, 40. the automatic feeding device comprises a chassis slide rail II, a bracket slide block 41, a brush lug cylinder 42, a lifting cylinder 43, a lifting cylinder 44, a U-shaped block 45, a fixing plate through hole 46, a U-shaped block slide rail 47, a fixing plate slide block II, a rack slide rail 48, a fixing plate slide block I49, a partition plate I50, a partition plate II 51, a partition plate II 52, a rotary idle wheel II, a blanking clamping plate 53, a turnover cylinder II, a turnover cylinder III, a clamping cylinder III 56, a clamping plate 57, a clamping cylinder II, a clamping cylinder I58, a turnover cylinder I59, a feeding clamping plate 60 and a rotary idle wheel I61.

Detailed Description

The invention is further described with reference to the accompanying drawings and the detailed description.

In the embodiment shown in fig. 1 and 4, a storage battery processing structure includes a case 5, a first cavity 17 and a second cavity 18 are provided in the case 5, a cutting lug assembly 19 and a plurality of brush lug assemblies 30 are sequentially provided in the case 5, each of the cutting lug assembly 19 and the brush lug assemblies 30 is composed of a base part and a working part, the working parts of the cutting lug assembly 19 and the brush lug assemblies 30 are both installed in the first cavity 17, and the base part of the cutting lug assembly 19 and the base part of the brush lug assemblies 30 are both installed in the second cavity 18.

As shown in fig. 1 and 3, a rack 3 is fixed on a case 5, the rack 3 is arranged right above a cavity one 17, a fixed plate 2 is connected on the rack 3 in a sliding manner, a lifting assembly 1 is arranged below the fixed plate 2, a frame 4 is fixed on the lifting assembly 1, a feeding assembly 13, a plurality of clamping assemblies 14 and a discharging assembly 15 are sequentially arranged in the frame 4, the feeding assembly 13 and the discharging assembly 15 are rotatably connected with the frame 4, as shown in fig. 2, a first placing groove 11 matched with a working part of a cutting lug assembly 19 and a second placing groove 10 matched with a working part of a brush lug assembly 30 are arranged on the upper end face of the cavity one 17, and the first placing groove 11 and the second placing groove 10 are linearly distributed and are arranged in the same vertical plane with the frame 4.

As shown in fig. 2, the upper end surface of the chassis 5 is provided with a transition groove 12, the first placement groove 11 and the second placement groove 10 are located on the same straight line, and the first placement groove 11 is disposed between the transition groove 12 and the second placement groove 10.

As shown in figure 1, a waste box 7 is installed at the bottom of the case 5, the waste box 7 is located right below the first cavity 17 and is communicated with the first cavity 17, as shown in figure 4, a waste receiving drawer 6 is connected to one side surface of the waste box 7 in a sliding mode, and an air suction opening 16 is formed in the other side surface of the waste box 7.

As shown in fig. 5, the base portion of the ear cutting assembly 19 includes an ear cutting chassis 28, the ear cutting chassis 28 is fixed on the bottom surface of the second cavity 18, an ear cutting cylinder 29 is fixed on the ear cutting chassis 28, an ear cutting connecting block 25 is fixed on the ear cutting cylinder 29, a first chassis sliding rail 26 is arranged on the upper end surface of the ear cutting chassis 28, a connecting block sliding block 27 matched with the first chassis sliding rail 26 is arranged on the ear cutting connecting block 25, the ear cutting connecting block 25 is in sliding connection with the ear cutting chassis 28 through the matching of the connecting block sliding block 27 and the first chassis sliding rail 26, an ear cutting motor 20 is fixed on the ear cutting connecting block 25, and as shown in fig. 4, the ear cutting motor 20 is arranged in the second cavity 18.

As shown in fig. 5, the working part of the ear cutting assembly 19 includes a first rotating shaft mounting seat 22, the ear cutting motor 20 is fixed at one end of the ear cutting connecting block 25, the first rotating shaft mounting seat 22 is fixed at the other end of the ear cutting connecting block 25, as shown in fig. 4, the first rotating shaft mounting seat 22 is arranged in the first cavity 17 and located at the opening of the first placing groove 11, as shown in fig. 5, a first rotating shaft 24 is rotatably connected to the first rotating shaft mounting seat 22, a first belt 21 is arranged between the first rotating shaft 24 and the ear cutting motor 20, the first rotating shaft 24 is in transmission connection with the ear cutting motor 20 through the first belt 21, and the ear cutting blades 23 are fixed at both ends of the first rotating shaft 24.

As shown in fig. 6, the base portion of the brush ear assembly 30 includes a brush ear chassis 39, the brush ear chassis 39 is fixed on the bottom surface of the second cavity 18, a brush ear cylinder 42 is fixed on the brush ear chassis 39, a brush ear support 32 is fixed on the brush ear cylinder 42, a second chassis slide rail 40 is arranged on the upper end surface of the brush ear chassis 39, a support slide block 41 matched with the second chassis slide rail 40 is arranged on the brush ear support 32, the brush ear support 32 is slidably connected with the brush ear chassis 39 through the cooperation of the support slide block 41 and the second chassis slide rail 40, a wire rod member 33 is screwed on the upper end surface of the brush ear support 32, a brush ear connection block 38 is fixed on the wire rod member 33, a brush ear motor 31 is fixed on the bottom surface of the brush ear support 32, and as shown in fig. 4, the brush ear motor 31 is disposed in the second cavity.

As shown in fig. 6, the working portion of the brush ear assembly 30 includes a second rotating shaft mounting seat 35, one end of the brush ear connecting block 38 is fixed on the wire rod member 33, the second rotating shaft mounting seat 35 is fixed on the other end of the brush ear connecting block 38, as shown in fig. 4, the second rotating shaft mounting seat 35 is disposed in the first cavity 17 and located at the opening of the second placement groove 10, as shown in fig. 6, a second rotating shaft 36 is rotatably connected to the second rotating shaft mounting seat 35, a second belt 34 is disposed between the second rotating shaft 36 and the brush ear motor 31, the second rotating shaft 36 is in transmission connection with the brush ear motor 31 through the second belt 34, and a wire brush barrel 37 is fixed on the second rotating shaft 36.

As shown in fig. 1, a motor 8 is installed on the side surface of the frame 3, the fixing plate 2 is slidably connected with the frame 3 through the motor 8, as shown in fig. 7, a frame slide rail 48 is arranged on the upper end surface of the frame 3, a fixing plate slider one 49 matched with the frame slide rail 48 is arranged on the lower end surface of the fixing plate 2, and the fixing plate 2 is slidably connected with the frame 3 through the matching of the fixing plate slider one 49 and the frame slide rail 48.

As shown in fig. 7 and 8, the lifting assembly 1 includes a lifting cylinder 43, the lifting cylinder 43 is fixed at the central position of the fixing plate 2, the connecting plate 9 is fixed on the lifting cylinder 43, the frame 4 is fixed on the lower end face of the connecting plate 9, the upper end face of the connecting plate 9 is provided with a plurality of U-shaped blocks 44, the top ends of two sides of the U-shaped blocks 44 are respectively fixed at two sides of the connecting plate 9, the fixing plate 2 is provided with fixing plate through holes 45 matched with the sides of the U-shaped blocks 44, the sides of the U-shaped blocks 44 are arranged in the fixing plate through holes 45, U-shaped block slide rails 46 are arranged on the sides of the U-shaped blocks 44, a fixing plate slider two 47 matched with the U-shaped block slide rails 46 is fixed on the fixing plate 2, and.

As shown in fig. 9, a first partition plate 50 is arranged between the feeding assembly 13 and the clamping assembly 14, the feeding assembly 13 includes a first clamping cylinder 58, the first clamping cylinder 58 is fixed on the first partition plate 50, a first overturning cylinder 59 is fixed on the first clamping cylinder 58, a first rotating idler wheel 61 matched with the first overturning cylinder 59 is arranged on the inner side wall of the frame 4, and a feeding clamping plate 60 is fixed on each of the first rotating idler wheel 61 and the first overturning cylinder 59.

As shown in fig. 9, the clamping assembly 14 is composed of two clamping cylinders 57 with the same shape and size, the two clamping cylinders 57 are respectively and symmetrically arranged at two sides of the inside of the frame 4, and clamping and holding plates 56 are fixed on the two clamping cylinders 57.

As shown in fig. 9, a second partition plate 51 is arranged between the blanking assembly 15 and the clamping assembly 14, the blanking assembly 15 includes a third clamping cylinder 55, the third clamping cylinder 55 is fixed on the second partition plate 51, a second overturning cylinder 54 is fixed on the third clamping cylinder 55, a second rotating idle wheel 52 matched with the second overturning cylinder 54 is arranged on the inner side wall of the frame 4, and blanking clamping plates 53 are fixed on both the second rotating idle wheel 52 and the second overturning cylinder 54.

When the machine is installed, the working part of the cutting lug assembly 19 and the working part of the brush lug assembly 30 are both installed in the first cavity 17, and the base part of the cutting lug assembly 19 and the base part of the brush lug assembly 30 are both installed in the second cavity 18, so that the design can prevent the vulnerable parts such as a motor, a cylinder, a guide rail and the like in the parts from contacting with lead dust. Meanwhile, the waste box 7 is arranged at the bottom of the first cavity 17 and is provided with the waste collecting drawer 6 and the air suction opening 16, and dust and lead ash generated when the machine brushes the batteries are sucked into the waste collecting drawer 6 under the suction action of the air suction opening 16, so that the cleaning efficiency when the machine is cleaned is greatly improved.

The working process is as follows:

firstly, the feeding assembly 13 moves to the position above the battery to be processed; the lifting cylinder 43 descends; the first clamping cylinder 58 of the feeding assembly 13 clamps the battery; the lifting cylinder 43 is lifted; the first overturning cylinder 59 of the feeding assembly 13 overturns the battery for 180 degrees; the feeding assembly 13 moves to the upper part of the transition groove 12; the lifting cylinder 43 descends; the clamp cylinder one 58 releases the battery to drop into the transition channel 12.

Second, the first clamping assembly 14 is moved over the transition slot 12; the lifting cylinder 43 descends; the second clamping cylinder 57 of the first clamping assembly 14 clamps the battery; the lifting cylinder 43 is lifted; the first clamping assembly 14 moves to the upper part of the first placing groove 11; the lifting cylinder 43 descends; the second clamping cylinder 57 releases the battery to enable the battery to fall into the first placing groove 11 for ear cutting. (while the loading assembly 13 repeats procedure one).

Thirdly, the second clamping assembly 14 moves to the upper part of the first placing groove 11; the lifting cylinder 43 descends; the second clamping cylinder 57 of the second clamping assembly 14 clamps the battery; the lifting cylinder 43 is lifted; the second clamping assembly 14 moves to the upper part of the first placing groove II 10; the lifting cylinder 43 descends; the second clamping cylinder 57 releases the battery to enable the battery to fall into the second first placing groove 10 to conduct first ear brushing. (while the loading assembly 13 repeats procedure one, the first clamping assembly 14 repeats procedure two).

Fourth, the third clamping assembly 14 moves to the upper part of the first placing groove II 10; the lifting cylinder 43 descends; the second clamping cylinder 57 of the third clamping assembly 14 clamps the battery; the lifting cylinder 43 is lifted; the third clamping assembly 14 moves to the upper part of the second placing groove II 10; the lifting cylinder 43 descends; the second clamping cylinder 57 releases the battery to enable the battery to fall into the second placing groove 10 to conduct second ear brushing work. (meanwhile, the feeding assembly 13 repeats the first process, the first clamping assembly 14 repeats the second process, and the second clamping assembly 14 repeats the third process).

Fifthly, moving the blanking assembly 15 to the upper part of the second placing groove 10; the lifting cylinder 43 descends; a third clamping cylinder 55 of the blanking assembly 15 clamps the battery; the lifting cylinder 43 is lifted; the second overturning cylinder 54 of the blanking assembly 15 overturns the battery for 180 degrees; the blanking assembly 15 moves to the next working procedure table; the lifting cylinder 43 descends; the clamp cylinder three 55 releases the cell and allows it to fall to the next process station. (meanwhile, the feeding assembly 13 repeats the first process, the first clamping assembly 14 repeats the second process, the second clamping assembly 14 repeats the third process, and the third clamping assembly 14 repeats the fourth process).

Claims (10)

1. The storage battery processing structure is characterized by comprising a case (5), wherein a first cavity (17) and a second cavity (18) are arranged in the case (5), a cutting lug assembly (19) and a plurality of brush lug assemblies (30) are sequentially arranged in the case (5), the cutting lug assembly (19) and the brush lug assemblies (30) are composed of a machine base part and a working part, the working part of the cutting lug assembly (19) and the working part of the brush lug assemblies (30) are both arranged in the first cavity (17), the machine base part of the cutting lug assembly (19) and the machine base part of the brush lug assemblies (30) are both arranged in the second cavity (18), a machine frame (3) is fixed on the case (5), the machine frame (3) is arranged right above the first cavity (17), a fixing plate (2) is connected to the machine frame (3) in a sliding manner, a lifting assembly (1) is arranged below the fixing plate (2), the utility model discloses a brush ear lifting device, including lifting unit, be fixed with frame (4) on lifting unit (1), be equipped with material loading subassembly (13), a plurality of clamping components (14) and unloading subassembly (15) in proper order in frame (4), material loading subassembly (13) and unloading subassembly (15) all rotate with frame (4) and are connected, the up end of cavity (17) be provided with the work portion assorted standing groove one (11) of cutting ear subassembly (19) and with the work portion assorted standing groove two (10) of brush ear subassembly (30), standing groove one (11) and standing groove two (10) are straight line distribution and arrange in same vertical plane with frame (4).

2. The storage battery processing structure according to claim 1, wherein the upper end face of the case (5) is provided with a transition groove (12), the first placing groove (11) and the second placing groove (10) are positioned on the same straight line, and the first placing groove (11) is arranged between the transition groove (12) and the second placing groove (10).

3. A battery processing structure according to claim 1, characterized in that a waste bin (7) is mounted at the bottom of the casing (5), the waste bin (7) is located under the first cavity (17) and is communicated with the first cavity (17), a waste receiving drawer (6) is slidably connected to one side of the waste bin (7), and an air suction opening (16) is arranged at the other side of the waste bin (7).

4. A battery processing arrangement as claimed in claim 1, wherein the housing portion of the lug assembly (19) comprises a lug base (28), the ear cutting chassis (28) is fixed on the bottom surface of the cavity II (18), an ear cutting cylinder (29) is fixed on the ear cutting chassis (28), a lug cutting connecting block (25) is fixed on the lug cutting cylinder (29), a first chassis sliding rail (26) is arranged on the upper end face of the lug cutting chassis (28), a connecting block sliding block (27) matched with a first chassis sliding rail (26) is arranged on the lug cutting connecting block (25), the lug cutting connecting block (25) is in sliding connection with the lug cutting chassis (28) through the matching of a connecting block sliding block (27) and a chassis sliding rail I (26), and the ear cutting motor (20) is fixed on the ear cutting connecting block (25), and the ear cutting motor (20) is arranged in the second cavity (18).

5. The storage battery processing structure according to claim 4, wherein the working part of the lug cutting assembly (19) comprises a first rotating shaft mounting seat (22), the lug cutting motor (20) is fixed at one end of the lug cutting connecting block (25), the first rotating shaft mounting seat (22) is fixed at the other end of the lug cutting connecting block (25), the first rotating shaft mounting seat (22) is arranged in the first cavity (17) and located at the opening of the first placing groove (11), a first rotating shaft (24) is rotatably connected to the first rotating shaft mounting seat (22), a first belt (21) is arranged between the first rotating shaft (24) and the lug cutting motor (20), the first rotating shaft (24) is in transmission connection with the lug cutting motor (20) through the first belt (21), and the lug cutting blades (23) are fixed at two ends of the first rotating shaft (24).

6. The storage battery processing structure according to claim 1, wherein the base portion of the brush ear assembly (30) comprises a brush ear base plate (39), the brush ear base plate (39) is fixed on the bottom surface of the second cavity (18), a brush ear cylinder (42) is fixed on the brush ear base plate (39), a brush ear support (32) is fixed on the brush ear cylinder (42), a base plate slide rail (40) is arranged on the upper end surface of the brush ear base plate (39), a support slide block (41) matched with the base plate slide rail (40) is arranged on the brush ear support (32), the brush ear support (32) is slidably connected with the brush ear base plate (39) through the matching of the support slide block (41) and the base plate slide rail (40), a wire rod member (33) is connected to the upper end surface of the brush ear support (32) through threads, and a brush ear connecting block (38) is fixed on the wire rod member (33), a brush ear motor (31) is fixed on the bottom surface of the brush ear support (32), and the brush ear motor (31) is arranged in the second cavity (18).

7. The storage battery processing structure according to claim 6, wherein the working part of the brush ear assembly (30) comprises a second rotating shaft mounting seat (35), one end of the brush ear connecting block (38) is fixed on the wire rod member (33), the second rotating shaft mounting seat (35) is fixed on the other end of the brush ear connecting block (38), the second rotating shaft mounting seat (35) is arranged in the first cavity (17) and located at the opening of the second placing groove (10), a second rotating shaft (36) is rotatably connected to the second rotating shaft mounting seat (35), a second belt (34) is arranged between the second rotating shaft (36) and the brush ear motor (31), the second rotating shaft (36) is in transmission connection with the brush ear motor (31) through the second belt (34), and a steel wire brush barrel (37) is fixed on the second rotating shaft (36).

8. The storage battery processing structure according to claim 1, wherein a motor (8) is mounted on a side surface of the rack (3), the fixing plate (2) is connected with the rack (3) in a sliding manner through the motor (8), a rack sliding rail (48) is arranged on an upper end surface of the rack (3), a first fixing plate sliding block (49) matched with the rack sliding rail (48) is arranged on a lower end surface of the fixing plate (2), and the fixing plate (2) is connected with the rack (3) in a sliding manner through the matching of the first fixing plate sliding block (49) and the rack sliding rail (48).

9. The storage battery processing structure according to claim 1, wherein the lifting assembly (1) comprises a lifting cylinder (43), the lifting cylinder (43) is fixed at the center of the fixing plate (2), a connecting plate (9) is fixed on the lifting cylinder (43), the frame (4) is fixed on the lower end face of the connecting plate (9), a plurality of U-shaped blocks (44) are arranged on the upper end face of the connecting plate (9), the top ends of two side edges of each U-shaped block (44) are respectively fixed on two sides of the connecting plate (9), a fixing plate through hole (45) matched with the side edge of each U-shaped block (44) is arranged on the fixing plate (2), the side edge of each U-shaped block (44) is arranged in the fixing plate through hole (45), a U-shaped block sliding rail (46) is arranged on the side edge of each U-shaped block (44), a second fixing plate sliding block (47) matched with the U-shaped block sliding rail (46) is fixed, the fixing plate (2) is in sliding connection with the frame (4) through the matching of the second fixing plate sliding block (47) and the U-shaped block sliding rail (46).

10. The storage battery processing structure according to claim 1, wherein a first partition plate (50) is arranged between the feeding assembly (13) and the clamping assembly (14), the feeding assembly (13) comprises a first clamping cylinder (58), the first clamping cylinder (58) is fixed on the first partition plate (50), a first overturning cylinder (59) is fixed on the first clamping cylinder (58), a first rotating idler (61) matched with the first overturning cylinder (59) is arranged on the inner side wall of the frame (4), a feeding clamping plate (60) is fixed on each of the first rotating idler (61) and the first overturning cylinder (59), the clamping assembly (14) is composed of two clamping cylinders (57) with the same shape and size, the two clamping cylinders (57) are symmetrically arranged on two sides inside the frame (4) respectively, and clamping plates (56) are fixed on each clamping cylinder (57), be equipped with between unloading subassembly (15) and the clamping component (14) baffle two (51), unloading subassembly (15) are including die clamping cylinder three (55), die clamping cylinder three (55) are fixed on baffle two (51), be fixed with upset cylinder two (54) on die clamping cylinder three (55), be equipped with on the inside wall of frame (4) with upset cylinder two (54) assorted rotatory idler two (52), rotatory idler two (52) and upset cylinder two (54) all are fixed with unloading grip block (53).

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