CN117734078A - New energy automobile battery processing tectorial membrane device - Google Patents

Abstract

The invention provides a new energy automobile battery processing film covering device which comprises a base, wherein two sides of the top of the base are respectively provided with a bearing plate and a conveyor belt, a plurality of pushing plates are arranged on the conveyor belt, two sides of the outer surface of the bearing plate are respectively provided with a feed box and a liquid storage box in a sliding manner, the middle part of the bearing plate is provided with a lifting assembly, the lifting assembly is fixedly connected with the feed box and the liquid storage box, the outer surface of the feed box is provided with a correction assembly, a plurality of batteries are sequentially stacked in the feed box from top to bottom, and an inner wall adjusting mechanism matched with the batteries is arranged on the inner wall of the feed box. The invention has the following beneficial effects that through the design of the waste scraping mechanism, after the film coating roller carries the film coating raw material to coat the battery, the unused film coating raw material residues on the film coating roller can be contacted with the material receiving box, the outer surface of the film coating roller is scraped and contacted with the side edge of the material receiving box, and then the raw material residues on the film coating roller can be scraped into the collecting groove, and the raw material residues are guided and collected.

Description

New energy automobile battery processing tectorial membrane device

Technical Field

The invention relates to a new energy automobile battery processing film covering device, and belongs to the field of new energy battery processing.

Background

The power battery is a power source for providing power for tools, and is a storage battery for providing power for electric automobiles, electric trains, electric bicycles and golf carts. It is mainly distinguished from a starting battery for starting an engine of an automobile. Valve port sealed lead-acid storage batteries, open tubular lead-acid storage batteries and lithium iron phosphate storage batteries are adopted in many cases.

After the production and processing of the new energy automobile battery are finished, in order to prevent the surface of the new energy automobile battery from being oxidized and influence the service life of the battery, the surface of the new energy automobile battery needs to be subjected to film coating protection, and the traditional battery film coating processing efficiency is lower, and film coating raw materials are wasted.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide a new energy automobile battery processing film covering device.

In order to achieve the above object, the present invention is realized by the following technical scheme:

the utility model provides a new energy automobile battery processing tectorial membrane device, includes the base, base top both sides are equipped with bearing plate and conveyer belt respectively, be equipped with a plurality of impeller on the conveyer belt, the surface both sides of bearing plate slide respectively and have workbin and liquid reserve tank, the middle part of bearing plate is equipped with lifting unit, lifting unit with the workbin with the liquid reserve tank is connected fixedly between them, the workbin surface is equipped with correction subassembly, a plurality of batteries have been piled up from top to bottom in proper order in the workbin, be equipped with on the workbin inner wall with battery matched with inner wall adjustment mechanism, the top center department of liquid reserve tank is equipped with agitator motor, agitator motor's bottom output is equipped with the (mixing) shaft, the surface of (mixing) shaft is equipped with a plurality of stirring leaf, the bottom intercommunication of liquid reserve tank has a plurality of conveying pipes, the surface of liquid reserve tank is equipped with elastic component, elastic component's output with frame coupling is fixed, the bottom of frame rotates and is connected with the tectorial membrane roller, be equipped with spraying reset mechanism and waste material on the frame.

Further, the lifting assembly comprises a regulating hole formed in the bearing plate, a lifting screw rod is rotationally connected to the regulating hole, the top end of the lifting screw rod penetrates through the top of the bearing plate and is connected with a lifting motor, the lifting motor is fixed at the top of the bearing plate, the lifting screw rod is connected with a lifting plate in a threaded mode, two ends of the lifting plate penetrate through two sides of the bearing plate respectively and are connected and fixed with a limiting plate I and a connecting plate, and two ends of the connecting plate are respectively provided with a material box and a liquid storage box which are connected and fixed.

Further, the inner wall adjusting mechanism comprises a frame adjusting assembly and a plate body assembly, the frame adjusting assembly comprises a first working cavity and a second working cavity which are formed in two sides of the inside of the material box, a longitudinal adjusting groove is formed in the inner wall of the material box and is communicated with two sides of the first working cavity, a longitudinal motor is arranged in the first working cavity, a driving bevel gear I is arranged at the output end of the longitudinal motor, two driven bevel gears I are respectively meshed with two sides of the driving bevel gear I, a longitudinal screw rod is fixed at the center of the side edge of the driven bevel gear I, the other end of the longitudinal screw rod penetrates into the longitudinal adjusting groove, a longitudinal nut moving block is connected in a sliding mode in the longitudinal adjusting groove, the longitudinal nut moving block is connected with the longitudinal screw rod in a threaded mode, and a longitudinal adjusting frame is fixed on the longitudinal nut moving block;

The automatic feeding device is characterized in that a transverse adjusting groove is formed in the inner wall of the feed box and is communicated with two sides of a second working cavity, a transverse motor is arranged in the second working cavity, a driving bevel gear II is arranged at the output end of the transverse motor, a driven bevel gear II is meshed with two sides of the driving bevel gear II respectively, a transverse screw rod is fixed at the center of the side edge of the driven bevel gear II, the other end of the transverse screw rod penetrates into the transverse adjusting groove, a transverse nut moving block is connected in a sliding mode in the transverse adjusting groove, the transverse nut moving block is connected to the transverse screw rod in a threaded mode, and a transverse adjusting frame is fixed on the transverse nut moving block;

the other two side surfaces of the inside of the feed box are respectively provided with a movable groove matched with the longitudinal adjusting frame and the transverse adjusting frame, a limiting groove is formed in the movable groove, a limiting block is connected in the limiting groove in a sliding manner, and the longitudinal adjusting frame and the transverse adjusting frame penetrate through the two movable grooves respectively and are fixedly connected with the limiting block;

the transverse adjusting frame is positioned above the longitudinal adjusting frame, movable holes are formed in the longitudinal adjusting frame and the transverse adjusting frame, and a plurality of plate body assemblies are connected in the movable holes in a sliding mode.

Further, the board body assembly comprises a main board and two side boards, the two side boards are respectively positioned at two sides of the main board, a protruding block is arranged at the top of each side board, an extension rod is arranged at one side of each side board, which is close to the main board, a containing groove matched with the extension rod is formed in the main board, a first spring and a first sliding board are arranged in the containing groove, the first spring and the first sliding board are extruded together, and the end part of each extension rod penetrates into the containing groove to be connected and fixed with the sliding board;

the side plates between two adjacent plate body assemblies are mutually extruded together, the bottoms of the main plate and the side plates are provided with wall plates, the outer surfaces of the main plate and the side plates are provided with sliding blocks, and sliding grooves I matched with the sliding blocks are formed in the movable holes.

Further, the elastic component is including fixing fixed case on the liquid reserve tank, the inside of fixed case is equipped with the spring two, the bottom of spring two is equipped with the sliding plate two, the bottom center department of sliding plate two is equipped with the fixed plate, the bottom of fixed plate runs through to the outside of fixed case with the frame coupling is fixed.

Further, spraying canceling release mechanical system is including fixing the backup pad of frame surface, highly have electric telescopic handle in the backup pad, electric telescopic handle's bottom output is fixed with the mount, the bottom both sides of mount all are fixed with the otic placode, two be fixed with the horizontal pole between the otic placode, equidistant a plurality of shower nozzle that is fixed with on the horizontal pole, the shower nozzle slope sets up, the shower nozzle with the tectorial membrane roller cooperatees, the shower nozzle with the conveying pipeline is connected and is link up.

Further, be fixed with the link on the otic placode, both sides be fixed with first fixed shell between the link, first inner bottom center department of fixed shell is fixed with driving motor, driving motor's output is fixed with the driving gear, first inner top both sides of fixed shell are fixed with a slide rail respectively, sliding connection has the sliding plate III on the slide rail, third outer surface both sides of sliding plate are fixed with interior rack and external tooth bar respectively, interior rack with the driving gear meshes mutually, first inside both sides of fixed shell are all rotated and are connected with a plurality of rotation axis, the top of rotation axis runs through to first fixed shell in with driven gear connection is fixed, driven gear with external tooth bar meshes mutually, the bottom of rotation axis runs through to first fixed shell's below is connected fixedly with the brush that resets.

Further, the waste scraping mechanism comprises a material collecting box fixed on the frame, a collecting groove is formed in one side of the material collecting box, a collecting motor is fixed on one side of the interior of the material collecting box, a rotary drum is fixed at the side output end of the collecting motor, a plurality of convex plates are fixed on the outer surface of the circumference of the rotary drum at equal intervals, and cleaning pieces are connected to the end parts of the convex plates;

the cleaning piece comprises a brush and a scraping plate, and the brush and the scraping plate are fixed on the outer surface of the convex plate in a staggered manner;

the inner bottom of the collecting tank is provided with an arc-shaped limiting plate, a first material guide plate and a second material guide plate which are matched with the cleaning piece.

Further, the correction component comprises a second fixing shell fixed on the outer surface of the feed box, a third spring is arranged in the second fixing shell, a fourth sliding plate is arranged at the bottom of the third spring, an adjusting plate is fixed at the bottom of the fourth sliding plate, the bottom end of the adjusting plate penetrates through the lower portion of the second fixing shell, and an inclined surface is arranged on one side, close to the feed box, of the adjusting plate.

Further, set up on the lifter plate with lifter screw matched with screw hole, set up on the top of sliding plate III with slide rail matched with spout two, be fixed with on the rotation axis with fixed shell one matched with limiting plate two, the receipts workbin is kept away from collecting vat one side is equipped with the observation window.

The invention has the advantages that,

through the design of lifting assembly, can start elevator motor according to the thickness of battery, elevator motor drives lifter plate vertical movement through lift lead screw and screw hole, and the lifter plate passes through connecting plate and drives workbin and liquid reserve tank two vertical movements, and then makes the distance between workbin bottom to the conveyer belt and the thickness looks adaptation of battery.

Through inner wall adjustment mechanism's design, can be according to the size of the inside space of placing of battery regulation workbin, and then can be applicable to the battery of equidimension not, namely, start vertical motor and horizontal motor through control switch, vertical motor and horizontal motor drive vertical alignment jig and horizontal alignment jig respectively and remove, can extrude the wallboard of horizontal alignment jig inside when vertical alignment jig removes, and then drive the inside plate body subassembly of vertical alignment jig and shrink and remove, and then extrude the lug of vertical alignment jig inside when horizontal alignment jig removes, and then drive the inside plate body subassembly shrink of vertical alignment jig and remove, and then adjust the wallboard scope of four sides of workbin inside from horizontal and vertical two directions, and then adjust the size of the inside space of placing of workbin.

Through the design of frame adjusting part, and then can start vertical motor and transverse motor through control switch, vertical motor drives vertical lead screw rotation through initiative conical gear and driven conical gear one, and transverse motor drives transverse lead screw rotation through initiative conical gear two and driven conical gear two, and vertical lead screw and with transverse lead screw rotation drive vertical nut movable block and transverse nut movable block respectively and remove, and vertical nut movable block and transverse nut movable block remove and drive vertical alignment jig and transverse alignment jig respectively and remove.

Through the design of plate body subassembly to make plate body subassembly extend inside the activity hole under the normal condition, the bottom of mainboard and curb plate all is equipped with the wallboard, and the wallboard provides the side support of placing the space, makes the battery only can vertical movement in the space that the wallboard formed, can drive plate body subassembly shrink when frame adjustment subassembly removes, and then realizes the regulation of plate body subassembly coverage.

Through the design of accomodating groove, spring one, sliding plate one and extension rod to under the normal condition, spring one promotes the extension rod and runs through to the outside of mainboard, and then enlarges the movable range of curb plate, when needs shrink regulation, curb plate and mainboard extrusion are in the same place, and the extension rod runs through to accomodate the inslot portion, and then shrink the coverage of curb plate, simultaneously, accomodate the length of groove and be greater than the sum of extension rod length and the required compression space of spring one.

Through the design of lug to can drive the inside plate body subassembly shrink of vertical alignment jig and remove through the inside lug of extrusion vertical alignment jig when horizontal alignment jig removes, thereby adjust the coverage of the wallboard of vertical alignment jig inside.

Through the design of elastic component, when the battery moved to tectorial membrane roller department, when tectorial membrane roller will tectorial membrane raw materials coating on the battery, under the effect of spring two and sliding plate two, the tectorial membrane roller can hug closely the battery and carry out the coating, and then makes tectorial membrane raw materials ensure the going on of battery tectorial membrane work.

Through the design of waste scraping mechanism, carry the tectorial membrane raw materials to the battery at the tectorial membrane roller and carry out the coating back, the tectorial membrane raw materials residue that is not used on the tectorial membrane roller can with receive the workbin contact, the tectorial membrane roller surface is scraped with the side of receipts workbin and is contacted, and then the raw materials residue on the tectorial membrane roller can be scraped and enter into the collecting vat inside, and the collecting motor that is located collecting vat opening part can drive the rotary drum rotation, the rotary drum passes through the flange and drives brush and scraper blade rotation, the scraper blade rotation is with the waste residue of piling up in collecting vat opening part this department is carried the top of arc limit flitch, and collect through the inclined plane guide of top to the inside of collecting vat, and the scraper blade is elastic rubber board, although can promote most waste materials, but waste material between scraper blade and the collecting vat can't be scraped, at this moment, the brush can promote the waste material that remains and gather, and then can make the waste material gather into a heap, make things convenient for the scraping of scraper blade to promote.

Through the design of stock guide one and stock guide two, rotatory brush and scraper blade then can be in the same place with stock guide one and stock guide two striking in proper order, when striking with stock guide one together, the waste material on brush and the scraper blade can fall to the collecting vat inside along arc limit stock guide's top inclined plane, when striking with stock guide two together, the waste material on brush and the scraper blade can fall to the collecting vat inside along stock guide one's top, and then makes both brush and scraper blade be in clean state, and the direction cleans next time.

Through the design of spraying canceling release mechanical system, the tectorial membrane roller of receiving the workbin is crossed, the external surface is in the plane that extrudees together, can't contact with follow-up shower nozzle spun tectorial membrane coating, and then after the tectorial membrane roller passes through receiving the workbin, the tectorial membrane roller that is scraped the extrusion can pass through fixed shell one, at this moment, driving motor drive driving gear is just reversing, the internal tooth strip rectilinear movement of drive both sides when driving gear rotation, internal tooth strip rectilinear movement drives sliding plate three and external tooth strip and removes, external tooth strip removes a plurality of driven gear rotation of driving side, driven gear passes through the rotation axis and drives the reset brush rotation, reset brush rotation stirs the tectorial membrane roller of strickleing, and then make the part of strickleing in the tectorial membrane roller surface resume the staggered texture part, and then make follow-up shower nozzle spun tectorial membrane coating can adhere on the tectorial membrane roller, make the tectorial membrane roller can play the coating effect again.

Through the design of correction subassembly, when the conveyer belt pushed the battery to remove, the battery can be in the same place with the inclined plane extrusion of regulating plate at the in-process that removes, and then makes battery and pushing plate laminating together, and during the extrusion, the regulating plate can be ascending to accomodate to fixed shell two insidely in the direction on inclined plane, after the battery passed through, the regulating plate can reset again and descend, and then await for the extrusion pushing action with lower piece battery.

Drawings

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

FIG. 1 is a schematic perspective view of a new energy automobile battery processing film covering device;

FIG. 2 is a schematic diagram of the front view structure of a new energy automobile battery processing film covering device;

fig. 3 is a schematic diagram of a connection structure of a lifting plate, a limiting plate and a connecting plate of the new energy automobile battery processing film covering device;

FIG. 4 is a schematic diagram of the structure of an inner wall adjusting mechanism of the battery processing and laminating device for the new energy automobile;

FIG. 5 is a schematic view of a part of the structure of an inner wall adjusting mechanism of a new energy automobile battery processing film covering device;

FIG. 6 is a schematic diagram of a plate assembly of a new energy automobile battery processing and laminating device according to the present invention;

FIG. 7 is a schematic diagram of the internal structure of a plate assembly of the battery processing and film covering device for the new energy automobile;

FIG. 8 is a schematic diagram of a connection structure between a longitudinal nut moving block and a longitudinal adjusting frame of the new energy automobile battery processing film covering device;

FIG. 9 is a schematic diagram of the connection structure of the liquid storage tank, the elastic component and the spraying reset mechanism of the new energy automobile battery processing film covering device;

fig. 10 is a schematic diagram of a local structure of a spraying reset mechanism of a new energy automobile battery processing film covering device;

FIG. 11 is a schematic diagram II of a local structure of a spraying reset mechanism of the new energy automobile battery processing film covering device;

fig. 12 is a schematic diagram of a local structure of a spraying reset mechanism of the new energy automobile battery processing film covering device;

fig. 13 is a schematic diagram showing a local structure of a spraying reset mechanism of the battery processing and laminating device for the new energy automobile;

FIG. 14 is a schematic diagram of the positional relationship among a laminating roller, a first fixed shell and a material receiving box of the new energy automobile battery processing laminating device;

FIG. 15 is an enlarged schematic view of the structure of the point A of the new energy automobile battery processing film covering device;

FIG. 16 is a schematic view of a material receiving box of a new energy automobile battery processing film covering device;

fig. 17 is a schematic structural diagram of a correction assembly of the new energy automobile battery processing film covering device.

In the figure, 1, a base; 2. a bearing plate; 3. an adjustment aperture; 4. a lifting motor; 5. lifting the screw rod; 6. a lifting plate; 7. a threaded hole; 8. a first limiting plate; 9. a connecting plate; 10. a feed box; 11. a liquid storage tank; 12. a first working cavity; 13. a longitudinal adjustment slot; 14. a longitudinal motor; 15. a first driving conical gear; 16. driven bevel gear one; 17. a longitudinal screw rod; 18. a longitudinal nut moving block; 19. a second working cavity; 20. a transverse adjustment groove; 21. a transverse motor; 22. a driving bevel gear II; 23. driven bevel gears II; 24. a transverse screw rod; 25. a transverse nut moving block; 26. a longitudinal adjusting frame; 27. a transverse adjusting frame; 28. a movable hole; 29. a slide rail; 30. a main board; 31. a side plate; 32. a storage groove; 33. a first spring; 34. a first sliding plate; 35. an extension rod; 36. a bump; 37. a slide block; 38. a first chute; 39. a limiting block; 40. a movable groove; 41. a limit groove; 42. a stirring motor; 43. a stirring shaft; 44. stirring the leaves; 45. a material conveying pipe; 46. a fixed box; 47. a second spring; 48. a second sliding plate; 49. a fixing plate; 50. a frame; 51. a film laminating roller; 52. a support plate; 53. an electric telescopic rod; 54. a fixing frame; 55. ear plates; 56. a cross bar; 57. a spray head; 58. a connecting frame; 59. a first fixed shell; 60. a driving motor; 61. a drive gear; 62. a sliding plate III; 63. a second chute; 64. an inner rack; 65. an outer rack; 66. a rotation shaft; 67. a driven gear; 68. a limiting plate II; 69. resetting the brush; 70. a material receiving box; 71. a collection tank; 72. an observation window; 73. collecting a motor; 74. a rotating drum; 75. a convex plate; 76. a brush; 77. a scraper; 78. an arc-shaped material limiting plate; 79. a first material guide plate; 80. a second material guide plate; 81. a second fixed shell; 82. a third spring; 83. a sliding plate IV; 84. an adjusting plate; 85. a conveyor belt.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-17, the invention provides a new energy automobile battery processing film covering device technical scheme, which comprises a base 1, wherein the two sides of the top of the base 1 are respectively provided with a bearing plate 2 and a conveyor belt 85, the conveyor belt 85 is provided with a plurality of pushing plates, the two sides of the outer surface of the bearing plate 2 are respectively provided with a feed box 10 and a liquid storage box 11 in a sliding manner, the middle part of the bearing plate 2 is provided with a lifting component, the lifting component is fixedly connected with the feed box 10 and the liquid storage box 11, the outer surface of the feed box 10 is provided with a correction component, a plurality of batteries are sequentially piled up in the feed box 10 from top to bottom, the inner wall of the feed box 10 is provided with an inner wall adjusting mechanism matched with the batteries, the top center of the liquid storage box 11 is provided with a stirring motor 42, the bottom output end of the stirring motor 42 is provided with a stirring shaft 43, the outer surface of the stirring shaft 43 is provided with a plurality of stirring blades 44, the bottom of the liquid storage box 11 is communicated with a plurality of conveying pipes 45, the outer surface of the liquid storage box 11 is provided with an elastic component, the output end of the elastic component is fixedly connected with the frame 50, the frame 50 is rotatably connected with the frame 50, and a frame 50 is rotatably connected with a reset mechanism 51 is provided with a waste material discharging mechanism; through the design of inner wall adjustment mechanism, can be according to the size of the inside space of placing of battery's size regulation workbin 10, and then can be applicable to the battery of equidimension not, namely, start vertical motor 14 and horizontal motor 21 through control switch, vertical motor 14 and horizontal motor 21 do not drive vertical alignment jig 26 and horizontal alignment jig 27 and remove, can extrude the wallboard inside horizontal alignment jig 27 when vertical alignment jig 26 removes, and then drive the inside plate body subassembly of vertical alignment jig 26 and shrink and remove, and then extrude the lug 36 inside vertical alignment jig 26 when horizontal alignment jig 27 removes, and then drive the inside plate body subassembly shrink of vertical alignment jig 26 and remove, and then adjust the wallboard scope of four sides inside workbin 10 from horizontal and vertical two directions, and then adjust the size of the inside space of placing of workbin 10.

Referring to fig. 1-3, the lifting assembly comprises a regulating hole 3 formed in the bearing plate 2, a lifting screw rod 5 is rotatably connected in the regulating hole 3, the top end of the lifting screw rod 5 penetrates through the top of the bearing plate 2 and is connected with a lifting motor 4, the lifting motor 4 is fixed on the top of the bearing plate 2, a lifting plate 6 is in threaded connection with the lifting screw rod 5, a threaded hole 7 matched with the lifting screw rod 5 is formed in the lifting plate 6, two ends of the lifting plate 6 penetrate through two sides of the bearing plate 2 and are connected and fixed with a limiting plate 8 and a connecting plate 9 respectively, and two ends of the connecting plate 9 are respectively provided with a material box 10 and a liquid storage box 11 which are connected and fixed; through the design of lifting assembly, can start elevator motor 4 according to the thickness of battery, elevator motor 4 drives elevating plate 6 vertical movement through elevating lead screw 5 and screw hole 7, and elevating plate 6 drives workbin 10 and liquid reserve tank 11 both vertical movements through connecting plate 9, and then makes the distance between workbin 10 bottom to conveyer belt 85 and the thickness looks adaptation of battery.

Referring to fig. 4, 5 and 8, the inner wall adjusting mechanism includes a frame adjusting assembly and a plate assembly, the frame adjusting assembly includes a first working chamber 12 and a second working chamber 19 that are disposed at two sides of the interior of the material box 10, a longitudinal adjusting groove 13 is disposed on the inner wall of the material box 10, the longitudinal adjusting groove 13 is communicated with two sides of the first working chamber 12, a longitudinal motor 14 is disposed inside the first working chamber 12, an output end of the longitudinal motor 14 is provided with a first driving bevel gear 15, two sides of the first driving bevel gear 15 are respectively engaged with a first driven bevel gear 16, a longitudinal screw 17 is fixed at a side center of the first driven bevel gear 16, the other end of the longitudinal screw 17 penetrates into the interior of the longitudinal adjusting groove 13, a longitudinal nut moving block 18 is slidably connected to the longitudinal screw 17, and a longitudinal adjusting frame 26 is fixed on the longitudinal nut moving block 18; the inner wall of the feed box 10 is provided with a transverse adjusting groove 20, the transverse adjusting groove 20 is communicated with two sides of a second working cavity 19, a transverse motor 21 is arranged in the second working cavity 19, an output end of the transverse motor 21 is provided with a driving bevel gear II 22, two sides of the driving bevel gear II 22 are respectively meshed with a driven bevel gear II 23, a transverse screw rod 24 is fixed at the center of the side edge of the driven bevel gear II 23, the other end of the transverse screw rod 24 penetrates into the transverse adjusting groove 20, a transverse nut moving block 25 is connected in the transverse adjusting groove 20 in a sliding manner, the transverse nut moving block 25 is connected to the transverse screw rod 24 in a threaded manner, and a transverse adjusting frame 27 is fixed on the transverse nut moving block 25; the other two side surfaces in the material box 10 are respectively provided with a movable groove 40 matched with the longitudinal adjusting frame 26 and the transverse adjusting frame 27, the movable groove 40 is internally provided with a limit groove 41, the limit groove 41 is internally and slidably connected with a limit block 39, and the longitudinal adjusting frame 26 and the transverse adjusting frame 27 respectively penetrate through the two movable grooves 40 and are fixedly connected with the limit block 39; the transverse adjusting frame 27 is located above the longitudinal adjusting frame 26, movable holes 28 are formed in both the longitudinal adjusting frame 26 and the transverse adjusting frame 27, and a plurality of plate body components are connected in the movable holes 28 in a sliding manner; through the design of the frame adjusting assembly, the longitudinal motor 14 and the transverse motor 21 can be started through the control switch, the longitudinal motor 14 drives the longitudinal screw rod 17 to rotate through the driving conical gear I15 and the driven conical gear I16, the transverse motor 21 drives the transverse screw rod 24 to rotate through the driving conical gear II 22 and the driven conical gear II 23, the longitudinal screw rod 17 and the transverse screw rod 24 respectively drive the longitudinal nut moving block 18 and the transverse nut moving block 25 to move, and the longitudinal nut moving block 18 and the transverse nut moving block 25 respectively drive the longitudinal adjusting frame 26 and the transverse adjusting frame 27 to move.

Referring to fig. 6-7, the board body assembly includes a main board 30 and two side boards 31, the two side boards 31 are respectively located at two sides of the main board 30, a bump 36 is provided at the top of the side board 31, an extension rod 35 is provided at one side of the side board 31 near the main board 30, a storage groove 32 matched with the extension rod 35 is provided on the main board 30, a first spring 33 and a first sliding board 34 are provided in the storage groove 32, the first spring 33 and the first sliding board 34 are extruded together, and an end of the extension rod 35 penetrates into the storage groove 32 to be connected and fixed with the first sliding board 34; the side plates 31 between two adjacent plate body assemblies are mutually extruded together, the bottoms of the main plate 30 and the side plates 31 are respectively provided with a wall plate, the outer surfaces of the main plate 30 and the side plates 31 are respectively provided with a sliding block 37, and a sliding groove I38 matched with the sliding blocks 37 is formed in the movable hole 28; through the design of plate body subassembly to make plate body subassembly extend inside the activity hole 28 under the normal condition, the bottom of mainboard 30 and curb plate 31 all is equipped with the wallboard, and the wallboard provides the side support of placing the space, makes the battery can only be in the space vertical movement that the wallboard formed, can drive plate body subassembly shrink when frame adjustment subassembly removes, and then realizes the regulation of plate body subassembly coverage.

Referring to fig. 9, the elastic assembly includes a fixing case 46 fixed on the liquid storage case 11, a second spring 47 is disposed in the fixing case 46, a second sliding plate 48 is disposed at the bottom of the second spring 47, a fixing plate 49 is disposed at the center of the bottom of the second sliding plate 48, and the bottom end of the fixing plate 49 penetrates through the outer side of the fixing case 46 to be fixedly connected with the frame 50; through the design of the elastic component, when the battery moves to the film coating roller 51, the film coating roller 51 can be tightly attached to the battery for coating under the action of the second spring 47 and the second sliding plate 48 when the film coating roller 51 coats the film coating raw material on the battery, so that the film coating raw material ensures the film coating operation of the battery.

Referring to fig. 9-14, the spraying reset mechanism comprises a supporting plate 52 fixed on the outer surface of the frame 50, an electric telescopic rod 53 is arranged on the supporting plate 52, a fixing frame 54 is fixed at the bottom output end of the electric telescopic rod 53, ear plates 55 are fixed at both sides of the bottom of the fixing frame 54, a cross rod 56 is fixed between the two ear plates 55, a plurality of spray heads 57 are fixed on the cross rod 56 at equal intervals, the spray heads 57 are obliquely arranged, the spray heads 57 are matched with the laminating roller 51, the spray heads 57 are connected and communicated with the conveying pipe 45, a connecting frame 58 is fixed on the ear plates 55, a first fixing shell 59 is fixed between the connecting frames 58 at both sides, a driving motor 60 is fixed at the center of the inner bottom of the first fixing shell 59, a driving gear 61 is fixed at the output end of the driving motor 60, the two sides of the inner top of the first fixed shell 59 are respectively fixed with a sliding rail 29, the sliding rail 29 is connected with a third sliding plate 62 in a sliding manner, the top of the third sliding plate 62 is provided with a second sliding groove 63 matched with the sliding rail 29, two sides of the outer surface of the third sliding plate 62 are respectively fixed with an inner rack 64 and an outer rack 65, the inner racks 64 are meshed with the driving gear 61, two sides of the inner part of the first fixed shell 59 are respectively connected with a plurality of rotating shafts 66 in a rotating manner, the rotating shafts 66 are fixedly provided with a second limiting plate 68 matched with the first fixed shell 59, the top ends of the rotating shafts 66 penetrate into the first fixed shell 59 and are fixedly connected with a driven gear 67, the driven gear 67 is meshed with the outer rack 65, and the bottom ends of the rotating shafts 66 penetrate below the first fixed shell 59 and are fixedly connected with a reset brush 69; through the design of the spraying reset mechanism, the outer surface of the film coating roller 51 passing through the material receiving box 70 is in a plane which is extruded together, film coating materials sprayed out of the follow-up spray nozzles 57 cannot be contacted, further after the film coating roller 51 passes through the material receiving box 70, the scraped and extruded film coating roller 51 passes through the first fixed shell 59, at the moment, the driving motor 60 drives the driving gear 61 to rotate positively and negatively, the driving gear 61 drives the inner tooth bars 64 on two sides to linearly move, the inner tooth bars 64 linearly move to drive the sliding plate III 62 and the outer tooth bars 65 to move, the outer tooth bars 65 move to drive the driven gears 67 on the side to rotate, the driven gears 67 drive the reset brush 69 to rotate through the rotating shaft 66, the reset brush 69 rotates to stir the scraped film coating roller 51, further the scraped part in the outer surface of the film coating roller 51 is restored to the staggered texture part, and further the film coating materials sprayed out of the follow-up spray nozzles 57 can be adhered on the film coating roller 51, and the film coating roller 51 can play a coating effect again.

Referring to fig. 14-16, the waste scraping mechanism comprises a receiving box 70 fixed on the frame 50, a collecting groove 71 is formed on one side of the receiving box 70, an observation window 72 is formed on one side, away from the collecting groove 71, of the receiving box 70, a collecting motor 73 is fixed on one side inside the receiving box 70, a rotary drum 74 is fixed at the side output end of the collecting motor 73, a plurality of convex plates 75 are fixed on the outer circumferential surface of the rotary drum 74 at equal intervals, and cleaning pieces are connected to the end parts of the convex plates 75; the cleaning piece comprises a brush 76 and a scraping plate 77, and the brush 76 and the scraping plate 77 are fixed on the outer surface of the convex plate 75 in a staggered manner; an arc-shaped limiting plate 78, a first guide plate 79 and a second guide plate 80 which are matched with the cleaning piece are arranged at the bottom in the collecting groove 71; through the design of waste scraping mechanism, after the coating roller 51 carries the tectorial membrane raw materials to carry out the coating to the battery, the unused tectorial membrane raw materials residue on the tectorial membrane roller 51 can contact with the receipts workbin 70, the contact is scraped to the side of tectorial membrane roller 51 surface and receipts workbin 70, and then the raw materials residue on the tectorial membrane roller 51 can be scraped and enter into the collecting vat 71 inside, and the collecting motor 73 that is located collecting vat 71 opening part can drive rotary drum 74 rotation, rotary drum 74 drives brush 76 and scraper blade 77 rotation through flange 75, the scraper blade 77 rotation is carried the top of arc limit flitch 78 with the waste residue that piles up in collecting vat 71 opening part here, and collect through the inclined plane guide of top to the inside of collecting vat 71, and scraper blade 77 is the elastic rubber slab, though can promote most waste material, but the waste material between scraper blade 77 and the collecting vat 71 can't strike off, at this moment, brush 76 can promote the waste material that remains and gather, and then can make the waste material gathering pile, make things convenient for scraping and pushing of scraper blade 77.

Referring to fig. 17, the correction assembly includes a second fixing shell 81 fixed on the outer surface of the bin 10, a third spring 82 is disposed in the second fixing shell 81, a fourth sliding plate 83 is disposed at the bottom of the third spring 82, an adjusting plate 84 is fixed at the bottom of the fourth sliding plate 83, the bottom end of the adjusting plate 84 penetrates below the second fixing shell 81, and an inclined surface is disposed on one side of the adjusting plate 84 close to the bin 10; through the design of correction subassembly, when conveyer belt 85 promotes the battery through the push plate and removes, the battery can be in the same place with the inclined plane extrusion of regulating plate 84 at the in-process that removes, and then makes battery and push plate laminating together, and extruded while, regulating plate 84 can be taken in to inside fixed shell two 81 at the direction on inclined plane down rise, after the battery passes through, regulating plate 84 can reset again and descend, and then await for the extrusion pushing action with lower piece battery.

When the automatic feeding device is used, according to the size of a battery, the size of the internal space of the feed box 10 is adjusted, namely, the longitudinal motor 14 and the transverse motor 21 are started through a control switch, the longitudinal motor 14 drives the longitudinal screw rod 17 to rotate through the driving conical gear I15 and the driven conical gear I16, the transverse motor 21 drives the transverse screw rod 24 to rotate through the driving conical gear II 22 and the driven conical gear II 23, the longitudinal screw rod 17 and the transverse screw rod 24 respectively drive the longitudinal nut moving block 18 and the transverse nut moving block 25 to move, the longitudinal nut moving block 18 and the transverse nut moving block 25 respectively drive the longitudinal adjusting frame 26 and the transverse adjusting frame 27 to move, the longitudinal adjusting frame 26 simultaneously moves and presses the wall plates inside the transverse adjusting frame 27 so as to drive the plate body components inside the longitudinal adjusting frame 26 to shrink, and the plate body components inside the longitudinal adjusting frame 26 are further shrunk and moved, and the wall plate body ranges of four sides inside the feed box 10 are further adjusted from the two directions of the transverse direction and the longitudinal direction, and the size of the internal space of the feed box 10 is further adjusted;

Then, starting the lifting motor 4 according to the thickness of the battery, driving the lifting plate 6 to vertically move by the lifting motor 4 through the lifting screw rod 5 and the threaded hole 7, and driving the material box 10 and the liquid storage box 11 to vertically move by the lifting plate 6 through the connecting plate 9, so that the distance between the bottom of the material box 10 and the conveyor belt 85 is matched with the thickness of the battery;

after the adjustment is completed, a plurality of batteries are sequentially placed in a placement space, the lowest battery is pressed on the conveyor belt 85, then the conveyor belt 85 is started, the conveyor belt 85 pushes the batteries to move through the pushing plate, the batteries are extruded with the inclined plane of the adjusting plate 84 in the moving process, the batteries are attached to the pushing plate, the adjusting plate 84 is lifted up and stored in the second fixing shell 81 under the guiding of the inclined plane while being extruded, the adjusting plate 84 drives the sliding plate IV 83 to extrude the touch switch in the storage moving process, and after the batteries pass, the adjusting plate 84 is reset and lowered again, and then extrusion pushing action with the lower batteries is waited;

the battery continues to advance along with the conveyor belt 85, the touch switch synchronously transmits signals to the controller, the controller starts the water pump, the water pump conveys the film coating raw materials to the plurality of spray heads 57 through the conveying pipe 45, the spray heads 57 convey the film coating raw materials to the film coating roller 51, when the battery moves to the film coating roller 51, the film coating roller 51 can coat the film coating raw materials on the battery, and meanwhile, under the action of the second spring 47 and the second sliding plate 48, the film coating roller 51 can be tightly attached to the battery for coating, and further the film coating raw materials ensure the film coating work of the battery;

After the film coating roller 51 carries film coating raw materials to coat the battery, the unused film coating raw material residues on the film coating roller 51 are contacted with the material collecting box 70, the outer surface of the film coating roller 51 is scraped and contacted with the side edge of the material collecting box 70, the raw material residues on the film coating roller 51 are scraped and enter the collecting groove 71, a collecting motor 73 positioned at the opening of the collecting groove 71 drives a rotary drum 74 to rotate, the rotary drum 74 drives a hairbrush 76 and a scraping plate 77 to rotate through a convex plate 75, the scraping plate 77 rotates to convey the waste residues accumulated at the opening of the collecting groove 71 to the top of an arc-shaped limiting plate 78, the waste residues are guided to the inside of the collecting groove 71 through the inclined surface of the top to be collected, the scraping plate 77 is an elastic rubber plate, and most of waste materials can be pushed, but the waste materials between the scraping plate 77 and the collecting groove 71 can not be scraped, at this moment, the hairbrush 76 can push and gather the residual waste materials, and further the waste materials can be gathered into a pile, and the scraping and pushing of the scraping plate 77 are facilitated;

the brush 76 and the scraper 77 are sequentially impacted with the first guide plate 79 and the second guide plate 80, when the brush 76 and the scraper 77 are impacted with the first guide plate 79, the waste materials on the brush 76 and the scraper 77 fall into the collecting tank 71 along the top inclined plane of the arc-shaped limiting plate 78, when the brush 76 and the scraper 77 are impacted with the second guide plate 80, the waste materials on the brush 76 and the scraper 77 fall into the collecting tank 71 along the top of the first guide plate 79, and then the brush 76 and the scraper 77 are in a clean state, and are cleaned next time;

The outer surfaces of the film coating rollers 51 passing through the material receiving box 70 are in a plane which is extruded together, film coating materials sprayed out of the subsequent spray nozzles 57 cannot be contacted, further after the film coating rollers 51 pass through the material receiving box 70, the scraped and extruded film coating rollers 51 pass through the first fixed shell 59, at the moment, the driving motor 60 drives the driving gear 61 to rotate reversely, the driving gear 61 drives the inner tooth bars 64 on two sides to linearly move while rotating, the inner tooth bars 64 linearly move to drive the sliding plate III 62 and the outer tooth bars 65 to move, the outer tooth bars 65 move to drive the driven gears 67 on the side to rotate, the driven gears 67 drive the reset brush 69 to rotate through the rotating shaft 66, the reset brush 69 rotates to stir the scraped film coating rollers 51, further the scraped part in the outer surface of the film coating rollers 51 is recovered to the staggered texture part, and the film coating materials sprayed out of the subsequent spray nozzles 57 can be adhered on the film coating rollers 51, and the film coating rollers 51 can play a coating effect again.

Although the present disclosure describes embodiments, not every embodiment is described in terms of a single embodiment, and such description is for clarity only, and one skilled in the art will recognize that the embodiments described in the disclosure as a whole may be combined appropriately to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. The utility model provides a new energy automobile battery processing tectorial membrane device, its characterized in that, including base (1), base (1) top both sides are equipped with bearing plate (2) and conveyer belt (85) respectively, be equipped with a plurality of impeller on conveyer belt (85), the surface both sides of bearing plate (2) slide respectively have workbin (10) and liquid reserve tank (11), the middle part of bearing plate (2) is equipped with lifting assembly, lifting assembly with workbin (10) with liquid reserve tank (11) both are connected fixedly, workbin (10) surface is equipped with correction subassembly, from last a plurality of batteries of piling up in proper order down in workbin (10), be equipped with on workbin (10) inner wall with battery matched with inner wall adjustment mechanism, the top center department of liquid reserve tank (11) is equipped with agitator motor (42), the bottom output of agitator motor (42) is equipped with (43), the surface of agitator shaft (43) is equipped with a plurality of stirring leaf (44), the bottom intercommunication of liquid reserve tank (11) has root canal (45), the bottom of liquid reserve tank (11) is equipped with elastic membrane (50) is connected with frame (50) the outer surface of elastic membrane (51), the frame (50) is provided with a spraying reset mechanism and a waste scraping mechanism.

2. The new energy automobile battery processing tectorial membrane device of claim 1, characterized in that, the lifting assembly is including seting up regulation hole (3) on bearing plate (2), regulation hole (3) internal rotation is connected with lift lead screw (5), the top of lift lead screw (5) runs through to bearing plate (2) top and lift motor (4) are connected, lift motor (4) are fixed in the top of bearing plate (2), threaded connection has lifter plate (6) on lift lead screw (5), the both ends of lifter plate (6) run through respectively to bearing plate (2) both sides and limiting plate one (8) and connecting plate (9) are connected fixedly, the both ends of connecting plate (9) are equipped with respectively feed box (10) with both are connected fixedly between liquid reserve tank (11).

3. The new energy automobile battery processing tectorial membrane device according to claim 2, characterized in that the inner wall adjusting mechanism comprises a frame adjusting component and a plate body component, the frame adjusting component comprises a first working cavity (12) and a second working cavity (19) which are arranged on two sides of the inside of a feed box (10), a longitudinal adjusting groove (13) is arranged on the inner wall of the feed box (10), the longitudinal adjusting groove (13) is communicated with two sides of the first working cavity (12), a longitudinal motor (14) is arranged inside the first working cavity (12), a driving conical gear (15) is arranged at the output end of the longitudinal motor (14), a driven conical gear (16) is respectively meshed with two sides of the driving conical gear (15), a longitudinal screw rod (17) is fixed at the center of the side edge of the driven conical gear (16), the other end of the longitudinal screw rod (17) penetrates into the inside of the longitudinal adjusting groove (13), a longitudinal nut moving block (18) is connected in a sliding mode, and the longitudinal nut moving block (18) is connected to the longitudinal screw rod (17) in a threaded mode, and the longitudinal nut moving block (18) is fixed on the longitudinal screw rod (26).

The automatic feeding device is characterized in that a transverse adjusting groove (20) is formed in the inner wall of the feed box (10), the transverse adjusting groove (20) is communicated with two sides of a second working cavity (19), a transverse motor (21) is arranged in the second working cavity (19), a driving bevel gear II (22) is arranged at the output end of the transverse motor (21), driven bevel gears II (23) are meshed with two sides of the driving bevel gear II (22) respectively, a transverse screw rod (24) is fixed at the center of the side edge of the driven bevel gear II (23), the other end of the transverse screw rod (24) penetrates into the transverse adjusting groove (20), a transverse nut moving block (25) is connected in a sliding mode in the transverse adjusting groove (20), and a transverse adjusting frame (27) is fixed on the transverse nut moving block (25).

The two sides of the inside of the feed box (10) are respectively provided with a movable groove (40) matched with the longitudinal adjusting frame (26) and the transverse adjusting frame (27), the movable groove (40) is internally provided with a limiting groove (41), the limiting groove (41) is internally connected with a limiting block (39) in a sliding manner, and the longitudinal adjusting frame (26) and the transverse adjusting frame (27) respectively penetrate through the two movable grooves (40) and are fixedly connected with the limiting block (39);

The transverse adjusting frame (27) is located above the longitudinal adjusting frame (26), movable holes (28) are formed in the longitudinal adjusting frame (26) and the transverse adjusting frame (27), and a plurality of plate body assemblies are connected in the movable holes (28) in a sliding mode.

4. The new energy automobile battery processing tectorial membrane device according to claim 3, wherein the plate body component comprises a main plate (30) and two side plates (31), the two side plates (31) are respectively positioned at two sides of the main plate (30), a protruding block (36) is arranged at the top of each side plate (31), an extension rod (35) is arranged at one side of each side plate (31) close to the main plate (30), a containing groove (32) matched with the extension rod (35) is formed in each main plate (30), a first spring (33) and a first sliding plate (34) are arranged in each containing groove (32), the first spring (33) and the first sliding plate (34) are extruded together, and the end part of each extension rod (35) penetrates into each containing groove (32) to be fixedly connected with the first sliding plate (34);

the side plates (31) between two adjacent plate body assemblies are mutually extruded together, the bottoms of the main plate (30) and the side plates (31) are provided with wall plates, the outer surfaces of the main plate (30) and the side plates (31) are provided with sliding blocks (37), and sliding grooves (38) matched with the sliding blocks (37) are formed in the movable holes (28).

5. The new energy automobile battery processing tectorial membrane device of claim 4, wherein, the elastic component is including fixing fixed case (46) on liquid reserve tank (11), the inside of fixed case (46) is equipped with spring two (47), the bottom of spring two (47) is equipped with sliding plate two (48), the bottom center department of sliding plate two (48) is equipped with fixed plate (49), the bottom of fixed plate (49) runs through to the outside of fixed case (46) is connected fixedly with frame (50).

6. The new energy automobile battery processing tectorial membrane device of claim 5, wherein, spraying canceling release mechanical system is including fixing backup pad (52) of frame (50) surface, highly have electric telescopic handle (53) on backup pad (52), the bottom output of electric telescopic handle (53) is fixed with mount (54), the bottom both sides of mount (54) all are fixed with otic placode (55), two be fixed with horizontal pole (56) between otic placode (55), equidistant a plurality of shower nozzle (57) of being fixed with on horizontal pole (56), shower nozzle (57) slope setting, shower nozzle (57) with tectorial membrane roller (51) cooperate, shower nozzle (57) with conveying pipeline (45) are connected and are link up.

7. The new energy automobile battery processing tectorial membrane device of claim 6, characterized in that, be fixed with link (58) on otic placode (55), both sides be fixed with first (59) of fixed shell between link (58), the interior bottom center department of first (59) of fixed shell is fixed with driving motor (60), the output of driving motor (60) is fixed with driving gear (61), the interior top both sides of first (59) of fixed shell are fixed with a slide rail (29) respectively, sliding connection has sliding plate three (62) on slide rail (29), sliding plate three (62)'s surface both sides are fixed with interior rack (64) and external rack (65) respectively, internal rack (64) with driving gear (61) mesh, the inside both sides of first (59) of fixed shell all rotate and are connected with a plurality of rotation axis (66), the top of rotation axis (66) runs through to in the first (59) of fixed shell is connected fixedly with driven gear (67), driven gear (67) with the surface both sides of sliding plate three (62) are fixed with internal rack (64) and external rack (65) meshing, the bottom that runs through with first (69) of rotation axis is fixed to the fixed brush (69).

8. The new energy automobile battery processing tectorial membrane device according to claim 7, characterized in that the waste scraping mechanism comprises a receiving box (70) fixed on the frame (50), a collecting groove (71) is formed in one side of the receiving box (70), a collecting motor (73) is fixed on one side of the inside of the receiving box (70), a rotary drum (74) is fixed at the side output end of the collecting motor (73), a plurality of convex plates (75) are fixed on the outer circumferential surface of the rotary drum (74) at equal intervals, and cleaning pieces are connected to the end parts of the convex plates (75);

the cleaning piece comprises a brush (76) and a scraping plate (77), and the brush (76) and the scraping plate (77) are fixed on the outer surface of the convex plate (75) in a staggered mode;

an arc-shaped limiting plate (78), a first material guide plate (79) and a second material guide plate (80) which are matched with the cleaning piece are arranged at the inner bottom of the collecting groove (71).

9. The new energy automobile battery processing tectorial membrane device of claim 8, wherein, the correction subassembly is including fixing in fixed shell two (81) of workbin (10) surface, the inside spring three (82) that is equipped with of fixed shell two (81), the bottom of spring three (82) is equipped with sliding plate four (83), the bottom of sliding plate four (83) is fixed with regulating plate (84), the bottom of regulating plate (84) runs through to the below of fixed shell two (81), regulating plate (84) are close to workbin (10) one side is equipped with the inclined plane.

10. The new energy automobile battery processing tectorial membrane device of claim 9, characterized in that, offer on lifter plate (6) with lifter screw (5) matched with screw hole (7), slide plate three (62) the top offer with slide rail (29) matched with spout two (63), be fixed with on rotation axis (66) with fixed shell one (59) matched with limiting plate two (68), receive workbin (70) keep away from collecting vat (71) one side is equipped with observation window (72).