CN114214706A

CN114214706A - Cathode electrophoretic coating smearing and recycling system

Info

Publication number: CN114214706A
Application number: CN202111427878.XA
Authority: CN
Inventors: 李七河
Original assignee: Taicang Huaqing Auto Parts Co ltd
Current assignee: Taicang Huaqing Auto Parts Co ltd
Priority date: 2021-11-27
Filing date: 2021-11-27
Publication date: 2022-03-22
Anticipated expiration: 2041-11-27
Also published as: CN114214706B

Abstract

The invention discloses a cathode electrophoretic coating smearing and recycling system which comprises a machine shell, wherein a placing cavity is formed in the machine shell, a lifting plate is arranged in the placing cavity, a moving device and a clamping device are arranged in the lifting plate, and a sealing device, a drying device and a recycling device are arranged on the bottom wall of the placing cavity; the electrophoresis cleaning, drying and coating device can perform a working process of cleaning, air drying and electrophoresis coating on electrophoresis, the whole process is completed mechanically without manual assistance or intervention, the labor cost of a factory is reduced, the production efficiency is improved, meanwhile, the coating remained on the electrophoresis can be recovered into the coating shell through the recovery shell, the recovered coating is used for the second time, the waste of production raw materials is avoided, in addition, the electrophoretic cleaning, drying and coating working process can be integrated through the cleaning shell and the drying shell, the complicated working process is avoided, and the production efficiency of the factory is improved.

Description

Cathode electrophoretic coating smearing and recycling system

Technical Field

The invention relates to the technical field of cathode electrophoretic coating, in particular to a cathode electrophoretic coating smearing and recycling system.

Background

The current cathode electrophoretic coating equipment has the following defects:

firstly, the coating equipment has single function, only can coat the electrophoresis, and needs to carry out complicated preparation work before coating, so that the production efficiency cannot be effectively improved;

secondly, when the electrophoresis is coated, the residual paint on the electrophoresis cannot be effectively recycled, so that the waste of production raw materials and the increase of factory production cost are caused;

thirdly, the preparation work before the electrophoretic coating is complicated, the integrated production can not be carried out, and the electrophoresis can be carried for many times by manpower or manual auxiliary machinery, so that the production efficiency is greatly reduced, and the labor cost of a factory is increased.

Disclosure of Invention

The present invention aims to provide a cathode electrophoretic paint coating and recycling system, which is used for overcoming the defects in the prior art.

The cathode electrophoretic coating smearing and recovering system comprises a machine shell, wherein a placing cavity is arranged in the machine shell, a first sliding cavity communicated with the placing cavity is arranged in the left side wall of the placing cavity, a first motor is arranged in the left side wall of the placing cavity, a threaded shaft extending into the first sliding cavity is mounted on the first motor, a lifting plate is connected to the threaded shaft in a threaded mode, sliding rods with symmetrical front and back positions are fixedly arranged on the bottom wall of the right side of the placing cavity, the sliding rods penetrate through the right end of the lifting plate and are connected with the lifting plate in a sliding mode, and a moving device is arranged in the lifting plate;

the electronic sliding rail is characterized in that the bottom wall of the placing cavity is fixedly provided with electronic sliding rails which are symmetrical in left and right positions, an electronic sliding block is connected onto the electronic sliding rails in a sliding mode, a hydraulic cylinder is installed in the top wall of the electronic sliding block, the hydraulic cylinder is provided with a telescopic rod extending to the placing cavity, fixed blocks are fixedly arranged on the telescopic rod, a first arc-shaped mesh enclosure is connected between the two fixed blocks in a rotating mode, a feeding hole communicated with the rear side wall of the machine shell is formed in the rear side wall of the placing cavity on the rear side of the first arc-shaped mesh enclosure, a first conveying belt is installed on the feeding hole, a second motor is installed on the fixed block on the right side of the first arc-shaped mesh enclosure, a first rotating shaft penetrating through the fixed blocks and fixedly connected with the right end of the first arc-shaped mesh enclosure is installed on the second motor, and a sealing device for sealing the first arc-shaped mesh enclosure is arranged in the first arc-shaped mesh enclosure;

a cleaning shell is fixedly arranged on the bottom wall of the rear side of the placing cavity between the two electronic slide rails, a cleaning cavity with an upward opening is arranged in the cleaning shell, cleaning liquid is filled in the cleaning cavity, a drying shell is fixedly arranged on the bottom wall of the placing cavity on the front side of the cleaning shell, a drying cavity with an upward opening is arranged in the drying shell, and a drying device for drying electrophoresis is arranged in the drying cavity;

the utility model discloses an electronic slide block, including electronic slide block, chamber diapire, recovery shell, coating shell, recovery cavity, coating cavity, recovery shell, coating shell, recovery cavity, coating shell, recovery shell, coating shell, recovery device, coating shell, recovery device, recovery shell, recovery device, recovery shell, recovery device.

Optionally, the mobile device including set firmly in second sliding chamber in the lifter plate, first rack has set firmly on the second sliding chamber roof, spacing has set firmly on the second sliding chamber diapire, sliding connection has the third motor on the lateral wall behind the spacing, the second axis of rotation forward is installed to the third motor, second axis of rotation front end is equipped with first gear admittedly, first gear with first rack toothing, the third motor below be equipped with first sliding tray on the second sliding chamber diapire, sliding connection has the connecting block in the first sliding tray, the connecting block with third motor diapire fixed connection, the connecting block lower extreme is equipped with the electrophoretic clamping device of centre gripping.

Like this, drive the motor through rack and pinion and remove, can with electrophoresis automatic movement about, improved the automation of equipment.

Optionally, clamping device is including setting firmly in the connecting rod of left and right position symmetry on the connecting block diapire, two the connecting rod lower extreme has set firmly the turning block, be equipped with the rotation groove of left and right position symmetry in the turning block, the dead lever has set firmly on the lateral wall behind the rotation groove, it is connected with the arc pole to rotate on the dead lever, the arc pole lower extreme has set firmly the grip block, the connecting rod is equipped with the second sliding tray on one side of symmetry center, sliding connection has the second rack on the second sliding tray bottom wall, install the fourth motor in the second sliding tray diapire, the third axis of rotation forward is installed to the fourth motor, the second gear has set firmly in the third axis of rotation, the second gear with the second rack meshing, the second rack be close to one side of symmetry center with arc pole upper end fixed connection.

Like this, through grip block centre gripping electrophoresis, avoided the situation that the electrophoresis dropped in application process, can the centre gripping electrophoresis of different shapes, size, increased the productivity of equipment, reduced the area of contact between grip block and the electrophoresis moreover, avoided the work piece to appear hanging a little.

Optionally, the closing device including set firmly in arc chamber in the first arc screen panel, the arc chamber has set firmly the second arc screen panel on being close to the lateral wall in the centre of a circle, the arc rack has set firmly on the lateral wall that the centre of a circle was kept away from to the second arc screen panel, it is connected with the fourth axis of rotation of two upper and lower position symmetries to rotate on the lateral wall behind the arc chamber, the third gear has set firmly in the fourth axis of rotation, the third gear front side the fourth gear has set firmly the fourth gear in the fourth axis of rotation, two it is connected with the chain to rotate between the fourth gear, install the drive top in the lateral wall behind the arc chamber the fifth motor of fourth axis of rotation, two the third gear all with arc rack toothing.

Like this, can carry out thorough washing with the electrophoresis through the arc screen panel that is equipped with, avoided the electrophoresis surface to have the spot and cause later stage electrophoresis application to produce the problem.

Optionally, drying device including set firmly in first filter plate on the lateral wall around the dry chamber, first filter plate lower extreme has set firmly the electromagnetic shaker, install first suction pump in the dry chamber diapire, first suction pump install with the first liquid suction pipe of dry chamber intercommunication, first suction pump is installed and is run through lateral wall before the dry shell and with wash the first drain pipe of chamber intercommunication, install the fan behind the dry shell on the lateral wall, install on the fan five with the blowing pipe of dry shell intercommunication.

Like this, not only can weather the electrophoresis, the later stage of being convenient for can also effectual recovery washing liquid to the application of electrophoresis, has avoided the wasting of resources.

Optionally, the recycling device comprises a second filter plate fixedly arranged on the left and right side walls of the recycling cavity, a first discharge hole for electrophoresis to slide out is arranged on the right side wall of the recovery cavity on the right side of the second filter plate, a second discharge hole for electrophoresis sliding out is arranged on the right side wall of the placing cavity on the right side of the first discharge hole, a second conveyor belt is arranged on the second discharge hole, the left end of the second conveyor belt is smoothly connected with the first discharge hole, a second water suction pump is arranged in the bottom wall of the recovery cavity, a second liquid suction pipe communicated with the recovery cavity is arranged on the second water suction pump, an ultrafilter is arranged in the bottom wall of the recovery shell on the right side of the second water pump, a connecting pipe is communicated between the ultrafilter and the second water pump, and a second liquid outlet pipe which penetrates through the left side wall of the recycling shell and is communicated with the coating cavity is arranged on the ultrafilter.

Therefore, the coating can be recovered with the maximum efficiency, the waste of resources is avoided, and the production cost of a factory is reduced.

The invention has the beneficial effects that:

the device is provided with the moving, clamping, sealing, drying and recovering devices, and can perform a working process of cleaning, air drying and electrophoretic coating on electrophoresis, the whole process is completed mechanically without manual assistance or intervention, the labor cost of a factory is reduced, and the production efficiency is improved;

meanwhile, the recovery shell can recover the coating remained on the electrophoresis into the coating shell, and the recovered coating is used for the second time, so that the problem of increased production cost of a factory caused by waste of production raw materials is solved;

the cleaning shell and the drying shell are arranged, so that an automatic cleaning and drying operation can be performed before coating is performed on electrophoresis, the cleaning, drying and coating are integrated, a complex working process is avoided, the electrophoresis does not need to be repeatedly taken to different machines for processing, and the production efficiency of a factory is improved.

Drawings

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is a schematic view of the overall structure of a cathode electrophoretic paint application and recovery system according to the present invention;

FIG. 3 is a schematic view of A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic view of the mobile device of FIG. 3 according to the present invention;

FIG. 5 is a schematic view of the clamping device of FIG. 2 of the present invention;

FIG. 6 is a schematic view of the closure device of FIG. 3 in accordance with the present invention;

FIG. 7 is a schematic view of B-B of FIG. 6 in accordance with the present invention;

as shown in the figure:

10. a housing; 11. a placement chamber; 12. a first motor; 13. a threaded shaft; 14. a lifting plate; 15. a slide bar; 16. a second sliding chamber; 17. a first rack; 18. a limiting strip; 19. a third motor; 20. a second rotating shaft; 21. a first gear; 22. a first sliding groove; 23. connecting blocks; 24. a connecting rod; 25. a second sliding groove; 26. a second rack; 27. a fourth motor; 28. a third rotating shaft; 29. a second gear; 30. rotating the block; 31. a rotating groove; 32. fixing the rod; 33. a second conveyor belt; 34. an arcuate bar; 35. a clamping block; 36. a feed inlet; 37. a first conveyor belt; 38. an electronic slide rail; 39. an electronic slider; 40. a hydraulic cylinder; 41. a telescopic rod; 42. a fixed block; 43. a second motor; 44. a first rotating shaft; 45. a first arc net cover; 46. an arcuate cavity; 47. a second arc net cover; 48. an arc-shaped rack; 49. a fourth rotating shaft; 50. a third gear; 51. a fourth gear; 52. a chain; 53. a fifth motor; 54. drying the shell; 55. a drying chamber; 56. a first liquid suction pipe; 57. a first water pump; 58. a first filter plate; 59. a vibrator; 60. a fan; 61. a blowpipe; 62. a first liquid outlet pipe; 63. cleaning the shell; 64. a cleaning chamber; 65. coating the shell; 66. a coating chamber; 67. recovering the shell; 68. a recovery chamber; 69. a second filter plate; 70. a second liquid suction pipe; 71. a second water pump; 72. a connecting pipe; 73. an ultrafilter; 74. a second liquid outlet pipe; 75. a first discharge port; 76. a second discharge port; 77. a first sliding chamber; 78. a mobile device; 79. a clamping device; 80. a closure device; 81. a drying device; 82. and (5) a recovery device.

Detailed Description

The invention is further illustrated by the following examples:

referring to fig. 1-7, the cathode electrophoretic paint smearing and recovering system includes a casing 10, a placing cavity 11 is provided in the casing 10, a first sliding cavity 77 communicated with the placing cavity 11 is provided in a left side wall of the placing cavity 11, a first motor 12 is provided in a left side wall of the placing cavity 11, the first motor 12 is provided with a threaded shaft 13 extending into the first sliding cavity 77, a lifting plate 14 is connected to the threaded shaft 13 through a thread, a sliding rod 15 with symmetrical front and back positions is fixedly provided on a right side bottom wall of the placing cavity 11, the sliding rod 15 penetrates through a right end of the lifting plate 14 and is slidably connected with the lifting plate 14, and a moving device 78 is provided in the lifting plate 14;

the bottom wall of the placing cavity 11 is fixedly provided with electronic slide rails 38 with symmetrical left and right positions, the electronic slide rails 38 are connected with electronic slide blocks 39 in a sliding way, a hydraulic cylinder 40 is arranged in the top wall of the electronic slide block 39, a telescopic rod 41 extending to the placing cavity 11 is arranged on the hydraulic cylinder 40, the telescopic rod 41 is fixedly provided with fixing blocks 42, a first arc-shaped mesh enclosure 45 is rotatably connected between the two fixing blocks 42, a feed inlet 36 communicated with the rear side wall of the machine shell 10 is arranged on the rear side wall of the placing cavity 11 at the rear side of the first arc mesh enclosure 45, a first conveyor belt 37 is installed on the feed port 36, a second motor 43 is installed on the right fixed block 42, the second motor 43 is provided with a first rotating shaft 44 which penetrates through the fixed block 42 and is fixedly connected with the right end of the first arc-shaped mesh enclosure 45, a sealing device 80 for sealing the first arc net cover 45 is arranged in the first arc net cover 45;

a cleaning shell 63 is fixedly arranged on the bottom wall of the rear side of the placing cavity 11 between the two electronic slide rails 38, a cleaning cavity 64 with an upward opening is arranged in the cleaning shell 63, cleaning liquid is filled in the cleaning cavity 64, a drying shell 54 is fixedly arranged on the bottom wall of the placing cavity 11 on the front side of the cleaning shell 63, a drying cavity 55 with an upward opening is arranged in the drying shell 54, and a drying device 81 for drying electrophoresis is arranged in the drying cavity 55;

the electronic slide 39 right side place and set firmly coating shell 65 on the chamber 11 diapire, be equipped with opening up coating chamber 66 in the coating shell 65, coating is equipped with in the coating chamber 66, coating 65 right side place and set firmly on the chamber 11 diapire and retrieve shell 67, be equipped with opening up recovery chamber 68 in retrieving shell 67, be equipped with the recovery unit 82 of retrieving the coating in retrieving the chamber 68.

Advantageously, the moving device 78 includes a second sliding cavity 16 fixed in the lifting plate 14, a first rack 17 is fixed on the top wall of the second sliding cavity 16, a stop bar 18 is fixed on the bottom wall of the second sliding cavity 16, a third motor 19 is slidably connected on the rear side wall of the stop bar 18, the third motor 19 is provided with a second forward rotating shaft 20, a first gear 21 is fixed on the front end of the second rotating shaft 20, the first gear 21 is engaged with the first rack 17, a first sliding groove 22 is arranged on the bottom wall of the second sliding cavity 16 below the third motor 19, a connecting block 23 is slidably connected in the first sliding groove 22, the connecting block 23 is fixedly connected with the bottom wall of the third motor 19, a clamping device 79 for clamping electrophoresis is arranged at the lower end of the connecting block 23, when the third motor 19 is started, the third motor 19 drives the first gear 21 to rotate through the second rotating shaft 20, the first gear 21 drives the third motor 19 to slide left and right by meshing with the first rack 17, and the third motor 19 drives the connecting block 23 to slide left and right.

Beneficially, the clamping device 79 comprises connecting rods 24 which are fixedly arranged on the bottom wall of the connecting block 23 and are symmetrical in left and right positions, two connecting rods 24 are fixedly provided with a rotating block 30 at the lower ends thereof, a rotating groove 31 which is symmetrical in left and right positions is arranged in the rotating block 30, a fixing rod 32 is fixedly arranged on the rear side wall of the rotating groove 31, an arc-shaped rod 34 is rotatably connected onto the fixing rod 32, a clamping block 35 is fixedly arranged at the lower end of the arc-shaped rod 34, a second sliding groove 25 is arranged on one side of the connecting rod 24 facing the center of symmetry, a second gear 26 is slidably connected onto the bottom wall of the second sliding groove 25, a fourth motor 27 is arranged in the bottom wall of the second sliding groove 25, a forward third rotating shaft 28 is arranged on the fourth motor 27, a second gear 29 is fixedly arranged on the third rotating shaft 28, the second gear 29 is engaged with the second gear 26, and one side of the second gear 26 close to the center of symmetry is fixedly connected with the upper end of the arc-shaped rod 34, when the fourth motor 27 is started, the fourth motor 27 drives the second gear 29 to rotate through the third rotating shaft 28, the second gear 29 drives the second rack 26 to move left and right through being meshed with the second rack 26, and the second rack 26 drives the arc-shaped rod 34 to rotate.

Advantageously, the closing device 80 includes an arc-shaped cavity 46 fixed in the first arc-shaped mesh enclosure 45, a second arc-shaped mesh enclosure 47 is fixed on a side wall of the arc-shaped cavity 46 near the center of the circle, an arc-shaped rack 48 is fixed on a side wall of the second arc-shaped mesh enclosure 47 far from the center of the circle, two fourth rotating shafts 49 symmetrical up and down are rotatably connected on a rear side wall of the arc-shaped cavity 46, a third gear 50 is fixed on the fourth rotating shaft 49, a fourth gear 51 is fixed on the fourth rotating shaft 49 in front of the third gear 50, a chain 52 is rotatably connected between the two fourth gears 51, a fifth motor 53 driving the upper fourth rotating shaft 49 is installed in the rear side wall of the arc-shaped cavity 46, the two third gears 50 are both engaged with the arc-shaped rack 48, when the fifth motor 53 is started, the fifth motor 53 drives the upper fourth gear 51 to rotate through the fourth rotating shaft 49, the fourth gear 51 on the upper side drives the fourth gear 51 on the lower side to rotate through the chain 52, the fourth gear 51 on the lower side drives the third gear 50 on the lower side to rotate through the fourth rotating shaft 49, and the two third gears 50 drive the second arc-shaped mesh enclosure 47 to move through being meshed with the arc-shaped rack 48.

Advantageously, the drying device 81 comprises a first filter plate 58 fixed to the front and rear walls of the drying chamber 55, a vibrator 59 is fixedly arranged at the lower end of the first filter plate 58, a first water pump 57 is arranged in the bottom wall of the drying cavity 55, the first suction pump 57 is provided with a first suction pipe 56 communicating with the drying chamber 55, the first suction pump 57 is provided with a first outlet pipe 62 penetrating the front side wall of the drying casing 54 and communicating with the cleaning chamber 64, a fan 60 is arranged on the rear side wall of the drying shell 54, five air blowing pipes 61 communicated with the drying shell 54 are arranged on the fan 60, when the vibrator 59 is started, the vibrator 59 vibrates the first filter plate 58, the fan 60 is started, the blower 60 blows out the wind from the blowing pipe 61, the first suction pump 57 is started, the first suction pump 57 delivers liquid along the first outlet pipe 62 to the cleaning chamber 64 through the first suction pipe 56.

Beneficially, the recycling device 82 comprises a second filter plate 69 fixedly arranged on the left and right side walls of the recycling cavity 68, a first discharge hole 75 for providing electrophoresis sliding-out is arranged on the right side wall of the recycling cavity 68 on the right side of the second filter plate 69, a second discharge hole 76 for providing electrophoresis sliding-out is arranged on the right side wall of the placing cavity 11 on the right side of the first discharge hole 75, a second conveyor belt 33 is arranged on the second discharge hole 76, the left end of the second conveyor belt 33 is smoothly connected with the first discharge hole 75, a second water pump 71 is arranged in the bottom wall of the recycling cavity 68, a second liquid suction pipe 70 communicated with the recycling cavity 68 is arranged on the second water pump 71, an ultrafilter 73 is arranged in the bottom wall of the recycling shell 67 on the right side of the second water pump 71, a connecting pipe 72 is communicated between the ultrafilter 73 and the second water pump 71, a second liquid suction pipe 74 which runs through the left side wall of the recycling shell 67 and is communicated with the coating cavity 66 is arranged on the ultrafilter 73, when the second water pump 71 is started, the second water pump 71 connects the liquid into the ultrafilter 73 through the second liquid pumping pipe 70 along the connecting pipe 72, the ultrafilter 73 is started to centrifugally separate the liquid, and the ultrafilter 73 separates the coating and then conveys the coating into the coating cavity 66 through the second liquid outlet pipe 74.

The invention relates to a cathode electrophoretic coating smearing and recycling system, which comprises the following working procedures:

in the initial state, the electronic slider 39 is located at the rear side of the cleaning shell 63, and the first arc-shaped mesh enclosure 45 is located below the first conveyor belt 37.

When the electrophoresis needs to be coated, the first conveyor belt 37 is started, the first conveyor belt 37 conveys the electrophoresis from the feed port 36 into the first arc-shaped mesh enclosure 45, the fifth motor 53 is started, the fifth motor 53 drives the fourth gear 51 above through the fourth rotating shaft 49 to rotate, the fourth gear 51 above drives the fourth gear 51 below through the chain 52 to rotate, the fourth gear 51 below drives the third gear 50 below through the fourth rotating shaft 49 to rotate, the two third gears 50 drive the second arc-shaped mesh enclosure 47 to slide out of the arc-shaped cavity 46 through meshing with the arc-shaped rack 48, and the second arc-shaped mesh enclosure 47 seals the first arc-shaped mesh enclosure 45;

when the electronic slide rail 38 is started, the electronic slide block 39 slides forwards and moves to the left side and the right side of the cleaning shell 63, the hydraulic cylinder 40 is started, the telescopic rod 41 is contracted to lower the first arc-shaped mesh enclosure 45 into the cleaning cavity 64, the second motor 43 is started, the second motor 43 drives the first arc-shaped mesh enclosure 45 to rotate through the first rotating shaft 44, and the first arc-shaped mesh enclosure 45 rotates in a cleaning solution to be cleaned;

after the washing is finished, the hydraulic cylinder 40 is started reversely, the telescopic rod 41 is extended to lift the first arc-shaped mesh enclosure 45 out of the washing cavity 64, the electronic slide rail 38 is started again, the electronic slide block 39 slides forwards again to move to the left side and the right side of the drying shell 54, the hydraulic cylinder 40 is started, the telescopic rod 41 is contracted, the fifth motor 53 is started reversely, the fifth motor 53 drives the upper fourth gear 51 to rotate through the fourth rotating shaft 49, the upper fourth gear 51 drives the lower fourth gear 51 to rotate through the chain 52, the lower fourth gear 51 drives the lower third gear 50 to rotate through the fourth rotating shaft 49, and the two third gears 50 drive the second arc-shaped mesh enclosure 47 to retract into the arc-shaped cavity 46 through meshing with the arc-shaped rack 48, the first arc-shaped mesh enclosure 45 is opened, electrophoresis falls onto the first filter plate 58, the vibrator 59 is started, the vibrator 59 vibrates the first filter plate 58, the fan 60 is started, the fan 60 blows air out of the blowing pipe 61, the first water pump 57 is started, and the first water pump 57 conveys liquid into the cleaning cavity 64 along the first liquid outlet pipe 62 through the first liquid suction pipe 56 to dry the electrophoresis;

when electrophoresis is dried, the third motor 19 is started, the third motor 19 drives the first gear 21 to rotate through the second rotating shaft 20, the first gear 21 drives the third motor 19 to slide through meshing with the first rack 17, the third motor 19 drives the connecting block 23 to slide and move to the position above the drying shell 54, the first motor 12 is started, and the first motor 12 drives the lifting plate 14 to descend through the threaded shaft 13;

the fourth motor 27 is started, the fourth motor 27 drives the second gear 29 to rotate through the third rotating shaft 28, the second gear 29 drives the second rack 26 to move through being meshed with the second rack 26, the second rack 26 drives the arc-shaped rod 34 to rotate, and the two clamping blocks 35 clamp electrophoresis;

when the clamping block 35 clamps the electrophoresis, the third motor 19 is started again, the third motor 19 drives the first gear 21 to rotate through the second rotating shaft 20, the first gear 21 drives the third motor 19 to slide through being meshed with the first rack 17, and the third motor 19 drives the connecting block 23 to slide and move to the upper part of the coating shell 65, so as to perform coating work on the electrophoresis;

after the coating is finished, the third motor 19 is started again, the third motor 19 drives the first gear 21 to rotate through the second rotating shaft 20, the first gear 21 drives the third motor 19 to slide through meshing with the first rack 17, the third motor 19 drives the connecting block 23 to slide and move to the upper part of the recovery shell 67, the fourth motor 27 is started reversely, the fourth motor 27 drives the second gear 29 to rotate through the third rotating shaft 28, the second gear 29 drives the second rack 26 to move through meshing with the second rack 26, the second rack 26 drives the arc-shaped rod 34 to rotate, the two clamping blocks 35 do not clamp the electrophoresis any more, the electrophoresis drops from the upper part of the recovery cavity 68 to the second filter plate 69, and the electrophoresis slides to the second conveyor belt 33 along with the second filter plate 69, the second conveyor belt 33 is started to convey the coated electrophoresis out of the placing cavity 11;

when the electrophoresis after the coating is finished falls onto the second filter plate 69, the second water pump 71 is started, the second water pump 71 connects liquid into the ultrafilter 73 along the connecting pipe 72 through the second liquid pumping pipe 70, the ultrafilter 73 is started to centrifugally separate the liquid, and the ultrafilter 73 separates out the coating and then conveys the coating into the coating cavity 66 through the second liquid outlet pipe 74 for secondary use.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It will be appreciated by those skilled in the art that changes could be made to the embodiments described above without departing from the broad inventive concept thereof. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. A system for smearing and recovering cathode electrophoretic paint comprises a machine shell (10), and is characterized in that: a placing cavity (11) is arranged in the machine shell (10), a first sliding cavity (77) communicated with the placing cavity (11) is arranged in the left side wall of the placing cavity (11), a first motor (12) is arranged in the left side wall of the placing cavity (11), a threaded shaft (13) extending into the first sliding cavity (77) is installed on the first motor (12), a lifting plate (14) is connected onto the threaded shaft (13) in a threaded manner, sliding rods (15) with symmetrical front and back positions are fixedly arranged on the right side bottom wall of the placing cavity (11), the sliding rods (15) penetrate through the right end of the lifting plate (14) and are connected with the lifting plate (14) in a sliding manner, and a moving device (78) is arranged in the lifting plate (14);

place electronic slide rail (38) that have bilateral symmetry on chamber (11) diapire, sliding connection has electron slider (39) on electron slide rail (38), install pneumatic cylinder (40) in electron slider (39) roof, pneumatic cylinder (40) are installed and are extended to place telescopic link (41) of chamber (11), fixed block (42) have been set firmly on telescopic link (41), two rotate between fixed block (42) and be connected with first arc screen panel (45), first arc screen panel (45) rear side place be equipped with on chamber (11) rear side wall with feed inlet (36) of casing (10) rear side wall intercommunication, install first conveyer belt (37) on feed inlet (36), right side install second motor (43) on fixed block (42), install on second motor (43) and run through fixed block (42) and with first rotation of first arc screen panel (45) right-hand member fixed connection A shaft (44), wherein a sealing device (80) for sealing the first arc-shaped net cover (45) is arranged in the first arc-shaped net cover (45);

a cleaning shell (63) is fixedly arranged on the bottom wall of the rear side of the placing cavity (11) between the two electronic sliding rails (38), a cleaning cavity (64) with an upward opening is arranged in the cleaning shell (63), cleaning liquid is filled in the cleaning cavity (64), a drying shell (54) is fixedly arranged on the bottom wall of the placing cavity (11) on the front side of the cleaning shell (63), a drying cavity (55) with an upward opening is arranged in the drying shell (54), and a drying device (81) for drying electrophoresis is arranged in the drying cavity (55);

electronic slide (39) right side place and set firmly coating shell (65) on chamber (11) diapire, be equipped with opening coating chamber (66) up in coating shell (65), coating is equipped with paint in coating chamber (66), coating shell (65) right side place and set firmly on chamber (11) diapire and retrieve shell (67), be equipped with opening recovery chamber (68) up in retrieving shell (67), be equipped with recovery unit (82) of retrieving the paint in retrieving chamber (68).

2. The cathodic electrocoating paint spreading and recycling system as set forth in claim 1, wherein: the moving device (78) comprises a second sliding cavity (16) fixedly arranged in the lifting plate (14), a first rack (17) is fixedly arranged on the top wall of the second sliding cavity (16), a limiting strip (18) is fixedly arranged on the bottom wall of the second sliding cavity (16), a third motor (19) is connected to the rear side wall of the limiting strip (18) in a sliding manner, a forward second rotating shaft (20) is installed on the third motor (19), a first gear (21) is fixedly arranged at the front end of the second rotating shaft (20), the first gear (21) is meshed with the first rack (17), a first sliding groove (22) is arranged on the bottom wall of the second sliding cavity (16) below the third motor (19), a connecting block (23) is connected to the first sliding groove (22) in a sliding manner, and the connecting block (23) is fixedly connected with the bottom wall of the third motor (19), and a clamping device (79) for clamping electrophoresis is arranged at the lower end of the connecting block (23).

3. The cathodic electrocoating and recycling system of claim 2, further comprising: clamping device (79) including set firmly in connecting rod (24) of left and right position symmetry on connecting block (23) diapire, two connecting rod (24) lower extreme has set firmly turning block (30), be equipped with rotation groove (31) of left and right position symmetry in turning block (30), be set firmly on the lateral wall behind rotation groove (31) dead lever (32), it is connected with arc pole (34) to rotate on dead lever (32), arc pole (34) lower extreme has set firmly grip block (35), be equipped with second sliding tray (25) on one side of connecting rod (24) orientation symmetry center, sliding connection has second rack (26) on second sliding tray (25) diapire, install fourth motor (27) in second sliding tray (25) diapire, third axis of rotation (28) forward is installed to fourth motor (27), second gear (29) have set firmly on third axis of rotation (28), the second gear (29) is meshed with the second rack (26), and one side, close to the symmetric center, of the second rack (26) is fixedly connected with the upper end of the arc-shaped rod (34).

4. The cathodic electrocoating paint spreading and recycling system as set forth in claim 1, wherein: the sealing device (80) comprises an arc-shaped cavity (46) fixedly arranged in the first arc-shaped net cover (45), a second arc net cover (47) is fixedly arranged on one side wall of the arc-shaped cavity (46) close to the circle center, an arc rack (48) is fixedly arranged on one side wall of the second arc net cover (47) far away from the circle center, the rear side wall of the arc-shaped cavity (46) is rotationally connected with two fourth rotating shafts (49) which are symmetrical up and down, a third gear (50) is fixedly arranged on the fourth rotating shaft (49), a fourth gear (51) is fixedly arranged on the fourth rotating shaft (49) at the front side of the third gear (50), a chain (52) is rotatably connected between the two fourth gears (51), a fifth motor (53) for driving the upper fourth rotating shaft (49) is arranged in the rear side wall of the arc-shaped cavity (46), and the two third gears (50) are meshed with the arc-shaped rack (48).

5. The cathodic electrocoating paint spreading and recycling system as set forth in claim 1, wherein: drying device (81) including set firmly in first filter plate (58) on the lateral wall around dry chamber (55), vibrator (59) have been set firmly to first filter plate (58) lower extreme, install first suction pump (57) in dry chamber (55) diapire, first suction pump (57) install with first liquid suction pipe (56) of dry chamber (55) intercommunication, first suction pump (57) are installed and are run through lateral wall before dry shell (54) and with wash first drain pipe (62) of chamber (64) intercommunication, install fan (60) on the lateral wall behind dry shell (54), install on fan (60) five with blowing pipe (61) of dry shell (54) intercommunication.

6. The cathodic electrocoating paint spreading and recycling system as set forth in claim 1, wherein: recovery unit (82) including set firmly in retrieve second filter plate (69) on the lateral wall about chamber (68), second filter plate (69) right side retrieve and be equipped with first discharge gate (75) that provide the electrophoresis roll-off on chamber (68) right side wall, first discharge gate (75) right side place and be equipped with second discharge gate (76) that provide the electrophoresis roll-off on chamber (11) right side wall, install second conveyer belt (33) on second discharge gate (76), second conveyer belt (33) left end with first discharge gate (75) smooth connection, install second suction pump (71) in retrieving chamber (68) diapire, second suction pump (71) install with retrieve second suction pipe (70) of chamber (68) intercommunication, second suction pump (71) right side retrieve and install ultrafilter (73) in shell (67) diapire, the ultrafilter (73) and the second water pump (71) are communicated with each other through a connecting pipe (72), and the ultrafilter (73) is provided with a second liquid outlet pipe (74) which penetrates through the left side wall of the recovery shell (67) and is communicated with the coating cavity (66).