CN114131460A

CN114131460A - Clean polisher of optical lens piece

Info

Publication number: CN114131460A
Application number: CN202111402101.8A
Authority: CN
Inventors: 应爱玲
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-24
Filing date: 2021-11-24
Publication date: 2022-03-04

Abstract

The invention discloses an optical lens cleaning and grinding machine which comprises a machine shell, wherein a placing cavity is arranged in the machine shell, a moving device, a grinding device and a cleaning device are arranged on the top wall of the placing cavity, and a scraping device and a collecting device are arranged on the bottom wall of the placing cavity; the optical lens cleaning device can perform the working procedures of polishing, inking and cleaning on the optical lens, improves the production efficiency of a factory, reduces the production cost of the factory, can perform inking on the optical lens while polishing the optical lens through the second spray head, is convenient for performing visual detection on the optical lens at the later stage, does not need manual inking before detection, and finally can collect chips generated by polishing through the collecting shell and compress the collected chips into blocks through the push plate, thereby facilitating the recycling of the factory at the later stage, saving the production cost of the factory and avoiding resource waste.

Description

Clean polisher of optical lens piece

Technical Field

The invention relates to the technical field of optical lens production, in particular to an optical lens cleaning and grinding machine.

Background

The following drawbacks exist in the current production equipment for optical lenses:

firstly, the optical lens cannot be effectively polished, and during polishing, polishing dead corners easily exist, so that the periphery of the lens cannot be effectively polished;

secondly, the surface of the lens is easy to be polluted in the polishing process, and scraps generated in the polishing process are easy to rub and pollute the surface of the lens;

thirdly, the scraps generated by friction cannot be collected and cannot be recycled for the second time;

fourth, the lens later stage need carry out visual detection, need manually scribble the china ink to the lens when carrying out visual detection to the lens, has increased the human cost of mill and has reduced the production efficiency of mill.

Disclosure of Invention

The object of the present invention is to provide an optical lens cleaning sander that overcomes the above-mentioned drawbacks of the prior art.

The optical lens cleaning and grinding machine comprises a machine shell, wherein a placing cavity with a forward opening is arranged in the machine shell, a first sliding groove is arranged in the left side wall of the machine shell on the left side of the placing cavity, a first motor is fixedly arranged on the bottom wall of the first sliding groove, a first threaded shaft is arranged on the first motor, a lifting plate is connected onto the first threaded shaft in a threaded manner, a third sliding groove is arranged in the right side wall of the machine shell on the right side of the placing cavity, a sliding rod is fixedly arranged on the top wall of the third sliding groove, the upper end of the sliding rod penetrates through the right end of the lifting plate and is in sliding connection with the right end of the lifting plate, a protective cover penetrating through the lifting plate is fixedly arranged on the lifting plate in the placing cavity, a protective cavity with a downward opening is arranged in the protective cover, and water spraying pipes which extend into the side wall of the protective cover and are symmetrically arranged on the left side wall and the right side wall of the protective cavity, a first spray nozzle is arranged on the water spray pipe in the placing cavity, water inlet pipes which penetrate through the top wall of the placing cavity and extend to the outside of the top wall of the shell in a symmetrical left-right position are fixedly arranged on the top wall of the placing cavity, the lower ends of the water inlet pipes are communicated with a first corrugated pipe, the lower end of the first corrugated pipe penetrates through the top wall of the protective cover and is communicated with the water spray pipe, and a cleaning device for cleaning lenses is arranged on the top wall of the protective cavity;

a blower is mounted on the rear side wall of the protection cavity, an annular cavity is arranged in the side wall of the protection cavity, and a moving device is arranged in the annular cavity;

a base is fixedly arranged on the bottom wall of the placing cavity, an annular shell is arranged in the bottom wall of the placing cavity around the bottom wall of the base, the annular shell is provided with an annular collecting tank with an upward opening, an annular filter plate is fixedly arranged on the side wall of the annular collecting tank, the annular filter plate is smoothly connected with the bottom wall of the placing cavity, a first sliding cavity is fixedly arranged in the bottom wall of the placing cavity on the front side of the annular shell, a water accumulating tank is connected onto the bottom wall of the first sliding cavity in a sliding manner, a second corrugated pipe with symmetrical left and right positions is fixedly arranged at the lower end of the annular shell, the lower end of the second corrugated pipe is communicated with the water accumulating tank, a first rotating door is rotatably connected onto the front side wall of the placing cavity on the front side of the first sliding cavity, and a scraping device for scraping chips is arranged in the base;

and a collecting device for collecting scraps is arranged on the bottom wall of the placing cavity on the front side of the base.

Optionally, the moving device includes an annular limiting block fixedly arranged on the side wall of the annular cavity close to the placing cavity, a second motor is connected to the annular limiting block in a sliding manner, an upward first rotating shaft is installed on the second motor, a first gear is fixedly arranged on the first rotating shaft, a first annular rack is fixedly arranged on the side wall of the annular cavity on the right side of the first gear, the first annular rack is meshed with the annular cavity, a second sliding groove communicated with the protecting cavity is formed in the side wall of the protecting cover on the upper side of the first gear, a chassis is connected to the upper end of the first gear in a rotating manner, and a polishing device for polishing and coating an ink lens is arranged on the chassis.

Therefore, the whole optical lens can be polished, and the phenomenon of polishing dead angles is avoided.

Optionally, grinding device is including setting firmly in the chassis roof is kept away from place the third motor on one side in chamber, the orientation is installed to the third motor place the second screw shaft in chamber, threaded connection has the screw thread piece on the second screw shaft, grinding motor has set firmly on the screw thread piece, grinding motor is last to install the orientation place the second axis of rotation in chamber, install the cardan shaft in the second axis of rotation, install the wheel of polishing on the cardan shaft, the chassis is close to place a side wall mounting in chamber and scribble the china ink pipe, scribble and install the second shower nozzle on the china ink pipe.

Therefore, the lens can be polished and coated with ink in all aspects, and the problem that some places of the lens are not easy to polish is avoided.

Optionally, the cleaning device comprises a first hydraulic cylinder fixedly arranged on the top wall of the protection cavity, a first telescopic rod facing downwards is installed on the first hydraulic cylinder, a fourth motor is fixedly arranged at the lower end of the first telescopic rod, a third rotating shaft facing downwards is installed on the fourth motor, and a cleaning wheel is fixedly arranged below the third rotating shaft.

Like this, can clean with scribble the lens after the china ink finishes polishing, avoid the artifical clear problem in later stage, improve the production efficiency of mill.

Optionally, scrape get the device including set firmly in ring channel on the base lateral wall, the second annular rack has set firmly on the ring channel roof, sliding connection has the fifth motor on the ring channel diapire, the orientation is installed to the fifth motor the fourth axis of rotation in the ring channel centre of a circle, the second gear has set firmly in the fourth axis of rotation, the second gear with the meshing of second annular rack, the fifth motor is kept away from the scraper blade has set firmly on the lateral wall in the ring channel centre of a circle, the scraper blade extends to outside the ring channel and with annular filter plate roof sliding connection.

Therefore, the debris scattered on the annular filter plate can be collected, and the debris can be collected conveniently at the later stage.

Optionally, the collection device including set firmly in place the collection shell on the chamber diapire, there is the collection chamber of opening backward in the collection shell, collect the intracavity and install the suction fan, it has third bellows to set firmly on the lateral wall before the collection chamber, collect the shell front side place and be equipped with the second in the chamber diapire and slide the chamber, sliding connection has the compression shell on the second slides the chamber diapire, be equipped with the compression chamber in the compression shell, the compression chamber with third bellows intercommunication, be equipped with the second pneumatic cylinder in the compression chamber rear side wall, the second pneumatic cylinder install extend to the second telescopic link in the compression chamber, the push pedal has set firmly on the second telescopic link, the push pedal with compression chamber lateral wall sliding connection, the compression shell front side rotate on the casing lateral wall and be connected with the second and rotate the door.

Like this, collect and store the piece, the later stage of being convenient for has avoided the waste of resource to clastic reutilization, has reduced the manufacturing cost of mill.

The invention has the beneficial effects that:

the optical lens cleaning device is provided with the moving, polishing, cleaning, scraping and collecting devices, and can perform the working procedures of polishing, inking and cleaning on the optical lens, so that the production efficiency of a factory is improved, and the production cost of the factory is reduced;

meanwhile, the second nozzle provided by the invention can be used for polishing the optical lens and coating ink on the optical lens, so that the optical lens can be conveniently visually detected in the later period without manual ink coating before detection;

the collecting shell is arranged in the invention, so that scraps generated by polishing can be collected, and the collected scraps are compressed into blocks through the push plate, thereby facilitating the recycling of later factories, saving the production cost of the factories and avoiding the waste of resources.

Drawings

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

FIG. 2 is a schematic view of the overall structure of an optical lens cleaning and polishing machine 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 annular chamber of FIG. 2 of the present invention;

FIG. 5 is a schematic view of the scraping apparatus of FIG. 2 in accordance with the present invention;

FIG. 6 is a schematic view of B-B of FIG. 2 according to the present invention;

as shown in the figure:

10. a housing; 11. a placement chamber; 12. a first sliding groove; 13. a first motor; 14. a first threaded shaft; 15. a lifting plate; 16. a water inlet pipe; 17. a first bellows; 18. a protective cover; 19. a protective cavity; 20. a water spray pipe; 21. a first nozzle; 22. a first hydraulic cylinder; 23. a first telescopic rod; 24. a cleaning wheel; 25. a second sliding groove; 26. an annular cavity; 27. an annular stop block; 28. a second motor; 29. a first rotating shaft; 30. a first gear; 31. a first annular rack; 32. a chassis; 33. a third motor; 34. a second threaded shaft; 35. a thread block; 36. polishing the motor; 37. a second rotating shaft; 38. a cardan shaft; 39. grinding the wheel; 40. a base; 41. an annular shell; 42. an annular collecting tank; 43. an annular filter plate; 44. an annular groove; 45. a second annular rack; 46. a fifth motor; 47. a fourth rotating shaft; 48. a second gear; 49. a squeegee; 50. a second bellows; 51. a water accumulation tank; 52. a fourth motor; 53. a third rotating shaft; 54. a third sliding groove; 55. a slide bar; 56. a blower; 57. an ink coating tube; 58. a second nozzle; 59. a first sliding chamber; 60. a second sliding chamber; 61. collecting the shells; 62. a collection chamber; 63. a suction fan; 64. a third bellows; 65. compressing the shell; 66. a compression chamber; 67. a second hydraulic cylinder; 68. a second telescopic rod; 69. pushing the plate; 70. a second swing door; 71. a first swing door; 72. a mobile device; 73. a polishing device; 74. a cleaning device; 75. a scraping device; 76. and (4) a collecting device.

Detailed Description

The invention is further illustrated by the following examples:

referring to fig. 1-6, the optical lens cleaning and grinding machine includes a housing 10, a placing cavity 11 with a forward opening is provided in the housing 10, a first sliding groove 12 is provided in a left side wall of the housing 10 at a left side of the placing cavity 11, a first motor 13 is fixedly provided on a bottom wall of the first sliding groove 12, a first threaded shaft 14 is installed on the first motor 13, a lifting plate 15 is connected to the first threaded shaft 14 through a thread, a third sliding groove 54 is provided in a right side wall of the housing 10 at a right side of the placing cavity 11, a sliding rod 55 is fixedly provided on a top wall of the third sliding groove 54, an upper end of the sliding rod 55 penetrates through a right end of the lifting plate 15 and is slidably connected to a right end of the lifting plate 15, a protective cover 18 penetrating through the lifting plate 15 is fixedly provided on the lifting plate 15 in the placing cavity 11, a protective cavity 19 with a downward opening is provided in the protective cover 18, the left side wall and the right side wall of the protection cavity 19 are fixedly provided with spray pipes 20 which extend into the side wall of the protection cover 18 and are symmetrical in left and right positions, the spray pipes 20 in the placing cavity 11 are provided with first spray heads 21, the top wall of the placing cavity 11 is fixedly provided with water inlet pipes 16 which penetrate through the top wall of the placing cavity 11 and extend out of the top wall of the shell 10 in left and right positions, the lower ends of the water inlet pipes 16 are communicated with a first corrugated pipe 17, the lower end of the first corrugated pipe 17 penetrates through the top wall of the protection cover 18 and is communicated with the spray pipes 20, and the top wall of the protection cavity 19 is provided with a cleaning device 74 for cleaning lenses;

the blower 56 is installed on the rear side wall of the protection cavity 19, an annular cavity 26 is arranged in the side wall of the protection cavity 19, and a moving device 72 is arranged in the annular cavity 26;

a base 40 is fixedly arranged on the bottom wall of the placing cavity 11, an annular shell 41 is arranged in the bottom wall of the placing cavity 11 around the bottom wall of the base 40, the annular shell 41 is provided with an annular collecting tank 42 with an upward opening, an annular filter plate 43 is fixedly arranged on the side wall of the annular collecting tank 42, the annular filter plate 43 is smoothly connected with the bottom wall of the placing cavity 11, a first sliding cavity 59 is fixedly arranged in the bottom wall of the placing cavity 11 on the front side of the annular shell 41, a water accumulating tank 51 is slidably connected to the bottom wall of the first sliding cavity 59, second corrugated pipes 50 symmetrical in left and right positions are fixedly arranged at the lower end of the annular shell 41, the lower end of each second corrugated pipe 50 is communicated with the water accumulating tank 51, a first rotating door 71 is rotatably connected to the front side wall of the placing cavity 11 on the front side of the first sliding cavity 59, and a scraping device 75 for scraping chips is arranged in the base 40;

a collection device 76 for collecting the debris is arranged on the bottom wall of the placing cavity 11 at the front side of the base 40.

Advantageously, the moving device 72 includes an annular limit block 27 fixed on the side wall of the annular cavity 26 close to the placing cavity 11, a second motor 28 is slidably connected to the annular limit block 27, an upward first rotating shaft 29 is installed on the second motor 28, a first gear 30 is fixed on the first rotating shaft 29, a first annular rack 31 is fixed on the side wall of the annular cavity 26 on the right side of the first gear 30, the first annular rack 31 is engaged with the annular cavity 26, a second sliding groove 25 communicated with the protective cavity 19 is arranged in the side wall of the protective cover 18 on the upper side of the first gear 30, a chassis 32 is rotatably connected to the upper end of the first gear 30, a polishing device 73 for polishing and inking lenses is arranged on the chassis 32, and when the second motor 28 is started, the first gear 30 is driven to rotate by the second motor 28 through the first rotating shaft 29, the first gear 30 drives the second motor 28 and the chassis 32 to move by engaging with the first annular rack 31.

Advantageously, the grinding device 73 comprises a third motor 33 fixed to the side of the top wall of the chassis 32 remote from the placing chamber 11, the third motor 33 is provided with a second screw shaft 34 facing the placing cavity 11, a screw block 35 is screwed on the second screw shaft 34, a grinding motor 36 is fixedly arranged on the thread block 35, a second rotating shaft 37 facing the placing cavity 11 is arranged on the grinding motor 36, the second rotating shaft 37 is provided with a universal shaft 38, the universal shaft 38 is provided with a grinding wheel 39, an ink coating pipe 57 is installed on one side wall of the chassis 32 close to the placing cavity 11, a second spray head 58 is installed on the ink coating pipe 57, when the third motor 33 is started, the third motor 33 drives the screw block 35 to move through the second screw shaft 34, the grinding motor 36 is started, and the grinding motor 36 drives the universal shaft 38 and the grinding wheel 39 to rotate through the second rotating shaft 37.

Advantageously, the cleaning device 74 includes a first hydraulic cylinder 22 fixed on the top wall of the protection chamber 19, the first hydraulic cylinder 22 is provided with a first telescopic rod 23 facing downward, the lower end of the first telescopic rod 23 is provided with a fourth motor 52, the fourth motor 52 is provided with a third rotating shaft 53 facing downward, a cleaning wheel 24 is fixed below the third rotating shaft 53, when the first hydraulic cylinder 22 is activated, the first hydraulic cylinder 22 drives the fourth motor 52 to move up and down through the first telescopic rod 23, the fourth motor 52 is activated, and the fourth motor 52 drives the cleaning wheel 24 to rotate through the third rotating shaft 53.

Advantageously, the scraping device 75 includes an annular groove 44 fixed on the side wall of the base 40, a second annular rack 45 is fixed on the top wall of the annular groove 44, a fifth motor 46 is slidably connected to the bottom wall of the annular groove 44, the fifth motor 46 is provided with a fourth rotating shaft 47 facing the center of the annular groove 44, a second gear 48 is fixed on the fourth rotating shaft 47, the second gear 48 is engaged with the second annular rack 45, a scraper 49 is fixed on a side wall of the fifth motor 46 away from the center of the annular groove 44, the scraper 49 extends out of the annular groove 44 and is slidably connected with the top wall of the annular filter plate 43, when the fifth motor 46 is started, the fifth motor 46 drives the second gear 48 to rotate through the fourth rotating shaft 47, the second gear 48 drives the fifth motor 46 to move through being engaged with the second annular rack 45, the fifth motor 46 drives the scraper 49 to move.

Beneficially, the collecting device 76 includes a collecting shell 61 fixedly disposed on the bottom wall of the placing cavity 11, a collecting cavity 62 with a backward opening is disposed in the collecting shell 61, a suction fan 63 is installed in the collecting cavity 62, a third bellows 64 is fixedly disposed on the front side wall of the collecting cavity 62, a second sliding cavity 60 is disposed in the bottom wall of the placing cavity 11 on the front side of the collecting shell 61, a compressing shell 65 is slidably connected to the bottom wall of the second sliding cavity 60, a compressing cavity 66 is disposed in the compressing shell 65, the compressing cavity 66 is communicated with the third bellows 64, a second hydraulic cylinder 67 is disposed in the rear side wall of the compressing cavity 66, a second telescopic rod 68 extending into the compressing cavity 66 is installed on the second hydraulic cylinder 67, a push plate 69 is fixedly disposed on the second telescopic rod 68, the push plate 69 is slidably connected to the side wall of the compressing cavity 66, a second rotating door 70 is rotatably connected to the side wall of the casing 10 on the front side of the compressing shell 65, when the suction fan 63 is started, the suction fan 63 sucks the debris into the compression cavity 66 through the third bellows 64, the second hydraulic cylinder 67 is started, and the second hydraulic cylinder 67 drives the push plate 69 to move through the second telescopic rod 68.

The invention relates to an optical lens cleaning and grinding machine, which comprises the following working procedures:

when an operator places a lens on the base 40, the first motor 13 is started, the first motor 13 drives the lifting plate 15 to move downwards through the first threaded shaft 14, the lifting plate 15 drives the protective cover 18 to move downwards, the bottom wall of the protective cover 18 is in abutting connection with the bottom wall of the placement cavity 11, the second motor 28 is started, the second motor 28 drives the first gear 30 to rotate through the first rotating shaft 29, the first gear 30 drives the second motor 28 and the chassis 32 to move through meshing with the first annular rack 31, the third motor 33 is started, the third motor 33 drives the threaded block 35 to move through the second threaded shaft 34, the polishing motor 36 is started, and the polishing motor 36 drives the universal shaft 38 and the polishing wheel 39 to rotate through the second rotating shaft 37, the universal shaft 38 polishes the lens, and the second spray head 58 applies ink to the lens;

after polishing is finished, the first hydraulic cylinder 22 is started, the first hydraulic cylinder 22 drives the fourth motor 52 to move up and down through the first telescopic rod 23, the fourth motor 52 is started, the fourth motor 52 drives the cleaning wheel 24 to rotate through the third rotating shaft 53, the water inlet pipe 16 is connected with a cleaning agent, the cleaning agent is sprayed out of the lens through the first spray head 21, and the cleaning wheel 24 rotates to clean the surface of the lens;

when cleaning is completed, the cleaning agent mixed with the debris for cleaning flows onto the ring filter plate 43, the blower 56 is activated, the blower 56 air dries the lens on the base 40, and blows off the debris remaining on the top wall of the base 40 onto the ring filter 43, the ring filter 43 only provides a flow of water therethrough, the fifth motor 46 is started, the fifth motor 46 drives the second gear 48 to rotate through the fourth rotating shaft 47, the second gear 48 drives the fifth motor 46 to rotate by meshing with the second annular rack 45, the fifth motor 46 drives the scraper 49 to rotate, the scraper 49 scrapes the debris on the annular filter plate 43, scraping the debris to the rear side of the collection case 61, and allowing the detergent to flow into the water accumulating tank 51 through the second bellows 50 via the annular filter plate 43;

when the piece is scraped to the collection shell 61 rear side, suction fan 63 starts, suction fan 63 inhales the piece through third bellows 64 to in the compression chamber 66, second hydraulic cylinder 67 starts, second telescopic link 68 extends, second telescopic link 68 drives push pedal 69 promotes forward, compresses the piece, and when collecting to a certain extent, the operator takes out the lens piece that compresses into the piece from compression chamber 66 through opening second revolving door 70 and with compression shell 65 pulls out.

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. An optical lens cleaning sander comprising a housing (10), characterized in that: the improved structure is characterized in that a placing cavity (11) with a forward opening is arranged in the casing (10), a first sliding groove (12) is arranged in the left side wall of the casing (10) on the left side of the placing cavity (11), a first motor (13) is fixedly arranged on the bottom wall of the first sliding groove (12), a first threaded shaft (14) is installed on the first motor (13), a lifting plate (15) is connected to the first threaded shaft (14) in a threaded manner, a third sliding groove (54) is arranged in the right side wall of the casing (10) on the right side of the placing cavity (11), a sliding rod (55) is fixedly arranged on the top wall of the third sliding groove (54), the upper end of the sliding rod (55) penetrates through the right end of the lifting plate (15) and is slidably connected with the right end of the lifting plate (15), a protective cover (18) penetrating through the lifting plate (15) is fixedly arranged on the lifting plate (15) in the placing cavity (11), and a protective cavity (19) with a downward opening is arranged in the protective cover (18), the left side wall and the right side wall of the protection cavity (19) are fixedly provided with water spray pipes (20) which extend into the side wall of the protection cover (18) and are symmetrical in left and right positions, the water spray pipes (20) in the placing cavity (11) are provided with first spray heads (21), the top wall of the placing cavity (11) is fixedly provided with water inlet pipes (16) which penetrate through the top wall of the placing cavity (11) and extend out of the top wall of the shell (10) and are symmetrical in left and right positions, the lower end of each water inlet pipe (16) is communicated with a first corrugated pipe (17), the lower end of each first corrugated pipe (17) penetrates through the top wall of the protection cover (18) and is communicated with the water spray pipes (20), and the top wall of the protection cavity (19) is provided with a cleaning device (74) for cleaning lenses;

a blower (56) is mounted on the rear side wall of the protection cavity (19), an annular cavity (26) is arranged in the side wall of the protection cavity (19), and a moving device (72) is arranged in the annular cavity (26);

the improved corrugated pipe is characterized in that a base (40) is fixedly arranged on the bottom wall of the placing cavity (11), an annular shell (41) is arranged in the bottom wall of the placing cavity (11) and around the bottom wall of the base (40), an annular collecting groove (42) with an upward opening is arranged on the annular shell (41), an annular filter plate (43) is fixedly arranged on the side wall of the annular collecting groove (42), the annular filter plate (43) is smoothly connected with the bottom wall of the placing cavity (11), a first sliding cavity (59) is fixedly arranged in the bottom wall of the placing cavity (11) at the front side of the annular shell (41), a water accumulating box (51) is slidably connected with the bottom wall of the first sliding cavity (59), a second corrugated pipe (50) with symmetrical left and right positions is fixedly arranged at the lower end of the annular shell (41), the lower end of the second corrugated pipe (50) is communicated with the water accumulating box (51), and a first sliding door (71) is rotatably connected with the front side wall of the placing cavity (11) at the front side of the first sliding cavity (59), a scraping device (75) for scraping scraps is arranged in the base (40);

a collection device (76) for collecting the debris is arranged on the bottom wall of the placing cavity (11) on the front side of the base (40).

2. An optical lens cleaning polisher according to claim 1 with the following features: the moving device (72) comprises an annular limiting block (27) fixedly arranged on the side wall of the annular cavity (26) close to the placing cavity (11), the annular limiting block (27) is connected with a second motor (28) in a sliding way, the second motor (28) is provided with a first rotating shaft (29) which faces upwards, a first gear (30) is fixedly arranged on the first rotating shaft (29), a first annular rack (31) is fixedly arranged on the side wall of the annular cavity (26) on the right side of the first gear (30), the first annular rack (31) is meshed with the annular cavity (26), a second sliding groove (25) communicated with the protective cavity (19) is arranged in the side wall of the protective cover (18) on the upper side of the first gear (30), the upper end of the first gear (30) is rotatably connected with a chassis (32), and a polishing device (73) for polishing and inking lenses is arranged on the chassis (32).

3. An optical lens cleaning polisher according to claim 2 with the following features: grinding device (73) including set firmly in chassis (32) roof is kept away from place third motor (33) on one side of chamber (11), third motor (33) are installed and are faced place second screw thread axle (34) of chamber (11), threaded connection has screw block (35) on second screw thread axle (34), grinding motor (36) have set firmly on screw block (35), install the orientation on grinding motor (36) place second axis of rotation (37) of chamber (11), install universal shaft (38) on second axis of rotation (37), install grinding wheel (39) on universal shaft (38), chassis (32) are close to place a side wall mounting of chamber (11) and have scribbled ink pipe (57), scribble and install second shower nozzle (58) on ink pipe (57).

4. An optical lens cleaning polisher according to claim 1 with the following features: cleaning device (74) including set firmly in first pneumatic cylinder (22) on protection chamber (19) roof, first telescopic link (23) down is installed in first pneumatic cylinder (22), fourth motor (52) have been set firmly to first telescopic link (23) lower extreme, third axis of rotation (53) down is installed in fourth motor (52), third axis of rotation (53) below sets firmly cleaning wheel (24).

5. An optical lens cleaning polisher according to claim 1 with the following features: scrape get device (75) including set firmly in ring channel (44) on base (40) lateral wall, second annular rack (45) have set firmly on ring channel (44) the roof, sliding connection has fifth motor (46) on ring channel (44) diapire, the orientation is installed in fifth motor (46) fourth axis of rotation (47) in the ring channel (44) the centre of a circle, second gear (48) have set firmly on fourth axis of rotation (47), second gear (48) with second annular rack (45) meshing, fifth motor (46) are kept away from scraper blade (49) have set firmly on the lateral wall in ring channel (44) the centre of a circle, scraper blade (49) extend to ring channel (44) outer and with annular filter plate (43) roof sliding connection.

6. An optical lens cleaning polisher according to claim 1 with the following features: the collecting device (76) comprises a collecting shell (61) fixedly arranged on the bottom wall of the placing cavity (11), a collecting cavity (62) with an opening facing backwards is arranged in the collecting shell (61), a suction fan (63) is installed in the collecting cavity (62), a third corrugated pipe (64) is fixedly arranged on the front side wall of the collecting cavity (62), a second sliding cavity (60) is arranged in the bottom wall of the placing cavity (11) on the front side of the collecting shell (61), a compression shell (65) is connected to the bottom wall of the second sliding cavity (60) in a sliding manner, a compression cavity (66) is arranged in the compression shell (65), the compression cavity (66) is communicated with the third corrugated pipe (64), a second hydraulic cylinder (67) is arranged in the rear side wall of the compression cavity (66), a second telescopic rod (68) extending into the compression cavity (66) is installed on the second hydraulic cylinder (67), and a push plate (69) is fixedly arranged on the second telescopic rod (68), the push plate (69) is in sliding connection with the side wall of the compression cavity (66), and a second rotating door (70) is rotatably connected to the side wall of the machine shell (10) on the front side of the compression shell (65).