CN115365938B

CN115365938B - Clean type edging device for optical lens

Info

Publication number: CN115365938B
Application number: CN202211202409.2A
Authority: CN
Inventors: 陈祖国
Original assignee: Jiangxi Xinhe Photoelectric Co ltd
Current assignee: Jiangxi Xinhe Photoelectric Co ltd
Priority date: 2022-09-29
Filing date: 2022-09-29
Publication date: 2024-02-02
Anticipated expiration: 2042-09-29
Also published as: CN115365938A

Abstract

The invention relates to the field of optical lens processing, in particular to an optical lens cleaning type edging device. The invention provides an optical lens cleaning type edging device which realizes automatic polishing and effectively prevents scraps from falling on a lens. The utility model provides an optical lens clean type edging device, is including main framework and polisher, and the polisher is installed on the inside left side of main framework, and open on main framework right side has the operation mouth, still including fixed establishment and rotary mechanism, the inside fixed establishment that is used for fixed and covers optical lens that is equipped with of main framework, is equipped with rotary mechanism on the main framework. The sucker clamps and fixes the optical lens, and simultaneously covers the position where the optical lens does not need to be polished, so that scraps generated during polishing are prevented from splashing on the surface of the optical lens, the later cleaning procedure is reduced, the second spur gear drives the damping rod and the sucker to rotate under the action of the annular teeth, and the polisher is used for edging the rotating optical lens, so that automatic polishing is realized.

Description

Clean type edging device for optical lens

Technical Field

The invention relates to the field of optical lens processing, in particular to an optical lens cleaning type edging device.

Background

In order to improve the processing quality of the optical lens, the optical lens is generally subjected to edging processing, when the existing optical lens edging processing equipment is used, workers are required to manually take the optical lens to contact a polisher for edging, scraps generated by edging can splash on the optical lens, scraps on the optical lens are required to be cleaned in a later period, the working procedure of optical lens production is increased, the probability of processing failure of the optical lens is higher as the processing steps are more, and the probability of occurrence of waste products during optical lens processing is improved.

How to design an optical lens cleaning type edging device capable of realizing automatic polishing and effectively preventing scraps from falling on a lens is a technical problem to be solved by the patent.

Disclosure of Invention

In order to overcome the defects that in the prior art, workers need to manually take the optical lens to contact with the polisher for edging, and scraps generated by edging can splash on the optical lens, scraps on the optical lens need to be cleaned in the later period, and the working procedure of optical lens production is increased, the technical problem is as follows: provided is an optical lens cleaning type edging device capable of realizing automatic polishing and effectively preventing scraps from falling on a lens.

The technical scheme of the invention is as follows: the utility model provides an optical lens clean type edging device, including main framework and polisher, the polisher is installed on the inside left side of main framework, and open on main framework right side has the operation mouth, still including fixed establishment and rotary mechanism, the inside fixed establishment that is used for fixed and covers optical lens that is equipped with of main framework is equipped with rotary mechanism on the main framework, rotary mechanism drive fixed establishment drive optical lens rotate to with the polisher contact, rotary mechanism drives optical lens rotation simultaneously and carries out the edging.

Further, fixed establishment is including first pivot, mount, sucking disc and damping pole, and the rotation type is connected with first pivot in the middle of the main frame body, and first pivot intermediate junction has the mount, and the upper and lower both sides in the mount outside all are evenly circumference interval slip type and are connected with the damping pole, and the inboard equal rotation type of damping pole is connected with the sucking disc that is used for pressing from both sides tight fixed optical lens piece, all opens the through-hole in the middle of the damping pole, and the through-hole communicates with each other with the sucking disc, and optical lens piece is placed on the sucking disc of downside.

Further, rotary mechanism is including drive assembly, annular tooth, second straight-tooth wheel and torsion spring, be equipped with between main framework and the first pivot and be used for driving first pivot pivoted drive assembly, both sides all are connected with annular tooth about the main framework, all be connected with the second straight-tooth wheel on the sucking disc, the second straight-tooth wheel of upside all meshes with the annular tooth of upside, the second straight-tooth wheel of downside all meshes with the annular tooth of downside, all the cover has torsion spring on the damping pole, torsion spring's both ends are connected with damping pole and second straight-tooth wheel, drive assembly drive first pivot automatic rotation drive mount, damping pole and sucking disc rotate, the sucking disc drives the optical lens and rotates to with the polisher contact, drive second straight-tooth wheel rotation under annular tooth and torsion spring's effect, second straight-tooth wheel drives sucking disc and optical lens rotation realization polishing.

Further, the drive assembly is including motor, lack gear and first gear, and the motor is installed at main framework top, and the output shaft of motor passes main framework top, and the output shaft lower extreme of motor is connected with lack gear, and first pivot upper portion is connected with first gear, lacks gear and first gear engagement, and motor drive lacks gear and drives first gear and first pivot rotation.

Further, the automatic clamping and unclamping device for the optical lens further comprises an exhaust mechanism for automatically clamping and unclamping the optical lens by the sucker, the automatic clamping and unclamping device comprises a first limiting frame, a second limiting frame, a first limiting rod, a first linear spring, an air plug, a second limiting rod, a sliding rod and a second linear spring, wherein the front side of the right wall inside the main frame body is connected with the first limiting frame, the front side of the right wall inside the main frame body is connected with the second limiting frame, the second limiting frame is located at the rear side of the first limiting frame, the middle part of the damping rod is connected with the first limiting rod, the first limiting rod is contacted with the second limiting frame, the middle part of the damping rod is connected with the first linear spring, the outer end of the damping rod is connected with the sliding rod, the second limiting rod is connected with the sliding rod in a sliding mode, the air plug used for blocking a through hole is sleeved on the sliding rod, the two ends of the second linear spring are connected with the damping rod and the second limiting rod, the first limiting frame extrudes the second limiting rod and the air plug outwards, the air plug does not stop and the through hole, the sucker automatically unclamps the optical lens, the first limiting rod rotates with the second limiting rod and the first limiting rod and the second limiting rod is separated from the first linear spring, and the optical lens moves downwards under the action of the damping rod is clamped by the action of the first limiting rod.

Further, the polishing device comprises a coating mechanism for coating the polishing liquid on the edge of the optical lens, the coating mechanism comprises a storage vat, a liquid conveying pipe and coating beads, the rear side of the top of the main frame body is connected with the storage vat, the lower side of the front wall of the storage vat is communicated with the liquid conveying pipe, the front end of the liquid conveying pipe is rotatably connected with the coating beads, the top of the storage vat is provided with a feed inlet, and the coating beads coat the polishing liquid on the edge of the rotating optical lens.

Further, the cleaning mechanism for cleaning the optical lens is further arranged, the cleaning mechanism comprises a fixing rod, absorbent cotton and a third linear spring, the fixing rod is connected in the middle of the front portion of the main frame body, the absorbent cotton is connected in the middle of the fixing rod in a sliding mode, the absorbent cotton wipes the optical lens which rotates, the third linear spring is connected between the rear portion of the absorbent cotton and the fixing rod, and the third linear spring is sleeved on the fixing rod.

Further, still including the mixed mechanism that is used for preventing layering phenomenon appears after the grinding fluid stewed for a long time, mixed mechanism is including flat belt, second pivot and stirring frame, bottom rear side rotation in the main frame body is connected with the second pivot, first pivot lower part is connected with the middle rotation of storage vat bottom through the drive wheel with second pivot lower part, second pivot upper portion is connected with the stirring frame, the stirring frame is located the storage vat inside, first pivot drives the second pivot through flat belt and rotates, the second pivot drives the stirring frame and rotates the grinding fluid that stirs in the storage vat.

The invention has the advantages that: the sucker clamps and fixes the optical lens, and simultaneously covers the position of the optical lens which is not required to be polished, so that scraps generated during polishing are prevented from splashing on the surface of the optical lens, the later cleaning procedure is reduced, the second spur gear drives the sucker to rotate under the action of the annular teeth, and the polisher is used for edging the rotating optical lens, so that automatic polishing is realized; the first limiting frame extrudes the second limiting rod and the air plug outwards, and the air plug does not block the through hole any more, so that the sucker automatically loosens the optical lens; under the action of the first linear spring, the sucker is driven to move inwards by the damping rod to automatically clamp the optical lens; the coating beads coat the grinding liquid on the edge of the rotating optical lens, so that the edging efficiency of the optical lens is improved, and the rejection rate is reduced; the absorbent cotton wipes the rotating optical lens, so that the edge of the optical lens is cleaned; the stirring frame rotates and stirs the grinding fluid in the storage vat, prevents that the layering phenomenon from appearing after the grinding fluid stews for a long time.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partial perspective structure of the present invention.

Fig. 3 is a schematic perspective view of the fixing mechanism of the present invention.

Fig. 4 is an enlarged perspective view of the present invention at a.

Fig. 5 is a schematic perspective view of a first part of the rotary mechanism of the present invention.

Fig. 6 is an enlarged perspective view of the structure of the present invention at B.

Fig. 7 is a schematic perspective view of a second part of the rotary mechanism of the present invention.

Fig. 8 is an enlarged perspective view of the present invention at C.

Fig. 9 is a schematic perspective view of a first part of the exhaust mechanism of the present invention.

Fig. 10 is a schematic perspective view of a second part of the exhaust mechanism of the present invention.

Fig. 11 is an enlarged perspective view of the present invention at D.

Fig. 12 is a schematic perspective view of the smearing mechanism of the present invention.

Fig. 13 is a schematic perspective view of a cleaning mechanism according to the present invention.

Fig. 14 is a schematic perspective view of a first part of the mixing mechanism of the present invention.

FIG. 15 is a schematic perspective view of a second portion of a mixing mechanism according to the present invention.

Part names and serial numbers in the figure: the device comprises a 1-main frame body, a 2-grinding machine, a 3-fixing mechanism, a 31-first rotating shaft, a 32-fixing frame, a 33-sucking disc, a 34-damping rod, a 35-through hole, a 4-rotating mechanism, a 41-motor, a 42-gear lack, a 43-first straight gear, a 44-annular gear, a 45-second straight gear, a 46-torsion spring, a 5-exhausting mechanism, a 51-first limit frame, a 52-second limit frame, a 53-first limit rod, a 54-first straight spring, a 55-air plug, a 56-second limit rod, a 57-sliding rod, a 58-second straight spring, a 6-smearing mechanism, a 61-storage barrel, a 62-infusion tube, 63-smearing beads, a 64-feeding hole, a 7-cleaning mechanism, a 71-fixing rod, a 72-absorbent cotton, a 73-third straight spring, a 8-mixing mechanism, a 81-flat belt, a 82-second rotating shaft and a 83-stirring frame.

Detailed Description

The following describes in detail the preferred embodiments of the present invention with reference to the accompanying drawings.

Example 1

The utility model provides an optical lens clean type edging device, refer to fig. 1-8, including main framework 1, polisher 2, fixed establishment 3 and rotary mechanism 4, polisher 2 is installed to the inside left side of main framework 1, and open on main framework 1 right side has the operation mouth, and main framework 1 is inside to be equipped with fixed establishment 3, and fixed establishment 3 is used for pressing from both sides tight fixed optical lens, is equipped with rotary mechanism 4 on the main framework 1, and rotary mechanism 4 is used for optical lens rotation to edging. Referring to fig. 3-4, the fixing mechanism 3 includes a first rotating shaft 31, a fixing frame 32, suction cups 33 and a damping rod 34, the middle of the main frame 1 is rotatably connected with the first rotating shaft 31, the middle of the first rotating shaft 31 is connected with the fixing frame 32, the upper side and the lower side of the outer side of the fixing frame 32 are uniformly and circumferentially and alternately connected with four damping rods 34 in a sliding manner, the inner sides of the damping rods 34 are rotatably connected with the suction cups 33, the suction cups 33 are used for clamping and fixing optical lenses, through holes 35 are formed in the middle of the damping rods 34, the through holes 35 are communicated with the suction cups 33, and the optical lenses are placed on the suction cups 33 on the lower side. Referring to fig. 5-8, the rotating mechanism 4 includes a driving assembly, an annular tooth 44, a second spur gear 45 and a torsion spring 46, wherein the driving assembly is disposed between the main frame 1 and the first rotating shaft 31, the driving assembly is used for driving the first rotating shaft 31 to rotate, the annular tooth 44 is connected to the upper and lower sides of the main frame 1, the second spur gears 45 are connected to the eight sucking discs 33 in a key manner, the four second spur gears 45 on the upper side are meshed with the annular tooth 44 on the upper side, the four second spur gears 45 on the lower side are meshed with the annular tooth 44 on the lower side, the torsion springs 46 are sleeved on the eight damping rods 34, and two ends of the torsion springs 46 are connected with the damping rods 34 and the second spur gears 45. Referring to fig. 5 to 8, the driving assembly includes a motor 41, a gear 42 and a first gear 43, the motor 41 is mounted on the top of the main frame 1, an output shaft of the motor 41 passes through the top of the main frame 1, the gear 42 is connected to the lower end of the output shaft of the motor 41, the first gear 43 is connected to the upper portion of the first rotating shaft 31, and the gear 42 is meshed with the first gear 43. When in use, firstly, people manually move the damping rod 34 outwards through the operation opening of the main frame body 1, the damping rod 34 drives the sucker 33, the second straight gear 45 and the torsion spring 46 to move outwards, then the optical lens is placed on the sucker 33, then the damping rod 34 is manually moved inwards, the damping rod 34 drives the sucker 33, the second straight gear 45 and the torsion spring 46 to move inwards, so that the sucker 33 clamps and fixes the optical lens, meanwhile, the position where the optical lens does not need to be polished is covered, fragments generated during polishing are ensured not to splash on the surface of the optical lens, the later cleaning procedure is reduced, the through hole 35 is plugged, meanwhile, the second straight gear 45 moves inwards to be meshed with the toothed part of the annular gear 44, then the motor 41 and the polisher 2 are started, the output shaft of the motor 41 rotates to drive the gear-lack 42, when the toothed part of the gear-lack 42 is meshed with the first straight gear 43, and then the first straight gear 43 rotates, the first spur gear 43 drives the first rotating shaft 31 to rotate and further drives the fixed frame 32 to rotate, the fixed frame 32 drives the damping rod 34, the sucker 33, the second spur gear 45 and the torsion spring 46 to rotate, the second spur gear 45 is driven to rotate under the action of the annular teeth 44, the torsion spring 46 deforms, the second spur gear 45 drives the sucker 33 to rotate, when the toothed part of the gear-missing 42 is separated from the first spur gear 43, the second spur gear 45 is separated from the toothed part of the annular teeth 44 at the same time, and further the second spur gear 45 and the sucker 33 are driven to reversely reset under the action of the torsion spring 46, so that when the optical lens is contacted with the grinding machine 2, the toothed part of the gear-missing 42 is separated from the first spur gear 43, the second spur gear 45 is separated from the toothed part of the annular teeth 44, the second spur gear 45, the sucker 33 and the optical lens are driven to reversely rotate under the action of the reset of the torsion spring 46, after the polishing machine 2 is used for polishing the inverted optical lens, when the sucker 33 drives the optical lens to rotate to the operation opening of the main frame body 1, the through hole 35 is not blocked, the sucker 33 loosens the optical lens, the damping rod 34 is manually moved outwards, the damping rod 34 drives the sucker 33, the second spur gear 45 and the torsion spring 46 to move outwards, people can take out the optical lens, the operations are repeated, a plurality of optics can be polished, and when the device is not needed, the motor 41 and the polishing machine 2 are closed.

Example 2

On the basis of embodiment 1, referring to fig. 1, fig. 2, fig. 9, fig. 10 and fig. 11, the air discharging mechanism 5 is further included, the air discharging mechanism 5 includes a first limit frame 51, a second limit frame 52, a first limit rod 53, a first linear spring 54, an air plug 55, a second limit rod 56, a slide rod 57 and a second linear spring 58, the front side of the right wall inside the main frame 1 is connected with the first limit frame 51, the front side of the right wall inside the main frame 1 is connected with the second limit frame 52, the second limit frame 52 is located at the rear side of the first limit frame 51, the middle parts of the eight damping rods 34 are welded with the first limit rods 53, the first limit rods 53 rotate to be in contact with the second limit frame 52, the middle parts of the eight damping rods 34 are connected with the first linear springs 54 between the fixing frames 32, the outer ends of the eight damping rods 34 are welded with the slide rods 57, the slide rods 57 are connected with the second limit rods 56 in a sliding mode, the second limit rods 56 are connected with the air plugs 55, the air plugs 55 are used for plugging through holes 35, the slide rods 57 are sleeved with the second limit rods 58, and the two ends of the second linear springs 34 are connected with the second linear springs 56. When the damping rod 34 rotates, the first limiting rod 53, the first linear spring 54, the air plug 55, the second limiting rod 56, the sliding rod 57 and the second linear spring 58 are driven to rotate, when the second limiting rod 56 contacts the first limiting frame 51, the first limiting frame 51 presses the second limiting rod 56 outwards, the second linear spring 58 is stretched, the second limiting rod 56 drives the air plug 55 to move outwards to avoid blocking the through hole 35, so that the sucker 33 loosens the optical lens, when the second limiting rod 56 is separated from the first limiting frame 51, the second limiting rod 56 and the air plug 55 are driven to move inwards to reset under the reset action of the second linear spring 58, so that the air plug 55 blocks the through hole 35, and then the first limiting rod 53 contacts the second limiting frame 52, the second limiting frame 52 extrudes the first limiting rod 53 outwards, the first limiting rod 53 drives the damping rod 34 to move outwards, the first straight-line spring 54 is compressed, the damping rod 34 drives the sucker 33, the second straight-line gear 45 and the torsion spring 46 to move outwards, so that the sucker 33 moves outwards, one can take out an optical lens, then another optical lens is placed on the sucker 33, when the first limiting rod 53 is separated from the second limiting frame 52, the damping rod 34, the first limiting rod 53, the sucker 33, the second straight-line gear 45 and the torsion spring 46 are driven to move inwards under the reset action of the first straight-line spring 54, the sucker 33 moves inwards to clamp and fix the optical lens, and the second straight-line gear 45 moves inwards to be meshed with the annular teeth 44.

Referring to fig. 1, 2 and 12, the polishing device further comprises a coating mechanism 6, the coating mechanism 6 comprises a storage vat 61, a liquid conveying pipe 62 and coating beads 63, the rear side of the top of the main frame body 1 is connected with the storage vat 61, the storage vat 61 is used for storing polishing liquid, the lower side of the front wall of the storage vat 61 is communicated with the liquid conveying pipe 62, the front end of the liquid conveying pipe 62 is rotatably connected with the coating beads 63, the coating beads 63 are used for coating the polishing liquid on an optical lens, and a feed port 64 is formed in the top of the storage vat 61. The appropriate amount of grinding fluid is added into the storage barrel 61 through the feed inlet 64, the grinding fluid flows into the infusion tube 62, when the optical lens contacts with the smearing beads 63, the toothed part of the just-lacking gear 42 is separated from the first straight gear 43, the toothed part of the second straight gear 45 is separated from the annular gear 44, the second straight gear 45, the sucking disc 33 and the optical lens are driven to rotate reversely under the reset action of the torsion spring 46, the smearing beads 63 smear the grinding fluid on the edge of the rotating optical lens, the edging efficiency of the optical lens is improved, and the rejection rate is reduced.

Referring to fig. 1, 2 and 13, the cleaning device further comprises a cleaning mechanism 7, the cleaning mechanism 7 comprises a fixing rod 71, absorbent cotton 72 and a third linear spring 73, the fixing rod 71 is connected in the middle of the front portion of the main frame body 1, the absorbent cotton 72 is connected in the middle of the fixing rod 71 in a sliding mode, the absorbent cotton 72 is used for wiping an optical lens, the third linear spring 73 is connected between the rear portion of the absorbent cotton 72 and the fixing rod 71, and the third linear spring 73 is sleeved on the fixing rod 71. When the optical lens contacts with the absorbent cotton 72, the toothed part of the just lacking gear 42 is separated from the first straight gear 43, the toothed part of the second straight gear 45 is separated from the annular gear 44, the second straight gear 45, the sucker 33 and the optical lens are driven to rotate reversely under the reset action of the torsion spring 46, so that the absorbent cotton 72 wipes the reversely rotating optical lens, the absorbent cotton 72 is cleaned, people manually moves the absorbent cotton 72 forwards, the third straight spring 73 is compressed, people can clean the absorbent cotton 72, after the cleaning is finished, the absorbent cotton 72 is loosened, and then the absorbent cotton 72 is driven to move backwards to reset under the reset action of the third straight spring 73.

Referring to fig. 1, 2, 14 and 15, the grinding machine further comprises a mixing mechanism 8, the mixing mechanism 8 comprises a flat belt 81, a second rotating shaft 82 and a stirring frame 83, the rear side of the bottom in the main frame 1 is rotatably connected with the second rotating shaft 82, the lower part of the first rotating shaft 31 and the lower part of the second rotating shaft 82 are wound with the flat belt 81 through driving wheels, the upper part of the second rotating shaft 82 is rotatably connected with the middle of the bottom of the storage vat 61, the upper part of the second rotating shaft 82 is connected with the stirring frame 83, the stirring frame 83 is positioned inside the storage vat 61, and the stirring frame 83 is used for stirring grinding liquid. When the first rotating shaft 31 rotates, the second rotating shaft 82 is driven to rotate by the driving wheel and the flat belt 81, and the second rotating shaft 82 drives the stirring frame 83 to rotate, so that the grinding fluid in the storage barrel 61 is stirred, and layering phenomenon of the grinding fluid after long-time standing is prevented.

The foregoing has outlined rather broadly the more detailed description of the present application, wherein specific examples have been provided to illustrate the principles and embodiments of the present application, the description of the examples being provided solely to assist in the understanding of the method of the present application and the core concepts thereof; meanwhile, as those skilled in the art will have modifications in the specific embodiments and application scope in accordance with the ideas of the present application, the present description should not be construed as limiting the present application in view of the above.

Claims

1. The utility model provides an optical lens clean type edging device, including main framework (1) and polisher (2), polisher (2) are installed in inside left side of main framework (1), and open on main framework (1) right side has the operation mouth, and its characterized in that still includes fixed establishment (3) and rotary mechanism (4), is equipped with fixed establishment (3) that are used for fixed and cover optical lens in main framework (1), is equipped with rotary mechanism (4) on main framework (1), rotary mechanism (4) drive fixed establishment (3) drive optical lens rotate to contact with polisher (2), and rotary mechanism (4) drive optical lens rotation simultaneously and edging;

the fixing mechanism (3) comprises a first rotating shaft (31), a fixing frame (32), suction discs (33) and damping rods (34), wherein the middle of the main frame body (1) is rotationally connected with the first rotating shaft (31), the middle of the first rotating shaft (31) is connected with the fixing frame (32), the upper side and the lower side of the outer side of the fixing frame (32) are uniformly circumferentially and alternately connected with the damping rods (34) in a sliding mode, the inner sides of the damping rods (34) are rotationally connected with the suction discs (33) used for clamping and fixing the optical lenses, through holes (35) are formed in the middle of the damping rods (34), the through holes (35) are communicated with the suction discs (33), and the optical lenses are placed on the suction discs (33) on the lower side;

the rotary mechanism (4) comprises a driving assembly, annular teeth (44), second spur gears (45) and torsion springs (46), wherein the driving assembly for driving the first rotating shaft (31) to rotate is arranged between the main frame body (1) and the first rotating shaft (31), the annular teeth (44) are connected to the upper side and the lower side of the main frame body (1), the second spur gears (45) are connected to the sucking discs (33), the upper second spur gears (45) are meshed with the upper annular teeth (44), the lower second spur gears (45) are meshed with the lower annular teeth (44), the torsion springs (46) are sleeved on the damping rods (34), the two ends of the torsion springs (46) are connected with the damping rods (34) and the second spur gears (45), the driving assembly drives the first rotating shaft (31) to automatically rotate so as to drive the fixing frame (32), the damping rods (34) and the sucking discs (33), the sucking discs (33) drive the optical lenses to rotate to be in contact with the grinding machine (2), and the second spur gears (45) are driven by the annular teeth (44) and the torsion springs (46) to drive the second spur gears (45) to rotate automatically under the action of the damping rods (34) to polish the second spur gears (45).

The driving assembly comprises a motor (41), a gear-missing (42) and a first straight gear (43), the motor (41) is installed at the top of the main frame body (1), an output shaft of the motor (41) penetrates through the top of the main frame body (1), the gear-missing (42) is connected to the lower end of the output shaft of the motor (41), the first straight gear (43) is connected to the upper portion of the first rotating shaft (31), the gear-missing (42) is meshed with the first straight gear (43), and the motor (41) drives the gear-missing (42) to drive the first straight gear (43) and the first rotating shaft (31) to rotate;

when the optical lens contacts with the grinding machine (2), the toothed part of the just-lacking gear (42) is separated from the first straight gear (43), the toothed part of the second straight gear (45) is separated from the annular tooth (44), and the second straight gear (45), the sucker (33) and the optical lens are driven to rotate reversely under the reset action of the torsion spring (46).

2. The clean edging device for optical lenses according to claim 1, further comprising an air exhausting mechanism (5) for automatically clamping and loosening the optical lenses by using the suction disc (33), wherein the air exhausting mechanism (5) comprises a first limit frame (51), a second limit frame (52), a first limit rod (53), a first linear spring (54), an air plug (55), a second limit rod (56), a slide rod (57) and a second linear spring (58), the front side of the right wall inside the main frame body (1) is connected with the first limit frame (51), the front side of the right wall inside the main frame body (1) is connected with the second limit frame (52), the second limit frame (52) is positioned at the rear side of the first limit frame (51), the middle part of the damping rod (34) is connected with the first limit rod (53), the first limit rod (53) is contacted with the second limit frame (52), the middle part of the damping rod (34) is connected with the first linear spring (54) between the fixing frame (32), the outer ends of the damping rod (34) are connected with the slide rod (57), the slide rod (57) is connected with the second limit rod (56), the second limit rod (56) is connected with the air plug (55) through holes (55), the two ends of the second linear spring (58) are connected with the damping rod (34) and the second limiting rod (56), the first limiting frame (51) is used for extruding the second limiting rod (56) and the air plug (55) outwards, the air plug (55) is not used for blocking the through hole (35), the sucker (33) is used for automatically loosening the optical lens, the first limiting rod (53) is rotated to be separated from the second limiting frame (52), and the sucker (33) is driven to move inwards to clamp the optical lens under the action of the first linear spring (54) through the damping rod (34).

3. The clean edging device for the optical lens according to claim 1, further comprising an smearing mechanism (6) for smearing grinding fluid on the edge of the optical lens, wherein the smearing mechanism (6) comprises a storage vat (61), a liquid conveying pipe (62) and smearing beads (63), the rear side of the top of the main frame body (1) is connected with the storage vat (61), the liquid conveying pipe (62) is communicated with the lower side of the front wall of the storage vat (61), the front end of the liquid conveying pipe (62) is rotatably connected with the smearing beads (63), the top of the storage vat (61) is provided with a feed inlet (64), and the liquid conveying beads (63) smear the grinding fluid on the edge of the rotating optical lens.

4. The clean edging device for optical lenses according to claim 1, further comprising a cleaning mechanism (7) for cleaning the optical lenses, wherein the cleaning mechanism (7) comprises a fixing rod (71), water absorbing cotton (72) and a third linear spring (73), the fixing rod (71) is connected in the middle of the front portion of the main frame body (1), the water absorbing cotton (72) is connected in the middle of the fixing rod (71) in a sliding mode, the water absorbing cotton (72) wipes the rotating optical lenses, the third linear spring (73) is connected between the rear portion of the water absorbing cotton (72) and the fixing rod (71), and the third linear spring (73) is sleeved on the fixing rod (71).

5. The clean edging device of optical lens piece according to claim 3, characterized by further comprising a mixing mechanism (8) for preventing layering phenomenon after grinding fluid is kept stand for a long time, wherein the mixing mechanism (8) comprises a flat belt (81), a second rotating shaft (82) and a stirring frame (83), the second rotating shaft (82) is rotatably connected to the rear side of the bottom in the main frame body (1), the flat belt (81) is wound on the lower portion of the first rotating shaft (31) and the lower portion of the second rotating shaft (82) through a driving wheel, the upper portion of the second rotating shaft (82) is rotatably connected with the middle of the bottom of the storage barrel (61), the stirring frame (83) is connected to the upper portion of the second rotating shaft (82), the stirring frame (83) is located inside the storage barrel (61), the first rotating shaft (31) drives the second rotating shaft (82) through the flat belt (81), and the second rotating shaft (82) drives the stirring frame (83) to rotatably stir grinding fluid in the storage barrel (61).