CN115647988A - Glasses lens belt cleaning device - Google Patents

Abstract

The invention discloses a spectacle lens cleaning device, which relates to the technical field of lens cleaning and comprises a bottom plate, wherein a plurality of auxiliary supporting bars are fixedly arranged on the bottom plate, clamping components are fixedly arranged on the auxiliary supporting bars, each clamping component comprises a cylinder body bracket, the cylinder body bracket is fixedly connected with the auxiliary supporting bars, a driven hydraulic cylinder is fixedly arranged on the cylinder body bracket, a pulling rod is slidably arranged on the driven hydraulic cylinder, a sliding shaft is also slidably arranged on the pulling rod, an extrusion hollow block is fixedly arranged on the sliding shaft, a sliding rack is also fixedly arranged on the sliding shaft, a sliding gear is also engaged and arranged on the sliding rack, and the meshing state of the sliding gear and the sliding rack is changed when a spectacle frame moves to a preset position through the deformation of the extrusion hollow block and the cooperation of the pulling rod, so that the sliding rack stops moving, and the size of the spectacle frame can be judged through the moving distance of the pulling rod in the driven hydraulic cylinder.

Description

Glasses lens belt cleaning device

Technical Field

The invention relates to the technical field of lens cleaning, in particular to a spectacle lens cleaning device.

Background

Glasses are simple optical devices manufactured for correcting eyesight or protecting eyes, and the glasses comprise lenses and a glasses frame, wherein the lenses are exposed in the air, some dust and grease can be attached to the lenses, if the lenses are not cleaned in time, the eyesight can be further reduced possibly, and scratches are often distributed on the lenses along with the lengthening of the using time, but the individual can only take water to clean the lenses or wipe the lenses with lint, and the scratches on the glasses can be caused due to the unclean manner.

Chinese invention patent with publication number CN106405876B discloses a self-adaptive eyeglass lens cleaning and dust removing device, relating to the field of eyeglass cleaning, the mechanism comprises a frame, a first motor, a second motor, a lens feeding conveyor belt, a lens discharging conveyor belt, a first cleaning mechanism, a lens dust removing device, a belt wheel and a belt; the first motor and the second motor are fixed on the frame, an output shaft of the first motor is fixedly connected with a belt wheel to transmit power, a belt is arranged on the belt wheel, and the lenses from the feeding conveyor belt are driven to move by the clamping action of the belts at the two sides on the edges of the lenses; the lens dust removal device comprises an air pump, a hose and a high-pressure air nozzle, wherein the air pump is fixedly connected with the rack, the hose is connected with the air pump and the high-pressure air nozzle, the device drives the double belt pulleys by using the motor to rotate so that the lens advances under the clamping force action of the belt, and the lens is cleaned and subjected to high-pressure air dust removal twice through lint cleaning and is conveyed to the packaging machine by the blanking conveying belt.

Disclosure of Invention

The invention aims to solve the technical problems that scratches which are not easy to clean on lenses are treated, and the joints of the lenses and a lens frame are required to be cleaned.

In view of the above technical problems, the present invention proposes the following solutions:

the utility model provides a glasses lens belt cleaning device, includes the bottom plate, fixed mounting has a plurality of auxiliary stay bars on the bottom plate, and fixed mounting has the centre gripping subassembly on the auxiliary stay bar, the centre gripping subassembly includes the cylinder body support, cylinder body support and auxiliary stay bar fixed connection, fixed mounting has passive pneumatic cylinder on the cylinder body support, slidable mounting has the pulling rod on the passive pneumatic cylinder, slidable mounting has the slip backup pad on the pulling rod, slip backup pad and auxiliary stay bar fixed connection, it has the sliding shaft still to slide mounting on the pulling rod, fixed mounting has the hollow piece of extrusion on the sliding shaft, it has the slip rack still to fixed mounting on the sliding shaft, slip rack and slip backup pad sliding connection, still mesh on the slip rack and install the sliding gear, slidable mounting has the centre gripping main shaft on the sliding gear, the centre gripping main shaft rotates with auxiliary stay bar and is connected.

Further, fixed mounting has the lifting slider on the auxiliary stay strip, the passive slope piece of slidable mounting on the lifting slider, passive slope piece rotates with sliding gear and is connected, still slidable mounting has the sliding block on the passive slope piece, sliding block and lifting slider sliding connection, still rotate on the sliding block and install the rotation pawl, rotate pawl and pulling rod contact, slidable mounting has the pawl kicking block on the sliding block, the one end and the rotation pawl contact of pawl kicking block, the other end fixed mounting who rotates the pawl has the steel cable, still slidable mounting has the steel cable balladeur train on the steel cable, steel cable balladeur train and lifting slider fixed connection, the other end ratchet fixed mounting of steel cable has reverse ratchet, reverse and lifting slider rotate to be connected, still fixed mounting has main shaft fixed gear on the centre gripping main shaft, main shaft fixed gear and reverse ratchet contact.

Further, fixed mounting has first hydraulic pressure oil pipe on the passive pneumatic cylinder, the other end fixed mounting of first hydraulic pressure oil pipe has the pressure bin, fixed mounting has the side board on the pressure bin, side board and bottom plate fixed connection, rotate on the side board and install the promotion support frame, fixed mounting has the shunt control case on the promotion support frame, fixed mounting has the second hydraulic oil pipe on the shunt control case, the other end fixed mounting of second hydraulic oil pipe is on the pressure bin.

Further, fixed mounting has the promotion body frame on the promotion support frame, fixed mounting has the third pneumatic cylinder on the promotion body frame, rotate on the third pneumatic cylinder and install the auxiliary frame, fixed mounting has the second pneumatic cylinder on the auxiliary frame, fixed mounting has the second auxiliary block on the second pneumatic cylinder, still slidable mounting has first slider on the auxiliary frame, rotates on the first slider and installs the fifth cylinder, the other end fixed mounting of fifth cylinder is on promoting the support frame, rotate on the third pneumatic cylinder and install the spout body frame, fixed mounting has first pneumatic cylinder on the spout body frame, fixed mounting has main propelling block on the first pneumatic cylinder, slidable mounting has the second slider on the spout body frame, rotate on the second slider and install the fourth cylinder, fourth cylinder and promotion support frame fixed connection, slidable mounting has the slope spout on the body frame, fixed mounting has the third cylinder on the slope slide, fixed mounting has the third cylinder, the other end fixed mounting of third cylinder is on the spout body frame, fixed mounting has the fourth pneumatic cylinder on the slope slide, fixed mounting has the fourth auxiliary block on the fourth pneumatic cylinder.

Furthermore, a plurality of rotating support plates are rotatably mounted on the bottom plate, fixed cylinders are fixedly mounted on the rotating support plates, mirror frames are movably arranged on the fixed cylinders, circular through cylinders are fixedly mounted on the rotating support plates, pressing plates are fixedly mounted on the circular through cylinders, and the pressing plates are in contact with the mirror frames.

Further, fixed mounting has downside grip cylinder on the bottom plate, downside grip block is installed to the other end fixed mounting of downside grip cylinder, downside grip block and picture frame contact, downside grip block still with bottom plate sliding connection, fixed mounting has the downside injection spray pipe on the bottom plate, rotate on the bottom plate and install the polishing lead screw, it has vertical cylinder still to slide mounting on the bottom plate, vertical cylinder passes through threaded connection with the polishing lead screw, rotate on the vertical cylinder and install the polishing cylinder, the other end fixed mounting of polishing cylinder has the polishing dish.

Further, rotate on the bottom plate and install the rotating turret, fixed mounting has the backup pad on the rotating turret, fixed mounting has a plurality of upper supporting strips in the backup pad, upper supporting strip goes up fixed mounting has the centre gripping subassembly, fixed mounting has a plurality of top supports in the backup pad, fixed mounting has the fluid control box on the top support, fixed mounting has third hydraulic pressure oil pipe on the fluid control box, go back fixed mounting on the top support has a plurality of upside pneumatic cylinders, rotates on the upside pneumatic cylinder and installs the absorption cylinder.

Further, still fixed mounting has last centre gripping cylinder on the top support, the other end fixed mounting who goes up the centre gripping cylinder has last centre gripping balladeur train, go up fixed mounting on the centre gripping balladeur train and have the fixed block, go up the centre gripping balladeur train and go back fixed mounting elasticity cylinder, the other end fixed mounting of elasticity cylinder has the slip to add tight piece, slip to add tight piece and last centre gripping balladeur train sliding connection.

Compared with the prior art, the invention has the beneficial effects that: (1) The deformation of the extruded hollow block is matched with the pulling rod, so that when the picture frame moves to a preset position, the meshing state of the sliding gear and the sliding rack is changed, the sliding rack stops moving, the automatic calibration device can automatically calibrate, and the size of the picture frame can be judged according to the moving distance of the pulling rod in the driven hydraulic cylinder; (3) The polishing disc is driven to move and rotate, so that the polishing disc polishes the positions with scratches on two sides of the lens to reduce scratches, and the lens is further cleaned by matching with the lower spraying pipe and the upper spraying pipe; (4) Can make the lens also can polish after being dismantled through absorption cylinder and glass sucking disc, absorption cylinder and glass sucking disc still can assist main propelling block to carry out the separation work of lens and picture frame moreover.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of a pressing plate according to the present invention.

FIG. 3 is a schematic diagram of a first hydraulic oil tube structure according to the present invention.

FIG. 4 is a schematic view of the structure of the extruded hollow block of the present invention.

FIG. 5 is a schematic view of a pulling rod according to the present invention.

FIG. 6 is an enlarged view of a portion of FIG. 5 according to the present invention.

FIG. 7 is a schematic view of a passive tilt block structure according to the present invention.

Fig. 8 is a structural schematic view of the chute main frame of the invention.

Fig. 9 is a schematic view of the structure of the auxiliary frame of the present invention.

FIG. 10 is a schematic view of the structure of the adsorption column of the present invention.

FIG. 11 is an enlarged view of a portion of FIG. 10 at B.

FIG. 12 is a schematic view of the structure of the polishing screw rod of the present invention.

Description of the drawings: 101-a base plate; 102-a support plate; 103-pressing plate; 104-side plate; 105-rotating the support plate; 106-a stationary cylinder; 107-frame; 108-a lens; 109-minor support bars; 112-cylinder support; 113-round through cylinder; 201-a pressure storage tank; 202-a first hydraulic oil line; 203-a second hydraulic oil pipe; 204-a push frame motor; 205-pushing the support frame; 206-a shunt control box; 207-main push block; 208-a second auxiliary block; 209-second hydraulic cylinder; 210-a first hydraulic cylinder; 211-pushing the main frame; 212-chute main frame; 213-inclined slide plate; 214-a third cylinder; 216-fourth cylinder; 217-fifth cylinder; 218-an auxiliary frame; 219-a third hydraulic cylinder; 220-a third auxiliary block; 221-a fourth auxiliary block; 222-a fourth hydraulic cylinder; 301-a turret; 303-upper support; 304-an upper supporting bar; 305-a third hydraulic oil line; 306-oil control box; 307-upper hydraulic cylinder; 308-adsorption columns; 401-lower side spray tube; 402-upper side spray pipe; 403-polishing disk; 404-polishing cylinder; 405-a vertical cylinder; 406-polishing a lead screw; 407-lower clamping block; 408-a lower clamping cylinder; 501-passive hydraulic cylinder; 502-pulling the rod; 503-sliding support plate; 504-a sliding rack; 505-a sliding shaft; 506-extruding the hollow block; 507-lifting the sliding block; 508-clamping the main shaft; 509-sliding gear; 510-main shaft fixed gear; 511-reverse ratchet; 512-steel rope; 513-cable carriages; 514-a slider; 515-rotating the pawl; 516-pawl top piece; 517-passive tilt block; 518-middle slide; 601-upper clamping cylinder; 602-upper clamping carriage; 603-a tightening cylinder; 604-fixed block; 605-sliding the clamping block.

Detailed Description

As shown in fig. 1, 2 and 10, a spectacle lens cleaning device comprises a base plate 101, a plurality of pressing bar rotating motors are fixedly mounted on the base plate 101, a rotating support plate 105 is fixedly mounted on an output shaft of each pressing bar rotating motor, the rotating support plate 105 is rotatably connected with the base plate 101, a fixed cylinder 106 is fixedly mounted on the rotating support plate 105, a lens frame 107 is movably arranged on the fixed cylinder 106, a plurality of lenses 108 are movably mounted on the lens frame 107, a round through cylinder 113 is fixedly mounted on the rotating support plate 105, a pressing plate 103 is fixedly mounted on the round through cylinder 113, and the pressing plate 103 is in contact with the lens frame 107.

As shown in fig. 10 and 12, a lower clamping cylinder 408 is further fixedly mounted on the bottom plate 101, a lower clamping block 407 is fixedly mounted at the other end of the lower clamping cylinder 408, the lower clamping block 407 contacts with the lens frame 107, the lower clamping block 407 is further slidably connected with the bottom plate 101, a lower spray pipe 401 is fixedly mounted on the bottom plate 101, a lead screw motor is fixedly mounted on the bottom plate 101, a polishing lead screw 406 is fixedly mounted on an output shaft of the lead screw motor, the polishing lead screw 406 is rotatably connected with the bottom plate 101, a vertical cylinder 405 is further slidably mounted on the bottom plate 101, the vertical cylinder 405 is in threaded connection with the polishing lead screw 406, a polishing motor is fixedly mounted on the vertical cylinder 405, a polishing cylinder 404 is fixedly mounted on the polishing motor, the polishing cylinder 404 is rotatably connected with the vertical cylinder 405, and a polishing disc 403 is fixedly mounted at the other end of the polishing cylinder 404.

As shown in fig. 3 to 5, a plurality of secondary support bars 109 are fixedly mounted on the bottom plate 101, a clamping assembly is fixedly mounted on the secondary support bar 109, the clamping assembly includes a cylinder support 112 and a lifting slider 507, the cylinder support 112 is fixedly connected with the secondary support bar 109, a passive hydraulic cylinder 501 is fixedly mounted on the cylinder support 112, hydraulic oil is provided in the passive hydraulic cylinder 501 for transferring force, a pulling rod 502 is further slidably mounted on the passive hydraulic cylinder 501, a plurality of ratchets are provided on the pulling rod 502, a sliding support plate 503 is slidably mounted on the pulling rod 502, the sliding support plate 503 is fixedly connected with the secondary support bar 109, a sliding shaft 505 is further slidably mounted on the pulling rod 502, an extruding hollow block 506 is fixedly mounted on the sliding shaft 505, the extruding hollow block 506 is made of elastic rubber, an extruding spring is fixedly mounted on the sliding shaft 505, the other end of the extruding spring is fixedly mounted on the pulling rod 502, a sliding rack 504 is further fixedly mounted on the sliding shaft 505, the sliding rack 504 is slidably connected with the sliding support plate 503, a sliding gear 509 is further engaged with a sliding gear 509, a clamping main shaft 508 is slidably mounted on the sliding gear 509, the clamping main shaft 508 is rotatably connected with the secondary support bar 109, a clamping main shaft 508 is further fixedly mounted on the secondary support bar 109, and an output shaft 508 connected with a main shaft motor of a main shaft motor.

As shown in fig. 5 to 7, the lifting slider 507 is fixedly connected to the secondary support bar 109, the lifting slider 507 is slidably mounted with a passive tilting block 517, the passive tilting block 517 is fixedly mounted with a middle slider 518, the other end of the middle slider 518 is fixedly mounted on the lifting slider 507, the passive tilting block 517 is rotatably connected to the sliding gear 509, the passive tilting block 517 is further slidably mounted with a sliding block 514, the sliding block 514 is slidably connected to the lifting slider 507, the sliding block 514 is further rotatably mounted with a rotating pawl 515, the rotating pawl 515 is in contact with the pulling rod 502, the rotating pawl 515 is fixedly mounted with a main pawl spring, the other end of the main pawl spring is fixedly mounted on the sliding block 514, the sliding block 514 is slidably mounted with a pawl top block 516, the pulling spring is fixedly mounted on the pawl top block 516, the other end of the pulling spring is fixedly mounted on the sliding block 514, one end of the pawl top block 516 is in contact with the ratchet pawl 515, the other end of the rotating pawl 515 is fixedly mounted with a steel wire 512, the steel wire carriage 513 is further slidably mounted on the steel wire 512, the steel wire 513 is fixedly connected to the lifting slider 507, the other end of the steel wire is fixedly mounted with a reverse ratchet pawl 511, the clamping main shaft 510 is fixedly mounted on the steel wire fixing gear 510, and the main shaft 511.

As shown in fig. 3, fig. 8 and fig. 9, a first hydraulic oil pipe 202 is fixedly mounted on the passive hydraulic cylinder 501, a pressure storage tank 201 is fixedly mounted at the other end of the first hydraulic oil pipe 202, a side plate 104 is fixedly mounted on the pressure storage tank 201, the side plate 104 is fixedly connected with the bottom plate 101, a pushing frame motor 204 is fixedly mounted on the side plate 104, a pushing support frame 205 is fixedly mounted on an output shaft of the pushing frame motor 204, the pushing support frame 205 is rotatably connected with the side plate 104, a shunt control box 206 is fixedly mounted on the pushing support frame 205, a second hydraulic oil pipe 203 is fixedly mounted on the shunt control box 206, and the other end of the second hydraulic oil pipe 203 is fixedly mounted on the pressure storage tank 201.

As shown in fig. 8 and 9, a pushing main frame 211 is fixedly mounted on the pushing support frame 205, an arc-shaped block is fixedly mounted on the pushing main frame 211, a third hydraulic cylinder 219 is fixedly mounted on the pushing main frame 211, an auxiliary frame 218 is rotatably mounted on the third hydraulic cylinder 219, a second hydraulic cylinder 209 is fixedly mounted on the auxiliary frame 218, a second auxiliary block 208 is fixedly mounted on the second hydraulic cylinder 209, a first slider is further slidably mounted on the auxiliary frame 218, a fifth cylinder 217 is rotatably mounted on the first slider, the other end of the fifth cylinder 217 is fixedly mounted on the pushing support frame 205, a chute main frame 212 is rotatably mounted on the third hydraulic cylinder 219, the chute main frame 212 is slidably connected with the arc-shaped block on the pushing main frame 211, and a first hydraulic cylinder 210 is fixedly mounted on the chute main frame 212, fixed mounting has main propelling block 207 on the first pneumatic cylinder 210, slidable mounting has the second slider on the spout body frame 212, rotate on the second slider and install fourth cylinder 216, fourth cylinder 216 and promotion support frame 205 fixed connection, slidable mounting has slope slide 213 on the spout body frame 212, and fixed mounting has third cylinder 214 on the slope slide 213, and the other end fixed mounting of third cylinder 214 is on the spout body frame 212, fixed mounting has fourth pneumatic cylinder 222 on the slope slide 213, and fixed mounting has fourth auxiliary block 221 on the fourth pneumatic cylinder 222, and last still fixed mounting of reposition of redundant personnel control box 206 has a plurality of reposition of redundant personnel pipelines, and the other end of reposition of redundant personnel pipeline respectively with second pneumatic cylinder 209, first pneumatic cylinder 210, third pneumatic cylinder 219, fourth pneumatic cylinder 222 fixed connection for transmit hydraulic oil.

As shown in fig. 1, 10, and 11, a rotating frame 301 is rotatably mounted on the bottom plate 101, a support plate 102 is fixedly mounted on the rotating frame 301, a plurality of upper supporting bars 304 are fixedly mounted on the support plate 102, a clamping assembly is fixedly mounted on the upper supporting bars 304, a plurality of upper brackets 303 are fixedly mounted on the support plate 102, an oil control box 306 is fixedly mounted on the upper brackets 303, a third hydraulic oil pipe 305 is fixedly mounted on the oil control box 306, a plurality of upper hydraulic cylinders 307 are also fixedly mounted on the upper brackets 303, an arc-shaped pipeline is fixedly mounted on the upper hydraulic cylinders 307, the other ends of the arc-shaped pipeline are fixedly mounted on the oil control box 306, a suction cup motor is fixedly mounted on the upper hydraulic cylinders 307, an adsorption cylinder 308 is fixedly mounted on an output shaft of the suction cup motor, the adsorption cylinder 308 is rotatably connected with the upper hydraulic cylinders 307, a suction cup cylinder is fixedly mounted on the adsorption cylinder 308, a glass suction cup is fixedly mounted on the other ends of the suction cup cylinders, an upper clamping cylinder 601 is also fixedly mounted on the upper bracket 303, an upper clamping cylinder 602 is fixedly mounted with an upper clamping carriage 602, a fixing block 604 is fixedly mounted on which a clamping carriage 602 is slidably connected with a clamping block 605, and a tightening block 603 is slidably connected with a tightening block 602.

The working principle is as follows: when the invention is applied to cleaning the mirror frame 107, the mirror frame 107 is placed on the bottom plate 101, then the spindle motor on the clamping assembly is started to drive the clamping spindle 508 to rotate, the clamping spindle 508 drives the sliding rack 504 to slide towards the mirror frame 107 through the sliding gear 509 when rotating, the sliding rack 504 also drives the pulling rod 502 and the extrusion hollow block 506 to slide towards the mirror frame 107, the rotating pawl 515 contacted with the pulling rod 502 can be continuously restored to a state contacted with the pawl top block 516 through the main pawl spring while the pulling rod 502 slides, meanwhile, the pulling rod 502 can also extrude the hydraulic oil in the passive hydraulic cylinder 501 while moving, the hydraulic oil in the passive hydraulic cylinder 501 is transferred into the pressure storage tank 201 through the first hydraulic oil pipe 202, at the moment, the pressure storage tank 201 stores the energy brought by the hydraulic oil, and the mirror frame 107 can be contacted in the process of continuously extruding the hollow block 506, after touching the lens frame 107, the hollow extrusion blocks 506 on both sides of the lens frame 107 will be extruded by the lens frame 107 to deform, and after the hollow extrusion blocks 506 deform to a predetermined degree, the lens frame 107 will extrude the pulling rod 502 by extruding the hollow extrusion blocks 506, so that the pulling rod 502 moves away from the lens frame 107, and at the same time, the ratchet on the pulling rod 502 drives the rotating pawl 515 to slide away from the lens frame 107, and at this time, the rotating pawl 515 is clamped by the pawl top block 516 and cannot avoid the ratchet on the pulling rod 502, so that the sliding of the pulling rod 502 towards the lens frame 107 will drive the sliding block 514 to slide by the rotating pawl 515, the sliding block 514 slides away from the lens frame 107 will extrude the passive inclined block 517 to slide towards the direction away from the plate 104, and the sliding of the passive inclined block 517 will drive the sliding gear 509 to slide on the clamping main shaft 508, therefore, the sliding gear 509 is not meshed with the sliding rack 504 any more, the sliding rack 504 is not used for driving the extrusion hollow block 506 to extrude the mirror frame 107, the purpose at the moment is that the mirror frame 107 is extruded to the middle position of the extrusion hollow blocks 506 on the two sides through the simultaneous movement of the extrusion hollow blocks 506 on the two sides, and the subsequent work is convenient and applicable.

After the mirror frame 107 is initially moved to a preset position by the clamping components on the two sides, the auxiliary rotating motor is started to drive the rotating frame 301 to rotate one hundred eighty degrees, so that the clamping components on the upper supporting bar 304 move to the position above the mirror frame 107 in fig. 10, the upper clamping cylinder 601 is started to drive the upper clamping carriage 602 to move with the fixed block 604, the fixed block 604 is contacted with the mirror frame 107, the tensioning cylinder 603 is started to drive the sliding clamping block 605 to move towards the fixed block 604, the sliding clamping block 605 is matched with the fixed block 604 to clamp the mirror frame 107, then the clamping components fixedly mounted on the upper supporting bar 304 repeat the movement mode, the clamping components fixedly mounted on the upper supporting bar 304 press the mirror frame 107 on the base plate 101 through matching with the base plate 101, and the clamping components on the upper supporting bar 304 also transmit hydraulic oil in the passive hydraulic cylinder 501 into the oil control box 306 through the third hydraulic oil pipe 305 to store the hydraulic oil control box 306 for subsequent use.

After the frame 107 is preliminary extruded by a plurality of hollow blocks 506 of extrusion and is removed, restart layering rotation motor and drive rotation support plate 105 and rotate, rotation support plate 105 drives round through cylinder 113 again and rotates with pressing plate 103, will press plate 103 to move the one side that frame 107 and fixed drum 106 contacted, layering rotation motor stop work this moment, later restart round through cylinder 113, let round through cylinder 113 drive press plate 103 to bottom plate 101 direction removal, make pressing plate 103 and fixed drum 106 cooperation clip frame 107, then restart downside grip cylinder 408 and drive downside grip block 407 and slide to fixed drum 106 direction, downside grip block 407 this moment will cooperate with bottom plate 101 and will clip frame 107, thereby it conveniently carries out follow-up work to restrict the frame 107.

After the frame 107 is completely limited, the lead screw motor can be started to drive the polishing lead screw 406 to rotate, the polishing lead screw 406 drives the vertical cylinder 405 to slide on the bottom plate 101, then the vertical cylinder 405 drives the polishing cylinder 404 to move in the direction away from the bottom plate 101 or close to the bottom plate 101, then the polishing cylinder 404 drives the polishing disc 403 to move in the direction away from the frame 107 and close to the frame 107, so that the position of the polishing disc 403 is adjusted, finally the polishing pad motor is started to drive the polishing disc 403 to rotate, so that the polishing disc 403 is polished on the lens 108, scratches on the lens 108 are removed, water mist or special liquid for lens polishing is sprayed through the lower side spraying pipe 401 during polishing, and further auxiliary polishing is realized.

After the mirror frame 107 is clamped, the hydraulic oil stored in the oil control box 306 is transferred into the upper hydraulic cylinder 307 through the arc-shaped pipeline, the upper hydraulic cylinder 307 drives the adsorption cylinder 308 to move towards the direction close to the bottom plate 101, the adsorption cylinder 308 moves to one side of the mirror 108, then the sucker cylinder on the adsorption cylinder 308 is started to drive the glass sucker to be attached to the mirror 108, at this time, the pressure storage tank 201 releases the internal hydraulic oil into the shunt control box 206 through the second hydraulic oil pipe 203, the hydraulic oil is transferred into the second hydraulic cylinder 209, the first hydraulic cylinder 210, the third hydraulic cylinder 219 and the fourth hydraulic cylinder 222 through the shunt control box 206 and the shunt pipeline, the second hydraulic cylinder 209, the first hydraulic cylinder 210, the third hydraulic cylinder 219 and the fourth hydraulic cylinder 222 drive the second auxiliary block 208, the main push block 207, the third auxiliary block 220 and the fourth auxiliary block 221 to move towards the mirror frame 107, after the second auxiliary block 208, the main push block 207, the third auxiliary block 220 and the fourth auxiliary block 221 move to the predetermined positions, the lens 108 will be pressed, and the lens 108 and the frame 107 have certain toughness, and the lens 108 will slightly deform, and the frame 107 and the lens 108 will be assembled and disassembled by slight deformation, so here the second auxiliary block 208, the main push block 207, the third auxiliary block 220 and the fourth auxiliary block 221 will separate the lens 108 from the frame 107, it should be noted that the hydraulic oil obtained in the first hydraulic cylinder 210 has a predetermined value more than the second hydraulic cylinder 209, the third hydraulic cylinder 219 and the fourth hydraulic cylinder 222, and this arrangement is such that the force of the main push block 207 pressing the lens 108 is a main pressing device than the second auxiliary block 208, the third auxiliary block 220 and the fourth auxiliary block 221, and after the lens 108 is separated from the frame 107, lens 108 at this moment will become an organic whole with adsorbing cylinder 308 through the glass sucking disc, and the sucking disc motor is restarted this moment, and drive adsorbing cylinder 308 drives lens 108 and rotates one hundred eighty degrees, makes the face that lens 108 opposite side was not polished, polishes through polishing dish 403 polishing again, and sprays water smoke or lens through upside spray pipe 402 in polishing and polish special liquid.

When the lens 108 is polished, the polishing disc 403 is returned to the initial position, the suction cup motor drives the suction cylinder 308 to rotate, the suction cup cylinder drives the lens 108 to move, so that the lens 108 is again in contact with the second auxiliary block 208, the main push block 207, the third auxiliary block 220 and the fourth auxiliary block 221, the suction cup cylinder drives the lens 108 to press the second auxiliary block 208, the main push block 207, the third auxiliary block 220 and the fourth auxiliary block 221, so that the lens 108 is uniformly stressed during the installation process, the lens 108 and the frame 107 are slowly combined together, the spindle motor is started to rotate reversely, the clamping spindle 508 is driven to rotate clockwise in fig. 5, so that the passive hydraulic cylinder 501 can continuously drive the reverse ratchet 511 to rotate on the lifting slider 507, the reverse ratchet 511 drives the steel cable 512 to slide on the carriage 513, the steel cable 512 drives the top block 516 to move towards the bottom plate 101, after the pawl top block moves, the limit rod of the rotating pawl 516 is cancelled, and when the pawl 502 is pulled to move away from the sliding block 107, the pawl 514 is driven to rotate, the hollow pawl 515 is driven to rotate, the clamping pawl 515, the hollow block 515 is driven to rotate, and the hollow pawl 515 is pulled to move, and the clamping pawl 515, the hollow block is not only when the pawl 515 is pulled to move, and the clamping pawl 502 is pulled to move, and the clamping pawl 515, and the clamping block 502, the clamping pawl 515 is pulled to move, and the clamping block 515, and the clamping block 502, and the clamping block can move.

Claims (8)

1. An eyeglass lens cleaning device comprising a base plate (101), characterized in that: fixed mounting has a plurality of auxiliary support bars (109) on bottom plate (101), fixed mounting has the centre gripping subassembly on auxiliary support bar (109), the centre gripping subassembly includes cylinder body support (112), cylinder body support (112) and auxiliary support bar (109) fixed connection, fixed mounting has passive pneumatic cylinder (501) on cylinder body support (112), slidable mounting has pull rod (502) on passive pneumatic cylinder (501), slidable mounting has sliding support plate (503) on pull rod (502), sliding support plate (503) and auxiliary support bar (109) fixed connection, it has sliding shaft (505) still to slidable mounting on pull rod (502), fixed mounting has extrusion hollow block (506) on sliding shaft (505), it has sliding rack (504) still to fixed mounting on sliding shaft (505), sliding rack (504) and sliding support plate (503) sliding connection, sliding gear (509) are gone up still to mesh and are installed sliding gear (509), slidable mounting has centre gripping main shaft (508) on sliding gear (509), centre gripping main shaft (508) and auxiliary support bar (109) rotate and are connected.

2. An eyeglass lens cleaning device according to claim 1, characterized in that: fixed mounting has lifting slider (507) on vice support bar (109), and sliding mounting inclines piece (517) passively on lifting slider (507), it is connected with sliding gear (509) rotation to incline passively piece (517), it has sliding block (514) still to slidable mounting on inclining passively piece (517), sliding block (514) and lifting slider (507) sliding connection, it rotates rotation pawl (515) still to install on sliding block (514), it contacts with pulling rod (502) to rotate pawl (515), slidable mounting has pawl kicking block (516) on sliding block (514), the one end and the contact of rotating pawl (515) of pawl kicking block (516), the other end fixed mounting of rotating pawl (515) has steel cable (512), it has steel cable carriage (513) still to slidable mounting on steel cable (512), steel cable carriage (513) and lifting slider (507) fixed connection, the other end fixed mounting of steel cable (512) has reverse ratchet (511), reverse ratchet (511) rotates with lifting slider (507) and is connected, it has main shaft fixed gear (510) fixed gear (511) contact, main shaft (510) and fixed gear (511) contact.

3. An eyeglass lens cleaning device according to claim 2, characterized in that: fixed mounting has first hydraulic pressure oil pipe (202) on passive pneumatic cylinder (501), the other end fixed mounting of first hydraulic pressure oil pipe (202) has pressure storage box (201), fixed mounting has side board (104) on pressure storage box (201), side board (104) and bottom plate (101) fixed connection, it installs promotion support frame (205) to rotate on side board (104), fixed mounting has shunt control case (206) on promotion support frame (205), fixed mounting has second hydraulic oil pipe (203) on shunt control case (206), the other end fixed mounting of second hydraulic oil pipe (203) is on pressure storage box (201).

4. An eyeglass lens cleaning device according to claim 3, characterized in that: fixed mounting has promotion body frame (211) on promotion support frame (205), fixed mounting has third pneumatic cylinder (219) on promotion body frame (211), it has auxiliary frame (218) to rotate on third pneumatic cylinder (219), fixed mounting has second pneumatic cylinder (209) on auxiliary frame (218), fixed mounting has second auxiliary block (208) on second pneumatic cylinder (209), it has first slider still to slide-mount on auxiliary frame (218), and it has fifth cylinder (217) to rotate to mount on the first slider, the other end fixed mounting of fifth cylinder (217) is on promoting support frame (205), it has spout body frame (212) to rotate on third pneumatic cylinder (219), fixed mounting has first pneumatic cylinder (210) on spout body frame (212), fixed mounting has main push block (207) on first pneumatic cylinder (210), slide mounting has the second slider on spout (212), rotate on the second slider and install fourth cylinder (216), fourth cylinder (216) and promotion support frame (205) fixed connection, slide mounting has the slope to slide block (212) on spout (212), the slope fixed mounting has third cylinder (214) on the spout body frame (219), a fourth hydraulic cylinder (222) is fixedly mounted on the inclined sliding plate (213), and a fourth auxiliary block (221) is fixedly mounted on the fourth hydraulic cylinder (222).

5. An eyeglass lens cleaning device according to claim 1, characterized in that: the utility model discloses a novel glasses, including bottom plate (101), fixed cylinder (106) are gone up to rotate to install a plurality of backup pads (105) on bottom plate (101), fixed mounting has on rotation backup pad (105), the activity is provided with picture frame (107) on fixed cylinder (106), fixed mounting has round logical cylinder (113) on rotation backup pad (105), fixed mounting has pressing plate (103) on round logical cylinder (113), pressing plate (103) and picture frame (107) contact.

6. An eyeglass lens cleaning device according to claim 1, characterized in that: fixed mounting has downside grip cylinder (408) on bottom plate (101), the other end fixed mounting of downside grip cylinder (408) has downside grip block (407), downside grip block (407) and picture frame (107) contact, downside grip block (407) still with bottom plate (101) sliding connection, fixed mounting has downside spray pipe (401) on bottom plate (101), rotate on bottom plate (101) and install polishing lead screw (406), it has vertical cylinder (405) to go back slidable mounting on bottom plate (101), vertical cylinder (405) passes through threaded connection with polishing lead screw (406), it installs polishing cylinder (404) to rotate on vertical cylinder (405), the other end fixed mounting of polishing cylinder (404) has polishing dish (403).

7. An eyeglass lens cleaning device according to claim 1, characterized in that: rotating on bottom plate (101) and installing rotating turret (301), fixed mounting has backup pad (102) on rotating turret (301), fixed mounting has a plurality of upper supporting bars (304) on backup pad (102), fixed mounting has clamping component on upper supporting bar (304), fixed mounting has a plurality of top supports (303) on backup pad (102), fixed mounting has fluid control box (306) on top support (303), fixed mounting has third hydraulic pressure oil pipe (305) on fluid control box (306), it has a plurality of upside pneumatic cylinders (307) to go back fixed mounting on top support (303), rotates on upside pneumatic cylinder (307) and installs absorption cylinder (308).

8. An eyeglass lens cleaning device according to claim 7, characterized in that: still fixed mounting has last centre gripping cylinder (601) on top support (303), the other end fixed mounting who goes up centre gripping cylinder (601) has last centre gripping carriage (602), go up fixed mounting has fixed block (604) on centre gripping carriage (602), go up still fixed mounting elasticity cylinder (603) on centre gripping carriage (602), the other end fixed mounting of elasticity cylinder (603) has the slip to add tight piece (605), slip to add tight piece (605) and last centre gripping carriage (602) sliding connection.

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