CN118080449A - Flushing equipment for lens production - Google Patents

Abstract

The invention is suitable for the technical field of lens washing, and provides a washing device for lens production, which comprises a cleaning cabinet, wherein a cabinet door is rotatably connected to the front side wall of the cleaning cabinet, a water spraying assembly is arranged in the cleaning cabinet and is used for spraying water flow onto lenses, and the washing device further comprises: the rack that left and right sides symmetry set up in the clean cabinet, sliding connection has the transport frame on the rack, evenly be provided with a plurality of mounting brackets in the transport frame, a plurality of all be fixed with the connecting axle on both sides wall around the mounting bracket. The water spray assembly sprays water flow on the lens, and then washes and cleans the lens, and the reciprocating swing mechanism drives a plurality of mounting frames to swing back and forth in the transport frame, and the mounting frames drive the lens to swing left and right, make the water flow can spray on two terminal surfaces of lens directly to make both ends of lens can both increase the contact range with the water flow, improve the effect that the lens washed and cleaned.

Description

Flushing equipment for lens production

Technical Field

The invention belongs to the technical field of lens washing, and particularly relates to washing equipment for lens production.

Background

The lens is made of a transparent material with one or more curved surfaces and made of optical materials such as glass or resin, and is often assembled with a glasses frame to form glasses after polishing, so that the glasses are used for correcting the eyesight of a user to obtain clear vision, substances such as scraps, impurities, cutting fluid, grinding fluid and the like can be attached to the lens in the production and processing process, the light transmittance and visual effect of the lens are affected, and therefore, the lens needs to be cleaned after the lens is processed.

The prior art patent (CN 216539807U) discloses a cleaning and drying integrated machine for producing spectacle lenses, when the integrated machine is used, a lens is fixed at the lower end of a cross rod by a lug, the cross rod is driven by a cylinder rod of a cylinder to move downwards, the spectacle lenses are driven by the cross rod to move downwards, the lens is moved into cleaning liquid in a cleaning box, a motor shaft of a motor rotates, a clamping block rotates, the clamping block rotates, a rotating shaft rotates, the rotating shaft drives a cleaning brush to rotate, the cleaning brush rotates to cling to the spectacle lenses, so that the cleaning work is completed on the spectacle lenses, then the cylinder rod of the cylinder drives the spectacle lenses to move upwards, when the lens moves to the lower end of a sprinkler, the lower end of the sprinkler is fixedly connected with a plurality of inclined sprinkler heads, the sprinkled water is conveniently sprayed to the middle position in the cleaning box, the spectacle lenses are conveniently cleaned, the rotating cleaning brush rotates with the spectacle lenses to perform the dirt removing work on the spectacle lenses, and the cleaning effect on the spectacle lenses is increased.

The lens cleaning equipment cleans the lens through the impact of water flow and the rotating cleaning brush, but the positions of the lens and the sprinkler head are fixed, the angle of the water flow for flushing the lens is fixed, the problem that the water flow for flushing the lens is uneven exists, in the method, the fixing part of the convex block on the lens cannot be contacted with the water flow and the cleaning brush, and the problem that the lens is not thoroughly cleaned exists.

Disclosure of Invention

The embodiment of the invention aims to provide a flushing device for lens production, which aims to solve the problem that the existing water flow flushes lenses and the cleaning of the lenses is not thorough.

The invention is realized in such a way, a flushing device for lens production comprises a cleaning cabinet, wherein a cabinet door is rotatably connected to the front side wall of the cleaning cabinet, a water spraying component is arranged in the cleaning cabinet and is used for spraying water flow onto lenses, and the flushing device further comprises: the cleaning cabinet comprises a cleaning cabinet body, wherein a carrying frame is symmetrically arranged on the left side and the right side of the cleaning cabinet body, a plurality of mounting frames are uniformly arranged in the carrying frame, connecting shafts are fixedly arranged on the front side wall and the rear side wall of each mounting frame, the two connecting shafts on the mounting frames are respectively connected to the front side wall and the rear side wall of the carrying frame in a rotating mode, a reciprocating swing mechanism is arranged on the rear side of the cleaning cabinet body, and the reciprocating swing mechanism is used for driving the plurality of mounting frames to swing in the carrying frame in a reciprocating mode; the mounting frame is rotationally connected with two symmetrical bottom support shafts, a motor is fixed on the side wall of the mounting frame, and the rotating end of the motor is connected with one of the bottom support shafts; the mounting frame is rotationally connected with two symmetrical first rotating shafts, rotating plates are fixed on the first rotating shafts, the tail ends of the two rotating plates are rotationally connected with top pressing shafts, the top pressing shafts are positioned above bottom supporting shafts, and the mounting frame is provided with a rotating pressing assembly which is used for driving the first rotating shafts to synchronously rotate in opposite directions or reversely rotate; two horizontal sliding grooves are formed in the front inner side wall and the rear inner side wall of the mounting frame, cross sliding rods are connected in the two horizontal sliding grooves in a sliding mode, end face cleaning brushes are fixed on one sides, close to each other, of the two cross sliding rods, and side wall cleaning brushes are fixed on the inner bottom of the mounting frame; the synchronous opening and closing assembly is arranged on the cross slide bars and used for driving the two cross slide bars to move oppositely, or the synchronous opening and closing assembly drives the two cross slide bars to move reversely by rotating the pressing assembly.

Further technical scheme, the water spray subassembly includes the fixed water injection pipe in clean cabinet upper portion, the one end of water injection pipe stretches into in the clean cabinet and evenly communicates there is a plurality of shower nozzles, the other end of water injection pipe is connected with the booster pump, the input and the water tank intercommunication of booster pump.

Further technical scheme, rotate and press subassembly including extension spring one, extension spring one's both ends respectively with two rotation board fixed connection, equal sliding connection has vertical slip rack on the inner wall around the mounting bracket, two vertical slip rack upper end is through depression bar fixed connection, two all be fixed with gear one on the axis of rotation one, two gear one respectively with two vertical slip racks meshing.

According to a further technical scheme, the synchronous opening and closing assembly comprises a tension spring II, two ends of the tension spring II are fixedly connected with two cross slide bars respectively, vertical sliding wedges are fixed on one sides, close to each other, of the cross slide bars, the two vertical sliding wedges are symmetrically arranged, horizontal sliding wedges are fixed at the lower ends of the vertical sliding racks, and the horizontal sliding wedges are matched with the two vertical sliding wedges.

Further technical scheme, reciprocal swing mechanism includes the axis of rotation two of rotating connection on the clean cabinet back lateral wall, be provided with reciprocal swing subassembly on the clean cabinet back lateral wall, reciprocal swing subassembly is used for driving the reciprocal rotation of axis of rotation two, a plurality of all be fixed with gear two on the connecting axle of mounting bracket rear side, it has the horizontal sliding rack to follow horizontal direction sliding connection on the transport frame back lateral wall, horizontal sliding rack simultaneously with a plurality of gear two meshing, one of them be provided with on the connecting axle of mounting bracket rear side and connect the plug axle, be provided with the jack that matches near the one end of connecting the plug axle on the axis of rotation two.

Further technical scheme, reciprocal swing subassembly includes fixed gear III on the axis of rotation two, rotate on the clean cabinet back lateral wall and be connected with driving disk and fan-shaped pinion rack, the driving disk sets up between fan-shaped pinion rack and clean cabinet, clean cabinet internal fixation has servo motor, servo motor's rotation end is connected with the driving disk, the one end that is close to fan-shaped pinion rack on the driving disk is fixed with the push shaft, be provided with the slot hole on the fan-shaped pinion rack, push shaft sliding connection is in the slot hole.

Further technical scheme, be provided with locking subassembly on the transport frame, locking subassembly includes the fixed mount on the transport frame back lateral wall, connect and insert the epaxial sliding connection in the connecting axle of one of them mounting bracket rear side, connect and insert the epaxial middle part and be provided with the shoulder, the one end fixedly connected with pressure spring of shoulder, the pressure spring is connected with the connecting axle of one of them mounting bracket rear side, the other end fixedly connected with of shoulder a plurality of locking axles, be provided with a plurality of lockholes with locking axle complex on the mount.

Compared with the prior art, the invention has the beneficial effects that:

According to the flushing equipment for lens production, the water spray assembly sprays water flow on the lenses, so that the lenses are flushed and cleaned, dirt such as scraps, impurities and the like attached to the lenses are flushed, the reciprocating swinging mechanism drives the plurality of mounting frames to swing back and forth in the carrying frames, the mounting frames drive the lenses to swing left and right, and the water flow can be directly sprayed on two end faces of the lenses, so that the contact range between the two ends of the lenses and the water flow can be enlarged, and the flushing effect of the lenses is improved; the motor on the mounting bracket drives one of them bottom to hold in the palm the axle and rotates, and the bottom holds in the palm the axle and drives the lens rotation to change two bottom and hold in the palm the axle and two top pressure shaft and to the clamping position of lens, avoid washing incomplete problem because of lens clamping position is fixed, and the lens rotates for terminal surface cleaning brush and lateral wall cleaning brush, and terminal surface cleaning brush and lateral wall cleaning brush the spot of lens terminal surface and lateral wall respectively, thereby improve the cleaning performance of lens.

Drawings

Fig. 1 is a schematic structural view of a rinsing device for producing lenses according to the present invention;

FIG. 2 is a schematic view of the rear structure of FIG. 1 according to the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present invention;

FIG. 4 is a schematic view of the structure of the carrying rack in FIG. 1 according to the present invention;

FIG. 5 is a schematic view of the rear structure of FIG. 4 according to the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 5B according to the present invention;

FIG. 7 is a schematic view of the mounting bracket of FIG. 4 according to the present invention;

FIG. 8 is a schematic top view of FIG. 7 according to the present invention;

Fig. 9 is a schematic view of the internal structure of view C-C in fig. 8 according to the present invention.

In the accompanying drawings: the cleaning cabinet comprises the following components of a cleaning cabinet body, a cabinet door, a blow-off pipe, a placing rack, a carrying rack, a connecting shaft, a mounting rack, a bottom supporting shaft, a motor, a rotating shaft, a rotating plate, a horizontal sliding chute, a cross sliding rod, an end surface cleaning brush, a top pressing shaft, a side wall cleaning brush, a handle, a water spraying component, a water injection pipe, a spray head, a rotary pressing component, a tension spring, a vertical sliding rack and a cleaning rod, wherein the cleaning cabinet body is 101, the cabinet door is 102, the blow-off pipe is 103, the placing rack is 104, the carrying rack is 105, the connecting shaft is 106, the mounting rack is 107, the bottom supporting shaft is 108, the motor is 109, the rotating shaft is 110, the rotating plate is 111, the horizontal sliding chute is 112, the cross sliding rod is 113, the end surface cleaning brush is 114, the top pressing shaft is 115, the side wall cleaning brush is 116, the handle is 117, the water spraying component is 2, the water injecting pipe, the spray head is 202, the rotary pressing component 3, the rotary pressing component is 301, the tension spring 301 and the vertical sliding rack 302 the device comprises a gear I-303, a compression bar II-304, a synchronous opening and closing component 4, a tension spring II-401, a vertical sliding wedge block 402, a horizontal sliding wedge block 403, a reciprocating swing mechanism 5, a rotating shaft II-501, a gear II-502, a transverse sliding rack 503, a connecting inserting shaft 504, a reciprocating swing component 6, a gear III-601, a driving disc 602, a pushing shaft 603, a sector toothed plate 604, a long hole 605, a locking component 7, a fixing frame 701, a shaft shoulder 702, a compression spring 703, a locking shaft 704 and a lock hole 705.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1 to 9, a flushing device for lens production according to an embodiment of the present invention includes a cleaning cabinet 101, two symmetrical cabinet doors 102 are rotatably connected to a front side wall of the cleaning cabinet 101, door locks are disposed on the cabinet doors 102, a water spraying assembly 2 is disposed in the cleaning cabinet 101, the water spraying assembly 2 is used for spraying water onto lenses, a drain pipe 103 is disposed on a side wall of the cleaning cabinet 101, and the flushing device further includes: the cleaning cabinet 101 comprises a rack 104 symmetrically arranged on the left side and the right side, wherein a carrying rack 105 is connected to the rack 104 in a sliding manner, and a handle 117 is fixed at the upper end of the carrying rack 105; a plurality of mounting frames 107 are uniformly arranged in the carrying frame 105, connecting shafts 106 are fixed on the front side wall and the rear side wall of the plurality of mounting frames 107, and the two connecting shafts 106 on the mounting frames 107 are respectively and rotatably connected on the front side wall and the rear side wall of the carrying frame 105; the rear side of the cleaning cabinet 101 is provided with a reciprocating swing mechanism 5, and the reciprocating swing mechanism 5 is used for driving a plurality of mounting frames 107 to swing reciprocally in the carrying frames 105; two symmetrical bottom support shafts 108 are rotatably connected to the mounting frame 107, a motor 109 is fixed to the side wall of the mounting frame 107, a waterproof sleeve can be sleeved on the outer side of the motor 109, water inflow of the motor 109 is avoided, and the rotating end of the motor 109 is connected with one of the bottom support shafts 108; the mounting frame 107 is rotatably connected with two symmetrical first rotating shafts 110, the first rotating shafts 110 are respectively fixed with a rotating plate 111, the tail ends of the two rotating plates 111 are respectively rotatably connected with a top pressing shaft 115, the top pressing shafts 115 are positioned above the bottom supporting shafts 108, soft friction sleeves are respectively fixed on the bottom supporting shafts 108 and the top pressing shafts 115, and the friction sleeves can be made of materials such as silica gel or rubber, so that damage to lenses is avoided; the mounting frame 107 is provided with a rotary pressing assembly 3, and the rotary pressing assembly 3 is used for driving two rotary shafts 110 to synchronously rotate in opposite directions or in opposite directions; two horizontal sliding grooves 112 are formed in the front and rear inner side walls of the mounting frame 107, cross sliding rods 113 are connected in the two horizontal sliding grooves 112 in a sliding manner, end face cleaning brushes 114 are fixed on one sides, close to each other, of the two cross sliding rods 113, and side wall cleaning brushes 116 are fixed on the inner bottoms of the mounting frame 107; the cross slide bars 113 are provided with synchronous opening and closing components 4, and the synchronous opening and closing components 4 are used for driving the two cross slide bars 113 to move oppositely, or the synchronous opening and closing components 4 drive the two cross slide bars 113 to move oppositely through rotating the pressing component 3.

In the embodiment of the invention, when the device is used, the rotary pressing component 3 drives the two rotary shafts 110 to synchronously reversely rotate, the synchronous opening and closing component 4 drives the two cross slide bars 113 to reversely move through the rotary pressing component 3, lenses are placed on the two bottom supporting shafts 108 of the mounting frame 107, the lenses are positioned between the two cross slide bars 113, the rotary pressing component 3 drives the two rotary shafts 110 to synchronously reversely rotate, the two rotary shafts 110 drive the two rotary plates 111 to synchronously reversely rotate, the two rotary plates 111 further drive the two top pressing shafts 115 to press the upper parts of the lenses, the two bottom supporting shafts 108 and the two top pressing shafts 115 clamp the side walls of the lenses, the lenses are simultaneously pressed on the side wall cleaning brushes 116, the synchronous opening and closing component 4 drives the two cross slide bars 113 to oppositely move, the two cross slide bars 113 drive the two end cleaning brushes 114 to be in contact with the two end faces of the lenses, the auxiliary lenses are kept in a vertical state under the clamping force of the two end cleaning brushes 114, the lenses are placed on the plurality of the mounting frames 107 in the same manner, then the two rotary plates 111 drive the two top pressing shafts 115 to press the upper parts of the lenses, and then the two top pressing shafts 115 to press the side walls of the lenses to be placed into the mounting frame 101 through the handle 105, and the cabinet 105 are placed into the cabinet door 101 to be slid into the cabinet door 102; the water spraying assembly 2 sprays water flow on the lens to flush the lens, so that dirt such as scraps, impurities and the like attached to the lens are flushed, the reciprocating swinging mechanism 5 drives the plurality of mounting frames 107 to swing back and forth in the carrying frame 105, and the mounting frames 107 drive the lens to swing left and right, so that the water flow can be directly sprayed on two end surfaces of the lens, the contact range between the two ends of the lens and the water flow can be enlarged, and the flushing effect of the lens is improved; the motor 109 on the mounting frame 107 drives one of the bottom support shafts 108 to rotate, and the bottom support shafts 108 drive the lenses to rotate, so that the clamping positions of the two bottom support shafts 108 and the two top pressing shafts 115 on the lenses are changed, the problem that the lenses cannot be thoroughly washed due to the fact that the clamping positions of the lenses are fixed is avoided, the lenses rotate relative to the end face cleaning brush 114 and the side wall cleaning brush 116, and the end face cleaning brush 114 and the side wall cleaning brush 116 brush dirt on the end face and the side wall of the lenses respectively, so that the cleaning effect of the lenses is improved.

As shown in fig. 1, as a preferred embodiment of the present invention, the water spraying assembly 2 includes a water injection pipe 201 fixed at the upper portion of the cleaning cabinet 101, one end of the water injection pipe 201 extends into the cleaning cabinet 101 and is uniformly communicated with a plurality of spray heads 202, the other end of the water injection pipe 201 is connected with a booster pump, and an input end of the booster pump is communicated with the water tank.

In the embodiment of the invention, the booster pump pumps water flow in the water tank into the water injection pipe 201, and the water flow is sprayed out from the spray head 202.

As shown in fig. 1, 4,5, 7, 8 and 9, as a preferred embodiment of the present invention, the rotary pressing assembly 3 includes a first tension spring 301, two ends of the first tension spring 301 are fixedly connected with two rotary plates 111, vertical sliding racks 302 are slidably connected to front and rear inner walls of the mounting frame 107, upper ends of the two vertical sliding racks 302 are fixedly connected through a compression bar 304, a first gear 303 is fixed to the first rotary shaft 110, and the two first gears 303 are meshed with the two vertical sliding racks 302.

In the embodiment of the invention, the pressing rod 304 is pressed downwards, the pressing rod 304 drives the two vertical sliding racks 302 to move downwards simultaneously, the two vertical sliding racks 302 drive the two first gears 303 to rotate reversely, the two first gears 303 drive the two first rotating shafts 110 to rotate reversely, the two first rotating shafts 110 overcome the elastic force of the first tension spring 301 and drive the two rotating plates 111 to rotate reversely, so that the two rotating plates 111 drive the two top pressing shafts 115 to move towards the front and rear inner walls of the mounting frame 107 respectively, and at the moment, lenses are conveniently placed on the two bottom supporting shafts 108; when the pressing rod 304 is released, the tension spring 301 pulls the two rotating plates 111 to rotate in opposite directions, and the two rotating plates 111 drive the two top pressing shafts 115 to press the upper parts of the lenses.

As shown in fig. 7, 8 and 9, as a preferred embodiment of the present invention, the synchronous opening and closing assembly 4 includes a second tension spring 401, two ends of the second tension spring 401 are fixedly connected with two cross sliding bars 113 respectively, two sides of the two cross sliding bars 113, which are close to each other, are respectively fixed with a vertical sliding wedge block 402, the two vertical sliding wedges 402 are symmetrically arranged, a horizontal sliding wedge block 403 is fixed at the lower end of the vertical sliding rack 302, and the horizontal sliding wedge block 403 is matched with the two vertical sliding wedge blocks 402.

In the embodiment of the present invention, the vertical sliding rack 302 drives the vertical sliding wedge block 402 to move downwards, the vertical sliding wedge block 402 pushes the two horizontal sliding wedge blocks 403 to move reversely, the two horizontal sliding wedge blocks 403 overcome the elastic force of the tension spring two 401 and drive the two cross slide bars 113 to move reversely, and when the vertical sliding rack 302 drives the vertical sliding wedge block 402 to move upwards, the tension spring two 401 pulls the two cross slide bars 113 to move oppositely.

As shown in fig. 1 to fig. 6, as a preferred embodiment of the present invention, the reciprocating swing mechanism 5 includes a second rotating shaft 501 rotatably connected to the rear side wall of the cleaning cabinet 101, a reciprocating swing assembly 6 is disposed on the rear side wall of the cleaning cabinet 101, the reciprocating swing assembly 6 is configured to drive the second rotating shaft 501 to reciprocally rotate, two gears 502 are fixed on the connecting shafts 106 on the rear sides of the plurality of mounting frames 107, a transverse sliding rack 503 is slidably connected to the rear side wall of the carrying frame 105 along a horizontal direction, the transverse sliding rack 503 is simultaneously meshed with the two gears 502, a connecting plug shaft 504 is disposed on the connecting shaft 106 on the rear side of one of the mounting frames 107, and a matched jack is disposed on one end, close to the connecting plug shaft 504, of the second rotating shaft 501.

In the embodiment of the present invention, when the mounting rack 107 slides into the placing rack 104, the connecting inserting shaft 504 is inserted into the jack on the second rotating shaft 501, the reciprocating swinging component 6 drives the second rotating shaft 501 to reciprocate, the second rotating shaft 501 can drive one of the connecting shafts 106 to reciprocate through the cooperation of the connecting inserting shaft 504 and the jack, the connecting shaft 106 drives one of the second gears 502 to reciprocate, the second gears 502 drive the transverse sliding rack 503 to reciprocate, the remaining second gears 502 of the transverse sliding rack 503 reciprocate, the remaining second gears 502 drive the remaining connecting shafts 106 to reciprocate, and then the connecting shafts 106 drive the plurality of mounting racks 107 to reciprocate.

As shown in fig. 1 to 3, as a preferred embodiment of the present invention, the reciprocating swing assembly 6 includes a third gear 601 fixed on the second rotating shaft 501, a driving disc 602 and a sector toothed plate 604 are rotatably connected to the rear side wall of the cleaning cabinet 101, the driving disc 602 is disposed between the sector toothed plate 604 and the cleaning cabinet 101, a servo motor is fixed in the cleaning cabinet 101, a rotating end of the servo motor is connected to the driving disc 602, a waterproof cover may be disposed on an outer side of the servo motor to avoid water inflow of the servo motor, a pushing shaft 603 is fixed on an end, close to the sector toothed plate 604, of the driving disc 602, a long hole 605 is disposed on the sector toothed plate 604, and the pushing shaft 603 is slidably connected in the long hole 605.

In the embodiment of the invention, the servo motor drives the driving disc 602 to rotate, the driving disc 602 drives the pushing shaft 603 to revolve, the pushing shaft 603 can drive the sector toothed plate 604 to swing reciprocally through sliding fit with the long hole 605, the sector toothed plate 604 drives the gear III 601 to rotate reciprocally, and the gear III 601 drives the rotating shaft II 501 to rotate reciprocally.

As shown in fig. 1 to 6, as a preferred embodiment of the present invention, the carrying rack 105 is provided with a locking assembly 7, the locking assembly 7 includes a fixing frame 701 fixed on a rear side wall of the carrying rack 105, the connecting plug shaft 504 is slidably connected to the connecting shaft 106 on the rear side of one of the mounting frames 107, a shaft shoulder 702 is disposed in the middle of the connecting plug shaft 504, one end of the shaft shoulder 702 is fixedly connected with a compression spring 703, the compression spring 703 is connected with the connecting shaft 106 on the rear side of one of the mounting frames 107, the other end of the shaft shoulder 702 is fixedly connected with a plurality of locking shafts 704, and a plurality of locking holes 705 matched with the locking shafts 704 are disposed on the fixing frame 701.

In the embodiment of the present invention, when the connection plug shaft 504 is inserted into the jack on the second rotation shaft 501, the second rotation shaft 501 can overcome the elastic force of the compression spring 703 and drive the connection plug shaft 504 to move, the connection plug shaft 504 drives the shaft shoulder 702 to move, and the shaft shoulder 702 drives the locking shaft 704 to be separated from the lock hole 705; when the lens is cleaned and the carrying frame 105 is taken out from the cleaning cabinet 101, the servo motor is controlled to enable the lens on the carrying frame 105 to be in a vertical state, the compression spring 703 firstly pushes the shaft shoulder 702 and the locking shaft 704 to move towards the lock hole 705 in the process that the connecting inserting shaft 504 is separated from the jack on the second rotating shaft 501, after the locking shaft 704 is inserted into the lock hole 705, the connecting inserting shaft 504 is completely separated from the jack on the second rotating shaft 501, and then when the carrying frame 105 is taken out, the rotation of the connecting shaft 106 can be limited, and further the mounting frame 107 is prevented from driving the lens to swing, so that the lens is convenient to take off from the mounting frame 107, and the lens is convenient to place on the mounting frame 107.

In the above embodiment of the present invention, when the flushing device for producing lenses is used, the pressing rod 304 is pressed downwards, the pressing rod 304 drives the two vertical sliding racks 302 to move downwards simultaneously, the two vertical sliding racks 302 drive the two first gears 303 to rotate reversely, the two first gears 303 drive the two first rotating shafts 110 to rotate reversely, the two first rotating shafts 110 overcome the elasticity of the first tension spring 301 and drive the two rotating plates 111 to rotate reversely, so that the two rotating plates 111 drive the two top pressing shafts 115 to move towards the front and rear inner walls of the mounting frame 107 respectively, the vertical sliding racks 302 drive the vertical sliding wedges 402 to move downwards, the vertical sliding wedge block 402 pushes the two horizontal sliding wedge blocks 403 to move reversely, the two horizontal sliding wedge blocks 403 overcomes the elastic force of the tension spring II 401 and drives the two cross slide bars 113 to move reversely, the lens is placed on the two bottom support shafts 108 of the mounting frame 107, the lens is positioned between the two cross slide bars 113, the compression bar 304 is loosened, the tension spring I301 pulls the two rotating plates 111 to rotate in opposite directions, the two rotating plates 111 drive the two top pressing shafts 115 to press the upper parts of the lens, the two bottom support shafts 108 and the two top pressing shafts 115 clamp the side walls of the lens, the lens is pressed on the side wall cleaning brush 116, the tension spring II 401 pulls the two cross slide bars 113 to move in opposite directions, the two cross slide bars 113 drive the two end face cleaning brushes 114 to contact with the two end faces of the lenses, the auxiliary lenses are kept in a vertical state under the clamping force of the two end face cleaning brushes 114, the lenses are placed on the plurality of mounting frames 107 in the same mode, then the carrying frame 105 is lifted up through the handle 117, the carrying frame 105 is placed in the cleaning cabinet 101, the carrying frame 105 slides into the placing frame 104, at the moment, the connecting inserting shaft 504 is inserted into the inserting hole on the rotating shaft II 501, the rotating shaft II 501 can overcome the elasticity of the pressure spring 703 and drive the connecting inserting shaft 504 to move, the connecting inserting shaft 504 drives the shaft shoulder 702 to move, the shaft shoulder 702 drives the locking shaft 704 to be separated from the lock hole 705, the cabinet door 102 is closed, the booster pump pumps water flow in the water tank into the water injection pipe 201, the water flow is sprayed out of the spray nozzle 202, the water flow is sprayed on the lens, the lens is further washed and cleaned, the servo motor drives the driving disc 602 to rotate, the driving disc 602 drives the pushing shaft 603 to revolve, the pushing shaft 603 can drive the sector toothed plate 604 to swing reciprocally through sliding fit with the long hole 605, the sector toothed plate 604 drives the gear III 601 to rotate reciprocally, the gear III 601 drives the rotating shaft II 501 to rotate reciprocally, the second rotating shaft 501 can drive one of the connecting shafts 106 to reciprocate through the cooperation of the connecting plug shaft 504 and the jack, the connecting shaft 106 drives one of the second gears 502 to reciprocate, the second gears 502 drive the transverse sliding rack 503 to reciprocate, the rest of the second gears 502 of the transverse sliding rack 503 reciprocate, the rest of the second gears 502 drive the rest of the connecting shafts 106 to reciprocate, the connecting shafts 106 drive the mounting frames 107 to reciprocate, water flow can be directly sprayed on two end surfaces of the lens, and therefore contact range between two ends of the lens and water flow can be enlarged, the effects of lens flushing and cleaning are improved; the motor 109 on the mounting frame 107 drives one of the bottom support shafts 108 to rotate, and the bottom support shaft 108 drives the lens to rotate, so that the lens rotates relative to the end surface cleaning brush 114 and the side wall cleaning brush 116, and the end surface cleaning brush 114 and the side wall cleaning brush 116 brush away stains on the end surface and the side wall of the lens respectively, so that the cleaning effect of the lens is improved.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (7)

1. The utility model provides a flushing equipment is used in lens production, includes clean cabinet (101), rotate on the preceding lateral wall of clean cabinet (101) and be connected with cabinet door (102), be provided with water spray assembly (2) in clean cabinet (101), water spray assembly (2) are used for spraying rivers on the lens, and its characterized in that still includes:

The cleaning cabinet comprises a storage rack (104) symmetrically arranged on the left side and the right side in the cleaning cabinet (101), wherein the storage rack (104) is connected with a carrying rack (105) in a sliding manner, a plurality of mounting frames (107) are uniformly arranged in the carrying rack (105), connecting shafts (106) are fixedly arranged on the front side wall and the rear side wall of each mounting frame (107), two connecting shafts (106) on each mounting frame (107) are respectively connected onto the front side wall and the rear side wall of each carrying rack (105) in a rotating manner, a reciprocating swing mechanism (5) is arranged on the rear side of the cleaning cabinet (101), and the reciprocating swing mechanism (5) is used for driving the plurality of mounting frames (107) to swing in the carrying rack (105) in a reciprocating manner;

two symmetrical bottom support shafts (108) are rotatably connected to the mounting frame (107), a motor (109) is fixed to the side wall of the mounting frame (107), and the rotating end of the motor (109) is connected with one of the bottom support shafts (108);

The device comprises a mounting frame (107), two symmetrical first rotating shafts (110) are rotatably connected to the mounting frame (107), rotating plates (111) are fixed to the two first rotating shafts (110), top pressing shafts (115) are rotatably connected to the tail ends of the two rotating plates (111), the top pressing shafts (115) are located above bottom supporting shafts (108), a rotating pressing assembly (3) is arranged on the mounting frame (107), and the rotating pressing assembly (3) is used for driving the two first rotating shafts (110) to synchronously rotate in opposite directions or reversely;

Two horizontal sliding grooves (112) are formed in the front inner side wall and the rear inner side wall of the mounting frame (107), cross sliding rods (113) are connected in the two horizontal sliding grooves (112) in a sliding mode, end face cleaning brushes (114) are fixed on one sides, close to each other, of the two cross sliding rods (113), and side wall cleaning brushes (116) are fixed on the inner bottom of the mounting frame (107);

The synchronous opening and closing assembly (4) is arranged on the cross slide bars (113), and the synchronous opening and closing assembly (4) is used for driving the two cross slide bars (113) to move in opposite directions, or the synchronous opening and closing assembly (4) drives the two cross slide bars (113) to move in opposite directions through rotating the pressing assembly (3).

2. The flushing device for lens production according to claim 1, wherein the water spraying assembly (2) comprises a water injection pipe (201) fixed at the upper part of the cleaning cabinet (101), one end of the water injection pipe (201) extends into the cleaning cabinet (101) and is uniformly communicated with a plurality of spray heads (202), the other end of the water injection pipe (201) is connected with a booster pump, and the input end of the booster pump is communicated with the water tank.

3. The flushing device for lens production according to claim 1, wherein the rotary pressing assembly (3) comprises a tension spring one (301), two ends of the tension spring one (301) are fixedly connected with two rotary plates (111) respectively, vertical sliding racks (302) are slidably connected to front and rear inner walls of the mounting frame (107), upper ends of the two vertical sliding racks (302) are fixedly connected through pressing rods (304), gears one (303) are fixedly connected to the two rotary shafts one (110), and the gears one (303) are meshed with the two vertical sliding racks (302) respectively.

4. The flushing device for lens production according to claim 3, wherein the synchronous opening and closing assembly (4) comprises a tension spring II (401), two ends of the tension spring II (401) are fixedly connected with two cross slide bars (113) respectively, vertical sliding wedges (402) are fixed on one sides, close to each other, of the two cross slide bars (113), the two vertical sliding wedges (402) are symmetrically arranged, a horizontal sliding wedge (403) is fixed at the lower end of the vertical sliding rack (302), and the horizontal sliding wedges (403) are matched with the two vertical sliding wedges (402).

5. The flushing device for lens production according to claim 1, wherein the reciprocating swing mechanism (5) comprises a second rotating shaft (501) rotationally connected to the rear side wall of the cleaning cabinet (101), a reciprocating swing assembly (6) is arranged on the rear side wall of the cleaning cabinet (101), the reciprocating swing assembly (6) is used for driving the second rotating shaft (501) to reciprocally rotate, two gears (502) are fixed on connecting shafts (106) on the rear sides of the plurality of mounting frames (107), transverse sliding racks (503) are slidingly connected to the rear side wall of the carrying frame (105) along the horizontal direction, the transverse sliding racks (503) are simultaneously meshed with the two gears (502), a connecting inserting shaft (504) is arranged on the connecting shaft (106) on the rear side of one mounting frame (107), and a matched inserting hole is formed in one end, close to the connecting inserting shaft (504), of the second rotating shaft (501).

6. The flushing device for lens production according to claim 5, wherein the reciprocating swinging assembly (6) comprises a gear III (601) fixed on a rotating shaft II (501), a driving disc (602) and a sector toothed plate (604) are rotatably connected on the rear side wall of the cleaning cabinet (101), the driving disc (602) is arranged between the sector toothed plate (604) and the cleaning cabinet (101), a servo motor is fixed in the cleaning cabinet (101), the rotating end of the servo motor is connected with the driving disc (602), a pushing shaft (603) is fixed on one end, close to the sector toothed plate (604), of the driving disc (602), long holes (605) are formed in the sector toothed plate (604), and the pushing shaft (603) is slidably connected in the long holes (605).

7. The flushing device for lens production according to claim 5, characterized in that the carrying frame (105) is provided with a locking assembly (7), the locking assembly (7) comprises a fixing frame (701) fixed on the rear side wall of the carrying frame (105), the connecting plug shaft (504) is slidably connected on the connecting shaft (106) on the rear side of one of the mounting frames (107), a shaft shoulder (702) is arranged in the middle of the connecting plug shaft (504), one end of the shaft shoulder (702) is fixedly connected with a pressure spring (703), the pressure spring (703) is connected with the connecting shaft (106) on the rear side of one of the mounting frames (107), the other end of the shaft shoulder (702) is fixedly connected with a plurality of locking shafts (704), and a plurality of lock holes (705) matched with the locking shafts (704) are formed in the fixing frame (701).