CN114011652B - Adhesive dispensing and curing device for lens of optical lens - Google Patents

Abstract

The present disclosure relates to dispensing curing devices, and particularly to a dispensing curing device for an optical lens. The invention provides a lens dispensing and curing device of an optical lens, which can automatically dispense and cure a lens and can automatically feed the lens. The utility model provides an optical lens's point is glued solidification equipment for lens, is equipped with the dead lever in the middle of the chassis top including chassis, dead lever, blowing dish and positioning mechanism etc. and the dead lever top is equipped with the blowing dish, and the blowing dish is used for placing convex lens, is equipped with the positioning mechanism who is used for playing the fixed action on the dead lever. Place the concave mirror in the blowing bucket, through the blowing bucket that moves down for glue dispensing mechanism work drips glue to convex lens on, concave mirror alright bond with convex lens, so the operation can go on simultaneously, improves work efficiency, and concave mirror is more accurate with the convex lens contact surface, and the volume that glue drips simultaneously is unanimous, the condition that glue spills over can not appear.

Description

Adhesive dispensing and curing device for lens of optical lens

Technical Field

The present disclosure relates to dispensing curing devices, and particularly to a dispensing curing device for a lens of an optical lens.

Background

Optical lens is indispensable part among the machine vision system, the quality of direct influence imaging quality, influence realization and the effect of algorithm, in to optical lens production process, need bond a convex lens and a concave mirror together, just so need use glue, traditional optical lens processing is by artifical use point gluey pen with glue point on a lens, again people align two lenses and bond, this bonding mode can not guarantee that two lenses paste the position accuracy mutually, the skew appears easily, lead to the lens focus to differ, influence optical lens image quality, a lot of point gluey solidification machines slowly appear on the market now, point gluey solidification machine can replace traditional manual preparation, can reduce people's work load, and the bonding effect can be better.

The dispensing curing machine comprises an operation box, wherein the bottom of the inner wall of the operation box is fixedly connected with an installation table, two sides of the inner wall of the installation table are fixedly connected with clamping devices, a fixed column is fixedly connected between the two sides of the inner wall of the operation box, one side of the inner wall of the operation box is fixedly connected with a motor through a base, an output shaft of the motor is fixedly connected with a first belt pulley through a coupler, the surface of the first belt pulley is connected with a second belt pulley through belt transmission, and the front side of the second belt pulley is fixedly connected with a first gear; this point is glued solidification machine has solved and has generally all gone on a little gluing the lens through the manual work, can adopt the glue head to a little glue the lens, can realize the solidification operation after a little gluing moreover, but at the material loading in-process to the lens, needs people's use tools to place the lens, so still can increase people's work load.

Therefore, a dispensing and curing device for an optical lens is now developed, which not only can dispense and cure automatically, but also can automatically feed lenses.

Disclosure of Invention

In order to overcome the defect that the existing dispensing curing machine does not have the function of automatically feeding the lenses, the invention aims to provide a dispensing curing device for the lenses of an optical lens, which can automatically dispense and cure the lenses and can also automatically feed the lenses.

The technical implementation scheme of the invention is as follows: a dispensing and curing device for lenses of an optical lens comprises a chassis, a fixed rod, a material placing disc, a positioning mechanism, a material placing mechanism, a clamping mechanism, a dispensing mechanism and a curing mechanism, wherein the fixed rod is arranged in the middle of the top of the chassis, the material placing disc is arranged at the top of the fixed rod and used for placing convex lenses, the positioning mechanism for fixing is arranged on the fixed rod, the material placing mechanism for accurately placing concave mirrors is arranged on the positioning mechanism, the clamping mechanism is arranged on the front side of the material placing mechanism and used for supporting the concave mirrors, the dispensing mechanism for automatically dispensing is arranged on the right side of the material placing mechanism, and the curing mechanism for curing the bonded glue is arranged on the left side of the lower part of the material placing mechanism; the point gum machine constructs including the second connecting block, the fourth connecting rod, first fixed block, the charging tube with spout the glued pipe, right lateral wall symmetry is equipped with the second connecting block around on drop feed mechanism's the part, the rotary type is equipped with the fourth connecting rod between two second connecting blocks, be equipped with first fixed block in the middle of the fourth connecting rod, first fixed block right side is equipped with the charging tube, the charging tube is used for saving glue, charging tube upper portion left side wall is opened there is the feed opening, the feed opening can be convenient for glue and pour into in the charging tube, the charging tube bottom is equipped with spouts the glued pipe, glue can follow and spout the glued pipe drippage, the material of spouting the glued pipe is silica gel.

According to a preferred technical scheme, the positioning mechanism comprises three first connecting rods, positioning blocks, first torsion springs, first connecting blocks, connecting plates and first return springs, the three first connecting rods are evenly arranged on the material placing disc at intervals along the circumferential direction, the three first connecting rods are respectively rotatably provided with the positioning blocks, the convex lenses can be clamped by the positioning blocks, the first torsion springs are respectively connected between two sides of the three positioning blocks and the material placing disc, every two first torsion springs are respectively sleeved on the corresponding first connecting rods, the first connecting blocks are arranged on the upper sides of the fixing rods, the connecting plates are slidably arranged on the positions, located on the upper sides of the first connecting blocks, of the fixing rods, the first return springs are connected between the connecting plates and the first connecting blocks, the first return springs are sleeved on the fixing rods, the three positioning blocks are respectively penetrated into the connecting plates, and the three positioning blocks are respectively connected with the slidably connecting plates.

As a preferred technical scheme, the discharging mechanism comprises a connecting frame, a second connecting rod, a fixing ring, a discharging barrel and a second return spring, the connecting frame is arranged on the left side of the first connecting block, the second connecting rod is arranged at the top of the connecting frame, the fixing ring is slidably arranged on the second connecting rod, the discharging barrel is arranged on the fixing ring, the front side and the rear side of the right side wall of the discharging barrel are respectively connected with the two second connecting blocks, the discharging barrel is used for placing the concave mirror, the second return spring is connected between the fixing ring and the connecting frame, and the second return spring is sleeved on the second connecting rod.

As a preferred technical scheme of the invention, the clamping mechanism comprises third connecting rods, connecting arc blocks, third reset springs, clamping blocks, second torsion springs and stop levers, the third connecting rods are arranged on the front side and the rear side of the discharging barrel, the connecting arc blocks are arranged on the lower sides of the two third connecting rods in a sliding mode, the third reset springs are connected between the two connecting arc blocks and the third connecting rods on the same side, the clamping blocks capable of preventing the concave mirrors from falling off are arranged on the left side and the right side of the two connecting arc blocks in a rotating mode, the second torsion springs are connected between the left side and the right side of the four clamping blocks and the connecting arc blocks on the same side, the stop levers are symmetrically arranged on the upper portion of the connecting frame in the front and rear mode, the two stop levers are matched with the connecting arc blocks on the same side, and the four clamping blocks are matched with the discharging barrel.

As a preferred technical scheme of the invention, the glue dispensing mechanism further comprises a third torsion spring, clamping beads, connecting springs, a pressure rod, a fourth reset spring, a third connecting block, a one-way gear, a connecting rack and an inclined L-shaped block, wherein the third torsion spring is connected between the front side and the rear side of the left part of the first fixing block and the second connecting block at the same side, the two third torsion springs are sleeved on the fourth connecting rod at the same side, the clamping beads are arranged at the front side and the rear side of the inner part of the fourth connecting rod in a sliding manner, the connecting springs are connected between the two clamping beads and the fourth connecting rod, clamping grooves are formed in the right sides of the inner parts of the two second connecting blocks, the two clamping beads are matched with the clamping grooves at the same side, a rubber sheet is rotatably arranged at the top end of the glue spraying pipe, a pressure rod is arranged at the upper side in the feeding pipe in a sliding manner, the fourth reset spring is connected between the pressure rod and the feeding pipe, the third connecting block is arranged at the rear side of the upper part of the pressure rod, the rear side of the fourth connecting rod is provided with a one-way gear, the top of the second connecting rod is provided with a connecting rack, the connecting rack is matched with the one-way gear, the right side of the rear part of the material placing disc is provided with an inclined L-shaped block, and the third connecting block is matched with the inclined L-shaped block.

According to a preferred technical scheme, the curing mechanism comprises a second fixing block, ultraviolet lamps and buttons, the second fixing block is arranged at the position, located on the inner sides of the two stop levers, of the upper side of the connecting frame, the ultraviolet lamps are arranged on the second fixing block and used for curing glue, and the buttons are arranged at the left ends of the ultraviolet lamps.

As a preferred technical scheme, the cleaning device further comprises a cleaning mechanism, the cleaning mechanism comprises a fifth connecting rod, a fifth connecting block, a fourth torsion spring, a cleaning sponge, sixth connecting rods and guide rods, the fifth connecting rods are symmetrically arranged on the left side and the right side of the emptying barrel from front to back, the fifth connecting block is rotatably arranged on each fifth connecting rod, the fourth torsion spring is connected between each fourth fifth connecting block and the fifth connecting rod on the same side, the sixth connecting rods are rotatably arranged on the lower sides of the fourth fifth connecting blocks, the cleaning sponge is connected between every two sixth connecting rods from front to back and used for cleaning dust particles on the surfaces of the convex lenses, the guide rods are symmetrically arranged on the left side and the right side of the emptying disc from front to back, and the four sixth connecting rods are matched with the guide rods on the same side.

As a preferred technical scheme, the glue filling machine further comprises a feeding mechanism, the feeding mechanism comprises third fixed blocks, a feeding frame and a hose, the third fixed blocks are symmetrically arranged on the right side of the fixing ring in the front-back direction, the feeding frame used for containing glue is connected between the tops of the two third fixed blocks, the hose is arranged on the right side of the lower portion of the feeding frame and matched with the feeding opening, and a switch is arranged at the left end of the hose.

Compared with the prior art, the invention has the following advantages: 1. the concave mirror is placed in the discharging barrel, glue is dripped onto the convex lens by the glue dispensing mechanism through downward movement of the discharging barrel, the concave mirror can be bonded with the convex lens, the operation can be carried out simultaneously, the working efficiency is improved, the contact surface between the concave mirror and the convex lens is more accurate, the dripping amount of the glue is consistent, and the glue overflow condition cannot occur;

2. firstly, glue is injected into the charging pipe, after the charging pipe rotates to a proper position and the third connecting block is contacted with the inclined L-shaped block, the glue in the charging pipe can be extruded by the pressure lever under the action of the inclined L-shaped block, so that the glue flows onto the convex lens, and the glue dispensing work is finished without manual operation;

3. the convex lens can be clamped under the action of the positioning block, so that the convex lens is prevented from displacing when the concave lens falls down and contacts with the convex lens, and the optical lens processing work can be smoothly carried out;

4. when the ultraviolet lamp works, the glue at the part where the concave mirror and the convex lens are attached can be cured, the natural cooling is not needed, and the optical lens is not needed to be taken out firstly;

5. the feeding barrel moves downwards to drive the wiping sponge to move downwards, the wiping sponge can wipe the surface of the convex lens, dust is prevented from being adhered to the surface of the convex lens, the cleaning is cleaner, and the image quality problem cannot occur after the optical lens is processed;

6. people pour glue into the material loading frame, and accessible hose makes glue flow to in the material loading pipe, need not artifical injection glue, and is more laborsaving.

Drawings

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

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

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

Fig. 4 is a partial perspective view of the positioning mechanism of the present invention.

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

Fig. 6 is a schematic diagram of a second three-dimensional structure of the discharging mechanism of the invention.

Fig. 7 is a schematic perspective view of the jamming mechanism of the present invention.

Fig. 8 is a schematic partial perspective view of the jamming mechanism of the present invention.

Fig. 9 is a schematic perspective view of the dispensing mechanism of the present invention.

Fig. 10 is a first partial cross-sectional view of the dispensing mechanism of the present invention.

Fig. 11 is a second partial cross-sectional view of the dispensing mechanism of the present invention.

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

Fig. 13 is a perspective view of the wiping mechanism of the present invention.

Fig. 14 is a partial perspective view of the wiping mechanism of the present invention.

Fig. 15 is a perspective view of the charging mechanism of the present invention.

Wherein the figures include the following reference numerals: 1_ chassis, 2_ fixed rod, 3_ discharge tray, 4_ positioning mechanism, 41_ first connecting rod, 42_ positioning block, 43_ first torsion spring, 44_ first connecting block, 45_ connecting plate, 46_ first return spring, 5_ discharge mechanism, 51_ connecting frame, 52_ second connecting rod, 53_ fixed ring, 54_ discharge barrel, 55_ second return spring, 6_ clamping mechanism, 61_ third connecting rod, 62_ connecting arc block, 63_ third return spring, 64_ clamping block, 65_ second torsion spring, 66_ stop rod, 7_ dispensing mechanism, 71_ second connecting block, 72_ fourth connecting rod, 73_ first fixed block, 74_ third torsion spring, 75_ clamping ball, 76_ connecting spring, 77_ charging tube, 78_ rubber-spraying tube, 79_ pressing rod, 710_ fourth return spring, 711_ third connecting block, 712_ unidirectional missing gear, 713_ connecting rack, 715_ oblique L-shaped block, 8_ curing mechanism, 81_ second fixed block, 82_ ultraviolet lamp, 83_ button, 9_ wiping mechanism, 91_ fifth connecting rod, 92_ fifth connecting block, 93_ fourth torsion spring, 94_ wiping sponge, 95_ sixth connecting rod, 96_ guide rod, 10_ charging mechanism, 101_ third fixed block, 102_ charging frame, 103_ hose.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example 1

The utility model provides a some glue solidification equipment for optical lens's lens, as shown in fig. 1-12, including chassis 1, dead lever 2, blowing dish 3, positioning mechanism 4, drop feed mechanism 5, block mechanism 6, some glue mechanism 7 and solidification mechanism 8, the welding has dead lever 2 in the middle of the chassis 1 top, the blowing dish 3 that is used for placing convex lens is equipped with at 2 tops of dead lever, be equipped with the positioning mechanism 4 that is used for pressing from both sides tight convex lens on the dead lever 2, be equipped with the drop feed mechanism 5 that is used for accurately placing the concave lens on positioning mechanism 4, drop feed mechanism 5 front side is equipped with the block mechanism 6 that is used for holding the concave lens, drop feed mechanism 5 right side is equipped with the point glue mechanism 7 that is used for dropping on the convex lens surface with the glue, drop feed mechanism 5 lower part left side is equipped with the solidification mechanism 8 that is used for solidifying the glue that is connected the position with the concave lens.

When people need to process the optical lens, people can open the positioning mechanism 4 firstly, place the convex lens on the material placing disc 3, then loosen the positioning mechanism 4, reset the positioning mechanism 4 to clamp the convex lens tightly, then place the concave lens on the material placing mechanism 5, support the concave lens under the action of the clamping mechanism 6 to prevent the concave lens in the material placing mechanism 5 from falling off, then inject the glue into the glue dispensing mechanism 7, after the preparation work is finished, people can move the material placing mechanism 5 downwards to drive the concave lens and the clamping mechanism 6 to move downwards, the material placing mechanism 5 also drives the glue dispensing mechanism 7 to move downwards and rotate while moving downwards, the glue dispensing mechanism 7 rotates above the convex lens, the glue simultaneously drops on the convex lens, thus the glue can automatically drop without manual glue application, and is more labor-saving, after the glue drops, the material placing mechanism 5 continues to move downwards, at the moment, the glue dispensing mechanism 7 resets in a reverse rotation manner, after the material placing mechanism 5 drives the clamping mechanism 6 and the glue dispensing mechanism 7 to continue to move downwards to a specified position, the clamping mechanism 6 does not support the concave mirror any more, at the moment, the concave mirror falls onto the convex lens, so that the concave mirror is contacted with glue, then, people can firstly loosen the material placing mechanism 5, so that the material placing mechanism 5 resets to drive the glue dispensing mechanism 7 and the clamping mechanism 6 to move upwards for resetting, the clamping mechanism 6 resets to an initial state, then, people can start the curing mechanism 8 to work, so that the curing mechanism 8 works to cure the glue at the part where the concave mirror and the convex lens are attached, people can simultaneously use tools to apply force to the concave mirror, so that the concave mirror and the convex lens are attached to be more stably, the convex lens and the concave mirror are bonded to form an optical lens, after the glue is cured, people can close 8 work of solidification mechanism, then open positioning mechanism 4 for positioning mechanism 4 no longer presss from both sides tight convex lens, alright take out the optical lens that finishes processing, and optical lens takes out the back, loosens positioning mechanism 4, makes positioning mechanism 4 reset to initial condition, so operate and can make accurate and the convex lens of concave mirror hug closely under drop feed mechanism 5's effect, and the optical lens of processing is more accurate.

The positioning mechanism 4 comprises a first connecting rod 41, a positioning block 42, and a first torsion spring 43, first connecting block 44, connecting plate 45 and first reset spring 46, it has three head rods 41 to weld along the even interval of circumference on the blowing dish 3, equal rotary type is equipped with the locating piece 42 that is used for pressing from both sides convex lens tight on three head rods 41, all be connected with first torsion spring 43 between three locating piece 42's both sides and the blowing dish 3, per two first torsion spring 43 all overlap on the corresponding head rod 41, 2 upside welding of dead lever have first connecting block 44, the position slidingtype that lies in first connecting block 44 upside on the dead lever 2 is equipped with connecting plate 45, be connected with first reset spring 46 between connecting plate 45 and the first connecting block 44, first reset spring 46 overlaps on dead lever 2, three locating pieces 42 all penetrate on connecting plate 45, three locating pieces 42 all link to each other with connecting plate 45 slidingtype.

When the optical lens needs to be processed, people can firstly move the connecting plate 45 downwards, the first return spring 46 is compressed, the connecting plate 45 moves downwards and simultaneously drives the positioning block 42 to rotate, the first torsion spring 43 deforms, then people can place the convex lens on the material placing disc 3, then people can loosen the connecting plate 45, so that the connecting plate 45 moves upwards and returns under the action of the first return spring 46, the positioning block 42 is not clamped by the connecting plate 45 any more, at the moment, the positioning block 42 rotates reversely and returns under the action of the first torsion spring 43, the positioning block 42 can clamp the convex lens tightly, the convex lens can be prevented from being displaced when the concave lens is adhered, the processing is more accurate, then people can continuously operate to adhere the concave lens to the convex lens, so that the concave lens and the convex lens are adhered to form the optical lens, after the optical lens is processed, people need to move the connecting plate 45 downwards again, first reset spring 46 is compressed, connecting plate 45 moves down and drives locating piece 42 to rotate, first torsion spring 43 takes place deformation, locating piece 42 rotates and just no longer presss from both sides tight optical lens, at this moment people alright take out the optical lens that finishes processing, after the lens is taken out, people loosen connecting plate 45 for connecting plate 45 moves up under first reset spring 46's effect and resets, connecting plate 45 just no longer blocks locating piece 42, at this moment locating piece 42 will reset in reverse rotation under first torsion spring 43's effect.

Drop feed mechanism 5 is including link 51, second connecting rod 52, solid fixed ring 53, blowing bucket 54 and second reset spring 55, first link 44 left side is connected with link 51 through bolted connection's mode, the welding of link 51 top has second connecting rod 52, the gliding style is equipped with solid fixed ring 53 on second connecting rod 52, gu be equipped with the blowing bucket 54 that is used for placing the concave mirror on the fixed ring 53, gu be connected with second reset spring 55 between fixed ring 53 and the link 51, second reset spring 55 cover is on second connecting rod 52.

Clamping mechanism 6 is including third connecting rod 61, connect arc 62, third reset spring 63, fixture block 64, second torsion spring 65 and pin 66, blowing bucket 54 front and back both sides all are connected with third connecting rod 61 through screwed connection's mode, two third connecting rod 61 downside all slidingtype are equipped with connects arc 62, all be connected with third reset spring 63 between two third connecting rod 61 of connecting arc 62 and homonymy, two equal rotary types in left and right sides of connecting arc 62 are equipped with the fixture block 64 that is used for holding the concave mirror, all be connected with second torsion spring 65 between the arc 62 of being connected of the left and right sides and homonymy of four fixture block 64, connecting frame 51 upper portion longitudinal symmetry is equipped with pin 66, two pin 66 all cooperate with the arc 62 of being connected of homonymy, four fixture block 64 all cooperate with blowing bucket 54.

When the optical lens is processed, after the convex lens is fixed on the material placing tray 3, the concave mirror can be placed in the material placing barrel 54, so that the concave mirror is in contact with the fixture block 64, then, one can move the fixing ring 53 downwards to drive the material placing barrel 54 to move downwards, the fixing ring 53 moves downwards to compress the second return spring 55, the material placing barrel 54 moves downwards to drive the third connecting rod 61, the connecting arc block 62 and the fixture block 64 to move downwards, the material placing barrel 54 moves downwards to drive the glue dispensing mechanism 7 to move downwards and rotate, so that the glue dispensing mechanism 7 drops glue on the surface of the convex lens, after the glue is dropped and is reversed and reset, the connecting arc block 62 moves downwards to be in contact with the stop rod 66, the stop rod 66 stops the connecting arc block 62, the connecting arc block 62 does not move any more, the material placing barrel 54 continues to drive the third connecting rod 61 and the concave mirror to move downwards, and the third return spring 63 is compressed, the material placing barrel 54 moves downwards to extrude the clamping block 64, because the clamping block 64 can not move downwards, the material placing barrel 54 enables the clamping block 64 to rotate, the second torsion spring 65 deforms, at the moment, the clamping block 64 no longer supports the concave mirror, the concave mirror falls onto the convex lens, the concave mirror is attached to the convex lens through glue, after the concave mirror is attached to the convex lens, people can release the fixing ring 53, so that the fixing ring 53 drives the material placing barrel 54 to move upwards to reset under the action of the second reset spring 55, the material placing barrel 54 simultaneously drives the third connecting rod 61 to move upwards to reset, so that the third reset spring 63 resets, after the third reset spring 63 resets to a natural state, the material placing barrel 54 moves upwards to not block the clamping block 64, the clamping block 64 rotates reversely to reset under the action of the second torsion spring 65, the clamping block 64 contacts with the lower part of the material placing barrel 54, then the third connecting rod 61 continues to move upwards to drive the connecting arc block 62 and the clamping block 64 to move upwards to reset, the connecting arc block 62 is no longer in contact with the stop lever 66, and then people only need to wait for the glue to be cured to take down and collect the finished optical lens, so that the concave lens can be accurately attached to the convex lens, and the image quality of the optical lens is better.

The dispensing mechanism 7 comprises second connecting blocks 71, fourth connecting rods 72, first fixing blocks 73, third torsion springs 74, clamping beads 75, connecting springs 76, a charging pipe 77, a glue spraying pipe 78, a pressing rod 79, fourth return springs 710, third connecting blocks 711, a one-way missing gear 712, a connecting rack 713 and an inclined L-shaped block 715, the second connecting blocks 71 are symmetrically connected with the right side wall of the discharging barrel 54 in a front-back manner in a bolt connection manner, the fourth connecting rods 72 are rotatably arranged between the two second connecting blocks 71, the first fixing blocks 73 are welded in the middle of the fourth connecting rods 72, the third torsion springs 74 are connected between the front and back sides of the left part of each first fixing block 73 and the second connecting blocks 71 on the same side, the two third torsion springs 74 are sleeved on the fourth connecting rods 72 on the same side, the clamping beads 75 playing a fixing role are arranged on the front and back sides of the inside of each fourth connecting rod 72 in a sliding manner, the connecting springs 76 are connected between the two clamping beads 75 and the fourth connecting rods 72, the right sides of the insides of the two second connecting blocks 71 are provided with clamping grooves, the two clamping beads 75 are matched with the clamping grooves on the same side, the right side of the first fixing block 73 is provided with a charging pipe 77 for storing glue, the left side wall of the upper part of the charging pipe 77 is provided with a feed opening for injecting the glue, the bottom of the charging pipe 77 is provided with a glue spraying pipe 78 for dripping the glue, the glue spraying pipe 78 is made of silica gel, the top end of the glue spraying pipe 78 is rotatably provided with a rubber sheet capable of preventing the glue from flowing out randomly, the upper side inside the charging pipe 77 is slidably provided with a press rod 79, a fourth reset spring 710 is connected between the press rod 79 and the charging pipe 77, the rear side of the upper part of the press rod 79 is provided with a third connecting block 711, the rear side of the fourth connecting rod 72 is provided with a one-way lacking gear 712, the top of the second connecting rod 52 is provided with a connecting rack 713, the connecting rack 713 is matched with the one-way lacking gear 712, the right side of the rear part of the discharging disc 3 is provided with an inclined L-shaped block 715, and the third connecting block 711 is matched with the inclined L-shaped block 715.

When the optical lens is processed, glue needs to be injected into the charging pipe 77 from the discharging opening, the glue in the charging pipe 77 cannot flow out from the glue spraying pipe 78 under the action of the rubber sheet, after the glue is injected, the concave mirror is placed in the discharging barrel 54, the convex lens is fixed on the discharging tray 3, then the discharging barrel 54 can be moved downwards to drive the concave mirror to move downwards, the discharging barrel 54 simultaneously drives the second connecting block 71, the fourth connecting rod 72, the first fixing block 73, the clamping beads 75, the charging pipe 77, the glue spraying pipe 78, the pressure lever 79, the third connecting block 711 and the unidirectional gear 712 to move downwards, so that the unidirectional gear 712 has a tooth part meshed with the connecting rack 713, the connecting rack 713 drives the unidirectional gear 712 to rotate, further drives the fourth connecting rod 72 and the clamping beads 75 to rotate simultaneously when moving downwards, the fourth connecting rod 72 simultaneously drives the first fixing block 73, The charging tube 77, the glue spraying tube 78, the pressing rod 79 and the third connecting block 711 rotate, the third torsion spring 74 deforms, the connecting spring 76 is compressed in an initial state, when the clamping bead 75 rotates to be aligned with the clamping groove, the clamping bead 75 moves upwards under the action of the connecting spring 76, the clamping bead 75 clamps the clamping groove to prevent the third torsion spring 74 from resetting, the discharging barrel 54 continues to move downwards to drive the upper part of the discharging barrel to move downwards, at the moment, the one-way lacking gear 712 does not contact with the connecting rack 713 any more, when the third connecting block 711 moves downwards to contact with the inclined L-shaped block 715, the inclined L-shaped block 715 cannot move, the third connecting block 711 moves downwards along the inclined L-shaped block 715 and slowly moves towards the direction close to the glue spraying tube 78, the third connecting block drives the pressing rod 79 to move towards the direction close to the glue spraying tube 78, the fourth return spring 710 is compressed, so that the pressing rod 79 presses glue in the charging tube 77, the glue can be rushed towards the rubber sheet, the rubber sheet is rotated, the glue flows into the glue spraying pipe 78 and then flows onto the convex lens through the glue spraying pipe 78, after the glue drops, the rubber sheet is reversed and reset under the action of the elasticity of the rubber sheet, after the third connecting block 711 moves downwards along the inclined L-shaped block 715 to be incapable of moving, the inclined L-shaped block 715 blocks the third connecting block 711, the emptying barrel 54 continues to move downwards, the emptying barrel 54 drives the second connecting block 71 to move downwards, the inclined L-shaped block 715 blocks the third connecting block 711, the second connecting block 71 slightly rotates around the fourth connecting rod 72, the clamping groove rotates to be separated from the clamping bead 75, the clamping bead 75 moves downwards to retract into the fourth connecting rod 72, the connecting spring 76 is compressed, at this time, the first fixing block 73, the charging pipe 77, the glue spraying pipe 78, the compression rod 79 and the third connecting block 711 are in an inclined state, and after the clamping bead 75 is not clamped any more, the first fixing block 73 drives the fourth connecting rod 72 and the clamping bead 75 to rotate reversely and reset under the action of the third torsion spring 74, meanwhile, the first fixing block 73 drives the charging tube 77, the glue spraying tube 78, the third connecting block 711 and the pressing rod 79 to rotate reversely and reset, the glue spraying tube 78 can deform because the glue spraying tube 78 is made of silica gel, when the glue spraying tube 78 rotates and contacts with the convex lens, the glue spraying tube 78 deforms, so that the glue spraying tube 78 rotates smoothly and reversely, the convex lens cannot clamp the glue spraying tube 78, the third connecting block 711 rotates reversely and does not contact with the inclined L-shaped block 715, the pressing rod 79 drives the third connecting block 711 to move and reset in the direction far away from the glue spraying tube 78 under the action of the fourth resetting spring 710, then, people can continue to operate the material placing barrel 54 to drive the upper part thereof to move downwards, so that the concave mirror falls onto the convex lens, and the concave mirror is adhered with the convex lens through glue, after the optical lenses are processed, people loosen the charging barrel 54, so that the charging barrel 54 moves upwards to reset to drive the second connecting block 71 to move upwards to reset, and simultaneously drives the fourth connecting rod 72, the first fixing block 73, the clamping beads 75, the charging tube 77, the glue spraying tube 78, the pressure rod 79, the third connecting block 711 and the one-way gear 712 to move upwards to reset.

The curing mechanism 8 comprises a second fixing block 81, an ultraviolet lamp 82 and a button 83, the second fixing block 81 is arranged at the position, located on the inner side of the two stop rods 66, of the upper side of the connecting frame 51, the ultraviolet lamp 82 used for curing glue is installed on the second fixing block 81, and the button 83 is arranged at the left end of the ultraviolet lamp 82.

After concave mirror and convex lens are pasted mutually, people can press button 83, make ultraviolet lamp 82 send ultraviolet irradiation concave mirror and convex mirror department of pasting mutually, can make the glue solidification, people need apply force to the concave mirror, make concave mirror and convex lens hug closely, alright wait for the glue solidification, after the glue solidification, press button 83 once more, make ultraviolet lamp 82 stop work, people alright take off optical lens after finishing processing from blowing dish 3, so can need not to wait for the glue nature to air-dry under ultraviolet lamp 82's effect, can improve work efficiency, can prevent when taking optical lens, because of the glue is not solidified, lead to concave mirror and convex mirror bonding position in disorder.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, 13, 14 and 15, the wiping device 9 is further included, the wiping device 9 includes a fifth connecting rod 91 and a fifth connecting block 92, fourth torsion spring 93, clean sponge 94, sixth connecting rod 95 and guide bar 96, the equal front and back symmetry of blowing bucket 54 left and right sides is equipped with fifth connecting rod 91, equal rotary type is equipped with fifth connecting block 92 on every fifth connecting rod 91, all be connected with fourth torsion spring 93 between the fifth connecting rod 91 of four fifth connecting blocks 92 and homonymy, the equal rotary type of downside of four fifth connecting blocks 92 is equipped with sixth connecting rod 95, all be connected with between per two sixth connecting rods 95 backward in the past and be used for cleaning sponge 94 to the convex lens surface, the equal front and back symmetry of blowing dish 3 left and right sides is equipped with guide bar 96, four sixth connecting rods 95 all cooperate with the guide bar 96 of homonymy.

The discharging barrel 54 moves downwards to drive the fifth connecting rod 91, the fifth connecting block 92, the wiping sponge 94 and the sixth connecting rod 95 to move downwards, the discharging barrel 54 simultaneously drives the dispensing mechanism 7 to move downwards, when the charging pipe 77 and the dispensing pipe 78 rotate, the dispensing pipe 78 will contact with the wiping sponge 94, so that the wiping sponge 94 slightly deforms, the wiping sponge 94 no longer blocks the dispensing pipe 78, the discharging barrel 54 continues to drive the wiping sponge 94 to move downwards, when the wiping sponge 94 moves downwards to contact with the convex lens, the convex lens blocks the wiping sponge 94, the discharging barrel 54 continues to move downwards, so that the fifth connecting rod 91 presses the fifth connecting block 92, the two wiping sponges 94 rotate away from each other along the convex lens surface, the wiping sponge 94 can wipe the convex lens surface, the wiping sponge 94 rotates to drive the fifth connecting block 92 and the sixth connecting rod 95 to rotate, the fourth torsion spring 93 is deformed, the sixth connecting rod 95 rotates to contact with the corresponding guide rod 96, so that the sixth connecting rod 95 rotates along the guide rod 96, the wiping sponge 94 and the fifth connecting rod 91 rotate along with the sixth connecting rod, the guide rod 96 can play a role of guiding the sixth connecting rod 95, the wiping sponge 94 can not contact with the convex lens any more after rotating to a certain position, the glue dispensing mechanism 7 works to drop glue on the surface of the convex lens, when the charging pipe 77 and the glue spraying pipe 78 rotate reversely and reset, the wiping sponge 94 can not block the glue spraying pipe 78 to reset, the concave mirror in the discharging barrel 54 can drop on the convex lens, the concave mirror and the convex lens can be adhered together through the glue, after people release the discharging barrel 54, the discharging barrel 54 can drive the fifth connecting rod 91 to move upwards to reset, so that the fifth connecting rod 91 can not press the fifth connecting block 92 any more, the fifth connecting block 92 drives the wiping sponge 94 and the sixth connecting rod 95 to rotate reversely under the action of the fourth torsion spring 93, so that the wiping sponge 94 contacts with the outer wall of the optical lens, the fifth connecting rod 91 continues to move upwards to drive the wiping sponge 94 and the sixth connecting rod 95 to continue to move upwards, so that the wiping sponge 94 moves upwards along with the optical lens, the sixth connecting rod 95 no longer contacts with the guide rod 96, after the wiping sponge 94 moves upwards and no longer contacts with the optical lens, the fourth torsion spring 93 continues to reset and twist to drive the fifth connecting block 92, the wiping sponge 94 and the sixth connecting rod 95 to rotate reversely and reset, the emptying barrel 54 continues to drive the other parts of the wiping mechanism 9 except the guide rod 96 to move upwards and reset to the initial position, so that the wiping sponge 94 can wipe the surface of the convex lens to prevent the concave lens from generating dust at the place where the convex lens is attached, the quality of the optical lens is influenced, manual wiping is not needed, and the process can be automatically carried out when the concave mirror is pasted.

Still including charging mechanism 10, charging mechanism 10 is including third fixed block 101, frame 102 and the hose 103 of feeding, and the symmetry is connected with third fixed block 101 through bolted connection's mode around the solid fixed ring 53 right side, is connected with the frame 102 of feeding that is used for splendid attire glue between two third fixed block 101 tops, and frame 102 lower part right side of feeding is equipped with the hose 103 that is used for conveying glue, hose 103 and feed opening cooperation, and the hose 103 left end is equipped with the switch.

When optical lens needs to be processed, people need to pour glue into the material loading frame 102, the glue flows into the hose 103 along with the glue, then people can open the switch, make the glue in the material loading frame 102 flow into the material loading pipe 77 through the hose 103, after the glue injection in the material loading pipe 77 is finished, people close the switch, the glue can not flow out any more, then people can pull the hose 103, make the hose 103 deform, people can make the hose 103 break away from the feed opening, alright begin the processing work of the optical lens, finish the optical lens processing, and after the material loading pipe 77 aligns with the hose 103, people manually pull the hose 103, straighten the hose 103, make the hose 103 reinsert in the feed opening, be convenient for carry out the processing work of the next optical lens, so the operation can need not artifical manual glue injection, and is more labor-saving and convenient.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (4)

1. The utility model provides a solidification equipment is glued with some glue to optical lens's lens which characterized in that: comprises a chassis (1), a fixed rod (2), a material placing disc (3), a positioning mechanism (4), a material placing mechanism (5), a clamping mechanism (6), a glue dispensing mechanism (7) and a curing mechanism (8), the concave mirror adhesive dispensing device is characterized in that a fixing rod (2) is arranged in the middle of the top of a chassis (1), a material placing disc (3) is arranged at the top of the fixing rod (2), the material placing disc (3) is used for placing convex lenses, a positioning mechanism (4) used for fixing is arranged on the fixing rod (2), a material placing mechanism (5) used for accurately placing the concave mirrors is arranged on the positioning mechanism (4), a clamping mechanism (6) is arranged on the front side of the material placing mechanism (5), the clamping mechanism (6) is used for supporting the concave mirrors, a glue dispensing mechanism (7) used for automatic glue dispensing is arranged on the right side of the material placing mechanism (5), and a curing mechanism (8) used for curing the bonded glue is arranged on the left side of the lower portion of the material placing mechanism (5); the glue dispensing mechanism (7) comprises second connecting blocks (71), a fourth connecting rod (72), first fixing blocks (73), a charging pipe (77) and a glue spraying pipe (78), the second connecting blocks (71) are symmetrically arranged on the front and back of the upper right side wall of a component of the discharging mechanism (5), the fourth connecting rod (72) is rotatably arranged between the two second connecting blocks (71), the first fixing block (73) is arranged in the middle of the fourth connecting rod (72), the charging pipe (77) is arranged on the right side of the first fixing block (73), the charging pipe (77) is used for storing glue, a discharging port is formed in the left side wall of the upper portion of the charging pipe (77) and can facilitate the glue to be injected into the charging pipe (77), the glue spraying pipe (78) is arranged at the bottom of the charging pipe (77), the glue can drip from the glue spraying pipe (78), and the glue spraying pipe (78) is made of silica gel;

the positioning mechanism (4) comprises first connecting rods (41), positioning blocks (42), first torsion springs (43), first connecting blocks (44), connecting plates (45) and first reset springs (46), three first connecting rods (41) are uniformly arranged on the material discharging disc (3) at intervals along the circumferential direction, the positioning blocks (42) are rotatably arranged on the three first connecting rods (41), the convex lenses can be clamped by the positioning blocks (42), the first torsion springs (43) are connected between the two sides of the three positioning blocks (42) and the material discharging disc (3), every two first torsion springs (43) are sleeved on the corresponding first connecting rods (41), the first connecting blocks (44) are arranged on the upper side of the fixing rod (2), the connecting plates (45) are slidably arranged at positions, located on the upper sides of the first connecting blocks (44), on the fixing rod (2), the first reset springs (46) are connected between the connecting plates (45) and the first connecting blocks (44), the first return spring (46) is sleeved on the fixed rod (2), three positioning blocks (42) penetrate into the connecting plate (45), and the three positioning blocks (42) are connected with the connecting plate (45) in a sliding mode;

the discharging mechanism (5) comprises a connecting frame (51), a second connecting rod (52), a fixing ring (53), a discharging barrel (54) and a second reset spring (55), the connecting frame (51) is arranged on the left side of the first connecting block (44), the second connecting rod (52) is arranged on the top of the connecting frame (51), the fixing ring (53) is arranged on the second connecting rod (52) in a sliding mode, the discharging barrel (54) is arranged on the fixing ring (53), the front side and the rear side of the right side wall of the discharging barrel (54) are respectively connected with the two second connecting blocks (71), the discharging barrel (54) is used for placing a concave mirror, the second reset spring (55) is connected between the fixing ring (53) and the connecting frame (51), and the second reset spring (55) is sleeved on the second connecting rod (52);

the clamping mechanism (6) comprises third connecting rods (61), connecting arc blocks (62), third reset springs (63), clamping blocks (64), second torsion springs (65) and stop rods (66), the front and rear sides of the charging barrel (54) are respectively provided with the third connecting rods (61), the lower sides of the two third connecting rods (61) are respectively provided with the connecting arc blocks (62) in a sliding manner, the third reset springs (63) are respectively connected between the two connecting arc blocks (62) and the third connecting rods (61) at the same side, the left and right sides of the two connecting arc blocks (62) are respectively and rotatably provided with the clamping blocks (64) capable of preventing the concave mirrors from falling off, the second torsion springs (65) are respectively connected between the left and right sides of the four clamping blocks (64) and the connecting arc blocks (62) at the same side, the stop rods (66) are symmetrically arranged at the front and rear parts of the upper part of the connecting frame (51), the two stop rods (66) are respectively matched with the connecting arc blocks (62) at the same side, the four clamping blocks (64) are matched with the discharging barrel (54);

the dispensing mechanism (7) further comprises a third torsion spring (74), clamping beads (75), a connecting spring (76), a pressure rod (79), a fourth reset spring (710), a third connecting block (711), a unidirectional missing gear (712), a connecting rack (713) and an inclined L-shaped block (715), wherein the third torsion spring (74) is connected between the front side and the rear side of the left part of the first fixing block (73) and the second connecting block (71) on the same side, the two third torsion springs (74) are sleeved on the fourth connecting rod (72) on the same side, the clamping beads (75) are arranged on the front side and the rear side of the inner part of the fourth connecting rod (72) in a sliding manner, the connecting spring (76) is connected between the two clamping beads (75) and the fourth connecting rod (72), clamping grooves are formed in the right side of the inner parts of the two second connecting blocks (71), the two clamping beads (75) are matched with the clamping grooves on the same side, a rubber sheet is rotatably arranged at the top end of the rubber spraying pipe (78), charging tube (77) inside upside slidingtype is equipped with depression bar (79), be connected with fourth reset spring (710) between depression bar (79) and charging tube (77), depression bar (79) upper portion rear side is equipped with third connecting block (711), fourth connecting rod (72) rear side is equipped with one-way scarce gear (712), second connecting rod (52) top is equipped with connecting rack (713), connecting rack (713) and one-way scarce gear (712) cooperation, blowing dish (3) rear portion right side is equipped with oblique L type piece (715), third connecting block (711) and the cooperation of oblique L type piece (715).

2. The spot-gluing curing device for the lens of an optical lens as claimed in claim 1, wherein: the curing mechanism (8) comprises a second fixing block (81), ultraviolet lamps (82) and buttons (83), the second fixing block (81) is arranged at the position, located on the inner sides of the two stop levers (66), on the upper side of the connecting frame (51), the ultraviolet lamps (82) are arranged on the second fixing block (81), the ultraviolet lamps (82) are used for curing glue, and the buttons (83) are arranged at the left ends of the ultraviolet lamps (82).

3. The dispensing and curing apparatus for optical lens of claim 2, wherein: the cleaning device also comprises a cleaning mechanism (9), the cleaning mechanism (9) comprises a fifth connecting rod (91), a fifth connecting block (92), a fourth torsion spring (93), a cleaning sponge (94), sixth connecting rods (95) and guide rods (96), the fifth connecting rods (91) are symmetrically arranged at the front and back of the left side and the right side of the discharging barrel (54), the fifth connecting block (92) is rotatably arranged on each fifth connecting rod (91), the fourth torsion spring (93) is connected between the fourth fifth connecting block (92) and the fifth connecting rod (91) at the same side, the sixth connecting rod (95) is rotatably arranged at the lower side of each fifth connecting block (92), the cleaning sponge (94) is connected between every two sixth connecting rods (95) from front to back, the cleaning sponge (94) is used for cleaning dust particles on the surface of the convex lens, the guide rods (96) are symmetrically arranged at the front and back of the left side and the right side of the discharging tray (3), and four sixth connecting rods (95) are matched with the guide rods (96) on the same side.

4. A dispensing and curing device for lens of optical lens as claimed in claim 3, wherein: still including charging mechanism (10), charging mechanism (10) are including third fixed block (101), frame (102) and hose (103) of feeding, and solid fixed ring (53) right side front and back symmetry is equipped with third fixed block (101), is connected with frame (102) of feeding that are used for splendid attire glue between two third fixed block (101) tops, and frame (102) lower part right side of feeding is equipped with hose (103), and hose (103) and feed opening cooperation, hose (103) left end are equipped with the switch.

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