CN219597097U - Oiling and shearing machine for lens base - Google Patents

Abstract

The utility model discloses a lens base oiling and shearing machine, which comprises: the box body is internally provided with a supporting plate and a discharging bin; the feeding mechanism is used for clamping the semi-finished lens base to the material positioning and clamping mechanism; the material positioning and clamping mechanism is used for centering the semi-finished lens base; the feeding mechanism is respectively in butt joint with the material positioning and clamping mechanism and the ultrasonic vibration machine through two third clamping jaw cylinders which are arranged side by side; the oiling mechanism is used for randomly adjusting the rotation radius of the smearing unit through the second adjusting unit, quantitatively supplying by a peristaltic pump and smearing by using sponge; the ultrasonic vibration dropping machine is used for separating finished lens base products and water gaps from the oiled semi-finished lens base by ultrasonic vibration dropping; and the blanking mechanism is used for collecting the separated finished lens base products through the second through holes. The device has the oiling and vibration shearing functions of the semi-finished lens base, and is favorable for guaranteeing quantitative oiling and oiling uniformity, high in working efficiency, compact in structure and wide in application range.

Description

Oiling and shearing machine for lens base

Technical Field

The utility model belongs to the technical field of lens part processing, and particularly relates to an oiling and shearing machine for a lens base.

Background

At present, the basic technology of the optical lens part is mold forming, the mold structure adopts a three-plate mold structure, a semi-finished product is taken out by a manipulator after forming, and the lens part is separated from a water gap and then is operated on a single lens part. If the lens is in production, the oiling operation is needed to be carried out on part of the parts (the lens base, the lens barrel, the focusing ring and the like) so as to facilitate assembly and ensure smooth action in the use process. The traditional oiling method is that the lens part is placed on a workbench, then the lens part is fixed by one hand manually, and the other hand is used for oiling the lens part by using a hairbrush, so that oiling of the corresponding part of the lens part is completed. However, this solution has the following drawbacks:

1) The inconsistent oiling positions and uneven oiling are easily caused, so that the lens is easy to act poorly in the assembly and working processes, the quality of the lens is influenced, and the manual oiling efficiency is low;

2) Repeated actions are required for a single lens part product each time, including material taking, positioning, smearing and the like, which are not beneficial to improving the efficiency;

3) The functions are single, only oiling or shearing are carried out independently, and the integration level is low.

Disclosure of Invention

The utility model aims to solve the problems, and provides the oiling and shearing machine for the lens base, which has the oiling and vibration shearing functions of the semi-finished lens base, is beneficial to ensuring quantitative oiling and oiling uniformity, and has the advantages of high working efficiency, compact structure and wide application range.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides a lens base oiling and shearing machine, which comprises a box body, and a feeding mechanism, a material positioning and clamping mechanism, a feeding mechanism, an oiling mechanism, an ultrasonic vibration dropping machine and a discharging mechanism which are all arranged in the box body, wherein:

the box body is internally provided with a supporting plate and a discharging bin, the supporting plate is provided with a first through hole and a second through hole, the box body is divided into an upper cavity and a lower cavity, and the discharging bin is connected with the supporting plate and is arranged in alignment with the first through hole;

the feeding mechanism is used for clamping the semi-finished lens base to butt joint the material positioning and clamping mechanism for feeding;

the material positioning and clamping mechanism is positioned below the feeding mechanism and comprises a second linear motion unit and a first adjusting unit, the first adjusting unit comprises a third mounting seat, a first motor, a fourth mounting seat, a second clamping jaw cylinder and a rotating platform for placing a semi-finished lens base, the second linear motion unit is connected with the supporting plate and used for driving the third mounting seat to move in the Y direction, the first motor is connected with the third mounting seat and used for driving the fourth mounting seat to rotate around the Z axis, the rotating platform is horizontally arranged and connected with the cylinder of the second clamping jaw cylinder, the cylinder of the second clamping jaw cylinder is further connected with the fourth mounting seat, and the clamping jaw of the second clamping jaw cylinder penetrates through the upper side of the rotating platform and is clamped and fixed through the second clamping jaw cylinder when the semi-finished lens base is placed on the rotating platform;

the feeding mechanism comprises a third linear motion unit, a fifth mounting seat, a first air cylinder, a sixth mounting seat and two third clamping jaw air cylinders which are arranged side by side along the X direction, wherein the third linear motion unit is connected with the supporting plate and used for driving the fifth mounting seat to move in the X direction;

the oiling mechanism comprises a second mounting frame, a fourth linear motion unit, a fifth linear motion unit, a second adjusting unit and a peristaltic pump, wherein the second adjusting unit comprises a seventh mounting seat, a second motor, an eighth mounting seat, a ninth mounting seat, a second cylinder and an smearing unit, the smearing unit comprises a connecting seat, a connecting rod, a clamping block and a sponge, the second mounting frame is connected with a supporting plate, the fourth linear motion unit is connected with the second mounting frame and is used for driving the fifth linear motion unit to move in the X direction, the fifth linear motion unit is used for driving the seventh mounting seat to move in the Z direction, the second motor is connected with the seventh mounting seat and is used for driving the eighth mounting seat to rotate around the Z axis, the ninth mounting seat is horizontally and slidably connected with the eighth mounting seat, the connecting rod is connected with the ninth mounting seat through the connecting seat and is arranged parallel to the Z axis, an oiling head is arranged at the tail end of the connecting rod, an oiling groove is formed in the oiling head, the sponge is partially penetrated into the oiling groove through a pipeline, and the peristaltic pump is used for guiding the oiling liquid into the oiling groove through a pipeline, and the motor rotates around the Z axis to drive a semi-finished oiling platform through the second sponge;

the ultrasonic vibration dropping machine is used for separating finished lens base products and water gaps from the oiled semi-finished lens base by ultrasonic vibration dropping;

and the blanking mechanism is used for collecting the separated finished lens base products through the second through holes.

Preferably, the box body is also internally provided with an industrial personal computer, and each linear motion unit and each motor are electrically connected with the industrial personal computer.

Preferably, the side wall of the box body is also provided with a display screen and a fan, and the display screen and the fan are electrically connected with the industrial control computer.

Preferably, the feeding mechanism comprises a first linear motion unit, a material overturning unit and a first detection unit, wherein the material overturning unit comprises a first mounting seat, a first rotary cylinder, a second mounting seat and a first clamping jaw cylinder, the first detection unit comprises a first mounting frame and an angle sensor, the first linear motion unit is used for driving the first mounting seat to move in the Z direction, the first rotary cylinder is connected with the first mounting seat and used for driving the second mounting seat to rotate around the Y axis, the first clamping jaw cylinder is connected with the second mounting seat and used for clamping a semi-finished lens base, the first mounting frame is connected with a box body, and the angle sensor is connected with the first mounting frame and used for detecting the inclination angle of the semi-finished lens base clamped by the first clamping jaw cylinder.

Preferably, the blanking mechanism comprises a tenth installation seat, a plurality of first cylinders, a plurality of second cylinders, a plurality of slides and a plurality of eleventh installation seats, wherein the first cylinders, the second cylinders, the slides and the eleventh installation seats are in one-to-one correspondence, the tenth installation seat is fixedly connected to the supporting plate, each first cylinder penetrates through the tenth installation seat and is aligned with the second through hole, the eleventh installation seat is connected with the slides and the box body respectively, and two ends of each second cylinder are respectively abutted to the first cylinder and the slides.

Preferably, the side wall of the box body is further provided with a first discharge hole and a plurality of second discharge holes, the discharge bins are in butt joint with the first discharge holes, and the slides are in butt joint with the second discharge holes in one-to-one correspondence.

Preferably, the oiling head comprises two symmetrically arranged clamping blocks, each clamping block is provided with a groove, and the oil supply groove is formed by the grooves of the two clamping blocks in matched connection.

Preferably, the bottom of the box body is also provided with a warning lamp.

Preferably, the bottom of the box body is also provided with a plurality of feet.

Preferably, the bottom of the box body is also provided with a plurality of rollers.

Compared with the prior art, the utility model has the beneficial effects that:

1) The device integrates a feeding mechanism, a material positioning and clamping mechanism, a feeding mechanism, an oiling mechanism, an ultrasonic vibration dropping machine and a blanking mechanism, has the oiling and vibration dropping shearing functions of a semi-finished lens base, can automatically align the semi-finished lens base for accurate butt joint through the material positioning and clamping mechanism in the feeding process, automatically completes blanking by utilizing the gravity effect in the vibration dropping process, greatly improves the working efficiency, reduces the operating personnel, reduces the production cost, has a compact structure and is beneficial to realizing miniaturization;

2) The oiling mechanism can randomly adjust the rotation radius of the smearing unit through the second adjusting unit, quantitatively supply the oil through the peristaltic pump, smear the oil through the sponge, adapt to various lens base sizes, and help to ensure quantitative oiling and oiling uniformity, improve product quality consistency and have wide application range;

3) The clamping, positioning and angle centering of the semi-finished lens base are completed through the material positioning and clamping mechanism, and the clamping and oiling operation of a plurality of finished lens bases carried by the semi-finished lens base on the rotating platform is completed at one time, so that the repeated workload of other working procedures is reduced, and the working efficiency is further improved;

4) The feeding mechanism adopts two third clamping jaw cylinders which are arranged side by side to respectively butt joint the material positioning clamping mechanism and the ultrasonic vibration machine, namely, the feeding of the ultrasonic vibration machine and the discharging of the nozzle after vibration can be cooperatively realized, the integration level is high, and the recycling of the nozzle is convenient.

Drawings

FIG. 1 is a schematic diagram of a lens mount oiling and shearing machine according to the present utility model;

FIG. 2 is a top view of FIG. 1 in accordance with the present utility model;

FIG. 3 is a schematic view of the internal structure of the first view angle of the lens mount oiling and shearing machine according to the present utility model;

FIG. 4 is a top view of FIG. 3 in accordance with the present utility model;

FIG. 5 is a schematic view of the internal structure of a second view angle of the lens mount oiling and shearing machine according to the present utility model;

FIG. 6 is a schematic structural view of the feeding mechanism and the material positioning and clamping mechanism of the present utility model;

FIG. 7 is a side view of FIG. 6 in accordance with the present utility model;

FIG. 8 is a schematic diagram of a material turning unit according to the present utility model;

FIG. 9 is a schematic view of a first view of the material positioning and clamping mechanism of the present utility model;

FIG. 10 is a schematic view of a second view of the material positioning and clamping mechanism of the present utility model;

FIG. 11 is a schematic view of the feeding mechanism of the present utility model;

FIG. 12 is a schematic view of the oiling mechanism of the present utility model;

FIG. 13 is a schematic view of a first view angle structure of a second adjusting unit according to the present utility model;

FIG. 14 is a schematic view of a second view angle structure of a second adjusting unit according to the present utility model;

fig. 15 is a schematic structural view of the applying unit of the present utility model;

fig. 16 is a schematic view showing an internal structure of the applying unit of the present utility model;

fig. 17 is a schematic structural view of the blanking mechanism of the present utility model.

Reference numerals illustrate: 1. a case; 2. a feeding mechanism; 3. a material positioning and clamping mechanism; 4. a feeding mechanism; 5. an oiling mechanism; 6. an ultrasonic vibration falling machine; 7. a blanking mechanism; 8. a semi-finished lens mount; 11. a support plate; 12. a foot margin; 13. a display screen; 14. a fan; 15. a warning light; 16. discharging the material bin; 17. an air pump; 18. an industrial personal computer; 19. a roller; 21. a first linear motion unit; 22. a material overturning unit; 23. a first detection unit; 221. a first mount; 222. a first rotary cylinder; 223. a second mounting base; 224. a first jaw cylinder; 231. a first mounting frame; 232. an angle sensor; 31. a second linear motion unit; 32. a first adjusting unit; 321. a third mount; 322. a first motor; 323. a fourth mount; 324. a second jaw cylinder; 325. rotating the platform; 41. a third linear motion unit; 42. a fifth mount; 43. a first cylinder; 44. a sixth mounting base; 45. a third jaw cylinder; 51. a second mounting frame; 52. a fourth linear motion unit; 53. a fifth linear motion unit; 54. a second adjusting unit; 55. a peristaltic pump; 541. a seventh mount; 542. a second motor; 543. an eighth mount; 544. a ninth mount; 545. a second cylinder; 546. a painting unit; 546a, connection base; 546b, connecting rods; 546c, clamping blocks; 546d, sponge; 546e, oil supply groove; 71. a tenth mount; 72. a first cylinder; 73. a second cylinder; 74. a slide; 75. and an eleventh mounting seat.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

As shown in fig. 1-17, a lens base oiling and shearing machine comprises a box body 1, and a feeding mechanism 2, a material positioning and clamping mechanism 3, a feeding mechanism 4, an oiling mechanism 5, an ultrasonic vibration falling machine 6 and a blanking mechanism 7 which are all arranged in the box body 1, wherein:

the box body 1 is internally provided with a supporting plate 11 and a discharging bin 16, the supporting plate 11 is provided with a first through hole and a second through hole, the box body 1 is divided into an upper cavity and a lower cavity, and the discharging bin 16 is connected with the supporting plate 11 and is arranged in alignment with the first through hole;

the feeding mechanism 2 is used for clamping the semi-finished lens base 8 to butt-joint the material positioning and clamping mechanism 3 for feeding;

the material positioning and clamping mechanism 3 is positioned below the feeding mechanism 2 and comprises a second linear motion unit 31 and a first adjusting unit 32, the first adjusting unit 32 comprises a third mounting seat 321, a first motor 322, a fourth mounting seat 323, a second clamping jaw air cylinder 324 and a rotating platform 325 for placing a semi-finished lens base 8, the second linear motion unit 31 is connected with the supporting plate 11 and is used for driving the third mounting seat 321 to move in the Y direction, the first motor 322 is connected with the third mounting seat 321 and is used for driving the fourth mounting seat 323 to rotate around the Z axis, the rotating platform 325 is horizontally arranged and is connected with an air cylinder of the second clamping jaw air cylinder 324, the air cylinder of the second clamping jaw air cylinder 324 is also connected with the fourth mounting seat 323, a clamping jaw of the second clamping jaw air cylinder 324 penetrates through the upper side of the rotating platform 325, and is clamped and fixed through the second clamping jaw air cylinder 324 when the semi-finished lens base 8 is placed on the rotating platform 325;

the feeding mechanism 4 comprises a third linear motion unit 41, a fifth mounting seat 42, a first air cylinder 43, a sixth mounting seat 44 and two third clamping jaw air cylinders 45 which are arranged side by side along the X direction, wherein the third linear motion unit 41 is connected with the supporting plate 11 and used for driving the fifth mounting seat 42 to move in the X direction, the first air cylinder 43 is connected with the fifth mounting seat 42 and used for driving the sixth mounting seat 44 to move in the Z direction, and each third clamping jaw air cylinder 45 is connected with the sixth mounting seat 44 and used for butting the material positioning and clamping mechanism 3 and the ultrasonic vibration machine 6 respectively;

the oiling mechanism 5 comprises a second mounting frame 51, a fourth rectilinear motion unit 52, a fifth rectilinear motion unit 53, a second adjusting unit 54 and a peristaltic pump 55, wherein the second adjusting unit 54 comprises a seventh mounting seat 541, a second motor 542, an eighth mounting seat 543, a ninth mounting seat 544, a second cylinder 545 and an smearing unit 546, the smearing unit 546 comprises a connecting seat 546a, a connecting rod 546b, a clamping block 546c and a sponge 546d, the second mounting frame 51 is connected with a supporting plate 11, the fourth rectilinear motion unit 52 is connected with the second mounting frame 51 and is used for driving the fifth rectilinear motion unit 53 to move in the X direction, the fifth rectilinear motion unit 53 is used for driving the seventh mounting seat 541 to move in the Z direction, the second motor 542 is connected with the seventh mounting seat 541 and is used for driving the eighth mounting seat 543 to rotate around the Z axis, the ninth mounting seat 544 is connected with the eighth mounting seat 543 in a horizontal sliding manner, the second cylinder 545 is connected with the eighth mounting seat 546 and is used for driving the ninth mounting seat to move horizontally, the connecting rod 546b is connected with the ninth mounting seat 546 through the connecting seat 546a, the connecting rod 546b is parallel to the Z axis, an oil groove 546b is arranged at the tail end of the connecting rod 546b, and an oil supply groove 546e is arranged in parallel to the Z axis, and a liquid groove 546e is arranged in the sponge feeding groove 546e is formed in the liquid groove 546e, and a working groove is formed in the liquid groove 546e is formed in the liquid groove, and the liquid filling groove is filled in the liquid groove 546, and is filled in the liquid groove through the sponge groove 546;

the ultrasonic vibration machine 6 is used for separating a finished lens base product and a water gap from the oiled semi-finished lens base 8 by ultrasonic vibration;

and the blanking mechanism 7 is used for collecting the separated finished lens base products through the second through holes.

As shown in fig. 1, the up-down direction is Z direction, the front-back direction is Y direction, the left-right direction is Z direction, that is, the direction of the discharging bin 16 is left, the direction of the display screen 13 is front, the direction of the warning lamp 15 is up, and the rest are the same, for reference, so as to facilitate description, and the specific direction is not limited.

Wherein, feed mechanism 2, material location clamping mechanism 3, feeding mechanism 4, oiling mechanism 5 and ultrasonic wave shake the upper chamber that falls machine 6 all are located box 1, and play feed bin 16 is located box 1's lower chamber, and upper chamber and the lower chamber of box 1 are worn to locate by feed mechanism 7. In the initial state, the clamping jaw of the first clamping jaw air cylinder 224 upwards grabs a material (the semi-finished lens base 8), and when the material positioning and clamping mechanism 3 is docked, the semi-finished lens base 8 is placed on the rotating platform 325 in a turned-over mode by 180 degrees downwards, and is clamped and fixed through the second clamping jaw air cylinder 324. The box body 1 is also provided with an air pump 17, and the air pump 17 is used for supplying air to each air cylinder. The third clamping jaw air cylinder 45 of the feeding mechanism 4 is respectively abutted with the material positioning and clamping mechanism 3 and the ultrasonic vibration machine 6, namely, the left third clamping jaw air cylinder 45 realizes that the water gap clamping separated on the ultrasonic vibration machine 6 is moved to the upper part of the first through hole and then loosened, then the water gap slides out along the discharging bin 16 to be collected, and meanwhile, the right third clamping jaw air cylinder 45 realizes that the semi-finished lens base 8 clamped from the rotating platform 325 is placed on the ultrasonic vibration machine 6, so that the circulation operation is realized. The smearing unit 546 can be driven by the fourth rectilinear motion unit 52 and the fifth rectilinear motion unit 53 to move left and right and up and down, and is driven by the second motor 542 to rotate, the second cylinder 545 is driven to adjust the rotation radius of the smearing unit 546, the tail end of the smearing head can be reduced in size, the smearing unit can extend into the lens base to perform smearing operation, and the part of the sponge 546d is convexly arranged outside the smearing head to realize smearing. The ultrasonic vibration machine 6 is a prior art structure well known to those skilled in the art, and will not be described in detail herein.

In an embodiment, the casing 1 further has an industrial personal computer 18, and each linear motion unit and each motor are electrically connected to the industrial personal computer 18. The industrial personal computer 18 is used for controlling the operation of all electric devices of the device, is positioned in the lower cavity of the box body 1, and is also provided with an electromagnetic valve, a driver and the like, the industrial personal computer 18 controls all linear motion units and motors through the driver, all air cylinders are controlled through the electromagnetic valves, the air pump 17 is connected with all the electromagnetic valves through air pipes, and the air cylinders are connected with the corresponding electromagnetic valves through the air pipes.

In an embodiment, the side wall of the case 1 is further provided with a display screen 13 and a fan 14, and the display screen 13 and the fan 14 are electrically connected with the industrial personal computer 18. The display screen 13 can be arranged on the side wall of the box body 1, so that the operation and the observation are convenient. The fan 14 is used for heat dissipation, for example, in the lower chamber of the case 1.

In an embodiment, the feeding mechanism 2 includes a first linear motion unit 21, a material overturning unit 22 and a first detection unit 23, the material overturning unit 22 includes a first mounting base 221, a first rotary cylinder 222, a second mounting base 223 and a first clamping jaw cylinder 224, the first detection unit 23 includes a first mounting base 231 and an angle sensor 232, the first linear motion unit 21 is used for driving the first mounting base 221 to move in the Z direction, the first rotary cylinder 222 is connected with the first mounting base 221 and is used for driving the second mounting base 223 to rotate around the Y axis, the first clamping jaw cylinder 224 is connected with the second mounting base 223 and is used for clamping the semi-finished lens base 8, the first mounting base 231 is connected with the box 1, the angle sensor 232 is connected with the first mounting base 231 and is used for detecting the dip angle of the semi-finished lens base 8 clamped by the first clamping jaw cylinder 224. By detecting the inclination angle of the semi-finished lens base 8 clamped on the first clamping jaw cylinder 224, the rotation angle of the material positioning and clamping mechanism 3 is controlled, and the alignment operation of the semi-finished lens base 8 is completed, for example, the semi-finished lens base 8 is aligned to be parallel to the X axis. The first mounting frame 231 may be any shape.

In an embodiment, the blanking mechanism 7 includes a tenth mounting seat 71, a plurality of first cylinder bodies 72, a plurality of second cylinder bodies 73, a plurality of sliding boards 74 and a plurality of eleventh mounting seats 75, the first cylinder bodies 72, the second cylinder bodies 73, the sliding boards 74 and the eleventh mounting seats 75 are in one-to-one correspondence, the tenth mounting seat 71 is fixedly connected to the supporting plate 11, each first cylinder body 72 is arranged on the tenth mounting seat 71 in a penetrating manner and is aligned with the second through hole, the eleventh mounting seat 75 is respectively connected with the sliding boards 74 and the box 1, and two ends of the second cylinder body 73 are respectively abutted to the first cylinder bodies 72 and the sliding boards 74. In this embodiment, there are four lens base finished products on the semi-finished lens base 8, and the first barrel 72, the second barrel 73, the slide 74 and the eleventh mount 75 are all four, and the structures may be the same or similar, the first barrel 72 is vertically connected with the tenth mount 71, the first barrel 72 and the second barrel 73 may be split or integrated structures, and the separated lens base finished products slide out along the first barrel 72, the second barrel 73 and the slide 74 in sequence for collection.

In an embodiment, the side wall of the box 1 is further provided with a first discharge hole and a plurality of second discharge holes, and the discharge bins 16 are abutted to the first discharge holes, and the slides 74 are abutted to the second discharge holes in a one-to-one correspondence. The finished product of the water gap or the lens base can be directly collected outside, and the transfer is convenient.

In one embodiment, the oiling head comprises two symmetrically arranged clamping blocks 546c, each clamping block 546c is provided with a groove, and the oil supply groove 546e is formed by the grooves of the two clamping blocks 546c in a matched connection. The oil coating head and the connecting rod 546b can be designed separately, for example, in this embodiment, one clamping block 546c and the connecting rod 546b are integrally formed, and the other clamping block 546c is fixed by a screw connection, so as to facilitate the disassembly and cleaning of the oil supply groove 546e or the replacement of the sponge 546d.

In an embodiment, the bottom of the case 1 is also provided with a warning light 15. For fault alarming, which is helpful to improve safety, such as the electric connection between the warning lamp 15 and the industrial personal computer 18.

In one embodiment, to facilitate leveling, the bottom of the box 1 is further provided with a plurality of feet 12.

In one embodiment, the bottom of the case 1 is further provided with a plurality of rollers 19 for easy handling. If the device needs to be carried, the ground feet 12 are upwards adjusted until the rollers 19 are contacted with the ground, so that the device can be pushed to move, and trouble and labor are saved.

Working principle:

the feeding mechanism 2 clamps the semi-finished lens base 8 from the injection molding machine, the semi-finished lens base 8 is driven to turn to the horizontal direction through the first rotary cylinder 222, then the first linear motion unit 21 drives the material turning unit 22 to descend, the semi-finished lens base 8 is placed on the rotary platform 325, and the semi-finished lens base 8 is clamped and fixed through the second clamping jaw cylinder 324. The first motor 322 drives the rotating platform 325 to rotate, automatically adjusts the angle of the semi-finished lens base 8 to be parallel to the X axis, and the second linear motion unit 31 moves to convey the semi-finished lens base 8 after the angle adjustment to the coating station. The fourth linear motion unit 52 drives the smearing unit 546 to move to align with the center of the finished lens base product on the side most on the semi-finished lens base 8, the second cylinder 545 drives the adjusting smearing unit 546 to rotate to meet the smearing requirement of the finished lens base product, the fifth linear motion unit 53 drives the smearing unit 546 to move downwards to align with the finished lens base product, the peristaltic pump 55 automatically and quantitatively supplies oil to the sponge 546d, then the second motor 542 drives the smearing unit 546 to rotate to smear, the rotating angle of the second motor 542 can be controlled to finish smearing at any angle, the fifth linear motion unit 53 drives the smearing unit 546 to move upwards after smearing is finished, and oiling operation of the finished lens base products is sequentially finished from left to right. After the finished lens base product on the semi-finished lens base 8 is completely smeared, a right third clamping jaw cylinder 45 of the feeding mechanism 4 clamps the semi-finished lens base 8 from the rotating platform 325, a third linear motion unit 41 drives a fifth mounting seat 42 to move in the X direction until a left third clamping jaw cylinder 45 is positioned above the ultrasonic vibration and dropping machine 6, the left third clamping jaw cylinder 45 clamps a separated water gap on the ultrasonic vibration and dropping machine 6 and moves upwards by a first cylinder 43, then the third linear motion unit 41 continuously drives the fifth mounting seat 42 to move in the X direction, the water gap clamped by the left third clamping jaw cylinder 45 moves above a first through hole and then is released, the water gap slides out along a discharging bin 16, meanwhile, the clamping semi-finished lens base 8 on the right third clamping jaw cylinder 45 is placed on the ultrasonic vibration and dropping machine 6, the third linear motion unit 41 drives the fifth mounting seat 42 to move in the X direction and return to the butt joint material positioning and clamping mechanism 3, the ultrasonic vibration and dropping machine 6 performs vibration and dropping operation, and in the vibration and dropping process, due to the gravity effect of the separated base product, the lens base product can automatically finish the circulation operation in the blanking mechanism 7.

The device integrates a feeding mechanism, a material positioning and clamping mechanism, a feeding mechanism, an oiling mechanism, an ultrasonic vibration dropping machine and a blanking mechanism, has the oiling and vibration dropping shearing functions of a semi-finished lens base, can automatically align the semi-finished lens base for accurate butt joint through the material positioning and clamping mechanism in the feeding process, automatically completes blanking by utilizing the gravity effect in the vibration dropping process, greatly improves the working efficiency, reduces the operating personnel, reduces the production cost, has a compact structure and is beneficial to realizing miniaturization; the oiling mechanism can randomly adjust the rotation radius of the smearing unit through the second adjusting unit, quantitatively supply the oil through the peristaltic pump, smear the oil through the sponge, adapt to various lens base sizes, and help to ensure quantitative oiling and oiling uniformity, improve product quality consistency and have wide application range; the clamping, positioning and angle centering of the semi-finished lens base are completed through the material positioning and clamping mechanism, and the clamping and oiling operation of a plurality of finished lens bases carried by the semi-finished lens base on the rotating platform is completed at one time, so that the repeated workload of other working procedures is reduced, and the working efficiency is further improved; the feeding mechanism adopts two third clamping jaw cylinders which are arranged side by side to respectively butt joint the material positioning clamping mechanism and the ultrasonic vibration machine, namely, the feeding of the ultrasonic vibration machine and the discharging of the nozzle after vibration can be cooperatively realized, the integration level is high, and the recycling of the nozzle is convenient.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above-described embodiments represent only the more specific and detailed embodiments of the present utility model, but are not to be construed as limiting the claims. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. A camera lens base fat liquoring cutter, its characterized in that: the camera lens base fat liquoring cutter includes box (1), and all built-in feed mechanism (2), material location clamping mechanism (3), feeding mechanism (4), fat liquoring mechanism (5), ultrasonic wave shakes machine (6) and unloading mechanism (7) of box (1), wherein:

the box body (1) is internally provided with a supporting plate (11) and a discharging bin (16), the supporting plate (11) is provided with a first through hole and a second through hole, the box body (1) is divided into an upper cavity and a lower cavity, and the discharging bin (16) is connected with the supporting plate (11) and is arranged in alignment with the first through hole;

the feeding mechanism (2) is used for clamping the semi-finished lens base (8) to butt-joint the material positioning and clamping mechanism (3) for feeding;

the material positioning and clamping mechanism (3) is positioned below the feeding mechanism (2), and comprises a second linear motion unit (31) and a first adjusting unit (32), wherein the first adjusting unit (32) comprises a third mounting seat (321), a first motor (322), a fourth mounting seat (323), a second clamping jaw air cylinder (324) and a rotating platform (325) for placing a semi-finished lens base (8), the second linear motion unit (31) is connected with the supporting plate (11) and is used for driving the third mounting seat (321) to move in the Y direction, the first motor (322) is connected with the third mounting seat (321) and is used for driving the fourth mounting seat (323) to rotate around a Z axis, the rotating platform (325) is horizontally arranged and is connected with an air cylinder of the second clamping jaw air cylinder (324), the air cylinder of the second clamping jaw air cylinder (324) is also connected with the fourth mounting seat (323), and clamping jaws of the second clamping jaw air cylinder (324) are arranged above the rotating platform (325) in a penetrating mode, and when the semi-finished lens base (325) is placed on the second clamping jaw air cylinder (325) in a clamping mode;

the feeding mechanism (4) comprises a third linear motion unit (41), a fifth mounting seat (42), a first air cylinder (43), a sixth mounting seat (44) and two third clamping jaw air cylinders (45) which are arranged side by side along the X direction, wherein the third linear motion unit (41) is connected with the supporting plate (11) and used for driving the fifth mounting seat (42) to move in the X direction, the first air cylinder (43) is connected with the fifth mounting seat (42) and used for driving the sixth mounting seat (44) to move in the Z direction, and each third clamping jaw air cylinder (45) is connected with the sixth mounting seat (44) and used for butting the material positioning and clamping mechanism (3) and the ultrasonic vibration machine (6) respectively;

the oiling mechanism (5) comprises a second mounting frame (51), a fourth linear motion unit (52), a fifth linear motion unit (53), a second adjusting unit (54) and a peristaltic pump (55), wherein the second adjusting unit (54) comprises a seventh mounting seat (541), a second motor (542), an eighth mounting seat (543), a ninth mounting seat (544), a second air cylinder (545) and an smearing unit (546), the smearing unit (546) comprises a connecting seat (546 a), a connecting rod (546 b), a clamping block (546 c) and a sponge (546 d), the second mounting frame (51) is connected with a supporting plate (11), the fourth linear motion unit (52) is connected with the second mounting frame (544) and is used for driving the fifth linear motion unit (53) to move in the X direction, the fifth linear motion unit (53) is used for driving the seventh mounting seat (541) to move in the Z direction, the second motor (542) is connected with the seventh mounting seat (541) and is used for driving the eighth mounting seat (546) to rotate around a Z shaft, the ninth mounting seat (545) is connected with the eighth mounting seat (543) and the air cylinder (543) to move horizontally, the connecting rod (546 b) is connected with the ninth mounting seat (544) through the connecting seat (546 a) and is arranged parallel to the Z axis, an oil coating head is arranged at the tail end of the connecting rod (546 b), an oil supply groove (546 e) is formed in the oil coating head, the sponge (546 d) is partially penetrated in the oil supply groove (546 e), the peristaltic pump (55) guides oil into the oil supply groove (546 e) through a pipeline, and in a working state, the second motor (542) drives the coating unit (546) to rotate and oil the semi-finished lens base (8) on the rotating platform (325) through the sponge (546 d);

the ultrasonic vibration machine (6) is used for separating finished lens base products and water gaps from the oiled semi-finished lens base (8) by ultrasonic vibration;

and the blanking mechanism (7) is used for collecting the separated finished lens base products through the second through holes.

2. The lens mount oiling and shearing machine as recited in claim 1 wherein: the box body (1) is also internally provided with an industrial personal computer (18), and each linear motion unit and each motor are electrically connected with the industrial personal computer (18).

3. The lens mount oiling and shearing machine as recited in claim 2 wherein: the side wall of the box body (1) is also provided with a display screen (13) and a fan (14), and the display screen (13) and the fan (14) are electrically connected with the industrial personal computer (18).

4. The lens mount oiling and shearing machine as recited in claim 1 wherein: feed mechanism (2) are including first rectilinear motion unit (21), material upset unit (22) and first detecting element (23), material upset unit (22) are including first mount pad (221), first revolving cylinder (222), second mount pad (223) and first clamping jaw cylinder (224), first detecting element (23) are including first mounting bracket (231) and angle sensor (232), first rectilinear motion unit (21) are used for the drive first mount pad (221) carry out Z to the removal, first revolving cylinder (222) are connected with first mount pad (221) for the drive second mount pad (223) rotate around the Y axle, first clamping jaw cylinder (224) are connected with second mount pad (223) for centre gripping semi-manufactured lens base (8), first mounting bracket (231) are connected with box (1), angle sensor (232) are connected with first mounting bracket (231) for detect the inclination of semi-manufactured lens base (8) of first clamping jaw cylinder (224) centre gripping.

5. The lens mount oiling and shearing machine as recited in claim 1 wherein: the blanking mechanism (7) comprises a tenth installation seat (71), a plurality of first cylinder bodies (72), a plurality of second cylinder bodies (73), a plurality of sliding boards (74) and a plurality of eleventh installation seats (75), wherein the first cylinder bodies (72), the second cylinder bodies (73), the sliding boards (74) and the eleventh installation seats (75) are in one-to-one correspondence, the tenth installation seats (71) are fixedly connected to the supporting plate (11), the first cylinder bodies (72) are arranged on the tenth installation seats (71) in a penetrating mode and are aligned with the second through holes, the eleventh installation seats (75) are connected with the sliding boards (74) and the box body (1) respectively, and two ends of the second cylinder bodies (73) are in butt joint with the first cylinder bodies (72) and the sliding boards (74) respectively.

6. The lens mount oiling and shearing machine as recited in claim 5 wherein: the side wall of the box body (1) is further provided with a first discharge hole and a plurality of second discharge holes, the discharge bins (16) are in butt joint with the first discharge holes, and the slides (74) are in butt joint with the second discharge holes in a one-to-one correspondence.

7. The lens mount oiling and shearing machine as recited in claim 1 wherein: the oiling head comprises two symmetrically arranged clamping blocks (546 c), each clamping block (546 c) is provided with a groove, and the oil supply groove (546 e) is formed by grooves of the two clamping blocks (546 c) which are connected in a matched mode.

8. The lens mount oiling and shearing machine as recited in claim 1 wherein: the bottom of the box body (1) is also provided with a warning lamp (15).

9. The lens mount oiling and shearing machine as recited in claim 1 wherein: the bottom of the box body (1) is also provided with a plurality of feet (12).

10. The lens mount oiling and shearing machine as recited in claim 9 wherein: the bottom of the box body (1) is also provided with a plurality of rollers (19).