CN219212752U - Lens separating device for optical lens chamfering machine - Google Patents

Abstract

The utility model discloses a lens separating device for an optical lens chamfering machine, which comprises a storage tank, a distribution tank, a pushing mechanism and a distribution mechanism, wherein the upper surface of the storage tank is provided with an opening, a plurality of lenses are placed in a row in the storage tank, and the front end of the storage tank in the length direction is provided with a discharge hole with the thickness identical to that of the lenses; the upper surface of the material dividing groove is provided with an opening, and one end of the material dividing groove is provided with a feed inlet communicated with the discharge hole; the pushing mechanism is used for being connected with the lens positioned at the tail end in the storage tank so as to push the lens positioned at the head end to the discharge port; the material distributing mechanism is used for being connected with the lens positioned at the discharge hole. The beneficial effects of the utility model are as follows: the lenses can be separated from the lenses placed in rows, and before the lenses are clamped by the manipulator, the lenses do not need to be separated manually, so that the device is very convenient and the labor intensity is reduced.

Description

Lens separating device for optical lens chamfering machine

Technical Field

The utility model relates to the technical field of optical lens processing, in particular to a lens separating device for an optical lens chamfering machine.

Background

In the production processing industry of optical lenses, the optical lenses to be produced are required to be chamfered by adopting a chamfering machine, the existing optical lens chamfering machine (such as a lens edging machine disclosed in the application number 201610061515.1) clamps the lenses placed in a product tray by utilizing a manipulator and moves the lenses to a lens clamping grinding mechanism for chamfering and grinding, and the manipulator does not have the function of separating one lens from glass sheets placed in a row, so that the manipulator needs to manually place one lens in different notches of the product tray before clamping the lenses, which is very troublesome and increases the labor intensity.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a lens separating device for an optical lens chamfering machine, which solves the technical problems that the optical lens chamfering machine in the prior art does not have the function of separating a lens from glass sheets placed in rows, and a manipulator needs to manually place the lenses one by one in different notches on a product tray before clamping the lenses, so that the problem is very troublesome and the labor intensity of workers is increased.

In order to achieve the above technical object, the present utility model provides a lens separating device for an optical lens chamfering machine, comprising:

the upper surface of the storage tank is provided with an opening, a plurality of lenses are placed in the storage tank in a row, and the front end of the storage tank in the length direction is provided with a discharge hole with the thickness identical to that of the lenses;

the upper surface of the material dividing groove is provided with an opening, and one end of the material dividing groove is provided with a feed inlet communicated with the discharge hole;

the pushing mechanism is used for being connected with the lens positioned at the tail end in the storage tank so as to push the lens positioned at the head end to the discharge hole;

the material distributing mechanism is used for being connected with the lens positioned at the discharge hole and pushing the lens into the material distributing groove.

Preferably, the front end of the storage tank in the length direction is also provided with a notch corresponding to the discharge hole.

Preferably, the storage tank comprises a first bottom plate, two first fixing plates, a first baffle, a second baffle, two first sliding blocks and a plurality of first clamping blocks, wherein the first bottom plate is provided with two first sliding grooves and a plurality of first guide grooves in a relatively arranged mode along the width direction of the first bottom plate, the two first fixing plates are fixed on the first bottom plate in a relatively fixed mode along the length direction of the first bottom plate, the first baffle and the second baffle are perpendicular to the first fixing plates and are arranged on the first bottom plate in a relatively sliding mode, the tail ends of the first baffle and the second baffle are in sliding butt connection with one first fixing plate, a notch is formed between the first end of the first baffle and the other first fixing plate, the two first sliding blocks are fixed on the corresponding first baffle and the corresponding bottom of the first bottom plate respectively, the first sliding blocks are connected with the corresponding first sliding grooves in the corresponding first sliding blocks, and the corresponding first sliding blocks are connected with the corresponding first sliding grooves respectively.

Preferably, the lens separating device for the optical lens chamfering machine further comprises a driving rod, wherein the driving rod is rotationally connected in the two first sliding grooves, one end of the driving rod extends out of the first bottom plate, two sections of threads with opposite rotation directions are arranged on the driving rod, and the two sections of threads are respectively located in the corresponding two first sliding grooves and are in threaded connection with the first screw holes through the corresponding threads.

Preferably, the second baffle comprises a fixed part, a movable part and a first screw rod, wherein the movable part is positioned at the head end of the fixed part and is in sliding connection with the movable part, the movable part can move along the length direction of the fixed part in the horizontal direction so as to adjust the thickness of the discharge hole, a second screw hole is formed in the fixed part, the first screw rod is horizontally arranged, one end of the first screw rod penetrates through the second screw hole and is fixedly connected with the movable part, and the first screw rod is in threaded connection with the second screw hole.

Preferably, when the thickness of the feed inlet is the smallest, the thickness of the feed inlet is the same as the thickness of the notch.

Preferably, the material distributing groove comprises a second bottom plate, a second fixing plate, a third baffle, an adjusting plate, a second sliding block and a plurality of second clamping blocks, wherein the second bottom plate is arranged at the discharge hole and fixed on the first bottom plate, the second bottom plate is provided with a second sliding groove and a plurality of second guide grooves along the direction vertical to the first sliding groove and the first guide groove, the second fixing plate is parallel to the second sliding groove and fixed on the second bottom plate, the second fixing plate is positioned far away from the end of the feed hole, the third baffle is perpendicular to the second fixing plate and fixed on the second bottom plate, one end of the third baffle is fixedly connected with the second fixing plate, the other end of the third baffle is fixedly connected with the first fixing plate at the head end, the adjusting plate is parallel to the third baffle and is slidably arranged on the second bottom plate, the second fixing plate is parallel to the second sliding groove, the second baffle is correspondingly connected with the second sliding block, the second baffle is correspondingly provided with the second sliding groove, and is correspondingly connected with the second sliding block, and the second sliding block is correspondingly arranged at the bottom of the second bottom plate.

Preferably, the lens separating device for the optical lens chamfering machine further comprises a second screw rod, wherein the second screw rod is rotationally connected in the second sliding groove, one end of the second screw rod extends out of the second bottom plate, and the second screw rod is in threaded connection with the third screw hole.

Preferably, the pushing mechanism comprises a pushing plate and a first telescopic driving piece, the pushing plate is arranged at the tail end of the storage tank and is positioned between the first baffle and the second baffle, and the output end of the first telescopic driving piece is fixedly connected with the pushing plate and is used for driving the pushing plate to move along the length direction of the storage tank.

Preferably, the material distributing mechanism comprises a material distributing plate and a second telescopic driving piece, wherein the material distributing plate is arranged at the notch in a sliding manner, and the output end of the second telescopic driving piece is fixedly connected with the material distributing plate and used for driving the material distributing plate to move.

Compared with the prior art, the utility model has the beneficial effects that: when chamfering and grinding are carried out on the optical lenses, the lenses are firstly placed in rows into the storage tank, the pushing mechanism is controlled to be connected with the lenses positioned at the tail end in the storage tank, so that the lenses positioned at the head end can be pushed to the discharge port, the distributing mechanism is controlled to be connected with the lenses positioned at the discharge port, so that the lenses can be pushed into the distributing tank, the lenses in the distributing tank are clamped by the manipulator, and the lenses are moved to the lens clamping grinding mechanism for chamfering and grinding.

Drawings

FIG. 1 is a schematic perspective view of a lens separating device for an optical lens chamfering machine;

FIG. 2 is a schematic view of the lens separating device for an optical lens chamfering machine of FIG. 1 in a configuration in which a lens of maximum diameter can be separated;

in the figure: 100-storage tanks, 110-discharge ports, 120-gaps, 130-first bottom plates, 131-first sliding grooves, 132-first guide grooves, 140-first fixed plates, 150-first baffle plates, 160-second baffle plates, 161-fixed parts, 162-movable parts, 163-first screw rods, 170-first sliding blocks, 180-first clamping blocks, 200-material dividing tanks, 210-feed inlets, 220-second bottom plates, 221-second sliding grooves, 222-second guide grooves, 230-second fixed plates, 240-third baffle plates, 250-adjusting plates, 260-second sliding blocks, 270-second clamping blocks, 300-pushing mechanisms, 310-pushing plates, 320-first telescopic driving pieces, 400-material dividing mechanisms, 410-material dividing plates, 420-second telescopic driving pieces, 500-driving rods and 600-second screw rods.

Detailed Description

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

The utility model provides a lens separating device for an optical lens chamfering machine, which has the structure shown in fig. 1 and 2 and comprises a storage tank 100, a distribution tank 200, a pushing mechanism 300 and a distribution mechanism 400, wherein the upper surface of the storage tank 100 is provided with an opening, a plurality of lenses are arranged in a row in the storage tank 100, and the head end of the storage tank 100 in the length direction is provided with a discharge hole 110 with the thickness the same as that of the lenses; the upper surface of the material dividing groove 200 is provided with an opening, and one end of the material dividing groove 200 is provided with a feed inlet 210 communicated with the discharge hole 110; the pushing mechanism 300 is used for being connected with the lens at the tail end in the storage tank 100 so as to push the lens at the head end to the discharge port 110; the distributing mechanism 400 is used for connecting with the lens at the discharging hole 110 and pushing the lens into the distributing groove 200.

When chamfering and grinding the optical lenses, firstly, the lenses are placed in rows into the storage tank 100, the pushing mechanism 300 is controlled to connect the pushing mechanism 300 with the lenses positioned at the tail end in the storage tank 100, so that the lenses positioned at the head end can be pushed to the position of the discharge port 110, then the distributing mechanism 400 is controlled to connect the distributing mechanism 400 with the lenses positioned at the position of the discharge port 110, so that the lenses can be pushed into the distributing tank 200, the lenses in the distributing tank 200 are clamped by using a mechanical arm, and the lenses are moved to the position of the lens clamping grinding mechanism for chamfering and grinding.

As a preferred embodiment, referring to fig. 1, the front end of the storage tank 100 in the length direction further has a notch 120 corresponding to the discharge port 110, so that the distributing plate 410 can slide through the notch 120 to push the lens located at the discharge port 110 into the distributing tank 200.

As a preferred embodiment, referring to fig. 1 and 2, the storage tank 100 includes a first bottom plate 130, two first fixing plates 140, a first baffle 150, a second baffle 160, two first sliding blocks 170, and a plurality of first clamping blocks 180, two first sliding grooves 131 and a plurality of first guiding grooves 132 are formed on the first bottom plate 130 along the width direction of the first bottom plate 130, the first sliding grooves 131 facilitate the first screw 163 to be rotatably disposed in the first sliding grooves 131, the first guiding grooves 132 can guide the first baffle 150 and the second baffle 160, the two first fixing plates 140 are relatively fixed on the first bottom plate 130 along the length direction of the first bottom plate 130, so as to limit the lenses disposed in the storage tank 100, the first baffle 150 and the second baffle 160 are perpendicular to the first fixing plate 140 and are relatively slidably disposed on the first bottom plate 130, the first baffle 150 and the second baffle 160 may be slidably disposed along a width direction of the first bottom plate 130, so as to adjust a distance between the first baffle 150 and the second baffle 160, so that lenses with different diameters are placed in the storage tank 100, the ends of the first baffle 150 and the second baffle 160 are slidably abutted against one of the first fixing plate 140, the notch 120 is formed between a head end of the first baffle 150 and the other first fixing plate 140, the discharge port 110 is formed between a head end of the second baffle 160 and the other first fixing plate 140, the two first sliders 170 are respectively fixed to bottoms of the corresponding first baffle 150 and second baffle 160, and the first sliding blocks 170 are slidably connected to the corresponding first sliding grooves 131, the first sliding blocks 170 are provided with first screw holes, and each first clamping block 180 is respectively fixed to the bottoms of the corresponding first baffle 150 and second baffle 160 and is slidably connected to the corresponding first guiding groove 132 via the corresponding first clamping block 180, so that the movement of the first baffle 150 and the second baffle 160 is more stable.

As a preferred embodiment, please refer to fig. 1 and 2, the lens separating device for an optical lens chamfering machine further includes a driving rod 500, the driving rod 500 is rotatably connected to the two first sliding grooves 131, one end of the driving rod 500 extends out of the first bottom plate 130, two sections of threads with opposite rotation directions are disposed on the driving rod 500, the two sections of threads are respectively located in the corresponding two first sliding grooves 131 and are screwed into the first screw holes through the corresponding threads, and by rotating the driving rod 500, the driving rod 500 drives the first baffle 150 and the second baffle 160 to approach each other or to depart from each other, so as to adjust the space between the first baffle 150 and the second baffle 160, thereby facilitating placement of lenses with different diameters in the storage tank 100.

As a preferred embodiment, please refer to fig. 2, the second baffle 160 includes a fixing portion 161, a movable portion 162 and a first screw 163, the movable portion 162 is located at a head end of the fixing portion 161 and is slidably connected to the movable portion 162, the movable portion 162 can move along a length direction of the fixing portion 161 in a horizontal direction to adjust a thickness of the discharge port 110, a second screw hole is formed in the fixing portion 161, the first screw 163 is horizontally disposed, one end of the first screw 163 passes through the second screw hole and is fixedly connected with the movable portion 162, the first screw 163 and the second screw hole are in threaded connection by rotating the first screw 163, so that the first screw 163 drives the movable portion 162 to be far away from or close to the fixing portion 161, so as to adjust a thickness of the discharge port 110, so that lenses with different thicknesses can be placed in the storage tank 100, and lenses with different thicknesses can be discharged from the discharge port 110 into the distribution tank 200.

As a preferred embodiment, referring to fig. 1, when the thickness of the inlet 210 is the smallest, the thickness of the gap 120 is the same as that of the lens with the smallest thickness, so that the thickness of the distributing plate 410 can be equal to that of the lens with the smallest thickness, and the distributing effect is improved.

As a preferred embodiment, referring to fig. 1 and 2, the material dividing groove 200 includes a second bottom plate 220, a second fixing plate 230, a third baffle 240, an adjusting plate 250, a second slider 260, and a plurality of second clamping blocks 270, where the second bottom plate 220 is disposed at the material outlet 110 and fixed on the first bottom plate 130, the second bottom plate 220 is provided with a second sliding groove 221 and a plurality of second guiding grooves 222 opposite to each other along a direction perpendicular to the first sliding groove 131 and the first guiding groove 132, the second sliding groove 221 is convenient for making the second screw 600 rotate in the second sliding groove 221, the second guiding groove 222 can play a guiding role on the adjusting plate 250, the second fixing plate 230 is parallel to the second sliding groove 221 and the second guiding groove 222 is fixed on the second bottom plate 220, the second fixing plate 230 is located at an end far away from the material inlet 210, the third fixing plate 230 is fixed on the second bottom plate 240 and perpendicular to the second bottom plate 240, the second end of the adjusting plate 240 is connected with the second baffle 240, the second fixing plate 250 is formed at the end of the second fixing plate 240, and the second fixing plate 250 is connected with the second baffle 240, the second fixing plate 250 is connected to the second fixing plate 240, and the second fixing plate 250 is connected to the second fixing plate 250, and the second fixing plate is formed at the end of the second fixing plate is parallel to the second fixing plate 250, and is slidably connected to the corresponding second sliding groove 221 via the corresponding second sliding block 260, a third screw hole is formed in the second sliding block 260, each second clamping block 270 is fixed to the bottom of the adjusting plate 250, and is slidably connected to the corresponding second guiding groove 222 via the corresponding second clamping block 270, so that the movement of the adjusting plate 250 is more stable.

As a preferred embodiment, please refer to fig. 1 and 2, the lens separating device for an optical lens chamfering machine further includes a second screw 600, the second screw 600 is rotatably connected in the second chute 221, one end of the second screw 600 extends out of the second bottom plate 220, the second screw 600 is screwed in the third screw hole, and the second screw 600 is rotated to enable the second screw 600 to drive the adjusting plate 250 to slide along a direction perpendicular to the third baffle 240, so as to adjust a distance between the adjusting plate 250 and the third baffle 240, so that the separating groove 200 can position lenses with different thicknesses, and the height of the third baffle 240 and the adjusting plate 250 is smaller than the diameter of the lens with the minimum diameter, so that a manipulator can clamp the lens in the separating groove 200.

As a preferred embodiment, referring to fig. 1 and 2, the pushing mechanism 300 includes a pushing plate 310 and a first telescopic driving member 320, the pushing plate 310 is disposed at the end of the storage tank 100 and is located between the first baffle 150 and the second baffle 160, an output end of the first telescopic driving member 320 is fixedly connected with the pushing plate 310, and is used for driving the pushing plate 310 to move along the length direction of the storage tank 100, and a width of the pushing plate 310 is equal to a minimum distance between the first baffle 150 and the second baffle 160, and by controlling the first telescopic driving member 320, the pushing plate 310 is driven by the first telescopic driving member 320 to abut against a lens located at the end so as to push the entire row of lenses to move in the storage tank 100 until the lens at the head end is pushed to the discharge port 110.

As a preferred embodiment, please refer to fig. 1 and 2, the material distributing mechanism 400 includes a material distributing plate 410 and a second telescopic driving member 420, the material distributing plate 410 is slidably disposed at the notch 120, an output end of the second telescopic driving member 420 is fixedly connected with the material distributing plate 410, and is used for driving the material distributing plate 410 to move, and by controlling the second telescopic driving member 420, the second telescopic driving member 420 drives the material distributing plate 410 to abut against a lens located at the material outlet 110, so that the lens can be pushed into the material distributing groove 200.

For better understanding of the present utility model, the following details of the working principle of the technical solution of the present utility model are described with reference to fig. 1 to 2:

when chamfering and grinding the optical lenses, firstly, the distance between the first baffle 150 and the second baffle 160 and the distance between the adjusting plate 250 and the third baffle 240 are adjusted according to the diameter and the thickness of the lenses, then the lenses are placed in rows into the storage tank 100, the first telescopic driving piece 320 is controlled to drive the pushing plate 310 to abut against the lenses positioned at the tail end so as to push the whole row of lenses to move in the storage tank 100 until the lenses at the head end are pushed to the position of the discharge port 110, then the second telescopic driving piece 420 is controlled to drive the separating plate 410 to abut against the lenses positioned at the position of the discharge port 110, so that the lenses can be pushed into the separating tank 200, the lenses in the separating tank 200 are clamped by using a mechanical arm, and the lenses are moved to the position of the lens clamping mechanism for chamfering and grinding, so that the lenses can be separated into the lenses without manual labor intensity reduction before the lenses are manually placed from the glass clamping device, and the manual labor intensity is not required to be reduced.

The lens separating device for the optical lens chamfering machine has the following beneficial effects:

(1) The distance between the adjusting plate 250 and the third baffle 240 can be adjusted, so that the distribution chute 200 can have good positioning effect on lenses with different thicknesses, and the height of the third baffle 240 and the adjusting plate 250 is smaller than the diameter of the lens with the minimum diameter, so that the manipulator can clamp the lens in the distribution chute 200;

(2) The distance between the first baffle 150 and the second baffle 160, the thickness of the discharge hole 110, and the distance between the adjusting plate 250 and the third baffle 240 can be adjusted according to the diameters and the thicknesses of the lenses, and a lens can be separated from lenses placed in rows for lenses with different thicknesses and diameters;

(3) The lens separating device can separate one lens from the lenses placed in rows, and the manipulator does not need to manually separate the lenses one by one before clamping the lenses, so that the device is very convenient and reduces the labor intensity.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made in accordance with the technical idea of the present utility model shall be included in the scope of the claims of the present utility model.

Claims (10)

1. A lens separating device for an optical lens chamfering machine, comprising:

the upper surface of the storage tank is provided with an opening, a plurality of lenses are placed in the storage tank in a row, and the front end of the storage tank in the length direction is provided with a discharge hole with the thickness identical to that of the lenses;

the upper surface of the material dividing groove is provided with an opening, and one end of the material dividing groove is provided with a feed inlet communicated with the discharge hole;

the pushing mechanism is used for being connected with the lens positioned at the tail end in the storage tank so as to push the lens positioned at the head end to the discharge hole;

the material distributing mechanism is used for being connected with the lens positioned at the discharge hole and pushing the lens into the material distributing groove.

2. The lens separating device for an optical lens chamfering machine according to claim 1, wherein the front end of the stock chest in the length direction is further provided with a notch corresponding to the discharge port.

3. The lens separating device for an optical lens chamfering machine according to claim 2, wherein the storage tank comprises a first bottom plate, two first fixing plates, a first baffle, a second baffle, two first sliding blocks and a plurality of first clamping blocks, two first sliding grooves and a plurality of first guide grooves are oppositely formed on the first bottom plate along the width direction of the first bottom plate, the two first fixing plates are oppositely fixed on the first bottom plate along the length direction of the first bottom plate, the first baffle and the second baffle are perpendicular to the first fixing plates and are oppositely arranged on the first bottom plate in a sliding manner, the tail ends of the first baffle and the second baffle are in sliding contact with one first fixing plate, a notch is formed between the head end of the first baffle and the other first fixing plate, a discharge port is formed between the head end of the second baffle and the other first fixing plate, the two first sliding blocks are respectively fixed on the first sliding blocks and the corresponding to the bottoms of the first sliding blocks through corresponding to the first sliding blocks, and the corresponding to the first sliding blocks are correspondingly connected to the first sliding blocks in the first sliding grooves.

4. The lens separating device for an optical lens chamfering machine according to claim 3, further comprising a driving rod, wherein the driving rod is rotatably connected in the two first sliding grooves, one end of the driving rod extends out of the first bottom plate, two sections of threads with opposite rotation directions are arranged on the driving rod, and the two sections of threads are respectively located in the corresponding two first sliding grooves and are screwed into the first screw holes through the corresponding threads.

5. The lens separating device for an optical lens chamfering machine according to claim 4, wherein the second baffle comprises a fixed portion, a movable portion and a first screw, the movable portion is located at the head end of the fixed portion and is slidably connected to the movable portion, the movable portion can move in the horizontal direction along the length direction of the fixed portion so as to adjust the thickness of the discharge hole, the fixed portion is provided with a second screw hole, the first screw is horizontally arranged, one end of the first screw penetrates through the second screw hole and is fixedly connected with the movable portion, and the first screw is in threaded connection with the second screw hole.

6. The lens separating device for an optical lens chamfering machine according to claim 5, wherein when the thickness of said feed port is minimum, it is the same as the thickness of said notch.

7. The lens separating device for an optical lens chamfering machine according to claim 6, wherein the separating groove comprises a second bottom plate, a second fixing plate, a third baffle, an adjusting plate, a second sliding block and a plurality of second clamping blocks, the second bottom plate is arranged at the discharge hole and fixed on the first bottom plate, the second bottom plate is provided with a second sliding groove and a plurality of second guiding grooves along the direction vertical to the first sliding groove and the first guiding groove, the second fixing plate is parallel to the second sliding groove and fixed on the second bottom plate, the second fixing plate is positioned at the end far away from the feed hole, the third baffle is vertical to the second fixing plate and fixed on the second bottom plate, one end of the third baffle is fixedly connected with the second fixing plate, the other end of the third baffle is fixedly connected with the first fixing plate at the head end, the adjusting plate is parallel to the third sliding plate and arranged on the second fixing plate, the second baffle is correspondingly connected with the second sliding block through the second sliding plate, the second baffle is correspondingly connected with the second sliding block, and the second baffle is correspondingly provided with the second bottom plate.

8. The lens separating device for an optical lens chamfering machine according to claim 7, further comprising a second screw rod rotatably connected to the second chute, wherein one end of the second screw rod extends out of the second bottom plate, and the second screw rod is screwed into the third screw hole.

9. The lens separating device for an optical lens chamfering machine according to claim 8, wherein the pushing mechanism comprises a pushing plate and a first telescopic driving piece, the pushing plate is arranged at the tail end of the storage tank and is located between the first baffle and the second baffle, and the output end of the first telescopic driving piece is fixedly connected with the pushing plate and is used for driving the pushing plate to move along the length direction of the storage tank.

10. The lens separating device for an optical lens chamfering machine according to claim 9, wherein the material distributing mechanism comprises a material distributing plate and a second telescopic driving piece, the material distributing plate is slidably arranged at the notch, and an output end of the second telescopic driving piece is fixedly connected with the material distributing plate and is used for driving the material distributing plate to move.

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