CN214817326U - High-efficient optical lens piece edging device - Google Patents

Abstract

The utility model relates to a high-efficiency optical lens edging device, which comprises a workbench, a clamping cylinder, a negative pressure adsorption rotating assembly and an edging cutter, wherein the clamping cylinder is fixedly arranged on the workbench and used for clamping and adjusting an optical lens, the negative pressure adsorption rotating assembly is fixedly arranged on the workbench and used for adsorbing and rotating the optical lens, the negative pressure adsorption rotating assembly is fixedly arranged at the clamping center of the clamping cylinder, the edging cutter is arranged at one side of the negative pressure adsorption rotating assembly in a front-back sliding manner, after the optical lens is positioned, the first clamp and the second clamp recover the initial position, the optical lens is adsorbed on a suction nozzle by a negative pressure device, a push cylinder pushes a slide bar to enable the edging cutter to be close to the optical lens, the rotating cylinder rotates to drive the negative pressure device to rotate, the optical lens is further rotated, the edging cutter edging edges the optical lens at the moment, through a negative pressure adsorption mode, need not to use anchor clamps to fix optical lens piece, improve the automatic level of optical lens piece edging.

Description

High-efficient optical lens piece edging device

Technical Field

The utility model relates to a high-efficient optical lens piece edging device technical field specifically is a high-efficient optical lens piece edging device.

Background

The glass originally used for making lenses, which is a knob on a common window glass or wine bottle, is shaped like a "crown", from which the name crown glass or crown glass comes. The glass was very non-uniform and foamy at that time. In addition to crown glass, another flint glass is known which contains a significant amount of lead. It was found in about 1790 by French skinned and Louis and Tonner that glass with a uniform texture could be produced by stirring the glass paste. In 1884, the inster abbe and otto schottky of zeiss created the schottky glass plant in jena, germany, and several dozen optical glasses were developed in a few years, of which the invention of barium crown glass with a high refractive index was one of the important achievements of the schottky glass plant.

Add man-hour to optical lens and need carry out the edging to optical lens and handle, current optical lens edging device is fixed with optical lens through anchor clamps, then carries out the edging by the edging cutter, and this just needs the staff manual to place optical lens on anchor clamps, then is edging, causes work efficiency low.

Therefore, there is a need to provide an efficient optical lens edge grinding device to solve the above problems in the prior art.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a high-efficient optical lens piece edging device, its includes workstation, centre gripping cylinder, negative pressure adsorption rotating assembly and edging cutter, fixed being provided with on the workstation centre gripping cylinder is used for centre gripping adjustment optical lens piece, fixed being provided with negative pressure adsorption rotating assembly on the workstation is used for adsorbing and rotating optical lens piece, negative pressure adsorption rotating assembly is fixed to be set up centre gripping center department of centre gripping cylinder, one side that the negative pressure adsorbs rotating assembly slides around being provided with the edging cutter.

Further, as preferred, the negative pressure adsorbs runner assembly includes revolving cylinder, negative pressure device and suction nozzle, revolving cylinder is fixed to be set up on the workstation, the last fixed pivot that is provided with of revolving cylinder, the tip fixedly connected with negative pressure device of pivot, the last negative pressure pipe that is provided with of negative pressure device, the last fixed suction nozzle that is provided with of negative pressure pipe is used for adsorbing optical lens.

Further, as preferred, one side of workstation is fixed and is provided with the baffle, leave the guide way on the baffle, it is provided with the slide bar to slide in the guide way, be provided with fixedly on the slide bar the edging cutter.

Further, as preferred, one side of baffle is fixed and is provided with the mounting panel, the fixed push cylinder that is provided with on the mounting panel, push cylinder's output is connected with the catch bar, the one end of catch bar with slide bar fixed connection.

Further, as preferred, the fixed first driving piece and the second driving piece that is provided with in both sides of centre gripping cylinder, first driving piece and second driving piece simultaneously to centre gripping cylinder center department centre gripping, the fixed first anchor clamps that are provided with in below of first driving piece, the fixed second anchor clamps that are provided with in below of second driving piece.

Preferably, the first clamp and the second clamp are fixedly provided with V-shaped grooves.

The utility model has the advantages that:

this device is placed optical lens piece on the suction nozzle through external setting of snatching, through the first driving piece of centre gripping and second driving piece of centre gripping simultaneously of centre gripping cylinder and fix a position optical lens piece on the suction nozzle (the position of adjusting optical lens piece by the V type groove in first anchor clamps and the second anchor clamps), after the optical lens piece location, first anchor clamps and second anchor clamps resume initial position, vacuum apparatus adsorbs optical lens piece on the suction nozzle, promote the cylinder and promote the slide bar and make the edging cutter be close to optical lens piece, revolving cylinder rotates and drives vacuum apparatus and rotate, further make optical lens piece rotate, the edging cutter carries out the edging to optical lens piece's edge this moment, through the absorbent mode of negative pressure, need not to use anchor clamps to fix optical lens piece, improve optical lens piece edging's automation level.

Drawings

Fig. 1 is a top view of the high-efficiency optical lens edging device of the present invention;

fig. 2 is an enlarged view of a clamping cylinder portion of the high-efficiency optical lens edging device of the present invention;

fig. 3 is a front view of a rotary cylinder in the high-efficiency optical lens edge grinding device of the present invention;

in the figure: 1. a clamping cylinder; 2. a first driving member; 3. a second driving member; 4. a first clamp; 5. a second clamp; 6. a guide plate; 7. a guide groove; 8. a slide bar; 9. an edging cutter; 10. mounting a plate; 11. a push cylinder; 12. a push rod; 13. a V-shaped groove; 14. a rotating cylinder; 15. a negative pressure device; 16. a suction nozzle; 17. a rotating shaft; 18. a negative pressure tube; 19. a work bench.

Detailed Description

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

Example (b): referring to fig. 1-3, an efficient optical lens edge grinding device includes a worktable 19, a clamping cylinder 1, a negative pressure adsorption rotating assembly and an edge grinding tool 9, wherein the clamping cylinder 1 is fixedly disposed on the worktable 19 for clamping and adjusting an optical lens, the negative pressure adsorption rotating assembly is fixedly disposed on the worktable 19 for adsorbing and rotating the optical lens, the negative pressure adsorption rotating assembly is fixedly disposed at a clamping center of the clamping cylinder 1, and the edge grinding tool 9 is slidably disposed on one side of the negative pressure adsorption rotating assembly back and forth. That is to say, place optical lens on suction nozzle 16 through external setting of snatching, through centre gripping cylinder 1 centre gripping first driving piece 2 and second driving piece 3 with optical lens fix a position on suction nozzle 16 simultaneously (adjust the position of optical lens by V type groove 13 in first anchor clamps 4 and the second anchor clamps 5), after the optical lens location, first anchor clamps 4 and second anchor clamps 5 resume initial position, negative pressure device adsorbs optical lens on suction nozzle 16, promote cylinder 11 and promote slide bar 8 and make edging cutter 9 be close to optical lens, revolving cylinder 14 rotates and drives negative pressure device 15 and rotate, further make optical lens rotate, edging cutter 9 edging the edge of optical lens this moment, through the mode of negative pressure adsorption, need not to use anchor clamps to fix optical lens, improve optical lens's automation level.

In this embodiment, the negative pressure adsorbs runner assembly includes revolving cylinder 14, negative pressure device 15 and suction nozzle 16, revolving cylinder 14 is fixed to be set up on the workstation 19, the last fixed pivot 17 that is provided with of revolving cylinder 14, the tip fixedly connected with negative pressure device 15 of pivot 17, be provided with negative pressure pipe 18 on the negative pressure device 15, the fixed suction nozzle 16 that is provided with on the negative pressure pipe 18 is used for adsorbing optical lens.

In this embodiment, a guide plate 6 is fixedly arranged on one side of the workbench 19, a guide groove 7 is reserved on the guide plate 6, a slide bar 8 is slidably arranged in the guide groove 7, and the edging cutter 9 is fixedly arranged on the slide bar 8. That is, the push rod 12 is pushed by the push cylinder 11 to further push the slide rod 8, so that the edging cutter 9 on the slide rod 8 is close to the photovoltaic lens.

In this embodiment, a mounting plate 10 is fixedly arranged on one side of the guide plate 6, a pushing cylinder 11 is fixedly arranged on the mounting plate 10, an output end of the pushing cylinder 11 is connected with a pushing rod 12, and one end of the pushing rod 12 is fixedly connected with the sliding rod 8.

In this embodiment, a first driving part 2 and a second driving part 3 are fixedly arranged on two sides of the clamping cylinder 1, the first driving part 2 and the second driving part 3 simultaneously clamp the center of the clamping cylinder 1, a first clamp 4 is fixedly arranged below the first driving part 2, and a second clamp 5 is fixedly arranged below the second driving part 3.

In this embodiment, the first clamp 4 and the second clamp 5 are fixedly provided with V-shaped grooves 13. The purpose of fixedly arranging the V-shaped grooves 13 on the first clamp 4 and the second clamp 5 is to perform alignment positioning on the photovoltaic lens on the suction nozzle 16.

The utility model discloses a theory of operation is:

this device is placed optical lens on suction nozzle 16 through the external setting of snatching, through centre gripping cylinder 1 centre gripping first driving piece 2 and second driving piece 3 with optical lens fix a position on suction nozzle 16 simultaneously (by the position of adjusting optical lens in V type groove 13 in first anchor clamps 4 and the second anchor clamps 5), after the optical lens location, first anchor clamps 4 and second anchor clamps 5 resume initial position, negative pressure device adsorbs optical lens on suction nozzle 16, promote cylinder 11 and promote slide bar 8 and make edging cutter 9 be close to optical lens, revolving cylinder 14 rotates and drives negative pressure device 15 and rotate, further make optical lens rotate, edging cutter 9 edging is edging to optical lens's edge this moment, through the absorbent mode of negative pressure, need not to use anchor clamps to fix optical lens, improve optical lens's automation level.

The above examples are provided for further illustration of the present invention, but do not limit the present invention to these specific embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be understood as being within the protection scope of the present invention.

Claims (6)

1. The utility model provides a high-efficient optical lens piece edging device which characterized in that: it includes workstation (19), centre gripping cylinder (1), negative pressure adsorption rotating assembly and edging cutter (9), fixed being provided with on workstation (19) centre gripping cylinder (1) is used for centre gripping adjustment optical lens piece, fixed being provided with negative pressure adsorption rotating assembly on workstation (19) is used for adsorbing and rotating optical lens piece, negative pressure adsorption rotating assembly is fixed to be set up the centre gripping department of centre gripping cylinder (1), one side that the negative pressure adsorbs the rotating assembly slides around being provided with edging cutter (9).

2. A high efficiency optical lens edging arrangement according to claim 1, characterized by: the negative pressure adsorbs runner assembly includes revolving cylinder (14), negative pressure device (15) and suction nozzle (16), revolving cylinder (14) is fixed to be set up on workstation (19), the fixed pivot (17) that is provided with on revolving cylinder (14), the tip fixedly connected with negative pressure device (15) of pivot (17), be provided with negative pressure pipe (18) on negative pressure device (15), fixed suction nozzle (16) that is provided with on negative pressure pipe (18) is used for adsorbing optical lens.

3. A high efficiency optical lens edging arrangement according to claim 2, characterized by: fixed baffle (6) that is provided with in one side of workstation (19), leave guide way (7) on baffle (6), it is provided with slide bar (8) to slide in guide way (7), slide bar (8) are gone up to fix and are provided with edging cutter (9).

4. A high efficiency optical lens edging arrangement according to claim 3, characterized by: one side of baffle (6) is fixed and is provided with mounting panel (10), fixed push cylinder (11) that is provided with on mounting panel (10), the output of push cylinder (11) is connected with catch bar (12), the one end of catch bar (12) with slide bar (8) fixed connection.

5. An efficient optical lens edging device according to claim 4, characterized in that: the fixed first driving piece (2) and the second driving piece (3) of being provided with in both sides of centre gripping cylinder (1), first driving piece (2) and second driving piece (3) simultaneously to centre gripping cylinder (1) center department centre gripping, the fixed first anchor clamps (4) that are provided with in below of first driving piece (2), the fixed second anchor clamps (5) that are provided with in below of second driving piece (3).

6. An efficient optical lens edging device according to claim 5, characterized in that: and V-shaped grooves (13) are fixedly formed in the first clamp (4) and the second clamp (5).

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