CN114453757B - Wide-angle optical lens surface laser processing equipment - Google Patents

Abstract

The invention relates to laser processing equipment, in particular to wide-angle optical lens surface laser processing equipment. The invention aims to provide wide-angle optical lens surface laser processing equipment for realizing single and circumferential marking and further improving working efficiency. The utility model provides a wide angle optical lens surface laser beam machining equipment, includes supporting seat, quick-witted case, support frame, laser marking machine and rotating component etc. the supporting seat top is equipped with the machine case, and quick-witted incasement upper portion is equipped with the support frame, is equipped with the laser marking machine that is used for marking the camera lens in the middle of the support frame lower part, and quick-witted incasement bottom is equipped with and is used for the cooperation laser marking machine to carry out the rotating component that circumference was marked to the camera lens. According to the invention, the first gear is driven to rotate by the gear motor, and the second gear and the upper part of the second gear are driven to rotate, so that the laser marking machine marks the rotating lens, circumferential marking of the lens is realized, and when people only need to mark a certain position of the lens, the gear motor is not required to be started.

Description

Wide-angle optical lens surface laser processing equipment

Technical Field

The invention relates to laser processing equipment, in particular to wide-angle optical lens surface laser processing equipment.

Background

Laser marking is a marking process that causes the surface material to vaporize or undergo an oxidative chemical reaction, leaving a permanent mark. Has special significance for the anti-counterfeiting and identification of products. The lens protection structure of the current laser marking machine is troublesome in disassembly and is easy to damage the lens, so that the problems of low production efficiency and high production cost of enterprises are caused, and the long-term development of the enterprises is not facilitated.

The patent publication No. CN112338357A discloses a laser marking machine with a lens protection mechanism, which comprises a machine body, a main rod arranged above the machine body, a display arranged on one side of the main rod, and a laser marking structure arranged on the other side of the main rod, wherein the laser marking structure comprises a laser emitter connected with the main rod through a connecting rod, a base arranged below the laser emitter, and a laser marking head with one end penetrating through the inside of the base; the lens protection structure of the laser marking machine is convenient to detach and install, and can well protect the lens, so that the production efficiency of enterprises is improved, unnecessary production cost is avoided, and the long-term development of the enterprises is facilitated. However, the laser marking machine can only mark a certain position of the lens, and when a plurality of positions of the lens are required to be marked, the angle of the lens needs to be adjusted for many times, so that the laser marking machine is low in efficiency in working and does not meet the existing requirements.

How to design a wide-angle optical lens surface laser processing device for realizing single and circumferential marking and further improving working efficiency is a technical problem to be solved by the patent.

Disclosure of Invention

In order to overcome the defect that the angle of the lens needs to be adjusted for many times when the lens is only marked at one position, and therefore the efficiency is low in working, the invention aims to provide the wide-angle optical lens surface laser processing equipment for realizing single-time and circumferential marking and further improving the working efficiency.

The technical proposal is as follows: the utility model provides a wide angle optical lens surface laser processing equipment, including supporting seat, machine case, support frame, laser marking machine, rotating component and fixed subassembly, the supporting seat top is equipped with the machine case, and quick-witted incasement upper portion is equipped with the support frame, is equipped with the laser marking machine that is used for marking the camera lens in the middle of the support frame lower part, and quick-witted incasement bottom is equipped with and is used for the cooperation laser marking machine to carry out the rotating component that circumferential direction was marked to the camera lens, is equipped with the fixed subassembly that is used for placing and fixes the camera lens on the rotating component.

Further, the rotating assembly comprises a gear motor, a first gear, guide rods and a second gear, the gear motor is arranged on the left rear side of the bottom in the case, the first gear is arranged on an output shaft of the gear motor, four guide rods are arranged at the bottom in the case, the second gear is rotatably arranged between the guide rods, and the second gear is meshed with the first gear.

Further, the fixed subassembly is including connecting frame, first arc clamping lever and first spring, and the second gear inboard is equipped with the connecting frame, and both sides all slide about the connecting frame are equipped with the first arc clamping lever that is used for pressing from both sides tight camera lens, are connected with two first springs between first arc clamping lever and the connecting frame.

Further, the camera lens positioning device further comprises a positioning assembly for positioning the camera lens, the positioning assembly comprises a connecting sleeve, a supporting disc, second springs and second limiting rods, the connecting sleeve is arranged in the middle of the rear wall of the chassis, the supporting disc used for pushing out the camera lens is arranged on the inner side of the connecting sleeve in a sliding mode, the second springs are connected between the supporting disc and the connecting sleeve, and the two second limiting rods are arranged on the rear side of the bottom in the chassis.

Further, still including being used for spacing subassembly to first arc clamp rod, spacing subassembly is including V-arrangement pole, first connecting rod, the third spring, first L shape connecting rod and U-shaped connecting rod, two second gag lever post upper portions all slidingtype are equipped with first connecting rod, first connecting rod front side all is equipped with the V-arrangement pole that is used for buffering first arc clamp rod, V-arrangement pole all contacts with two first arc clamp rods, be connected with the third spring between the second gag lever post of V-arrangement pole all and homonymy, the third spring all overlaps on the first connecting rod of homonymy, the supporting disk left and right sides all is equipped with first L shape connecting rod, first L shape connecting rod rear side all contacts with the first connecting rod of homonymy, the left and right sides of supporting disk rear side all is equipped with the U-shaped connecting rod.

Further, still including the supporting component who is used for supporting first arc clamping bar, supporting component is including second connecting rod, connecting plate, stopper and fourth spring, both sides all are equipped with the support about between two second gag lever posts, all slidingtype on the support is equipped with the second connecting rod that is used for strutting first arc clamping bar, both sides all are equipped with the connecting plate about the supporting disk, all are equipped with the stopper on the second connecting rod, the stopper all is connected with the connecting plate of homonymy, be connected with the fourth spring between the support of second connecting rod rear side all and homonymy.

Further, the lens marking device further comprises a pushing component for preventing the lens marking position from deviating, the pushing component comprises a first limiting plate, guide rails, a third connecting rod, a second L-shaped connecting rod, a fourth connecting rod, a T-shaped connecting rod, a fifth spring, clamping plates, a seventh spring and a sixth spring, wherein the first limiting plate is arranged in the middle of the upper part of the front wall of the chassis, two guide rails are arranged on the lower side of the lower part of the chassis, the third connecting rod is arranged between the guide rails in a sliding mode, the second L-shaped connecting rod is arranged on the front side of the upper part of the third connecting rod, two fourth connecting rods are arranged on the second L-shaped connecting rod in a sliding mode, the front side of the fourth connecting rod is contacted with the first limiting plate, the T-shaped connecting rod is arranged between the rear side of the fourth connecting rod, the front side of the lower part of the T-shaped connecting rod is connected with the fifth spring, the fifth spring is sleeved on the fourth connecting rod of the lower side, clamping plates for positioning the lens position are arranged on the upper side and lower side of the T-shaped connecting rod, the seventh spring is connected between the clamping plates and the lower side of the front wall of the lower part of the chassis, and the sixth spring is sleeved on the upper side of the same side of the upper side of the clamping plates.

Further, still including the clamping component who is used for pressing from both sides tight camera lens, clamping component is including second limiting plate, push rod, second arc clamp rod and eighth spring, and quick-witted incasement bottom is equipped with two second limiting plates, and third connecting rod upper portion is equipped with the push rod, and the push rod left and right sides all slidingtype is equipped with the second arc clamp rod that is used for pressing from both sides tight camera lens, and second arc clamp rod downside all contacts with the second limiting plate of homonymy, is connected with eighth spring between second arc clamp rod all and the push rod.

Further, still including further reducing manual operation's control assembly, control assembly is including first gag lever post, ninth spring, act as go-between and sliding block, the left and right sides of second L shape connecting rod downside is all slidingtype is equipped with the first gag lever post that is used for spacing to the T shape connecting rod, first gag lever post all contacts with T shape connecting rod downside, be connected with the ninth spring between first gag lever post all and the second L shape connecting rod, push rod middle part slidingtype is equipped with two sliding blocks, be connected with between the first gag lever post of sliding block all with the homonymy and act as go-between.

The invention has the advantages that:

1. according to the invention, the first gear is driven to rotate by the gear motor, so that the second gear and the upper part of the second gear are driven to rotate, the rotating lens is marked by the laser marking machine, circumferential marking of the lens is realized, and when people only need to mark a certain position of the lens, the gear motor is not required to be started;

2. the support disc moves forwards to push out the marked lens forwards, so that people can take out the lens conveniently;

3. according to the invention, the first arc clamping rod moves inwards to further press the V-shaped rod backwards, the third spring is compressed to play a buffering role, so that the inward movement speed of the first arc clamping rod is slowed down, and the first arc clamping rod is prevented from damaging a lens;

4. according to the invention, the lens is clamped by the clamping plate, so that the lens is positioned, the clamping plate drives the lens to move backwards to be positioned between the first arc clamping rods, so that people do not need to manually put the lens between the first arc clamping rods, and the offset of the marking position of the lens is avoided;

5. according to the invention, the second arc clamping rod moves forwards to drive the U-shaped connecting rod and the supporting disc to move forwards for resetting, so that the supporting disc pushes out the lens forwards, and people do not need to move the U-shaped connecting rod forwards, and the trouble of manual operation is reduced;

6. according to the invention, the clamping plate is limited by the first limiting rod, so that people do not need to manually limit the clamping plate, and the trouble of manual operation is further reduced.

Drawings

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

Fig. 2 is a schematic cross-sectional perspective view of the present invention.

Fig. 3 is a schematic perspective view of a rotary assembly according to the present invention.

Fig. 4 is a schematic perspective view of a fixing assembly according to the present invention.

Fig. 5 is a schematic perspective view of a positioning assembly according to the present invention.

Fig. 6 is a schematic perspective view of a limiting assembly according to the present invention.

Fig. 7 is a schematic perspective view of a support assembly according to the present invention.

Fig. 8 is a schematic perspective view of a pushing assembly according to the present invention.

Fig. 9 is a schematic perspective view of a clamping assembly according to the present invention.

Fig. 10 is a schematic perspective view of a control assembly according to the present invention.

Fig. 11 is an enlarged perspective view of the structure of the present invention a.

Reference numerals in the figures: 1. the laser marking machine comprises a supporting seat, 2, a machine case, 3, a supporting frame, 4, a laser marking machine, 6, a rotating component, 61, a gear motor, 62, a first gear, 63, a guide rod, 64, a second gear, 7, a fixing component, 71, a connecting frame, 72, a first arc clamping rod, 73, a first spring, 8 and a positioning component, 81, connecting sleeves, 82, supporting discs, 83, second springs, 84, second limit rods, 9, limit components, 91, V-shaped rods, 92, first connecting rods, 93, third springs, 94, first L-shaped connecting rods, 95, U-shaped connecting rods, 10, support components, 101, second connecting rods, 102, connecting plates, 103, limiting blocks, 104, fourth springs, 11, pushing components, 1101, first limiting plates, 1102, guide rails, 1103, third connecting rods, 1104, second L-shaped connecting rods, 1105, fourth connecting rods, 1106, T-shaped connecting rods, 1107, fifth springs, 1108, clamping plates, 1109, seventh springs, 1110, sixth springs, 12, clamping components, 1201, second limiting plates, 1202, push rods, 1203, second arc clamping rods, 1204, eighth springs, 13, control components, 1301, first limiting rods, 1302, ninth springs, 1303, stay wires, 1304, sliding blocks.

Detailed Description

The above-described aspects are further described below in conjunction with specific embodiments. It should be understood that these examples are illustrative of the present application and are not limiting the scope of the present application. The implementation conditions used in the examples may be further adjusted according to the conditions of the specific manufacturer, and the implementation conditions not specified are generally those in routine experiments.

Example 1

1-4, refer to fig. 1-4, including supporting seat 1, machine case 2, support frame 3, laser marking machine 4, rotating component 6 and fixed subassembly 7, the supporting seat 1 top is equipped with machine case 2, and the upper portion is equipped with support frame 3 in the machine case 2, is equipped with laser marking machine 4 in the middle of the support frame 3 lower part, and laser marking machine 4 is used for marking the camera lens, and the bottom is equipped with rotating component 6 in machine case 2, and rotating component 6 is used for carrying out circumference marking to the camera lens in cooperation with laser marking machine 4, is equipped with fixed subassembly 7 on the rotating component 6, and fixed subassembly 7 is used for placing and fixing the camera lens.

Referring to fig. 3, the rotating assembly 6 includes a gear motor 61, a first gear 62, a guide rod 63 and a second gear 64, the gear motor 61 is disposed at the left rear side of the bottom in the chassis 2, the first gear 62 is connected to the output shaft of the gear motor 61 in a key manner, four guide rods 63 are disposed in the bottom in the chassis 2, the second gear 64 is rotatably disposed between the guide rods 63, and the second gear 64 is meshed with the first gear 62.

Referring to fig. 4, the fixing assembly 7 includes a connecting frame 71, a first arc clamping rod 72 and a first spring 73, the connecting frame 71 is disposed on the inner side of the second gear 64, the first arc clamping rod 72 is slidably disposed on the upper and lower sides of the connecting frame 71, the first arc clamping rod 72 is used for clamping a lens, and two first springs 73 are connected between the first arc clamping rod 72 and the connecting frame 71.

When the device is used, the first arc clamping rods 72 are moved outwards firstly, the first springs 73 are compressed, then the lens is placed between the first arc clamping rods 72, the first arc clamping rods 72 are loosened, then the first arc clamping rods 72 are driven to move inwards to clamp the lens under the action of the first springs 73, then the gear motor 61 and the laser marking machine 4 are started, the output shaft of the gear motor 61 rotates to drive the first gear 62 to rotate, then the second gear 64 is driven to rotate, the second gear 64 drives the connecting frame 71, the first arc clamping rods 72, the first springs 73 and the lens to rotate, the laser marking machine 4 marks the rotating lens in the circumferential direction, the gear motor 61 and the laser marking machine 4 are closed after marking is finished, when people only need to mark a certain position of the lens, the gear motor 61 is not required to be started, then the first arc clamping rods 72 are moved outwards, the first springs 73 are compressed, the marked lens is taken out, the first arc clamping rods 72 are loosened, and then the first arc clamping rods 72 are driven to move inwards under the reset action of the first springs 73.

Example 2

On the basis of embodiment 1, referring to fig. 1 and 5, the positioning assembly 8 further comprises a positioning assembly 8, wherein the positioning assembly 8 comprises a connecting sleeve 81, a supporting disc 82, a second spring 83 and a second limiting rod 84, the connecting sleeve 81 is arranged in the middle of the inner rear wall of the case 2, the supporting disc 82 is arranged on the inner side of the connecting sleeve 81 in a sliding mode, the supporting disc 82 is used for pushing out a lens, the second spring 83 is connected between the supporting disc 82 and the connecting sleeve 81, and two second limiting rods 84 are arranged on the rear side of the inner bottom of the case 2.

Referring to fig. 1 and 6, the device further comprises a limiting component 9, the limiting component 9 comprises a V-shaped rod 91, a first connecting rod 92, a third spring 93, a first L-shaped connecting rod 94 and a U-shaped connecting rod 95, the first connecting rod 92 is slidably arranged on the upper portions of the two second limiting rods 84, the V-shaped rod 91 is arranged on the front side of the first connecting rod 92 and is used for buffering the first arc-shaped clamping rod 72, the V-shaped rod 91 is in contact with the two first arc-shaped clamping rods 72, the third spring 93 is connected between the V-shaped rod 91 and the second limiting rods 84 on the same side, the third spring 93 is sleeved on the first connecting rod 92 on the same side, the left side and the right side of the supporting disc 82 are provided with the first L-shaped connecting rod 94, the rear side of the first L-shaped connecting rod 94 is in contact with the first connecting rod 92 on the same side, and the left side and the right side of the rear side of the supporting disc 82 are provided with the U-shaped connecting rod 95.

Referring to fig. 1 and 7, the support assembly 10 further comprises a support assembly 10, the support assembly 10 comprises a second connecting rod 101, a connecting plate 102, a limiting block 103 and a fourth spring 104, brackets are arranged on the upper side and the lower side between the two second limiting rods 84, the second connecting rod 101 is arranged on the brackets in a sliding mode, the second connecting rod 101 is used for expanding the first arc clamping rod 72, the connecting plates 102 are arranged on the upper side and the lower side of the support plate 82, the limiting block 103 is arranged on the second connecting rod 101, the limiting block 103 is connected with the connecting plate 102 on the same side, and the fourth spring 104 is connected between the rear side of the second connecting rod 101 and the brackets on the same side.

The second connecting rod 101 outwards expands the first arc-shaped clamping rod 72, the first spring 73 is compressed, people backwards squeeze the supporting disc 82 by using the lens, the second spring 83 is compressed, the supporting disc 82 drives the connecting plate 102, the first L-shaped connecting rod 94 and the U-shaped connecting rod 95 to move backwards, the first L-shaped connecting rod 94 is separated from the first connecting rod 92, the connecting plate 102 drives the limiting block 103 to move backwards, the second connecting rod 101 is further driven to move backwards, the fourth spring 104 is stretched, when the second connecting rod 101 is separated from the first arc-shaped clamping rod 72, the first arc-shaped clamping rod 72 is further driven to move inwards under the reset action of the first spring 73, the V-shaped rod 91 is further pressed backwards, the third spring 93 is compressed to play a buffering role, the inwards moving speed of the first arc-shaped clamping rod 72 is slowed down, the lens is prevented from being damaged by the first arc-shaped clamping rod 72, when the first arc-shaped clamping rod 72 is contacted with the lens, and then clamp the lens, after the lens is marked, move the U-shaped connecting rod 95 forward, the U-shaped connecting rod 95 drives the supporting disc 82 to move forward, the second spring 83 resets along with it, the supporting disc 82 drives the connecting plate 102 and the first L-shaped connecting rod 94 to move forward and reset, when the first L-shaped connecting rod 94 contacts with the first connecting rod 92, then drive the first connecting rod 92 and the V-shaped rod 91 to move forward and reset, the third spring 93 resets along with it, the V-shaped rod 91 extrudes the first arc clamping rod 72 outwards, the first arc clamping rod 72 moves outwards and is reset with the separation of the lens, the first spring 73 is compressed, the supporting disc 82 pushes the marked lens forward, then people take out the lens conveniently, and simultaneously the connecting plate 102 is separated from the limiting block 103, and then the limiting block 103 and the second connecting rod 101 are driven to reset under the effect of the reset of the fourth spring 104.

Referring to fig. 1 and 8, the device further comprises a pushing component 11, the pushing component 11 comprises a first limiting plate 1101, a guide rail 1102, a third connecting rod 1103, a second L-shaped connecting rod 1104, a fourth connecting rod 1105, a T-shaped connecting rod 1106, a fifth spring 1107, a clamping plate 1108, a seventh spring 1109 and a sixth spring 1110, the middle of the upper part of the front wall in the case 2 is provided with the first limiting plate 1101, the lower side of the lower part of the case 2 is provided with two guide rails 1102, the third connecting rod 1103 is arranged between the guide rails 1102 in a sliding manner, the front side of the upper part of the third connecting rod 1103 is provided with the second L-shaped connecting rod 1104, the second L-shaped connecting rod 1104 is provided with two fourth connecting rods 1105 in a sliding manner, the front side of the fourth connecting rod 1105 all contacts with the first limiting plate 1101, a T-shaped connecting rod 1106 is arranged between the rear side of the fourth connecting rod 1105, a fifth spring 1107 is connected between the front side of the lower part of the T-shaped connecting rod 1106 and the second L-shaped connecting rod 1104, the fifth spring 1107 is sleeved on the fourth connecting rod 1105 at the lower side, clamping plates 1108 are slidably arranged on the upper side and the lower side of the T-shaped connecting rod 1106, the clamping plates 1108 are used for positioning a lens position, a seventh spring 1109 is connected between the clamping plates 1108 and the T-shaped connecting rod 1106, two sixth springs 1110 are connected between the front side of the lower part of the third connecting rod 1103 and the lower part of the inner front wall of the chassis 2, and the sixth springs 1110 are sleeved on guide rails 1102 at the same side.

Referring to fig. 1 and 9, the lens clamping device further comprises a clamping assembly 12, the clamping assembly 12 comprises a second limiting plate 1201, a push rod 1202, a second arc clamping rod 1203 and an eighth spring 1204, two second limiting plates 1201 are arranged at the bottom in the chassis 2, the push rod 1202 is arranged at the upper part of the third connecting rod 1103, the second arc clamping rods 1203 are arranged at the left side and the right side of the push rod 1202 in a sliding mode, the second arc clamping rods 1203 are used for clamping the lens, the lower sides of the second arc clamping rods 1203 are contacted with the second limiting plates 1201 at the same side, and the eighth spring 1204 is connected between the second arc clamping rods 1203 and the push rod 1202.

The fifth spring 1107 is stretched in the initial state, the clamping plate 1108 is moved outwards, the seventh spring 1109 is stretched, then a person puts the lens between the two clamping plates 1108, then the clamping plate 1108 is loosened, then the lens is clamped under the action of the seventh spring 1109 to position the lens, then the person manually holds the upper fourth connecting rod 1105, pushes the push rod 1202 backwards, the push rod 1202 drives the third connecting rod 1103, the second L-shaped connecting rod 1104, the fourth connecting rod 1105, the T-shaped connecting rod 1106, the fifth spring 1107, the clamping plate 1108, the seventh spring 1109, the second arc-shaped clamping rod 1203, the eighth spring 1204 and the lens move backwards, the sixth spring 1110 is stretched, the second limiting plate 1201 presses the second arc-shaped clamping rod 1203 inwards, the eighth spring 1204 is stretched, the second arc-shaped clamping rod 1203 moves inwards to be in contact with the lens, then the lens is clamped, when the lens moves backwards to be positioned between the first arc-shaped clamping rods 72, the first arc clamping rod 72 moves inwards to clamp the clamping plate 1108, the lens backwards extrudes the supporting disc 82 and the U-shaped connecting rod 95 to move backwards, the second spring 83 is compressed, then people loosen the fourth connecting rod 1105 above, and then the T-shaped connecting rod 1106, the fourth connecting rod 1105 and the clamping plate 1108 are driven to move backwards under the reset action of the fifth spring 1107, so that the clamping plate 1108 is separated from the first arc clamping rod 72, the first arc clamping rod 72 moves inwards to clamp the lens, so that people do not need to put the lens between the first arc clamping rods 72 manually, the offset of the lens marking position is avoided, after the lens marking is finished, the push rod 1202 is released, and then the push rod 1202, the third connecting rod 1103, the second L-shaped connecting rod 1104, the fourth connecting rod 1105, the T-shaped connecting rod 1106, the fifth spring 1107, the clamping plate 1108, the seventh spring 1109, the second arc clamping rod 1203 and the eighth spring 1204 are driven to move forwards to reset under the reset action of the sixth spring 1110, the clamping plate 1108 is separated from the lens, the clamping plate 1108 is driven to reset under the reset action of the seventh spring 1109, the second arc clamping rod 1203 is driven to move outwards to reset under the reset action of the eighth spring 1204, when the fourth connecting rod 1105 is contacted with the first limiting plate 1101, the first limiting plate 1101 presses the fourth connecting rod 1105 backwards, the fourth connecting rod 1105 drives the T-shaped connecting rod 1106 and the clamping plate 1108 to move backwards, the fifth spring 1107 is stretched, meanwhile, the second arc clamping rod 1203 is separated from the lens, the second arc clamping rod 1203 moves forwards to be contacted with the U-shaped connecting rod 95, the U-shaped connecting rod 95 is driven to move forwards, the supporting disc 82 is driven to move forwards to reset by the U-shaped connecting rod 95, and the second spring 83 is reset along with the U-shaped connecting rod 95, so that the supporting disc 82 pushes the lens forwards, and people do not need to move the U-shaped connecting rod 95 forwards, and the trouble of manual operation is reduced.

Referring to fig. 2, 10 and 11, the device further comprises a control assembly 13, the control assembly 13 comprises a first limiting rod 1301, a ninth spring 1302, a pull wire 1303 and a sliding block 1304, the left side and the right side of the lower side of the second L-shaped connecting rod 1104 are respectively provided with the first limiting rod 1301 in a sliding mode, the first limiting rod 1301 is used for limiting the T-shaped connecting rod 1106, the first limiting rod 1301 is contacted with the lower side of the T-shaped connecting rod 1106, the ninth spring 1302 is connected between the first limiting rod 1301 and the second L-shaped connecting rod 1104, two sliding blocks 1304 are arranged in the middle of the push rod 1202 in a sliding mode, and a pull wire 1303 is connected between the sliding blocks 1304 and the first limiting rod 1301 on the same side.

When the second arc-shaped clamping rod 1203 moves inwards to be in contact with the sliding block 1304, the sliding block 1304 is further pressed inwards, the sliding block 1304 drives the first limiting rod 1301 to move outwards to be separated from the T-shaped connecting rod 1106 through the stay wire 1303, the ninth spring 1302 is compressed, the first limiting rod 1301 does not limit the T-shaped connecting rod 1106 any more, when the second arc-shaped clamping rod 1203 moves outwards to be separated from the sliding block 1304, the first limiting rod 1301 is driven to move inwards to reset under the reset action of the ninth spring 1302, the first limiting rod 1301 drives the sliding block 1304 to move outwards to reset through the stay wire 1303, the first limiting rod 1301 limits the T-shaped connecting rod 1106, and therefore the trouble of manual operation is further reduced.

The above embodiments are only preferred embodiments of the present invention and are not intended to limit the scope of the present invention, so that all equivalent modifications made by the appended claims shall be included in the scope of the present invention.

Claims (3)

1. The wide-angle optical lens surface laser processing equipment is characterized by comprising a supporting seat (1), a machine case (2), a supporting frame (3), a laser marking machine (4), a rotating component (6) and a fixing component (7), wherein the machine case (2) is arranged at the top of the supporting seat (1), the supporting frame (3) is arranged at the upper part in the machine case (2), the laser marking machine (4) for marking the lens is arranged in the middle of the lower part of the supporting frame (3), the rotating component (6) for circumferentially marking the lens by matching with the laser marking machine (4) is arranged at the inner bottom of the machine case (2), and the fixing component (7) for placing and fixing the lens is arranged on the rotating component (6);

the rotating assembly (6) comprises a speed reducing motor (61), a first gear (62), guide rods (63) and a second gear (64), wherein the speed reducing motor (61) is arranged on the left rear side of the inner bottom of the chassis (2), the first gear (62) is arranged on the output shaft of the speed reducing motor (61), four guide rods (63) are arranged in the inner bottom of the chassis (2), the second gear (64) is rotatably arranged between the guide rods (63), and the second gear (64) is meshed with the first gear (62);

the fixing assembly (7) comprises a connecting frame (71), a first arc clamping rod (72) and first springs (73), the connecting frame (71) is arranged on the inner side of the second gear (64), the first arc clamping rods (72) used for clamping the lens are arranged on the upper side and the lower side of the connecting frame (71) in a sliding mode, and the two first springs (73) are connected between the first arc clamping rods (72) and the connecting frame (71);

the lens positioning device comprises a chassis (2), and is characterized by further comprising a positioning assembly (8) for positioning the lens, wherein the positioning assembly (8) comprises a connecting sleeve (81), a supporting disc (82), a second spring (83) and a second limiting rod (84), the connecting sleeve (81) is arranged in the middle of the inner rear wall of the chassis (2), the supporting disc (82) for pushing out the lens is arranged on the inner side of the connecting sleeve (81) in a sliding manner, the second spring (83) is connected between the supporting disc (82) and the connecting sleeve (81), and two second limiting rods (84) are arranged on the rear side of the inner bottom of the chassis (2);

the novel anti-theft device is characterized by further comprising a limiting component (9) used for limiting the first arc-shaped clamping rods (72), wherein the limiting component (9) comprises a V-shaped rod (91), a first connecting rod (92), a third spring (93), a first L-shaped connecting rod (94) and a U-shaped connecting rod (95), the upper parts of the two second limiting rods (84) are respectively provided with the first connecting rod (92) in a sliding mode, the front sides of the first connecting rods (92) are respectively provided with the V-shaped rods (91) used for buffering the first arc-shaped clamping rods (72), the V-shaped rods (91) are respectively contacted with the two first arc-shaped clamping rods (72), a third spring (93) is connected between the V-shaped rods (91) and the second limiting rods (84) on the same side, the third springs (93) are respectively sleeved on the first connecting rods (92) on the same side, the left side and the right side of the supporting disc (82) are respectively provided with the first L-shaped connecting rods (94), the rear sides of the first L-shaped connecting rods (94) are respectively contacted with the first connecting rods (92) on the same side, and the right side of the supporting disc (82) are respectively provided with the U-shaped connecting rods (95);

the support assembly (10) is used for supporting the first arc-shaped clamping rods (72), the support assembly (10) comprises a second connecting rod (101), a connecting plate (102), limiting blocks (103) and fourth springs (104), brackets are arranged on the upper side and the lower side of each second limiting rod (84), the second connecting rods (101) used for supporting the first arc-shaped clamping rods (72) are arranged on the brackets in a sliding mode, the connecting plates (102) are arranged on the upper side and the lower side of each supporting plate (82), the limiting blocks (103) are arranged on the second connecting rods (101), the limiting blocks (103) are connected with the connecting plates (102) on the same side, and the fourth springs (104) are connected between the rear sides of the second connecting rods (101) and the brackets on the same side;

the device also comprises a pushing component (11) for preventing the lens marking position from shifting, the pushing component (11) comprises a first limiting plate (1101), a guide rail (1102), a third connecting rod (1103), a second L-shaped connecting rod (1104), a fourth connecting rod (1105), a T-shaped connecting rod (1106), a fifth spring (1107), a clamping plate (1108), a seventh spring (1109) and a sixth spring (1110), wherein the first limiting plate (1101) is arranged in the middle of the upper part of the front wall in the case (2), two guide rails (1102) are arranged on the lower side of the case (2), a third connecting rod (1103) is arranged between the guide rails (1102) in a sliding mode, two second L-shaped connecting rods (1104) are arranged on the front side of the upper part of the third connecting rod (1103), two fourth connecting rods (1105) are arranged on the second L-shaped connecting rod (1104), the front sides of the fourth connecting rod (1105) are all in contact with the first limiting plate (1101), a T-shaped connecting rod (1106) is arranged between the rear side of the fourth connecting rod (1104), a fifth spring (1106) is connected between the front side of the lower part of the case (1106) and the upper side of the second L-shaped connecting rod (1104), the fifth spring (1106) is arranged between the front side of the lower side of the fourth connecting rod (1107) and the fourth connecting rod (1107), the upper side of the fourth connecting rod (1106) is connected with the clamping plate (1107) in a sliding mode, the upper side of the fourth connecting rod (1106) is arranged between the upper side of the fourth connecting rod (1107), two sixth springs (1110) are connected between the front side of the lower part of the third connecting rod (1103) and the lower part of the inner front wall of the chassis (2), and the sixth springs (1110) are sleeved on the guide rails (1102) on the same side.

2. The wide-angle optical lens surface laser processing device as set forth in claim 1, further comprising a clamping assembly (12) for clamping the lens, wherein the clamping assembly (12) comprises a second limiting plate (1201), a push rod (1202), a second arc clamping rod (1203) and an eighth spring (1204), two second limiting plates (1201) are arranged in the chassis (2), the push rod (1202) is arranged on the upper portion of the third connecting rod (1103), the second arc clamping rods (1203) for clamping the lens are arranged on the left side and the right side of the push rod (1202) in a sliding mode, the lower sides of the second arc clamping rods (1203) are contacted with the second limiting plates (1201) on the same side, and the eighth spring (1204) is connected between the second arc clamping rods (1203) and the push rod (1202).

3. The wide-angle optical lens surface laser processing device as claimed in claim 2, further comprising a control component (13) for further reducing manual operation, wherein the control component (13) comprises a first limit rod (1301), a ninth spring (1302), a stay wire (1303) and a sliding block (1304), the left side and the right side of the lower side of the second L-shaped connecting rod (1104) are both provided with a first limit rod (1301) for limiting the T-shaped connecting rod (1106) in a sliding manner, the first limit rod (1301) is contacted with the lower side of the T-shaped connecting rod (1106), a ninth spring (1302) is connected between the first limit rod (1301) and the second L-shaped connecting rod (1104), two sliding blocks (1304) are arranged in the middle of the push rod (1202) in a sliding manner, and stay wires (1303) are connected between the sliding blocks (1304) and the first limit rod (1301) on the same side.