CN211941102U - Small lens processingequipment based on diamond cutting technology - Google Patents

Abstract

The utility model provides a tiny lens processing device based on diamond cutting technology, which comprises a first Z-shaped plate and a second Z-shaped plate, wherein the right side edge position of the upper end of the first Z-shaped plate is provided with a bottom plate, the left side edge position of the upper end of the first Z-shaped plate is rotationally connected with a first screw rod, the annular outer side of the first screw rod is in threaded connection with a first nut and the first nut is fixed at the left side edge position of the upper end of the second Z-shaped plate, the first screw rod penetrates through the second Z-shaped plate and is connected with the first Z-shaped plate, the right side edge position of the upper end of the second Z-shaped plate is provided with a second screw rod, the lower end of the second screw rod penetrates through the second Z-shaped plate and is fixedly connected with a splint, the bottom plate is arranged at the right side of the splint, the annular outer side of the second screw rod is in threaded connection, thereby clamping the glued lens with different thicknesses and increasing the application range.

Description

Small lens processingequipment based on diamond cutting technology

Technical Field

The utility model relates to a small lens processingequipment based on diamond cutting technology belongs to lens processing technology field.

Background

The lenses are also called lens cores which are mounted painting cores and are suitable for being clamped in a picture frame, so that the lens cores are called, the lens classification modes are various, the lenses can be classified according to the materials, functions, curved surface treatment processes and the like of the lenses, the lenses can be mainly divided into glass lenses, resin lenses, PC lenses and the like, small lenses are required to be utilized in certain ranges, the small lenses are difficult to process due to small size, a plurality of lenses are required to be glued and then cut, the production is convenient, but after different numbers of lenses are glued, the produced thicknesses are different, different clamping tools are required frequently, the application range is poor, and a small lens processing device based on a diamond cutting process is required to be designed to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a small lens processingequipment based on diamond cutting technology to solve but the lens veneer of different quantity that proposes in the above-mentioned background art after, the thickness diverse of production often needs different clamping tool, the poor problem of application range, the utility model discloses realize position about the adjustment splint, increase application range.

In order to achieve the above purpose, the present invention is realized by the following technical solution: a tiny lens processing device based on a diamond cutting process comprises a bottom box, wherein an electric push rod is fixedly connected to the right side inside the bottom box, a piston rod of the electric push rod is fixedly connected with a U-shaped mounting plate, a first motor is fixedly connected to the inside of the U-shaped mounting plate, an output shaft of the first motor is fixedly connected with a cutting knife, the cutting knife is located on the left side of the U-shaped mounting plate, the cutting knife, the U-shaped mounting plate and the first motor are arranged inside the bottom box, a through groove is formed in the right side of the upper end of the bottom box, the cutting knife, the U-shaped mounting plate and the first motor are arranged on the right side of the through groove, a clamping assembly is rotatably connected to the left side of the upper end of the bottom box and located on the left side of the through groove, the clamping assembly comprises a first Z-shaped plate rotatably connected to the left side, first Z template upper end left side border position rotates connects first screw rod, first screw rod annular outside threaded connection first nut and first nut are fixed at second Z template upper end left side border position, first screw rod runs through second Z template and is connected with first Z template, second Z template upper end right side border position sets up the second screw rod, second Z template and fixed connection splint are run through to second screw rod lower extreme, the positive downside of splint sets up the bottom plate, second screw rod annular outside threaded connection second nut and second nut are fixed at second Z template upper end right side border position.

Furthermore, a box door is arranged at the front end of the bottom box.

Further, lead to the groove right-hand member and set up push pedal and extend into to lead to the inslot, the equal fixed connection draw runner in both ends around the push pedal, lead to the inslot around both walls all set up spout and set up on the under casing, spout and draw runner sliding connection.

Furthermore, two guide rods are fixedly connected to the left side of the upper end of the first Z-shaped plate and located on the left side and the right side of the first screw rod, the two guide rods penetrate through the second Z-shaped plate, and the two guide rods are arranged on the left side of the vertical portion of the second Z-shaped plate.

Furthermore, a first protection pad is bonded at the upper end of the bottom plate, and a second protection pad is bonded at the lower end of the clamping plate.

Furthermore, a connecting stud is fixed in the middle of the lower end of the bottom plate, a sleeve is fixedly connected to the right side of the upper end of the first Z-shaped plate, and the stud is connected with the sleeve through internal threads.

Furthermore, the right-angle positions of the first Z-shaped plate and the second Z-shaped plate are fixedly connected with the reinforcing plate.

Further, inside back wall upside fixed connection second motor of under casing, the output shaft fixed connection reduction gear and the reduction gear of second motor are fixed at the inside top rear side of under casing, the output shaft fixed connection worm and the worm of reduction gear are passed through the bearing frame with the inside top of under casing and are connected, worm right-hand member meshing worm wheel and worm wheel are in logical groove left side, worm wheel upper end intermediate position fixed mounting connecting axle, the connecting axle rotates to be connected at the inside top of under casing and extends the first Z template of under casing upside and fixed connection.

Furthermore, the upper end of the bottom box is provided with a ring graduated scale, the ring graduated scale is located on the annular outer side of the connecting shaft, and the ring graduated scale is arranged at the edge position of the right side of the lower end of the first Z-shaped plate.

Furthermore, an arc-shaped groove is formed in the left side of the upper end of the bottom box and is located on the left side of the through groove, and a sliding block is fixedly connected to the middle of the lower end of the first Z-shaped plate and is connected to the inside of the arc-shaped groove in a sliding mode.

The utility model has the advantages that: the utility model discloses a small lens processingequipment based on diamond cutting technology.

1. Glue the multi-disc lens together, utilize the centre gripping subassembly to fasten the lens after will gluing again, and utilize first motor to make the cutting knife rotatory, recycle electric putter makes rotatory cutting knife rebound, then realize cutting tight veneer back lens, coupling thermal stress effect through the cooperation cutting effectively improves the anti limit ability that collapses that surely goes out the position, and the cutting knife is cutter for the diamond cutting in addition, is favorable to disposable cutting multilayer lens, and guarantees the quality of lens cutting.

2. Utilize first screw rod to make second Z template reciprocate to drive second screw rod and splint and reciprocate suitable position, realize adjusting splint upper and lower position, thereby press from both sides tightly the increase application range to the veneer back lens of different thickness.

3. Can make reduction gear work through the second motor, and then drive the worm and slowly rotate, can make the worm wheel rotate, and then drive the connecting axle and rotate to drive the centre gripping subassembly and rotate, realize the angle of the veneer back lens of adjustment centre gripping, the processing of being convenient for.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of a micro lens processing device based on a diamond cutting process of the present invention;

FIG. 2 is a cross-sectional view of a micro lens processing device based on diamond cutting process of the present invention;

fig. 3 is a schematic view of the clamping assembly in the small lens processing device based on the diamond cutting process of the present invention.

In the figure: 1-clamping component, 2-bottom box 2, 3-through groove, 4-first motor, 5-U-shaped mounting plate, 6-cutting knife, 7-electric push rod, 11-first screw, 12-first nut, 13-first Z-shaped plate, 14-bottom plate, 15-clamping plate, 16-second Z-shaped plate, 17-second nut, 18-second screw, 21-box door, 22-push plate, 23-arc groove, 101-connecting shaft, 102-worm wheel, 103-speed reducer, 104-worm, 105-second motor, 111-guide rod, 141-first protection pad, 142-stud, 143-sleeve, 151-second protection pad, 221-slide bar and 222-sliding groove.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a small lens processingequipment based on diamond cutting technology, including the under casing 2, the inside right side fixed connection electric putter 7 of under casing 2, electric putter 7's piston rod fixed connection U type mounting panel 5, the first motor 4 of the inside fixed connection of U type mounting panel 5, output shaft fixed connection cutting knife 6 and cutting knife 6 of first motor 4 are in U type mounting panel 5 left side, 2 inside cutting knife 6 that set up of under casing, U type mounting panel 5 and first motor 4, 2 upper end right sides of under casing are seted up logical groove 3 and are led to 3 under the side and set up cutting knife 6, U type mounting panel 5 and first motor 4, 2 upper end left sides of under casing are rotated and are connected centre gripping subassembly 1 and centre gripping subassembly 1 department and lead to 3 left sides in logical groove.

Specifically, firstly, the electric push rod 7 and the first motor 4 are connected with an external power supply, a plurality of lenses are glued together, then the glued lenses are fastened by the clamping component 1, then the first motor 4 is started through the controller, the first motor 4 works to enable the cutting knife 6 to rotate, then the electric push rod 7 is started through the controller, the electric push rod 7 works to enable the piston rod to move upwards, further the U-shaped mounting plate 5 moves upwards, further the first motor 4 is driven to move upwards, further the rotating cutting knife 6 moves upwards from the through groove 3, further the clamped glued lenses are cut, the anti-edge collapse capability of the cut part is effectively improved through the coupling thermal stress effect of the cutting, in addition, the cutting knife 6 is a cutter for diamond cutting, and is favorable for cutting a plurality of layers of lenses at one time, and ensure the quality of lens cutting.

The clamping assembly 1 comprises a first Z-shaped plate 13 rotatably connected to the left side of the upper end of the bottom box 2 and a second Z-shaped plate 16 arranged right above the first Z-shaped plate 13, a bottom plate 14 is arranged at the edge position of the right side of the upper end of the first Z-shaped plate 13, a first screw 11 is rotatably connected to the edge position of the left side of the upper end of the first Z-shaped plate 13, a first nut 12 and a first nut 12 are connected to the annular outer side of the first screw 11 in a threaded manner and fixed at the edge position of the left side of the upper end of the second Z-shaped plate 16, the first screw 11 penetrates through the second Z-shaped plate 16 and is connected with the first Z-shaped plate 13, a second screw 18 is arranged at the edge position of the right side of the upper end of the second Z-shaped plate 16, the lower end of the second screw 18 penetrates through the second Z-shaped plate 16 and is fixedly connected with a clamping plate 15, the bottom plate.

Specifically, can rotate first screw rod 11, because of first screw rod 11 and first nut 12 threaded connection, so first screw rod 11 rotates and can make first nut 12 reciprocate along first screw rod 11, and then drive second Z template 16 and reciprocate, thereby drive second screw rod 18 and splint 15 and reciprocate suitable position, realize adjusting splint 15 upper and lower position, thereby press from both sides tightly the glued back lens of different thickness, increase application range, place the glued back lens again on bottom plate 14, the glued back lens is in splint 15 downside this moment, rotate second screw rod 18 again, because of second screw rod 18 and second nut 17 threaded connection, so second screw rod 18 rotates and can make second screw rod 18 remove downwards, and then drive splint 15 remove downwards, thereby press from both sides tightly the glued back lens at splint 15 and bottom plate 14.

The front end of the bottom box 2 is provided with a box door 21, and particularly, the maintenance is convenient.

Lead to groove 3 right-hand member and set up inside push pedal 22 and push pedal 22 extend into logical groove 3, the equal fixed connection draw runner 221 in both ends around push pedal 22, lead to groove 3 inside around two walls all set up spout 222 and set up on under casing 2, spout 222 and draw runner 221 sliding connection, specifically, can utilize push pedal 22 to seal logical groove 3.

Two guide rods 111 and two guide rods 111 are in the first screw rod 11 left and right sides of first Z template 13 upper end left side fixed connection, and two guide rods 111 all run through second Z template 16, and two guide rods 111 all set up in the vertical portion left side of second Z template 16, specifically, at second Z template 16 removal in-process, the function of leading is realized in the design of guide rod 111.

The upper end of the bottom plate 14 is adhered with a first protection pad 141, and the lower end of the clamping plate 15 is adhered with a second protection pad 151, in particular, the glued lens can be protected.

The middle position of the lower end of the bottom plate 14 is fixedly connected with a stud 142, the right side of the upper end of the first Z-shaped plate 13 is fixedly connected with a sleeve 143, and the sleeve 143 is internally threaded with the stud 142, so that the bottom plate 14 is convenient to disassemble and assemble.

The right angle positions of the first Z-shaped plate 13 and the second Z-shaped plate 16 are both fixedly connected with reinforcing plates, and particularly, the strength of the first Z-shaped plate 13 and the strength of the second Z-shaped plate 16 are increased.

The upper side of the rear wall inside the bottom box 2 is fixedly connected with a second motor 105, the output shaft of the second motor 105 is fixedly connected with a speed reducer 103, the speed reducer 103 is fixed at the rear side of the top end inside the bottom box 2, the output shaft of the speed reducer 103 is fixedly connected with a worm 104, the worm 104 is connected with the top end inside the bottom box 2 through a bearing seat, the right end of the worm 104 is meshed with a worm wheel 102, the worm wheel 102 is positioned at the left side of the through groove 3, a connecting shaft 101 is fixedly installed at the middle position of the upper end of the worm wheel 102, the connecting shaft 101 is rotatably connected with the top end inside the bottom box 2 and extends out of the upper side of the bottom box 2 and is fixedly connected with a first Z-shaped plate 13, specifically, the speed reducer 103 can work through the second motor 105 and further drives the worm 104 to slowly rotate, as the worm 104 is meshed with the, is convenient for processing.

2 upper ends of the bottom boxes are provided with ring graduated scales which are positioned on the outer side of the ring of the connecting shaft 101, and the ring graduated scales are arranged at the edge position of the right side of the lower end of the first Z-shaped plate 13, so that the angle of adjustment can be observed conveniently.

Arc wall 23 and arc wall 23 are seted up on 2 upper ends of bottom boxes left sides and are in logical groove 3 left sides, and first Z template 13 lower extreme intermediate position fixed connection slider and slider sliding connection can make the slider remove along arc wall 23 in the arc wall 23 specifically, rotate the in-process at centre gripping subassembly 1, realize the direction function.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A tiny lens processingequipment based on diamond cutting technology which characterized in that: the device comprises a bottom box (2), wherein an electric push rod (7) is fixedly connected to the right side inside the bottom box (2), a piston rod of the electric push rod (7) is fixedly connected with a U-shaped mounting plate (5), a first motor (4) is fixedly connected to the inside of the U-shaped mounting plate (5), an output shaft of the first motor (4) is fixedly connected with a cutting knife (6), the cutting knife (6) is located on the left side of the U-shaped mounting plate (5), the cutting knife (6), the U-shaped mounting plate (5) and the first motor (4) are arranged inside the bottom box (2), a through groove (3) is formed in the right side of the upper end of the bottom box (2), the cutting knife (6), the U-shaped mounting plate (5) and the first motor (4) are arranged right below the through groove (3), a clamping assembly (1) is rotatably connected to the left side of the upper end of the;

the clamping assembly (1) comprises a first Z-shaped plate (13) rotatably connected with the left side of the upper end of the bottom box (2) and a second Z-shaped plate (16) arranged right above the first Z-shaped plate (13), a bottom plate (14) is arranged at the right side edge position of the upper end of the first Z-shaped plate (13), a first screw (11) is rotatably connected with the left side edge position of the upper end of the first Z-shaped plate (13), the annular outer side of the first screw (11) is in threaded connection with a first nut (12), the first nut (12) is fixed at the left side edge position of the upper end of the second Z-shaped plate (16), the first screw (11) penetrates through the second Z-shaped plate (16) and is connected with the first Z-shaped plate (13), a second screw (18) is arranged at the right side edge position of the upper end of the second Z-shaped plate (16), the lower end of the second screw (18) penetrates through the second Z-shaped plate, bottom plate (14) are arranged on the right lower side of clamping plate (15), and second screw (18) is in annular outer side threaded connection with second nut (17) and second nut (17) is fixed at the edge position of the right side of the upper end of second Z-shaped plate (16).

2. A micro-lens processing device based on diamond cutting process as claimed in claim 1, wherein: the front end of the bottom box (2) is provided with a box door (21).

3. A micro-lens processing device based on diamond cutting process as claimed in claim 1, wherein: lead to groove (3) right-hand member and set up push pedal (22) and extend into to lead to inside groove (3), equal fixed connection draw runner (221) in both ends around push pedal (22), lead to groove (3) inside around two walls all set up spout (222) and set up on under casing (2), spout (222) and draw runner (221) sliding connection.

4. A micro-lens processing device based on diamond cutting process as claimed in claim 1, wherein: two guide rods (111) are fixedly connected to the left side of the upper end of the first Z-shaped plate (13), the two guide rods (111) are located on the left side and the right side of the first screw rod (11), the two guide rods (111) penetrate through the second Z-shaped plate (16), and the two guide rods (111) are arranged on the left side of the vertical portion of the second Z-shaped plate (16).

5. A micro-lens processing device based on diamond cutting process as claimed in claim 1, wherein: the upper end of the bottom plate (14) is bonded with a first protection pad (141), and the lower end of the clamping plate (15) is bonded with a second protection pad (151).

6. A micro-lens processing device based on diamond cutting process as claimed in claim 1, wherein: the middle position of the lower end of the bottom plate (14) is fixedly connected with a stud (142), the right side of the upper end of the first Z-shaped plate (13) is fixedly connected with a sleeve (143), and the sleeve (143) is connected with the stud (142) through internal threads.

7. A micro-lens processing device based on diamond cutting process as claimed in claim 1, wherein: the right-angle positions of the first Z-shaped plate (13) and the second Z-shaped plate (16) are fixedly connected with a reinforcing plate.

8. A micro-lens processing device based on diamond cutting process as claimed in claim 1, wherein: inside back wall upside fixed connection second motor (105) of under casing (2), output shaft fixed connection reduction gear (103) and reduction gear (103) of second motor (105) are fixed at the inside top rear side of under casing (2), output shaft fixed connection worm (104) and worm (104) of reduction gear (103) are connected through the bearing frame with the inside top of under casing (2), worm (104) right-hand member meshing worm wheel (102) and worm wheel (102) are in logical groove (3) left side, worm wheel (102) upper end intermediate position fixed mounting connecting axle (101), connecting axle (101) rotate to be connected at the inside top of under casing (2) and extend under casing (2) upside and fixed connection first Z template (13).

9. A micro-lens processing device based on diamond cutting process as claimed in claim 1, wherein: the upper end of the bottom box (2) is provided with a ring graduated scale, the ring graduated scale is positioned on the outer side of the ring of the connecting shaft (101), and the ring graduated scale is arranged at the edge position of the right side of the lower end of the first Z-shaped plate (13).

10. A micro-lens processing device based on diamond cutting process as claimed in claim 1, wherein: an arc-shaped groove (23) is formed in the left side of the upper end of the bottom box (2), the arc-shaped groove (23) is located in the left side of the through groove (3), and a sliding block is fixedly connected to the middle of the lower end of the first Z-shaped plate (13) and is connected to the arc-shaped groove (23) in a sliding mode.

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