CN115256121A - Fine grinding process for optical lens - Google Patents

Abstract

The invention relates to the technical field of optical lenses, in particular to an optical lens fine grinding process, which is based on a processing device and comprises the following steps: the method comprises the following steps: selecting a processed lens; step two: according to the type of the lens, a proper grinding disc is needed, and the grinding disc is arranged in the processing device; step three: placing the lens in a processing device for fine grinding treatment; step four; after the polishing device is used, the lens is taken out, the processing device comprises a working box and a support frame fixed at the bottom of the working box, and a box opening is formed in the front side of the working box.

Description

Fine grinding process for optical lens

Technical Field

The invention relates to the technical field of optical lenses, in particular to an optical lens fine grinding process.

Background

The optical lens is made of optical glass, and is one of glass materials.

Chinese invention with publication number CN109227282A discloses an optical lens fine grinding and polishing device, which has the technical key points that: both ends are fixed with left branch fagging and right branch fagging respectively about the bottom plate, are connected with the roof between the top of left branch fagging and right branch fagging, and motor fixed mounting all is equipped with the connecting piece at both ends about the workstation on the lower terminal surface of roof, rotates on the connecting piece and is connected with the gyro wheel, the gyro wheel of the left and right sides respectively with the inner wall contact of left branch fagging and right branch fagging, be equipped with the actuating mechanism who is used for driving the workstation and goes up and down between bottom plate and the workstation. This optical lens piece correct grinding burnishing device drives pivot and threaded rod through rotating the turning handle and rotates, drives thread bush one and thread bush two and is close to each other or keeps away from, through the cooperation of connecting rod one, connecting seat, connecting rod two and gyro wheel, and then drives the workstation and rise or descend, with the optical lens piece on the recess and the contact of polishing dish, reach the purpose of polishing, work efficiency.

Although the device can be used for polishing through height adjustment, the device does not have the function of turning polishing, and meanwhile, the lens is placed by the placing groove, so that shaking is easy to occur during polishing, and the polishing effect is reduced.

Disclosure of Invention

The invention aims to provide an optical lens fine grinding process to solve the problems in the background technology.

The technical scheme of the invention is as follows: the fine grinding process of the optical lens is based on a processing device and specifically comprises the following steps of:

the method comprises the following steps: selecting a processed lens;

step two: according to the type of the lens, a proper grinding disc is needed, and the grinding disc is arranged in the processing device;

step three: placing the lens in a processing device for fine grinding treatment;

step four; after completion, the lens is removed.

Preferably, processingequipment includes the work box and fixes the support frame in the work box bottom, the front side of work box is opened and is equipped with the case mouth, there is the chamber door case mouth position department of work box through hinged joint, one side outer wall of chamber door has been seted up and has been placed the mouth, it has the observation window to place interior fixed mounting.

Preferably, be provided with clamping mechanism in the work box, clamping mechanism includes the rack, the equal fixed axis of rotation in left and right sides outer wall intermediate position department of rack, the rotation hole has all been seted up to the left and right sides outer wall of work box, the axis of rotation is installed in the rotation hole through the bearing, the upset subassembly that makes the rack carry out one hundred eighty degrees upset is installed to the bottom of support frame.

Preferably, the turnover assembly comprises a first electric telescopic rod, a toothed plate and a transmission gear, the first electric telescopic rod is fixed on the support frame, the toothed plate is fixed at the telescopic end of the first electric telescopic rod, the transmission gear is coaxially fixed with one of the rotating shafts, and the toothed plate is meshed with the transmission gear.

Preferably, the top of work box is installed the subassembly of polishing, round hole one has been seted up to the bottom of work box, install supporting component in the round hole one, another install the drive assembly that makes polishing subassembly and supporting component do synchronous being close to or keeping away from the motion in the axis of rotation.

Preferably, the polishing assembly comprises a movable plate, a second fixed cylinder, a hydraulic rod, a motor and a grinding disc fixed on an output shaft of the motor, guide holes are formed in four corners of the top of the movable plate, the guide rods are slidably mounted in the guide holes and fixed at the top of the working box, a second round hole is formed in the top of the working box, a mounting hole is formed in the top of the movable plate, the second fixed cylinder is fixed in the mounting hole, the second fixed cylinder is slidably mounted in the second round hole, the hydraulic rod is fixed at the top of the movable plate, the telescopic end of the hydraulic rod is fixed to the motor, and the motor is located the second fixed cylinder.

Preferably, the supporting component comprises a first fixed cylinder, a supporting column and an air suction component, the first fixed cylinder is fixed in the first round hole, the supporting column is slidably mounted in the first fixed cylinder, an air suction channel with an L-shaped track is formed in the supporting column, one end of the air suction channel penetrates out of the top of the supporting column, one end of the air suction channel penetrates out of one side of the supporting column, and an air suction hole is formed in one side of the first fixed cylinder.

Preferably, the air suction assembly comprises an air suction pump, an air suction end and an air outlet end of the air suction pump are respectively communicated with a first connecting pipe and a second connecting pipe, the air suction pump is fixed on the working box, and one end of the first connecting pipe is communicated with the air suction hole.

Preferably, the driving assembly comprises a cam disc, a fixed hole is formed in the center of the disc surface of the cam disc, the other rotating shaft is fixed in the fixed hole, an elliptical groove which is coaxial with the cam disc is formed in the disc surface of the cam disc, the driving assembly further comprises two moving strips which are respectively located on the upper side and the lower side of the cam disc, a guide block is slidably sleeved on the outer wall of each moving strip, the guide blocks are fixed on the working box, a cylindrical pin is rotatably installed on the outer wall of each moving strip, the cylindrical pin is slidably installed in the elliptical groove, and the two moving strips are respectively fixed to one side of the moving plate and the bottom of the supporting column.

Preferably, the rack is of a hollow structure, a positioning hole is formed in the center of the top of the rack, a circular ring table is fixed in the positioning hole, a rotating circular ring plate coaxially arranged with the circular ring table is installed on the outer wall of the circular ring table in a rotating mode, a telescopic assembly is installed on the outer wall of the rotating circular ring plate, a plurality of sliding grooves distributed equidistantly are formed in the outer wall of the circular ring table, a sliding hole is formed in one end of each sliding groove, a moving column is installed in each sliding hole in a sliding mode, a contact plate is fixed to one end, facing to the central shaft of the circular ring table, of each moving column, a fixing plate coaxially arranged with the corresponding moving column is fixed to the outer wall of each moving column, springs are sleeved on the outer wall of each moving column, two ends of each spring are in contact with the outer wall of the corresponding fixing plate and the inner wall of one end of each sliding groove respectively, a plurality of straight triangular grooves are formed in the inner side wall of the rotating circular ring plate, each telescopic assembly comprises a second electric telescopic rod, a first rotating block and a second rotating block are fixed to the two ends of the rack, and installed in the rotating groove respectively.

The invention provides an optical lens fine grinding process by improvement, compared with the prior art, the invention has the following improvements and advantages:

one is as follows: according to the invention, the turnover component is arranged, the first electric telescopic rod stretches to drive the toothed plate to move up and down, the toothed plate drives the transmission gear meshed with the toothed plate to rotate, and the transmission gear drives the placing rack to rotate through the rotating shaft fixed with the transmission gear, so that turnover is carried out by one hundred eighty degrees, and double-side polishing is carried out;

the second step is as follows: according to the invention, the driving assembly is arranged, when the cam disc rotates, the elliptic groove on the cam disc infers the two moving strips, and the two moving strip supporting columns and the moving plate infers each other, namely the polishing assembly and the supporting assembly are far away from each other, so that the placing frame is prevented from colliding with the polishing assembly and the supporting assembly when being turned over, and the turning process is ensured to be smooth;

and thirdly: according to the invention, the clamping mechanism is arranged, when the electric telescopic rod II is shortened, the rotating circular ring plate rotates, the inclined edge of the straight triangular groove on the rotating circular ring plate pushes the moving column to move inwards, and the spring is compressed until the contact plate on the moving column contacts the lens, so that the clamping mechanism can rapidly clamp the lens in the center;

fourthly, the method comprises the following steps: according to the invention, the supporting assembly is arranged, when one side end of the air suction channel is aligned with the air suction hole of the second fixing cylinder, the air suction pump sucks air through the first connecting pipe, and when the lens is placed on the supporting column, the lens is adsorbed on the supporting column through the air suction channel in a negative pressure mode, so that the lens is not easy to shake when being polished.

Drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a perspective view of the present invention from a first perspective;

FIG. 2 is a perspective view of the present invention from a second perspective;

FIG. 3 is a schematic internal perspective view of the present invention;

FIG. 4 is a side cross-sectional structural schematic view of the present invention;

FIG. 5 is a schematic perspective view of the clamping mechanism of the present invention;

FIG. 6 is a schematic view of the internal structure of the clamping mechanism of the present invention;

FIG. 7 is a top cross-sectional structural schematic view of the clamping mechanism of the present invention;

FIG. 8 is a process flow diagram of the present invention.

Description of reference numerals:

1. a work box; 2. a cam plate; 3. a moving bar; 4. a guide block; 5. a support frame; 6. moving the plate; 7. a guide bar; 8. a hydraulic lever; 9. a box door; 10. a transmission gear; 11. a toothed plate; 12. a first electric telescopic rod; 13. a first fixed cylinder; 14. a clamping mechanism; 141. placing a rack; 142. a rotating shaft; 143. a circular ring table; 144. rotating the circular plate; 145. a telescoping assembly; 146. a straight triangular groove; 147. a second electric telescopic rod; 148. rotating the first block; 149. rotating the second block; 1410. a rotating groove; 1411. moving the column; 1412. a fixing plate; 1413. a contact plate; 1414. a spring; 15. a support pillar; 16. a second fixed cylinder; 17. an air pump; 18. a first connecting pipe; 19. an air intake duct; 20. a second connecting pipe; 21. a grinding disc; 22. an electric motor.

Detailed Description

The present invention is described in detail below, and the technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides an optical lens fine grinding process through improvement, and the technical scheme of the invention is as follows:

as shown in fig. 8, a process for finishing an optical lens is based on a processing device, and specifically comprises the following steps:

the method comprises the following steps: selecting a processed lens;

step two: according to the type of the lens, a proper grinding disc is needed, and the grinding disc is arranged in the processing device;

step three: placing the lens in a processing device for fine grinding treatment;

step four; after completion, the lens is removed.

As shown in fig. 1-7, the processing device comprises a work box 1 and a support frame 5 fixed at the bottom of the work box 1, a box opening is formed in the front side of the work box 1, a box door 9 is connected to the position of the box opening of the work box 1 through a hinge, a placing opening is formed in the outer wall of one side of the box door 9, an observation window is fixedly installed in the placing opening, and the observation window is arranged to facilitate a worker to run through the inside work condition.

Further, be provided with the clamping mechanism 14 that is used for pressing from both sides tight lens in the work box 1, clamping mechanism 14 is including the rack 141 that is used for placing the lens, and the axis of rotation 142 is all fixed in rack 141's the left and right sides outer wall intermediate position department, and the rotation hole has all been seted up to the left and right sides outer wall of work box 1, and the axis of rotation 142 passes through the bearing to be installed in the rotation hole, and from this can know, rack 141 can rotate, and the upset subassembly that makes rack 141 carry out the upset of one hundred eighty degrees is installed to the bottom of support frame 5.

Further, the upset subassembly includes electric telescopic handle one 12, pinion rack 11 and drive gear 10, electric telescopic handle one 12 is fixed on support frame 5, pinion rack 11 is fixed and is served in the flexible of electric telescopic handle one 12, drive gear 10 is with one of them axis of rotation 142 coaxial fixed, pinion rack 11 meshes with drive gear 10 mutually, can know by above-mentioned relation of connection, electric telescopic handle one 12 stretches out and draws back and can drive pinion rack 11 and reciprocate, pinion rack 11 drives rather than the drive gear 10 of meshing and rotates, drive gear 10 drives the rack 141 through the axis of rotation 142 rather than fixed and rotates.

Further, the polishing assembly used for polishing the lenses is installed at the top of the working box 1, a first round hole is formed in the bottom of the working box 1, a supporting assembly used for supporting the lenses is installed in the first round hole, and a driving assembly used for enabling the polishing assembly and the supporting assembly to be close to or far away from synchronously is installed on the other rotating shaft 142.

Further, the polishing assembly comprises a movable plate 6, a second fixed cylinder 16, a hydraulic rod 8, a motor 22 and a grinding disc 21 fixed on an output shaft of the motor 22, guide holes are formed in four corners of the top of the movable plate 6, guide rods 7 are slidably mounted in the guide holes, the guide rods 7 are fixed at the top of the working box 1, therefore, the whole movable plate 6 can move up and down linearly, a second round hole is formed in the top of the working box 1, mounting holes are formed in the top of the movable plate 6, the second fixed cylinder 16 is fixed in the mounting holes, therefore, the second fixed cylinder 16 plays a role in guiding, the second fixed cylinder 16 is slidably mounted in the second round hole, the hydraulic rod 8 is fixed at the top of the movable plate 6, the telescopic end of the hydraulic rod 8 is fixed to the motor 22, the motor 22 is located in the second fixed cylinder 16, and the connection relation can be known, and the height of the hydraulic rod 8 can be adjusted in a telescopic mode.

Further, the supporting assembly comprises a first fixing cylinder 13, a supporting column 15 and an air suction assembly, the first fixing cylinder 13 is fixed in the first circular hole, the supporting column 15 is slidably installed in the first fixing cylinder 13, an air suction channel 19 in an L-shaped track is formed in the supporting column 15, one end of the air suction channel 19 penetrates out of the top of the supporting column 15, one end of the air suction channel 19 penetrates out of one side of the supporting column 15, an air suction hole is formed in one side of the first fixing cylinder 13, the air suction assembly comprises an air suction pump 17, an air suction end and an air outlet end of the air suction pump 17 are respectively communicated with a first connecting pipe 18 and a second connecting pipe 20, the air suction pump 17 is fixed on the working box 1, one end of the first connecting pipe 18 is communicated with the air suction hole, and according to the connection relationship, when one side end of the air suction channel 19 is aligned with the air suction hole of the second fixing cylinder 16, the air suction pump 17 sucks air through the first connecting pipe 18, when the lens is placed on the supporting column 15, the air suction channel 19 adsorbs the lens to the supporting column 15 in a negative pressure mode, and the lens is not prone to shake when the lens is polished.

Further, the driving assembly comprises a cam disc 2, a fixed hole is formed in the center of the disc surface of the cam disc 2, the other rotating shaft 142 is fixed in the fixed hole, an elliptical groove is formed in the disc surface of the cam disc 2 and is coaxial with the cam disc 2, the driving assembly further comprises two moving strips 3 which are respectively located on the upper side and the lower side of the cam disc 2, guide blocks 4 are slidably sleeved on the outer walls of the moving strips 3, the guide blocks 4 are fixed on the working box 1, cylindrical pins are rotatably installed on the outer walls of the moving strips 3 and are slidably installed in the elliptical grooves, the two moving strips 3 are respectively fixed with one side of the moving plate 6 and the bottoms of the support columns 15, and when the cam disc 2 rotates, the two moving strips 3 are inferred by the elliptical grooves in the cam disc 2, the two support columns 3 and the moving plate 6 are inferred, namely the grinding assembly and the support assemblies are far away from each other, collision between the grinding assembly and the support assemblies when the placing frame 141 is turned is prevented, and smoothness of the turning process is ensured.

Further, the placing rack 141 is of a hollow structure, a positioning hole is formed in the center of the top of the placing rack 141, a circular ring table 143 is fixed in the positioning hole, a rotating circular ring plate 144 which is coaxial with the circular ring table 143 is rotatably mounted on the outer wall of the circular ring table 143, a telescopic assembly 145 is mounted on the outer wall of the rotating circular ring plate 144, a plurality of sliding grooves which are distributed at equal intervals are formed in the outer wall of the circular ring table 143, a sliding hole is formed in the inner wall of one end of each sliding groove, a moving column 1411 is slidably mounted in each sliding hole, a contact plate 1413 is fixed on one end, facing the central axis of the circular ring table 143, of each moving column 1411, a fixing plate 1412 which is coaxial with the moving column 1411 is fixed on the outer wall of the moving column 1411, a spring 1414 is sleeved on the outer wall of the moving column 1411, and two ends of the spring 1414 are respectively in contact with the outer wall of the fixing plate 1412 and the inner wall of one end of each sliding groove, the inner side wall of the rotating circular plate 144 is provided with a plurality of straight triangular grooves 146, the telescopic assembly 145 comprises a second electric telescopic rod 147, two ends of the second electric telescopic rod 147 are respectively fixed with a first rotating block 148 and a second rotating block 149, the second rotating block 149 is rotatably installed in the placing frame 141, the outer circumferential wall of the rotating circular plate 144 is provided with a rotating groove 1410, the first rotating block 148 is rotatably installed in the rotating groove 1410, and according to the connection relation shown in fig. 6 and 7, when the second electric telescopic rod 147 is shortened, the rotating circular plate 144 rotates, the inclined edge of the straight triangular groove 146 on the rotating circular plate 144 pushes the moving column 1411 to move inwards, the spring 1414 is compressed until the contact plate 1413 on the moving column 1411 contacts with the lens, and therefore, the clamping mechanism 14 can rapidly clamp the lens at the center.

The working principle is as follows: placing the lens on the supporting column 15, starting the air suction pump 17, sucking the lens by the air suction channel 19 through the connecting pipe I18 by the air suction channel 19, when the lens is placed on the supporting column 15, sucking the lens on the supporting column 15 by the air suction channel 19 in a negative pressure mode, then shortening the electric telescopic rod II 147, rotating the rotary circular plate 144, pushing the moving column 1411 to move inwards by the bevel edge of the straight triangular groove 146 on the rotary circular plate 144, compressing the spring 1414 until the contact plate 1413 on the moving column 1411 contacts the lens, enabling the grinding disc 21 in the grinding assembly to be in contact with the mirror surface, rotating the grinding disc 21 by the motor 22, then starting grinding, after grinding is finished, moving the toothed plate 11 up and down by the electric telescopic rod I12, rotating the toothed plate 11 and the transmission gear 10 engaged with the toothed plate 11, rotating the placing frame 141 by the rotating shaft 142 fixed with the transmission gear 10, simultaneously when the cam plate 2 rotates, reasoning the oval groove on the cam plate 2 to mutually two moving reasoning strips 3, mutually two moving strips 3 supporting columns 15 and 6, namely, the grinding assembly and the supporting assembly are mutually away from each other side, and grinding is finished.

The previous description is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An optical lens fine grinding process is characterized in that: the optical lens fine grinding process is based on a processing device and specifically comprises the following steps:

the method comprises the following steps: selecting a processed lens;

step two: according to the type of the lens, a proper grinding disc is needed, and the grinding disc is arranged in the processing device;

step three: placing the lens in a processing device for fine grinding treatment;

step four; after completion, the lens is removed.

2. An optical lens finishing process according to claim 1, wherein: the processing device comprises a working box (1) and a supporting frame (5) fixed to the bottom of the working box (1), a box opening is formed in the front side of the working box (1), a box door (9) is connected to the position of the box opening of the working box (1) through a hinge, a placing opening is formed in the outer wall of one side of the box door (9), and an observation window is fixedly mounted in the placing opening.

3. An optical lens finishing process according to claim 2, wherein: be provided with clamping mechanism (14) in work box (1), clamping mechanism (14) include rack (141), the equal fixed axis of rotation (142) of left and right sides outer wall intermediate position department of rack (141), the rotation hole has all been seted up to the left and right sides outer wall of work box (1), axis of rotation (142) are installed at the rotation downthehole through the bearing, the upset subassembly that makes rack (141) carry out one hundred eighty degrees upset is installed to the bottom of support frame (5).

4. An optical lens finishing process according to claim 3, wherein: the turnover assembly comprises a first electric telescopic rod (12), a toothed plate (11) and a transmission gear (10), the first electric telescopic rod (12) is fixed on the support frame (5), the toothed plate (11) is fixed on the telescopic end of the first electric telescopic rod (12), the transmission gear (10) is coaxially fixed with one of the rotating shafts (142), and the toothed plate (11) is meshed with the transmission gear (10).

5. An optical lens finishing process according to claim 3, wherein: the polishing assembly is installed at the top of the working box (1), a first round hole is formed in the bottom of the working box (1), a supporting assembly is installed in the first round hole, and a driving assembly enabling the polishing assembly and the supporting assembly to be close to or far away from moving synchronously is installed on the rotating shaft (142).

6. An optical lens finishing process according to claim 5, wherein: the polishing assembly comprises a movable plate (6), two fixed cylinders (16), a hydraulic rod (8), a motor (22) and a grinding disc (21) fixed on an output shaft of the motor (22), guide holes are formed in four corners of the top of the movable plate (6), guide rods (7) are slidably mounted in the guide holes, the guide rods (7) are fixed at the top of a working box (1), two round holes are formed in the top of the working box (1), mounting holes are formed in the top of the movable plate (6), the two fixed cylinders (16) are fixed in the mounting holes, the two fixed cylinders (16) are slidably mounted in the two round holes, the hydraulic rod (8) is fixed at the top of the movable plate (6), the telescopic ends of the hydraulic rod (8) are fixed with the motor (22), and the motor (22) is located in the two fixed cylinders (16).

7. An optical lens finishing process according to claim 6, wherein: the supporting component comprises a first fixed cylinder (13), a supporting column (15) and an air suction component, the first fixed cylinder (13) is fixed in a first round hole, the supporting column (15) is slidably mounted in the first fixed cylinder (13), an air suction channel (19) with an L-shaped track is formed in the supporting column (15), one end of the air suction channel (19) penetrates out of the top of the supporting column (15), one end of the air suction channel (19) penetrates out of one side of the supporting column (15), and an air suction hole is formed in one side of the first fixed cylinder (13).

8. An optical lens finishing process according to claim 7, wherein: the air suction assembly comprises an air suction pump (17), an air suction end and an air outlet end of the air suction pump (17) are respectively communicated with a first connecting pipe (18) and a second connecting pipe (20), the air suction pump (17) is fixed on the working box (1), and one end of the first connecting pipe (18) is communicated with an air suction hole.

9. An optical lens finishing process according to claim 8, wherein: the driving assembly comprises a cam disc (2), a fixed hole is formed in the center of the disc face of the cam disc (2), the other rotating shaft (142) is fixed in the fixed hole, an elliptical groove which is coaxial with the cam disc (2) is formed in the disc face of the cam disc (2), the driving assembly further comprises two moving strips (3) which are respectively located on the upper side and the lower side of the cam disc (2), a guide block (4) is sleeved on the outer wall of each moving strip (3) in a sliding mode, the guide block (4) is fixed on a working box (1), a cylindrical pin is installed on the outer wall of each moving strip (3) in a rotating mode and is installed in the elliptical groove in a sliding mode, and the two moving strips (3) are respectively fixed to one side of a moving plate (6) and the bottom of a support column (15).

10. An optical lens finishing process according to claim 3, wherein: the rack (141) is of a hollow structure, a positioning hole is formed in the center of the top of the rack (141), a circular ring table (143) is fixed in the positioning hole, a rotating circular ring plate (144) coaxially arranged with the circular ring table (143) is rotatably arranged on the outer wall of the circular ring table (143), a telescopic assembly (145) is arranged on the outer wall of the rotating circular ring plate (144), a plurality of sliding grooves distributed at equal intervals are formed in the outer wall of the circular ring table (143), a sliding hole is formed in the inner wall of one end of each sliding groove, a moving column (1411) is slidably arranged in each sliding hole, a contact plate (1413) is fixed at one end, facing the central shaft of the circular ring table (143), of each moving column (1411), a fixing plate (1412) coaxially arranged with the corresponding to the corresponding sliding groove is fixed on the outer wall of the corresponding moving column (1411), a spring (1414) is sleeved on the outer wall of the corresponding moving column (1411), two ends of the spring (1411) are respectively contacted with the outer wall of the fixing plate (1412) and the inner wall of one end of the corresponding sliding groove, a plurality of straight triangular grooves (146) are formed in the rotating circular ring plate (144), the telescopic assembly (145) comprises two rotating blocks (147), two rotating blocks (147) which are respectively fixed on the inner wall of the rotating circular ring table (1410), two rotating block (148), and two rotating blocks (1410) which are respectively arranged in the rotating telescopic rod (1410), and two rotating block (1410) which are arranged in the rotating block (148), the first rotating block (148) is rotatably arranged in the rotating groove (1410).

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