CN211569405U - Stand carries desk-top wrist-watch glass lens turn-over machine - Google Patents

Abstract

The utility model discloses a stand carries desk-top watch glass lens turn-over machine, which comprises a motor, drive mechanism, the swivel mount, column microscope carrier A, the flexible subassembly A of level, drive arrangement A, column microscope carrier B, the flexible subassembly B of level and drive arrangement B, during the turn-over, flexible subassembly A and flexible subassembly B are in the contraction state, column microscope carrier A and column microscope carrier B are corresponding from top to bottom, elevating gear drives column microscope carrier B and shifts up, until watch glass lens by vacuum adsorption to column microscope carrier A's terminal surface, the swivel mount drives column microscope carrier A and column microscope carrier B is rotatory 180, watch glass lens is turned over to column microscope carrier A by column microscope carrier B on. This patent is to a turn-over machine of wrist-watch glass lens special design, can conveniently realize the purpose of turn-over fast, especially is fit for using on intermittent type formula carousel, is fit for being applied to serialization detection operation.

Description

Stand carries desk-top wrist-watch glass lens turn-over machine

Technical Field

The utility model relates to a wrist-watch check out test set, concretely relates to wrist-watch glass lens check out test set.

Background

In the prior art, although a sucker and other parts are used for turning over the glass, the glass turning device is not suitable for turning over the glass of a watch, for example, a glass turning device with publication number CN 203079316U with publication number of 24/07/2013. A glass turning device, including sucking disc, sucking disc cylinder, sucking disc support, pivot, tensile cylinder and support frame, the sucking disc is located the bottom surface of sucking disc support, sucking disc cylinder control sucking disc is fixed on the sucking disc support, the one end of sucking disc support is passed through the pivot links to each other with the support frame, tensile cylinder sets up on the support frame and the piston rod of tensile cylinder connects the sucking disc support, drives the sucking disc support is rotated to vertical position glass piece turn-over device round the pivot by horizontal position. The above patent is mainly applied to a glass plate with a large size, is not suitable for turning over a watch glass lens, and is not suitable for being used on a watch glass lens detector, and the patent adopts a single-carrier overturning mode, although a glass plate which is rotated from a horizontal position to a vertical position around a rotating shaft is also used, the direction of a detection head of the watch glass lens detector faces to one direction when the glass plate is at the vertical position, so that the detection can be carried out only in one direction, the front side of the glass plate of the patent is horizontal, the back side of the glass plate of the patent is vertical, and the glass plate faces to two directions, so the glass plate is not suitable for being used on the watch glass lens detector, and a device which is specially used for turning over the watch glass lens needs to be developed.

In the prior art, a turnover device for automatic glass detection is also disclosed, for example, the patent document with application number CN201510702903 is disclosed by the national intellectual property office after search and discovery, the patent document comprises a base, a supporting rod is arranged on the base, a rotating shaft is arranged on the supporting rod, one end of the rotating shaft is fixedly connected with a sliding device, the upper end and the lower end of the sliding device are both connected with a first fixing device in a sliding mode, the first fixing device comprises a first cover plate and a first clamping seat, a first clamping groove is formed in the upper end of the first clamping seat, a first steel pipe is fixedly connected between the first cover plate and the first clamping groove, a right-angle connecting piece is arranged on the first steel pipe, a second steel pipe is arranged at one end of the right-angle connecting piece and is vertically distributed with the first steel pipe, a first protruding portion is arranged at the lower end of the first clamping seat, a second clamping groove is formed by the first protruding portion and the bottom surface; the second steel pipe is provided with a second fixing device, the second fixing device comprises a second cover plate and a second clamping seat, a third clamping groove is formed in the upper end of the second clamping seat, the second steel pipe is fixedly connected between the second cover plate and the third clamping groove, a second protruding portion is arranged at the lower end of the second clamping seat, a fourth clamping groove is formed between the second protruding portion and the bottom surface of the second clamping seat, and the side face of the turnover working panel is arranged in the fourth clamping groove. The structure of above-mentioned patent is complicated, and is with high costs, inconvenient maintenance.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects, the utility model aims to provide a stand column table-carrying type watch glass lens turnover machine which is specially designed for continuous watch glass lens detection.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

the upright post type watch glass lens turnover machine comprises a motor, a transmission mechanism, a rotating frame, an upright post type carrying platform A, a horizontal telescopic assembly A, a driving device A, an upright post type carrying platform B, a horizontal telescopic assembly B and a driving device B, wherein the upright post type carrying platform A, the horizontal telescopic assembly A and the driving device A are arranged on the upper portion of the rotating frame, the upright post type carrying platform A is arranged on the horizontal telescopic assembly A, the driving device A drives the upright post type carrying platform A to move horizontally through the horizontal telescopic assembly A, the upright post type carrying platform B, the horizontal telescopic assembly B and the driving device B are arranged on the lower portion of the rotating frame, a lifting device is arranged on the horizontal telescopic assembly B, the upright post type carrying platform B is arranged on the lifting device, the driving device B drives the upright post type carrying platform B to move horizontally through the horizontal telescopic assembly B, a vacuumizing through hole A and a vacuumizing through hole B are respectively arranged on the end faces, the vacuumizing through hole A and the vacuumizing through hole B are respectively connected with a vacuumizing device through pipelines; when the watch glass lens is turned over, the telescopic assembly A and the telescopic assembly B are in a contraction state, the column type carrying platform A and the column type carrying platform B are vertically corresponding, the lifting device drives the column type carrying platform B to move upwards, the watch glass lens on the column type carrying platform B is close to the end face of the column type carrying platform A until the watch glass lens is vacuum-adsorbed to the end face of the column type carrying platform A, the motor drives the rotating frame through the transmission mechanism, the rotating frame drives the column type carrying platform A and the column type carrying platform B to rotate by 180 degrees, and the watch glass lens is turned over to the column type carrying platform A through the column type carrying platform B.

Further, the rotating frame is a supporting beam.

Furthermore, the horizontal telescopic assembly A comprises a guide sleeve A and a horizontal sliding rail A, the guide sleeve A is installed at one end of the supporting beam, the horizontal sliding rail A is inserted into the guide sleeve A and can slide relative to the guide sleeve A, and the column type carrying platform A is installed on the bottom surface of the horizontal sliding rail A and is close to one end of the horizontal sliding rail A; the horizontal telescopic assembly B comprises a guide sleeve B and a horizontal sliding rail B, the guide sleeve B is installed at the other end of the supporting beam, the horizontal sliding rail B penetrates through the guide sleeve B and can slide relative to the guide sleeve B, the column type carrying platform B is installed on the top surface of the horizontal sliding rail B and is close to one end of the horizontal sliding rail B, and the horizontal sliding rail A and the horizontal sliding rail B are parallel to each other.

Further, the driving device A adopts an air cylinder, the driving device A is fixed on the rotating frame through an L-shaped connecting plate, a piston rod of the driving device A is connected with the horizontal sliding rail A through a connecting piece A, and the horizontal sliding rail A is parallel to the driving device A.

Further, the driving device B adopts an air cylinder, a piston rod of the driving device B is connected with the horizontal sliding rail B through a connecting piece B, and the horizontal sliding rail B is parallel to the driving device B.

Further, connecting piece A includes interconnect and vertically diaphragm and riser, is T shape structure, be equipped with the mounting hole on diaphragm and the riser respectively, the tip of the piston rod of cylinder is equipped with the screwed joint, and the mounting hole on the riser alternates on the screwed joint in the connecting piece A to it is fixed with connecting piece A's riser with two nuts on the screwed joint, and two screws pass two mounting holes on the diaphragm in the connecting piece A respectively, fix connecting piece A's diaphragm on horizontal slide rail A's lateral wall.

Further, the structure and the connection mode of the connecting piece B are the same as those of the connecting piece A.

Furthermore, the transmission mechanism comprises a transmission shaft, a bearing seat, a driven wheel, a transmission belt, a driving wheel and a speed reducer, wherein the transmission shaft is installed on the bearing seat through the bearing, one end of the transmission shaft is connected with a central installation hole of the rotating frame, the driven wheel is installed at the other end of the transmission shaft, the driven wheel is connected with the driving wheel through the transmission belt, the driving wheel is installed on an output shaft of the speed reducer, and an output shaft of the motor is connected with an input shaft of the speed reducer.

Further, the lifting device comprises a motor, a support, a protective sleeve, a guide rod, a threaded sleeve and a screw rod, the motor is fixed on the bottom surface of the horizontal sliding rail B through the support, one end of the threaded sleeve is fixed on a connecting head of the lower end face of the vertical column type carrying platform B, the other end of the threaded sleeve is inserted into the protective sleeve, the protective sleeve is fixed at a through hole of the horizontal sliding rail B, the motor is connected with one end of the screw rod, the other end of the screw rod is inserted into the threaded sleeve and is in threaded connection with the threaded sleeve, one end of the guide rod is fixed on the connecting head, and the other end of the guide rod is inserted into a guide hole in the.

Further, the column type carrying platform A and the column type carrying platform B are made of light-transmitting materials, and the end surfaces of the column type carrying platform A and the column type carrying platform B, which bear the watch glass lenses, are frosted surfaces. The frosted surface is transparent and opaque.

The beneficial effects of the utility model reside in that:

the turnover machine is specially designed for the watch glass lenses, can conveniently and quickly achieve the purpose of turnover, is particularly suitable for being used on an intermittent turntable and is suitable for being applied to continuous detection operation;

because the upright type carrying platform A and the upright type carrying platform B which can rotate by 180 degrees are adopted, the watch glass lens is adsorbed on the upright type carrying platform B to be detected after the detection is finished, and then is adsorbed on the upright type carrying platform A to be detected, and the watch glass lens has the characteristics of strong practicability, high efficiency, high turnover speed, compact structure and convenience in maintenance.

Drawings

The invention will be further explained with the aid of the accompanying drawings, in which, however, the embodiments in the drawings do not constitute any limitation to the invention, and for a person skilled in the art, without inventive step, further drawings can be obtained in accordance with the following drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the inverted structure shown in FIG. 1;

FIG. 3 is a side view of FIG. 2;

FIG. 4 is a schematic structural diagram of the driving device A and the connecting member A shown in FIG. 1;

FIG. 5 is a perspective view of the attachment member A shown in FIG. 4;

fig. 6 is a schematic structural view of the lifting device shown in fig. 1.

In the figure: 1. a motor; 2. a transmission mechanism; 3. a rotating frame; 4. a column type carrying platform A; 5. a horizontal telescopic component A; 6. a drive device A; 7. a column type carrying platform; 8. a horizontal telescopic component B; 9. a drive device B; 10. a lifting device; 11. vacuumizing the through hole A; 12. vacuumizing the through hole B; 13. a guide sleeve A; 14. a horizontal slide rail A; 15. a guide sleeve B; 16. a horizontal slide rail B; 17. an L-shaped connecting plate A; 18. a connecting piece A; 19. a connecting piece B; 20. an L-shaped connecting plate B; 21. a transverse plate; 22. A vertical plate; 23. mounting holes; 24. a threaded joint; 25. a nut; 26. a drive shaft; 27. a bearing seat; 28. a driven wheel; 29. a transmission belt; 30. a driving wheel; 31. a speed reducer; 32. a stepping motor; 33. a support; 34. a protective sleeve; 35. a guide bar; 36. a threaded sleeve; 37. a screw; 38. a connector; 39. and (4) a guide hole.

Detailed Description

In order to make the technical solutions of the present invention better understood, the following detailed description of the present invention is provided with reference to the accompanying drawings and specific embodiments, and it should be noted that the embodiments and features of the embodiments of the present invention can be combined with each other without conflict.

As shown in fig. 1, 2 and 3, the upright column type watch glass lens turnover machine comprises a motor 1, a transmission mechanism 2, a rotating frame 3, an upright column type stage A4, a horizontal telescopic assembly A5, a driving device A6, an upright column type stage B7, a horizontal telescopic assembly B8 and a driving device B9, wherein the upright column type stage A4, the horizontal telescopic assembly A5 and the driving device A6 are installed on the upper portion of the rotating frame 3, the upright column type stage A4 is installed on the horizontal telescopic assembly A5, the driving device A6 drives the upright column type stage A4 to move horizontally through the horizontal telescopic assembly A5, the upright column type stage B68642, the horizontal telescopic assembly B8 and the driving device B469 are installed on the lower portion of the rotating frame 3, a lifting device 10 is arranged on the horizontal telescopic assembly B8, an upright column type stage B7 is installed on the lifting device 10, the driving device B9 drives the upright column type stage B5928 to move horizontally through the horizontal telescopic assembly B68642, A8, and a vacuum pumping through holes are respectively arranged on the upright column type stage A7 and the vacuum pumping end face B12, the vacuum through hole A11 and the vacuum through hole B12 are respectively connected with a vacuum device (not shown in the figure) through pipelines. When the watch glass lens is turned over, the horizontal telescopic assembly A5 and the horizontal telescopic assembly B8 are in a contracted state, the column type carrying table A4 and the column type carrying table B7 are vertically opposite, the lifting device 10 drives the column type carrying table B7 to move upwards, the watch glass lens on the column type carrying table B7 is close to the end face of the column type carrying table A4 until the watch glass lens is vacuum-adsorbed to the end face of the column type carrying table A4, the motor 1 drives the rotating frame 3 through the transmission mechanism 2, the rotating frame 3 drives the column type carrying table A4 and the column type carrying table B7 to rotate 180 degrees, and the watch glass lens is turned over onto the column type carrying table A4 through the column type carrying table B7.

The rotating frame 3 is a supporting beam; the horizontal telescopic assembly A5 comprises a guide sleeve A13 and a horizontal sliding rail A14, wherein the guide sleeve A13 is mounted at one end of a support beam (a rotating frame 3), the horizontal sliding rail A14 is inserted into the guide sleeve A13 and can slide relative to the guide sleeve A13, and a column type carrying platform A4 is mounted on the bottom surface of the horizontal sliding rail A14 and is close to one end of a horizontal sliding rail A14; the horizontal telescopic assembly B8 comprises a guide sleeve B15 and a horizontal sliding rail B16, wherein the guide sleeve B15 is mounted at the other end of the support beam (the rotating frame 3), the horizontal sliding rail B16 is inserted into the guide sleeve B15 and can slide relative to the guide sleeve B15, a column type carrying platform B7 is mounted on the top surface of the horizontal sliding rail B16 and is close to one end of the horizontal sliding rail B16, and the horizontal sliding rail A14 and the horizontal sliding rail B16 are parallel to each other. The driving device A6 is an air cylinder, the driving device A6 is fixed on the rotating frame 3 through an L-shaped connecting plate A17, a piston rod of the driving device A6 is connected with a horizontal sliding rail A14 through a connecting piece A18, and the horizontal sliding rail A14 is parallel to the driving device A6; the driving device B9 adopts an air cylinder, the driving device B9 is fixed on the rotating frame 3 through an L-shaped connecting plate B20, a piston rod of the driving device B9 is connected with a horizontal sliding rail B16 through a connecting piece B19, and the horizontal sliding rail B16 is parallel to the driving device B9;

the transmission mechanism comprises a transmission shaft 26, a bearing (not shown in the figure), a bearing seat 27, a driven wheel 28, a transmission belt 29, a driving wheel 30 and a speed reducer 31, wherein the transmission shaft 26 is installed on the bearing seat 27 through the bearing, one end of the transmission shaft 26 is connected with a central installation hole of the rotating frame 3, the driven wheel 28 is installed at the other end of the transmission shaft, the driven wheel 28 is connected with the driving wheel 30 through the transmission belt 29, the driving wheel 30 is installed on an output shaft of the speed reducer 31, and an output shaft of the motor 1 is connected with an input shaft of the speed reducer.

As shown in fig. 4 and 5, the connecting member a18 includes a horizontal plate 21 and a vertical plate 22 which are connected and perpendicular to each other, and is in a T-shaped structure, the horizontal plate 21 and the vertical plate 22 are respectively provided with a mounting hole 23, the end of a piston rod of the driving device A6 is provided with a threaded joint 24, the mounting hole 23 of the vertical plate 22 in the connecting member a18 is inserted into the threaded joint 24, the vertical plate 22 of the connecting member a is fixed by two nuts 25 on the threaded joint 24, and two screws respectively pass through the two mounting holes on the horizontal plate 21 in the connecting member a, so that the horizontal plate 21 of the connecting member a is fixed on the side wall of the horizontal slide rail a; the structure and connection mode of the connector B19 are the same as those of the connector A18.

As shown in fig. 6, the lifting device includes a stepping motor 32, a bracket 33, a protective sleeve 34, a guide rod 35, a threaded sleeve 36 and a screw 37, the stepping motor 32 is fixed on the bottom surface of the horizontal slide rail B16 through the bracket 33, one end of the threaded sleeve 36 is fixed on a connector 38 on the lower end surface of the column-type carrying table B7, the other end of the threaded sleeve 36 is inserted into the protective sleeve 34, the protective sleeve 34 is fixed at a through hole of the horizontal slide rail B16, the stepping motor 32 is connected with one end of the screw 37, the other end of the screw 37 is inserted into the threaded sleeve 36 and is in threaded connection with the threaded sleeve 36, one end of the guide rod 35 is fixed on the connector 38, and the other end is inserted into a guide hole 39 on the horizontal slide rail.

The working process is as follows: specifically, the face-turning process is that the driving device B9 drives the column stage B7 to retract through the horizontal telescopic assembly B8, after retraction, the column stage B7 is located right below the column stage a4, the column stage B7 corresponds to the column stage a4 up and down, then the stepping motor 32 of the lifting device 10 is started, the stepping motor 32 drives the screw sleeve 36 to move up along the protective sleeve 34 through the screw 37, so as to drive the column stage B7 to move up until the watch glass lens is vacuum-absorbed to the end face of the column stage a4, the motor 1 drives the rotating frame 3 through the transmission mechanism 2, the rotating frame 3 drives the column stage a4 and the column B7 to rotate 180 °, so that the column stage a4 is located below, the column stage B7 is located above, so that the front side detected by the watch glass lens contacts with the table top of the column stage a4, and the back side not detected by the watch glass lens is facing upwards, then, driving device a6 drives column stage a4 to move horizontally through horizontal telescopic assembly a5, and horizontal telescopic assembly a5 changes from a retracted state to an extended state. In the extended state, the horizontal slide rail a14 is moved outward in the radial direction of the turntable toward the turntable, the column stage a4 is moved in a direction away from the turntable, the column stage a4 is shifted from the column stage B7, and the wristwatch glass lens of the column stage a4 is moved to the detection position.

The column type carrying platform A4 and the column type carrying platform B7 are made of light-transmitting materials, and the end surfaces of the column type carrying platform A4 and the column type carrying platform B7, which bear the watch glass lens, are frosted surfaces. The frosted surface is transparent and opaque.

Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction. Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (10)

1. The utility model provides a stand microscope carrier formula watch glass lens turn-over machine which characterized in that: the device comprises a motor, a transmission mechanism, a rotating frame, a column type carrying platform A, a horizontal telescopic assembly A, a driving device A, a column type carrying platform B, a horizontal telescopic assembly B and a driving device B, wherein the column type carrying platform A, the horizontal telescopic assembly A and the driving device A are arranged on the upper portion of the rotating frame, the column type carrying platform A is arranged on the horizontal telescopic assembly A, the driving device A drives the column type carrying platform A to horizontally move through the horizontal telescopic assembly A, the column type carrying platform B, the horizontal telescopic assembly B and the driving device B are arranged on the lower portion of the rotating frame, a lifting device is arranged on the horizontal telescopic assembly B, the column type carrying platform B is arranged on the lifting device, the driving device B drives the column type carrying platform B to horizontally move through the horizontal telescopic assembly B, and vacuumizing through holes A and vacuumizing through holes B are respectively arranged on the end faces of the column type carrying platform A, the vacuumizing through hole A and the vacuumizing through hole B are respectively connected with a vacuumizing device through pipelines; when the watch glass lens is turned over, the telescopic assembly A and the telescopic assembly B are in a contraction state, the column type carrying platform A and the column type carrying platform B are vertically corresponding, the lifting device drives the column type carrying platform B to move upwards, the watch glass lens on the column type carrying platform B is close to the end face of the column type carrying platform A until the watch glass lens is vacuum-adsorbed to the end face of the column type carrying platform A, the motor drives the rotating frame through the transmission mechanism, the rotating frame drives the column type carrying platform A and the column type carrying platform B to rotate by 180 degrees, and the watch glass lens is turned over to the column type carrying platform A through the column type carrying platform B.

2. The stand-column table-carrying watch glass lens turnover machine according to claim 1, characterized in that: the rotating frame is a supporting beam.

3. The stand-column table-carrying watch glass lens turnover machine according to claim 2, characterized in that: the horizontal telescopic assembly A comprises a guide sleeve A and a horizontal sliding rail A, the guide sleeve A is installed at one end of the supporting beam, the horizontal sliding rail A is inserted into the guide sleeve A and can slide relative to the guide sleeve A, and the column type carrying platform A is installed on the bottom surface of the horizontal sliding rail A and is close to one end of the horizontal sliding rail A; the horizontal telescopic assembly B comprises a guide sleeve B and a horizontal sliding rail B, the guide sleeve B is installed at the other end of the supporting beam, the horizontal sliding rail B penetrates through the guide sleeve B and can slide relative to the guide sleeve B, the column type carrying platform B is installed on the top surface of the horizontal sliding rail B and is close to one end of the horizontal sliding rail B, and the horizontal sliding rail A and the horizontal sliding rail B are parallel to each other.

4. The stand-column table-carrying watch glass lens turnover machine according to claim 3, characterized in that: the driving device A adopts an air cylinder, the driving device A is fixed on the rotating frame through an L-shaped connecting plate, a piston rod of the driving device A is connected with the horizontal sliding rail A through a connecting piece A, and the horizontal sliding rail A is parallel to the driving device A.

5. The stand-column table-carrying watch glass lens turnover machine according to claim 4, characterized in that: the driving device B adopts an air cylinder, a piston rod of the driving device B is connected with the horizontal sliding rail B through a connecting piece B, and the horizontal sliding rail B is parallel to the driving device B.

6. The stand-column table-carrying watch glass lens turnover machine according to claim 5, characterized in that: connecting piece A includes interconnect and vertically diaphragm and riser, is T shape structure, be equipped with the mounting hole on diaphragm and the riser respectively, the tip of the piston rod of cylinder is equipped with the screwed joint, and the mounting hole on the riser alternates on the screwed joint in the connecting piece A to it is fixed with connecting piece A's riser with two nuts on the screwed joint, two screws pass two mounting holes on the diaphragm in the connecting piece A respectively, fix connecting piece A's diaphragm on horizontal slide rail A's lateral wall.

7. The stand-column table-carrying watch glass lens turnover machine according to claim 6, characterized in that: the structure and the connection mode of the connecting piece B are the same as those of the connecting piece A.

8. The stand-column table-carrying watch glass lens turnover machine according to claim 1, characterized in that: the transmission mechanism comprises a transmission shaft, a bearing seat, a driven wheel, a transmission belt, a driving wheel and a speed reducer, wherein the transmission shaft is installed on the bearing seat through the bearing, one end of the transmission shaft is connected with a central installation hole of the rotating frame, the other end of the transmission shaft is provided with the driven wheel, the driven wheel is connected with the driving wheel through the transmission belt, the driving wheel is installed on an output shaft of the speed reducer, and an output shaft of the motor is connected with an input shaft of the speed reducer.

9. The stand-column table-carrying watch glass lens turnover machine according to claim 8, characterized in that: the lifting device comprises a motor, a support, a protecting sleeve, a guide rod, a threaded sleeve and a screw rod, the motor is fixed on the bottom surface of the horizontal sliding rail B through the support, one end of the threaded sleeve is fixed on a connecting head of the lower end surface of the column type carrying platform B, the other end of the threaded sleeve is inserted into the protecting sleeve, the protecting sleeve is fixed at a through hole of the horizontal sliding rail B, the motor is connected with one end of the screw rod, the other end of the screw rod is inserted into the threaded sleeve and is in threaded connection with the threaded sleeve, one end of the guide rod is fixed on the connecting head, and the other end of the guide rod is inserted into a guide hole in.

10. The stand-column table-carrying watch glass lens turnover machine according to claim 5, characterized in that: the watch glass lens comprises a watch glass lens body, a vertical column type carrying platform A and a vertical column type carrying platform B, wherein the vertical column type carrying platform A and the vertical column type carrying platform B are made of light-transmitting materials, and the end faces of the watch glass lens body, which bear the watch glass lens, of the vertical column type carrying platform A and the vertical column type carrying platform B are frosted surfaces.

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