CN217019897U - Semi-automatic optical glass's side processing machine - Google Patents

Abstract

The utility model belongs to the technical field of optical glass processing equipment, and particularly relates to a semi-automatic optical glass side processing machine which aims at the problems that when the conventional optical glass side processing machine is used for side processing, the positioning effect on glass is poor, the processing efficiency is influenced, and the processing precision is low. The utility model drives the pressing plate to move downwards to compress and fix the optical glass by the abutting joint of the roller and the triangular plate, improves the fixing stability of the glass by the matching of the positioning rod and the positioning groove, and then carries out high-efficiency polishing treatment on the side edge of the optical glass by controlling the polishing disc to rotate and move back and forth.

Description

Semi-automatic optical glass's side processing machine

Technical Field

The utility model relates to the technical field of optical glass processing equipment, in particular to a semi-automatic optical glass side edge processing machine.

Background

The glass capable of changing the propagation direction of light and changing the relative spectral distribution of ultraviolet, visible or infrared light is optical glass, and the optical glass can be used for manufacturing lenses, prisms, reflectors, windows and the like in optical instruments. Components made of optical glass are critical elements in optical instruments. In the processing of optical glass, there are many requirements for grinding single side edges with different angles on the side edges of the glass and some require polishing due to the optical characteristics. In order to meet the side edge processing requirements of optical glass, a device capable of processing the side edge of the glass is provided.

However, when the conventional side edge processing machine for optical glass performs side edge processing, the positioning effect on the glass is poor, the processing efficiency is affected, and the processing precision is low, so a semi-automatic side edge processing machine for optical glass is provided to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects that the conventional side edge processing machine for optical glass has poor glass positioning effect, influences the processing efficiency and causes lower processing precision when performing side edge processing, and provides a semi-automatic side edge processing machine for optical glass.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a side edge processing machine for semi-automatic optical glass comprises a base, wherein a workbench, a fixed frame and two supporting plates are fixedly arranged at the top of the base, the top of the two supporting plates is fixedly provided with a same top plate, a connecting plate is sleeved at the outer side of the fixed frame in a sliding manner, an air cylinder is fixedly arranged at one side of the connecting plate, a polishing motor is fixedly connected onto an output shaft of the air cylinder, a polishing disk is fixedly connected onto an output shaft of the polishing motor, vertical holes are respectively formed in two sides of the top plate, a vertical plate is slidably arranged in the vertical holes, a pressing plate is fixedly arranged at the bottom of the vertical plate, a triangular plate is fixedly arranged at the top of the pressing plate, a sliding groove is formed in the bottom of the top plate, two sliding plates are slidably arranged in the sliding groove, mounting frames are fixedly arranged at the sides, away from each other, rollers are rotatably arranged in the two mounting frames, and are respectively in rolling connection with the tops of the corresponding triangular plates, and the inner walls of the two sides of the sliding groove are rotatably provided with the same two-way screw, one side of the sliding plate is provided with a threaded hole, and the two-way screw is in threaded connection with the two threaded holes.

Preferably, a worm wheel is fixedly mounted on the bidirectional screw, a vertical hole is formed in the top of the top plate, a worm is rotatably mounted in the vertical hole and meshed with the worm wheel, a turntable is fixedly mounted at the top end of the worm, and a plurality of rocker arms are fixedly mounted at the top of the turntable.

Preferably, a plurality of constant head tanks have been seted up in the outside of carousel, the square groove has been seted up at the top of roof, and slidable mounting has the square plate in the square groove, and one side fixed mounting of square plate has the locating lever, and locating lever activity joint is in the constant head tank that corresponds, fixedly connected with horizontal pole and pressure spring on one side inner wall of square groove, and the one end fixed connection of pressure spring is at the opposite side of square plate, and the square plate slides and cup joints in the outside of horizontal pole.

Preferably, the top fixedly connected with baffle of riser, the bottom fixedly connected with supporting spring of baffle, supporting spring's bottom fixed connection is at the top of roof.

Preferably, a driving motor is fixedly mounted on the rear side of the top of the fixing frame, a screw rod is fixedly connected to an output shaft of the driving motor, and the connecting plate is sleeved on the outer side of the screw rod in a threaded manner.

Preferably, the same limiting rod is fixedly connected to the inner walls of the two sides of the sliding groove, and the two sliding plates are sleeved on the outer side of the limiting rod in a sliding mode.

According to the semi-automatic side edge processing machine for the optical glass, the optical glass is placed at the top of a workbench, then a square plate is pushed to drive a positioning rod to move leftwards so as to be separated from a positioning groove, then a control rocker arm drives a rotary disc and a worm to rotate, the worm drives a bidirectional screw to rotate through meshing with a worm wheel, the bidirectional screw drives two rollers to move towards one side away from each other through thread transmission with two sliding plates, the two rollers respectively drive two pressing plates to move downwards through butting with corresponding triangular plates to press and fix the optical glass, the square plate drives the positioning rod to reset to move rightwards under the action of a reset spring through loosening of the square plate and is clamped into the corresponding positioning groove to fix the rotary disc, and therefore the clamping and fixing stability of the optical glass is improved;

according to the semi-automatic side edge processing machine for the optical glass, the polishing disc is driven to rotate by the polishing motor, the polishing disc is driven to feed by the air cylinder, the side edge of the optical glass is polished, the lead screw is driven to rotate by starting the driving motor, so that the connecting plate is driven to move back and forth, the rotating polishing disc moves back and forth while rotating, the polishing processing at different positions is carried out, and the processing efficiency is improved;

the polishing disc is reasonable in structural design, the pressing plate is driven to move downwards to compress and fix the optical glass by the abutting connection of the roller and the triangular plate, the fixing stability of the glass is improved by the matching of the positioning rod and the positioning groove, and then the polishing disc is controlled to rotate and move back and forth to efficiently polish the side edge of the optical glass, so that the reliability is high.

Drawings

FIG. 1 is a schematic perspective view of a side edge processing machine for semi-automatic optical glass according to the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a schematic cross-sectional view of a lateral edge processing machine for semi-automatic optical glass according to the present invention;

fig. 4 is a partially enlarged view of a portion B in fig. 3.

In the figure: 1. a base; 2. a connecting plate; 3. a cylinder; 4. polishing the motor; 5. a polishing disk; 6. a work table; 7. a fixed mount; 8. a screw rod; 9. a drive motor; 10. a top plate; 11. a set square; 12. pressing a plate; 13. a chute; 14. a vertical plate; 15. a support spring; 16. a worm gear; 17. a turntable; 18. positioning a groove; 19. a rocker arm; 20. a square groove; 21. a square plate; 22. positioning a rod; 23. a worm; 24. a bidirectional screw; 25. a slide plate; 26. and (4) a roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, 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.

Referring to fig. 1-4, a side edge processing machine for semi-automatic optical glass comprises a base 1, a worktable 6, a fixed frame 7 and two supporting plates are fixedly arranged at the top of the base 1, a same top plate 10 is fixedly arranged at the top of the two supporting plates, a connecting plate 2 is sleeved at the outer side of the fixed frame 7 in a sliding manner, a cylinder 3 is fixedly arranged at one side of the connecting plate 2, a polishing motor 4 is fixedly connected onto an output shaft of the cylinder 3, a polishing disc 5 is fixedly connected onto an output shaft of the polishing motor 4, vertical holes are respectively arranged at two sides of the top plate 10, a vertical plate 14 is slidably arranged in the vertical holes, a pressing plate 12 is fixedly arranged at the bottom of the vertical plate 14, a triangular plate 11 is fixedly arranged at the top of the pressing plate 12, a sliding groove 13 is arranged at the bottom of the top plate 10, two sliding plates 25 are slidably arranged in the sliding groove 13, and a mounting frame is fixedly arranged at one side, away from each other side of the two sliding plates 25, all rotate in two mounting brackets and install gyro wheel 26, two gyro wheels 26 respectively with the top roll connection of the set-square 11 that corresponds, and rotate on the both sides inner wall of spout 13 and install same two-way screw rod 24, and one side of slide 25 sets up threaded hole, two-way screw rod 24 threaded connection is in two threaded hole.

According to the utility model, the worm wheel 16 is fixedly arranged on the bidirectional screw 24, the top of the top plate 10 is provided with the vertical hole, the worm 23 is rotatably arranged in the vertical hole, the worm 23 is meshed with the worm wheel 16, the top end of the worm 23 is fixedly provided with the turntable 17, and the top of the turntable 17 is fixedly provided with the plurality of rocker arms 19, so that the rotation of the bidirectional screw 24 is conveniently controlled.

In the utility model, a plurality of positioning grooves 18 are formed in the outer side of the turntable 17, a square groove 20 is formed in the top of the top plate 10, a square plate 21 is slidably mounted in the square groove 20, a positioning rod 22 is fixedly mounted on one side of the square plate 21, the positioning rod 22 is movably clamped in the corresponding positioning groove 18, a cross rod and a pressure spring are fixedly connected to the inner wall of one side of the square groove 20, one end of the pressure spring is fixedly connected to the other side of the square plate 21, and the square plate 21 is slidably sleeved on the outer side of the cross rod to position the turntable 17.

In the utility model, the top of the vertical plate 14 is fixedly connected with a baffle plate, the bottom of the baffle plate is fixedly connected with a supporting spring 15, and the bottom end of the supporting spring 15 is fixedly connected with the top of the top plate 10 to support the vertical plate 14.

In the utility model, a driving motor 9 is fixedly arranged at the rear side of the top of the fixing frame 7, a screw rod 8 is fixedly connected to an output shaft of the driving motor 9, and the connecting plate 2 is sleeved on the outer side of the screw rod 8 in a threaded manner, so that the connecting plate 2 can be conveniently driven to move back and forth.

In the utility model, the inner walls of the two sides of the sliding chute 13 are fixedly connected with the same limiting rod, and the two sliding plates 25 are both slidably sleeved on the outer sides of the limiting rods to guide and limit the sliding plates 25.

In the utility model, when in use, optical glass is placed on the top of a workbench 6, then a square plate 21 is pushed to drive a positioning rod 22 to move leftwards to separate from a positioning groove 18, then a control rocker arm 19 drives a turntable 17 and a worm 23 to rotate, the worm 23 drives a bidirectional screw 24 to rotate through meshing with a worm wheel 16, the bidirectional screw 24 drives two rollers 26 to move towards one side far away from each other through thread transmission with two sliding plates 25, the two rollers 26 respectively drive two pressing plates 12 to move downwards through butting with corresponding triangular plates 11 to compress and fix the optical glass, then the square plate 21 is loosened to ensure that the square plate 21 drives the positioning rod 22 to reset to move rightwards under the action of a reset spring and is clamped into the corresponding positioning groove 18 to fix the turntable 17, thereby improving the clamping and fixing stability of the optical glass, and a polishing disc 5 can be driven to rotate by a polishing motor 4, the cylinder 3 drives the polishing disc 5 to feed, polishes the side of the optical glass, and drives the screw rod 8 to rotate by starting the driving motor 9, so that the connecting plate 2 is driven to move back and forth, the rotating polishing disc 5 is driven to move back and forth while rotating, and thus, the polishing treatment of different positions is carried out, and the processing efficiency is improved.

Claims (6)

1. The utility model provides a side processing machine of semi-automatic optical glass, includes base (1), its characterized in that, the top fixed mounting of base (1) has workstation (6), mount (7) and two backup pads, and the top fixed mounting of two backup pads has same roof (10), and connecting plate (2) have been cup jointed in the outside slip of mount (7), and one side fixed mounting of connecting plate (2) has cylinder (3), and fixedly connected with polishing motor (4) on the output shaft of cylinder (3), fixedly connected with polishing dish (5) on the output shaft of polishing motor (4), vertical hole has all been seted up to the top both sides of roof (10), and vertical downthehole slidable mounting has riser (14), and the bottom fixed mounting of riser (14) has clamp plate (12), and the top fixed mounting of clamp plate (12) has set square (11), spout (13) have been seted up to the bottom of roof (10), sliding installation has two slides (25) in spout (13), the equal fixed mounting in one side that two slides (25) kept away from each other has the mounting bracket, all rotate in two mounting brackets and install gyro wheel (26), two gyro wheels (26) respectively with the top roll connection of the set-square (11) that correspond, and rotate on the both sides inner wall of spout (13) and install same two-way screw rod (24), and one side of slide (25) has seted up threaded hole, two-way screw rod (24) threaded connection is in two threaded hole.

2. The semi-automatic optical glass side processing machine according to claim 1, wherein a worm gear (16) is fixedly mounted on the bidirectional screw (24), a vertical hole is formed in the top of the top plate (10), a worm (23) is rotatably mounted in the vertical hole, the worm (23) is meshed with the worm gear (16), a turntable (17) is fixedly mounted at the top end of the worm (23), and a plurality of rocker arms (19) are fixedly mounted at the top of the turntable (17).

3. The side edge processing machine for semi-automatic optical glass according to claim 2, wherein a plurality of positioning grooves (18) are formed in the outer side of the rotary table (17), a square groove (20) is formed in the top of the top plate (10), a square plate (21) is slidably mounted in the square groove (20), a positioning rod (22) is fixedly mounted on one side of the square plate (21), the positioning rod (22) is movably clamped in the corresponding positioning groove (18), a cross rod and a pressure spring are fixedly connected to the inner wall of one side of the square groove (20), one end of the pressure spring is fixedly connected to the other side of the square plate (21), and the square plate (21) is slidably sleeved on the outer side of the cross rod.

4. A machine for side finishing semi-automatic optical glass as defined in claim 1, wherein the top of said riser (14) is fixedly connected with a baffle, the bottom of which is fixedly connected with a supporting spring (15), the bottom end of the supporting spring (15) is fixedly connected with the top of the top plate (10).

5. The semi-automatic optical glass side edge processing machine according to claim 1, wherein a driving motor (9) is fixedly installed at the rear side of the top of the fixing frame (7), a screw rod (8) is fixedly connected to an output shaft of the driving motor (9), and the connecting plate (2) is sleeved on the outer side of the screw rod (8) in a threaded manner.

6. A machine for side working of semi-automatic optical glass according to claim 1, characterized in that the inner walls of the two sides of the chute (13) are fixedly connected with the same stop bar, and the two sliding plates (25) are slidably sleeved on the outer side of the stop bar.

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