A processing apparatus for elliptical annular optical glass

Abstract

The invention discloses a processing apparatus for elliptical annular optical glass, including a processing box, wherein the processing box is provided with a processing chamber with an opening forward, a sliding block is slidably mounted in the processing chamber, and the second motor passes through the power rod The disc is driven to rotate forward, and the disc drives the scriber to rotate through the connecting block. After the scribing mechanism completes the scribing of the glass, the sliding block moves downward through the first motor, and the sliding block moves downward to remove the excess glass. No manual operation is required, and the manual operation of the broken glass is avoided. The polishing block in the polishing mechanism polishes the glass to ensure that the glass is not scratched when the glass is manually removed, and is slid when the glass is large.

Description

CROSS-REFERENCES TO RELATED APPLICATIONS

The present application claims priority from Chinese application No. 2019107077416 filed on Aug. 1, 2019 which is hereby incorporated by reference in its entirety.

TECHNICAL FIELD

The invention relates to the technical field of glass processing, in particular to a processing apparatus for elliptical annular optical glass.

BACKGROUND OF THE INVENTION

In the processing of glass, according to different needs, the glass needs to be processed into different shapes. Generally, the glass is processed into various shapes by scribing the glass, and after the scribing is completed, the excess glass needs to be manually removed. In the process of removing excess glass, there may be slight damage to the artificial glass caused by splashing glass, or scratching the glass by hand. In addition, when the glass to be processed is large, it is difficult to manually remove the excess glass.

CONTENT OF THE INVENTION

It is an object of the present invention to provide a processing apparatus for elliptical annular optical glass for overcoming the above-discussed deficiencies in the prior art.

A processing apparatus for an elliptical annular optical glass according to an embodiment of the present invention includes a processing box having a processing chamber with an opening forward, a sliding sliding block mounted in the processing chamber, the sliding a through hole is arranged in the block, the through hole is connected to a cavity, the cavity extends forwardly through the front side of the sliding block, the glass can be placed in the cavity, and the left inner wall of the processing cavity is connected a threaded cavity, the top wall of the threaded cavity is fixedly mounted with a first motor, and a bottom surface of the output shaft of the first motor is fixedly mounted with a threaded rod, and the threaded rod extends downward to a bottom wall of the threaded cavity, a screw block is slidably mounted in the threaded cavity, and the thread block is screwed to the threaded rod, and the right side of the thread block is fixedly mounted on the left side of the sliding block, and the top surface of the sliding block is symmetrically fixed to the fixed block. The top wall of the processing chamber is symmetrically connected to the left and right sides, and the fixed cavity is slidably mounted. The top wall of the processing chamber is connected with a motor cavity hinge rod, and the motor cavity hinge rod is disposed. Can enter the glass a scribing line mechanism, after the scribing mechanism is finished, the first motor starts to rotate the threaded rod, so that the thread block drives the sliding block to move downward, and the sliding block will be redundant The glass is removed, and the processing chamber is provided on the back side of the glass with a grinding mechanism that can polish the glass.

Based on the above technical solution, the bottom wall of the processing chamber is symmetrically placed with a collecting box, and the collecting box is provided with an opening chamber with an opening upward.

On the basis of the above technical solution, the bottom wall of the processing chamber is rotated to install a rotating rod, and the top surface of the rotating rod is fixedly mounted with a turntable.

Based on the above technical solution, the scribing mechanism includes a second motor fixedly mounted on the top wall of the hinge of the motor cavity, and the output shaft of the second motor is fixedly mounted with a power rod, and the bottom surface of the power rod is fixedly mounted with a disc. The connecting block is fixedly mounted on the disc, the connecting block is provided with a connecting cavity, the top surface of the connecting block is fixedly mounted with a moving block, and the top wall of the connecting rod of the motor cavity is connected with an annular cavity, and the annular cavity is The moving block is slidably mounted, and the scribe is slidably mounted in the connecting cavity.

On the basis of the above technical solution, the top wall of the articulated rod of the motor cavity is connected with an elliptical cavity, and the limiting block is slidably mounted in the elliptical cavity, and the third motor is fixedly mounted on the bottom surface of the limiting block, the third motor The downward output shaft is fixedly mounted with a fixing rod that is threadedly mounted to the scribe.

Based on the above technical solution, the air pump is fixedly mounted on the rotating rod, and the suction cup is fixedly mounted in the top surface of the rotating plate, and the connecting tube is fixedly installed between the suction cup and the air pump.

On the basis of the above technical solution, a transmission cavity is symmetrically arranged in the upper and lower sides of the processing box, and the rotating rod extends downwardly through the top wall of the transmission cavity of the lower side, and a ratchet cavity is arranged above the hinged rod of the motor cavity, a top surface of the output shaft of the second motor is fixedly mounted with a short rod extending upwardly through the bottom wall of the ratchet cavity, the top surface of the short rod fixedly mounting a ratchet, the ratchet cavity and the upper side Rotating a transmission rod between the transmission chambers, the transmission rod is fixedly connected with the ratchet wheel, the top surface of the transmission rod is fixedly mounted with a first gear, and the bottom surface of the rotating rod is fixedly mounted with a second gear, and the transmissions on the upper and lower sides are Rotating a long rod between the cavities, the long rod is fixedly mounted on the upper and lower symmetry to fix the third gear, and the first chain is driven between the second gear and the third gear on the lower side, the first gear and the upper side A second chain is mounted between the third gears.

In the above technical solution, the sanding mechanism includes a hydraulic rod hole that communicates with an inner wall of the rear side of the processing chamber, and a hydraulic pump is fixedly mounted on a rear side of the processing box, and a front side of the forward output shaft of the hydraulic pump Fixing a hydraulic rod, the hydraulic rod passes through the hydraulic rod hole, a spring chamber is disposed in the hydraulic rod, a sliding rod is slidably mounted in the spring chamber, and a rear side of the sliding rod and a rear side of the spring chamber A spring is fixedly mounted between the inner walls, and a left side inner wall of the machining chamber is hingedly mounted with a motor cavity hinge rod, and the motor cavity hinge rod is hingedly mounted with the sliding rod, and the hinge joint of the motor cavity is hingedly mounted with an hinge block, and the hinge A grinding chamber is arranged in the block, and the grinding block is fixedly mounted in the grinding chamber.

The invention has the beneficial effects that: after the scribing mechanism completes the scribing of the glass, the sliding block moves downward by the first motor, and the sliding block moves downward to remove the excess glass, without manual manual operation, thereby avoiding The smashed glass scratches the artificial situation, and the polishing block in the grinding mechanism polishes the glass to ensure that the glass is not scratched when the glass is manually removed, and when the glass is large, the excess glass is moved downward by the sliding block. It is easier to remove and worth promoting.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a bottom view of the annular cavity and the elliptical cavity of the present invention;

FIG. 3 is a cross-sectional structural view of the first embodiment of the present invention taken along A-A direction;

FIG. 4 is a top plan view showing the sliding block of the present invention;

FIG. 5 is a cross-sectional structural view showing the direction B-B of FIG. 1 of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

The present invention will now be described in detail with reference to FIGS. 1-5. For the convenience of description, the orientations described below are now defined as follows: the up, down, left, and right front and rear directions described below are consistent with the up, down, left, and right front and rear directions of the projection relationship of FIG. 1 itself.

Referring to FIGS. 1-5, a processing apparatus for elliptical annular optical glass according to an embodiment of the present invention includes a processing box 29 having an open processing chamber 19 therein, the processing chamber The sliding block 20 is slidably mounted in the sliding block 20, and the through hole 23 is disposed in the sliding block 20, and the through hole 23 is communicated with a cavity 24 extending forwardly through the front side of the sliding block 20. The glass chamber 21 can be placed in the cavity 24, and the inner wall of the left side of the processing chamber 19 is connected with a threaded cavity 25, and the top wall of the threaded cavity 25 is fixedly mounted with the first motor 28, and the output shaft of the first motor 28 is downward. The bottom surface is fixedly mounted with a threaded rod 26 extending downwardly to the bottom wall of the threaded cavity 25, the threaded cavity 25 is slidably mounted with a threaded block 27, and the threaded block 27 is threaded with the threaded rod 26 The right side of the thread block 27 is fixedly mounted on the left side of the sliding block 20, and the top surface of the sliding block 20 is fixedly fixed to the left and right sides. The top wall of the processing chamber 19 is symmetrically connected with a fixed cavity 41. The fixing cavity 41 is slidably mounted with the fixing block 30, and the top wall of the processing cavity 19 is connected. There is a motor cavity hinge rod 59. The motor cavity hinge rod 59 is provided with a scribing mechanism 101 for scribing the glass 21. After the scribing mechanism 101 is finished, the first motor 28 is activated. The threaded rod 26 is driven to rotate, so that the thread block 27 drives the sliding block 20 to move downward, the sliding block 20 removes excess glass, and the processing chamber 19 is disposed on the rear side of the glass 21 A sanding mechanism 102 that can polish the glass 21 can be used.

In addition, in one embodiment, the bottom wall of the processing chamber 19 is symmetrically placed with a collecting box 11, and the collecting box 11 is provided with an opening chamber 12 with an opening upward, and the excess glass removed by the sliding block 20 is dropped. It falls within the collection chamber 12.

In addition, in one embodiment, the bottom wall of the processing chamber 19 is rotatably mounted with a rotating rod 15, and the top surface of the rotating rod 15 is fixedly mounted with a turntable 22 for supporting the glass 21.

In addition, in one embodiment, the scribing mechanism 101 includes a motor wall hinge rod 59 fixedly mounted with a second motor 38, and a downward output shaft of the second motor 38 fixedly mounts a power rod 37, the power rod The bottom surface is fixedly mounted with a disc 36. The disc 36 is fixedly mounted with a connecting block 35. The connecting block 35 is provided with a connecting cavity 34. The top surface of the connecting block 35 is fixedly mounted with a moving block 31, and the motor cavity is hinged. The top wall of the rod 59 is communicated with an annular cavity 42. The annular cavity 42 is slidably mounted with the moving block 31. The connecting cavity 34 is slidably mounted with a scriber 32. When the second motor 38 is activated, the The second motor 38 drives the disc 36 to rotate forward by the power rod 37. The disc 36 drives the scriber 32 to rotate through the connecting block 35. The scriber 32 faces the glass 21 Dash.

In addition, in an embodiment, the top wall of the motor cavity hinge rod 59 communicates with an elliptical cavity 43. The elliptical cavity 43 is slidably mounted with a limiting block 44, and the bottom surface of the limiting block 44 is fixedly mounted with a third motor. 40. The output shaft of the third motor 40 is fixedly mounted with a fixing rod 33. The fixing rod 33 is screwed to the scriber 32. When the glass 21 is scribed, the third motor 40 starts. The fixing rod 33 is rotated to move the scriber 32 downward, and the scriber 32 abuts against the glass 21.

In addition, in one embodiment, the rotating rod 15 is fixedly mounted with an air pump 60. The top surface of the rotating plate 22 is fixedly mounted with a suction cup 62. The suction cup 62 and the air pump 60 are fixedly mounted with a connecting pipe 61. When the glass 21 is placed on the turntable 22, the air pump 60 is activated, and the air pump 60 sucks the glass 21 through the connecting pipe 61 and the suction cup 62.

In addition, in one embodiment, the processing chamber 29 is vertically symmetrically disposed with a transmission cavity 13 extending downwardly through the top wall of the transmission cavity 13 of the lower side, above the motor cavity hinge rod 59 a ratchet cavity 45 is provided, and the top surface of the output shaft of the second motor 38 is fixedly mounted with a short rod 39 extending upwardly through the bottom wall of the ratchet cavity 45, and the top surface of the short rod 39 is fixedly mounted a ratchet 46, the ratchet cavity 45 and the upper transmission cavity 13 are rotatably mounted with a transmission rod 47, the transmission rod 47 is fixedly connected with the ratchet 46, and the top surface of the transmission rod 47 is fixedly mounted with the first gear 48. The second gear 14 is fixedly mounted on the bottom surface of the rotating rod 15, and the long rod 18 is rotatably mounted between the upper and lower sides of the transmission cavity 13. The long rod 18 is vertically symmetrically fixedly mounted with the third gear 17, the second A first chain 16 is driven between the gear 14 and the third gear 17 on the lower side, and the second chain 49 is driven between the first gear 48 and the third gear 17 on the upper side when the sliding After the block 20 moves downward, the second motor 38 drives the short rod 39 to reverse, so that the The rod 39 drives the first gear 48 to rotate by the ratchet 46, the first gear 48 passes through the second chain 49, the third gear 17, the long rod 18, the first chain 16 and The second gear 14 drives the rotating rod 15 to rotate, so that the rotating wheel 22 drives the glass 21 to rotate, and the short rod 39 rotates forward through the ratchet 46 without rotating the transmission rod 47.

In addition, in one embodiment, the sanding mechanism 102 includes a hydraulic rod hole 54 that communicates with an inner wall of the rear side of the processing chamber 19, and a hydraulic pump 50 is fixedly mounted on the rear side of the processing box 29, the hydraulic pump 50 The front side of the front output shaft is fixedly mounted with a hydraulic rod 51. The hydraulic rod 51 passes through the hydraulic rod hole 54. The hydraulic rod 51 is provided with a spring chamber 52. The spring chamber 52 is slidably mounted with a sliding rod 55. a mounting spring 53 is fixedly disposed between the rear side of the sliding rod 55 and the inner wall of the rear side of the spring chamber 52. The left inner wall of the machining chamber 19 is hingedly mounted with a motor cavity hinge rod 59, and the motor chamber hinge rod 59 is The sliding rod 55 is hingedly mounted, and the motor cavity hinge rod 59 is hingedly mounted with a hinge block 56. The hinge block 56 is provided with a grinding chamber 57. The grinding chamber 57 is fixedly mounted with a sanding block 58 when the sliding block 20 is After moving downward, the hydraulic pump 50 is activated, and the hydraulic pump 50 causes the sliding rod 55 to move forward by the hydraulic rod 51, so that the sanding block 58 is in contact with the side surface of the glass 21, The sanding block 58 sands the side of the glass 21.

When the glass 21 is processed, the glass 21 is placed on the turntable 22, the air pump 60 is activated, and the air pump 60 sucks the glass 21 through the connecting pipe 61 and the suction cup 62. When the glass 21 is scribed, the third motor 40 starts to drive the fixed rod 33 rotates, causing the scriber 32 to move downward, and the scriber 32 abuts against the glass 21. When the second motor 38 is activated, the second motor 38 drives the disk 36 to rotate forward through the power rod 37, and the disk 36 passes through the connecting block. 35 drives the scriber 32 to rotate, and the scriber 32 scribes the glass 21. After the scribe line is completed, the first motor 28 starts to rotate the threaded rod 26, so that the thread block 27 drives the sliding block 20 to move downward, and the sliding block 20 The excess glass is removed. When the sliding block 20 moves downward, the second motor 38 drives the short rod 39 to reverse, so that the short rod 39 drives the first gear 48 to rotate through the ratchet 46. The first gear 48 passes through the second chain 49. The third gear 17, the long rod 18, the first chain 16 and the second gear 14 drive the rotating rod 15 to rotate, so that the rotating wheel 22 drives the glass 21 to rotate, and the short rod 39 rotates forward through the ratchet 46 without driving the transmission rod 47 to rotate, the hydraulic pump 50 Starting, the hydraulic pump 50 passes the hydraulic rod 51 to make the sliding rod 55 The front movement causes the sanding block 58 to conform to the side of the glass 21, and the sanding block 58 polishes the side of the glass 21.

The invention has the beneficial effects that: after the scribing mechanism completes the scribing of the glass, the sliding block moves downward by the first motor, and the sliding block moves downward to remove the excess glass, without manual manual operation, thereby avoiding The smashed glass scratches the artificial situation, and the polishing block in the grinding mechanism polishes the glass to ensure that the glass is not scratched when the glass is manually removed, and when the glass is large, the excess glass is moved downward by the sliding block. It is easier to remove and worth promoting.

It will be apparent to those skilled in the art that various modifications of the above embodiment can be made without departing from the spirit and scope of the invention. They all fall within the scope of protection of the present invention. The protection of the invention is subject to the claims appended hereto.

Claims

1. A processing apparatus for elliptical annular optical glass, including: a processing box, wherein: the processing box is provided with a processing chamber with an opening forward, and a sliding block is slidably mounted in the processing chamber, the sliding block a through hole is disposed therein, the through hole is communicated with a cavity, the cavity extends forwardly through the front side of the sliding block, the glass can be placed in the cavity, and the left inner wall of the processing cavity is connected a threaded cavity, the top wall of the threaded cavity is fixedly mounted with a first motor, and a bottom surface of the output shaft of the first motor is fixedly mounted with a threaded rod, the threaded rod extending downward to a bottom wall of the threaded cavity, the thread The threaded block is slidably mounted in the cavity, and the threaded block is screwed to the threaded rod. The right side of the thread block is fixedly mounted on the left side of the sliding block, and the top surface of the sliding block is symmetrically fixed to the fixed block. The top wall of the processing chamber is symmetrically connected with a fixed cavity, the fixed cavity is slidably mounted with the fixed block, and the top wall of the processing cavity is connected with a motor cavity hinge rod, and the motor cavity hinge rod is provided therein. Dash the glass a scribing mechanism, after the scribing mechanism is completed, the first motor starts to rotate the threaded rod, so that the thread block drives the sliding block to move downward, and the sliding block removes excess glass A grinding mechanism capable of grinding the glass is disposed on the rear side of the processing chamber.

2. The processing apparatus for elliptical annular optical glass according to claim 1, wherein the bottom wall of the processing chamber is symmetrically placed with a collecting box, and the collecting box is provided with an opening chamber with an opening upward.

3. The processing apparatus for elliptical annular optical glass according to claim 1, wherein the bottom wall of the processing chamber is rotatably mounted with a rotating rod, and the top surface of the rotating rod is fixedly mounted to the rotating table.

4. The processing apparatus for elliptical annular optical glass according to claim 1, wherein the scribing mechanism comprises a second motor fixedly mounted on a top wall of the motor cavity hinge rod, and the second motor is downwardly The output shaft is fixedly mounted with a power rod, the bottom surface of the power rod is fixedly mounted with a disc, and the connecting block is fixedly mounted on the disc. The connecting block is provided with a connecting cavity, and the top surface of the connecting block is fixedly mounted with a moving block. The top wall of the hinge joint of the motor cavity is connected with an annular cavity, and the annular cavity is slidably mounted with the moving block, and the scribe is slidably mounted in the connecting cavity.

5. The processing apparatus for elliptical annular optical glass according to claim 1, wherein the top wall of the articulated rod of the motor cavity is connected with an elliptical cavity, and the limiting block is slidably mounted in the elliptical cavity. The bottom surface of the limiting block is fixedly mounted with a third motor, and the output shaft of the third motor is fixedly mounted with a fixing rod, and the fixing rod is threadedly mounted with the scriber.

6. The processing apparatus for elliptical annular optical glass according to claim 1, wherein: the rotating rod is fixedly mounted with a gas pump, and the top surface of the rotating plate is fixedly mounted with a suction cup, the suction cup and the suction cup A connecting pipe is fixedly installed between the air pumps.

7. The processing apparatus for elliptical annular optical glass according to claim 1, wherein a transmission cavity is vertically symmetrically arranged in the processing box, and the rotating rod extends downwardly through the lower side. a top wall of the transmission chamber, a ratchet cavity is disposed above the hinge rod of the motor cavity, and a top surface of the output shaft of the second motor is fixedly mounted with a short rod, and the short rod extends upwardly through the bottom wall of the ratchet cavity, The top surface of the short rod is fixedly mounted with a ratchet wheel, and the transmission rod is rotatably mounted between the ratchet wheel chamber and the upper side of the transmission cavity, the transmission rod is fixedly connected with the ratchet wheel, and the first gear is fixedly mounted on the top surface of the transmission rod. a second gear is fixedly mounted on a bottom surface of the rotating rod, and a long rod is rotatably mounted between the transmission chambers on the upper and lower sides, and the long rod is symmetrically fixedly mounted on the third gear, and the second gear and the lower side are A first chain is mounted between the three gears, and a second chain is driven between the first gear and the third gear on the upper side.

8. The processing apparatus for elliptical annular optical glass according to claim 1, wherein the grinding mechanism comprises a hydraulic rod hole connected to an inner wall of a rear side of the processing chamber, after the processing box a hydraulic pump is fixedly mounted on the side, and a hydraulic rod is fixedly mounted on a front side of the forward output shaft of the hydraulic pump, the hydraulic rod passes through the hydraulic rod hole, and a spring chamber is disposed in the hydraulic rod, and the spring chamber is disposed in the spring chamber slidingly mounting a sliding rod, a sliding spring is fixedly mounted between the rear side surface of the sliding rod and the inner wall of the rear side of the spring chamber, and a left side inner wall of the processing chamber is hingedly mounted with a motor cavity hinge rod, the motor chamber hinge rod and the sliding rod the hinged mounting is hingedly mounted on the hinge joint of the motor cavity, and the grinding block is provided with a grinding cavity, and the grinding block is fixedly mounted in the grinding cavity.