CN108466125B

CN108466125B - Glass light guide plate side burnishing device

Info

Publication number: CN108466125B
Application number: CN201810455027.8A
Authority: CN
Inventors: 李飞
Original assignee: Dongguan Yintaifeng Optical Technology Co Ltd
Current assignee: Dongguan Yintaifeng Optical Technology Co Ltd
Priority date: 2018-05-14
Filing date: 2018-05-14
Publication date: 2023-10-20
Anticipated expiration: 2038-05-14
Also published as: CN108466125A

Abstract

The invention provides a side polishing device for a glass light guide plate, which comprises an upper conveying belt A, an upper conveying belt B, a lower conveying belt A and a lower conveying belt B which are oppositely arranged, wherein a No. 1 polishing wheel, a No. 2 polishing wheel, a No. 3 polishing wheel, a No. 4 polishing wheel, a No. 5 polishing wheel, a No. 6 polishing wheel, a No. 7 polishing wheel and a No. 8 polishing wheel which are driven by a motor A to rotate are sequentially arranged on one side between the upper conveying belt A and the lower conveying belt A and one side between the upper conveying belt B and the lower conveying belt B, and an infusion tube A for inputting clear water is arranged on one side of each of the No. 1 polishing wheel, the No. 6 polishing wheel, the No. 7 polishing wheel and the No. 8 polishing wheel. Polishing is carried out in the transmission process of the light guide plate, so that the polishing efficiency is improved, and the finish of a polishing surface is improved.

Description

Glass light guide plate side burnishing device

Technical Field

The invention relates to the technical field of glass light guide plate processing, and particularly discloses a side polishing device for a glass light guide plate.

Background

In the processing process of the glass light guide plate, the light guide plate needs to be cut, and the side surface of the cut light guide plate is a rough surface and needs to be polished so as to improve the side surface smoothness of the light guide plate and reduce the light transmission loss. The polishing process of the side surface of the glass light guide plate is very important, and affects the quality of the light guide plate.

At present, when the side surface of the glass light guide plate is polished, the light guide plate is generally fixed on a jig, and then the mechanical arm drives a rotary polishing wheel to carry out movable grinding on the side surface of the light guide plate. Because the mechanical arm is adopted to move and grind, the polishing wheel is easy to cause the scratch on the surface of the light guide plate when being shifted, and the polishing brightness is insufficient. In the polishing process, the light guide plate needs to be continuously fixed, turned over, taken and placed, and the like, and only one side surface of the light guide plate can be polished at a time, so that the production efficiency is low, and a large amount of labor force is wasted.

Disclosure of Invention

Based on this, it is necessary to provide a glass light guide plate side burnishing device to prior art problem, sets up unique structure, simplifies glass light guide plate polishing flow, promotes polishing efficiency, promotes the polishing effect.

In order to solve the problems in the prior art, the invention discloses a glass light guide plate side polishing device, which comprises a backup plate A and a backup plate B which are oppositely arranged, wherein an upper conveying belt A and an upper conveying belt B which are oppositely arranged, a lower conveying belt A and a lower conveying belt B which are oppositely arranged are arranged between the backup plate A and the backup plate B, the upper conveying belt A is positioned above the lower conveying belt A and is arranged in parallel with the lower conveying belt A, the upper conveying belt B is positioned above the lower conveying belt B and is arranged in parallel with the lower conveying belt B, one side between the upper conveying belt A and the lower conveying belt A and one side between the upper conveying belt B and the lower conveying belt B are respectively provided with a polishing wheel No. 1, a polishing wheel No. 2, a polishing wheel No. 3, a polishing wheel No. 4, a polishing wheel No. 5, a polishing wheel No. 6, a polishing wheel No. 7 and a polishing wheel No. 8 in turn from right to left, one side of each of the backup plate A and the backup plate B is fixedly connected with a plurality of parallel motors A, a polishing wheel No. 1, a polishing wheel No. 2, a polishing wheel No. 3, a polishing wheel No. 4, a polishing wheel No. 5, a polishing wheel No. 6, a polishing wheel No. 7 and a polishing wheel No. 8 are respectively driven by the motors A to rotate, the infusion tube A is arranged above the polishing wheels 1, 2, 3, 4 and 5, the infusion tube B is arranged above the polishing wheels 6, 7 and 8, clear water is input from the top end of the infusion tube A, and polishing liquid is input from the top end of the infusion tube A.

Preferably, the motor B and the motor C which are arranged in parallel are fixedly connected to one sides of the backup plate A and the backup plate B, the roller A and the roller B are respectively fixedly connected to the output shafts of the motor B and the motor C, the rotating shaft A and the rotating shaft B which are arranged in parallel are fixedly connected to one sides of the backup plate A and the backup plate B, the roller C and the roller D which are arranged in parallel are respectively and rotatably connected to one ends of the rotating shaft A and the rotating shaft B, the upper conveying belt A and the upper conveying belt B are connected between the roller A and the roller C, and the lower conveying belt A and the lower conveying belt B are connected between the roller B and the roller D.

Preferably, the polishing wheels 1, 2, 3, 4 and 5 are all diamond wheels, and the polishing wheels 6, 7 and 8 are all wool wheels.

Preferably, the polishing wheel No. 1, the polishing wheel No. 2, the polishing wheel No. 3, the polishing wheel No. 4 and the polishing wheel No. 5 are respectively a 250-mesh diamond wheel, a 320-mesh diamond wheel, a 500-mesh diamond wheel, a 700-mesh diamond wheel and a 900-mesh diamond wheel.

Preferably, the rotation directions of the polishing wheels No. 1, no. 2, no. 3 and No. 4 are consistent, the rotation directions of the polishing wheels No. 5, no. 6, no. 7 and No. 8 are consistent, and the rotation directions of the polishing wheels No. 5, no. 6, no. 7 and No. 8 are opposite to the rotation direction of the polishing wheel No. 1.

Preferably, the polishing wheel No. 1, polishing wheel No. 2, polishing wheel No. 3, polishing wheel No. 4, polishing wheel No. 5, polishing wheel No. 6, polishing wheel No. 7, polishing wheel No. 8 has rotational speeds of 2800rpm, 4000rpm, 4500rpm, 1400rpm, respectively.

Preferably, the transmission speeds of the upper conveyor belt A, the upper conveyor belt B, the lower conveyor belt A and the lower conveyor belt B are all 2.5m/min.

The beneficial effects of the invention are as follows: the invention discloses a side polishing device for a glass light guide plate, which is provided with a unique assembly structure, wherein two sides of the glass light guide plate are respectively inserted between an upper conveying belt A and a lower conveying belt A and between an upper conveying belt B and a lower conveying belt B for conveying, and in the conveying process of the glass light guide plate, two sides of the glass light guide plate are respectively polished by a polishing wheel No. 1, a polishing wheel No. 2, a polishing wheel No. 3, a polishing wheel No. 4, a polishing wheel No. 5, a polishing wheel No. 6, a polishing wheel No. 7 and a polishing wheel No. 8 in sequence. In the grinding process, the infusion tube A conveys clear water to grinding positions of the polishing wheels No. 1, no. 2, no. 3, no. 4 and No. 5 so as to facilitate the cleaning of coarse grinding grains in the grinding process; and the infusion tube B conveys polishing liquid to the grinding positions of the polishing wheels No. 6, no. 7 and No. 8 so as to improve the polishing fineness and the polishing brightness of the side face of the glass light guide plate. The polishing device is simple in structure and convenient to use, polishes in the process of transmitting the light guide plate, can simplify the polishing process of the glass light guide plate, avoids the generation of polishing scratches, improves the polishing efficiency and improves the finish of a polishing surface. The motor B and the motor C respectively drive the roller A and the roller B to rotate, the upper conveyor belt A and the upper conveyor belt B are driven between the roller A and the roller C, and the lower conveyor belt A and the lower conveyor belt B are driven between the roller B and the roller D. The grinding efficiency of the diamond wheel is high, and the abrasive resistance is good, and the polishing wheels No. 1, no. 2, no. 3, no. 4 and No. 5 are used as the diamond wheel, so that the side surface roughness of the glass light guide plate is effectively removed to form a flat surface; the wool wheel is soft in texture, and the polishing wheels No. 6, no. 7 and No. 8 are all arranged as wool wheels, so that scratches on the side face of the glass light guide plate are effectively eliminated, and the side face smoothness of the light guide plate is improved.

Drawings

FIG. 1 is a schematic view of the external structure of the polishing apparatus of the present invention.

Fig. 2 is a schematic top view of the polishing apparatus of the present invention.

The reference numerals are: the polishing device comprises a backup plate A1, a backup plate B2, an upper conveying belt A3, an upper conveying belt B4, a lower conveying belt A5, a lower conveying belt B6, a polishing wheel No. 17, a polishing wheel No. 28, a polishing wheel No. 3, a polishing wheel No. 9, a polishing wheel No. 4, a polishing wheel No. 5 11, a polishing wheel No. 6 12, a polishing wheel No. 7, a polishing wheel No. 13, a polishing wheel No. 8 14, a motor A15, an infusion tube A16, an infusion tube B17, a motor B18, a motor C19, a roller A20, a roller B21, a rotating shaft A22, a rotating shaft B23, a roller C24, a roller D25 and a glass light guide plate 26.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

Reference is made to fig. 1 to 2.

The embodiment of the invention discloses a glass light guide plate side polishing device, which comprises a backup plate A1 and a backup plate B2 which are oppositely arranged, wherein an upper conveying belt A3 and an upper conveying belt B4 which are oppositely arranged, a lower conveying belt A5 and a lower conveying belt B6 which are oppositely arranged are arranged between the backup plate A1 and the backup plate B2, the upper conveying belt A3 is positioned above the lower conveying belt A5 and is arranged in parallel with the lower conveying belt A5, the upper conveying belt B4 is positioned above the lower conveying belt B6 and is arranged in parallel with the lower conveying belt B6, one side between the upper conveying belt A3 and the lower conveying belt A5 and one side between the upper conveying belt B4 and the lower conveying belt B6 are sequentially provided with a polishing wheel No. 1, a polishing wheel No. 28, a polishing wheel No. 3, a polishing wheel No. 9, a polishing wheel No. 4 10, a polishing wheel No. 5 11, a wheel No. 6 12, a polishing wheel No. 7 13 and a polishing wheel 8 from right to left, the polishing device comprises a backup plate A1 and a backup plate B2, wherein one side of the backup plate A1 and the backup plate B2 is fixedly connected with a plurality of parallel motors A15, a polishing wheel 7 No. 1, a polishing wheel 8 No. 2, a polishing wheel 9 No. 3, a polishing wheel 10 No. 4, a polishing wheel 11 No. 5, a polishing wheel 12 No. 6, a polishing wheel 13 No. 8 and a polishing wheel 14 are respectively driven by the motors A15 to rotate, a transfusion tube A16 is arranged above the polishing wheels 7, 8, 9, 10 and 11, a transfusion tube B17 is arranged above the polishing wheels 12, 13 and 14, clear water is input from the top end of the transfusion tube A16, and polishing liquid is input from the top end of the transfusion tube A17.

In the concrete assembly, one end of the upper conveyor belt A3, the upper conveyor belt B4, the lower conveyor belt A5 and the lower conveyor belt B6, which is close to the No. 1 polishing wheel 7, is defined as a feeding end, and one end of the upper conveyor belt A3, the upper conveyor belt B4, the lower conveyor belt A5 and the lower conveyor belt B6, which is close to the No. 8 polishing wheel 14, is defined as a discharging end. In use, the glass light guide plate 26 is inserted from the feeding end, one side of the glass light guide plate 26 is clamped by the upper conveyor belt A3 and the lower conveyor belt A5, the other side is clamped by the upper conveyor belt B4 and the lower conveyor belt B6, and the glass light guide plate 26 moves from the feeding end to the discharging end under the transmission of the upper conveyor belt A3, the upper conveyor belt B4, the lower conveyor belt A5 and the lower conveyor belt B6. In the conveying process of the glass light guide plate 26, two side surfaces of the glass light guide plate 26 are respectively and sequentially ground by a polishing wheel No. 17, a polishing wheel No. 28, a polishing wheel No. 3 9, a polishing wheel No. 4, a polishing wheel No. 10, a polishing wheel No. 5, a polishing wheel No. 11, a polishing wheel No. 6 12, a polishing wheel No. 7, a polishing wheel No. 13 and a polishing wheel No. 8, which are driven by a motor A15 to rotate. In the grinding process, the infusion tube A16 conveys clear water to grinding positions of the polishing wheels No. 1, no. 2, no. 3, no. 4, no. 10 and No. 5 and the polishing wheels 11 so as to facilitate the cleaning of coarse grinding grains in the grinding process; the infusion tube B17 conveys polishing liquid to the grinding positions of the polishing wheels 12, 13 and 14 to improve the polishing fineness and the side polishing brightness of the glass light guide plate 26. The polishing device is simple in structure and convenient to use, polishes in the process of transmitting the light guide plate, can simplify the polishing process of the glass light guide plate, avoids the generation of polishing scratches, improves the polishing efficiency and improves the finish of a polishing surface.

Based on the above embodiment, the motor B18 and the motor C19 that set up side by side are all fixedly connected with on one side of the backup plate A1 and the backup plate B2, the roller a20 and the roller B21 are fixedly connected with the output shaft of the motor B18 and the motor C19 respectively, the spindle a22 and the spindle B23 that set up side by side are all fixedly connected with on one side of the backup plate A1 and the backup plate B2, the roller C24 and the roller D25 that set up side by side are respectively and rotatably connected with one end of the spindle a22 and the spindle B23, the upper conveyor belt A3 and the upper conveyor belt B4 are all connected between the roller a20 and the roller C24, and the lower conveyor belt A5 and the lower conveyor belt B6 are all connected between the roller B21 and the roller D25. The motor B18 and the motor C19 respectively drive the roller A20 and the roller B21 to rotate, the upper conveyor belt A3 and the upper conveyor belt B4 are driven between the roller A20 and the roller C24, and the lower conveyor belt A5 and the lower conveyor belt B6 are driven between the roller B21 and the roller D25.

Based on the above embodiment, polishing wheels No. 1, no. 2, no. 3, no. 9, no. 4, no. 10, no. 5 and No. 11 are all diamond wheels, and polishing wheels No. 6, no. 12, no. 7, no. 13 and No. 8 are all wool wheels. The grinding efficiency of the diamond wheel is high, and the abrasive resistance is good, and the polishing wheels 7, 8, 9, 10 and 11 are all arranged as the diamond wheel, so that the rough side surface of the glass light guide plate 26 is effectively removed to form a flat surface; the wool wheel is soft in texture, and the polishing wheels 12, 13 and 14 are all arranged as wool wheels, so that the scratches on the side face of the glass light guide plate 26 are effectively eliminated, and the surface smoothness of the light guide plate is improved.

In order to enhance the grinding effect and reduce the scratch generation, the polishing wheel No. 1, polishing wheel No. 2, polishing wheel No. 8, polishing wheel No. 3, polishing wheel No. 9, polishing wheel No. 4, polishing wheel No. 10, polishing wheel No. 5, and polishing wheel No. 11 are 250 mesh diamond wheel, 320 mesh diamond wheel, 500 mesh diamond wheel, 700 mesh diamond wheel, and 900 mesh diamond wheel, respectively, based on the above embodiments.

In order to improve polishing light brightness and reduce scratch generation, based on the above embodiment, the polishing wheels No. 1, no. 2, no. 3, no. 9, no. 4, no. 10 are rotated in the same direction, the polishing wheels No. 5, no. 11, no. 6, no. 12, no. 7, no. 8, no. 14 are rotated in the same direction, and the polishing wheels No. 5, no. 11, no. 6, no. 12, no. 7, no. 13, no. 8 are rotated in the opposite direction to the polishing wheel No. 7.

In order to raise polishing light brightness, based on the above-described embodiments, polishing wheel No. 1, polishing wheel No. 2, polishing wheel No. 8, polishing wheel No. 3, polishing wheel No. 10, polishing wheel No. 5, polishing wheel No. 11, polishing wheel No. 6, polishing wheel No. 12, polishing wheel No. 7, polishing wheel No. 8, and polishing wheel No. 14 were rotated at 2800rpm, 4000rpm, 4500rpm, 1400rpm, respectively.

In order to improve the polishing efficiency and ensure the polishing quality, the transmission speeds of the upper conveyor belt A3, the upper conveyor belt B4, the lower conveyor belt A5 and the lower conveyor belt B6 are all 2.5m/min based on the embodiment.

The above examples only represent 1 embodiment of the present invention, which is described in more detail and is not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. The utility model provides a glass light guide plate side burnishing device, its characterized in that, including backup plate A (1) and backup plate B (2) of relative setting, backup plate A (1) with be provided with relative upper conveyor belt A (3) and upper conveyor belt B (4) of setting between backup plate B (2), relative lower conveyor belt A (5) and lower conveyor belt B (6) of setting, upper conveyor belt A (3) are located lower conveyor belt A (5) top and with lower conveyor belt A (5) set up side by side, upper conveyor belt B (4) are located lower conveyor belt B (6) top and with lower conveyor belt B (6) set up side by side, upper conveyor belt A (3) with one side between lower conveyor belt A (5) with upper conveyor belt B (4) with one side is all provided with polishing wheel (7), no. 2 wheel (8), no. 3 wheel (9), no. 4 wheel (10), no. 5) polishing wheel (7), no. 1 wheel (7), no. 2 wheel (7) are connected in proper order, no. 1 polishing wheel (7) and polishing wheel (8) are located in turn between lower conveyor belt A (6) polishing wheel (7), polishing wheel (7) and polishing wheel (7) are connected in proper order, no. 1, no. 2 polishing wheel (7) is connected to polishing wheel (3) The polishing device comprises a polishing wheel No. 4 (10), a polishing wheel No. 5 (11), a polishing wheel No. 6 (12), a polishing wheel No. 7 (13) and a polishing wheel No. 8 (14) which are respectively driven to rotate by a motor A (15), wherein a transfusion tube A (16) is arranged above the polishing wheel No. 1 (7), the polishing wheel No. 2 (8), the polishing wheel No. 3 (9), the polishing wheel No. 4 (10) and the polishing wheel No. 5 (11), a transfusion tube B (17) is arranged above the polishing wheel No. 6 (12), the polishing wheel No. 7 (13) and the polishing wheel No. 8 (14), clear water is input to the top end of the transfusion tube A (16), and polishing liquid is input to the top end of the transfusion tube B (17);

the device comprises a backup plate A (1) and a backup plate B (2), wherein one side of the backup plate A (1) is fixedly connected with a motor B (18) and a motor C (19) which are arranged in parallel, the output shafts of the motor B (18) and the motor C (19) are respectively fixedly connected with a roller A (20) and a roller B (21), one side of the backup plate A (1) and one side of the backup plate B (2) are fixedly connected with a rotating shaft A (22) and a rotating shaft B (23) which are arranged in parallel, one end of the rotating shaft A (22) and one end of the rotating shaft B (23) are respectively and rotatably connected with a roller C (24) and a roller D (25) which are arranged in parallel, an upper conveyor belt A (3) and an upper conveyor belt B (4) are respectively connected between the roller A (20) and the roller C (24), and a lower conveyor belt A (5) and a lower conveyor belt B (6) are respectively connected between the roller B (21) and the roller D (25).

The polishing device comprises a polishing wheel 1, a polishing wheel 2, a polishing wheel 3, a polishing wheel 9, a polishing wheel 4, a polishing wheel 10 and a polishing wheel 5, wherein the polishing wheel 11 is a diamond wheel, and the polishing wheel 6, the polishing wheel 7, the polishing wheel 13 and the polishing wheel 14 are wool wheels;

the polishing wheels (7), 2, 3, 4 and 5, 11 are respectively 250 mesh, 320 mesh, 500 mesh, 700 mesh and 900 mesh;

the polishing device comprises a polishing wheel (7) No. 1, a polishing wheel (8) No. 3, a polishing wheel (9) No. 4 and a polishing wheel (10), wherein the rotation directions of the polishing wheel (11) No. 6, a polishing wheel (13) No. 7 and a polishing wheel (14) are consistent, and the rotation directions of the polishing wheel (11) No. 6, the polishing wheel (12) No. 7, the polishing wheel (13) No. 8 and the polishing wheel (14) are opposite to the rotation direction of the polishing wheel (7) No. 1;

the rotating speeds of the polishing wheels No. 1 (7), no. 2 (8), no. 3 (9), no. 4 (10), no. 5 (11), no. 6 (12), no. 7 (13) and No. 8 (14) are 2800rpm, 4000rpm, 4500rpm, 1400rpm and 1400rpm respectively;

the transmission speeds of the upper conveyor belt A (3), the upper conveyor belt B (4), the lower conveyor belt A (5) and the lower conveyor belt B (6) are all 2.5m/min.