TWM467665U - Cutting equipment for optical glass and its diamond cutter - Google Patents

Description

Cutting device for optical glass and diamond knife therefor

This creation relates to a cutting device, in particular to an optical glass cutting device and a diamond knife.

Due to the booming development of the mobile phone and LCD TV industry in recent years, the demand for liquid crystal glass substrates has soared. In order to solve the cutting requirements of glass substrates, the laser cutting equipment has been developed for processing. The laser cutting equipment has uniform heating and heat. The advantages of small area of influence, obviously become the mainstream of glass substrate cutting processing in the next generation of optoelectronic industry.

Most of the existing laser cutting techniques focus on the configuration relationship between the heat source and the cold source to obtain the best laser cutting parameters, and the cutting speed and the smoothness of the cutting surface are relatively rare. The creator has innovated and developed the case as a research topic, so as to solve the problem that the cutting speed in the industry is slow and time-consuming, and cannot meet the demand for mass production, and the surface cut by the laser beam also exists. The problem of poor finish.

One of the aims of the present invention is to provide a cutting device for optical glass and a diamond knife thereof, which use the cut marks generated by the diamond knife to guide the cutting of the laser beam, and can ensure the cutting precision and the cutting of the optical glass. The finish of the face.

In order to achieve the above object, the present invention provides a cutting apparatus for optical glass, comprising a base, a moving mechanism, a storage table, a cantilever mechanism, a cutter device and a laser cutting device, the moving mechanism is installed. At the stand and capable of linear movement; the stage is disposed on the moving mechanism and provides the optical glass fixing; the cantilever mechanism includes a portion that is disposed corresponding to a moving range of the stage; the tool device Mounted in the seat, the cutter device includes a diamond knife, the diamond cutter includes a shank portion and a blade portion disposed at one end of the shank portion, the blade portion including all the edge ridge lines formed by the intersection of the two inclined surfaces The two inclined surfaces are formed with an inner angle ranging from 70° to 120°; the laser cutting device includes a laser beam and a microscope objective mounted on the seat. A microscope objective is used to focus the laser beam; wherein the optical glass guides the cutting of the laser beam with a knife mark cut by the diamond knife.

In order to achieve the above object, the present invention provides a diamond knife for cutting an optical glass, comprising a shank portion and a blade portion, the blade portion being disposed at one end of the shank portion, the blade portion comprising intersecting by two inclined faces And all the ridge lines formed, the two inclined faces are formed to have an inner angle, and the inner angle ranges from 70° to 120°.

The creation also has the following effects: the combination of the diamond knife and the laser beam to the optical glass can greatly increase the processing speed to meet the needs of mass production. By using the angle of the diamond knife, not only can the product yield rate be improved, but also the tool life can be extended, and the tool cost can be reduced.

<this creation>

1‧‧‧ machine base

2‧‧‧Mobile agencies

21, 22‧‧‧ moving components

3‧‧‧Stores

31‧‧‧Rotating components

4‧‧‧Cantilever mechanism

41‧‧‧ Arms

42‧‧‧

5‧‧‧Tools

50‧‧‧Diamond knife

51‧‧‧Knife

52‧‧‧Knife

521, 522‧‧‧ sloped surface

523‧‧‧ cutting edge ridge

524‧‧‧Spot plane

525, 526‧‧‧ side bevel

Θ1‧‧‧ inside angle

Θ2‧‧‧ front bevel

Θ3‧‧‧ angle

55‧‧‧Knife holder

551, 552, 553‧‧‧ transmission components

6‧‧‧Laser cutting device

61‧‧‧Laser tube

611‧‧‧Laser beam

62‧‧‧Microscope objective

7‧‧‧Cool supply mechanism

71‧‧‧ sprinkler head

9‧‧‧Optical glass

The first picture is a three-dimensional appearance of the creation cutting device.

The second figure is a stereoscopic view of another perspective of the present cutting device.

The third figure is a three-dimensional appearance of the holder of the creation cutting device.

The fourth figure is a front view of the creation cutting device.

The fifth picture is the use state diagram (1) of the creation cutting device.

The sixth picture is the use state diagram of the creation cutting device (2).

The seventh picture is a three-dimensional appearance of the diamond knife.

The eighth figure is an oblique view of the blade portion of the seventh figure.

The ninth diagram is a top view of the seventh figure.

The tenth figure is a side view of the seventh figure.

The detailed description and technical content of the present invention are described below with reference to the drawings, but the drawings are only for reference and explanation, and are not intended to limit the creation.

Please refer to the first to fourth figures. The present invention provides a cutting device for optical glass, which mainly comprises a base 1, a moving mechanism 2, a storage table 3, a cantilever mechanism 4, and a cutter device 5. And a laser cutting device 6.

The base 1 is provided as a base for the various mechanisms and devices; the moving mechanism 2 is mounted above the base 1, and the moving mechanism 2 is mainly composed of two sets of moving members 21, 22 that move perpendicularly to each other, the two groups The members 21, 22 are moved and can generate linear movement of two or more.

The stage 3 is placed on the axial movement mechanism 2, and the optical glass 9 is provided and fixed. The stage 3 is driven by the displacement of the moving mechanism 2, and the stage 3 itself is also provided with a rotating member 31. It enables it to make a rotary motion on the moving mechanism 2.

The cantilever mechanism 4 includes an arm portion 41 and a base portion 42 connected to one end of the arm portion 41. The seat portion 42 is disposed corresponding to the movement range of the storage table 3. The tool device 5 is mounted on the seat portion 42, and includes a diamond knife 50 and a tool holder 55 for mounting and fixing the diamond knife 50. The tool holder 55 is composed of three sets of transmission members 551, 552, and 553, respectively, by different motors and Components such as slide rails are formed to enable the tool holder 55 to produce linear movement in three dimensions. The details of the diamond knife 50 are described below.

The laser cutting device 6 includes a laser tube 61 disposed in the arm portion 41 and a microscope objective 62 mounted on the seat portion 42 for using a laser generated by the laser tube 61. The light beam 611 is focused on the optical glass 9 to be processed (refer to the fifth figure).

Further, the cutting apparatus of the present invention further includes a coolant supply mechanism 7 having a water jet head 71 which is mounted on the seat portion 42 and located at a position opposite to the cutter device 5 for output The coolant is supplied to provide a laser beam 611 during the cutting process so that the optical glass 9 can be cooled and cooled.

Referring to the fifth to sixth, the cutting device can be applied to the cutting process of the optical glass. In use, the optical glass 9 to be processed is fixed by a jig mounted above the stage 3, and the transmission in the tool holder 55 is utilized. The downward movement of the member 553 causes the diamond knife 50 to approach the direction of the optical glass 9, and the movement of the moving member 22 in the moving mechanism 2 to drive the stage 3 and the optical glass 9 toward the diamond knife 50, and The cutting edge ridge 523 of the diamond blade 50 first cuts the surface of the optical glass 9; then, the optical glass 9 is cut by the laser beam 611 with the aforementioned blade mark as a guide. Further, in conjunction with the application of the coolant supply mechanism 7, the water jet head 71 outputs a cooling liquid to cool and cool the cutting position of the laser beam 611. In this way, not only the cutting precision of the optical glass and the smoothness of the cut surface can be ensured, but also the processing speed can be effectively increased to meet the demand for mass production.

Referring to Figures 7 to 10, the present invention provides a diamond knife for cutting optical glass. The diamond knife 50 mainly includes a shank portion 51 and a blade portion 52. The shank portion 51 is made of a material such as high carbon steel, and has a substantially rectangular shape. A diamond is embedded in one end of the shank portion 51 to form a blade portion 52 together with the above-mentioned material such as high carbon steel. The blade portion 52 includes all the edge ridge lines 523 formed by the intersection of the two inclined surfaces 521 and 522. The two inclined surfaces 521 and 522 are formed with an inner angle Θ1, and the inner angle Θ1 ranges from 70° to 120°. . The range of the inner angle Θ1 is preferably between 80° and 108°, and the inner angle Θ1 is preferably 104.5°. When the inner angle Θ1 is larger than 120°, it is easy to cause micro-cracking marks on the surface of the optical glass 9 and the depth of the cut is insufficient, resulting in a low yield of the product. When the inner angle Θ1 is less than 70°, the life of the diamond knife 50 is short and the use cost of the tool is increased.

Further, the blade portion 52 further includes a static point plane 524 perpendicular to the center line of the shank portion 51, the dead spot plane 524 being in contact with the end of the cutting edge ridge 523. A forward bevel Θ2 is arranged around the extension line of the static spot plane 524 and the cutting edge ridge 523. The range of the bevel angle Θ2 ranges from 30° to 60°, wherein the range of the front bevel Θ2 ranges from 38° to 52°. Between ° is preferred. When the inner angle Θ2 is larger than 60°, it is easy to cause an impact with the surface of the optical glass 9 during cutting, resulting in a shortened service life of the cutter. When the inner angle Θ2 is less than 30°, the cutting edge ridge 523 cannot be cut on the machined surface of the optical glass 9.

Further, the blade portion 52 further includes two side slopes 525 and 526 located behind the movement paths of the two inclined surfaces 521 and 522. The angles Θ3 formed by the two side slopes 525 and 526 are between 40° and 60°. . The angle Θ3 is preferably 50°. When the inner angle Θ3 is greater than 60°, it is easy to cause microcracking marks on the surface of the optical glass. When the inner angle Θ3 is less than 40°, the service life of the tool is short. Furthermore, the end points of the two side slopes 525, 526 are in contact with the static point plane 524, and a width of 0.2 to 0.4 millimeters (mm) is formed in the static point plane 524.

In summary, the cutting device for optical glass and its diamond knife can achieve the intended purpose of use, and solve the lack of knowledge, and because of the novelty and progress, fully comply with the requirements of the new patent application. If you apply for an application under the Patent Law, please check and grant the patent in this case to protect the rights of the creator.

1‧‧‧ machine base

2‧‧‧Mobile agencies

21, 22‧‧‧ moving components

3‧‧‧Stores

31‧‧‧Rotating components

4‧‧‧Cantilever mechanism

41‧‧‧ Arms

42‧‧‧

5‧‧‧Tools

6‧‧‧Laser cutting device

61‧‧‧Laser tube

62‧‧‧Microscope objective

7‧‧‧Cool supply mechanism

71‧‧‧ sprinkler head

Claims (13)

A cutting device for optical glass, comprising:
a base;
a moving mechanism mounted on the base and capable of linear movement;
a stage disposed on the moving mechanism and providing the optical glass to be fixed;
a cantilever mechanism includes a portion that is disposed corresponding to a range of movement of the stage;
a cutter device mounted on the seat, the cutter device comprising a diamond knife, the diamond cutter comprising a shank portion and a blade portion disposed at one end of the shank portion, the blade portion comprising the intersection of two inclined surfaces All of the ridge lines, the two inclined faces are formed with an inner angle, the inner angle is between 70 ° and 120 °; and a laser cutting device includes a laser beam and is mounted on the seat a microscope objective for focusing the laser beam;
The optical glass described therein guides the cutting of the laser beam with a knife mark cut by the diamond knife. A cutting apparatus for an optical glass according to claim 1, wherein the moving mechanism includes two sets of moving members that move perpendicularly to each other to enable the stage to generate at least two-dimensional linear movement. A cutting apparatus for an optical glass according to claim 1, wherein the stage includes a rotating member that is capable of rotational movement on the moving mechanism. A cutting apparatus for optical glass according to claim 1, wherein the cutter apparatus further comprises a holder for mounting the diamond knife, the holder comprising three sets of transmission members to enable the holder to generate at least three dimensions. Linear movement. A cutting apparatus for an optical glass according to claim 1, further comprising a coolant supply mechanism having a water jet head mounted on the seat and located opposite the cutter device position. A diamond knife for cutting optical glass, including:
a shank portion; and a blade portion disposed at one end of the shank portion, the blade portion including all of the edge ridge lines formed by the intersection of the two inclined faces, the two inclined faces are circumferentially formed with an inner angle, the range of the inner angle Between 70 ° ~ 120 °. A diamond knife for cutting an optical glass according to claim 6, wherein the inner angle is between 80° and 108°. A diamond knife for cutting an optical glass according to claim 7, wherein the inner angle is 104.5. A diamond knife for cutting an optical glass according to claim 6, wherein the blade portion further comprises a static point plane perpendicular to a center line of the shank portion, the static point plane and an end point of the cutting edge ridge line Docked. The diamond knife for cutting an optical glass according to claim 9, wherein the extension line of the static point plane and the cutting edge ridge line are provided with a front bevel angle, and the front bevel angle ranges from 30° to 60°. between. A diamond knife for cutting an optical glass according to claim 10, wherein the front bevel angle is between 38° and 52°. The diamond knife for cutting an optical glass according to claim 6, wherein the blade portion further comprises two side slopes located behind the moving path of the two inclined surfaces, and the angle formed by the two side slopes is 40 Between °~60°. A diamond knife for cutting an optical glass according to claim 12, wherein the two sides of the bevel are surrounded by an angle of 50°.