CN213107563U - Auxiliary device for sapphire crystal squaring and positioning - Google Patents

Abstract

The utility model relates to an auxiliary device of sapphire crystal evolution location, concretely relates to auxiliary device of sapphire crystal evolution cutting accurate positioning. The utility model discloses an at the multi-wire squaring machine of diamond wire water feeding machine shelf location auxiliary positioning device, carry out the accurate calibration to sapphire crystal evolution position through the device, the device structure wholly includes laser instrument, adjusting bolt, mount, guide rail, slider, its characterized in that the device mount is \ [ 21274 ], the shape, the top panel is fixed by adjusting bolt, the guide rail is located the mount bottom, slider embedding guide rail, the laser instrument is fixed in the slider below, the device during the use: the fixing frame of the device is parallelly fixed on a water supply frame of the diamond wire multi-line squaring machine through the adjusting bolt, the laser ray penetrates through the projection of the diamond wire on the surface of a crystal, the positioning is completed at the relative position of the diamond wire and a crystal standard line, the squaring cutting is started, the auxiliary device effectively improves the positioning accuracy of the crystal squaring, the operation is simple and convenient, and the operation time is saved.

Description

Auxiliary device for sapphire crystal squaring and positioning

Technical Field

Auxiliary device of sapphire crystal evolution location, concretely relates to auxiliary device of sapphire crystal evolution cutting accurate positioning

Background

Sapphire is an alumina single crystal, the Mohs hardness of the sapphire is second to that of diamond, and the sapphire has the mechanical and thermal properties of high strength, high thermal conductivity and high thermal shock resistance quality factor, is stable in physical and chemical properties and has good light transmission performance and insulating performance. The sapphire has a unique six-lattice structure and excellent mechanical properties, so that the sapphire becomes an ideal substrate material for semiconductor light-emitting diodes, large-scale integrated circuits and superconducting nano-structure films. With the continuous expansion of consumer electronics market, the demand of sapphire product market with low cost and high quality is increasing.

In order to improve the processing efficiency of sapphire crystals, the improvement of the processing technology and the research and development of auxiliary devices such as tool fixtures and the like are continuously required. At present, the matching of a multi-line evolution position and a diamond line position is completed by the multi-line evolution positioning of the sapphire crystal through manual visual observation and the use of a square ruler, and the positioning process is complicated, the positioning method is rough and the positioning efficiency is low. Therefore, it is necessary to design an auxiliary device for sapphire crystal cutting and positioning, which is simple in operation, accurate in positioning and high in efficiency.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model discloses a solve the multi-line evolution positioning process of sapphire crystal loaded down with trivial details, problem long, the inefficiency, the utility model provides an auxiliary device of sapphire crystal evolution location.

The utility model discloses a through following scheme implementation: an auxiliary device for sapphire crystal squaring and positioning comprises a slide rail, a slide block, a laser and two fixing frames;

the slide rail is horizontally arranged, the fixing frame is arranged at two ends of the slide rail, the slide block is arranged in the middle of the slide rail, and the laser is connected with the lower end of the slide block.

Further, the slide rail is I-shaped.

Furthermore, the fixing frame is in a shape of a letter 21274, and comprises an upper panel, a lower panel and side panels.

Furthermore, an adjusting bolt penetrating through the upper panel of the fixing frame is arranged on the upper panel of the fixing frame.

Still further, the bottom end of the adjusting bolt is provided with a circle of annular protrusion, and a block is arranged outside the annular protrusion

A shaped plate.

Further, the fixing frame comprises an external frame guide sliding block, a positioning sliding block and a positioning bolt;

the outer frame comprises

Forming an upper panel, a vertical side panel and a bottom transverse panel;

the upper shaping panel, the vertical side panel and the bottom transverse panel form a C-shaped structure;

the top of the vertical side panel is provided with a vertical through groove, one side of the positioning slide block is embedded in the vertical through groove,

the positioning slide block and the guide slide block are both trapezoidal, the inclined plane of the positioning slide block and the inclined plane of the guide slide block are arranged in a stacked mode, one inclined plane of the positioning slide block and the guide slide block is provided with a sliding groove, and the other inclined plane of the positioning slide block and the guide slide block is provided with a protrusion embedded with the sliding groove;

one end of the positioning bolt passes through

The rear part of the vertical plate of the upper panel is connected with the guide slide block by screw thread, and the positioning bolt is arranged

Two sides of the upper panel are provided with a section of positioning section;

or one end of the positioning bolt passes through

The vertical plate of the upper panel is in threaded connection with the vertical plate, the positioning bolt penetrates into the guide sliding block, and the end part of the positioning bolt penetrating into the guide sliding block is provided with a section of limiting section.

Still further, the slide block is

And (4) shaping.

Furthermore, the upper end of slider inlays the dress on the slide rail.

Still further, the laser is connected with the sliding block through a bolt.

Preferably, the laser is a red or green light projecting light laser.

Has the advantages that:

1. the utility model discloses only need open the laser instrument and can confirm the accuracy of crystal evolution position, operation process is simple.

2. The utility model discloses a positioning mode of laser ray, diamond wire and the three-line coincidence of crystal standard line carries out crystal evolution location, and the precision is high.

3. The utility model discloses an imaging of the colored light of laser instrument of visualing on the crystal can be accomplished the evolution location, improves work efficiency.

4. When the device is used: the fixing frame of the device is fixed on a water supply frame of the diamond wire multi-line squaring machine in parallel through an adjusting bolt, the laser ray penetrates through the projection of the diamond wire on the surface of the crystal and the relative position of the diamond wire and the standard crystal wire, the positioning is completed, and the squaring cutting is started. The auxiliary device effectively improves the crystal squaring and positioning accuracy, is simple and convenient to operate, and saves the operation time.

Drawings

FIG. 1 is a front view of embodiment 1;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a left side view of FIG. 1;

FIG. 4 is a front view of embodiment 2;

FIG. 5 is a top view of FIG. 1;

FIG. 6 is a left side view of FIG. 1;

FIG. 7 is a left side view of FIG. 6;

FIG. 8 is a first view of the present invention mounted on a water supply frame;

fig. 9 is a schematic view of the present invention fixed to a water supply frame.

Detailed Description

The first embodiment is as follows: the utility model provides an auxiliary device of sapphire crystal evolution location which characterized in that: the device comprises a slide rail 3, a slide block 4, a laser 5 and two fixing frames 2;

the slide rail 3 is horizontally arranged, the fixing frame 2 is arranged at two ends of the slide rail 3, the slide block 4 is arranged in the middle of the slide rail 3, and the laser 5 is connected with the lower end of the slide block.

The second embodiment is as follows: the slide rail (3) is I-shaped.

In the present embodiment: the length of the slide rail is 15-25 cm, the length of the end face is 1-2 cm, the width is 1-2 cm,

other facts are the same as the first embodiment.

The third concrete implementation mode: the fixing frame 2 is in a shape of a letter 21274, and the fixing frame 2 consists of an upper panel, a lower panel and side panels.

In the embodiment, the height of the side plate is 8-10 cm, the width of the side plate is 2-3 cm, and the thickness of the side plate is 0.4-0.6 cm; the length of the upper panel is 2-3 cm, and the width of the upper panel is 2-3 cm; the lower panel is the same size as the upper panel.

Other facts are the same as those of the second embodiment.

The fourth concrete implementation mode: and an adjusting bolt 1 penetrating through the upper panel of the fixing frame is arranged on the upper panel of the fixing frame 2.

In the embodiment, the adjusting bolt 1 moves longitudinally to press the water supply rack to complete fixing.

Other facts are the same as the third embodiment.

The fifth concrete implementation mode: the bottom end of the adjusting bolt 1 is provided with a circle of annular protrusion, and a block is arranged outside the annular protrusion

A shaped plate 6.

In this embodiment, the adjusting bolt 1 drives

The shaped plate 6 is moved in the vertical direction,

the shaped plate 6 is buckled at the side part of the water supply frame, and the fixed frame 2 is arranged on the water supply frame and is separated from the water supply frame along the direction vertical to the horizontal direction.

The other facts are the same as in the fourth embodiment.

The sixth specific implementation mode: the fixed frame 2 comprises an external frame 2-1, a guide sliding block 2-2, a positioning sliding block 2-3 and a positioning bolt 2-4;

the outer frame 2-1 comprises

Forming an upper panel, a vertical side panel and a bottom transverse panel;

the upper shaping panel, the vertical side panel and the bottom transverse panel form a C-shaped structure;

the top of the vertical side panel is provided with a vertical through groove, one side of the positioning slide block 2-2 is embedded in the vertical through groove,

the positioning slide block 2-3 and the guide slide block 2-2 are both trapezoidal, the inclined plane of the positioning slide block 2-3 and the inclined plane of the guide slide block 2-2 are arranged in a stacked mode, one inclined plane of the positioning slide block 2-3 and the guide slide block 2-2 is provided with a sliding groove, and the other inclined plane of the positioning slide block 2-3 and the guide slide block 2-2 is provided with a protrusion embedded with the sliding groove;

one end of the positioning bolt 2-4 passes through

The back of the vertical plate of the upper panel is connected with a guide slide block 2-2 by screw thread, and a positioning bolt 2-4 is arranged on

Two sides of the upper panel are provided with a section of positioning section;

or one end of the positioning bolt 2-4 passes through

The vertical plate of the upper panel is in threaded connection with the vertical plate, the positioning bolt 2-4 penetrates into the guide sliding block 2-2, and the end part of the positioning bolt 2-4 penetrating into the guide sliding block 2-2 is provided with a limiting section.

In the embodiment, the positioning bolt 2-4 is rotated by the side part to drive the guide slide block 2-2 to move in the horizontal direction, the guide slide block 2-2 pushes the positioning slide block 2-3 to move along the sliding groove in the vertical direction, and the positioning slide block 2-3 compresses the water supply rack to complete fixing.

Other facts are the same as those of the second embodiment.

The seventh embodiment: the sliding block 4 is

And (4) shaping.

In the present embodiment: the height of the sliding block 4 is 4-5 cm, and the width of the sliding block 4 is 4-5 cm.

Other facts are the same as the first embodiment.

The specific implementation mode is eight: the upper end of the sliding block 4 is embedded on the sliding rail 3.

Other facts are the same as the first embodiment.

The specific implementation method nine: the laser 5 is connected with the sliding block 4 through a bolt.

Other facts are the same as the first embodiment.

The detailed implementation mode is ten: the laser 5 is a red light projection laser or a green light projection laser.

Other facts are the same as the first embodiment.

The working principle is as follows: the fixing frame of the device is fixed on a water supply rack of the diamond wire multi-wire squaring machine in parallel, the guide rail is positioned above a lower panel of the fixing frame and is fixed at the lower part of the water supply rack through the fixing frame and adjusting bolts, the slide block is embedded into the guide rail, and the laser is fixed below the slide block through two fixing bolts at the upper part of the laser. The laser ray passes through the diamond line and projects to the surface of the crystal, and the orientation of the crystal on the rotary table is adjusted through the relative position of the ray and the standard line of the crystal, so that the aim of accurate positioning is fulfilled.

Example 1:

the fixing frame 2 is sleeved on the water supply frame, the adjusting bolt 1 is rotated, and the adjusting bolt 1 drives

The shaped plate 6 is moved in the vertical direction,

the shaped plate 6 is buckled at the side part of the water supply rack, and the fixed frame 2 is placed on the water supply rack and is separated from the water supply rack along the direction vertical to the horizontal direction; after the auxiliary device is installed, the oriented crystal is fixed on a rotary table of the diamond multi-wire squaring machine, the rotary table is adjusted to enable the crystal to be located at the position below the auxiliary device, a laser 5 fixed on a side plate of a sliding block 4 is started, the sliding block 4 embedded on a guide rail 3 in a sliding mode drives rays emitted by the laser 5 to move in parallel, and in order to keep the sliding block 4 stable in the sliding process, fixing frames 2 at two ends of the guide rail 3 are fixed on a water supply rack of the squaring machine. When the probe of the laser 5 is positioned right above the diamond wire, rays penetrate through the diamond wire to generate projection on the surface of the crystal, the projection and the position of the standard line of the crystal are observed, and when the relative position meets the technical requirement, the accurate positioning of the crystal evolution is finished; when the relative position does not meet the technical requirements, the position of the crystal is slowly adjusted to enable the relative position of the standard line and the projection of the crystal to meet the technical requirements, and the accurate positioning of the crystal evolution is completed. After the positioning is finished, the next operation can be continuously executed。

Example 2:

the fixing frame 2 is sleeved on the water supply rack, the lateral part rotates the positioning bolt 2-4 to drive the guide slide block 2-2 to move in the horizontal direction, the guide slide block 2-2 pushes the positioning slide block 2-3 to move along the sliding groove in the vertical direction, and the positioning slide block 2-3 tightly presses the water supply rack to complete fixing. After the auxiliary device is installed, the oriented crystal is fixed on a rotary table of the diamond multi-wire squaring machine, the rotary table is adjusted to enable the crystal to be located at the position below the auxiliary device, a laser 5 fixed on a side plate of a sliding block 4 is started, the sliding block 4 embedded on a guide rail 3 in a sliding mode drives rays emitted by the laser 5 to move in parallel, and in order to keep the sliding block 4 stable in the sliding process, fixing frames 2 at two ends of the guide rail 3 are fixed on a water supply rack of the squaring machine. When the probe of the laser 5 is positioned right above the diamond wire, rays penetrate through the diamond wire to generate projection on the surface of the crystal, the projection and the position of the standard line of the crystal are observed, and when the relative position meets the technical requirement, the accurate positioning of the crystal evolution is finished; when the relative position does not meet the technical requirements, the position of the crystal is slowly adjusted to enable the relative position of the standard line and the projection of the crystal to meet the technical requirements, and the accurate positioning of the crystal evolution is completed. After the positioning is finished, the next operation can be continuously executed.

Claims (10)

1. The utility model provides an auxiliary device of sapphire crystal evolution location which characterized in that: the device comprises a slide rail (3), a slide block (4), a laser (5) and two fixing frames (2);

the sliding rail (3) is horizontally arranged, the fixing frame (2) is arranged at the two ends of the sliding rail (3), the sliding block (4) is arranged in the middle of the sliding rail (3), and the laser (5) is connected with the lower end of the sliding block.

2. The auxiliary device for sapphire crystal open-square positioning of claim 1, wherein: the slide rail (3) is I-shaped.

3. The auxiliary device for sapphire crystal open-square positioning according to claim 2, wherein: the fixing frame (2) is in a shape of a letter 21274, and the fixing frame (2) comprises an upper panel, a lower panel and side panels.

4. The auxiliary device for sapphire crystal open-square positioning of claim 3, wherein: and an adjusting bolt (1) penetrating through the upper panel of the fixing frame (2) is arranged on the upper panel of the fixing frame (2).

5. The auxiliary device for sapphire crystal open-square positioning of claim 4, wherein: the bottom end of the adjusting bolt (1) is provided with a circle of annular protrusion, and a block is arranged outside the annular protrusion

A shaped plate (6).

6. The auxiliary device for sapphire crystal open-square positioning according to claim 2, wherein: the fixing frame (2) comprises an external frame (2-1), a guide sliding block (2-2), a positioning sliding block (2-3) and a positioning bolt (2-4);

the outer frame (2-1) comprises

Forming an upper panel, a vertical side panel and a bottom transverse panel;

the upper shaping panel, the vertical side panel and the bottom transverse panel form a C-shaped structure;

the top of the vertical side panel is provided with a vertical through groove, one side of the positioning slide block (2-3) is embedded in the vertical through groove,

the positioning slide block (2-3) and the guide slide block (2-2) are both trapezoidal, the inclined plane of the positioning slide block (2-3) and the inclined plane of the guide slide block (2-2) are arranged in a stacked mode, one inclined plane of the positioning slide block (2-3) and the guide slide block (2-2) is provided with a sliding groove, and the other inclined plane of the positioning slide block (2-3) and the guide slide block (2-2) is provided with a protrusion embedded with the sliding groove;

one end of the positioning bolt (2-4) passes through

The rear part of a vertical plate of the upper panel is in threaded connection with a guide sliding block (2-2), and a positioning bolt (2-4) is arranged

Two sides of the upper panel are provided with a section of positioning section;

or one end of the positioning bolt (2-4) passes through

The vertical plate of the upper panel is in threaded connection with the vertical plate, the positioning bolt (2-4) penetrates into the guide sliding block (2-2), and the end part of the positioning bolt (2-4) penetrating into the guide sliding block (2-2) is provided with a limiting section.

7. The auxiliary device for sapphire crystal open-square positioning of claim 1, wherein: the sliding block (4) is

And (4) shaping.

8. The auxiliary device for sapphire crystal open-square positioning of claim 1, wherein: the upper end of the sliding block (4) is embedded on the sliding rail (3).

9. The auxiliary device for sapphire crystal open-square positioning of claim 1, wherein: the laser (5) is connected with the sliding block (4) through a bolt.

10. The auxiliary device for sapphire crystal open-square positioning of claim 1, wherein: the laser (5) is a red light projection laser or a green light projection laser.

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