CN204036676U - Crystal-cut tool after a kind of many axial location of sapphire monocrystal and location complete - Google Patents

Abstract

The utility model disclose the many axial location of a kind of sapphire monocrystal and location complete after crystal-cut tool, be made up of interior microscope carrier, outer microscope carrier and bracing frame, interior microscope carrier is installed in the mode that can relatively rotate in center outside above microscope carrier, interior microscope carrier is liftable microscope carrier, in the mode that can relatively rotate, bracing frame is installed around microscope carrier outside, bracing frame is liftable frame, and the top of bracing frame is provided with radial seat.The utility model only need a tool just can arrange in pairs or groups X-ray position indicator complete multiaxis to crystal location, significantly reduce the technology difficulty that X-ray is located and crystal is fixing, and because tool itself need not cut microscope carrier together with on crystal, guarantee that tool itself can not be damaged, also significantly reduce production cost.

Description

Crystal-cut tool after a kind of many axial location of sapphire monocrystal and location complete

Technical field

The utility model relate to the many axial location of sapphire monocrystal and location complete after crystal-cut tool.

Background technology

Current the used tool of existing X-ray machine position indicator collocation; the location of single axial only can be done for crystal; that is once can only locate a crystal axis to, cannot do multiaxis to location, at present sapphire screen protective cover make then need multiaxis to location.With under existing tool operation, crystal location needs two tools just can complete.First crystal put first tool and utilize X-ray position indicator to complete the location of first axis, after completing location, crystal is fixed on this tool, and this tool is put second tool together with crystal, and X-ray position indicator is utilized to complete the location of second axis, after completing location, crystal is fixed on this tool, finally rotate a certain angle again according to market product demand, after completing said procedure, these two tools are served cutting processing on cutting machine together with crystal.The operation that above-mentioned X-ray location and crystal are fixed is very complicated, and operating, it is consuming time to take a lot of work, and single tool cannot be used to complete location, improve the degree of difficulty on producing, add the lifting of long brilliant technique, crystal weight is more and more heavier, also causes the difficulty that prior art is implemented.And because tool must cut microscope carrier together with on crystal, improve the chance of tool damage, also improve production cost.

Utility model content

Crystal-cut tool after the purpose of this utility model is to provide the many axial location of a kind of sapphire monocrystal and location to complete, significantly to reduce the technology difficulty that X-ray is located and crystal is fixing, and guarantee that tool itself can not be damaged, also significantly reduce production cost.

In order to reach above-mentioned purpose, solution of the present utility model is:

Crystal-cut tool after a kind of many axial location of sapphire monocrystal and location complete, be made up of interior microscope carrier, outer microscope carrier and bracing frame, interior microscope carrier is installed in the mode that can relatively rotate in center outside above microscope carrier, interior microscope carrier is liftable microscope carrier, in the mode that can relatively rotate, bracing frame is installed around microscope carrier outside, bracing frame is liftable frame, and the top of bracing frame is provided with radial seat.

Described interior microscope carrier is made up of overcoat and Nei Tai, and overcoat is arranged on outer microscope carrier in the mode that can relatively rotate, and interior can the mode of OQ t be nested with in overcoat.

Support frame as described above is made up of outer tube and interior pipe, and outer tube is arranged on outer microscope carrier in the mode that can relatively rotate, and the mode of interior Guan Yike OQ t is nested with in outer tube.

Around described outer microscope carrier, three bracing frames are installed.

A kind of sapphire monocrystal multiaxis is to localization method, and its step is as follows:

The first step, cuts flat by sapphire single-crystal build tail;

Second step, will cut flat sapphire monocrystal and be placed on upper plate, and use wax or glue to fix sapphire monocrystal by discarded crystalline material;

3rd step, is placed in the radial seat of bracing frame by the upper plate being placed with sapphire monocrystal, adjustment bracing frame, and uses X-ray to locate A direction of principal axis;

4th step, is placed on lower shoe on interior microscope carrier, microscope carrier or outer microscope carrier in rotating, and uses X-ray location C axle or M direction of principal axis, and lower shoe is fixed on the position of zero;

5th step, rotates special angle by relative with outer microscope carrier for interior microscope carrier;

6th step, risen by interior microscope carrier and lower shoe is risen, and use wax or glue upper plate and lower shoe to be fixed by discarded crystalline material, sapphire monocrystal is fixed with upper plate and lower shoe;

7th step, screws out bracing frame, and radial seat is come off upper plate, and lower shoe suspention is got up, and puts on following process equipment (band saw or scroll saw), completes location.

After adopting such scheme, the utility model only need a tool just can arrange in pairs or groups X-ray position indicator complete multiaxis to crystal location, significantly reduce the technology difficulty that X-ray is located and crystal is fixing, and because tool itself need not cut microscope carrier together with on crystal, guarantee that tool itself can not be damaged, also significantly reduce production cost.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is technological process flow chart of the present utility model;

Fig. 3 is processing step schematic diagram one of the present utility model;

Fig. 4 is processing step schematic diagram two of the present utility model;

Fig. 5 is processing step schematic diagram three of the present utility model;

Fig. 6 is processing step schematic diagram four of the present utility model;

Fig. 7 is processing step schematic diagram five of the present utility model;

Fig. 8 is processing step schematic diagram six of the present utility model;

Fig. 9 is processing step schematic diagram seven of the present utility model.

Detailed description of the invention

As shown in Figure 1, the utility model disclose the many axial location of a kind of sapphire monocrystal and location complete after crystal-cut tool, be made up of interior microscope carrier 1, outer microscope carrier 2 and bracing frame 3.

Interior microscope carrier 1 is installed in the mode that can relatively rotate in center outside above microscope carrier 2, and interior microscope carrier 1 is liftable microscope carrier.Concrete structure can as shown in Figure 1, and interior microscope carrier 1 is made up of overcoat 11 and Nei Tai 12, and overcoat 11 is arranged on outer microscope carrier 2 in the mode that can relatively rotate, and interior 12 can the mode of OQ t be nested with in overcoat 11.

Install bracing frame 3 in the mode that can relatively rotate around microscope carrier 2 outside, bracing frame 3 has three for good.Bracing frame 3 is liftable frame, and the top of bracing frame 3 is provided with radial seat 31.Concrete structure can as shown in Figure 1, and bracing frame 3 is made up of outer tube 32 and interior pipe 33, and outer tube 32 is arranged on outer microscope carrier 2 in the mode that can relatively rotate, and interior pipe 33 is can the mode of OQ t be nested with in outer tube 33.

As shown in Fig. 2 to Fig. 9, the utility model also discloses a kind of sapphire monocrystal multiaxis to localization method, and its step is as follows:

The first step, cuts flat by sapphire single-crystal build tail, as shown in Figure 3;

Second step, will cut flat sapphire monocrystal 6 and be placed on upper plate 4, and use wax or glue to fix sapphire monocrystal 6 by discarded crystalline material 5, as shown in Figure 4;

3rd step, is placed in the radial seat 31 of bracing frame 3 by the upper plate 4 being placed with sapphire monocrystal 6, adjustment bracing frame 3, and uses X-ray to locate A direction of principal axis, as shown in Figure 5;

4th step, is placed on lower shoe 7 on interior microscope carrier 2, microscope carrier 2 or outer microscope carrier 1 in rotating, and uses X-ray location C axle or M direction of principal axis, and lower shoe 7 is fixed on the position of zero, as shown in Figure 5;

5th step, rotates special angle (as 45 °) by relative with outer microscope carrier 1 for interior microscope carrier 2, as shown in Figure 6; So-called special angle refers to the different angles that each downstream manufacturers requires, such as: 45 ° is the angle required by current apple;

6th step, rises interior microscope carrier 2 and lower shoe 7 is risen, and use wax or glue upper plate 4 and lower shoe 7 to be fixed by discarded crystalline material 5, and sapphire monocrystal 6 is fixed with upper plate 4 and lower shoe 7, as shown in Figure 7;

7th step, screws out bracing frame 3, and radial seat 31 is come off upper plate 4, and is suspended in midair by lower shoe 7, puts on following process equipment 8 (band saw or scroll saw), completes location, as shown in Figure 8 and Figure 9.

From above-mentioned technique, the utility model only need a tool just can arrange in pairs or groups X-ray position indicator complete multiaxis to crystal location, and microscope carrier need do not cut together with on crystal due to tool itself, X-ray location and the fixing technique of crystal simple, reduce production cost.

Claims (4)

1. the many axial location of sapphire monocrystal and location complete after crystal-cut tool, it is characterized in that: be made up of interior microscope carrier, outer microscope carrier and bracing frame, interior microscope carrier is installed in the mode that can relatively rotate in center outside above microscope carrier, interior microscope carrier is liftable microscope carrier, in the mode that can relatively rotate, bracing frame is installed around microscope carrier outside, bracing frame is liftable frame, and the top of bracing frame is provided with radial seat.

2. the many axial location of a kind of sapphire monocrystal as claimed in claim 1 and location complete after crystal-cut tool, it is characterized in that: interior microscope carrier is made up of overcoat and Nei Tai, overcoat is arranged on outer microscope carrier in the mode that can relatively rotate, and interior can the mode of OQ t be nested with in overcoat.

3. the many axial location of a kind of sapphire monocrystal as claimed in claim 1 and location complete after crystal-cut tool, it is characterized in that: bracing frame is made up of outer tube and interior pipe, outer tube is arranged on outer microscope carrier in the mode that can relatively rotate, and the mode of interior Guan Yike OQ t is nested with in outer tube.

4. the many axial location of a kind of sapphire monocrystal as claimed in claim 1 and location complete after crystal-cut tool, it is characterized in that: around outer microscope carrier install three bracing frames.