CN205310561U - Correcting unit of superhard materials squaring machine workstation benchmark - Google Patents
Correcting unit of superhard materials squaring machine workstation benchmark Download PDFInfo
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- CN205310561U CN205310561U CN201520947059.1U CN201520947059U CN205310561U CN 205310561 U CN205310561 U CN 205310561U CN 201520947059 U CN201520947059 U CN 201520947059U CN 205310561 U CN205310561 U CN 205310561U
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- correcting unit
- superhard material
- superhard materials
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Abstract
Correcting unit of superhard materials squaring machine workstation benchmark, including superhard materials squaring machine body (1), its characterized in that superhard materials squaring machine body (1) is the correcting unit of workstation benchmark in addition, the correcting unit of workstation benchmark comprises two pairs fixed reference piece (2), linear guide (3), mount pad (4), amesdial support (5) and amesdial (6), all detect 0 of workstation after installing superhard materials material piece, the exactness of angle is cut in the assurance at every turn, improves the machining precision, reduces to process the disability rate at every turn, makes the production and processing be in controllable state.
Description
Technical field
This utility model relates to superhard material cutting machine field, is specifically related to the correcting unit of superhard material excavation machine workbench benchmark.
Background technology
Along with the continuous propelling of " prohibiting white " policy, as the succedaneum of conventional incandescent, LED is widely popular in market, the speed with more than 35% is incremented by rapidly every year. Once play all electric filament lamp on October 1st, 2016 to stop production and selling, the demand of LED also will be continued to increase by market. Being conceived to the market of LED, it is considered to the conventional backing material of LED, be most commonly used that carborundum (hardness is 9.5) and sapphire (hardness is 9) at present, they broadly fall into hardness and are only second to the superhard material of diamond. Carborundum and sapphire can be used not only for LED substrate, and its every superior function makes it can be used for other field. Sapphire all very low superior optical property of transmission wavefront distortion under high temperature and low temperature makes sapphire be also widely used for form field, just considers such as intelligent watch form, the outermost window of iPhone5S camera lens, laser device, even Fructus Mali pumilae 6 mobile phone faceplate material to adopt sapphire. And carborundum is also used not only for LED substrate, the power device (diode, MOSFET, GTO, IGBT, IGCT) made of single-crystal silicon carbide can bear higher voltage, there is less parasitic parameter, less device size and shorter response time, and the high-temperature stability of carborundum greatly reduces the heat dissipation design of system; In addition single-crystal silicon carbide product also includes silicon carbide valve type arrester, silicon carbide rectifying transformator etc.
Herein the hardness such as sapphire, carborundum being called superhard material close to this kind of material of diamond, it also includes various high-hardness ceramics etc. The extensive use of this kind of material makes its market demand can not be satisfied, it is mainly reflected in the facility that forms a complete production network of post-production, the wherein crucial evolution (in literary composition, evolution refers to and raw material cuts into standard shape or is cut by raw material little, facilitates post-production) being in that again superhard material. The evolution technique of superhard material comes from sapphire and is used to the product of the square dimensional requirements such as form, and (drawing rod technique is draw out the bar of different-diameter on very big raw material progressively to instead of traditional rod technique of drawing, carry out following process again, waste of raw materials is very big). The evolution technique at initial stage is to adopt saw blade or band saw to carry out cutting processing. The otch out-of-flatness that cuts out, of poor quality, cause that later stage grinding step is complicated; And being only capable of carrying out the processing of monoblock one monoblock, overall processing process efficiency is low, the loss of raw material is also big. In recent years, the multi-wire saw lathe that diamond wire cuts is utilized to have become as a kind of trend. At present, the country such as Japan, Switzerland takes the lead in expanding the research to superhard material multi-wire saw lathe.
In prior art, superhard material excavation machine, all without the apparatus for correcting of angle, is all measure product after cutting according to reality, then indirectly corrects machine angle. Causing cutting angle instability to produce waste, product yield is on the low side.
Summary of the invention
Main purpose of the present utility model is to solve above-mentioned technical problem, and provides the correcting unit of superhard material excavation machine workbench benchmark.
This utility model includes superhard material excavation machine body, and described superhard material excavation machine body also has the correcting unit of workbench benchmark.
The correcting unit of described workbench benchmark is made up of two pairs of fixed reference blocks, line slideway, mounting seat, dial indicators rack and amesdial, described two pairs of fixed reference blocks are respectively and fixedly installed on the independent V wheel system fixed frame of superhard material excavation machine body, the track of line slideway is by magnet adsorption a pair fixed reference block wherein, mounting seat is arranged on the slide block of line slideway, the magnetic bases of dial indicators rack are adsorbed in mounting seat, and amesdial is arranged on dial indicators rack.
Advantage of the present utility model: all 0 ° of workbench is detected after every time installing superhard material materials and parts, it is ensured that the correctness of cutting angle every time, improves machining accuracy, reduces processing scrappage, makes production and processing be in controllable state.
Accompanying drawing explanation
Fig. 1 is this utility model structural representation.
Fig. 2 is Fig. 1 partial enlargement structural representation.
Fig. 3 is the correcting unit structural representation of workbench benchmark.
Fig. 4 is the correcting unit structural representation of workbench benchmark.
Detailed description of the invention
As shown in Figure 1,2,3, 4, this utility model includes superhard material excavation machine body 1, and described superhard material excavation machine body 1 also has the correcting unit of workbench benchmark.
The correcting unit of described workbench benchmark is made up of two pairs of fixed reference blocks 2, line slideway 3, mounting seat 4, dial indicators rack 5 and amesdial 6, described two pairs of fixed reference blocks 2 are respectively and fixedly installed on the independent V wheel system fixed frame of superhard material excavation machine body 1, the track of line slideway 3 is by magnet adsorption a pair fixed reference block 2 wherein, mounting seat 4 is arranged on the slide block of line slideway 3, the magnetic bases of dial indicators rack 5 are adsorbed in mounting seat 4, and amesdial 6 is arranged on dial indicators rack 5.
Working method and principle: measurer amesdial 6 is fixed on dial indicators rack 5, mounting seat 4 is bolted to bear on the slide block of the line slideway 3 of three direction moments of torsion, the track of line slideway 3 is adsorbed on fixed reference block 2 by two block permanent magnets mounted thereto, the correcting unit of composition superhard material excavation machine workbench benchmark. Detect after installing cut superhard material materials and parts every time, during detection, the permanent magnet on line slideway 3 is placed on fixed reference block 2, magnetic force can make it fix, again amesdial 6 and dial indicators rack 5 are fixed in mounting seat 4 (dial indicators rack 5 magnetic bases are adjacent to mounting seat 4 then rotation magnetic force and switch " on "), then dial indicators rack 5 is adjusted, make amesdial 6 gauge outfit be close to tested measuring point, record meter sense; The slide block of sliding straight guide rail 3, detects another side, records meter sense, compares both poor, if beyond angle allowable error scope, then needs tune machine (the concrete value adjusting machine method to be amendment rotary table 0 °). Continued the detection of another workbench by the method after completing.
Claims (1)
1. the correcting unit of superhard material excavation machine workbench benchmark, including superhard material excavation machine body (1), it is characterized in that described superhard material excavation machine body (1) also has the correcting unit of workbench benchmark, the correcting unit of described workbench benchmark is by two pairs of fixed reference blocks (2), line slideway (3), mounting seat (4), dial indicators rack (5) and amesdial (6) composition, described two pairs of fixed reference blocks (2) are respectively and fixedly installed on the independent V wheel system fixed frame of superhard material excavation machine body (1), the track of line slideway (3) is by magnet adsorption a pair fixed reference block (2) wherein, mounting seat (4) is arranged on the slide block of line slideway (3), the magnetic bases of dial indicators rack (5) are adsorbed in mounting seat (4), amesdial (6) is arranged on dial indicators rack (5).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520947059.1U CN205310561U (en) | 2015-11-25 | 2015-11-25 | Correcting unit of superhard materials squaring machine workstation benchmark |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520947059.1U CN205310561U (en) | 2015-11-25 | 2015-11-25 | Correcting unit of superhard materials squaring machine workstation benchmark |
Publications (1)
Publication Number | Publication Date |
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CN205310561U true CN205310561U (en) | 2016-06-15 |
Family
ID=56188591
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201520947059.1U Expired - Fee Related CN205310561U (en) | 2015-11-25 | 2015-11-25 | Correcting unit of superhard materials squaring machine workstation benchmark |
Country Status (1)
Country | Link |
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CN (1) | CN205310561U (en) |
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2015
- 2015-11-25 CN CN201520947059.1U patent/CN205310561U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160615 Termination date: 20191125 |