CN115070877A

CN115070877A - Special furnace GSY (GSY-American crystal block) processing equipment and preparation method thereof

Info

Publication number: CN115070877A
Application number: CN202210740908.0A
Authority: CN
Inventors: 毕振明
Original assignee: Maanshan Meiyingge Industrial Co ltd
Current assignee: Maanshan Meiyingge Industrial Co ltd
Priority date: 2022-06-27
Filing date: 2022-06-27
Publication date: 2022-09-20

Abstract

The invention discloses a special furnace GSY (GSY) crystal block processing device and a preparation method thereof, and the device comprises a workbench, wherein the top of the workbench is respectively provided with a material conveying mechanism, an optical detection mechanism and a cutting mechanism, the optical detection mechanism comprises two reinforcing plates A, the outer surface walls of the two reinforcing plates A are respectively and fixedly arranged on the two sides of the outer wall of the workbench through a group of screws A, a U-shaped metal frame is welded between the outer surface walls of the two reinforcing plates A, the top of the U-shaped metal frame is fixedly provided with a linking frame, two slide bars A are fixedly inserted between the two sides of the inner wall of the linking frame, the device adopts a method of detecting crystal blocks by light wave quality, the light transmittance of the crystal blocks is judged according to the shielding quantity of light beams, partial crystal blocks which do not accord with standards are also processed by the device at the same time, the device is prevented from doing no work, and the working quality of the device is increased, the probability of the inferior crystal blocks being mixed into the standard crystal blocks is reduced.

Description

Special furnace GSY (GSY-induced crystallization) American crystal block processing equipment and preparation method thereof

Technical Field

The invention relates to the technical field of crystal block processing equipment, in particular to special furnace GSY (GSY-induced crystallization) crystal block processing equipment and a preparation method thereof.

Background

The crystal is a structure that a large number of microscopic material units (atoms, ions, molecules and the like) are orderly arranged according to a certain rule, so the arrangement rule and the crystal form can be researched and judged according to the size of the structural unit, the crystal can be divided into seven large crystal systems and 14 crystal lattice types according to the internal structure, the crystal has certain symmetry, 32 symmetric element systems are provided, the corresponding symmetric action group is called as a crystal system point group, the crystal can be divided into four typical crystals such as ion crystal, atom crystal, molecular crystal, metal crystal and the like according to different acting force properties among internal mass points, the crystal can be single crystal and polycrystal (or powder crystal) and the same crystal also has the difference of single crystal and polycrystal, and the mixed crystal exists in practice, namely the crystal, and from the crystal talk, all the materials are known to be composed of atoms or molecules.

The artificially synthesized crystal block is prepared by converting a decomposable and molten substance into a liquid state by utilizing a high-temperature and high-pressure environment generated in a special furnace, and then cooling the liquid state by using a specific mold to finally obtain the required crystal block.

However, the existing crystal block processing equipment has the following defects:

the material is after being melted into liquid by the special furnace, when shifting to the mould again and moulding and cooling, because of the unable complete sealing of accomplishing of mould, and then partial crystal liquid is when the cooling, the air that is doped with tiny granule enters into the mould, tiny granule wherein can adhere to on the crystal liquid, it is relatively poor to lead to the fashioned partial crystal block transmittance in later stage, but current equipment can't detect the qualification degree of crystal block before processing to the crystal block, cause the part not to reach the standard crystal block also to handle simultaneously, and classify together with qualified crystal block, increase the degree of difficulty of later stage manual investigation.

Therefore, we have proposed a specific furnace GSY boule processing apparatus and a method for manufacturing the same, so as to solve the problems set forth above.

Disclosure of Invention

The invention aims to provide specific furnace GSY (GSY) American crystal block processing equipment and a preparation method thereof.

In order to achieve the purpose, the invention provides the following technical scheme: a special furnace GSY (GSY-American crystal block) processing device comprises a workbench, wherein a material conveying mechanism, an optical detection mechanism and a cutting mechanism are respectively arranged at the top of the workbench;

the optical detection mechanism comprises two reinforcing plates A, wherein the outer surface walls of the two reinforcing plates A are respectively and fixedly arranged on two sides of the outer wall of the workbench through a group of screws A, a U-shaped metal frame is welded between the outer surface walls of the two reinforcing plates A, a linking frame is fixedly arranged at the top of the U-shaped metal frame, two sliding rods A are fixedly inserted between two sides of the inner wall of the linking frame, a movable plate A is movably sleeved between the outer surface walls of the two sliding rods A, a light generator is fixedly arranged at the bottom of the movable plate A, an electric telescopic rod A is fixedly inserted in the outer surface wall of the linking frame, the output end of the electric telescopic rod A is fixedly inserted in the movable plate A, a reinforcing plate B is fixedly arranged on one side of the outer wall of the workbench through a group of screws B, and a group of L-shaped frames A are welded on the outer surface walls of the reinforcing plate B, the L-shaped frame A is characterized in that the outer wall of the L-shaped frame A is fixedly provided with an inner connecting rod in an inserted mode, a receiver is fixedly sleeved between the outer walls of the inner connecting rods, a touch screen is arranged inside the receiver, an information line is fixedly connected to the wiring end of the receiver, the input end of the information line is connected with the output end of a light wave generator, two round holes are formed in the top of the light wave generator, and prompt lamps are arranged inside the round holes.

Preferably, material conveying mechanism includes two sets of interior trompils, and is two sets of interior trompil is seted up respectively in the inner wall both sides of workstation, and is two sets of all the activity is inserted between the interior table wall of per two in the interior trompil and is equipped with the gangbar, and is a plurality of the outer table wall of gangbar all is fixed the cover and is equipped with the kun pole, and is a plurality of the activity cover is equipped with the conveyer belt between the outward appearance wall of kun pole.

Preferably, a set of metal rod is fixedly inserted on one side of the outer wall of the workbench, and is a set of metal rod is fixedly sleeved between the outer walls of the metal rods and is provided with a connecting sleeve ring A, a servo motor is fixedly inserted in the inner surface wall of the connecting sleeve ring A, a limiting sleeve is fixedly installed on the outer surface wall of the servo motor, a transmission rod is fixedly installed at the output end of the servo motor, and the outer wall of the transmission rod is fixedly inserted in one end of the outer wall of one linkage rod.

Preferably, the cutting mechanism comprises an inclined plane groove, the inclined plane groove is formed in the top of the workbench, a baffle is fixedly mounted at the bottom of the inner wall of the inclined plane groove, and a track groove is preset at the bottom of the inner wall of the inclined plane groove.

Preferably, there is reinforcing plate C the exterior wall of workstation through a set of screw C fixed mounting, L type frame B has been welded to reinforcing plate C's exterior wall, the rectangle recess has been seted up at L type frame B's top, fixed the inserting is equipped with a set of slide bar B between the inner wall both sides of rectangle recess, and is a set of movable sleeve is equipped with fly leaf B between slide bar B's the exterior wall, fly leaf B's bottom fixed mounting has water sword to take place the unit, L type frame B's exterior wall fixed the inserting is equipped with electric telescopic handle B, electric telescopic handle B's output fixed the inserting is established in fly leaf B's inside.

Preferably, outer wall one side of workstation fixed mounting respectively has storage water tank and grafting board, the inside fixed mounting of grafting board has the connection lantern ring B, the fixed high-pressure pump that is equipped with of inserting of the interior table wall of connection lantern ring B, the fixed intercommunication of bottom of storage water tank has conduit A, conduit A's the water outlet end and the input of high-pressure pump are linked together, the fixed intercommunication of output of high-pressure pump has conduit B, conduit B's the water outlet end and the input of water sword generator set are linked together, a set of installation hole has been seted up to the bottom of workstation, and the inside of a set of installation hole is all fixed to be inserted and is equipped with the extension rod, and is a set of the outer table wall of extension rod is all fixed the cover and is equipped with rubber base.

A preparation method of special furnace GSY American crystal block processing equipment comprises the following steps:

the method comprises the following steps: after a crystal block to be detected moves to the bottom of a light wave generator, ionic light waves emitted by the light wave generator can rapidly penetrate through the interior of the crystal block, the electric telescopic rod A is started, the movable connectivity between the sliding rod A and the movable plate A is utilized, so that the light wave generator can fully scan the whole crystal, after light beam shielding information is acquired by the light wave generator, the information is transmitted into a receiver through an information line for analysis and processing, and the judged data is fed back into the light wave generator through the information line.

Step two: when more impurities exist in the crystal block to be detected, the receiver judges that the crystal block does not conform to the processing conditions, and when information fed back to the light wave generator is input to the prompting lamp in the round hole, the receiver can rapidly emit stimulating light to remind peripheral workers to rapidly process the inferior crystal block.

Step three: when the crystal blocks to be detected meet the processing conditions, the crystal blocks can be pushed into the inclined plane groove by the conveying component, and one side of the crystal blocks is fully contacted with the surface of the baffle plate finally along with the continuous dragging of the conveying component.

Step four: the high-pressure pump in the connecting sleeve ring B is started, the internal impeller rotates to generate an adsorption effect, the water source stored in the water storage tank is quickly extracted, when the water source passes through the high-pressure pump, the pressure of water flow is quickly increased, then the high-pressure water flow is conveyed through the water conveying pipeline A to continuously enter the water jet cutter generating unit, and the high-pressure water flow is sprayed on the surface of a crystal from the output end of the water jet cutter generating unit.

Step five: when the water jet cutter generator set is in the cutting process, the electric telescopic rod B is started, the cutting position of the water jet cutter generator set is continuously changed by utilizing the movable connectivity between the sliding rod B and the movable plate B, and the crystal blocks are rapidly cut from right to left.

Preferably, in the third step, when the ingot is determined to meet the standard, the servo motor in the connecting sleeve ring a is started, and acts on the transmission rod and one of the linkage rods, so as to drive one roller rod to rotate first, so that the conveyor belt obtains the moving capability, and at this time, the other roller rods gradually rotate synchronously under the pulling of the power of the conveyor belt, so as to ensure the stability of the conveyor belt during rotation, and make the ingot on the conveyor belt stably reach the processing mechanism.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention sets optical detection mechanism, when the crystal block to be detected moves to the bottom of the light wave generator, the light wave generator is started to release ion light wave, at the same time, the light wave can quickly pass through the interior of the crystal block to be detected, when more solid impurities exist in the crystal block, part of light beam can be shielded by impurities, the extending distance of the light beam is influenced, and the light beam is fed back to the interior of the light wave generator in the form of electric signal, the signal obtained from the light wave generator is further continuously transmitted to the receiver by the information wire, at the same time, the receiver can analyze the shielding quantity of a plurality of light beams, judge whether the crystal block to be detected has processing conditions, and simultaneously transmit the analyzed data into the light wave generator by the information wire, when the standard of the crystal block to be detected is not met, the indicator lamp in the round hole can light up to remind the operator to change the processed crystal block in time, the equipment adopts a method of detecting the crystal blocks by light wave quality, judges the light transmission of the crystal blocks according to the number of the light beam shelters, effectively avoids that part of the crystal blocks which do not meet the standard are also processed by the equipment at the same time, prevents the equipment from doing useless work to increase the working quality of the equipment, and reduces the probability that the inferior crystal blocks are mixed into the standard crystal blocks.

2. According to the invention, the cutting mechanism is arranged, and the device adopts a water jet cutting mode to rapidly cut the crystal block with larger volume into proper size.

Drawings

FIG. 1 is a perspective view of a front view structure of a special furnace GSY American crystal block processing device and a preparation method thereof;

FIG. 2 is a side view of a special furnace GSY American crystal block processing device and a preparation method thereof;

FIG. 3 is a perspective view of the bottom structure of a special furnace GSY American crystal block processing device and a preparation method thereof;

FIG. 4 is an enlarged perspective view of a material conveying mechanism in the special furnace GSY American crystal block processing device and the preparation method thereof;

FIG. 5 is an enlarged perspective view of the structure of an optical detection mechanism in the special furnace GSY American crystal block processing device and the preparation method thereof;

FIG. 6 is an enlarged perspective view of a cutting mechanism in the special furnace GSY American crystal block processing device and the preparation method thereof;

FIG. 7 is an enlarged perspective view of the structure at A in FIG. 1 illustrating a specific furnace GSY American crystal block processing device and a method for manufacturing the same according to the present invention;

FIG. 8 is an enlarged perspective view of the structure at B in FIG. 4, illustrating a specific furnace GSY American crystal block processing device and a preparation method thereof according to the present invention.

In the figure: 1. a work table; 2. a material conveying mechanism; 201. opening a hole inside; 202. a linkage rod; 203. a roll bar; 204. a metal rod; 205. a connecting lantern ring A; 206. a servo motor; 207. a limiting sleeve; 208. a transmission rod; 209. a conveyor belt; 3. an optical detection mechanism; 301. a reinforcing plate A; 302. a U-shaped metal frame; 303. engaging the frame; 304. a slide bar A; 305. a movable plate A; 306. an electric telescopic rod A; 307. a light wave generator; 308. a reinforcing plate B; 309. an L-shaped frame A; 310. an inner connecting rod; 311. a receiver; 312. a touchable screen; 313. an information line; 314. a circular hole; 315. a warning light; 4. a cutting mechanism; 401. an inclined plane groove; 402. a baffle plate; 403. a track groove; 404. a reinforcing plate C; 405. an L-shaped frame B; 406. a rectangular groove; 407. a slide bar B; 408. a movable plate B; 409. a water jet generating unit; 410. an electric telescopic rod B; 411. a water storage tank; 412. a grafting plate; 413. a connecting lantern ring B; 414. a high pressure pump; 415. a water delivery pipeline A; 416. a water delivery pipeline B; 5. an extension rod; 6. a rubber base.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides a technical solution: a special furnace GSY (GSY-induced crystallization) wafer processing device comprises a workbench 1, wherein a material conveying mechanism 2, an optical detection mechanism 3 and a cutting mechanism 4 are respectively arranged at the top of the workbench 1.

As shown in fig. 1-5 and 7, the optical detection mechanism 3 includes two reinforcing plates a301, outer surface walls of the two reinforcing plates a301 are respectively and fixedly mounted on two sides of an outer wall of the workbench 1 through a set of screws a, a U-shaped metal frame 302 is welded between the outer surface walls of the two reinforcing plates a301, a joining frame 303 is fixedly mounted on a top portion of the U-shaped metal frame 302, two sliding rods a304 are fixedly inserted between two sides of an inner wall of the joining frame 303, a movable plate a305 is movably sleeved between the outer surface walls of the two sliding rods a304, a light wave generator 307 is fixedly mounted at a bottom portion of the movable plate a305, an electric telescopic rod a306 is fixedly inserted into the outer surface wall of the joining frame 303, an output end of the electric telescopic rod a306 is fixedly inserted into the movable plate a305, a reinforcing plate B308 is fixedly mounted on one side of the outer wall of the workbench 1 through a set of screws B, a set of L-shaped frames a309 is welded on the outer surface wall of the reinforcing plate B308, the outer surface walls of the group of L-shaped frames A309 are fixedly inserted with inner connecting rods 310, a receiver 311 is fixedly sleeved between the outer surface walls of the group of inner connecting rods 310, a touch screen 312 is arranged inside the receiver 311, an information line 313 is fixedly connected to a wiring end of the receiver 311, an input end of the information line 313 is connected with an output end of the optical wave generator 307, two round holes 314 are formed in the top of the optical wave generator 307, prompt lamps 315 are arranged inside the two round holes 314, ionized optical waves emitted by the optical wave generator 307 fully penetrate through the inside of a crystal block to be detected, when more solid impurities exist in the optical waves during the process of penetrating the crystal block, the extending of the optical waves can be shielded, at the moment, optical wave shielding information can be fed back to the optical wave generator 307 in the form of electric signals, and finally information obtained from the optical wave generator 307 is transmitted to the receiver 311 by a wire in equipment in real time, and analyzing and judging to obtain whether the crystal block to be detected has use value.

According to fig. 4, the material conveying mechanism 2 includes two sets of inner openings 201, the two sets of inner openings 201 are respectively opened at two sides of an inner wall of the worktable 1, the linkage rods 202 are movably inserted between inner surface walls of every two of the two sets of inner openings 201, the outer surface walls of the plurality of linkage rods 202 are fixedly sleeved with the roll rods 203, the conveyor belts 209 are movably sleeved between outer surface walls of the plurality of roll rods 203, and by arranging the conveyor belts 209, after the roll rods 203 are actively powered, the conveyor belts 209 can be driven to rotate, so as to provide conditions for transporting the wafer blocks.

According to the illustration in fig. 8, a group of metal rods 204 is fixedly inserted into one side of the outer wall of the workbench 1, a connecting sleeve ring a205 is fixedly sleeved between the outer walls of the group of metal rods 204, a servo motor 206 is fixedly inserted into the inner wall of the connecting sleeve ring a205, a limit sleeve 207 is fixedly installed on the outer wall of the servo motor 206, a transmission rod 208 is fixedly installed at the output end of the servo motor 206, the outer wall of the transmission rod 208 is fixedly inserted into one end of the outer wall of one of the linkage rods 202, and by arranging the limit sleeve 207, the left-right swinging amplitude generated when the transmission rod 208 rotates is limited, so that the stability of the servo motor 206 in working is improved.

According to fig. 4, the cutting mechanism 4 comprises an inclined plane groove 401, the inclined plane groove 401 is arranged at the top of the workbench 1, a baffle 402 is fixedly arranged at the bottom of the inner wall of the inclined plane groove 401, a track groove 403 is preset at the bottom of the inner wall of the inclined plane groove 401, and by arranging the track groove 403, a strong pressure water jet knife is prevented, and after a crystal block is penetrated, part of energy which is not consumed is directly applied to equipment to cause equipment damage.

According to fig. 6, a reinforcing plate C404 is fixedly installed on the outer wall of the workbench 1 through a set of screws C, an L-shaped frame B405 is welded on the outer wall of the reinforcing plate C404, a rectangular groove 406 is formed in the top of the L-shaped frame B405, a set of sliding rods B407 is fixedly inserted between two sides of the inner wall of the rectangular groove 406, a movable plate B408 is movably sleeved between the outer walls of the set of sliding rods B407, a water jet generator unit 409 is fixedly installed at the bottom of the movable plate B408, an electric telescopic rod B410 is fixedly inserted in the outer wall of the L-shaped frame B405, an output end of the electric telescopic rod B410 is fixedly inserted in the movable plate B408, and by arranging the electric telescopic rod B410, the electric telescopic rod B410 can drive the water jet generator unit 409 to move left and right when contracting and stretching, so as to change the cutting position of the water jet generator unit 409.

According to the illustration of fig. 2, a water storage tank 411 and a grafting board 412 are respectively and fixedly installed on one side of the outer wall of the workbench 1, a connection sleeve ring B413 is fixedly installed inside the grafting board 412, a high-pressure pump 414 is fixedly inserted into the inner surface wall of the connection sleeve ring B413, a water pipe a415 is fixedly communicated with the bottom of the water storage tank 411, the water outlet end of the water pipe a415 is communicated with the input end of the high-pressure pump 414, the output end of the high-pressure pump 414 is fixedly communicated with a water pipe B416, the water outlet end of the water pipe B416 is communicated with the input end of the water jet cutter generator unit 409, a group of installation holes are formed in the bottom of the workbench 1, extension rods 5 are fixedly inserted into the group of installation holes, rubber bases 6 are fixedly sleeved on the outer surface walls of the group of extension rods 5, water stored in the water storage tank 411 is rapidly extracted by the aid of adsorption effect generated by rotation of internal blades through the arrangement of the high-pressure pump 414, and the flow rate of water flow is accelerated, the pressurization process of the water flow is realized, so that the water pressure intensity entering the water jet generator set 409 reaches more than 200MPa, and conditions are provided for the cutting of crystals.

The effect that its whole mechanism reaches does: firstly, the device is moved to a designated working area, the rubber base 6 is fully contacted with the ground, when a crystal block to be detected is moved to the bottom of the light wave generator 307, the ion light wave emitted by the light wave generator 307 can rapidly penetrate through the interior of the crystal block, the light wave generator 307 can fully scan the whole crystal by utilizing the movable connectivity between the sliding rod A304 and the movable plate A305 by starting the electric telescopic rod A306, after the light beam shielding information is obtained by the light wave generator 307, the information is transmitted into the receiver 311 by the information wire 313 for analysis and processing, the judged data is fed back into the light wave generator 307 by the information wire 313, when more impurities exist in the crystal block to be detected, the receiver 311 judges that the crystal block does not accord with the processing conditions, and when the information fed back into the light wave generator 307 is input into the indicator lamp 315 in the round hole 314, the crystal block to be detected is pushed into the inclined plane groove 401 by the conveying part when the crystal block to be detected meets the processing condition, one side of the crystal block is finally fully contacted with the surface of the baffle 402 along with the continuous driving of the conveying part, the high-pressure pump 414 in the connecting sleeve ring B413 is started, the adsorption effect generated by the rotation of the internal impeller is quickly extracted, the water source stored in the water storage tank 411 is quickly extracted, when the water source passes through the high-pressure pump 414, the pressure of the water flow is quickly increased, the high-pressure water flow is conveyed through the water conveying pipeline A415 to be continuously fed into the water jet generator unit 409 and sprayed on the surface of the crystal from the output end of the water jet generator unit 409, the electric telescopic rod B410 is started when the water jet generator unit 409 is in the cutting process, and the movable connectivity between the sliding rod B407 and the movable plate B408 is utilized, and the cutting position of the water jet generator unit 409 is continuously changed, so that the crystal block is rapidly cut from right to left.

The invention also provides a method, which comprises the following steps:

the method comprises the following steps: after the crystal block to be detected moves to the bottom of the light wave generator 307, the ion light wave emitted from the light wave generator 307 can rapidly penetrate through the interior of the crystal block, the electric telescopic rod A306 is started, the movable connectivity between the sliding rod A304 and the movable plate A305 is utilized, so that the light wave generator 307 can fully scan the whole crystal, after the light beam shielding information is obtained by the light wave generator 307, the information is transmitted into the receiver 311 through the information wire 313 for analysis and processing, and the judged data is fed back into the light wave generator 307 through the information wire 313.

Step two: when more impurities exist in the crystal block to be detected, the receiver 311 judges that the crystal block does not conform to the processing conditions, and at the moment, when the information fed back to the light wave generator 307 is input into the prompting lamp 315 in the circular hole 314, the stimulating light can be rapidly emitted to remind peripheral workers to rapidly process the inferior crystal block.

Step three: when the crystal block to be detected meets the processing conditions, the crystal block can be pushed into the inclined plane groove 401 by the conveying component, and one side of the crystal block is fully contacted with the surface of the baffle 402 finally along with the continuous dragging of the conveying component.

Step four: the high pressure pump 414 in the connection sleeve ring B413 is started, the internal impeller rotates to generate an adsorption effect, water stored in the water storage tank 411 is quickly pumped, when the water passes through the high pressure pump 414, the pressure of water flow is quickly increased, then the high pressure water flow is conveyed through the water conveying pipeline A415, and continuously enters the water jet cutter generation unit 409 and is sprayed on the surface of a crystal from the output end of the water jet cutter generation unit 409.

Step five: when the water jet generator unit 409 is in the cutting process, the electric telescopic rod B410 is started, and the cutting position of the water jet generator unit 409 is continuously changed by utilizing the movable connectivity between the sliding rod B407 and the movable plate B408, so that the crystal block is rapidly cut from right to left.

The preparation method of the special furnace GSY American crystal block processing equipment is approximately the same as that of the special furnace GSY American crystal block processing equipment, and the main differences exist as follows: when the crystal blocks are determined to meet the standard, the servo motor 206 in the connecting sleeve ring A205 is started, the servo motor acts on the transmission rod 208 and one linkage rod 202, one roller rod 203 is driven to rotate firstly, so that the conveyor belt 209 can obtain the moving capacity, and at the moment, the other roller rods 203 are pulled by the power of the conveyor belt 209 to gradually rotate synchronously, so that the smoothness of the rotation of the conveyor belt 209 is ensured, and the crystal blocks on the conveyor belt can stably reach the processing mechanism.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for some of the features thereof, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. A special furnace GSY (GSY-American crystal block) processing device is characterized in that: the device comprises a workbench (1), wherein the top of the workbench (1) is respectively provided with a material conveying mechanism (2), an optical detection mechanism (3) and a cutting mechanism (4);

the optical detection mechanism (3) comprises two reinforcing plates A (301), the outer surface walls of the two reinforcing plates A (301) are respectively fixedly installed on two sides of the outer wall of the workbench (1) through a set of screws A, the U-shaped metal frame (302) is welded between the outer surface walls of the two reinforcing plates A (301), a linking frame (303) is fixedly installed at the top of the U-shaped metal frame (302), two sliding rods A (304) are fixedly inserted between two sides of the inner wall of the linking frame (303), a movable sleeve is arranged between the outer surface walls of the two sliding rods A (304) and provided with a movable plate A (305), a light wave generator (307) is fixedly installed at the bottom of the movable plate A (305), an electric telescopic rod A (306) is fixedly inserted into the outer surface wall of the linking frame (303), and the output end of the electric telescopic rod A (306) is fixedly inserted into the movable plate A (305), the utility model discloses a luminous instrument, including workstation (1), outer wall one side of workstation (1) has reinforcing plate B (308) through a set of screw B fixed mounting, the exterior wall welding of reinforcing plate B (308) has a set of L type frame A (309), and is a set of the exterior wall of L type frame A (309) is all fixed to be inserted and is equipped with interior pole (310), and is a set of fixed cover is equipped with receiver (311) between the exterior wall of interior pole (310), the inside of receiver (311) is provided with can touch screen (312), the terminal end fixedly connected with information line (313) of receiver (311), the input of information line (313) and the output of optical wave generator (307) are connected, two round holes (314), two have been seted up at the top of optical wave generator (307) the inside of round hole (314) all is provided with warning light (315).

2. The special furnace GSY American crystal block processing device according to claim 1, wherein: material conveying mechanism (2) are including two sets of interior trompils (201), and are two sets of interior trompil (201) is seted up respectively in the inner wall both sides of workstation (1), and is two sets of equal activity is inserted between the interior table wall of per two in interior trompil (201) and is equipped with gangbar (202), and is a plurality of the outward appearance wall of gangbar (202) is all fixed the cover and is equipped with kun pole (203), and is a plurality of movable sleeve is equipped with conveyer belt (209) between the outward appearance wall of kun pole (203).

3. The special furnace GSY American crystal block processing device according to claim 2, wherein: the utility model discloses a hydraulic servo mechanism, including workstation (1), outer wall one side of workstation (1) is fixed to be inserted and is equipped with a set of metal pole (204), and is a set of fixed cover is equipped with between the exterior wall of metal pole (204) and connects lantern ring A (205), the interior table wall fixed of connecting lantern ring A (205) is inserted and is equipped with servo motor (206), the exterior wall fixed mounting of servo motor (206) has spacing sleeve (207), the output fixed mounting of servo motor (206) has transfer line (208), the exterior wall fixed of transfer line (208) is inserted and is established the outer wall one end of one of them gangbar (202).

4. The special furnace GSY American crystal block processing device according to claim 1, wherein: the cutting mechanism (4) comprises an inclined plane groove (401), the inclined plane groove (401) is formed in the top of the workbench (1), a baffle (402) is fixedly mounted at the bottom of the inner wall of the inclined plane groove (401), and a track groove (403) is preset at the bottom of the inner wall of the inclined plane groove (401).

5. The special furnace GSY American crystal block processing device according to claim 1, wherein: the utility model discloses a set of electric telescopic handle B (408) is established to the fixed bottom of activity cover between the outer wall of workstation (1), the outer wall of workstation (1) has reinforcing plate C (404) through a set of screw C fixed mounting, the outer wall welding of reinforcing plate C (404) has L type frame B (405), rectangle recess (406) have been seted up at the top of L type frame B (405), fixed the inserting is equipped with a set of slide bar B (407) between the inner wall both sides of rectangle recess (406), and is a set of movable sleeve is equipped with fly leaf B (408) between the outer wall of slide bar B (407), the bottom fixed mounting of fly leaf B (408) has water sword generator group (409), the outer wall of L type frame B (405) is fixed to be inserted and is equipped with electric telescopic handle B (410), the output of electric telescopic handle B (410) is fixed to be inserted and is established the inside of fly leaf B (408).

6. The special furnace GSY American crystal block processing device according to claim 5, wherein: a water storage tank (411) and a grafting board (412) are respectively and fixedly arranged on one side of the outer wall of the workbench (1), a connecting lantern ring B (413) is fixedly installed inside the grafting plate (412), a high-pressure pump (414) is fixedly inserted into the inner surface wall of the connecting lantern ring B (413), the bottom of the water storage tank (411) is fixedly communicated with a water conveying pipeline A (415), the water outlet end of the water conveying pipeline A (415) is communicated with the input end of a high-pressure pump (414), the output end of the high-pressure pump (414) is fixedly communicated with a water pipe B (416), the water outlet end of the water pipe B (416) is communicated with the input end of the water jet generating unit (409), the bottom of the workbench (1) is provided with a group of mounting holes, and the inside of a group of installation holes is all fixed to be inserted and is equipped with extension rod (5), and a set of the outward appearance wall of extension rod (5) all is fixed the cover and is equipped with rubber base (6).

7. A preparation method of special furnace GSY American crystal block processing equipment is characterized in that: the specific furnace GSY American crystal block processing device of any one of claims 1 to 6 is used, and comprises the following steps:

s1: when a crystal block to be detected moves to the bottom of a light wave generator (307), an ion light wave emitted by the light wave generator (307) can rapidly penetrate through the interior of the crystal block, the electric telescopic rod A (306) is started, the whole crystal can be sufficiently scanned by the light wave generator (307) by utilizing the movable connectivity between the sliding rod A (304) and the movable plate A (305), after light beam shielding information of the whole crystal is acquired by the light wave generator (307), the information is transmitted into a receiver (311) by an information line (313) for analysis and processing, and the judged data is fed back into the light wave generator (307) by the information line (313);

s2: when more impurities exist in the crystal block to be detected, the receiver (311) judges that the crystal block does not conform to the processing conditions, and at the moment, when information fed back to the light wave generator (307) is input into the prompting lamp (315) in the round hole (314), irritant light can be rapidly emitted to remind peripheral workers to rapidly process the poor-quality crystal block;

s3: when the crystal block to be detected meets the processing conditions, the crystal block can be pushed into the inclined plane groove (401) by the conveying component, and one side of the crystal block is finally fully contacted with the surface of the baffle (402) along with the continuous dragging of the conveying component;

s4: starting a high-pressure pump (414) in a connecting sleeve ring B (413), rapidly pumping a water source stored in a water storage tank (411) by an adsorption effect generated by rotation of an internal impeller of the high-pressure pump, rapidly increasing the pressure of water flow when the water source passes through the high-pressure pump (414), and continuously entering a water jet generating unit (409) by conveying the high-pressure water flow through a water conveying pipeline A (415), and spraying the high-pressure water flow on the surface of a crystal from the output end of the water jet generating unit (409);

s5: when the water jet cutter generator set (409) is in the cutting process, the electric telescopic rod B (410) is started, and the cutting position of the water jet cutter generator set (409) is continuously changed by utilizing the movable connectivity between the sliding rod B (407) and the movable plate B (408), so that the crystal block is rapidly cut from right to left.

8. The method for preparing the special furnace GSY American crystal block processing device according to claim 7, wherein the method comprises the following steps: in S3, when the wafer is determined to meet the standard, the servo motor (206) in the link ring a (205) is activated and acts on the transmission rod (208) and one of the linkage rods (202), and one of the roller rods (203) is first driven to rotate, so that the conveyor belt (209) acquires the capability of moving, and at this time, the other roller rods (203) gradually rotate synchronously under the power pull of the conveyor belt (209), thereby ensuring the smoothness of the rotation of the conveyor belt (209) and stabilizing the wafer thereon to the processing mechanism.