CN210633438U - Large-size monocrystalline silicon square rod grinding device - Google Patents

Abstract

The utility model provides a jumbo size monocrystalline silicon square bar abrasive machining device, set up first emery wheel and the second emery wheel in silicon square bar length direction axis both sides including the symmetry, first emery wheel with the central axis of second emery wheel is on a parallel with or the perpendicular to silicon square bar length direction's axis. The utility model discloses a grinding method, especially be applicable to the grinding of the jumbo size silicon square bar single crystal that cross section diagonal angle size is 230-310mm, can reduce the emery wheel seal that silicon square bar surface appears, silicon square bar roughness is qualified and the uniformity is better, guarantees silicon square bar product quality, improves the qualification rate of silicon square bar.

Description

Large-size monocrystalline silicon square rod grinding device

Technical Field

The utility model belongs to the technical field of solar energy silicon chip diamond wire-electrode cutting, especially, relate to a jumbo size monocrystalline silicon square rod abrasive machining device.

Background

In the current solar silicon wafer market, the generated energy of a unit area of a large-size silicon wafer is more suitable for the market demand of the existing battery terminal technology, before the silicon wafer is processed, a round silicon rod is firstly subjected to edge peeling to form a blank square rod, then the blank square rod is subjected to grinding processing, and the size of the grinding processing is the basis for whether the silicon wafer processing is accurate, so that the grinding control on the blank square silicon rod is very important. The existing square rod is processed by a round rod with the diameter size of below 230mm, but the existing square rod cannot adapt to the grinding processing of a large-size silicon round rod single crystal with the diameter of 230-310mm according to the specification (grinding wheel) and the processing method of the existing auxiliary materials, so that the technical problems of abnormal performance of the silicon square rod, sand wheel marks on the surface of the silicon square rod, abnormal surface roughness of the silicon square rod and the like can be caused.

Disclosure of Invention

The to-be-solved problem of the utility model is to provide a jumbo size monocrystalline silicon square bar abrasive machining device, be applicable to especially that the cross section diagonal size is the abrasive machining of the jumbo size silicon square bar single crystal of 230-310mm, can reduce the emery wheel seal that silicon square bar surface appears, silicon square bar roughness is qualified and the uniformity is better, guarantees silicon square bar product quality, improves the qualification rate of silicon square bar.

In order to solve the technical problem, the utility model discloses a technical scheme is:

a large-size monocrystalline silicon square rod grinding device comprises a first grinding wheel and a second grinding wheel which are symmetrically arranged on two sides of the length direction axis of a silicon square rod, and the central axes of the first grinding wheel and the second grinding wheel are parallel to or perpendicular to the length direction axis of the silicon square rod.

Furthermore, the end faces of the first grinding wheel and the second grinding wheel are arranged side by side with the end face of the silicon square rod.

Further, the first grinding wheel is arranged above one side of the center position of the silicon square rod; the second grinding wheel is arranged below the other side of the center of the silicon square rod.

Furthermore, a central connecting line of the first grinding wheel and the second grinding wheel is obliquely arranged and penetrates through a diagonal line of the silicon square rod; the height difference between the centers of the first grinding wheel and the second grinding wheel is 105-115 mm.

Furthermore, the end surfaces of the first grinding wheel and the second grinding wheel are arranged in parallel with the side plane of the silicon square rod.

Further, the first grinding wheel and the second grinding wheel are positioned at the same horizontal height; and the first grinding wheel and the second grinding wheel are symmetrically arranged relative to the axis of the silicon square rod in the length direction.

Furthermore, the grinding wheel comprises a rough grinding wheel and a fine grinding wheel, and the thicknesses of the rough grinding wheel and the fine grinding wheel are both 40 mm.

Furthermore, the granularity of the coarse grinding wheel is 150-250 meshes, and the diameter of the coarse grinding wheel is 230-270 mm.

Furthermore, the granularity of the fine grinding wheel is 800-1000 meshes, and the diameter of the fine grinding wheel is 250-290 mm.

Furthermore, the cross section of the silicon square rod is of a regular quadrilateral structure, and the diagonal size of the cross section of the silicon square rod is 230-310 mm.

The utility model provides a jumbo size monocrystalline silicon square bar abrasive machining device is particularly useful for the abrasive machining of the jumbo size silicon square bar single crystal that cross section diagonal angle size is 230-310mm, can reduce the emery wheel seal that silicon square bar surface appears, and silicon square bar roughness is qualified and the uniformity is better, guarantees silicon square bar product quality, improves the qualification rate of silicon square bar.

Drawings

Fig. 1 is a flow chart of a large-sized single crystal silicon square rod grinding device according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a chamfer angle of a square silicon rod according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a plane of a silicon square rod according to an embodiment of the present invention.

In the figure:

10. silicon square rod 20, grinding wheel 21 and first grinding wheel

22. Second grinding wheel 30, grinding wheel

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

An embodiment of the utility model provides a jumbo size monocrystalline silicon square bar abrasive machining device, as shown in fig. 2-3, including first emery wheel and the second emery wheel of symmetry setting in 10 length direction axis both sides of silicon square bar, wherein, the central axis of first emery wheel and second emery wheel is on a parallel with or perpendicular to 10 length direction's of silicon square bar axis. In this embodiment, the silicon square rods 10 are silicon square rods 10 having a tetragonal structure, and the diagonal size of the cross section of the silicon square rods 10 is 230 to 310 mm.

Specifically, as shown in fig. 2, the end faces of the first grinding wheel 21 and the second grinding wheel 22 are arranged side by side with the end face of the silicon square bar 10, and this structure is suitable for chamfering the silicon square bar 10, during the processing, the first grinding wheel 21 and the second grinding wheel 22 are fixed to rotate, and the first grinding wheel 21 and the second grinding wheel 22 synchronously rotate at the same speed and in the same direction; the silicon square bar 10 is horizontally moved with respect to the first grinding wheel 21 while the silicon square bar 10 is rotated, and the silicon square bar 10 is rotated in the same direction as the first grinding wheel 21 and the second grinding wheel 22. The first grinding wheel 21 is fixedly arranged obliquely above one side of the central position of the silicon square rod 60; the second grinding wheel 22 is fixed obliquely below the other side of the center position of the silicon square bar 60. And the central connecting line of the first grinding wheel 21 and the second grinding wheel 22 is obliquely arranged and penetrates through the diagonal line of the silicon square bar 10, preferably, the height difference between the centers of the first grinding wheel 21 and the second grinding wheel 22 is 105-115mm, and the height from the central axis of the silicon square bar 10 to the central axis of the first grinding wheel 21 is the same as the height from the central axis of the silicon square bar 10 to the central axis of the second grinding wheel 22. Accordingly, the horizontal distance W2 between the centers of the first grinding wheel 21 and the second grinding wheel 22 is greater than the horizontal distance W1 between the diagonals of the cross section of the silicon square rod 10.

In the prior art, when the silicon square bar 10 is chamfered, the end surfaces of the first grinding wheel 21 and the second grinding wheel 22 are horizontally arranged on the two side surfaces of the silicon square bar 10, and the end surfaces of the first grinding wheel 21 and the second grinding wheel 22 are arranged in parallel with the side plane of the silicon square rod 10, this horizontally disposed grinding wheel grinds the edge lines of the silicon square bar 10 in a line-to-plane contact manner, and the length of the edge line ground each time is the diameter of the end face of the whole grinding wheel, the chamfer angle of the silicon square rod 10 is easy to seriously deviate, namely, the grinding wheel rotating in the same direction can only grind one side of the chamfer entrance position of the silicon square bar 10, so that one side of the chamfer exit position can not be completely ground, and further, the chamfer angle of the silicon square rod 10 deviates, the edge line of the silicon square rod 10 is very brittle, and if the edge line is stressed unevenly in the grinding process, hidden cracks are easy to occur, so that the product quality is seriously influenced. The emery wheel that the slope of design set up in this application, its excircle face is the line contact with the crest line of silicon square stick 10, the atress is even and is only the thickness of emery wheel by the mill width at every turn when making the crest line of silicon square stick 10 by the grinding, and the excircle of emery wheel is in the same centre of a circle to the grinding of four crest lines of silicon square stick 10, feed forward the emery wheel again after every grinding has accomplished whole length, progressively grind the chamfer of silicon square stick 10, can guarantee that the chamfer processing of silicon square stick 10 is even, the skew problem can not appear.

As shown in fig. 3, the end faces of the first grinding wheel 21 and the second grinding wheel 22 are arranged in parallel with the side plane of the silicon square rod 10; the first grinding wheel 21 and the second grinding wheel 22 are located at the same horizontal height, and the first grinding wheel 21 and the second grinding wheel 22 are both symmetrically arranged relative to the axis of the silicon square rod 10 in the length direction. The structure is that the plane of the silicon square rod 10 is ground, when in processing, the first grinding wheel 21 and the second grinding wheel 22 are positioned, synchronized and rotate in the same speed and the same direction, at the moment, the silicon square rod 10 only moves horizontally relative to the grinding wheels, the grinding wheels grind one group of opposite surfaces of the silicon square rod 10, then the silicon square rod 10 rotates 90 degrees, and then the other group of opposite surfaces are ground; then, the silicon square bar 10 is rotated by 90 °, the feed rate of the grinding wheel is readjusted, and the silicon square bar 10 is ground again.

Furthermore, the grinding wheel comprises a rough grinding wheel and a fine grinding wheel, and the thicknesses of the rough grinding wheel and the fine grinding wheel are both 40 mm. The granularity of the coarse grinding wheel is 150-250 meshes, and the diameter of the coarse grinding wheel is 230-270 mm. The granularity of the fine grinding wheel is 800-1000 meshes, and the diameter of the fine grinding wheel is 250-290 mm.

The utility model provides a silicon square bar abrasive machining device, different with traditional chamfer grinding mode, not only can obtain qualified chamfer structure, but also can reduce the latent incidence of splitting of silicon chip, produce qualified finished product silicon square bar.

The embodiment of the utility model provides a jumbo size monocrystalline silicon square rod abrasive machining method, as shown in figure 1, specifically as follows:

the first embodiment is as follows:

s1: pre-mill detection

Specifically, before feeding, the length of the side and the length of the diagonal of the cross section of the blank silicon square rod 10 are detected by using a measuring probe, the length of the diagonal in the cross section of the silicon square rod 10 is ensured to be more than 230mm, and the length of the silicon square rod 10 is measured by using a caliper so as to ensure whether the silicon square rod 10 meets the equipment processing conditions.

S2: chamfering and rough grinding

The silicon square rod 10 is grabbed by using a manipulator, then the silicon square rod is loaded, and the silicon square rod 10 is fixedly clamped, so that the silicon square rod 10 is ensured to be fixed and firm.

The chamfering for rough grinding is started, wherein the rough grinding wheel 20 and the square silicon rod 10 are arranged as shown in fig. 2, the first grinding wheel 21 and the second grinding wheel 22 are positioned at the upper and lower sides of the center of the square silicon rod 10, and the height difference between the first grinding wheel 21 and the second grinding wheel 22 is ensured to be 110 mm. When grinding is started, the center horizontal distance W2 between the first grinding wheel 21 and the second grinding wheel 22 is 467mm, the horizontal distance W1 between the contact points of the first grinding wheel 21 and the second grinding wheel 22 with the silicon square rod 10 is 217mm, and the raw silicon square rod 10 is subjected to rough grinding by the rough grinding wheel 20 in sequence. Specifically, the grain size of the rough grinding wheel 20 is 250 mesh, the diameter of the rough grinding wheel is 230mm, the rough grinding wheel 20 is rotated clockwise at a rotation speed of 2500rpm/min, and simultaneously, the silicon square bar 10 is rotated clockwise at a speed of 15 rpm/min. In the grinding process, grinding is carried out in three stages, the feed moving speed of the cutter of the blank silicon square rod 10 is 230mm/min, and the grinding length is 50 mm; then, starting to enter a stable processing stage, wherein the moving speed of the silicon square rod 10 is 300mm/min until the distance from the tail part is 50 mm; and starting to enter a cutting stage, namely, the position of the silicon square rod 10 during cutting is 50mm away from the tail end of the silicon square rod, and the cutting moving speed of the silicon square rod 10 is 230mm/min until the grinding of the round is finished. The feed amount of chamfering by the rough grinding wheel 20 is 10 mm/tool each time, and grinding of the next round is started until chamfering is completed. Thus, the inclined rough grinding wheel 20 structure mode is adopted, the first grinding wheel 21 and the second grinding wheel 22 can simultaneously grind the blank silicon square rod 10, the grinding efficiency can be improved, the hidden crack occurrence rate of the silicon wafer can be reduced, the qualified chamfer circular arc structure is ensured, and the grinding effect is good.

S3: rough grinding of flat surfaces

After the chamfering and rough grinding process is completed, the rough grinding wheel 20 is automatically adjusted, the first grinding wheel 21 and the second grinding wheel 22 are kept on the same horizontal straight line and are arranged at the same height with the silicon square rod 10, and the structure is shown in fig. 3. The two faces of one set of opposite sides are ground first, the grain size of the rough grinding wheel 20 is still 250 meshes, and the diameter of the rough grinding wheel is still 230 mm.

In the process of grinding the plane, the first grinding wheel 31 and the second grinding wheel 32 are positioned, synchronized and rotate in the same speed and the same direction, at the moment, the silicon square rod 10 only moves horizontally relative to the grinding wheels, the grinding wheels grind one group of opposite surfaces of the silicon square rod 10, and then the silicon square rod 10 rotates by 90 degrees and then grinds the other group of opposite surfaces; then, the silicon square bar 10 is rotated by 90 °, the feed rate of the grinding wheel is readjusted, and the silicon square bar 10 is ground again.

In the grinding process of each round, grinding is carried out in three stages, the feeding moving speed of the cutter of the blank silicon square rod 10 is 1000mm/min, and the grinding length is 50 mm; then, starting to enter a stable processing stage, wherein the moving speed of the silicon square rod 10 is 1200mm/min until the distance from the tail part is 50 mm; at this time, the cutting stage is started, namely the cutting position is 50mm away from the tail end of the silicon square rod 10, and the cutting moving speed of the silicon square rod 10 is 1000mm/min until the grinding of the group of alignment planes is finished in the round. Then the silicon square rod 10 rotates 90 degrees, the steps are repeated, the other set of bit planes are ground continuously, the grinding amount of each turn of the four planes is ensured to be the same, namely the forward feeding amount of the rough grinding wheel 20 is 0.5 mm/turn, and the rotating speed of the rough grinding wheel 20 is 2500 rpm/min. And repeating the method and the parameters and then grinding the four surfaces in the next round to ensure that the four surfaces are completely and coarsely ground.

S4: accurate chamfer grinding

The silicon square bar 10 is transferred, then the fine grinding wheel 30 is used for starting to process, in the process of processing chamfer fine grinding, the special fine grinding wheel 30 is used for grinding, and the structure of the fine grinding wheel 30 in the process of chamfer fine grinding is the same as that of rough grinding chamfer processing (the figure is omitted). Specifically, the grain size of the fine grinding wheel 30 is 1000 mesh, the diameter of the fine grinding wheel 30 is 250mm, the fine grinding wheel 30 rotates clockwise at a rotation speed of 2500rpm/min, and simultaneously, the silicon square bar 10 rotates at a speed of 15 rpm/min. In the grinding process, grinding is carried out in three stages, the feed moving speed of the cutter of the silicon square rod 10 is 230mm/min, and the grinding length is 50 mm; then, starting to enter a stable processing stage, wherein the moving speed of the silicon square rod 10 is 300mm/min until the distance from the tail part is 50 mm; and starting to enter a cutting stage, wherein the cutting moving speed of the silicon square rod 10 is 230mm/min until the grinding of the round is finished. The feed amount of chamfering by the rough grinding wheel 20 is 0.5 mm/cutter each time, and grinding of the next round is started until the chamfering process is completed.

S5: fine grinding of flat surfaces

After the chamfer finish grinding processing is finished, the finishing grinding wheels 30 are automatically adjusted, the two finishing grinding wheels 30 are kept on the same horizontal straight line and are arranged at the same height with the silicon square rods 10, the structure of the rough grinding plane is the same, and the drawings are omitted. The grain size of the fine grinding wheel 30 is still 1000 meshes, and the diameter of the fine grinding wheel 30 is still 250 mm.

In the grinding process of each round, grinding is carried out in three stages, the feeding moving speed of the cutter of the blank silicon square rod 10 is 1000mm/min, and the grinding length is 50 mm; then, starting to enter a stable processing stage, wherein the moving speed of the silicon square rod 10 is 1200mm/min until the distance from the tail part is 50 mm; at this time, the cutting stage is started, and the cutting moving speed of the silicon square rod 10 is 1000mm/min until the grinding of the set of alignment planes is completed in the round. Then the silicon square rod 10 rotates 90 degrees, the steps are repeated, the other set of bit planes are ground continuously, the grinding amount of each turn of the four planes is ensured to be the same, namely the forward feeding amount of the fine grinding wheel 30 is 0.05 mm/turn, and the rotating speed of the fine grinding wheel 30 is 2500 rpm/min. And then repeating the method and the parameters and grinding the four surfaces in the next round to ensure that the four surfaces are completely and finely ground.

S6: post-mill detection

After finishing the fine grinding, detecting the side length of the cross section of the blank silicon square rod 10 and the length of the diagonal line by using a measuring probe, and ensuring that the length of the diagonal line in the cross section of the silicon square rod 10 is 230 mm; and meanwhile, the roughness of the plane of the silicon square rod 10 is detected, and whether the roughness value is qualified or not is ensured.

The utility model provides a monocrystalline silicon square bar abrasive machining method not only can reduce the emery wheel seal that silicon square bar surface appears, can guarantee moreover that silicon square bar roughness is qualified and the uniformity is better, guarantees silicon square bar product quality, improves the qualification rate of silicon square bar.

Example two:

s1: pre-mill detection

Specifically, before feeding, the length of the side and the length of the diagonal of the cross section of the blank silicon square rod 10 are detected by using a measuring probe, the length of the diagonal in the cross section of the silicon square rod 10 is ensured to be more than 280mm, and the length of the silicon square rod 10 is measured by using a caliper so as to ensure whether the silicon square rod 10 meets the equipment processing conditions.

S2: chamfering and rough grinding

The silicon square rod 10 is grabbed by using a manipulator, then the silicon square rod is loaded, and the silicon square rod 10 is fixedly clamped, so that the silicon square rod 10 is ensured to be fixed and firm.

The chamfering for rough grinding is started, wherein the rough grinding wheel 20 and the square silicon rod 10 are arranged as shown in fig. 2, the first grinding wheel 21 and the second grinding wheel 22 are positioned at the upper and lower sides of the center of the square silicon rod 10, and the height difference between the first grinding wheel 21 and the second grinding wheel 22 is ensured to be 110 mm. When grinding is started, the horizontal distance W2 between the centers of the first grinding wheel 21 and the second grinding wheel 22 is 538mm, and the horizontal distance W1 between the contact points of the first grinding wheel 21 and the second grinding wheel 22 with the square silicon rod 10 is 268mm, and the rough grinding wheel 20 is used for roughly grinding the edges and corners of the blank square silicon rod 10 in sequence. Specifically, the grain size of the rough grinding wheel 20 is 200 mesh, the diameter of the rough grinding wheel is 250mm, the rough grinding wheel 20 is rotated clockwise at a speed of 3000rpm/min, and simultaneously, the silicon square bar 10 is rotated clockwise at a speed of 20 rpm/min. In the grinding process, grinding is carried out in three stages, the feed moving speed of the cutter of the blank silicon square rod 10 is 220mm/min, and the grinding length is 50 mm; then, starting to enter a stable processing stage, wherein the moving speed of the silicon square rod 10 is 280mm/min until the distance from the tail part is 50 mm; and starting to enter a cutting stage, wherein the cutting moving speed of the silicon square rod 10 is 220mm/min until the grinding of the round is finished. The feeding amount of chamfering by the rough grinding wheel 20 is 8 mm/cutter each time, and grinding of the next round is started until chamfering is finished.

S3: rough grinding of flat surfaces

After the chamfering and rough grinding process is completed, the rough grinding wheel 20 is automatically adjusted, the first grinding wheel 21 and the second grinding wheel 22 are kept on the same horizontal straight line and are arranged at the same height with the silicon square rod 10, and the structure is shown in fig. 3. The two faces of one set of opposite sides are ground first, the grain size of the rough grinding wheel 20 is still 200 meshes, and the diameter of the rough grinding wheel is still 250 mm.

In the grinding process of each round, grinding is carried out in three stages, the feed moving speed of the cutter of the blank silicon square rod 10 is 900mm/min, and the grinding length is 50 mm; then, starting to enter a stable processing stage, wherein the moving speed of the silicon square rod 10 is 1100mm/min until the distance from the tail part is 50 mm; at this time, the cutting stage is started, namely the cutting position is 50mm away from the tail end of the silicon square rod 10, and the cutting moving speed of the silicon square rod 10 is 900mm/min until the grinding of the group of alignment planes is finished in the round. Then the silicon square rod 10 rotates 90 degrees, the steps are repeated, the other set of bit planes are ground continuously, the grinding amount of each turn of the four planes is ensured to be the same, namely the forward feeding amount of the coarse grinding wheel 20 is 0.4 mm/turn, and the rotating speed of the coarse grinding wheel 20 is 3000 rpm/min. And repeating the method and the parameters and then grinding the four surfaces in the next round to ensure that the four surfaces are completely and coarsely ground.

S4: accurate chamfer grinding

The silicon square bar 10 is transferred, then the fine grinding wheel 30 is used for starting to process, in the process of processing chamfer fine grinding, the special fine grinding wheel 30 is used for grinding, and the structure of the fine grinding wheel 30 in the process of chamfer fine grinding is the same as that of rough grinding chamfer processing (the figure is omitted). Specifically, the grain size of the fine grinding wheel 30 is 900 mesh, the diameter of the fine grinding wheel 30 is 270mm, the fine grinding wheel 30 rotates clockwise at a speed of 3000rpm/min, and the silicon square bar 10 rotates at a speed of 20 rpm/min. In the grinding process, grinding is carried out in three stages, the feed moving speed of the cutter of the silicon square rod 10 is started to be 220mm/min, and the grinding length is 50 mm; then, starting to enter a stable processing stage, wherein the moving speed of the silicon square rod 10 is 280mm/min until the distance from the tail part is 50 mm; and starting to enter a cutting stage, wherein the cutting moving speed of the silicon square rod 10 is 220mm/min until the grinding of the round is finished. The feed amount of chamfering by the rough grinding wheel 20 is 0.4 mm/cutter each time, and grinding of the next round is started until the chamfering process is completed.

S5: fine grinding of flat surfaces

After the chamfer finish grinding processing is finished, the finishing grinding wheels 30 are automatically adjusted, the two finishing grinding wheels 30 are kept on the same horizontal straight line and are arranged at the same height with the silicon square rods 10, the structure of the rough grinding plane is the same, and the drawings are omitted. The grain size of the fine grinding wheel 30 is still 900 mesh, and the diameter of the fine grinding wheel 30 is still 270 mm.

In the grinding process of each round, grinding is carried out in three stages, the feed moving speed of the cutter of the blank silicon square rod 10 is 900mm/min, and the grinding length is 50 mm; then, starting to enter a stable processing stage, wherein the moving speed of the silicon square rod 10 is 1100mm/min until the distance from the tail part is 50 mm; at this time, the cutting stage is started, and the cutting moving speed of the silicon square rod 10 is 900mm/min until the grinding of the set of alignment planes is completed in the round. Then the silicon square rod 10 rotates 90 degrees, the steps are repeated, the other set of bit planes are ground continuously, the grinding amount of each turn of the four planes is ensured to be the same, namely the forward feeding amount of the fine grinding wheel 30 is 0.04 mm/turn, and the rotating speed of the fine grinding wheel 30 is 3000 rpm/min. And then repeating the method and the parameters and grinding the four surfaces in the next round to ensure that the four surfaces are completely and finely ground.

S6: post-mill detection

After finishing the fine grinding, detecting the side length of the cross section of the blank silicon square rod 10 and the length of the diagonal line by using a measuring probe, and ensuring that the length of the diagonal line in the cross section of the silicon square rod 10 is 280 mm; and meanwhile, the roughness of the plane of the silicon square rod 10 is detected, and whether the roughness value is qualified or not is ensured.

The utility model provides a monocrystalline silicon square bar abrasive machining method not only can reduce the emery wheel seal that silicon square bar surface appears, can guarantee moreover that silicon square bar roughness is qualified and the uniformity is better, guarantees silicon square bar product quality, improves the qualification rate of silicon square bar.

Example three:

s1: pre-mill detection

Specifically, before feeding, the length of the side and the length of the diagonal of the cross section of the blank silicon square rod 10 are detected by using a measuring probe, the length of the diagonal in the cross section of the silicon square rod 10 is ensured to be more than 310mm, and the length of the silicon square rod 10 is measured by using a caliper so as to ensure whether the silicon square rod 10 meets the equipment processing conditions.

S2: chamfering and rough grinding

The silicon square rod 10 is grabbed by using a manipulator, then the silicon square rod is loaded, and the silicon square rod 10 is fixedly clamped, so that the silicon square rod 10 is ensured to be fixed and firm.

The chamfering for rough grinding is started, wherein the rough grinding wheel 20 and the square silicon rod 10 are arranged as shown in fig. 2, the first grinding wheel 21 and the second grinding wheel 22 are positioned at the upper and lower sides of the center of the square silicon rod 10, and the height difference between the first grinding wheel 21 and the second grinding wheel 22 is ensured to be 110 mm. When grinding is started, the center horizontal distance W2 between the first grinding wheel 21 and the second grinding wheel 22 is 589mm, the horizontal distance W1 between the contact points of the first grinding wheel 21 and the second grinding wheel 22 with the silicon square bar 10 is 299mm, and rough grinding is sequentially performed on the edge corners of the blank silicon square bar 10 by the rough grinding wheel 20. Specifically, the grain size of the rough grinding wheel 20 is 150 mesh, the diameter of the rough grinding wheel is 270mm, the rough grinding wheel 20 rotates clockwise at a speed of 3500rpm/min, and simultaneously, the silicon square bar 10 rotates clockwise at a speed of 25 rpm/min. In the grinding process, grinding is carried out in three stages, the feed moving speed of the cutter of the blank silicon square rod 10 is 200mm/min, and the grinding length is 50 mm; then, starting to enter a stable processing stage, wherein the moving speed of the silicon square rod 10 is 250mm/min until the distance from the tail part is 50 mm; and starting to enter a cutting stage, wherein the cutting moving speed of the silicon square rod 10 is 200mm/min until the grinding of the round is finished. The feeding amount of chamfering by the rough grinding wheel 20 is 5 mm/cutter each time, and grinding of the next round is started until the chamfering is finished. Thus, the inclined rough grinding wheel 20 structure mode is adopted, the first grinding wheel 21 and the second grinding wheel 22 can simultaneously grind the blank silicon square rod 10, the grinding efficiency can be improved, the hidden crack occurrence rate of the silicon wafer can be reduced, the qualified chamfer circular arc structure is ensured, and the grinding effect is good.

S3: rough grinding of flat surfaces

After the chamfering and rough grinding process is completed, the rough grinding wheel 20 is automatically adjusted, the first grinding wheel 21 and the second grinding wheel 22 are kept on the same horizontal straight line and are arranged at the same height with the silicon square rod 10, and the structure is shown in fig. 3. The two faces of one set of opposite sides are ground first, the grain size of the rough grinding wheel 20 is still 150 meshes, and the diameter of the rough grinding wheel is still 270 mm.

In the grinding process of each round, grinding is carried out in three stages, the feed moving speed of the cutter of the blank silicon square rod 10 is 800mm/min, and the grinding length is 50 mm; then, starting to enter a stable processing stage, wherein the moving speed of the silicon square rod 10 is 1000mm/min until the distance from the tail part is 50 mm; at this time, the cutting stage is started, and the cutting moving speed of the silicon square rod 10 is 800mm/min until the grinding of the set of alignment planes is completed in the round. Then the silicon square rod 10 rotates 90 degrees, the steps are repeated, the other set of bit planes are ground continuously, the grinding amount of each turn of the four planes is ensured to be the same, namely the forward feeding amount of the coarse grinding wheel 20 is 0.2 mm/turn, and the rotating speed of the coarse grinding wheel 20 is 3500 rpm/min; along with the increase of the diagonal size of the cross section of the silicon rod, the area of the rough grinding wheel 20 to be ground is increased, the particle size of the rough grinding wheel 20 is increased, the feeding amount of the rough grinding wheel 20 is correspondingly reduced, and accordingly, the rotating speed of the rough grinding wheel 20 is increased for ensuring the grinding quality. And repeating the method and the parameters and then grinding the four surfaces in the next round to ensure that the four surfaces are completely and coarsely ground.

S4: accurate chamfer grinding

The silicon square bar 10 is transferred, then the fine grinding wheel 30 is used for starting to process, in the process of processing chamfer fine grinding, the special fine grinding wheel 30 is used for grinding, and the structure of the fine grinding wheel 30 in the process of chamfer fine grinding is the same as that of rough grinding chamfer processing (the figure is omitted). Specifically, the grain size of the fine grinding wheel 30 is 800 mesh, the diameter of the fine grinding wheel 30 is 290mm, the fine grinding wheel 30 rotates clockwise at a rotation speed of 3500rpm/min, and the silicon square bar 10 rotates at a speed of 25 rpm/min. In the grinding process, grinding is carried out in three stages, the feed moving speed of the cutter of the silicon square rod 10 is 200mm/min, and the grinding length is 50 mm; then, starting to enter a stable processing stage, wherein the moving speed of the silicon square rod 10 is 250mm/min until the distance from the tail part is 50 mm; and starting to enter a cutting stage, wherein the cutting moving speed of the silicon square rod 10 is 200mm/min until the grinding of the round is finished. The feed amount of chamfering by the rough grinding wheel 20 is 0.2 mm/cutter each time, and grinding of the next round is started until the chamfering process is completed.

S5: fine grinding of flat surfaces

After the chamfer finish grinding processing is finished, the finishing grinding wheels 30 are automatically adjusted, the two finishing grinding wheels 30 are kept on the same horizontal straight line and are arranged at the same height with the silicon square rods 10, the structure of the rough grinding plane is the same, and the drawings are omitted. The grain size of the fine grinding wheel 30 is still 800 mesh, and the diameter of the fine grinding wheel 30 is still 290 mm.

In the grinding process of each round, grinding is carried out in three stages, the feed moving speed of the cutter of the blank silicon square rod 10 is 800mm/min, and the grinding length is 50 mm; then, starting to enter a stable processing stage, wherein the moving speed of the silicon square rod 10 is 1000mm/min until the distance from the tail part is 50 mm; at this time, the cutting stage is started, and the cutting moving speed of the silicon square rod 10 is 800mm/min until the grinding of the set of alignment planes is completed in the round. Then the silicon square rod 10 rotates 90 degrees, the steps are repeated, the other set of bit planes are ground continuously, the grinding amount of each turn of the four planes is ensured to be the same, namely the forward feeding amount of the fine grinding wheel 30 is 0.03 mm/turn, and the rotating speed of the fine grinding wheel 30 is 3500 rpm/min. And then repeating the method and the parameters and grinding the four surfaces in the next round to ensure that the four surfaces are completely and finely ground.

S6: post-mill detection

After finishing the fine grinding, detecting the side length of the cross section of the blank silicon square rod 10 and the length of the diagonal line by using a measuring probe, and ensuring that the length of the diagonal line in the cross section of the silicon square rod 10 is 310 mm; and meanwhile, the roughness of the plane of the silicon square rod 10 is detected, and whether the roughness value is qualified or not is ensured.

The utility model provides a monocrystalline silicon square bar abrasive machining method not only can reduce the emery wheel seal that silicon square bar surface appears, can guarantee moreover that silicon square bar roughness is qualified and the uniformity is better, guarantees silicon square bar product quality, improves the qualification rate of silicon square bar.

The embodiments of the present invention have been described in detail, and the description is only for the preferred embodiments of the present invention, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (10)

1. The grinding device for the large-size monocrystalline silicon square rod is characterized by comprising a first grinding wheel and a second grinding wheel which are symmetrically arranged on two sides of the length direction axis of the silicon square rod, and the central axes of the first grinding wheel and the second grinding wheel are parallel to or vertical to the length direction axis of the silicon square rod.

2. The large-size single crystal silicon square rod grinding processing device as claimed in claim 1, wherein the end surfaces of the first grinding wheel and the second grinding wheel are arranged side by side with the end surface of the silicon square rod.

3. The large-size single crystal silicon square bar grinding processing device according to claim 2, wherein the first grinding wheel is disposed above a side of a center position of the silicon square bar; the second grinding wheel is arranged below the other side of the center of the silicon square rod.

4. The large-size single crystal silicon square rod grinding processing device as claimed in claim 2 or 3, wherein a center connecting line of the first grinding wheel and the second grinding wheel is obliquely arranged and penetrates a diagonal line of the silicon square rod; the height difference between the centers of the first grinding wheel and the second grinding wheel is 105-115 mm.

5. The large-size single crystal silicon square rod grinding processing device as claimed in claim 1, wherein the end faces of the first grinding wheel and the second grinding wheel are arranged in parallel with the side plane of the silicon square rod.

6. The large-size single crystal silicon square rod grinding processing device as claimed in claim 5, wherein the first grinding wheel and the second grinding wheel are located at the same horizontal height; and the first grinding wheel and the second grinding wheel are symmetrically arranged relative to the axis of the silicon square rod in the length direction.

7. The large-size single crystal silicon square rod grinding processing device according to any one of claims 1 to 3 and 5 to 6, wherein the grinding wheels comprise a rough grinding wheel and a fine grinding wheel, and the thickness of each of the rough grinding wheel and the fine grinding wheel is 40 mm.

8. The large-size single crystal silicon square rod grinding processing device as claimed in claim 7, wherein the coarse grinding wheel has a grain size of 150-250 mesh and a diameter of 230-270 mm.

9. The large-size single crystal silicon square rod grinding processing device as claimed in claim 7, wherein the grain size of the finishing grinding wheel is 800-1000 meshes, and the diameter of the finishing grinding wheel is 250-290 mm.

10. The large-size single-crystal silicon square rod grinding processing device according to any one of claims 1 to 3, 5 to 6 and 8 to 9, wherein the cross section of the silicon square rod is of a regular quadrilateral structure, and the diagonal dimension of the cross section of the silicon square rod is 230 to 310 mm.

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