CN201922323U - Chamfering machine for silicon ingot - Google Patents

Chamfering machine for silicon ingot Download PDF

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Publication number
CN201922323U
CN201922323U CN2010205975236U CN201020597523U CN201922323U CN 201922323 U CN201922323 U CN 201922323U CN 2010205975236 U CN2010205975236 U CN 2010205975236U CN 201020597523 U CN201020597523 U CN 201020597523U CN 201922323 U CN201922323 U CN 201922323U
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CN
China
Prior art keywords
anchor
silicon wafer
heavy stone
stone used
bogey
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Expired - Fee Related
Application number
CN2010205975236U
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Chinese (zh)
Inventor
谢志宏
温进光
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ARKTEK Co Ltd
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ARKTEK Co Ltd
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Publication date
Application filed by ARKTEK Co Ltd filed Critical ARKTEK Co Ltd
Priority to CN2010205975236U priority Critical patent/CN201922323U/en
Application granted granted Critical
Publication of CN201922323U publication Critical patent/CN201922323U/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Abstract

The utility model provides a chamfering machine for a silicon ingot, which comprises a machine table, a longitudinal and transverse displacement device, a clamping device, wherein a load bearing device is arranged above the machine table, a pushing mechanism is arranged on one side of the load bearing device, and a grinding device is arranged in the machine table; the longitudinal and transverse displacement device is fixedly arranged on the machine table; the clamping device is connected and assembled on one side of the longitudinal and transverse displacement device, and the clamping device is provided with a rotation device. With the help of the clamping device, the silicon ingot after grinding can be clamped; by connecting and assembling the clamping device on one side of the longitudinal and transverse displacement device, the clamping device and the silicon ingot can perform longitudinal and transverse displacement together under the drive of the longitudinal and transverse displacement device; by enabling the clamping device to be provided with the rotation device, the silicon ingot can be overturned, thereby greatly reducing the frequency and the time of lifting, overturning and placing the silicon ingot by an operator and further achieving the purposes of upgrading the qualification rate of chamfer angles formed by grinding of the silicon ingots and upgrading the yield.

Description

Silicon wafer heavy stone used as an anchor beveler
Technical field
The utility model relates to a kind of beveler, particularly a kind of silicon wafer heavy stone used as an anchor beveler.
Background technology
TaiWan, China patent certificate M310053 number " V-type plain milling cutter formula beveler structure ", please cooperate consult shown in Figure 1, it is adjusted the lock member 82 of seat 81 both sides by operating personnel's turn, can be according to rotating this nut 83 clockwise or counterclockwise, directly driving adjustment screw rod 84 screws in the screw of screw bolt seat 85 or screws out, again because the axle gripping member 86 of this adjustment screw rod 84 is located at eluding groove 88 inside of screw rod holder 87, therefore when this is adjusted screw rod 84 screw-ins or screws out, also can drive screw rod holder 87 synchronously and adjust seat 81 displacements, and can reach the purpose of adjusting V-type chamfering seat 8 depths of cut;
It is somebody's turn to do " V-type plain milling cutter formula beveler structure " though can reach the purpose of adjusting V-type chamfering seat 8 depths of cut, only but because of should " V-type plain milling cutter formula beveler structure " not being provided with fetching device, therefore work as this silicon wafer heavy stone used as an anchor 9 and put into V-type chamfering seat 8, an end angle that makes this silicon wafer heavy stone used as an anchor 9 stretch out by the chamfering line of rabbet joint 80 and by cutter 89 grind form chamfering after, these operating personnel must lift silicon wafer heavy stone used as an anchor 9 with hand in mode manually, and this silicon wafer heavy stone used as an anchor 9 turned over turn 90 degrees, again the silicon wafer heavy stone used as an anchor 9 after the upset is put into to V-type chamfering seat 8, ground this silicon wafer heavy stone used as an anchor 9 next end angles, yet mode manually according to this, grind 9 four ends of this silicon wafer heavy stone used as an anchor dihedral and become chamfering, then these operating personnel must lift silicon wafer heavy stone used as an anchor 9 three times with upset silicon wafer heavy stone used as an anchor 9 three times and put into the silicon wafer heavy stone used as an anchor 9 three times, thereby increase number of times and the time that operating personnel lift and overturn and put into silicon wafer heavy stone used as an anchor 9, often silicon wafer heavy stone used as an anchor 9 is put into to the power inequality of V-type chamfering seat 8 again because of operating personnel, cause the two ends angular deflection of tilting or causing putting into silicon wafer heavy stone used as an anchor 9 end to end of this silicon wafer heavy stone used as an anchor 9, again because silicon wafer heavy stone used as an anchor 9 is easy embrittlement things, thereby the end corner impact of this silicon wafer heavy stone used as an anchor 9 is damaged to V-type chamfering seat 8, and then make this silicon wafer heavy stone used as an anchor 9 form defective products, and must scrap or cutting again, thereby reduction output, so often by the user dirt sick.
Therefore, how disappearance such as above-mentioned is forgone, be the place of the technical difficulties that this case utility model designer institute desire solves.
Summary of the invention
Because number of times and time that " V-type plain milling cutter formula beveler structure " its increase operating personnel lift and overturn and put into the silicon wafer heavy stone used as an anchor, the end corner impact of this silicon wafer heavy stone used as an anchor is damaged to V-type chamfering seat, and then make this silicon wafer heavy stone used as an anchor form defective products and reduction output, therefore the purpose of this utility model is to provide a kind of silicon wafer heavy stone used as an anchor beveler, it can significantly reduce the silicon wafer heavy stone used as an anchor and be operated number of times and the time that personnel lift, overturn, put into, and then can reach and promote the silicon wafer heavy stone used as an anchor and ground the qualification rate that forms chamfering and can promote output.
For achieving the above object, the technical solution adopted in the utility model is:
A kind of silicon wafer heavy stone used as an anchor beveler is characterized in that, comprises:
One board, this board top is provided with bogey, and this bogey below is provided with slotted eye, and is provided with the accommodation section in this bogey, and this bogey one side is provided with thrust gear again, and is provided with lapping device in this board;
One shift unit in length and breadth, this in length and breadth shift unit be fixedly arranged on the board;
One clamp device, this clamp device are arranged in shift unit one side in length and breadth, and this clamp device is provided with rotation apparatus, are provided with shift mechanism in this clamp device again.
Wherein: the accommodation section of this bogey is provided with carrier, and this carrier below is provided with the line of rabbet joint, and the line of rabbet joint of this carrier and the slotted eye of bogey connect.
Wherein: this carrier is a load plate, and this bogey is the V-shape base body.
Wherein: the thrust gear of this bogey is pneumatic cylinder or screw rod.
Wherein: the lapping device in this board is provided with motor, this motor is provided with the axle center, and this lapping device is provided with belt, this belt one end is socketed on the axle center of motor, this lapping device is provided with power transmission shaft again, this power transmission shaft one termination is located at belt, and this lapping device is provided with milling cutter, and this milling cutter is arranged in the power transmission shaft top.
Wherein: power transmission shaft one side-lower of this lapping device is provided with guiding mechanism.
Wherein: this in length and breadth shift unit be provided with transverse shift device and vertical shift device, this vertical shift device is located at transverse shift device one side, and this transverse shift device is fixedly arranged on board top, this vertical shift device is provided with the portion of being fixed again.
Wherein: the rotation apparatus of this clamp device is provided with rotating part, and this rotation apparatus is provided with linkage, this linkage one end is coupling in rotating part, and this rotation apparatus is provided with two belts, these two belts are sheathed on two ends of linkage respectively, and this rotation apparatus is provided with two pickup folders again, and these two pickup folders are coupling respectively in two belt one ends, and these two each ends of pickup folder are provided with the hook part, and this clamp device one side is provided with fixed part.
Wherein: the pickup folder of this rotation apparatus is a spider, and the rotating part of this rotation apparatus is turn cylinder or motor.
Wherein: the shift mechanism in this clamp device is pneumatic cylinder or screw rod.
Compared with prior art, adopt the advantage that the utlity model has of technique scheme to be: when the silicon wafer heavy stone used as an anchor is positioned in the bogey, rely on this bogey one side to be provided with thrust gear, making this thrust gear can promote the silicon wafer heavy stone used as an anchor is ground toward the direction displacement of lapping device, and rely on the utility model to be provided with clamp device, but and the silicon wafer heavy stone used as an anchor of gripping after grinding, rely on this clamp device to be arranged in shift unit one side in length and breadth again, this clamp device and silicon wafer heavy stone used as an anchor are together driven by shift unit in length and breadth to carry out vertically, transverse shift, rely on this clamp device to be provided with rotation apparatus again, and turning silicon wafer heavy stone used as an anchor, thereby can significantly reduce the silicon wafer heavy stone used as an anchor and be operated number of times and the time that personnel lift and overturn and put into, and then can reach and promote the silicon wafer heavy stone used as an anchor and ground qualification rate that forms chamfering and the purpose that can promote output.
Description of drawings
Fig. 1 is the section combination schematic diagram of prior art;
Fig. 2 is that major part of the present utility model is separated schematic diagram;
Fig. 3 is a three-dimensional combination schematic diagram of the present utility model;
Fig. 4 is the action schematic diagram of its thrust gear of the utility model;
Fig. 5 is the action schematic diagram that its lapping device of the utility model grinds silicon wafer heavy stone used as an anchor end angle;
Fig. 6 is the action schematic diagram of its clamp device gripping silicon wafer heavy stone used as an anchor of the utility model;
Fig. 7 is the action schematic diagram that its clamp device of the utility model lifts the silicon wafer heavy stone used as an anchor;
Fig. 8 is the action schematic diagram of its clamp device upset silicon wafer heavy stone used as an anchor of the utility model;
Fig. 9 is that the action schematic diagram of inserting the silicon wafer heavy stone used as an anchor is put in its gripping of the utility model.
Description of reference numerals: 1-board; The 2-bogey; The 21-slotted eye; The 22-accommodation section; The 23-carrier; The 24-line of rabbet joint; The 3-thrust gear; The 4-lapping device; The 41-motor; The 42-axle center; The 43-belt; The 44-power transmission shaft; The 441-guiding mechanism; The 45-milling cutter; 5-is shift unit in length and breadth; 51-vertical shift device; 52-transverse shift device; The 53-portion that is fixed; The 6-clamp device; The 61-rotation apparatus; The 611-rotating part; The 612-belt; The 613-pickup folder; The 6131-hook part; The 614-linkage; The 615-belt; The 616-pickup folder; The 6161-hook part; The 62-shift mechanism; The 63-fixed part; 7-silicon wafer heavy stone used as an anchor; 71-holds the angle; Next end angle of 72-; 8-V type chamfering seat; The 80-chamfering line of rabbet joint; 81-adjusts seat; The 82-lock member; The 83-nut; 84-adjusts screw rod; The 85-screw bolt seat; 86-axle gripping member; 87-screw rod holder; The 88-eluding groove; The 89-cutter; 9-silicon wafer heavy stone used as an anchor.
The specific embodiment
For the effect that makes convenient simple and direct understanding other features of the present utility model of your auditor and advantage and reached can more manifest, with the utility model conjunction with figs., be described in detail as follows now:
See also Fig. 2, shown in Figure 3, the utility model provides a kind of silicon wafer heavy stone used as an anchor beveler, and it comprises:
One board 1, this board 1 top is provided with bogey 2, these bogey 2 belows are provided with slotted eye 21, and be provided with accommodation section 22 in this bogey 2, this accommodation section 22 is provided with carrier 23, these carrier 23 belows are provided with the line of rabbet joint 24, this line of rabbet joint 24 connects with the slotted eye 21 of bogey 2, wherein this carrier 23 can be load plate, and this bogey 2 can be the V-shape base body, and these bogey 2 one sides are provided with thrust gear 3 again, this thrust gear 3 can be pneumatic cylinder or is screw rod, and be provided with lapping device 4 in this board 1, this lapping device 4 is provided with motor 41, and this motor 41 is provided with axle center 42, and this lapping device 4 is provided with belt 43, these belt 43 1 ends are socketed on the axle center 42 of motor 41, and this lapping device 4 is provided with power transmission shaft 44 again, and these power transmission shaft 44 1 terminations are located at belt 43, and these power transmission shaft 44 1 side-lowers are provided with guiding mechanism 441, this guiding mechanism 441 can be screw rod, and this lapping device 4 is provided with milling cutter 45 in addition, and this milling cutter 45 is arranged in power transmission shaft 44 tops;
One shift unit 5 in length and breadth, this in length and breadth shift unit 5 be fixedly arranged on the board 1, and this in length and breadth shift unit 5 be provided with vertical shift device 51 and transverse shift device 52, this vertical shift device 51 is located at transverse shift device 52 1 sides, and this transverse shift device 52 is fixedly arranged on board 1 top, and this vertical shift device 51 is provided with the portion of being fixed 53 again;
One clamp device 6, this clamp device 6 is arranged in shift unit 5 one sides in length and breadth, and this clamp device 6 is provided with rotation apparatus 61, this rotation apparatus 61 is provided with rotating part 611, this rotating part 611 can be the turn cylinder or is motor, and this rotation apparatus 61 is provided with linkage 614, these linkage 614 1 ends are coupling in rotating part 611, and this rotation apparatus 61 is provided with two belts 612,615, these two belts 612,615 are sheathed on two ends of linkage 614 respectively, this rotation apparatus 61 is provided with two pickup folders 613 again, 616, these two pickup folders 613,616 are coupling respectively in two belts 612,615 1 ends, and these two pickup folders 613,616 each end are provided with hook part 6131,6161, this pickup folder 613 again, 616 can be spider, are provided with shift mechanism 62 in this clamp device 6 in addition, and this shift mechanism 62 can be pneumatic cylinder or is screw rod, these clamp device 6 one sides are provided with fixed part 63 again, and this fixed part 63 is arranged in the portion that is fixed 53 of vertical shift device 51;
Please cooperate again and consult Fig. 3, shown in Figure 4, when operating personnel put into the carrier 23 of bogey 2 its accommodation sections 22 with silicon wafer heavy stone used as an anchor 7, rely on these bogey 2 one sides to be provided with thrust gear 3, make this thrust gear 3 can promote the milling cutter 45 directions displacement of carrier 23 and silicon wafer heavy stone used as an anchor 7 past lapping devices 4, rely on simultaneously this in length and breadth the vertical shift device 51 of shift unit 5 can on transverse shift device 52, carry out transverse shift, and can make this vertical shift device 51 drive together transverse shift of clamp device 6, please cooperate again and consult Fig. 4, shown in Figure 5, when this thrust gear 3 promotes the direction displacement of carrier 23 and silicon wafer heavy stone used as an anchor 7 past milling cutters 45, rely on the line of rabbet joint 24 of this carrier 23 and the slotted eye 21 of bogey 2 to connect again, make outside the slotted eye 21 of end angle 71 extended these bogeys 2 of this silicon wafer heavy stone used as an anchor 7, and when relying on motor 41 runnings of lapping device 4, the axle center 42 of this motor 41 can drive belt 43 turns simultaneously, make this belt 43 also can drive these power transmission shaft 44 turns simultaneously, thereby can make milling cutter 45 turns of these power transmission shaft 44 tops be ground the end angle 71 of this silicon wafer heavy stone used as an anchor 7, and then make the end angle 71 of this silicon wafer heavy stone used as an anchor 7 form chamfering;
Please cooperate again consult shown in Figure 5, rely on these power transmission shaft 44 1 side-lowers to be provided with guiding mechanism 441, when this guiding mechanism 441 of operating personnel's turn, and can adjust the high and low position of this power transmission shaft 44, thereby can adjust the high and low position of the milling cutter 45 of these power transmission shaft 44 tops, and then can adjust this milling cutter 45 and grind the depth height at these silicon wafer heavy stone used as an anchor 7 its end angles 71;
Please cooperate again and consult Fig. 5, shown in Figure 6, after the formation chamfering is ground at the end angle 71 of this silicon wafer heavy stone used as an anchor 7, rely on this clamp device 6 to be arranged in shift unit 5 one sides in length and breadth, make this in length and breadth the vertical shift device 51 of shift unit 5 can drive this clamp device 6 and be shifted downwards, and can make two pickup folders 613 of this clamp device 6,616 with silicon wafer heavy stone used as an anchor 7 in same level height, rely in this clamp device 6 again and be provided with shift mechanism 62, and the direction that can drive the pickup folder 616 past silicon wafer heavy stones used as an anchor 7 of clamp device 6 moves, get so that two pickup folders 613 of this clamp device 6,616 firmly clamp the two ends end to end of this silicon wafer heavy stone used as an anchor 7, please cooperate again consult shown in Figure 7, rely on these vertical shift device 51 starts again, thereby make this clamp device 6 liftable these silicon wafer heavy stones used as an anchor 7 and upward displacements, rely on these clamp device 6 two pickup folders 613 simultaneously, 616 each end are provided with hook part 6131,6161, and can prevent that this silicon wafer heavy stone used as an anchor 7 from dropping;
Please cooperate again and consult Fig. 7, shown in Figure 8, when this clamp device 6 lifts this silicon wafer heavy stone used as an anchor 7 and upward displacement to the preset, rely on these transverse shift device 52 starts of shift unit 5 in length and breadth, can drive this clamp device 6 and silicon wafer heavy stone used as an anchor 7 together laterally resets, in the stroke that resets, make the rotating part 611 starts rotation of this clamp device 6, and can make this together turn of linkage 614, and can make two belts 612,615 together turns, thereby can drive two pickup folders 613 simultaneously, 616 turns, and then make two pickup folders 613, but 616 Equidirectional overturning silicon wafer heavy stones used as an anchor 7, make next end angle 72 of its silicon wafer heavy stone used as an anchor 7 be reversed bogey 2 towards the below, thrust gear 3 starts with these bogey 2 one sides in season, and the carrier 23 that can make these bogey 2 its accommodation sections 22 is pushed and retracts and reset, please cooperate again and consult Fig. 8, shown in Figure 9, rely on these vertical shift device 51 starts again, and can make this clamp device 6 give this silicon wafer heavy stone used as an anchor 7 is put into to the carrier 23 of bogey 2 its accommodation sections 22, and make this vertical shift device 51 drive clamp devices 6 up moving and reset as shown in Figure 3, its lapping device 4 of the utility model gets so that can continue to grind next end angle 72 of this silicon wafer heavy stone used as an anchor 7, respectively hold the angle to be ground the formation chamfering until this silicon wafer heavy stone used as an anchor 7, after this silicon wafer heavy stone used as an anchor 7 respectively holds the angle grinding to finish, operating personnel just pick up silicon wafer heavy stone used as an anchor 7 and deliver to the rear end processing procedure, thereby can significantly reduce silicon wafer heavy stone used as an anchor 7 and be operated number of times and the time that personnel lift and overturn and put into, and then can reach qualification rate that promotes silicon wafer heavy stone used as an anchor 7 quilt grinding formation chamferings and the purpose person that can promote output, the technical characterictic that this rear end processing procedure of thought is not this case is so will not describe in detail at this;
Therefore, silicon wafer heavy stone used as an anchor 7 after gripping is ground but the utility model relies on this clamp device 6, rely on this clamp device 6 to be arranged in shift unit 5 one sides in length and breadth again, can make this clamp device 6 and silicon wafer heavy stone used as an anchor 7 together by shift unit in length and breadth 5 drive carry out vertically, transverse shift, rely on this clamp device 6 to be provided with rotation apparatus 61 again, and turning silicon wafer heavy stone used as an anchor 7, thereby can significantly reduce silicon wafer heavy stone used as an anchor 7 and be operated number of times and the time that personnel lift and overturn and put into, and then can reach and promote silicon wafer heavy stone used as an anchor 7 and ground qualification rate that forms chamferings and the purpose person that can promote output.
For making the utility model show its progressive and practicality more, as follows with one comparative analysis of existing do now:
Prior art:
1, increases number of times and the time that operating personnel lift and overturn and put into the silicon wafer heavy stone used as an anchor.
2, the end corner impact of this silicon wafer heavy stone used as an anchor is damaged to V-type chamfering seat, and then make this silicon wafer heavy stone used as an anchor form defective products.
3, reduce output.
The utility model advantage:
1, can significantly reduce number of times and the time that operating personnel lift the silicon wafer heavy stone used as an anchor, overturn, put into.
2, can promote the silicon wafer heavy stone used as an anchor and be ground the qualification rate that forms chamfering.
3, can promote output.
More than explanation is just illustrative for the utility model; and nonrestrictive, those of ordinary skills understand, under the situation of the spirit and scope that do not break away from claim and limited; can make many modifications, variation or equivalence, but all will fall within the protection domain of the present utility model.

Claims (10)

1. a silicon wafer heavy stone used as an anchor beveler is characterized in that, comprises:
One board, this board top is provided with bogey, and this bogey below is provided with slotted eye, and is provided with the accommodation section in this bogey, and this bogey one side is provided with thrust gear again, and is provided with lapping device in this board;
One shift unit in length and breadth, this in length and breadth shift unit be fixedly arranged on the board;
One clamp device, this clamp device are arranged in shift unit one side in length and breadth, and this clamp device is provided with rotation apparatus, are provided with shift mechanism in this clamp device again.
2. silicon wafer heavy stone used as an anchor beveler according to claim 1, it is characterized in that: the accommodation section of this bogey is provided with carrier, and this carrier below is provided with the line of rabbet joint, and the line of rabbet joint of this carrier and the slotted eye of bogey connect.
3. silicon wafer heavy stone used as an anchor beveler according to claim 2 is characterized in that: this carrier is a load plate, and this bogey is the V-shape base body.
4. silicon wafer heavy stone used as an anchor beveler according to claim 1 is characterized in that: the thrust gear of this bogey is pneumatic cylinder or screw rod.
5. silicon wafer heavy stone used as an anchor beveler according to claim 1, it is characterized in that: the lapping device in this board is provided with motor, this motor is provided with the axle center, and this lapping device is provided with belt, this belt one end is socketed on the axle center of motor, and this lapping device is provided with power transmission shaft again, and this power transmission shaft one termination is located at belt, this lapping device is provided with milling cutter, and this milling cutter is arranged in the power transmission shaft top.
6. silicon wafer heavy stone used as an anchor beveler according to claim 5 is characterized in that: power transmission shaft one side-lower of this lapping device is provided with guiding mechanism.
7. silicon wafer heavy stone used as an anchor beveler according to claim 1, it is characterized in that: this in length and breadth shift unit be provided with transverse shift device and vertical shift device, this vertical shift device is located at transverse shift device one side, and this transverse shift device is fixedly arranged on the board top, and this vertical shift device is provided with the portion of being fixed again.
8. silicon wafer heavy stone used as an anchor beveler according to claim 1, it is characterized in that: the rotation apparatus of this clamp device is provided with rotating part, and this rotation apparatus is provided with linkage, this linkage one end is coupling in rotating part, and this rotation apparatus is provided with two belts, these two belts are sheathed on two ends of linkage respectively, this rotation apparatus is provided with two pickup folders again, these two pickup folders are coupling respectively in two belt one ends, and these two each ends of pickup folder are provided with the hook part, and this clamp device one side is provided with fixed part.
9. silicon wafer heavy stone used as an anchor beveler according to claim 8 is characterized in that: the pickup folder of this rotation apparatus is a spider, and the rotating part of this rotation apparatus is turn cylinder or motor.
10. silicon wafer heavy stone used as an anchor beveler according to claim 1 is characterized in that: the shift mechanism in this clamp device is pneumatic cylinder or screw rod.
CN2010205975236U 2010-11-03 2010-11-03 Chamfering machine for silicon ingot Expired - Fee Related CN201922323U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2010205975236U CN201922323U (en) 2010-11-03 2010-11-03 Chamfering machine for silicon ingot

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2010205975236U CN201922323U (en) 2010-11-03 2010-11-03 Chamfering machine for silicon ingot

Publications (1)

Publication Number Publication Date
CN201922323U true CN201922323U (en) 2011-08-10

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102962742A (en) * 2012-11-14 2013-03-13 扬州协鑫光伏科技有限公司 Chamfering edge grinding machine for solar wafer
CN103934737A (en) * 2014-05-12 2014-07-23 杭州鑫江机械有限公司 Chamfering machine
CN107671635A (en) * 2017-09-28 2018-02-09 江苏指南针自动化科技有限公司 A kind of full-automatic silicon ingot chamfer equipment
CN108214178A (en) * 2018-01-23 2018-06-29 晶科能源有限公司 A kind of silico briquette facing attachment
CN108406496A (en) * 2018-03-15 2018-08-17 赵子宁 A kind of architectural engineering marble chamfer cutting device
CN109877670A (en) * 2019-04-16 2019-06-14 江苏协鑫硅材料科技发展有限公司 A kind of full-automatic silicon ingot chamfer equipment

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102962742A (en) * 2012-11-14 2013-03-13 扬州协鑫光伏科技有限公司 Chamfering edge grinding machine for solar wafer
CN103934737A (en) * 2014-05-12 2014-07-23 杭州鑫江机械有限公司 Chamfering machine
CN107671635A (en) * 2017-09-28 2018-02-09 江苏指南针自动化科技有限公司 A kind of full-automatic silicon ingot chamfer equipment
CN107671635B (en) * 2017-09-28 2023-09-12 江苏指南针自动化科技有限公司 Full-automatic silicon ingot chamfering equipment
CN108214178A (en) * 2018-01-23 2018-06-29 晶科能源有限公司 A kind of silico briquette facing attachment
CN108406496A (en) * 2018-03-15 2018-08-17 赵子宁 A kind of architectural engineering marble chamfer cutting device
CN109877670A (en) * 2019-04-16 2019-06-14 江苏协鑫硅材料科技发展有限公司 A kind of full-automatic silicon ingot chamfer equipment

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Granted publication date: 20110810

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