A single crystal silicon rod mechanical bonding equipment
A monocrystalline silicon rod and mechanical technology, applied in stone processing equipment, crystal growth, post-processing details, etc., can solve problems such as low precision, production impact, single crystal shape, etc., to improve processing efficiency and processing accuracy, and ensure Stabilize production and reduce requirements
Active Publication Date: 2017-07-11
XINGTAI JINGLONG ELECTRONICS MATERIAL
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Problems solved by technology
[0003] Due to the high requirements for personnel in the single crystal bonding process, the bonder needs to rely on his own work experience to operate during the bonding process, which has a high probability of causing the appearance of the single crystal, especially the critical single crystal and distortion. Single crystal, the probability of appearance and the length of the single crystal also have great factors, and the adhesive cannot bond the single crystal larger than 500mm
It takes at least half a year to train a sticky person. If some people resign and there are no replacements, it will have a certain impact on production
In summary, manual bonding of monocrystalline silicon rods has low efficiency and low precision, and the production process is greatly affected by human factors, which cannot guarantee efficient and stable continuous production
Method used
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[0015] The present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments. It should be noted that the drawings are in a very simplified form and use imprecise scales, and are only used to facilitate and clearly assist the purpose of illustrating the embodiments of the present invention.
[0016] Such as figure 1 As shown, it is an embodiment of a mechanical bonding equipment for monocrystalline silicon rods in the present invention. Lead screw 10, base 14, workbench 9; the upper surface of workbench 9 is provided with adjustment platform 8, and above adjustment platform 8 is rotary platform 7, and above rotary platform 7 is base 14, and four columns 6 and first plate 1 are fixed connection, four uprights 6 and the second flat plate 2 slidingly fit, and the bottom surface of the second flat plate 2 is provided with an electromagnetic chuck 3; the lifting screw 10 can make the second flat plate 2 lift and pres...
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The invention discloses a mechanical sticking device for a silicon single crystal rod and relates to the technical field of silicon single crystal rod machining. The mechanical sticking device comprises a first panel, a second panel, an electromagnetic sucker, stand columns, a rotation table, an adjusting platform, lifting screw rods, a base and a worktable. A crystal support is adsorbed to the bottom face of the sucker. The silicon single crystal rod is aligned with the crystal support through the rotation table and the adjusting platform. The lifting screw rods drive the second panel, the electromagnetic sucker and the crystal support to ascend and descend to conduct pressing downwards. By means of the sensor, the transmission mechanism and the adjusting platform, the silicon single crystal rod and the crystal support can be accurately adjusted to the same position and then mechanically stuck, the machining efficiency and the machining precision are greatly improved, meanwhile, the requirements for workers are lowered, operation is convenient, and stable production of the subsequent square forming process is ensured.
Description
technical field [0001] The invention relates to the technical field of single crystal silicon rod processing. Background technique [0002] The monocrystalline silicon rod bonding process is a preparatory process before the single crystal square is cut. The main work is to glue the single crystal silicon rods to the round crystal support dedicated to the square cutting machine. It is necessary to ensure that the single crystal silicon Only when the error between the central axis of the rod and the central axis of the crystal holder is within the allowable range, can the square root function normally process the single crystal silicon rod into a single crystal silicon block. [0003] Due to the high requirements for personnel in the single crystal bonding process, the bonder needs to rely on his own work experience to operate during the bonding process, which has a high probability of causing the shape of the single crystal, especially the critical single crystal and distorti...
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IPC IPC(8): B28D7/04C30B33/06
CPCB28D7/04C30B33/06
Inventor 王会敏何京辉张瑞强张建龙
Owner XINGTAI JINGLONG ELECTRONICS MATERIAL