Clamping mechanism for loading and unloading silicon rods

Abstract

The invention provides a clamping mechanism for loading and unloading silicon rods. The clamping mechanism comprises a magnet fixing seat. A stepped through hole is formed in the center of the magnet fixing seat. A copper column is elastically connected in the through hole through a spring. An electromagnet is fixed to the magnet fixing seat. A sliding column penetrates through the electromagnet and is in clearance fit with the electromagnet. An iron block is fixed to the end, close to the electromagnet, of the sliding column. According to the clamping mechanism for loading and unloading the silicon rods, the clamping mode is firm and reliable, the silicon rods are further clamped, the effect is good, the silicon rods are further clamped and fixed by applying the clamping mechanism, the safety coefficient in the silicon rod transfer process is increased, operation is achieved through power on and power off, the mechanical maintenance frequency is reduced, and the service life is prolonged.

Description

technical field [0001] The invention belongs to the field of photovoltaic new energy equipment, and in particular relates to a clamping mechanism for loading and unloading silicon rods. Background technique [0002] The single crystal of silicon is a crystal with a basically complete lattice structure. It is a good semiconducting material and is used in the manufacture of semiconductor devices, solar cells, etc. With the advancement of scientific and technological productivity, the use of its scope of use is increasing. The higher it is, the proportion of various products gradually increases, and the monocrystalline silicon currently used in various fields is generally cut and processed by larger silicon rods, cut into different sizes and applied to various fields, while the existing When the silicon rods are processed, they are all carried by manpower and placed on the corresponding storage racks or processing equipment. Due to the heavy weight of the silicon rods and the h...

AI Technical Summary

Problems solved by technology

[0002] The single crystal of silicon is a crystal with a basically complete lattice structure. It is a good semiconducting material and is used in the manufacture of semiconductor devices, solar cells, etc. With the advancement of scientific and technological productivity, the use of its scope of use is increasing. The higher it is, the proportion of various products gradually increases, and the monocrystalline silicon currently used in various fields is generally cut and processed by larger silicon rods, cut into different sizes and applied to various fields, while the existing When the silicon rods are processed, they are all carried by manpower and placed on the corresponding storage racks or processing equipment. Due to the heavy weight of the silicon rods and the high storage racks, it is inevitable that they will collide with the shelves when they are transported up and down. , resulting in damage to silicon rods and waste, and manual handling of silicon rods up and down on high shelves wastes manpower and material resources, and the efficiency is low, which is not conducive to increasing production costs

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