Efficient glass insulator surface cleaning device

Abstract

The invention discloses an efficient glass insulator surface cleaning device. The efficient glass insulator surface cleaning device comprises a connecting rod, wherein four sets of glass insulators are fixedly arranged on the side wall of the connecting rod in a sleeving mode. The efficient glass insulator surface cleaning device has the beneficial effects that through a cleaning screw rod, when the glass insulators need to be cleaned, an operator rotates eight sets of threaded pipes clockwise and anticlockwise with hands, and the eight sets of threaded pipes abut against clamping rings respectively to move up and down; when the eight sets of clamping rings move to the expected positions, the operator transversely moves the cleaning screw rod and inserts eight sets of mounting plates into gaps among the four sets of glass insulators respectively; at the moment, the operator rotates the eight sets of threaded pipes clockwise and anticlockwise with hands, and the eight sets of mounting plates and the upper portions and the lower portions of the four sets of glass insulators extrude eight sets of cleaning sponge blocks respectively; due to the fact that the sixteen sets of cleaning sponge blocks are soft, the unextruded parts extend into annular grooves in the surfaces of the four sets of glass insulators and are in close contact with the annular grooves; and thus, the glass insulators can be comprehensively cleaned through the arranged cleaning screw rod.

Description

technical field [0001] The invention relates to the field of glass insulator cleaning, in particular to an efficient glass insulator surface cleaning device. Background technique [0002] Glass insulators are made of glass and are used to support and insulate wires. At present, tempered glass insulators are the most widely used in lines. They are used in industrial and household lines. Since glass insulators are mostly used externally, glass There will be dust on the surface of insulators, and now more efficient glass insulator surface cleaning devices are used to clean the surface. The actual use of high-efficiency glass insulator surface cleaning devices has the advantages of stable use, simple operation and portability. [0003] However, the existing high-efficiency glass insulator surface cleaning device has the following problems in application: since the upper and lower parts of the glass insulator are provided with multiple sets of built-in annular grooves, the cleani...

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Problems solved by technology

[0003] However, the existing high-efficiency glass insulator surface cleaning device has the following problems in application: since the upper and lower parts of the glass insulator are provided with multiple sets of built-in annular grooves, the cleaning structure is difficult to insert into the interior for wiping and cleaning, and the glass insulator cannot be fully cleaned. Secondly, when the operator cleans the glass insulator, he needs to lift the cleaning device. Since the cleaning device has many connection structures, it has a heavy weight. When the operator lifts it for a long time, it will accelerate the consumption of the operator's physical strength. Finally, when wiping the glass insulator, Part of the dust will be raised and enter the entire working space. When the operator inhales the dust into the lungs, it will cause lung damage

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