Infiltration device coated on surface of glass fabric

Abstract

The invention discloses an infiltration device coated on the surface of a glass fabric. The infiltration device comprises a base, wherein a top plate is arranged on the base; installing racks are arranged on the end surface of the base; cloth dragging rollers are arranged between the installing racks; fixing plates are arranged on the top of the top plate; a rotating shaft is sleeved and connected between the fixing plates; a transmission belt is arranged between the rotating shaft and a main shaft of the cloth dragging rollers; a driving mechanism is arranged between the rotating shaft and the top plate; one end of the driving mechanism is connected with a feeding mechanism; a material storage box is arranged on the top of the top plate; one end of the feeding mechanism is connected with the material storage box, and the other end of the feeding mechanism is connected with a coating box; and a brush plate is arranged at the bottom of the driving mechanism. The cloth dragging rollers rotate to drag and convey the glass fabric, the cloth dragging rollers and the rotating shaft synchronously rotate through the transmission belt, the rotating shaft drives the driving mechanism to move, the driving mechanism synchronously drives the feeding mechanism and the brush plate to move, and the feeding amount of the feeding mechanism is in direct proportion to the moving speed of the glass fabric, so that the same coating amount of the glass fabric in unit length is guaranteed; and then, paint is uniformly coated through the back-and-forth movement of the brush plate.

Description

technical field [0001] The invention relates to the technical field of glass fiber cloth production, in particular to an infiltration device coated on the surface of glass fiber cloth. Background technique [0002] Glass fiber cloth is divided into high alkali cloth, medium alkali cloth and non-alkali cloth according to the alkali content. The lower the alkali content, the better the flexural and tensile strength. These kinds of cloth can be distinguished according to the conductivity. , can be used as wires, medium-alkali cloth is a semiconductor, and non-alkali cloth is an insulator. In the production of glass fiber cloth, it is necessary to infiltrate the surface with glue and lye. The current coating method is to drag the glass with a mop roller. Fiber cloth, and then directly coat the surface of the glass fiber cloth through nozzles and brushes. The feeding pump is often used for coating and feeding. Thick, some places are too thin, the coating is uneven, which affects...

AI Technical Summary

Problems solved by technology

[0002] Glass fiber cloth is divided into high-alkali cloth, medium-alkali cloth and non-alkali cloth according to the alkali content. The lower the alkali content, the better the flexural and tensile strength. , can be used as wires, medium-alkali cloth is a semiconductor, and non-alkali cloth is an insulator. In the production of glass fiber cloth, it is necessary to infiltrate the surface with glue and lye. The current coating method is to drag the glass with a mop roller. Fiber cloth, and then directly coat the surface of the glass fiber cloth through nozzles and brushes. The feeding pump is often used for coating and feeding. Thick, some places are too thin, uneven coating, affecting the quality of glass fiber cloth, so we propose a wetting device coated on the surface of glass fiber cloth to solve the above problems

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