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CN-121992595-A - Processing technology of wear-resistant anti-pilling bamboo fiber fabric

CN121992595ACN 121992595 ACN121992595 ACN 121992595ACN-121992595-A

Abstract

The invention is suitable for the technical field of textile, and provides a processing technology of wear-resistant anti-pilling bamboo fiber fabric. The processing technology of the wear-resistant anti-pilling bamboo fiber fabric provided by the scheme enables the guide roller set to be completely separated from the impregnation tank through the integral lifting control of the lifting upper roller frame and the lower roller frame, solves the problem of inconvenient cloth penetrating caused by installation of the traditional fixed guide rollers, and enables the lower roller frame to periodically move up and down relative to the fixed upper roller frame by the aid of the reciprocating lifting mechanism.

Inventors

  • Liu Cuiyong

Assignees

  • 云南咏竹科技有限公司

Dates

Publication Date
20260508
Application Date
20260316

Claims (10)

  1. 1. The processing technology of the wear-resistant anti-pilling bamboo fiber fabric is characterized by comprising the following steps of: adopt wear-resisting anti-pilling bamboo fiber fabric processingequipment to process the bamboo fiber fabric, wear-resisting anti-pilling bamboo fiber fabric processingequipment includes: the two opposite sides of the dipping tank are respectively provided with a guide roller which is used for leading in and leading out fabrics, and the other two sides of the dipping tank are respectively fixedly provided with a lifting frame; Lifting screws are rotatably arranged on the two lifting frames, lifting motors are fixedly arranged on the two lifting frames, first conical gears are fixedly arranged on output shafts of the two lifting screws and the two lifting motors, the first conical gears are meshed with each other, so that the lifting motors drive the lifting screws to rotate, lifting sliding blocks are sleeved on the two lifting screws in a threaded manner, and the same lifting frame is fixedly arranged on the two lifting sliding blocks; The bottom of the hoisting frame is fixedly provided with a plurality of hoisting plates, the bottoms of the hoisting plates are fixedly provided with the same upper roller frame, a lower roller frame is arranged below the upper roller frame, the hoisting frame and the hoisting plates suspend the upper roller frame and the lower roller frame to enter or leave from the impregnation tank, a plurality of upper guide rollers are rotatably arranged on the upper roller frame, a plurality of lower guide rollers are rotatably arranged on the lower roller frame, and the upper guide rollers and the lower guide rollers are matched with two guide rollers to guide the bamboo fiber fabrics to be impregnated in the impregnation tank; The lower roller frame is connected with the hoisting frame by adopting a reciprocating type lifting mechanism.
  2. 2. The process for processing the wear-resistant anti-pilling bamboo fiber fabric according to claim 1, wherein the reciprocating lifting mechanism comprises reciprocating sliding rods respectively fixedly installed at the tops of four corners of the lower roller frame, four reciprocating sliding rods respectively slide to penetrate through the four corners of the upper roller frame, two supporting strips are fixedly installed on the lifting frame, two threaded sleeves are respectively rotatably installed on the two supporting strips, four threaded sleeves are respectively vertically arranged with the four reciprocating sliding rods, reciprocating screws are fixedly installed at the tops of the four reciprocating sliding rods, and the four reciprocating screws are respectively screwed into the four threaded sleeves, so that the four reciprocating screws are driven to synchronously lift when the four threaded sleeves synchronously rotate, and the lower roller frame is driven to lift by the reciprocating sliding rods, so that the distance between the lower roller frame and the upper roller frame is reciprocally changed.
  3. 3. The processing technology of the wear-resistant anti-pilling bamboo fiber fabric according to claim 2, wherein reciprocating gears are fixedly arranged at the top ends of the four threaded sleeves, two vertical plates are fixedly arranged at the top of the lifting frame, two synchronous round rods are slidably arranged on the two vertical plates together, reciprocating racks are fixedly arranged at two ends of the two synchronous round rods, and the four reciprocating racks are respectively meshed with the four reciprocating gears, so that when the two synchronous round rods slide synchronously, the reciprocating racks are driven to slide reciprocally to drive the reciprocating gears to rotate reciprocally, and further reciprocating lifting of the lower roll frame is controlled.
  4. 4. The process for processing the wear-resistant anti-pilling bamboo fiber fabric according to claim 3, wherein the two synchronous round rods are fixedly sleeved with fixing rings, the two synchronous round rods are fixedly sleeved with reciprocating springs, two ends of each reciprocating spring are fixedly connected with the corresponding fixing rings and vertical strips respectively, the same fixing strip is fixedly installed on the two synchronous round rods, a stress block is fixedly installed on the fixing strip, a shaft seat and a power motor are fixedly installed on the lifting frame, a power shaft is rotatably installed on the shaft seat, one end of the power shaft is fixedly connected with an output shaft of the power motor, a cam is fixedly sleeved on the power shaft, and the outer edge of the cam is in contact with the stress block and used for controlling the two synchronous round rods to synchronously reciprocate in cooperation with the reciprocating springs so as to control the lower roller frame to reciprocate.
  5. 5. The process for processing the wear-resistant and anti-pilling bamboo fiber fabric according to claim 1, wherein a controller is fixedly arranged on the dipping tank and is connected with the lifting motor and the power motor.
  6. 6. The process for processing the wear-resistant and anti-pilling bamboo fiber fabric according to claim 1, wherein the length and width dimensions of the upper roll frame and the lower roll frame are smaller than the inner cavity dimension of the dipping tank, and a plurality of upper guide rolls and a plurality of lower guide rolls are arranged in a staggered manner.
  7. 7. The process for producing wear-resistant and pilling-resistant bamboo fiber surface material according to claim 4, wherein the cam has a drop value smaller than a distance of displacement of the reciprocating screw in the thread bushing for preventing the reciprocating screw from being separated from the thread bushing.
  8. 8. The process for processing the wear-resistant anti-pilling bamboo fiber fabric according to claim 1, wherein supporting seats are fixedly arranged on two sides of the guide rollers of the dipping tank and used for rotatably mounting the guide rollers, and the setting heights of the two guide rollers are higher than the height of the dipping tank.
  9. 9. The process for processing the wear-resistant and anti-pilling bamboo fiber fabric according to claim 1, wherein the side edges of the lifting slide blocks are in sliding contact with the lifting frame, and the lifting interval of the lifting slide blocks along the lifting screw is larger than the distance from the lower roll frame to the outside of the top of the dipping tank in the dipping tank.
  10. 10. The process for producing wear-resistant anti-pilling bamboo fiber fabric according to claim 4, wherein the fixing ring and the reciprocating spring are arranged in groups on the same synchronous round bar.

Description

Processing technology of wear-resistant anti-pilling bamboo fiber fabric Technical Field The invention belongs to the technical field of textile, and particularly relates to a processing technology of wear-resistant anti-pilling bamboo fiber fabric. Background The after-finishing of the fabric is a technical treatment mode for endowing the fabric with color effect, morphological effect and actual effect, generally needs to carry out dipping treatment, improves the appearance and the hand feeling of the fabric by a chemical or physical main method, improves the wearing performance or endows the fabric with special functions, and is a processing process of 'adding flowers to the fabric' on the fabric. The existing fabric impregnating device is used for conveying fabrics through an impregnating tank at a certain speed in the impregnating process, the fixed guide rollers in the impregnating tank are more fixed and inconvenient for installing fabrics to pass through, the fixed fabrics are poorer in impregnating effect in the impregnating process due to certain elasticity, and the impregnated fabrics have looseness in the conveying process, so that the fixed guide rollers cannot adapt to the looseness adjustment. Disclosure of Invention The invention provides a processing technology of wear-resistant anti-pilling bamboo fiber fabric, and aims to solve the problems set forth in the background technology. The invention discloses a processing technology of wear-resistant anti-pilling bamboo fiber fabrics, which is realized by adopting a processing device of wear-resistant anti-pilling bamboo fiber fabrics, and comprises an impregnating tank, wherein guide rollers are respectively arranged on two opposite sides of the impregnating tank and used for guiding in and guiding out the fabrics, lifting frames are fixedly arranged on the other two sides of the impregnating tank, lifting screws are respectively and rotatably arranged on the two lifting frames, lifting motors are respectively and fixedly arranged on the two lifting frames, first conical gears are respectively and fixedly arranged on output shafts of the two lifting screws and the two lifting motors, the two conical gears are meshed with each other, so that the lifting screws are driven by the lifting motors to rotate, lifting sliders are respectively and spirally sleeved on the two lifting screws, the bottoms of the lifting sliders are fixedly provided with the same lifting frame, the bottoms of the lifting frames are fixedly provided with the same lifting frame, the lifting frame is provided with the lifting frame, the lower lifting frame is provided with the guide roller, the lifting frame is in a reciprocating manner, the lifting frame is arranged below the lifting frame, the lifting frame is in a reciprocating manner, the lifting frame is connected with the lower lifting frame, the lifting frame is arranged on the lower lifting frame, the lifting frame is in a reciprocating manner, and the lifting frame is connected with the lifting frame is provided with the lifting frame, and the lifting frame is in a plurality of lifting frame, and the lifting frame is in a reciprocating manner, and the lifting frame is matched with the lifting frame is provided with the lifting frame. Preferably, the reciprocating lifting mechanism comprises reciprocating sliding rods respectively and fixedly installed at the tops of four corners of the lower roller frame, four reciprocating sliding rods respectively and slidably penetrate through the four corners of the upper roller frame, two supporting strips are fixedly installed on the lifting frame, two threaded sleeves are respectively and rotatably installed on the supporting strips, four threaded sleeves are respectively and vertically arranged with the four reciprocating sliding rods, four reciprocating screws are fixedly installed at the tops of the reciprocating sliding rods, the four reciprocating screws are respectively screwed into the four threaded sleeves, so that the four reciprocating screws are driven to synchronously lift when the threaded sleeves synchronously rotate, and the reciprocating sliding rods are driven to lift the lower roller frame, so that the distance between the lower roller frame and the upper roller frame is reciprocally changed. Preferably, four reciprocating gears are fixedly arranged at the top ends of the threaded sleeves, two vertical plates are fixedly arranged at the top of the lifting frame, two synchronous round rods are slidably arranged on the vertical plates together, reciprocating racks are fixedly arranged at the two ends of the synchronous round rods, the four reciprocating racks are respectively meshed with the four reciprocating gears, so that when the two synchronous round rods slide synchronously, the reciprocating racks are driven to reciprocate when being driven to slide reciprocally, and then reciprocating lifting of the lower roller frame is controlled. Preferably, two all f