CN113862923B - Yarn surface treatment mechanism for textile yarn desizing machine - Google Patents

Abstract

The invention provides a yarn surface treatment mechanism for a textile yarn desizing machine, which relates to the field of printing and dyeing devices and comprises a box body, wherein openings for cloth to enter and exit are formed in the left side and the right side of the box body, a pair of fixed rollers and a pair of clamping rollers are arranged in the box body, the clamping rollers are positioned above the fixed rollers, a plurality of groups of desizing assemblies are arranged between the clamping rollers, the cloth can pass through the desizing assemblies, and a drying box is connected to the right side of the box body. The yarn surface treatment mechanism for the textile yarn desizing machine enables the whole device to perform desizing treatment on two textiles, namely cloth and yarn, through the cooperation of the fixed roller, the clamping roller, the desizing assembly and the yarn holes. Through magnetite one, magnetite two, belt cooperation, make the magnet of fly leaf bottom receive different magnetic force influence to make the fly leaf vibration from top to bottom, make the thimble strike cloth, increase the fibre gap of striking department, make the desizing liquid can be better with the fibre contact, improve the desizing effect.

Description

Yarn surface treatment mechanism for textile yarn desizing machine

Technical Field

The invention relates to the technical field of printing and dyeing devices, in particular to a yarn surface treatment mechanism for a textile yarn desizing machine.

Background

The yarn dyeing and finishing can be finished by matching a plurality of working procedures, the dyeing and finishing are usually performed by pretreatment, dyeing, printing, finishing, washing water and other processes, and the dyeing and finishing effect is sometimes better through a steam room, however, the traditional dyeing and finishing are clear in working procedures, and each step is provided with respective equipment.

During the weaving process, the warp yarns are subjected to larger tension and friction and are easy to break. In order to reduce broken warp and improve weaving efficiency and grey cloth quality, the warp yarns need to be sized before weaving, so that fibers in the yarns are adhered and cohesive, a firm sizing film is formed on the surfaces of the yarns, and the yarns become compact and smooth, so that the breaking strength and wear resistance of the yarns are improved.

Sizing is advantageous for weaving but presents difficulties for subsequent dyeing and finishing processes, and the sizing on the grey cloth can contaminate the dyeing and finishing liquor and impede penetration of the dye into the interior of the fiber. The sizing can affect the wettability of the fabric during dyeing and finishing and hinder the contact of chemicals to the fibers. Fabrics are therefore typically desized first.

The desizing method is various, mainly comprises a hot water desizing method, an alkali liquor desizing method, an enzyme desizing method and an oxidant desizing method, wherein various desizing methods are all used for desizing, the desizing machine is a machine for removing sizing agents on fabrics, and the current desizing machine has the problems that a large amount of sizing films remain among fibers when the elastic fabrics are desized, and the desizing efficiency is low.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a yarn surface treatment mechanism for a textile yarn desizing machine, which solves the problems in the prior art.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a yarn surface treatment mechanism for spinning yarn desizing machine, includes the box, the box left and right sides is equipped with the opening that supplies the cloth to business turn over, is equipped with a pair of fixed roll and a pair of pinch roll in the box, the pinch roll is located fixed roll top, be equipped with multiunit desizing subassembly between the pinch roll, the cloth can pass the desizing subassembly, and the box right side is connected with the stoving case, be equipped with a plurality of row's material pipes in the box, row's material pipe and pinch roll one-to-one, row's material pipe bottom is connected with a plurality of nozzles, and the nozzle lower extreme passes the desizing subassembly towards the cloth.

Preferably, the desizing assembly comprises a connecting rod, a concave strip, a movable plate, ejector pins and a short spring, wherein the end part of the connecting rod is connected with the inner wall of the box body, the lower end of the nozzle penetrates through the connecting rod, the concave strip is connected with the bottom of the connecting rod, a passage for cloth to pass through is formed between the concave strip and the connecting rod, the concave strip is provided with a groove, the movable plate is positioned in the inner groove, the bottoms of the two ends of the movable plate are connected with the short spring, the lower end of the short spring is connected with the bottom of the inner wall of the groove, and the ejector pins are distributed on the movable plate at equal angles.

Preferably, a plurality of rotating shafts are arranged in the box body, the rotating shafts are positioned below the desizing assembly, the rotating shafts are in transmission connection with a belt, a plurality of first magnets and second magnets are arranged at the top of the belt, the magnets are positioned between two adjacent first magnets, magnets are arranged at the bottom of the movable plate, the magnets are arranged on the lower side of the magnets to form N magnetic poles, the upper side of each magnet is provided with N magnetic poles, and the upper side of each magnet is provided with S magnetic poles.

Preferably, the rotating shaft drives the belt to rotate, when the first magnet passes below the magnet, the homopolar repulsion movable plate of the magnetic poles rises, and when the second magnet passes below the magnet, the opposite attraction movable plate of the magnetic poles sinks, and the movable plate moves up and down to enable the ejector pins to continuously strike cloth.

Preferably, a plurality of yarn holes are formed in the left side of the box body, and yarns pass through the yarn holes and pass between the adjacent ejector pins.

Preferably, probes are arranged on two sides of the inner wall of the groove and used for detecting the up-and-down movement frequency of the movable plate.

Preferably, a T-shaped block is arranged in the box body, a sliding groove is formed in the lower end of the T-shaped block, a plurality of sliding blocks are slidably matched in the sliding groove, a metal strip is connected between every two adjacent sliding blocks, the middle section of the metal strip is bent outwards, electric push rods are connected to two sides of the T-shaped block, and the extension ends of the electric push rods extend into the sliding groove and are in interference with the sliding blocks at the outermost side.

Preferably, the bottom of the box body is provided with supporting legs, a fiber roller is arranged in the box body, a longitudinal groove is formed in the inner wall of the box body relative to the fiber roller, the end part of the fiber roller is in sliding fit with the longitudinal groove, the top part of the inner wall of the longitudinal groove is connected with a long spring, and the lower end of the long spring is connected with the end part of the fiber roller.

Preferably, a baking lamp is arranged in the baking box.

(III) beneficial effects

The invention provides a yarn surface treatment mechanism for a textile yarn desizing machine. The beneficial effects are as follows:

1. the yarn surface treatment mechanism for the textile yarn desizing machine enables the whole device to perform desizing treatment on two textiles, namely cloth and yarn, through the cooperation of the fixed roller, the clamping roller, the desizing assembly and the yarn holes. Through magnetite one, magnetite two, belt cooperation, make the magnet of fly leaf bottom receive different magnetic force influence to make the fly leaf vibration from top to bottom, make the thimble strike cloth, increase the fibre gap of striking department, make the desizing liquid can be better with the fibre contact, improve the desizing effect.

Drawings

FIG. 1 is a perspective view of the structure of the present invention;

FIG. 2 is a schematic representation of the internal structure of the present invention;

FIG. 3 is a schematic view of the desizing assembly of the present invention;

FIG. 4 is a partially schematic illustration of the construction of the desizing assembly of the present invention;

FIG. 5 is a schematic diagram of a T-block structure according to the present invention;

FIG. 6 is a schematic view of the belt structure of the present invention.

In the figure: 1 box, 11 fixed roller, 12 clamping roller, 13 longitudinal groove, 14 yarn hole, 15 stabilizer blade, 2 desizing subassembly, 21 connecting rod, 22 concave strip, 221 recess, 23 fly leaf, 24 thimble, 25 magnet, 26 short spring, 27 probe, 3 fiber roller, 4 long spring, 5 belt, 51 magnetite one, 52 magnetite two, 6 pivot, 7T type piece, 71 spout, 72 slider, 73 electric putter, 74 metal strip, 8 stoving case, 81 baking lamp, 9 row material pipe, 91 nozzle.

Detailed Description

The embodiment of the invention provides a yarn surface treatment mechanism for a textile yarn desizing machine, which is shown in figures 1-6, and comprises a box body 1, wherein openings for cloth to enter and exit are formed in the left side and the right side of the box body 1, and a pair of fixed rollers 11 and a pair of clamping rollers 12 are pivoted in the box body 1. The pinch roller 12 is located above the fixed roller 11. The cloth is clamped by the clamping roller 12 and the fixed roller 11. A plurality of groups of desizing assemblies 2 are fixedly arranged between the clamping rollers 12. Cloth passes through the desizing assembly 2 when moving along the cloth feeding direction. The right side of the box body 1 is fixedly provided with a drying box 8, and when cloth is subjected to desizing treatment, the cloth is subjected to drying treatment through the drying box 2.

A plurality of discharge pipes 9 are fixedly arranged in the box body 1, the inlet ends of the discharge pipes 9 are communicated with the conveying and desizing device, and a plurality of nozzles 91 are fixedly arranged at the lower ends of the discharge pipes 9. And the discharge pipes 9 are in one-to-one correspondence with the clamping rollers 12, and the lower ends of the nozzles 91 penetrate through the desizing assembly 2 to face the cloth.

The desizing assembly 2 comprises a connecting rod 21, a concave strip 22, a movable plate 23, a thimble 24 and a short spring 26. The end of the connecting rod 21 is welded to the inner wall of the case 1, and the lower end of the nozzle 91 penetrates the connecting rod 21. The concave strip 22 is welded with the bottom of the connecting rod 21, and a channel for cloth to pass through is formed between the concave strip 22 and the connecting rod 21. The concave strip 22 is provided with a groove 221, the movable plate 23 is positioned in the inner groove 221, the bottoms of the two ends of the movable plate 23 are welded with the short springs 26, and the lower ends of the short springs 26 are welded with the bottoms of the inner walls of the groove 221. The thimble 24 is welded to the movable plate 23 at equal angles.

The tip of the thimble 24 is in a semicircular sphere shape, so that the thimble 24 is prevented from piercing cloth. When the thimble 24 impacts cloth and the cloth has elasticity, the fabric at the impact part bulges, and the fiber gap of the contact area of the cloth and the thimble 24 is enlarged to a certain extent, so that desizing liquid can pass through the fiber gap, the desizing liquid can be better contacted with the fabric, and the desizing effect is improved. Reducing sizing residue at fiber gaps.

A plurality of rotating shafts 6 driven by a motor are fixedly arranged in the box body 1, and the rotating shafts 6 are positioned below the desizing assembly 2. The plurality of rotating shafts 6 are connected with a belt 5 in a transmission way, and a plurality of magnets I51 and magnets II 52 are fixedly inlaid at the top of the belt 5. The second magnets 52 are positioned between two adjacent first magnets 51, and the magnets 25 are fixedly adhered to the bottom of the movable plate 23.

The magnet 25 has an N pole on the downward side, the magnet one 51 has an N pole on the upward side, and the magnet two 52 has an S pole on the upward side.

When the magnetic iron works, the rotating shaft 6 drives the belt 5 to rotate, when the first magnet 51 passes below the magnet 25, the homopolar repulsion of the magnetic poles leads the movable plate 23 to rise, and when the second magnet 52 passes below the magnet 25, the opposite attraction of the magnetic poles leads the movable plate 23 to sink. The ejector pins 24 are made to continuously strike the cloth by the up-and-down movement of the movable plate 23.

The left side of the box 1 is provided with a plurality of yarn holes 14, and yarns pass through the yarn holes 14 and pass between adjacent ejector pins 24. The yarn passes through the yarn hole 14 and extends into the box body 1, and passes between the clamping roller 12 and the fixed roller 11. Meanwhile, the plurality of yarns are separated by the ejector pins 24, and when the yarns pass through the nozzle 91, the nozzle 91 ejects desizing liquid. Thereby realizing the purpose of desizing the yarn.

Probes 27 are fixedly arranged on two sides of the inner wall of the groove 221, and the probes 27 are used for detecting the up-and-down movement frequency of the movable plate 23. The rotation speed of the belt 5 is adjusted according to the information fed back by the probe 27, thereby controlling the frequency of the up-and-down movement of the movable plate 23. The purpose of controlling the frequency of the thimble striking the cloth is achieved.

The T-shaped block 7 is welded in the box body 1, a sliding groove 71 is formed in the lower end of the T-shaped block 7, a plurality of sliding blocks 72 are slidably matched in the sliding groove 71, a metal strip 74 is welded between two adjacent sliding blocks 72, and the middle section of the metal strip 74 is bent outwards. The electric push rods 73 are welded on two sides of the T-shaped block 7, and the extension ends of the electric push rods 73 extend into the sliding grooves 71 and are in contact with the sliding blocks 72 on the outermost side.

The metal strip 74 is a fine iron strip with toughness, the metal strip 74 is abutted against the cloth, and the metal strip 74 scrapes redundant moisture on the cloth in the movement of the cloth, so that the subsequent drying speed is increased, and the drying time is shortened. Because the metal strips 74 are malleable, the slides 72 to which the metal strips 74 are attached tend to move away from each other. The electric push rod is used for stretching, so that the sliding block 72 is pushed to move, and the bending degree of the metal strip 74 is changed, so that the metal strip 74 can apply different forces to the cloth according to requirements. The purpose of adjustment is achieved.

The bottom of the box body 1 is welded with support legs 15, a fiber roller 3 is arranged in the box body 1, a longitudinal groove 13 is formed in the inner wall of the box body 1 relative to the fiber roller 3, the end part of the fiber roller 3 is in sliding fit with the longitudinal groove 13, the top of the inner wall of the longitudinal groove 13 is connected with a long spring 4, and the lower end of the long spring 4 is connected with the end part of the fiber roller 3.

A baking lamp 81 is fixedly arranged in the drying box 8.

The control module for controlling the operation of each electronic component is fixedly installed outside the case 1, and the specific structure and the circuit connection mode are not described in detail because the control module is a conventional technical means.

In summary, according to the yarn surface treatment mechanism for the textile yarn desizing machine, the desizing assembly 2 and the yarn holes 14 are matched through the fixed roller 11, the clamping roller 12, so that the whole device can perform desizing treatment on two textiles, namely cloth and yarn. The magnet 25 at the bottom of the movable plate 23 is affected by different magnetic forces through the matching of the magnet I51, the magnet II 52 and the belt 5, so that the movable plate 23 vibrates up and down, the thimble 24 impacts cloth, fiber gaps at the impact position are increased, desizing liquid can be better contacted with fibers, and desizing effect is improved.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A yarn surface treatment mechanism for spinning yarn desizing machine, its characterized in that: the device comprises a box body (1), openings for cloth to enter and exit are formed in the left side and the right side of the box body (1), a pair of fixed rollers (11) and a pair of clamping rollers (12) are arranged in the box body (1), the clamping rollers (12) are located above the fixed rollers (11), a plurality of groups of desizing assemblies (2) are arranged between the clamping rollers (12), the cloth can pass through the desizing assemblies (2), a drying box (8) is connected to the right side of the box body (1), a plurality of discharging pipes (9) are arranged in the box body (1), the discharging pipes (9) correspond to the clamping rollers (12) one by one, a plurality of nozzles (91) are connected to the bottoms of the discharging pipes (9), and the lower ends of the nozzles (91) pass through the desizing assemblies (2) to face the cloth;

the desizing assembly (2) comprises a connecting rod (21), a concave strip (22), a movable plate (23), a thimble (24) and a short spring (26), wherein the end part of the connecting rod (21) is connected with the inner wall of the box body (1), the lower end of a nozzle (91) penetrates through the connecting rod (21), the concave strip (22) is connected with the bottom of the connecting rod (21), a channel for cloth to pass through is formed between the concave strip (22) and the connecting rod (21), a groove (221) is formed in the concave strip (22), the movable plate (23) is positioned in the inner groove (221), the bottoms of the two ends of the movable plate (23) are connected with the short spring (26), the lower end of the short spring (26) is connected with the bottom of the inner wall of the groove (221), and the thimble (24) is distributed on the movable plate (23) at equal angles;

a plurality of rotating shafts (6) are arranged in the box body (1), the rotating shafts (6) are positioned below the desizing assembly (2), a belt (5) is connected to the rotating shafts (6) in a transmission mode, a plurality of first magnets (51) and second magnets (52) are arranged at the tops of the belt (5), the second magnets (52) are positioned between the two adjacent first magnets (51), magnets (25) are arranged at the bottoms of the movable plates (23), the downward side of each magnet (25) is an N magnetic pole, the upward side of each first magnet (51) is an N magnetic pole, and the upward side of each second magnet (52) is an S magnetic pole;

be equipped with T type piece (7) in box (1), spout (71) have been seted up to T type piece (7) lower extreme, and sliding fit has a plurality of sliders (72) in spout (71), is connected with metal strip (74) between two adjacent sliders (72), and the outside bending of metal strip (74) interlude, T type piece (7) both sides all are connected with electric putter (73), electric putter (73) extension end stretches into in spout (71) to contradict with slider (72) in the outermost side.

2. A yarn surface treatment mechanism for a textile yarn desizing machine as in claim 1 wherein: the rotating shaft (6) drives the belt (5) to rotate, when the magnet I (51) passes through the lower part of the magnet (25), the movable plate (23) is lifted due to the homopolar repulsion of the magnetic poles, and when the magnet II (52) passes through the lower part of the magnet (25), the movable plate (23) is sunk due to the heteropolar attraction of the magnetic poles, and the movable plate (23) moves up and down to enable the ejector pins (24) to continuously impact cloth.

3. A yarn surface treatment mechanism for a textile yarn desizing machine as in claim 1 wherein: a plurality of yarn holes (14) are formed in the left side of the box body (1), and yarns pass through the yarn holes (14) and pass between adjacent ejector pins (24).

4. A yarn surface treatment mechanism for a textile yarn desizing machine as in claim 1 wherein: probes (27) are arranged on two sides of the inner wall of the groove (221), and the probes (27) are used for detecting the up-and-down movement frequency of the movable plate (23).

5. A yarn surface treatment mechanism for a textile yarn desizing machine as in claim 1 wherein: the utility model discloses a fiber roll, including box (1), fiber roll (3) and fiber roll (3) are equipped with stabilizer blade (15) bottom box (1), are equipped with fiber roll (3) in box (1), and longitudinal groove (13) have been seted up for fiber roll (3) department to box (1) inner wall, fiber roll (3) tip and longitudinal groove (13) sliding fit, and longitudinal groove (13) inner wall top is connected with long spring (4), long spring (4) lower extreme and fiber roll (3) end connection.

6. A yarn surface treatment mechanism for a textile yarn desizing machine as in claim 1 wherein: and a baking lamp (81) is arranged in the drying box (8).