CN215800425U

CN215800425U - Accurate feed mechanism of superfine fiber coloring agent

Info

Publication number: CN215800425U
Application number: CN202122154511.7U
Authority: CN
Inventors: 吴惠芬; 蒋武清; 周勇刚; 常荀
Original assignee: Jiangsu Big Well Micro Fiber Manufacturing Co ltd
Current assignee: Jiangsu Big Well Micro Fiber Manufacturing Co ltd
Priority date: 2021-09-07
Filing date: 2021-09-07
Publication date: 2022-02-11
Anticipated expiration: 2031-09-07

Abstract

The utility model discloses an accurate feeding mechanism of a superfine fiber coloring agent, which comprises a feeding mechanism and an air guide mechanism, the feeding mechanism is arranged in the working box, the hard connecting pipe and the sealing ring are arranged, so that the integral sealing performance of liquid in feeding is improved, the servo motor and the material equalizing disc are arranged, the uniform ejection of the dye after stirring is improved, the stirring paddle and the cam group are arranged, the dye is stirred by using the power generated when the fiber cloth moves, the precipitation phenomenon is avoided, the fiber cloth is favorably kneaded and intermittently stretched, and the dyeing working effect is improved, through having set up wind-guiding mechanism in the work box inside, set up wind scooper and induced air jar, be favorable to collecting the hot-blast of stoving usefulness, thereby reduce outer row and discharge pollution, set up air collecting disc and blast pipe, utilize the hot-blast action such as stirring of drying to the dyestuff, improve the result of use of dyestuff.

Description

Accurate feed mechanism of superfine fiber coloring agent

Technical Field

The utility model relates to the related field of fabric dyeing equipment, in particular to an accurate feeding mechanism for an ultrafine fiber dyeing agent.

Background

The superfine fiber is considered in the textile industry of China that the fiber with the single-filament fineness of less than 0.44dtex is defined as the superfine fiber, and the superfine fiber is mainly divided into superfine natural fiber and superfine synthetic fiber; most synthetic fibers can be used for preparing superfine fibers, such as polyamide, polyester, polypropylene, polyacrylonitrile and the like; the fiber dyeing refers to a process for dyeing cellulose fibers and cotton, hemp, viscose and cuprammonium fiber textiles.

The existing device can not control the amount of the sprayed dye during dyeing, so that the excessive dye sprayed during dyeing or the dye substance accumulation occurs, which easily causes the deeper dyeing of partial positions, increases the subsequent work and reduces the dyeing work quality; the fabric of the prior art is dyed and then dried, but before the drying, the dye on the fabric is more, so that the fabric can be sufficiently dried, the drying time is inevitably prolonged, and the drying efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned disadvantages, the present invention provides a precise feeding mechanism for an ultrafine fiber dyeing agent.

The utility model is realized in such a way that an accurate feeding mechanism for an ultrafine fiber dyeing agent is constructed, the device comprises a working box, a movable wheel, a maintenance window, a filtering port, a pushing handle, a hot air component, a feeding pipe, a feeding mechanism, a cloth outlet, fiber cloth, a control panel, an electric wire, an air guide mechanism, a cloth inlet and a cloth guide roller, the periphery of the bottom of the working box is connected with the movable wheel through bolts, the right side of the front end surface of the working box is provided with the maintenance window, the right end surface of the working box is provided with the filtering port, the top of the right end surface of the working box is connected with the pushing handle through bolts, a through groove at the right side of the top of the working box is connected with the hot air component through bolts, the left side of the top of the working box is fixedly connected with the feeding pipe, the top of the right end of the working box is provided with the cloth outlet, the inner wall of the cloth outlet is connected with the fiber cloth in a sliding manner, the left side of the front end surface of the working box is connected with the control panel through bolts, and the left end of the control panel is fixedly connected with the electric wire, the cloth feeding mechanism comprises a servo motor, a hard connecting pipe, a sealing ring, a material homogenizing disc, a discharge hole, a solid wood block, an extension spring, stirring slurry, a cam group, an electric push rod, a pressing roller and an auxiliary roller, wherein the work box is arranged at the top of the left end of the work box, the cloth feeding hole is slidably connected with the fiber cloth, the fiber cloth is contacted with the outer side of the cloth guide roller, the feeding mechanism is arranged in the work box and comprises the servo motor, the hard connecting pipe, the sealing ring, the material homogenizing disc, the discharge hole, the solid wood block, the extension spring, the stirring slurry, the cam group, the electric push rod, the pressing roller and the auxiliary roller, the top of the work box is connected with the servo motor through bolts, the moving end of the servo motor coaxially rotates with the hard connecting pipe, the top water outlet of the hard connecting pipe is rotatably connected with the sealing ring, the top of the sealing ring is connected with the top of the work box through bolts, the bottom of the hard connecting pipe is connected with the top of the material homogenizing disc through a pipeline, the discharge hole is arranged at the outer side of the inner side of the material homogenizing disc, the discharge hole is slidably connected with the solid wood block, the inner side of the solid wood block is elastically connected with the extension spring, extension spring and material-homogenizing disk center inner wall elastic connection, both sides inner wall all rotates with the stirring thick liquid around the work box to be connected, the pivot outside and the fibre cloth of stirring thick liquid contact, both sides inner wall all rotates with the cam group around the work box to be connected, the cam group lateral surface contacts with the fibre cloth, both sides all with electric putter bolted connection around the top in the work box, the electric putter bottom rotates with pinch roller centre of a circle pivot to be connected, the pinch roller lateral surface contacts with the fibre cloth, both sides inner wall all rotates with the auxiliary roll around the work box to be connected, the auxiliary roll top outside contacts with the fibre cloth, servo motor and electric putter all are connected with the control panel electricity, air guide mechanism locates the work box inside.

Preferably, the air guide mechanism comprises an air guide cover, an air guide cylinder, a connecting air pipe, an air collecting disc and an air explosion pipe, the bottom of the right cavity of the working box is connected with the air guide cover through a bolt, an air outlet at the left end of the air guide cover is connected with an air inlet pipeline of the air guide cylinder, the bottom of the air guide cylinder is connected with the bottom in the working box through a bolt, an air outlet of the air guide cylinder is connected with a connecting air pipe pipeline, the connecting air pipe is connected with an air inlet pipeline of the air collecting disc, the bottom of the air collecting disc is connected with the bottom in the working box through a bolt, the top of the air collecting disc is connected with an air explosion pipe pipeline, and the air guide cylinder is electrically connected with the control panel.

Preferably, the cloth guide roller is rotatably connected with the inner walls of the front side and the rear side of the working box, and the hot air assembly and the electric wire are electrically connected with the control panel.

Preferably, six groups of cam groups are arranged in the working box, and the six groups of cam groups are distributed in an equidistant crossing manner from top to bottom.

Preferably, ten groups of solid wood blocks and extension springs are arranged inside the material homogenizing disc, and the material homogenizing disc and the fan at the bottom of the hot air assembly are located on the same horizontal line.

Preferably, the diameter and the length of the gas collecting disc are the same as the width of the left cavity of the working box, and twenty-four groups of gas explosion pipes are arranged at the top of the gas collecting disc.

Preferably, the material of the extension spring is high-carbon steel.

Preferably, the material of the gas collecting disc is steel.

The utility model has the following advantages: the utility model provides a precise feeding mechanism of an ultrafine fiber dyeing agent through improvement, and compared with the same type of equipment, the precise feeding mechanism has the following improvement:

according to the accurate feeding mechanism for the superfine fiber dyeing agent, the hard connecting pipe and the sealing ring are arranged in the working box through the feeding mechanism, so that the integral sealing performance of liquid in feeding is improved, the servo motor and the material equalizing disc are arranged, the uniform spraying of the dye after stirring is improved, the stirring slurry and the cam group are arranged, the dye is stirred by utilizing the power generated when the fiber cloth moves, the precipitation phenomenon is avoided, the fiber cloth is favorably kneaded and intermittently stretched, the dyeing working effect is improved, the compression roller and the auxiliary roller are arranged, the fiber cloth is favorably extruded and predried, and the dye is prevented from being brought to the right cavity of the working box to influence the work of the air guide mechanism.

According to the accurate feeding mechanism for the superfine fiber coloring agent, the air guide mechanism is arranged in the working box, the air guide cover and the air guide cylinder are arranged, hot air for drying is collected, emission is reduced, pollution is reduced, the air collecting disc and the air blasting pipe are arranged, the dye is stirred by the hot air for drying, and the using effect of the dye is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the feed mechanism of the present invention;

FIG. 3 is a schematic top view of the feeding mechanism of the present invention;

fig. 4 is a schematic structural view of the air guide mechanism of the present invention.

Wherein: a working box-1, a moving wheel-2, a maintenance window-3, a filter opening-4, a push handle-5, a hot air component-6, a feeding pipe-7, a feeding mechanism-8, a cloth outlet-9, a fiber cloth-10, a control panel-11, an electric wire-12, an air guide mechanism-13, a cloth inlet-14, a cloth guide roller-15, a servo motor-81, a hard connecting pipe-82, a sealing ring-83, a material homogenizing disc-84, a material outlet-85, a solid wood block-86, a tension spring-87, a stirring slurry-88, a cam group-89, an electric push rod-810, a compression roller-811, an auxiliary roller-812, an air guide cover-131, an air guide cylinder-132, a connecting air pipe-133, an air collecting disc-134, a fan, a motor, a fan, a motor, a fan, a motor, and (4) an aeration pipe-135.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 4, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the precise feeding mechanism for the superfine fiber coloring agent comprises a working box 1, a moving wheel 2, a maintenance window 3, a filtering port 4, a pushing handle 5, a hot air assembly 6, a feeding pipe 7, a feeding mechanism 8, a cloth outlet 9, a fiber cloth 10, a control panel 11, an electric wire 12, an air guide mechanism 13, a cloth inlet 14 and a cloth guide roller 15, wherein the periphery of the bottom of the working box 1 is connected with the moving wheel 2 through bolts, the maintenance window 3 is arranged on the right side of the front end surface of the working box 1, the filtering port 4 is arranged on the right end surface of the working box 1, the top of the right end of the working box 1 is connected with the pushing handle 5 through bolts, the through groove on the right side of the top of the working box 1 is connected with the hot air assembly 6 through bolts, the left side of the top of the working box 1 is fixedly connected with the feeding pipe 7, the cloth outlet 9 is arranged on the top of the right end of the working box 1, the inner wall of the cloth outlet 9 is connected with the fiber cloth 10 in a sliding manner, the left side of the front end surface of the working box 1 is connected with the control panel 11 through bolts, 11 left ends of control panel and electric wire 12 fixed connection, 1 left end top of work box is equipped with into cloth mouth 14, advances cloth mouth 14 inner wall and fibre cloth 10 sliding connection, fibre cloth 10 contacts with the fabric guide roll 15 outside, fabric guide roll 15 rotates with the work box 1 front and back both sides inner wall to be connected, and hot-blast subassembly 6 and electric wire 12 all are connected with control panel 11 electricity.

Referring to fig. 2 and 3, the precise feeding mechanism for the superfine fiber coloring agent of the present invention includes a feeding mechanism 8 disposed inside a working box 1 to improve the uniformity of feeding, the feeding mechanism 8 includes a servo motor 81, a hard connecting pipe 82, a sealing ring 83, a material-homogenizing plate 84, a discharge port 85, a solid wood block 86, a tension spring 87, a stirring paddle 88, a cam group 89, an electric push rod 810, a pressing roller 811 and an auxiliary roller 812, the top of the working box 1 is bolted to the servo motor 81 to improve the fixing effect of the servo motor 81, the axial end of the servo motor 81 and the hard connecting pipe 82 rotate coaxially, the driving effect of the servo motor 81 to the hard connecting pipe 82 is improved, the water outlet at the top of the hard connecting pipe 82 is rotatably connected to the sealing ring 83 to improve the continuity of flowing of the dye, the top of the sealing ring 83 is bolted to the top of the working box 1 to improve the fixing effect of the sealing ring 83, the bottom of the hard connecting pipe 82 is connected with a feed inlet pipeline at the top of the homogenizing disc 84 through a pipeline, the flowing continuity of dye is improved, the discharging opening 85 is arranged on the outer side inside the homogenizing disc 84 and is connected with the solid wood block 86 in a sliding mode, the stability of the solid wood block 86 during moving is improved, the inner side of the solid wood block 86 is elastically connected with the extension spring 87, the driving performance of the extension spring 87 on the solid wood block 86 is improved, the extension spring 87 is elastically connected with the inner wall of the circle center of the homogenizing disc 84, the pipeline effect of the extension spring 87 is improved, the inner walls of the front side and the rear side of the working box 1 are rotatably connected with the stirring slurry 88, the fixing effect of the stirring slurry 88 is improved, the outer side of the rotating shaft of the stirring slurry 88 is in contact with the fiber cloth 10, the guiding effect on the fiber cloth 10 is improved, the inner walls of the front side and the rear side of the working box 1 are rotatably connected with the cam group 89, and the fixing effect on the cam group 89 is improved, the outer side surface of the cam group 89 is contacted with the fiber cloth 10 to improve the guiding effect on the fiber cloth 10, the front side and the rear side of the inner top of the working box 1 are both connected with the electric push rod 810 through bolts to improve the fixing effect on the electric push rod 810, the bottom of the electric push rod 810 is rotatably connected with a rotating shaft of the circle center of the pressing roller 811 to improve the driving effect of the electric push rod 810 on the pressing roller 811, the outer side surface of the pressing roller 811 is contacted with the fiber cloth 10 to improve the extrusion effect on the fiber cloth 10, the inner walls of the front side and the rear side of the working box 1 are both rotatably connected with the auxiliary roller 812 to improve the fixing effect on the auxiliary roller 812, the outer side of the top of the auxiliary roller 812 is contacted with the fiber cloth 10 to improve the extrusion effect on the fiber cloth 10, the servo motor 81 and the electric push rod 810 are both electrically connected with the control panel 11, the air guide mechanism 13 is arranged in the working box 1 to improve the utilization rate of hot air, six cam groups 89 are arranged in the working box 1, and six groups of cam groups 89 divide into two sets and are from top to bottom equidistance cross distribution, are favorable to improving and carry out periodic tension to fibre cloth 10, improve the dyeing effect, and the inside solid billet 86 of ten groups and extension spring 87 that are equipped with altogether of homocline 84, and homocline 84 and hot-blast subassembly 6 bottom fan are in same water flat line, are favorable to improving homocline 84 stirring effect and homocline effect to the dyestuff.

Referring to fig. 4, the precise feeding mechanism for the superfine fiber coloring agent of the present invention comprises an air guiding mechanism 13, an air guiding cover 131, an air guiding cylinder 132, a connecting air pipe 133, a gas collecting tray 134 and an air blasting pipe 135, wherein the bottom of the right cavity of the working box 1 is connected with the air guiding cover 131 by a bolt, so as to improve the pipeline effect of the air guiding cover 131, an air outlet at the left end of the air guiding cover 131 is connected with an air inlet pipeline of the air guiding cylinder 132, so as to improve the guiding effect of the air guiding cylinder 132, the bottom of the air guiding cylinder 132 is connected with the bottom of the working box 1 by a bolt, so as to improve the fixing effect of the air guiding cylinder 132, an air outlet of the air guiding cylinder 132 is connected with the connecting air pipe 133, so as to improve the continuity of the air flow, the bottom of the gas collecting tray 134 is connected with the bottom of the working box 1 by a bolt, so as to improve the fixing effect of the gas collecting tray 134, and the top of the gas blasting pipe 135 is connected with the air collecting tray 134, improve the continuity that the air current flows, induced air cylinder 132 is connected with control panel 11 electricity, and gas collection dish 134 diameter length is the same with work box 1 left side chamber width, and gas collection dish 134 top is equipped with twenty four groups of gas blasting pipes 135 altogether, is favorable to improving the drive effect of gas collection dish 134 to the dyestuff, avoids phenomenons such as sediment to appear.

The utility model provides an accurate feeding mechanism of an ultrafine fiber coloring agent through improvement, and the working principle is as follows;

firstly, when the equipment is used, the equipment is placed in a working area, and then the device is connected with an external power supply, so that the power supply required by the work of the equipment can be provided;

secondly, when dyeing is carried out, a worker firstly penetrates the fiber cloth 10 between the internal parts of the work box 1, then the worker connects the feeding pipe 7 with an external feeding pipeline, then the worker pulls the cloth at the cloth outlet 9 through an external instrument to enable the fiber cloth 10 to move in the work box 1, the control panel 11 controls the servo motor 81 to drive the material equalizing disc 84 to rotate, at the moment, the dye enters the sealing ring 83 through the feeding pipe 7, the dye can be gathered in the sealing ring 83 through the sealing performance of the sealing ring 83, then enters the hard connecting pipe 82 through an opening at the top of the outer side of the hard connecting pipe 82, the dye enters the material equalizing disc 84 through the hard connecting pipe 82, the dye rotates in a vortex mode under the rotating centrifugal effect because the material equalizing disc 84 is in a rotating state, and after the dye automatically stirs, the worker controls the rotation speed of the servo motor 81 to increase through the control panel 11, so that the centrifugal force applied to the solid wood block 86 at the discharge port 85 inside the homogenizing disc 84 is increased and is greater than the pulling force of the tension spring 87, and the solid wood block 86 moves outwards and pulls the solid wood block 86 to store the force;

thirdly, when the solid wood block 86 moves, the solid wood block 86 stops blocking the discharge port 85, the dye in the equalizing disc 84 is discharged through the discharge port 85, the dye spraying area is uniform under the same action of the rotating speed and the centrifugal force, which is favorable for improving the feeding quality during the dyeing work, the fiber cloth 10 passes through two groups of cloth guide rollers 15 first and then is sequentially driven by the contact friction with the stirring slurry 88 and the cam group 89, so that the stirring slurry 88 and the cam group 89 rotate along with the movement of the fiber cloth 10, the dye around the stirring slurry 88 rotates to flow, the phenomenon of poor dyeing quality caused by dye precipitation is avoided, meanwhile, the cam group 89 rotates to extrude and loosen the fiber cloth 10 through the protruding part, so that the fiber cloth 10 is intermittently stretched, tightened and loosened, and the uniformity of the dye attached and attached to the fiber cloth 10 is favorably improved, the dyeing effect can be improved, then the fiber cloth 10 passes through the rest between the pressing roller 811 and the auxiliary roller 812, the electric push rod 810 is controlled by the control panel 11 to drive the pressing roller 811 to move downwards, and the fiber cloth 10 and the auxiliary roller 812 form an extrusion state, after the fiber cloth 10 is extruded, the water content in the cloth is extruded, then the water content enters a drying area through the guide of the cloth guide roller 15, the hot air blown out by the hot air component 6 is used for carrying out hot drying and damp clearing treatment on the fiber cloth 10, then the fiber cloth 10 is discharged through the cloth outlet 9, and the dyeing effect can be improved while the drying efficiency is improved;

fourthly, when hot-blast subassembly 6 during operation, control induced air cylinder 132 works in step, induced air cylinder 132 leads induced air cylinder 132 with the most air current in the inside right chamber of work box 1 through wind scooper 131, the minority is discharged after filtering through filtration mouth 4, avoid resulting in the inside right chamber atmospheric pressure of work box 1 to be too high, then induced air cylinder 132 sends the air current into the gas collection dish 134 inside through connecting pipe 133, and gather in the gas collection dish 134 inside and improve atmospheric pressure, after atmospheric pressure reaches the rated value, atmospheric pressure spouts the dyestuff to the inside left chamber bottom of work box 1 through blast pipe 135, thereby improve the mobility of dyestuff, avoid the dyestuff to deposit, improve the material homogeneity of dyestuff self simultaneously.

The utility model provides an accurate feeding mechanism of an ultrafine fiber coloring agent through improvement, which is provided with a hard connecting pipe 82 and a sealing ring 83, is favorable for improving the integral sealing property of liquid during feeding, a servo motor 81 and a material homogenizing disc 84 are arranged, is favorable for improving the uniform ejection of the dye after stirring, a stirring paddle 88 and a cam group 89 are arranged, the stirring of the dye is improved by utilizing the power generated when a fiber cloth 10 moves, the precipitation phenomenon is avoided, the fiber cloth 10 is favorable for rubbing and intermittently stretching, the dyeing working effect is improved, a pressing roller 811 and an auxiliary roller 812 are arranged, the fiber cloth 10 is favorable for extrusion predrying action, the dye is prevented from being brought to the right cavity of a working box 1 to influence the work of an air guide mechanism 13, an air guide cover 131 and an air guide cylinder 132 are arranged, the collection of hot air for drying is favorable, the outward discharge is reduced, the pollution is reduced, an air collecting disc 134 and an air blasting pipe 135 are arranged, the dye is stirred by the drying hot air, and the using effect of the dye is improved.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides an accurate feed mechanism of superfine fiber coloring agent, includes work box (1) and fabric guide roll (15), all with remove wheel (2) bolted connection around work box (1) bottom, the terminal surface right side is equipped with maintenance window (3) before work box (1), work box (1) right-hand member face is equipped with filtration mouth (4), work box (1) right-hand member top and pushing handle (5) bolted connection, work box (1) top right side logical groove and hot-blast subassembly (6) bolted connection, work box (1) top left side and inlet pipe (7) fixed connection, work box (1) right-hand member top is equipped with out cloth mouth (9), go out cloth mouth (9) inner wall and fiber cloth (10) sliding connection, work box (1) preceding terminal surface left side and control panel (11) bolted connection, control panel (11) left end and electric wire (12) fixed connection, a cloth inlet (14) is formed in the top of the left end of the working box (1), the inner wall of the cloth inlet (14) is connected with the fiber cloth (10) in a sliding mode, and the fiber cloth (10) is in contact with the outer side of the cloth guide roller (15);

the method is characterized in that: the material loading mechanism (8) is arranged inside the working box (1), the material loading mechanism (8) comprises a servo motor (81), a hard connecting pipe (82), a sealing ring (83), a material homogenizing disc (84), a discharge hole (85), a solid wood block (86), a tension spring (87), stirring slurry (88), a cam group (89), an electric push rod (810), a pressing roller (811) and an auxiliary roller (812), the top of the working box (1) is in bolted connection with the servo motor (81), the axial moving end of the servo motor (81) is in coaxial rotation with the hard connecting pipe (82), a water outlet in the top of the hard connecting pipe (82) is in rotary connection with the sealing ring (83), the top of the sealing ring (83) is in bolted connection with the top of the working box (1), the bottom of the hard connecting pipe (82) is in pipeline connection with the top of the material homogenizing disc (84), the inside outside of charging tray (84) is equipped with bin outlet (85), inside and solid billet (86) sliding connection of bin outlet (85), solid billet (86) inboard and extension spring (87) elastic connection, extension spring (87) and charging tray (84) centre of a circle inner wall elastic connection, both sides inner wall all rotates with stirring thick liquid (88) around work box (1) and is connected, the pivot outside and the fibre cloth (10) of stirring thick liquid (88) contact, both sides inner wall all rotates with cam group (89) to be connected around work box (1), cam group (89) lateral surface contacts with fibre cloth (10), both sides all with electric putter (810) bolted connection around the top in work box (1), electric putter (810) bottom rotates with the pivot of compressing roller (811) centre of a circle department and is connected, compressing roller (811) lateral surface contacts with fibre cloth (10), the utility model discloses a fiber cloth, including work box (1), auxiliary roller (812), servo motor (81) and electric putter (810), both sides inner wall all rotates with auxiliary roller (812) to be connected around work box (1), the outside of auxiliary roller (812) top contacts with fiber cloth (10), servo motor (81) and electric putter (810) all are connected with control panel (11) electricity, work box (1) inside is located in air guiding mechanism (13).

2. The precise feeding mechanism of the superfine fiber dyeing agent according to claim 1, characterized in that: the air guide mechanism (13) comprises an air guide cover (131), an air guide cylinder (132), a connecting air pipe (133), an air collection disc (134) and an air explosion pipe (135), the bottom of the right cavity of the working box (1) is in bolted connection with the air guide cover (131), an air outlet at the left end of the air guide cover (131) is in pipeline connection with an air inlet of the air guide cylinder (132), the bottom of the air guide cylinder (132) is in bolted connection with the bottom in the working box (1), an air outlet of the air guide cylinder (132) is in pipeline connection with the connecting air pipe (133), the connecting air pipe (133) is in pipeline connection with an air inlet of the air collection disc (134), the bottom of the air collection disc (134) is in bolted connection with the bottom in the working box (1), the top of the air collection disc (134) is in pipeline connection with the air explosion pipe (135), and the air guide cylinder (132) is electrically connected with the control panel (11).

3. The precise feeding mechanism of the superfine fiber dyeing agent according to claim 1, characterized in that: the cloth guide roller (15) is rotationally connected with the inner walls of the front side and the rear side of the working box (1), and the hot air assembly (6) and the electric wire (12) are electrically connected with the control panel (11).

4. The precise feeding mechanism of the superfine fiber dyeing agent according to claim 1, characterized in that: six groups of cam sets (89) are arranged in the work box (1), and the six groups of cam sets (89) are divided into two groups and are distributed in an equidistant crossing manner from top to bottom.

5. The precise feeding mechanism of the superfine fiber dyeing agent according to claim 1, characterized in that: ten groups of solid wood blocks (86) and extension springs (87) are arranged inside the material homogenizing disc (84), and the material homogenizing disc (84) and a fan at the bottom of the hot air assembly (6) are located on the same horizontal line.

6. The precise feeding mechanism of the superfine fiber dyeing agent according to claim 2, characterized in that: the diameter and the length of the gas collecting disc (134) are the same as the width of the left cavity of the working box (1), and twenty-four groups of gas explosion pipes (135) are arranged at the top of the gas collecting disc (134).