CN105887396A - Supercritical fluid waterless dyeing universal proofing machine - Google Patents

Abstract

The invention discloses a supercritical fluid waterless dyeing universal proofing machine, which comprises a proofing machine box, a rotation frame, a heat insulation disc and a rotation driving shaft, wherein the rotation frame and the heat insulation disc are vertically arranged inside the proofing machine box and are in coaxial arrangement at the front side and the back side; the rotation driving shaft is coaxially and fixedly connected with the rotation frame; a plurality of infrared ray heating tubes in radial arrangement are arranged between the rotation frame and the heat insulation disc and are positioned on the circumference surface coaxial with the rotation frame and the heat insulation disc; an infrared ray reflecting film or a plating layer cover the outer surface near one side of the infrared ray heating tubes on the heat insulation disc; a plurality of dyeing cups in radial arrangement are arranged on the circumference surface coaxial with the rotation frame and the heat insulation disc on the rotation frame; the infrared ray heating tubes and the dyeing cups are respectively arranged in a way of forming an angle being several times of a certain angle with the longitudinal profile line of the heat insulation disc; the supercritical fluid waterless dyeing proofing on a plurality of samples is realized. The supercritical fluid waterless dyeing universal proofing machine has the advantages that the dyeing proofing efficiency is high; the operation is simple and convenient; the accuracy rate is high; stability and reliability are realized; the application range is wide; ecological and environment-friendly effects are achieved, and the like.

Description

A kind of omnipotent proof press of supercritical fluid non-aqueous dyeing

Technical field

The invention belongs to pressure vessel and textile dyeing and finishing equipment manufacturing technology field, be specifically related to face a kind of surpassing The omnipotent proof press of boundary's liquid waterless dyeing.

Background technology

In the dyeing and printing process of textile produces, sample sample has indispensable important function, is to obtain Obtain the premise of the basic components of production and processing, particularly with the color processing of textile.Therefore, grind Send out sample proofing facility system efficient, reliable, that be suitable for, to the base obtained needed for producing quick, accurate Plinth formula is significant.

But, recently as to the standard of ecological and environmental conservation with require more and more higher, environmental protection policy Implementation dynamics strengthen, traditional fabrics printing and dyeing processing encounters unprecedented challenge and tired Border.Thus, research and develop supercritical CO₂Deng the anhydrous dyeing and finishing process technology that fluid is machining medium, from source The upper traditional dyeing and finishing that thoroughly eliminates is processed brought ecological, environmental protective etc. and is perplexed, to traditional textile dyeing can Ensured sustained development develops, and ecological environmental protection etc. all has very important economy, environmental protection and social reality Meaning.And research and develop supercritical fluid non-aqueous dyeing sample proofing facility system, dye anhydrous to supercritical fluid Popularization and application and the industrialization of adjusting technique all have very important significance.

The supercritical CO of textile at present₂Waterless staining technique, achieved with marked improvement.Both at home and abroad Relevant unit all have developed the device systems such as sample that can be used for textile dyeing processing, the most again to adopt By vertical or horizontal warp beam, and the dye gigging of twin shaft pattern and rope form isotype are many.

Such as " a kind of production system using supercritical fluid to carry out continuous dyeing and production technology thereof " (CN101024922A) in, it was recently reported that a kind of integrated form dyeing caldron and system, it includes being interconnected Supercritical fluid feeding mechanism, dye cycle device and supercritical fluid retracting device, wherein dyeing follow Loop device includes at least two integrated dyeing kettle, and integrated dyeing kettle makes in same still Can complete the dissolving of dyestuff simultaneously, and can be 10-45Mpa at supercritical fluid pressures, temperature be The Colour Difference of fabric is completed under the conditions of 100-180 DEG C." the method with treatment with supercritical fluid textile substrates With device " in the Chinese invention patent of (CN1200153A), describe a kind of for pack resultant yarn cylinder or The vertical warp beam high pressure dyeing still of package endless fabric dyeing and system, and processing temperature and time can be entered Row control and regulation, can dye under the conditions of the treatment temperature of constant pressure such as 280 bars and rising.

Chinese patent " a kind for the treatment of with supercritical fluid dress of textile in Publication No. CN2688735 Put " in, disclose the horizontal many merits of warp beam pattern of a kind of band fluid circulating system of this team early stage design Energy processing equipment, it is by gas cylinder, bus-bar, force (forcing) pump, preheater, high pressure dyeing still, heat exchange Device, separator, dyestuff dissolution kettle, bidirectional circulating pump and control valve composition, can at certain system pressure and Realize the level dyeing to fabric etc. under temperature conditions to process.Meanwhile, in Publication No. CN101824716A Chinese invention patent " device and method of a kind of fabric dyeing with supercritical carbon dioxide fluid " in, Disclose special seamless warp beam that this team early stage is designed with, that be made up of inside and outside two-layer, and at winding The fabric outermost layer suit netted infantees of seamless knitted cylinder, at supercritical carbon dioxide fluid pressure be Under the conditions of 10MPa～30Mpa, temperature are 90 DEG C～140 DEG C, use fluid circulation and hydrostatic phase Between dyeing, with realize in supercritical carbon dioxide fluid piece dyeing fabric level dyeing processing. At the Chinese invention patent of Publication No. CN102747566A, " one with supercritical carbon dioxide fluid is The fabrics in roped form staining machine of medium and colouring method " in, disclose this team early stage is designed with, general Carry cloth wheel system to be arranged in color jar, and jointly drive fabric in rope form to enter by the draw of selvage guide rope Row order cycle moves, and conservative control dyeing fluid circular flow, fabric circulation speed, dyeing temperature With the technological parameter such as pressure, to realize the fabric in rope form piece dyeing in supercritical carbon dioxide fluid medium. Additionally, in the Chinese invention patent " supercritical dyeing machine " of Publication No. CN101760914A, also Disclose that this team early stage is designed with containing dye cycle system, enter distribution system, separation and recovery system etc. The fabrics in roped form piece dyeing staining machine of composition, realizes the non-aqueous dyeing processing of pine formula tension-free state to fabric.

Thus, from document report disclosed above and actual application, existing supercritical fluid dyeing etc. Process equipment system, especially sample are drawn a design device, are the most all to arrange one in set of system to fix Dyeing or machining cell of drawing a design, and the supercharging of correspondence, separating and reclaiming device or system.But, this The disadvantage of class system of processing is exactly typically once can only to carry out the dyeing etc. of a sample to draw a design processing. And this unit of drawing a design must also be carried out after end of every time drawing a design, examination of just next time drawing a design Test, in particular for carry out colour changing draw a design time, the thorough cleaning of system just seems particularly necessary.Meanwhile, Such apparatus system the most existing or its machining cell of drawing a design, its cleaning process is loaded down with trivial details, and is difficult to clean. Therefore, the efficiency of these existing supercritical fluid dyeing proofing systems is the lowest, can not meet far away business Industry metaplasia produces the demand drawing a design sample.Meanwhile, its provisioned dyeing, supercharging, separation and recovery etc. set The utilization rate of standby system is the lowest.Thus, this also interferes significantly on and to limit supercritical fluid anhydrous The popularization and application of staining technique and industrialization.

Summary of the invention

Not enough in order to overcome present in background technology, the present invention provides a kind of supercritical fluid non-aqueous dyeing Omnipotent proof press, can realize the supercritical fluid non-aqueous dyeing of multiple samples is drawn a design simultaneously, there is dye Color is drawn a design, and efficiency is high, easy and simple to handle, accuracy rate is high, reliable and stable, wide accommodation, ecological, environmental protective etc. Advantage.

The technical scheme is that the omnipotent proof press of a kind of supercritical fluid non-aqueous dyeing, including proof press Cabinet, it is characterised in that: also include vertically being located at described proof press cabinet inside and concentric setting front and back Swivel mount, adiabatic disks, and fix, with described swivel mount concentric, the rotating driveshaft being connected；

Between described swivel mount and described adiabatic disks, be positioned at on the periphery of swivel mount and adiabatic disks concentric It is provided with several infrared ray heating tubes being disposed radially, in described adiabatic disks, adds near described infrared ray The outer surface of heat pipe side is coated with infrared reflection film or coating；On described swivel mount and swivel mount and The periphery of adiabatic disks concentric is provided with several dyeing cup being disposed radially, the most described infrared heating Pipe, described dyeing cup all become multiple to arrange with the longitudinal profile line of adiabatic disks with a basic angle；

It is provided with adiabatic hermatic door in the front portion of described proof press cabinet, sets in the left and right sides of described proof press cabinet Pore, the medial surface of described adiabatic hermatic door is had to be provided with tubular thermal insulation Sealing shield ring, and outside described swivel mount Footpath is less than the internal diameter of described tubular thermal insulation Sealing shield ring, and the external diameter of described tubular thermal insulation Sealing shield ring is less than described The external diameter of adiabatic disks, when adiabatic hermatic door is closed, described tubular thermal insulation Sealing shield ring adds with adiabatic disks composition Hot heat-insulated cavity, described swivel mount is positioned at this heating and thermal insulation cavity.

As preferred technical scheme, also include being located at the wind cooling unit at edge below described adiabatic disks, described wind The air port of cold unit towards swivel mount, and its tuyere angle on the basis of the horizontal axis of swivel mount at 0 °～ Change in the range of 90 °.

As preferred technical scheme, described swivel mount include several concentrics and be disposed radially fixing Axle, and it is located at the fixing axle circumferential ring away from one end, the center of circle；It is equipped with for fixing dye on each fixing axle Two fixation clamps of cup upper and lower end.

As preferred technical scheme, in the upper surface of described tubular thermal insulation Sealing shield ring, near adiabatic hermatic door Leftward position is provided with monitoring holes, is arranged over movable sealing transparent cover plate at described monitoring holes.

As preferred technical scheme, at the upper left position of described adiabatic hermatic door, it is provided with observation window.

As preferred technical scheme, described proof press cabinet is square box, and its top is provided with electrical control Button, parameter arrange display window, and described electrical control button includes exchange on and off switch, and swivel mount is emergent to be opened Stop button, speed governing and positive and negative motor adjustment emergency button, air blast cooling unit emergency button, infrared heating Pipe power supply and power selection emergency button.

As preferred technical scheme, described basic angle be 0 °～360 ° in the range of arbitrarily angled.

As preferred technical scheme, described tubular thermal insulation Sealing shield ring includes inner support insulation material layer, with And it is located at infrared reflection film or the coating on its surface.

It is selected from as aluminum, silver reflectance coating and plating thereof as preferred technical scheme, described infrared reflection film or coating One in Ceng.

As preferred technical scheme, described dyeing cup be all kinds of multi-form, difformity and different capabilities, Portable textile dyeing, pre-treatment or Final finishing process high pressure or middle and low-pressure vessel.

The invention have the advantage that

The most compared with prior art, due to the fact that and have employed multiple portable supercritical fluid dyeing cup Or sample unit of drawing a design carries out concentrating the pattern drawn a design of heating up, can effectively realize multiple samples are carried out simultaneously Supercritical fluid non-aqueous dyeing is drawn a design, thus it is low to overcome efficiency of drawing a design in existing equipment system and method Under, cleaning process is loaded down with trivial details, be difficult to shortcomings such as cleaning, utilization rate of equipment and installations is low.Simultaneously as to supercritical Fluid dyeing cup carries out concentrating intensification to draw a design, thus also reduces and avoid existing and legacy equipment and drawing a design Because of process conditions differences such as intensifications in journey, on the dyestuff caused contaminate difference, also thus can effectively alleviate or Reduce cup poor, improve repeatability and the accuracy of sample of drawing a design；

The most omnipotent proof press of the present invention, can be applicable to different capabilities, different size, not similar shape Formula and difform all kinds of portable dyeing cup, its subject range is extensive, the operation letter and its dyeing is drawn a design Just, reliably.Thus the technology of the present invention is remarkably improved supercritical fluid non-aqueous dyeing and draws a design efficiency and dye thereof The accuracy rate of tinctorial pattern product and the percentage of A-class goods, to the popularization and application and the product that promote supercritical fluid waterless staining technique Industry, promotes to solve generation and the discharge of textile printing and dyeing industry pollutant from source, it is achieved textile printing and dyeing The saving energy, lowering energy consumption and reducing pollutants discharge of industry and cleaning produce all has boundless application prospect.

Accompanying drawing explanation

Below in conjunction with the accompanying drawings and embodiment the invention will be further described:

Fig. 1 is the structural representation of the omnipotent proof press of supercritical fluid non-aqueous dyeing of the present invention；

Fig. 2 is the omnipotent proof press internal structure front view of supercritical fluid non-aqueous dyeing of the present invention；

Fig. 3 is the swivel mount of omnipotent proof press of supercritical fluid non-aqueous dyeing of the present invention, adiabatic disks, red Outside line adds the longitudinal profile schematic diagram of heat pipe；

Fig. 4 is adiabatic hermatic door and the tubular of the omnipotent proof press of supercritical fluid non-aqueous dyeing of the present invention The longitudinal profile schematic diagram of adiabatic Sealing shield ring；

Fig. 5 is the swivel mount of omnipotent proof press of supercritical fluid non-aqueous dyeing of the present invention, adiabatic disks, red Outside line adds heat pipe, adiabatic hermatic door and the longitudinal profile schematic diagram of tubular thermal insulation Sealing shield ring；

Fig. 6 is adiabatic hermatic door and the tubular of the omnipotent proof press of supercritical fluid non-aqueous dyeing of the present invention Adiabatic Sealing shield ring top view；

Wherein: 1 proof press cabinet, 2 swivel mounts, 3 adiabatic disks, 4 infrared ray heating tubes, 5 infrared ray Reflectance coating, 6 dyeing cup, 7 wind cooling units, 8 fixation clamps, 9 rotating driveshafts, 10 adiabatic hermatic doors, 11 Pore, 12 tubular thermal insulation Sealing shield rings, 13 monitoring holes, 14 observation windows, 15 electrical control buttons, 16 parameters arrange display window, 17 longitudinal profile lines, 18 horizontal axis.

Detailed description of the invention

Embodiment: referring to figs. 1 through shown in 6, the omnipotent proof press of a kind of supercritical fluid non-aqueous dyeing, Including proof press cabinet 1, vertically it is located at internal and that front and back concentric the is arranged rotation of proof press cabinet 1 Frame 2, adiabatic disks 3, and fix, with swivel mount 2 concentric, the rotating driveshaft 9 being connected；At swivel mount Between 2 and adiabatic disks 3, it is positioned at the periphery with swivel mount 2 and adiabatic disks 3 concentric and is provided with some The individual infrared ray heating tube 4 being disposed radially, in adiabatic disks 3, near infrared ray heating tube 4 side Outer surface be coated with infrared reflection film or coating 5；On swivel mount 2 and swivel mount 2 and thermal insulation The periphery of dish 3 concentric is provided with several dyeing cup 6 being disposed radially, and this dyeing cup 6 is supercritical Liquid waterless dyeing is drawn a design cup, and its body shape and pressure piping connected thereto, valve, sensor Etc the connected mode of adnexa and position unrestricted, simultaneously infrared ray heating tube 4, dyeing cup 6 all with absolutely The longitudinal profile line 17 of hot plate 3 becomes multiple to arrange with a basic angle, and this basic angle is 0 °～360 ° In the range of arbitrarily angled；Adiabatic hermatic door 10 it is provided with, at proof press machine in the front portion of proof press cabinet 1 The left and right sides of case 1 is provided with pore 11, and the medial surface of adiabatic hermatic door 10 is provided with tubular thermal insulation and seals gear Circle 12, and the external diameter of swivel mount 2 is less than the internal diameter of tubular thermal insulation Sealing shield ring 12, tubular thermal insulation sealing The external diameter of back-up ring 12 is less than the external diameter of adiabatic disks 3, and when adiabatic hermatic door 10 is closed, tubular thermal insulation is close Block circle 12 and adiabatic disks 3 constitute heating and thermal insulation cavity, and swivel mount 2 is positioned at this heating and thermal insulation cavity, Thus realize the heating of dyeing cup 6 on swivel mount 2 and insulation.

The omnipotent proof press of supercritical fluid non-aqueous dyeing of the present invention also includes being located at limit below adiabatic disks 3 The wind cooling unit 7 on edge, the air port of this wind cooling unit 7 is towards swivel mount 2, and its tuyere angle is to rotate Change in the range of 0 °～90 ° on the basis of the horizontal axis 18 of frame 2；This swivel mount bag 2 includes several Concentric and the fixing axle being disposed radially, and it is located at the fixing axle circumferential ring away from one end, the center of circle； Being equipped with two fixation clamps 8 for fixing dyeing cup 6 upper and lower end on each fixing axle, this fixation clamp 8 can The open-close type made for metal or nonmetallic materials or closed type fixation clamp, rotating driveshaft 9 is driven by external force Move and be rotated frame 2 and dyeing cup fixed thereon 6 rotates.

The tubular thermal insulation Sealing shield ring 12 of the omnipotent proof press of the present invention includes inner support insulation material layer, with And it is located at infrared reflection film or the coating on its surface, this infrared reflection film or coating selected from for aluminum, silver One in reflectance coating and coating thereof, in the upper surface of tubular thermal insulation Sealing shield ring 12, near adiabatic close 10 leftward position of sealing up a door are provided with monitoring holes 13, are arranged over movable sealing transparent cover plate at monitoring holes 13, Its diameter need to be suitable for observation station's use, and the material of its movable sealing transparent cover plate can be the most heat-resisting Safety glass, pyroceram, sapphire etc, at the upper left position of adiabatic hermatic door 10 It is provided with observation window 14.

The proof press cabinet 1 of the present invention is square box, and its top is provided with electrical control button 15, ginseng Number arranges display window 16, and electrical control button 15 includes exchange on and off switch, and swivel mount start and stop of meeting an urgent need are pressed Button, speed governing and positive and negative motor adjustment emergency button, air blast cooling unit emergency button, infrared ray heating tube Power supply and power selection emergency button.

The dyeing cup 6 of the present invention is all kinds of multi-form, difformity and different capabilities, portable Textile dyeing, pre-treatment or Final finishing process high pressure or middle and low-pressure vessel.

A kind of supercritical fluid non-aqueous dyeing of the present invention omnipotent proof press work time, first by each quantitatively Sample textile fabrics to be contaminated and required dye material thereof load in corresponding dyeing cup 6, and use medium tank charging system The quantitative pot each dyeing cup 6 being carried out dyeing medium from medium source of the gas fills, and closes and configure in dyeing cup 6 after completing Each stop valve, and make each dyeing cup 6 disconnect with source of the gas.Its specific works flow process is as follows: by each dyeing cup 6 Even number mode symmetry is become to be fixed on by the fixation clamp 8 of dyeing cup 6 upper end with the fixation clamp 8 of dyeing cup 6 lower end On each fixing axle of swivel mount 2.It is then shut off adiabatic hermatic door 10 so that it is the tubular that inner surface is arranged Adiabatic Sealing shield ring 12 forms heating and thermal insulation cavity, to ensure each dyeing cup 6 on swivel mount 2 with adiabatic disks 3 Stable dyeing can be realized and rise gentleness insulation.After ready, open main power on electrical control button 15 Switch, arranges display window 16 by parameter and sets dyeing program, and the rotation speed of swivel mount 2 Degree and mode.Then start dyeing procedure, make infrared ray heating tube 4 to each dyeing cup 6 according to the liter set Temperature speed and target coloration temperature carry out heat temperature raising.Swivel mount 2 is by rotating driveshaft 9 outside simultaneously Under the driving of power, move according to default rotary speed and mode, thus drive each dyeing cup 6 to carry out Rotate, to realize dyeing in each dyeing cup 6 thermally equivalent rises gentle cup fluid media (medium) and uniformly connecing by dye sample Touch.According to default dyeing, after completing intensification, insulation dyeing phase, system starts wind automatically Cold unit 7, carries out mandatory wind cooling temperature lowering to each dyeing cup 6 by default rate of temperature fall and target temperature.Entirely Portion completes dyeing and draws a design after program, and system is closed and shut down.Then take out each dyeing cup 6, and access special point The separation and recovery of fluid media (medium) and residual dye, and the product of drawing a design that dye are carried out in recovery and purging system And the internal loose colour of dyeing cup 6 or residual contaminate the cleaning of material.Finally open each dyeing cup 6, take out sample of drawing a design, Complete the test of drawing a design of non-aqueous dyeing.Repeat aforesaid operations, can continue to realize the supercritical fluid of next round The sample batches of non-aqueous dyeing is drawn a design.

The principle of above-described embodiment only illustrative present invention and effect thereof, not for limiting this Bright.Any person skilled in the art all can be under the spirit and the scope of the present invention, to above-mentioned reality Execute example modify or change.Therefore, such as art has usually intellectual without departing from All equivalences completed under disclosed spirit and technological thought are modified or change, must be by this The claim of invention is contained.

Claims (10)

1. an omnipotent proof press for supercritical fluid non-aqueous dyeing, including proof press cabinet (1), its feature It is: also include vertically being located at internal and that front and back concentric the is arranged swivel mount of described proof press cabinet (1) (2), adiabatic disks (3), and fix the rotating driveshaft (9) being connected with described swivel mount (2) concentric；

Between described swivel mount (2) and described adiabatic disks (3), it is positioned at and swivel mount (2) and adiabatic disks (3) periphery of concentric is provided with several infrared ray heating tubes being disposed radially (4), described absolutely Hot plate (3) outer surface upper, near described infrared ray heating tube (4) side is coated with infrared reflection film Or coating (5)；Upper and swivel mount (2) and the circle of adiabatic disks (3) concentric at described swivel mount (2) Side face is provided with several dyeing cup being disposed radially (6), the most described infrared ray heating tube (4), described Dyeing cup (6) all becomes multiple to arrange with the longitudinal profile line (17) of adiabatic disks with a basic angle；

Adiabatic hermatic door (10) it is provided with, described proof press cabinet (1) in the front portion of described proof press cabinet (1) The left and right sides be provided with pore (11), the medial surface of described adiabatic hermatic door (10) is provided with tubular thermal insulation and seals Back-up ring (12), and interior less than described tubular thermal insulation Sealing shield ring (12) of the external diameter of described swivel mount (2) Footpath, the external diameter of described tubular thermal insulation Sealing shield ring (12), less than the external diameter of described adiabatic disks (3), works as thermal insulation When hermatic door (10) is closed, described tubular thermal insulation Sealing shield ring (12) and adiabatic disks (3) constitute heating and protect Temperature cavity, described swivel mount (2) is positioned at this heating and thermal insulation cavity.

The omnipotent proof press of supercritical fluid non-aqueous dyeing the most according to claim 1, it is characterised in that: Also include the wind cooling unit (7) being located at edge, described adiabatic disks (3) lower section, described wind cooling unit (7) Air port towards swivel mount (2), and its tuyere angle on the basis of the horizontal axis (18) of swivel mount (2) Change in the range of 0 °～90 °.

The omnipotent proof press of supercritical fluid non-aqueous dyeing the most according to claim 1, it is characterised in that: Described swivel mount (2) includes several concentrics and the fixing axle being disposed radially, and is located at fixing axle Circumferential ring away from one end, the center of circle；Be equipped with on each fixing axle for fix dyeing cup (6) upper and lower end two Fixation clamp (8).

The omnipotent proof press of supercritical fluid non-aqueous dyeing the most according to claim 1, it is characterised in that: In the upper surface of described tubular thermal insulation Sealing shield ring (12), install near adiabatic hermatic door (10) left lateral position There is monitoring holes (13), be arranged over movable sealing transparent cover plate at described monitoring holes (13).

The omnipotent proof press of supercritical fluid non-aqueous dyeing the most according to claim 1, it is characterised in that: It is provided with observation window (14) at the upper left position of described adiabatic hermatic door (10).

The omnipotent proof press of supercritical fluid non-aqueous dyeing the most according to claim 1, it is characterised in that: Described proof press cabinet (1) is square box, and its top is provided with electrical control button (15), parameter is arranged Display window (16), described electrical control button (15) includes exchange on and off switch, and swivel mount start and stop of meeting an urgent need are pressed Button, speed governing and positive and negative motor adjustment emergency button, air blast cooling unit emergency button, infrared ray heating tube electricity Source and power selection emergency button.

The omnipotent proof press of supercritical fluid non-aqueous dyeing the most according to claim 1, it is characterised in that: Described basic angle be 0 °～360 ° in the range of arbitrarily angled.

The omnipotent proof press of supercritical fluid non-aqueous dyeing the most according to claim 1, it is characterised in that: Described tubular thermal insulation Sealing shield ring (12) includes inner support insulation material layer, and is located at the infrared of its surface Line reflection film or coating.

9. according to the omnipotent proof press of the supercritical fluid non-aqueous dyeing described in claim 1 or 8, its feature It is: described infrared reflection film or coating are selected from as the one in aluminum, silver reflectance coating and coating thereof.

The omnipotent proof press of supercritical fluid non-aqueous dyeing the most according to claim 1, its feature exists In: described dyeing cup (6) is weaving all kinds of multi-form, difformity and different capabilities, portable Product dyeing, pre-treatment or Final finishing process high pressure or middle and low-pressure vessel.