CN105088581B - Dyeing device with functions of detecting and restoring dyeing defects for multi-element supercritical carbon dioxide fluids and dyeing method - Google Patents
Dyeing device with functions of detecting and restoring dyeing defects for multi-element supercritical carbon dioxide fluids and dyeing method Download PDFInfo
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- CN105088581B CN105088581B CN201510413365.1A CN201510413365A CN105088581B CN 105088581 B CN105088581 B CN 105088581B CN 201510413365 A CN201510413365 A CN 201510413365A CN 105088581 B CN105088581 B CN 105088581B
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- dyeing
- carbon dioxide
- way valve
- dyestuff
- kettle
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Classifications
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06B—TREATING TEXTILE MATERIALS USING LIQUIDS, GASES OR VAPOURS
- D06B19/00—Treatment of textile materials by liquids, gases or vapours, not provided for in groups D06B1/00 - D06B17/00
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06B—TREATING TEXTILE MATERIALS USING LIQUIDS, GASES OR VAPOURS
- D06B23/00—Component parts, details, or accessories of apparatus or machines, specially adapted for the treating of textile materials, not restricted to a particular kind of apparatus, provided for in groups D06B1/00 - D06B21/00
- D06B23/14—Containers, e.g. vats
Abstract
The invention relates to a dyeing device with functions of detecting and restoring dyeing defects for multi-element supercritical carbon dioxide fluids and a dyeing method, pertaining to the technical field of spinning. The device comprises a dyeing kettle including a dyeing frame, an electromotor I, a nozzle I, a camera I and a guide rail I. The dyeing frame is arranged in a cylinder body of the dyeing kettle. The electromotor I penetrates through the dyeing kettle in a sealing mode to be connected with the dyeing frame. The guide rail I is arranged on the inner wall of the cylinder body of the dyeing kettle. The nozzle I and the camera I are movably connected to the guide rail I. The dyeing frame and the nozzle I are provided by respective channels with carbon dioxide fluids. The dyeing device with functions of detecting and restoring dyeing defects for multi-element supercritical carbon dioxide fluids and the dyeing method have the beneficial effect in that the dyeing kettle has functions of detecting and restoring dyeing defects.
Description
Technical field
The present invention relates to a kind of polynary Supercritical carbon dioxide fluid dyeing device with the detection of dye defect with repair function
And colouring method, belong to textile technology field.
Background technology
World economic model after industrialization and informationization after, " low-carbon (LC) " process of progressively marching toward, this is just
Mean that " low-carbon economy " will become the weight of national competitiveness and enterprise competitiveness from now on to 40 years futures of the year two thousand fifty
Embody.In recent years, supercritical carbon dioxide fluid technology is used as a kind of environmental protection processing skill for meeting clean manufacturing requirement
Art and receive much concern.With the continuous development and the progressively tackling key problem of sciences problems of science and technology, supercritical carbon dioxide fluid skill
Art aspect from fundamental research to practical application is obtained for significant raising and expansion.Current research work is deep into
All many-sides such as supercritical extraction, supercritical dyeing, Chemical Reation, supercritical cleaning technique, progressively penetrate into
About high-technology fields such as new material and biotechnology, and also will give play in the progress of other science and technology fields
Bigger effect.
Supercritical carbon dioxide fluid dyeing technology is at home and abroad obtained as a kind of new green staining technique
Interim progress.Monochromatic single textile dyeing is carried out using supercritical carbon dioxide fluid achieve preferably dyeing effect
Really.But, in textile industry, in addition to fabric is main dyed and finished products, the product such as staple in bulk, yarn, ball top, ready-made clothes is also accounted for
According to larger specific gravity, its positive cumulative year after year of dyeing and finishing demand.Yet with fibrous material species and the significant difference of surface structure, according to
Being uniformly distributed and efficient mass transfer for fluid is difficult to ensure that by the design of existing Supercritical carbon dioxide fluid dyeing kettle structure, easily
In causing dyeing defect.During supercritical non-aqueous dyeing, method is there is no to be detected to dyeing defect and repaired.In addition,
Because existing equipment can only obtain single dyeing product, it is impossible to realize the continuous dyeing production of various textiles.And after dyeing
There is a problem of that colour changing is difficult.
The content of the invention
The present invention in dyeing caldron by adding photographic head, nozzle and makes the motor of staining rack rotation, solves above-mentioned
Problem.
The invention provides a kind of fill with the detection of dye defect with the polynary Supercritical carbon dioxide fluid dyeing of repair function
Put, described device includes dyeing caldron, the dyeing caldron includes staining rack, motor I, nozzle I, photographic head I, guide rail I, the dye
Color frame is arranged in the cylinder body of dyeing caldron, and the hermetically passing dyeing caldron of the motor I is connected with staining rack, and the guide rail I is arranged
On the inboard wall of cylinder block of dyeing caldron, the nozzle I with the mobile link of photographic head I on guide rail I, divide by the staining rack and nozzle I
CO 2 fluid is not provided by respective passage.
The photographic head I of dyeing caldron of the present invention is moved preferably by motor II with nozzle I on guide rail.
Dyeing caldron of the present invention is preferably and is provided with heating jacket.
Staining rack of the present invention with rotation, can improve the level-dyeing property of textile to be contaminated in dyeing.
Photographic head I in dyeing caldron of the present invention can detect dye defect in dyeing, using the nozzle I pair in dyeing caldron
Dye defect reparation.
Photographic head I in dyeing caldron of the present invention can detect the inboard wall of cylinder block dyestuff residual shape of dyeing caldron in cleaning
State, is cleaned using the nozzle I in dyeing caldron to residual dye.
Device of the present invention preferably comprises dyestuff kettle, the dyestuff kettle include dyestuff cylinder, nozzle II, photographic head II,
Guide rail II, the dyestuff cylinder is arranged in the cylinder body of dyestuff kettle, and the guide rail II is arranged on the inboard wall of cylinder block of dyestuff kettle, described
With the mobile link of photographic head II on guide rail II, the dyestuff cylinder provides dioxy to nozzle II by respective passage respectively with nozzle II
Change carbon flow body.
The nozzle II of dyestuff kettle of the present invention is moved preferably by motor III with photographic head II on guide rail II.
Dyestuff kettle of the present invention is preferably and is provided with heating jacket.
Photographic head II in dyestuff kettle of the present invention can monitor the dissolving situation of dyestuff in dyeing.
Photographic head II in dyestuff kettle of the present invention can detect the inboard wall of cylinder block dyestuff residual of dyestuff kettle in cleaning
State, is cleaned using the nozzle II in dyestuff kettle to residual dye.
Device of the present invention preferably comprises carbon dioxide storage tank, three-way valve I, condenser, carbon dioxide recycle tank, pre-
Cooler, high-pressure pump, three-way valve II, co 2 heat exchanger, dyestuff kettle, several dyeing caldron in parallel, circulating pump, three-way valve
IIIth, separating still, the carbon dioxide storage tank is connected with the entrance I of three-way valve I, and the outlet of the three-way valve I passes sequentially through condensation
The entrance I of device, carbon dioxide recycle tank, precooler, high-pressure pump and three-way valve II connects, and the outlet of the three-way valve II passes through two
Carbonoxide heat exchanger is connected with the entrance of dyestuff kettle, and the entrance for exporting the dyeing caldron in parallel with several of the dyestuff kettle connects
Connect, the outlet of several dyeing caldrons in parallel is connected by circulating pump with the entrance of three-way valve III, the three-way valve III
Outlet I is connected with the entrance II of three-way valve II, and the outlet II of the three-way valve III is connected by separating still with the entrance II of three-way valve I
Connect.
The pipeline inner wall of device of the present invention is preferably absolute roughness less than 0.0015.
The pipeline mounting inclination angle of device of the present invention is preferably 1~5 °.
It is another object of the present invention to using the colouring method of said apparatus, methods described comprises the steps:
1. three-way valve I is switched to into entrance I, the carbon dioxide in carbon dioxide storage tank is cooled to liquid two by condenser
Carbonoxide is simultaneously stored in carbon dioxide recycle tank;
When 2. dyeing:Three-way valve II is switched to into entrance I, the carbon dioxide in carbon dioxide recycle tank is cold through precooler
But afterwards co 2 heat exchanger is pumped into by high pressure, heating carbon dioxide to supercriticality, supercritical carbon dioxide from
The entrance of dyestuff kettle is entered in dyestuff cylinder along the passage that CO 2 fluid is provided to dyestuff cylinder, carries the supercritical of dyestuff
In the dyeing caldron that carbon dioxide enters into parallel connection from the outlet of dyestuff kettle, the part in dyeing caldron carries the supercritical two of dyestuff
Carbonoxide is entered in staining rack along the passage that CO 2 fluid is provided to staining rack, and another part carries the super of dyestuff and faces
Boundary's carbon dioxide is entered in nozzle I along the passage that CO 2 fluid is provided to nozzle I, and opening motor I makes staining rack
Rotation, open the circulation pump, three-way valve III is switched to outlet I, three-way valve II is switched to entrance II is faced the super of carrying dyestuff
Boundary's carbon dioxide dyeing cycle between co 2 heat exchanger, dyestuff kettle and dyeing caldron, by the shooting moved on track I
I detection dye defect, finds to contaminate defect with nozzle I reparation after dye defect;
3. at the end of dyeing:Three-way valve III is switched to into outlet II, three-way valve I is switched to entrance II is made taking after dyeing
The dye separation that supercritical carbon dioxide with dyestuff is not above contaminated by separating still by carbon dioxide and, isolated titanium dioxide
Carbon is recycled in carbon dioxide recycle tank by condenser and is stored;
When 4. cleaning:Three-way valve I is switched to into entrance II, three-way valve II is switched to entrance I, switches on three-way valve III
Outlet II, makes supercritical carbon dioxide fluid wash cycles between dyestuff kettle and dyeing caldron, taking the photograph in dyestuff kettle and dyeing caldron
The mobile detection residual dye on track II, I of picture II, I, finds to clean residual dye with nozzle II, I after residual dye.
The present invention has the beneficial effect that:
1. dyeing caldron of the present invention has the detection of dye defect and repair function;
2. dyeing caldron of the present invention and dyestuff kettle can be cleaned visually, solve the problems, such as that colour changing is difficult.
Description of the drawings
The width of accompanying drawing of the present invention 3,
Fig. 1 is that there is the detection of dye defect to fill with the polynary Supercritical carbon dioxide fluid dyeing of repair function described in embodiment 1
The structural representation put;
Fig. 2 is the structural representation of dyeing caldron described in embodiment 1;
Fig. 3 is the structural representation of dyestuff kettle described in embodiment 1;
Wherein, 1, carbon dioxide storage tank, 2, three-way valve I, 3, condenser, 4, carbon dioxide recycle tank, 5, precooler, 6, high
Press pump, 7, three-way valve II, 8, co 2 heat exchanger, 9, dyestuff kettle, 901, the entrance of dyestuff kettle, 902, fluid distributing board I,
9021st, the fluid bore I of fluid distributing board I, 9022, the fluid bore II of fluid distributing board I, 903, fluid distributing board II, 9031, stream
The fluid bore of 8 circle distributions of body distribution plate II, 904, dyestuff cylinder, 905, CO 2 fluid pipe, 906, nozzle II, 907,
Photographic head II, 908, guide rail II, 909, the outlet of dyestuff kettle, 101, cheese yarn dyeing kettle, 10101, the entrance of dyeing caldron, 10102,
The fluid bore I of fluid distributing board I, 101021, fluid distributing board I, 101022, the fluid bore II of fluid distributing board I, 10103, stream
Body distribution plate II, 101031, the fluid bore of 8 circle distributions of fluid distributing board II, 10104, staining rack, 10105, motor
I, 10106, CO 2 fluid pipe, 10107, nozzle I, 10108, photographic head I, 10109, track I, 10110, dyeing caldron go out
Mouthful, 102, textile dyeing kettle, 11, circulating pump, 12, three-way valve III, 13, separating still.
Specific embodiment
Following non-limiting examples can make one of ordinary skill in the art be more fully understood the present invention, but not with
Any mode limits the present invention.
Embodiment 1
A kind of polynary Supercritical carbon dioxide fluid dyeing device with the detection of dye defect with repair function, described device bag
Include carbon dioxide storage tank 1, three-way valve I 2, condenser 3, carbon dioxide recycle tank 4, precooler 5, high-pressure pump 6, three-way valve II 7, two
Carbonoxide heat exchanger 8, the dyestuff kettle 9 for being provided with heating jacket, the cheese yarn dyeing kettle 101 for being provided with heating jacket, it is provided with heating jacket
Textile dyeing kettle 102, circulating pump 11, three-way valve III 12, separating still 13, the carbon dioxide storage tank 1 enters with three-way valve I 2
Mouth I connects, and the outlet of the three-way valve I 2 passes sequentially through condenser 3, carbon dioxide recycle tank 4, precooler 5, high-pressure pump 6 and three
The entrance I of port valve II 7 connects, and the outlet of the three-way valve II 7 is connected by co 2 heat exchanger 8 with the entrance of dyestuff kettle 9,
The cheese yarn dyeing kettle 101 for exporting in parallel of the dyestuff kettle 9 and textile dyeing kettle 102, circulating pump 11 and three-way valve III 12
Entrance connection, the outlet I of the three-way valve III 12 is connected with the entrance II of three-way valve II 7, the outlet of the three-way valve III 12
II is connected by separating still 13 with the entrance II of three-way valve I;
The cheese yarn dyeing kettle 101 include fluid distributing board I 10102, fluid distributing board II 10103, staining rack 10104,
Motor I 10105, CO 2 fluid pipe 10106, nozzle I 10107, photographic head I 10108, guide rail I 10109, the cylinder yarn
Outlet 10110 in the cylinder body of dyeing caldron 101 from the entrance 10101 of dyeing caldron to dyeing caldron is interval with successively fluid distributing board
I 10102, fluid distributing board II 10103, staining rack 10104, the hermetically passing cheese yarn dyeing kettle 101 of the motor I 10105, stream
Body distribution plate I 10102, fluid distributing board II 10103 are connected with staining rack 10104, and the fluid distributing board I 10102 is provided with stream
Body opening I 101021 and fluid bore II 101022, the fluid distributing board II 10103 is provided with the fluid bore of 8 circle distributions
101031, the fluid bore II 101022 is connected by CO 2 fluid pipe 10106 with nozzle I 10107, the guide rail I
10109 are arranged on the inboard wall of cylinder block of dyeing caldron 10, and the nozzle I 10107 is being led with photographic head I 10108 by motor II
Move on rail I 10109;
The structure of the textile dyeing kettle 102 is identical with cheese yarn dyeing kettle 101;
The dyestuff kettle 9 includes fluid distributing board I 902, fluid distributing board II 903, dyestuff cylinder 904, CO 2 fluid
In pipe 905, nozzle II 906, photographic head II 907, guide rail II 908, the cylinder body of the dyestuff kettle 9 from the entrance 901 of dyestuff kettle to
The outlet 909 of dyestuff kettle is interval with successively fluid distributing board I 902, fluid distributing board II 903, dyestuff cylinder 904, the fluid
Distribution plate I 902 is provided with fluid bore I 9021 and fluid bore II 9022, and the fluid distributing board II 903 is provided with 8 circle distributions
Fluid bore 9031, the fluid bore II 9022 is connected by CO 2 fluid pipe 905 with nozzle II 906, the guide rail II 908
It is arranged on the inboard wall of cylinder block of dyestuff kettle 9, the nozzle II 906 and photographic head II 907 are by motor III on guide rail II 908
It is mobile;
The pipeline inner wall absolute roughness of described device is 0.0001, and the pipeline mounting inclination angle of described device is 5 °.
Embodiment 2
A kind of colouring method of the described device of utilization embodiment 1, methods described comprises the steps:
1. three-way valve I 2 is switched to into entrance I, the carbon dioxide in carbon dioxide storage tank 1 is cooled to liquid by condenser 3
State carbon dioxide is simultaneously stored in carbon dioxide recycle tank 4;
When 2. dyeing:Three-way valve II 7 is switched to into entrance I, the carbon dioxide in carbon dioxide recycle tank 4 is through precooler
Co 2 heat exchanger 8 is transported to by high-pressure pump 6 after 5 coolings, heating carbon dioxide is to supercriticality, supercritical titanium dioxide
Carbon passes sequentially through the entrance 901 of dyestuff kettle, the fluid bore 9031 of I 9021,8 circle distributions of fluid bore and enters into dyestuff cylinder 904
In, the supercritical carbon dioxide for carrying dyestuff enters into the He of cheese yarn dyeing kettle 101 of parallel connection from after the outflow of outlet 909 of dyestuff kettle
Textile dyeing kettle 101, the supercritical carbon dioxide of part carrying dyestuff passes sequentially through stream in the cylinder body of cheese yarn dyeing kettle 101
The fluid bore 101031 of I 101021,8 circle distributions of body opening enters into staining rack 10104, and another part carries the super of dyestuff and faces
Boundary's carbon dioxide enters into nozzle I 10107 by fluid bore II 101022, CO 2 fluid pipe 10106, opens motor I
10105 make the rotation of staining rack 10104, open the circulation pump 11, three-way valve III 12 is switched to outlet I, switches on three-way valve II 7
Entrance II makes the supercritical carbon dioxide of carrying dyestuff in co 2 heat exchanger 8, dyestuff kettle 9 and cheese yarn dyeing kettle in parallel
Dyeing cycle between 101 and textile dyeing kettle 101, by the detection dye defect of photographic head I 10108 moved on track I 10109,
It was found that repairing dye defect, the colouring method of the textile dyeing kettle 102 and the dye of cheese yarn dyeing kettle 101 with nozzle I 10107 after dye defect
Color method is identical;
3. at the end of dyeing:Three-way valve III 12 is switched to into outlet II, three-way valve I 2 is switched to entrance II is made after dyeing
Carrying dyestuff supercritical carbon dioxide by separating still 13 by the dye separation of carbon dioxide and upper dye, it is isolated
Carbon dioxide is recycled in carbon dioxide recycle tank 4 by condenser 3 and is stored;
When 4. cleaning:Three-way valve I 2 is switched to into entrance II, three-way valve II 7 is switched to entrance I, by the switching of three-way valve III
To outlet II, make supercritical carbon dioxide fluid dyestuff kettle 9 and cheese yarn dyeing kettle 101 in parallel and textile dyeing kettle 101 it
Between wash cycles, the photographic head II, I 907,10108 in dyestuff kettle 9 and cheese yarn dyeing kettle 101 and textile dyeing kettle 101 is in track
IIth, mobile detection residual dye on I 908,10109, finds after residual dye with nozzle II, I 906,10107 cleaning residual dyes
Material.
Claims (7)
1. a kind of with the polynary Supercritical carbon dioxide fluid dyeing device for contaminating defect detection and repair function, it is characterised in that:
Described device includes dyeing caldron (10), and the dyeing caldron (10) includes staining rack (10104), motor I (10105), nozzle I
(10107), photographic head I (10108), guide rail I (10109), the staining rack (10104) is arranged on the cylinder body of dyeing caldron (10)
Interior, the hermetically passing dyeing caldron (10) of the motor I (10105) is connected with staining rack (10104), and the guide rail I (10109) sets
Put on the inboard wall of cylinder block of dyeing caldron (10), the nozzle I (10107) is with the mobile link of photographic head I (10108) in guide rail I
(10109) on, the staining rack (10104) and nozzle I (10107) provide CO 2 fluid, institute by respective passage respectively
The photographic head I (10108) and nozzle I (10107) for stating dyeing caldron (10) is moved by motor II on guide rail I (10109);
Described device includes dyestuff kettle (9), and the dyestuff kettle (9) includes dyestuff cylinder (904), nozzle II (906), photographic head II
(907), guide rail II (908), the dyestuff cylinder (904) is arranged in the cylinder body of dyestuff kettle (9), and the guide rail II (908) is arranged
On the inboard wall of cylinder block of dyestuff kettle (9), the nozzle II (906) is with the mobile link of photographic head II (907) in guide rail II (908)
On, the dyestuff cylinder (904) provides CO 2 fluid, the dyestuff kettle (9) by respective passage respectively with nozzle II (906)
Nozzle II (906) moved on guide rail II (908) by motor III with photographic head II (907).
2. device according to claim 1, it is characterised in that:The dyeing caldron (10) is provided with heating jacket.
3. device according to claim 1, it is characterised in that:The dyestuff kettle (9) is provided with heating jacket.
4. device according to claim 1, it is characterised in that:Described device includes carbon dioxide storage tank (1), three-way valve I
(2), condenser (3), carbon dioxide recycle tank (4), precooler (5), high-pressure pump (6), the heat exchange of three-way valve II (7), carbon dioxide
Device (8), dyestuff kettle (9), several dyeing caldron (10) in parallel, circulating pump (11), three-way valve III (12), separating stills (13), institute
State carbon dioxide storage tank (1) to be connected with the entrance I of three-way valve I (2), the outlet of the three-way valve I (2) passes sequentially through condenser
(3), carbon dioxide recycle tank (4), precooler (5), high-pressure pump (6) are connected with the entrance I of three-way valve II (7), the three-way valve
II (7) outlet is connected by co 2 heat exchanger (8) with the entrance of dyestuff kettle (9), the dyestuff kettle (9) if outlet with
The entrance connection of dry dyeing caldron (10) in parallel, the outlet of several dyeing caldrons (10) in parallel passes through circulating pump (11)
It is connected with the entrance of three-way valve III (12), the outlet I of the three-way valve III (12) is connected with the entrance II of three-way valve II (7), institute
The outlet II for stating three-way valve III (12) is connected by separating still (13) with the entrance II of three-way valve I (2).
5. device according to claim 4, it is characterised in that:The pipeline inner wall absolute roughness of described device is less than
0.0015。
6. device according to claim 4, it is characterised in that:The pipeline mounting inclination angle of described device is 1~5 °.
7. the colouring method of a kind of utilization claim 1,2,3,4,5 or 6 described devices, it is characterised in that:Methods described includes
Following steps:
1. three-way valve I (2) is switched to into entrance I, the carbon dioxide in carbon dioxide storage tank (1) is cooled to by condenser (3)
Liquid carbon dioxide is simultaneously stored in carbon dioxide recycle tank (4);
When 2. dyeing:Three-way valve II (7) is switched to into entrance I, the carbon dioxide in carbon dioxide recycle tank (4) is through precooler
(5) co 2 heat exchanger (8) is transported to by high-pressure pump (6) after cooling down, heating carbon dioxide is to supercriticality, supercritical
Carbon dioxide enters into dyestuff cylinder from the entrance of dyestuff kettle (9) along the passage that CO 2 fluid is provided to dyestuff cylinder (904)
(904) in, in the dyeing caldron (10) that the supercritical carbon dioxide for carrying dyestuff enters into parallel connection from the outlet of dyestuff kettle (9), dye
A part in color kettle (10) carries the supercritical carbon dioxide of dyestuff and provides CO 2 fluid along to staining rack (10104)
Passage enter in staining rack (10104), another part carry dyestuff supercritical carbon dioxide along to nozzle I
(10107) passage for providing CO 2 fluid is entered in nozzle I (10107), and opening motor I (10105) makes staining rack
(10104) rotation, open the circulation pump (11), three-way valve III (12) is switched to outlet I, three-way valve II (7) is switched to into entrance
II makes the supercritical carbon dioxide of carrying dyestuff circulate between co 2 heat exchanger (8), dyestuff kettle (9) and dyeing caldron (10)
Dyeing, by the detection dye defect of photographic head I (10108) moved on track I (10109), finds to use nozzle I after dye defect
(10107) dye defect is repaired;
3. at the end of dyeing:Three-way valve III (12) is switched to into outlet II, three-way valve I (2) is switched to into entrance II is made after dyeing
Carrying dyestuff supercritical carbon dioxide by separating still (13) by the dye separation of carbon dioxide and upper dye, it is isolated
Carbon dioxide storage in carbon dioxide recycle tank (4) is recycled to by condenser (3);
When 4. cleaning:Three-way valve I (2) is switched to into entrance II, three-way valve II (7) is switched to entrance I, by the switching of three-way valve III
To outlet II, make supercritical carbon dioxide fluid wash cycles between dyestuff kettle (9) and dyeing caldron (10), dyestuff kettle (9) and
Photographic head II, I (907,10108) in dyeing caldron (10) mobile detection residual dye on track II, I (908,10109), sends out
Residual dye is cleaned after existing residual dye with nozzle II, I (906,10107).
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CN201510413365.1A CN105088581B (en) | 2015-07-14 | 2015-07-14 | Dyeing device with functions of detecting and restoring dyeing defects for multi-element supercritical carbon dioxide fluids and dyeing method |
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CN201510413365.1A CN105088581B (en) | 2015-07-14 | 2015-07-14 | Dyeing device with functions of detecting and restoring dyeing defects for multi-element supercritical carbon dioxide fluids and dyeing method |
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CN106757918B (en) * | 2016-11-21 | 2018-11-30 | 大连工业大学 | One kind can the colour changing engineering anhydrous dyeing and finishing system and method for supercritical carbon dioxide fluid |
CN111926490B (en) * | 2020-08-04 | 2022-08-16 | 大连工业大学 | Double-medium circulating dyeing device with high dye-uptake and color fastness and dyeing method using same |
CN113049497A (en) * | 2021-03-12 | 2021-06-29 | 辽宁轻工职业学院 | Supercritical CO of flax roving2Boiling and bleaching self-checking device and method thereof |
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CN1766194A (en) * | 2005-11-17 | 2006-05-03 | 大连轻工业学院 | Supercritical carbon dioxide dyeing device and its process |
CN2778851Y (en) * | 2005-02-07 | 2006-05-10 | 董琪 | Chromatic aberration auto-detecting regulating system for colouring machine. |
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CN2778851Y (en) * | 2005-02-07 | 2006-05-10 | 董琪 | Chromatic aberration auto-detecting regulating system for colouring machine. |
CN1766194A (en) * | 2005-11-17 | 2006-05-03 | 大连轻工业学院 | Supercritical carbon dioxide dyeing device and its process |
CN101845732A (en) * | 2010-04-06 | 2010-09-29 | 大连工业大学 | Visualization system in supercritical carbon dioxide dyeing device |
CN203284609U (en) * | 2013-06-20 | 2013-11-13 | 无锡市华洋染整机械有限公司 | Device used for dyeing of supercritical carbon dioxide fluid |
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Effective date of registration: 20221219 Address after: 362212 Fengchi Industrial Zone, tangcuo village, Chidian Town, Jinjiang City, Quanzhou City, Fujian Province Patentee after: JINJIANG GUOSHENG SHOE MATERIAL LTD. Address before: 116034 No. 1 light industry garden, Ganjingzi District, Liaoning, Dalian Patentee before: DALIAN POLYTECHNIC University |