前苏联专利SU1477251A3 Apparatus for continuous "flat" dyeing of warp threads with vat dyes

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优先权

专利摘要:
A textile sheet strand is dyed by conducting it in at least two separate passes around an annular path having a first path section in a dye vat and a section path section in a gas-treatment location. In the dye vat the strand is contacted with a liquid dye bath in each of the paths, and the excess dye is squeezed out of at least two of the passes at the same time by pinch rollers immediately downstream of the dye vat. In the gas-treatment location the passes of the strand are each treated with a gas to fix the dye.
公开号:SU1477251A3
申请号:SU803221906
申请日:1980-12-19
公开日:1989-04-30
发明作者:Годау Экхардт
申请人:Экхардт Годау (DE)；
IPC主号:

专利说明:

one
The invention relates to devices for continuous dyeing of yarns by vat dyes, mainly indigo, or dyes of such groups, which, after impregnation and subsequent pressing, require heat treatment or similar operation for their fixation.
The aim of the invention is to reduce the consumption of dye and improve the quality of coloring.
Figure 1 shows the sections a, b, b of the device; figure 2 - sections G, D, E device; Fig. 3 shows a variant of section B; on - an embodiment of sections A, B, C; Fig. 5 shows another embodiment of the portions A.B. 6 - plots
G, D, E according to the embodiment of Fig. 5; Fig. 7 shows another embodiment of region B.
Figures 1-7 illustrate the areas A of the warp rollers, B of the prewash, C staining, G rinsing, D sizing, E winding.
On six separate woolen or warp rollers, 660- 680 main cotton yarns about 12,000 m long are wound. The second group of six navoi or warp rollers 1 is a spare one. The main threads of the same group with the warps or warp rollers are combined into a layer of 2 main threads, consisting of approximately 4000 individual threads, which is necessary to ensure the width of the cut | to cn

Sl
washable fabric (see Fig.4). The monolayer parallel arch of main threads thus pulled is fed through the guide roller 3 to the washer 4, which can be replaced by a washing tray. Several washing and squeezing devices are located above each other in the washer 4. The main thread layer pulled through the washing machine 4 is repeatedly washed and squeezed after each washing in order to clean the raw cotton from soiling. After leaving the washer 4 the main thread layer through the guide roller 5 compensating roller 6 to compensate for the tension of the main threads and the guide rollers 7-11 with rotation after each roller through 90 ° are fed into the dyeing bath 12. In the dyeing bath 12 there is a dyeing solution in a chemically reduced state by adding a reducing agent (g of drosulphite and sodium alkali, i.e. a water-soluble state is a vat dye, in this case indigo, with the addition of dispersing and wetting agents. Within the dyebath 12, the layer of main threads is repeatedly rotated 180 across the rollers 13 in order to provide the necessary the residence time of the bed of the main yarns in the dye bath 12 and to ensure good deposition of the vat dye on the cotton. From the last guide roller 13 of the dye bath 12, a layer of the main yarns is brought to the directly but behind the dyeing bath 12 of the pressing device 14, consisting of two rollers pressed against each other, by means of which an excess amount of the cubic dye is pressed. Behind the squeezing device 14, a path 15 is drawn in the air, on which the bottom dye deposited on the cotton is subjected to oxidation so that it is fixed on it and again transferred to a water-insoluble state. In the case of indigo at the exit of dye bath 12, the dye has a yellow color, which then turns blue. The path 15 is drawn in the air from the squeezer 14 in the form of
loops with a total length of about 30 m lead first upwards, then almost horizontally backwards, downwards, return near the base in the opposite direction and through the guide rollers 9,10 and 11 are again fed into the dyebath 12. A layer of main threads can then pass over
Q washer 4 and across 1, as well as under them. Navoi 1 can be placed aside. The main thread layer is then turned to the washer 4 or to the dyeing solution.
5 or bath 12 at an angle of 90 °.
The loop-like path 15 in air, starting from the pressing device 14, is divided preferably into four loop-like trajectories 15a, 15b, 15c, 15d, (maybe from two to ten trajectories) which are at least on the path 15 of the path the air shown by arrow P passes approximately at an equal distance from each other and which only in the area near the base, where they return to the beginning of the loop, shortly before being re-fed into the dyebath 12 are again combined (see Fig. 1). and 4). The individual paths 15a, 15b, 15c, 15d and the paths 15 in air are determined by the guide rollers 1b, 16b, 16c, 16d and 17a, 17b, 17c, 17d inclined over each other with an angle of wrapping equal to or close to
ABOUT
90, at the points of change in direction of the air path. In this case, the first loop-shaped trajectory 0 15a most preferably has a wrapping angle of 90 ° at the guide rollers 16a, 17a.
Since the wrapping angles are close to 5 ° to 90 °, the loop-like trajectory of movement along the path in air is rectangular in shape, which is most appropriate. However, due to given dimensions of the room Q and for other reasons, loop-shaped trajectories may take the form of a trapezoid or polygon, with the arrangement of guide rollers or groups of guide rollers corresponding to this form.
Leading (compensating) rollers 18, 19 and 20 can be located between the guide rollers to align the lengths of individual sections.
five
15a-15d and the tension of the main yarn layer (see Fig. 1.4).
The paths 15a, 15b, 15c, 15d of the air path are connected at the first point of change of direction of movement near the floor into a single path, bend around the guide roller 21, are fed under the dyebath 1 2 and through the guide rollers 9, 10 and 11 ( with the exception of the last trajectory) - into the dyeing bath 12. A variant is possible, according to which the trajectories 15a, 15b, 15c, 15d at the first point of change of direction of movement near the base pass through separate rollers 21 and only at the second point of change of direction of movement near base Vani
A single-layered set of main yarns fed from the navoi, corresponding to the width of the fabric being produced (numbering about 4000 individual yarns), if this is necessitated, is fed to the washer 4. Thereafter, the layer of the main yarns is fed along the guide rollers 511 dyeing bath 12. A layer of main yarns i passes through guide rollers 13 with a wrapping angle of 180 °, thereby ensuring that the stay in the vat dye is necessary, leaves the dyeing bath 1 2 and is fed to imnoe device 14 in which an excess amount of vat dye press
the guide ro is 20 s. After that, a layer of main threads
Another guide roller is 23 lamis wrapping close to 90.
face 9 is gathered together.
Above the guide roller 9 near the or above the guide roller 10 (Fig. 2) there is a guide roller 22 and horizontally away from the non
with chasing Pulling the layers of the base may be made through another roller between the tension rollers 22 and 23 or CS slightly above the plane passing through these two rollers.
After completing the dyeing of the layer of the main threads, it is fed from the last part of the path of the path 15, which is 35 tons of air intake through the guide rollers 22 and 23 to the washer 24 consisting of several sets of washing and rinsing
passes the first trajectory 15a of the path 15 drawing in air. At this time, the bottoms dye deposited on the cotton undergoes oxidation, due to which it is transferred to a water-insoluble state. In the case of indigo, its color turns to blue. The layer of the main threads through the guide rollers 16a, 17a and 21 is fed back to the guide rollers 9, 10 and 11, through which it is again fed into the dyebath 12. After passing the dyebath again and again squeezing an excess amount of vat dye in the squeezing device 14 a layer of main yarns is fed to the second trajectory 15b of the path 15 for spinning in air for oxidation
containers with a behind them, squeezing and fixing the deposited cubic device, in which the layer of go dye. Through the guides, the robasic filaments are repeatedly washed, rinsed with water, and the water is squeezed out. After the last squeeze device 25 has passed, the layer of main threads is fed for drying to the drum dryer, and from there to the pasma or the stream or is fed directly to the threading machine and from it to the thread.
A squeegee 26 can be installed on the guide rollers 16,17 over the entire width of the processed product, which, when dangling threads appear around the guide rollers, separates them and thereby prevents the formation of balls of threads.
The device works as follows.
passes the first trajectory 15a of the path 15 drawing in air. At this time, the bottoms dye deposited on the cotton undergoes oxidation, due to which it is converted to a water-insoluble state. In the case of indigo, its color turns to blue. The layer of the main threads through the guide rollers 16a, 17a and 21 is fed back to the guide rollers 9, 10 and 11, through which it is again fed into the dyebath 12. After passing the dyebath again and again squeezing an excess amount of vat dye in the squeezing device 14 a layer of main yarns is fed to the second path 15b of the path 15 by pulling in air to oxidize
16, 17L, 21, 9, 10, and 11, a layer of main threads is fed again into dye bath 12, pulled into
the third and fourth times through the dyebath 12 and the squeezing device 14, and then the third 15c and the fourth trajectory 15d path 5 pulling in air. After last
(fourth) passing through the dyebath 12, the pressing device 14 and the path 15 through the air dyeing process ends and the layer of the main thread again
fed through guide rollers 16, 17 and 21 to guide roller 9 and guide rollers 22 and 23, through which it is fed to the rinsing and rinsing machine 24, where
it is rinsed and rinsed in a known manner so that after passing the last squeezing device 25 it can be fed into the dryer and then to the coil or directly on the sizing machine. The exit of the main threads from the circulating circle or loop of the dyeing process should be done only for the first time with the help of a price cross holding the front end of the body of the main threads. Further sweeping is ensured by its own power.
Figures 5 and 6 show another embodiment of the device, according to which the loop-shaped trajectory of the path 15 drawn in the air after the squeezer 14 is not divided into several trajectories, and the single-layer stack of main threads is drawn in the form of several (preferably in the form of four ) loop paths directly one above the other throughout the path 15, drawn in air. For this purpose, one guide roller 16 and 17 is required. It has been established that the movement of the body of main threads along several petriform trajectories arranged one above the other does not affect the oxidation process of the deposited dye.
After a certain time has elapsed after the start-up of the installation, one turn of the entire loop covering the dyebath 12, the squeezing device 14 and the path 15 for tracing in air, starting with the squeezing device 14, corresponds to the fact that the body of basic threads passes the squeezing device 14 in several layers (with a fully established machine process in four layers), so that the best effect of squeezing out an excess amount of the cubic dye is achieved. This results in high uniformity of staining after each staining process, as well as high intensity of staining, which is also promoted by the fact that one
dye bath 12 compared to the six dye baths of the known device arranged one behind the other can operate on a more concentrated (6: 4 ratio)
Q 5
0 5 0 5
about 5 p
five
dye solution. Due to the higher spinning effect and the use of a more concentrated dye solution in the baths, as well as a better and faster oxidation, only four times the color is required to achieve a given color tone compared to six times the color in the known device.
Due to the fact that only one dyeing bath 12, one squeezing device 14 and one path 15 are drawn in air, the device takes up little space to operate. Although the length of the path 15 in air is about 30 m, which ensures a sufficient degree of oxidation of the cubic dye after each immersion process, however, due to the loop-like direction of the path 15 in air, it can extend in one direction only, for example, 10–12 m, the total length of the line for continuous dyeing of an installation is only about 20 m.
Due to the fact that guide rollers with a twisting angle of about 90 ° are provided outside the dyebath 12, the risk of tangling is significantly reduced. The presence of a single dye bath 12, in which the body of basic fabrics is repeatedly rotated 180 °, also reduces the risk of tangles inside the dye solution, as compared with the known device, by 1/6. Due to the small size of the surface of the dyebath 12, the oxidation of the vat dye in the dyebath under the influence of air occurs to a low degree, due to which a reducing agent can be saved.
Having only one dye tank 12 provides the ability to change or adjust the nuances of the coloring tone only by increasing or decreasing the concentration of the dye solution in the bath 12.
In a dye solution of a small volume (about 1200 l), the equilibrium reaction and the so-called head-to-tail equilibrium end much more quickly, so that the
cotton soils and refuse to pre-rinse cotton in washer 4 or other washer.
The main thread layer removed from the warp and transformed further into a layer of threads from the combined main threads can be directly fed to the guide roller 9 and further into the dyebath 12, whereby the installation is simplified, reduced and reduced.
For one squeeze device 14, only one electric motor with a power of about 10 kV is needed, in contrast to the known device, which requires six electric motors with a power of about 5 kV each, as a result of which substantial energy savings are achieved.
When using a variant with two to ten layers, it may turn out that the established number of layers is large for one pressing device 14. In this case, two pressing devices 14 can be installed behind dye bath 12, through which the main thread layers are divided into two layers, served within each group directly above each other. After passage of the squeezing devices installed in parallel, the layer of the main threads according to Figs. 1 or 4 can be fed to the loop-like trajectories of a path of drawing in air at some distance or, according to Fig. 5, be directly along each other along the loop-shaped trajectories.
Figs 3 and 7 show dye baths 12a, in each of which, with a steady state of operation of the device, a layer of main threads is fed through guide rollers 9, 10 and 11 into four layers. In this case, parallel to the pressing devices 14a and 14b are located behind the dye bath 12a in each installation. The layers of the main threads coming out of the dyebath 12a are drawn into two groups (in the case of four layers of the main threads, two layers in each group) and divided into groups, if necessary, to each of the squeezing devices 14a and 14b. According to FIG. 3, the layers of the main threads after two squeezing devices
five
0
five
0
five
0
five
0
five
Messages 14a and 14b pass through tension rollers 16a-16d along trajectories 15a-15d located at a distance of 15 paths drawn in air. The arrangement of the first guide rollers 16a, 16b, 16c, 16d with a wrapping angle of about 90 is chosen so that the first and fourth trajectories 15a and 13d pass along the contour of the rectangle at this place, and the second and third trajectories 15b and 15c follow the contour trapeze. Referring to Fig. 7, the main thread layers coming out of the parallel-wringing devices 14a and 14b are fed directly over each other through one guide roller 16 to the path 15, drawn in air. The guide roller 16 can thus be positioned above the squeezing devices 14a, 14b, so that the layers of the main threads between the guide roller 16 and the pressing devices 14a, 14b move along two separate paths of the path 15, drawn in the air along oppositely directed trapeziums. During dyeing, the monolayer body of main threads passes through twice each of the two squeezing devices 14a and 14b so that a double layer of threads forms in front of each squeezing device 14a, 14b.
An advantage of the invention is that only one layer of main yarns across the width of the future woven material is passed through a dyeing unit and this layer of main yarns, after leaving the tumble dryer, can be fed directly to the sizing machine and from it to the loom.
The proposed device is suitable for dyeing cotton base yarns with vat dyes, especially indigo, as well as dyeing base yarns, for example, from regenerated cellulose fibers, synthetic fibers, or wool, or mixtures of these materials. The device can be used to dye dyes of other groups, which, after impregnation and squeezing, require for their fixation heat treatment (a certain holding time, for example, direct substantive dyes) reactive dyes, acidic
dyes or groups of dyes for synthetic fibers. The use of other dye groups is associated with additional heat treatment, with
such as treatment with steam, infrared rays, hot air, or drying followed by thermal insulation at one of the stages of the air path.

权利要求:
Claims (12)
[1]
Invention Formula
one . A device for the continuous flat dyeing of the base J5 yarn by vat dyes, mainly indigo, containing a dyeing bath, a means for posting the yarns during processing, washing machines, a dryer and a means 20 for winding, from l. Finding that, in order to reduce the consumption of dye and improve the quality of dyeing, it contains one or two 25 squeeze pairs installed at the exit of the dyebath to pass thread layers through the tip of the dyebath and guide rollers for repeated looping of the main threads through the air the possibility of immersing them in a vertical position in the dyeing bath.
[2]
2. The device according to claim 1, wherein the distance is
between guide rollers for pet
The wiring of the layers of filaments through the air is at least 1/3 of the total length of the passage of the layers of filaments through the air.
[3]
3. The device according to claims 1-2, which is intended so that the guide rollers for looping the air through the layers of the main threads are arranged in two groups, the rollers in each group being set relative to each other with vertical displacement and parallel horizontally for separate wiring layers of threads.
[4]
4. The device according to claim 3, wherein one of the groups of guide rollers is located above the squeezing or squeezing pairs installed at the exit of the dyebath, and the other group of guide rollers is located at a horizontal distance from the first group of guide rollers.
five
Q 5
0
five
[5]
5. The device according to claim 4, characterized in that the distance between the first and second groups of guide rollers horizontally is 10-20 m, and their distance from the bottom of the dyebath is 2-4 m.
[6]
6. A device as claimed in Claims 1 to 5, characterized in that the horizontal distance between the guide rollers of both groups and between the rollers in each group are respectively equal to each other.
[7]
7. The device according to claims 1-6, which is based on the fact that it has three guide rollers located between the first and second groups of guide rollers.
[8]
8. The device according to claim 7, characterized in that each guide roller is designed as a compensating roller for leveling the total length of the individual loop-shaped wiring.
[9]
9. A device according to claims 1 to 3, characterized in that it has a guide roller mounted below the first group of guide rollers, below the level of the dyebath, for collecting layers of filaments of loop-like wiring into the bundle for their return by means of three guides rollers in the dyeing bath.
[10]
10. A device according to claim 9, characterized in that one of the three guide rollers for returning layers of filaments of loop-shaped wiring is installed below the level of the dyebath for collecting layers of threads
in a bun,
[11]
11. The device according to claim 1, which is so that it has, on each group of guide rollers across the width of the layers of yarns, a squeegee to prevent the formation of underwinds of the threads on the guide rollers.
[12]
12. Pop-1 device, characterized in that it has a pair of guide rollers installed in front of the first washer to feed the bundle of main threads into it after they pass the last loop-like wiring before going into the dyebath.
Prioritize points:
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类似技术:

公开号 | 公开日 | 专利标题

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同族专利:

公开号 | 公开日

IT1129470B|1986-06-04|

AU540615B2|1984-11-29|

YU320180A|1984-02-29|

BR8008577A|1981-07-21|

YU43633B|1989-10-31|

GB2066706A|1981-07-15|

IE802695L|1981-06-21|

ES8200418A1|1981-11-16|

FR2476157A1|1981-08-21|

GR70755B|1983-03-14|

CA1145506A|1983-05-03|

PT72252A|1981-01-01|

ES497990A0|1981-11-16|

GB2066706B|1984-05-23|

PT72252B|1981-12-31|

IT8068953D0|1980-12-19|

US4501039A|1985-02-26|

DD155439A5|1982-06-09|

US4416124A|1983-11-22|

IE51735B1|1987-03-18|

MX156715A|1988-09-28|

CH665928A|1988-06-30|

FR2476157B1|1986-04-11|

AU6558680A|1981-06-25|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

GB288112A|1927-12-02|1928-04-05|Ernst Werner|Improvements in calendering machines|

FR1297852A|1961-05-25|1962-07-06|Alsacienne Constr Meca|Process for sizing and drying textile threads and yarns and installation for implementing this process|

US3338738A|1963-08-06|1967-08-29|Hooker Chemical Corp|Method and apparatus for applying a halogenatedhydrocarbon solventcontaining enamel to wire|

DE1460180A1|1964-01-16|1968-12-12|Artos Meier Windhorst Kg|Method and device for soaking or impregnating running, preferably hygroscopic, web-shaped goods such as textile webs, paper webs or the like. with solutions, dispersions, emulsions and the like.|

GB1268376A|1968-06-06|1972-03-29|Stone Platt Crawley Ltd Former|Improvements relating to conveyors|

US3585821A|1968-11-05|1971-06-22|Warren E Beltramini|Apparatus for preparing dyed textile warps|

DE2210562A1|1972-03-04|1973-09-06|Pfersee Chem Fab|PROCESS FOR EQUIPMENT OF FLAT-SHAPED TEXTILE MATERIALS|

GB1430154A|1973-04-04|1976-03-31|Chor Sen Lau|Treating yarns|

DE2736835C3|1977-08-16|1980-04-03|Kuesters, Eduard, 4150 Krefeld|Device for dyeing textile goods in web form|JPH0223623B2|1983-09-16|1990-05-24|Sando Iron Works Co|

US4799278A|1987-06-12|1989-01-24|Beeh Hans A|Machine and a method for dyeing fabrics with already known dyestuffs|

GB8729998D0|1987-12-23|1988-02-03|British Replin Ltd|Fabrics|

DE3906391A1|1989-03-01|1990-09-06|Eckhardt Godau|FAULBEFOULARD FOR DYING DRAWING YARN|

EP0437755B1|1990-01-19|1992-11-19|Gebrüder Sucker + Franz Müller GmbH & Co|Apparatus for drying a warp of yarns|

IT1251332B|1991-09-19|1995-05-08|Master Di Ronchi Francesco & C|OXIDATION INTENSIFIER FOR DYEING MACHINES IN CONTINUOUS INDIGO OF ORDER CHAINS FOR DENIM AND SIMILAR FABRICS|

FR2739880B1|1995-10-13|1997-12-05|Superba Sa|CONTINUOUS YARN DYING PROCESS, IN PARTICULAR BASED ON CELLULOSIC FIBERS WITH REACTIVE DYES, AND DEVICE FOR IMPLEMENTING THIS PROCESS|

SI0939161T1|1998-02-26|2004-12-31|Francois Girbaud|Process for dyeing of textile materials with indigo and installation for carrying out the method|

ES2235306T3|1998-08-18|2005-07-01|Francois Girbaud|TINT PROCEDURE OF A TEXTILE MATTER WITH INDIGO USING INDOXYL AND INSTALLATION FOR THE PRACTICE OF THE PROCEDURE.|

CN1330824C|2000-02-23|2007-08-08|弗兰科伊斯·格鲍德|Byeing method spinning material using 3-indoxyl indigo blue and equipment utilizing said method|

CN103526485B|2013-09-29|2015-06-03|吴江市科时达纺织有限公司|Yarn dyeing machine|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

DE2951695A|DE2951695C2|1979-12-21|1979-12-21|

DE19803045646|DE3045646C2|1980-12-04|1980-12-04|

DE3045647A|DE3045647C2|1980-12-04|1980-12-04|

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