US2985502A

US2985502A - Method of dyeing knitted textile products

Info

Publication number: US2985502A
Application number: US803473A
Authority: US
Inventors: Kronsbein Curt; Bellmann Friedhelm
Original assignee: BELLFOUR GES fur VERFAHRENS U
Current assignee: BELLFOUR GES fur VERFAHRENS U; Bellfour Gesellschaft fur Verfahrens- und Trocknungstechnik Mbh
Priority date: 1959-04-01
Filing date: 1959-04-01
Publication date: 1961-05-23
Anticipated expiration: 1978-05-23

Description

y 23, 1961 c. KRONSBEIN ET AL 2,985,502

METHOD OF DYEING KNITTED TEXTILE PRODUCTS Filed April 1, 1959 ,m; a u,

St t S tent f i A 2,985,502 METHOD on DY'EING KNITTED PRODUCTS Curt Kronsbein and Friedhelm Bellmann, Hagen, Germany, assignors to Bellfonr Gesellschaft fuer Verfahrensund Trocknungstechnik m.b.H., Hagen-Haspe, Germany Filed Apr. 1, 1959, Ser. No. 803,473

4 Claims. (Cl. 8- 150) ExTmE This is a continuation-in-part of our co-pendingpatent application Ser. No. 628,203, filed December 13, 1956, for Textile Dyeing Processes, now abandoned.

Another object of this invention is to provide improved methods of treating textile products with liquids at elevated temperatures, and more particularly with dyes at elevated temperatures.

Another object of this invention is to provide means which make it possible to minimize the quantity of dye or other treating liquid used in the process, to minimize the time involved in the dyeing or other liquid treating process and to minimize the heat needed to raise to a required level the temperature of the dye, or other treating liquid, used in the process.

The methods used heretofore for dyeing knitted textile products such as, for instance, hosiery, gloves, sweaters, etc. ;require relatively large amounts of dye. This results in relatively high dyeing cost for such products.

It is, therefore, another object of the invention to provide dyeing methods for knitted textile products requiring relatively small quantities of dye, and involving considerably smaller cost than the batch dyeing methods which were used heretofore for dyeing such products.

Another object of the invention is to provide dyeing methods for so called dry textile goods which methods lend themselves well to be combined with other finishing operations such as, for instance, fixation, cleaning, or sizing of the goods.

Another object of the invention is to provide generally improved methods for treating knitted textile goods made of' synthetic fibers.

Another object of the invention is to provide improved spray dyeing systems for hosiery made of synthetic fibers requiring smaller quantities of dye and less heat and Working more etficiently than comparable prior art spray dyeing systems for hosiery.

Other objects and advantages of the invention will, in part, be obvious and in part appear hereinaften' For a more complete understanding of the invention 4 y Patented May.23, 1961 rangeinent for treating such goods as sweaters, pullovers, or knittednnderwear; and i I Fig. 4 is'a' relatively diagrammatic illustration of an arrangement for treating knitted gloves made of synthetic fibers.

'Figs. 1 and 2 refer to an arrangement for treating stockings made of a material known in the trade as Perlon-nylon 6 (a polymer of caprolactam). Reference numeral 1 has been applied to indicate a substantially steam-tight tank or treating tank provided with substantially steam-tight doors 3 for admittingtextile products to be dyed into tank 1 and for removing dyed textile products from tank 1. The goods to be dyed are mounted on separate supports, e.g.-each stocking to be dyed is mounted on a separate supporting frame indicated by reference numeral 2. The size of tank 1 is relatively small or, to be more specific, the size of tank 1 is adapted to receive sixteen stockings, each mounted on a separate supporting frame 2. Each supporting frame 2 is mounted on a stand 4, and stands 4 are stacked and inserted into guiding means as, for instance, a U-shaped rail, to facilitate movingof stands 4 into, and out of, tankl. Tank 1 is made to withstand an internal pressure of at least 45 lbs. per square inch but is preferably considerably stronger. ,The upper part of tank 1 is provided with spray nozzle means8 adapted to produce a spray, or a large number of relatively fine jets, of liquid. The lower part 5 of tank 1 is substantially in the shape of an inverted pyramid or cone and decreases in cross-section toward the lowest point of the tank. The intake of suction pump 6 is connected to the lowest point of tank 1. The outlet of suction pump 6 is connected to a fluid circulating pipe 7 which, in turn, is directly connected to the spray nozzle means 8 adjacent the top of tank 1. The outlet of suction pump 6 is provided with a dumping pipe 9 for removing, or dumping, dyes upon completion of the dyeing process. Tank 1 is further provided with an intake pipe 11 intended to admit steam derived from an auxiliary steam source into tank 1. Pipe 11 is arranged in the lower portion of tank 1 but above part 5 thereof. Reference numeral 12 has been applied to indicate a dye supply pipe connected to dye storage tank 13. Measuring valve 14 is interposed between dye storage tank 13 and pipe 12. The object of valve 14 is to admit a pre-measured volume of dye to the bottom of tank 1 and to circulating pump 6. In the embodiment of the invention shown which is intended to dye simultaneously sixteen stockings about two gallons of dye are admitted at one time from dye storage tank 13 to tank 1 and pump 6. Pump 6 operates continually and circulates the dye through pipe 7 directly to spray nozzle 8. The stockings in tank 1 are subjected to relatively finely divided jets of hot dye, generally directed from the top region of tank 1 to the bottom region 5 thereof. The excess of dye not absorbed by the stockings. on supports 2 is being collected on the bottom'region 5 of tank 1 and circulated and recirculated by the action of pump 6. The dye re-admitted to spray nozzle 8 is used for re-subjecting the stockings in tank 1 to finely divided jets of dye generally directed from the top region of tank 1 to the bottom region thereof. At the same time at which dye is admitted through pipe 12 to tank 1 and pump6 steam is admitted into tank 1 through the steam intake pipe 11. The initial pressure of the steam derived from an auxiliary source of steam is in the order of -180 lbs. per square inch. The steam is caused to flow through an automatic reducing valve (not shown) adapted to maintain steam admitted to tank 1' at a constant pressure. The constant pressure to be maintained depends upon the temperature required for the particular dyeing process in hand. The presought to be at least as high as the pressure of saturated steam at a temperature of, or exceeding, 100 deg. C. When dyeing Perlon-nylon 6 stockings satisfactory .re sults'may be obtained'by admitting steam at 'a pressure of about 15 lbs. per, square inch.. That: pressure ought tobe maintained constant 'during the entire dyeing process. 7

The dye stored in storage tank 13 may co prise addi tional ingredients whereby the dyeing process, may be combined with other finishing processes. as, for instance, washing, or sizing. The dye in storage tank 13 may include "a metal complex dye, a dispersing agent, a cleaning agent or detergent, a sizing agent, etc.

The time required to start the dyeing process subsequent to opening of imeasuring valve 14 is about 20 seconds, and the time required to dyeand steam treat the sixteen stockings in tank 1 is in the order of six minutes.

The'temperature at which the dyeing process is being i performed is in the'order of 120 deg. centigrade. At the end of the aforementioned dyeing period of six minutes admission of steam through passage 11 is discontinued and pipe 9 is opened by a valve (not shown) to dump the used or exhausted dye from the dyeing system. The dyed stockings are removed from tank 1 whe'nthe pressure prevailing therein is subsided, i.e. is equal to ambient pressure. 7 j

The above described dyeing process lends itself well to semi-complete or 'to complete automation.

l The apparatus diagrammatically shown in Figs. 3 and 4 is supposed to be'substantially identical with the apparatus shown in Figs. 1 and 2. According to Fig. 3 tank houses supports 21of which onlyone can be seen for such knitted textile products as underwear, sweaters, pullovers, etc. The products may be made of a mixture of equal parts of such synthetic fibers as those known by the name of viscose fibers and polyester fibers, e.g. Dacron fibers. The dyeing fluid used for this particular mixture of fibers comprises 3% substantive dyes, 2.5% dispersing dyes, 1.5% acetic acid, a dispersing medium 1 gram per quart, and some additional ingredients in the nature of finishing or sizing agents. The temperature is maintained at about llO degreescentigrade andthe pressure within the tank ismaintained at about 8 lbs. per square inch. The polyester component of thefibers is being fixed-during the steam treatment accompanying the dyeing process proper, i.e. a condition is imparted to the polyester fibers precluding subsequent changes of the shape thereof. The total treatment time for knitted underwear and sweaters made from the aforementioned mixture of synthetic fibers is in the'order of six minutes. The sequence of steps involved in the treatment diagrammatically indicated in Fig. 3 is the same as that described in connection with Figs. 1 and 2.

Fig. 4 refers to dyeing of gloves made from synthetic fibers known in the trade as Orlon 81 (polyacrylonitrile). The gloves to be dyed are arranged inside of tank 30, and mounted on substantially hand-shaped separate supports integrated into a unitary'supporting structure 31. The dyeing fluid comprises 2% of a suitable detergent and 1 gram per quart of a suitable finishing agent. The total treatment time is in the order of eight minutes, the treatment temperature in the order of 125 deg. centigrade, and the treatment pressure in the order of 23.5 lbs. per square inch. The sequence of steps involved in the treatment of gloves diagrammatically indicated in Fig. 4 is the same as that described in considerable detail in connection with Figs. 1 and 2. 7

It is apparent from a consideration of the process described above and illustrated in Figs. 1 to 4 that the goods to be dyed are not immersed in a dye bath, as is the case in conventionaldyeing, but are repeatedly subjected to minimum of dyes, and imparts a high degree of to the dyeing process.

Best results can be achieved only if the pressure in the tank or treatment chamber is at least as high as the pressure of saturated steam at the preferred dyeing temperature. The dyeing temperatflrejshould be at least 100 deg. tcentigrade. Supplying steam to tank. 1.,from an auxiliary sourc enablesto reach the"preferred, or required, pressure range almost instantly, i.e. at the very outset of the dyeing process. The admission of steam derived from an auxiliary source of steam to the dyeing chamber may be started priorj to the admission of dye from tank 13 into' the dyeing chamber, simultaneously with the admission of dye from tank 13 into -the dyeing chamber, or shortly after the admission of dye from tank 13 to the dyeing chamber has been completed.

It will be apparent from the foregoing that we have provided a systemfortreating textile products with hot dyes orother hot liquids wherein the liquid storage means are segregated from the closed spray .treating system. Liquid is admitted from the former to the latter in critically small quantities. The conduit means 7 is adapted to have a minimal dye storage capacity and is directly connected to the nozzle,r neans8,.i.e. no storage vessel or tank is interposed between the upper end of conduit means 7 and nozzle means 8 and no storage vessel or tank is neededat this point since the dye is stored in the separate storage vessel or tank ,13. The quantity of dye or other treating liquid admitted from storage tank directed spraysofdyewhichis being circulated, and re- "13 to dyeing tank 1 is substantially equal to the aggregate storage capacity of pump 6 and conduit 7. This is less than required to form a head of dye or other liquid in the bottom portion 5 of dyeing tank 1 when pump .6 is operating. A low head of liquid may form in the lower portion 5 of tank 1 as long as pump 6is not operating; .This' has been indicated in Figs. 1 and 2. As soon as pump 6 starts to operate this small head of dye or other liquid disappears into the circulating system. Because of the very small quantity of dye or other liquid involved in the process relatively little heat is required tor'aise the liquid tothe required treating temperature. The superheated steam admitted through admission means 11 forms an upwardly directed counterfiow to the downward flow .of dye in spray-form. By establishing counterflows of steam and dye the area of heat exchange between the heating medium and the heated medium is maximized and consequently the heating time minimized.

When dyeing hosiery made of synthetic fibers the aforementioned critically small quantity of dye admitted at any time from tank 13 to tank 1 is in the order of 28-34 litres per 60 pairs of hosiery, or about .46 to 56 litre per stocking. More generally speaking, the ratio of the weight of the dye, or dyeing liquor, to the weight of the goods tobe dyed should be in the order of 15:1; This limited quantity of dye is continuously circulated and recirculated by pump 6, except the portion thereof absorbed by the products to be dyed. Therate at which dye is being directly recirculated from pump '6 to spray nozzles 8 is substantially equal to the rate at which dye is sprayed from nozzles 8 per unit of time.

It will be understood that, although but a few embodiments of this invention have-been shown and described in detailyithe invention is not limited thereto and that the illustrated embodiments may bemodified without departing from the spirit and scope of the invention as set forth in the accompanying claims. a

It is claimed:

1. A method of dyeing textile products comprising the steps of admitting a predetermined limited quantity of dye to a closed dyeing system, said limitedquantity being in the order of 15- times the weight of the textile products to be dyed, of spraying said dye from spray nozzles at a predetermined rate'per unit of time upon the textile products to be dyed, of collecting the dye'not absorbed by the products to. be dyed .at a pointbelow the products to be dyed, of continuously circulating and recirculating all of said limited quantity of dye except for the portion thereof absorbed by the products to be dyed substantially at said predetermined rate per unit of time from said point below the products to be dyed directly back to said spray nozzles, and of heating said dye by a counterflow of steam While being in the form of a spray emanating from said spray nozzles.

2. A method for dyeing hosiery comprising the steps of admitting a predetermined limited quantity of dye to a closed dyeing system, said limited quantity being in the order of 28-34 litres per 60 pairs of hosiery, of spraying said dye from spray nozzles at a predetermined rate per unit of time upon the hosiery to be dyed, of collecting dye not absorbed by the hosiery to be dyed at a point below the hosiery to be dyed, of continuously circulating and recirculating all of said limited quantity of dye except for the portion thereof absorbed by said hosiery to be dyed substantially at said predetermined rate per unit of time from said point below the hosiery to be dyed directly back to said spray nozzles, and of heating said dye by a counterflow of steam while being in the form of a spray emanating from said spray nozzles. 3. A method for dyeing hosiery in a dye circulating system, said dye circulating system comprising a dyeing tank, spray means adjacent the top of said dyeing tank, and pump and conduit means for directly supplying said spray means with dye derived from the bottom of said tank, said method comprising the steps of admitting a predetermined quantity of dye from a storage tank segregated from said dye circulating system to said dyeing tank thereof, said quantity of dye being substantially equal to the aggregrate dye storage capacity of said pump means and said conduit means and less than required to form a head of dye in the bottom portion of said dyeing tank when said pump means is operating, of admitting superheated steam to the lower portion of said dyeing tank while said pump means is circulating and recirculating said dye, and of maintaining a counterflow of steam to the spray of dye produced by said spray means until said dye reaches a predetermined dyeing temperature.

4. A method of dyeing hosiery in a system comprising a treating tank, steam admission means in the lower portion of said treating tank, a plurality of supports inside said treating tank for supporting hosiery to be treated with hot liquid, spray nozzle means inside said treating tank arranged above said supports for spraying liquid upon said hosiery on said supports, drain means to Withdraw liquids from said treating tank upon completion of a treating cycle, liquid circulating means including a first conduit means directly connecting the bottom portion of said treating tank to said spray nozzle means and adapted to have a minimal liquid storage capacity, said circulating means further including pump means connected to said first conduit means, a liquid storage tank segregated from said liquid circulating means, a second conduit means connecting said storage tank to said treating tank, and valve means in said second conduit means for admitting predetermined quantities of liquid from said storage tank to said treating tank, said method comprising the steps of admitting a quantity of dye from said storage tank to said treating tank substantially equal to the aggregate dye storage capacity of said pump means and of said first conduit means and less than required to form a head of dye in said bottom portion of said treating tank when said pump means is operating, of admitting superheated steam to said steam admission means while said pump means is circulating and recirculating said dye, and of maintaining a counterflow of steam to a spray of dye produced by said spray nozzle means until said dye reaches a predetermined dyeing temperature.

OTHER REFERENCES Automatic Processing of Nylon Hose, p. 57, July 1955, Man-Made Textiles.

Bailey June 9, 1953 UNITED STATESIPATENT. OFFICE CERTIFICATE OF CORRECTION Patent No. 2,985,502 May 23, 1961 Curt Kronsbein et a1,

It is hereby certified that error appears in the above numbered patent requiring correction and that the said Letters Patent should read as corrected below.

In the heading to the printed specification, between lines 8 and 9, insert Claims priority, application Germany Dec, 19, 1955 column 4, line 51, and column 5, line 12, for pairs", each occurrence, read pieces =6 Signed and sealed this 3lstday of July 1962 (SEAL) Attest:

DAVID L. LADD ERNEST W, SWIDER Commissioner of Patents Arresting Officer

Claims

1. A METHOD OF DYEING TEXTILE PRODUCTS COMPRISING THE STEPS OF ADMITTING A PREDETERMINED LIMITED QUANTITY OF DYE TO A CLOSED DYEING SYSTEM, SAID LIMITED QUANTITY BEING IN THE ORDER OF 15 TIMES THE WEIGHT OF THE TEXTILE PRODUCTS TO BE DYED, OF SPRAYING SAID DYE FROM SPRAY NOZZLES AT A PREDETERMINED RATE PER UNIT OF THE TIME UPON THE TEXTILE PRODUCTS TO BE DYED, OF COLLECTING THE DYE NOT ABSORBED BY THE PRODUCTS TO BE DYED AT A POINT BELOW THE PRODUCTS TO BE DYED, OF CONTINUOUSLY CIRCULATING AND RECIRULATING ALL OF SAID LIMITED QUANTITY OF DYE EXCEPT FOR THE PORTION THEREOF ABSORBED BY THE PRODUCTS TO BE DYED SUBSTANTIALLY