41 |
METHOD FOR THE TREATMENT OF A TEXTILE SUBSTRATE, AND DEVICES FOR CARRYING OUT SAID METHOD |
US15572012 |
2016-05-06 |
US20180119323A1 |
2018-05-03 |
Alexander THIES; Berthold TIMMER |
A method for the treatment of a textile substrate is described, in which the substrate is arranged in a treatment device and treated with an aqueous treatment bath. Here the moisture of the textile substrate is adjusted to a predetermined moisture in the beginning of the treatment, whereby the treatment bath volume to be sprayed on the respective subject and per time unit is determined exactly, so that the textile subject provides the defined predetermined moisture at the end of the treatment. The therefore used devices enables the realization of the method for textile substrates designed as a fabric strand, a wide fabric web package and a fabric package. |
42 |
METHOD FOR TREATING HIGH STRENGTH FABRIC TO BE WATER REPELLENT |
US14357287 |
2011-12-27 |
US20140302237A1 |
2014-10-09 |
In-Sik Han |
The present invention relates to a method for treating high-strength fabric to be water-repellent, which includes dipping a high-strength fabric in a water-repellent agent composition to impregnate the high-strength fabric with the water-repellent agent composition, and then, using an air-suction machine to pick-up a part of the water-repellent agent composition impregnated in the high-strength fabric before drying and heating the same. The present invention has advantages in that a part of the water-repellent agent composition impregnated in the high-strength fabric may be uniformly picked-up during dipping, so as to improve water-repellent performance, especially, water-repellency after friction as well as initial water-repellency, and may effectively prevent occurrence of wrinkles on the high-strength fabric during water-repellent treatment. The high-strength fabric obtained by water-repellent treatment according to the present invention exhibits increased flexibility without wrinkles, so as to improve wearing comfort. Further, in case of using the fabric as a raw fabric for bulletproof garments, water-repellency is increased to prevent deterioration in bulletproof properties caused by water absorption. |
43 |
Suction device for a double-point coating system |
US09294855 |
1999-04-20 |
US06261366B1 |
2001-07-17 |
Max Dubs; Hubert Holdener |
A suction device for a double-point coating system is used to remove excess powder (3′) from a double-coated fabric web (1). The suction device has a powder-suction element (4) to remove excess powder, a fabric-web-suction unit to align the fabric web and at least one beater roller (8, 9) to loosen excess powder. The fabric web suction unit has at least one suction roller (5, 6, 7) that can rotate to convey the fabric web (1) and support it. That way, the fabric webs can be transported tension-free, which largely prevents adhesion of individual dots of paste and clogging of the textile. |
44 |
Device for cleaning webs |
US823485 |
1997-03-25 |
US5829274A |
1998-11-03 |
Gerold Fleissner |
In a washing method, a web of textile goods is wetted with a washing-active liquid and the liquid is caused to foam by steam which is blown at high pressure into a back side of the web of goods with a pile on the front side. The steam is discharged from a nozzle slot that extends transversely across the web of goods. The nozzle directs the steam against the web and through it. The foam which then suddenly forms is then drawn off by a vacuum or suction together with the liquid still in the pile from the pile side of the web. |
45 |
Method and device for treating an endless web of material with a washing
liquid |
US542389 |
1995-10-12 |
US5772739A |
1998-06-30 |
Walter Keller; Christian Meyer |
A method and a device are provided for the treatment of an endless web of fabric with a washing liquid and employing a vacuum. The treatment medium is withdrawn from the treatment zone and the withdrawn treatment medium is separated in a cyclone into a gas and a liquid. The liquid is pumped back into the treatment zone. The gas is heated additionally in a vacuum generator and is then returned into the treatment zone. |
46 |
Apparatus for treating a textile web with a liquid |
US219802 |
1988-07-14 |
US4955212A |
1990-09-11 |
Johannes Kutz; Gunter von Harten |
In a fabric treatment apparatus for applying a washing or rinsing liquid to a dyed or printed textile web, the web is transported by a sieve conveyor belt along a horizontal path. Spaced from one another along that horizontal path are several liquid applicators or spray pipes. Associated with each spray pipe is a respect dwell stretch and a suction device, the dwell stretch being located downstream of the respective liquid applicator and upstream of the respective suction device. The dwell stretch includes either two sets of rotatable rollers spaced a distance from one another or a rotatable sieve drum. |
47 |
Method and apparatus for washing elongated tape with hot water |
US188463 |
1988-04-29 |
US4832065A |
1989-05-23 |
Noritaka Tsubata |
In washing an elongated tape with hot water, the tape is fed through a succession of hot-water baths one after another. When the tape is transferred from one bath to the next, the hot water on and in the tape is removed. In each bath, the tape is brought out of and then into the hot water at least one time. |
48 |
Fabric washing system |
US029540 |
1979-04-12 |
US4225991A |
1980-10-07 |
Joseph A. Bolton; Olavi A. Huhtala |
A system and method for cleaning and drying porous fabrics such as tufted carpet are disclosed. A porous fabric is first wetted and then passed over a slotted vacuum pipe. A backup plate is positioned opposite the slot, and the fabric passes between the slot and plate. Air is forced to flow in an indirect route into the slot to maximize cleaning and drying. The gap between the slot and backup plate is adjustable to enable the system to handle fabrics or carpets of varying thickness. |
49 |
Apparatus for applying liquid finishing agents to textile threads |
US572738 |
1975-04-29 |
US3980045A |
1976-09-14 |
Wolfgang Zollner |
A process and an apparatus for the application of liquid freshening, brightening or finishing agents to textile threads or yarn, in which a free-falling jet of liquid is directed onto the threads with the additional use of reduced pressure. |
50 |
Apparatus for the treatment of textile fibers and fabrics |
US43501374 |
1974-01-21 |
US3908410A |
1975-09-30 |
UMEHARA RYO; BEKKU FUJIO |
Apparatus for treatment of textile fibers and fabrics in a confined zone formed by an even number of at least two interengaging pairs of parallel rolls which cooperate with two end plates in sealing contact with the ends of the interengaging pairs of rolls, and means connecting the confined zone with at least a source of reduced pressure and use of such apparatus in apparatus means for crimping protein fibers comprising in combination means for impregnating the fibers with an aqueous solution containing an alcohol; means for storing the impregnated fibers to allow penetration of the impregnating solution; means for drafting the fibers and means for setting and drying the fibers.
|
51 |
Textile material with soil release |
US76738268 |
1968-10-14 |
US3885911A |
1975-05-27 |
HABIB EMILE E |
A process for producing improved textile material with soil release characteristics which comprises applying thereto a soil release composition and passing gas through said textile material at a rate sufficient to remove excess soil release composition. Also, the product produced by this process.
|
52 |
Method and apparatus for treating sheet-like material with fluid |
US3771236D |
1971-07-29 |
US3771236A |
1973-11-13 |
CANDOR R; CANDOR J |
In air-through dryers for wet sheet-like material, such as paper, textiles, etc., the moist sheet-like material is passed adjacent a high velocity air hood so as to be subjected to an air pressure differential across the same. Thus, heated or unheated air is caused to be engaged against one side of the sheet-like material and pass therethrough to the other side thereof to remove moisture from such sheet-like material as the air passes therethrough, such moisture being removed by a pushing out of the moisture by the air, by air entrainment and/or by adiabatic evaporation. A belt means of this invention comprising a perforated flexible wall carrying felt, fabric or other similar material on one side thereof is utilized in a manner to engage against the moist sheet-like material to compress the same during the passage of air through the perforated flexible wall and through the moist sheet-like material to assist in the water removal thereof by either tending to cause the porosity of the drying sheet-like material to remain substantially constant so that an optimum substantially constant air flow passes therethrough or to cause a greater air flow rate through the wetter portions of said sheet-like material than through the drier portions thereof.
|
53 |
Apparatus and method for drying permeable webs |
US3574261D |
1968-09-24 |
US3574261A |
1971-04-13 |
BAILEY HERMAN H |
A moving textile web is expunged of liquid by a very highpressure air jet which is directed through a thin slot transverse to the direction of travel of the web. The jet is directed downwardly at the web which is horizontally supported by an open weave wire belt. The wire belt moves at a speed different from that of the web in order to avoid a pattern formation on the web as it is impressed on the belt by the force of the air jet.
|
54 |
Suction hydroextractor |
US65945046 |
1946-04-04 |
US2597801A |
1952-05-20 |
MARCELL ELLIOT CURTIS |
|
55 |
Hydroextractor |
US4065635 |
1935-09-14 |
US2164174A |
1939-06-27 |
GERARD FRANK W; COLLINS RICHARD C |
|
56 |
Process and apparatus for coloring textile webs |
US44356530 |
1930-04-11 |
US1846845A |
1932-02-23 |
CLARK FRANK W |
|
57 |
Apparatus for withdrawing moisture by suction |
US69939024 |
1924-03-14 |
US1576679A |
1926-03-16 |
SMITH HARRY C |
|
58 |
Mangle. |
US1908431582 |
1908-05-08 |
US937102A |
1909-10-19 |
SEIFERT EMIL RUDOLF |
|
59 |
richter |
US594430D |
|
US594430A |
1897-11-30 |
|
|
60 |
Mangle |
US482410D |
|
US482410A |
1892-09-13 |
|
|