EP2020457A2 - Method and facility for continuous treatment of strips of textile goods - Google Patents

Abstract

The method involves performing heat, cold and/or pressure treatment including multiple direct, successive cycles, on a web of textile fabric, in a treatment system. The treatment system has an air supply nozzle (9), an air suction unit and a calendar roll (15). Thermal energy and/or pressure of the web are adjusted during each cycle. Heating and cooling of the web is adjusted with respect to deformation characteristics of the web during each cycle. Pressure of the web is adjusted with respect to air permeability of the web during each cycle. An independent claim is also included for a system for continuous treatment of a web of textile fabric with air and/or pressure.

Description

The invention relates to a method for the continuous treatment of textile webs according to the preamble of patent claim 1 and a system for the continuous treatment of a textile web according to the preamble of patent claim 4.

In the treatment of textile webs, it is known to pass them between opposite nozzles and to apply hot or cold air. The web is usually held between two circumferential grid-like or perforated bands. In many cases, a very high requirement is placed on a constant thickness of the web in the transverse and longitudinal directions. For this reason, the two strands of the bands are supported on guide rollers, which delivered accordingly, determine the thickness of the web.

An object of the present invention is to provide a method and a system in order to obtain the required properties in terms of thickness or density distribution with maximum efficiency of the web.

This object is achieved by a method according to the features of patent claim 1 and a system according to the features of patent claim 4.

Advantageous embodiments of the system are described in the dependent claims.

By treating the textile material in several cycles, in which the gap between the rollers and / or the volume flow of the air is adjustable, it is possible to take into account the peculiarities / properties of the material web. Thus, for example, the treatment to the temperature of the web and the properties of air permeability can be regulated in each individual cycle, so that by stepwise procedure optimum quality can be achieved.

It continues to succeed by the mutual contact of the rollers with the nozzle channels arranged therebetween to keep them aligned exactly to the rollers and the distance set exactly between the pairs of down and up rollers and nozzle channels.

Due to the similar design of the rollers and the channels below and above the web channel and the unavoidable sag of the rollers and the channels can be compensated, so that the web over its entire width, even if it is several meters, can be maintained exactly.

Reference to an illustrated embodiment, the invention is explained in detail.

Figur 1

eine Ansicht einer Behandlungsanlage für textile Warenbahnen, davon ein Modul mit geöffneter Vorderwand;

Figur 2

eine perspektivische Darstellung des Moduls in Figur 1 von oben und

Figur 3

eine perspektivische vergrösserte Ansicht der Stirnseite einer Walze und der Seitenwände der benachbarten, teilweise herausgezogenen Düsenkanäle.

Show it:

FIG. 1

a view of a treatment plant for textile webs, of which a module with open front wall;

FIG. 2

a perspective view of the module in FIG. 1 from above and

FIG. 3

a perspective enlarged view of the end face of a roller and the side walls of the adjacent, partially withdrawn nozzle channels.

In the Figures 1 and 2 is a reference 1 shows a treatment plant for textile webs 3 shown schematically as a rectangle. The treatment plant is divided into a number of juxtaposed modules M1 to Mx. The modules comprise air ducts 5 and 7 at the top and bottom, wherein in the example shown air is sucked in the upper air duct 5 and air is supplied in the lower air duct 7. Of course, adjacent modules could be alternately operated with positive or negative pressure. The air passes through, for example honeycomb air supply nozzles 9 in box-shaped nozzle boxes 10 to the web 3, which are passed by two conveyor belts 11 and 13 between the outlet and inlet openings on the nozzle channels 7, 9. Of the two designed as endless circulating transport air-permeable conveyor belts 11,13 the sake of clarity, only the lying on the openings of the nozzle channels sections of the strands, between which the web 3 is guided, can be seen.

Between the laterally spaced air supply nozzles 9 axially parallel mounted calender rolls 15 are arranged individually vertically adjustable so that their mutual distance and thus the nip is switched on and adjustable. The calender rollers 15 are rotatably supported at the end in bearing blocks 17.

As in FIG. 3 can be seen, 9 shafts 21 are fixed to the concave surfaces of the air supply nozzles on which rollers 23 are freely rotatably mounted at intervals. The upper rollers 23 rest on the peripheries 25 of the adjacent calender rollers 15. The air supply nozzles 9 are therefore supported by the two adjacent rollers 15.

Since the peripheries 25 of the calender rolls 15 have very smooth surfaces, the air supply nozzles 9 can be pulled out axially as required from the spaces between the adjacent calender rolls 15. If the calender rolls 15 are replaced by suitable adjusting means 29, e.g. Adjusting screws for adjusting the gap width, adjusted vertically, so synchronously takes place the adjustment of the air supply nozzles 9, so that their air outlets or air intake openings are always exactly in the plane or if desired exactly at a predetermined distance to the apex lines of the adjacent calender rolls 15. The technically unavoidable sag of calender rolls 15 of great length, for example 4 m in length, is compensated for by the fact that the overlying calender roll 15 and the air supply nozzles 9 arranged therebetween have the same sag, and thus the gap between the nozzle openings or apex lines of the opposing calender rolls 15 over the entire roll length, which corresponds to the width of the processed products, remains constant.

Due to the adjustability and adjustability of the calender rolls 15 or their mutual vertical spacing, the material web 3 to be processed can be pressed together, for example successively, from the input side to the exit side of the plant 1. In other words, the input side, the Kalanderwalzenabstände can be a multiple of the distances of the calender rolls 15 just before leaving the treatment plant 1. Since simultaneously with the adjustment of the calender rolls 15 and held between them nozzle boxes 10 are entrained, the ratios of air supply and removal remain always constant with respect to the web surface.

The nozzle boxes 10 suspended between the calendering rolls 15 can be pulled out axially with little effort and can be pulled out by other, i. Nozzle channels with differently shaped nozzles, e.g. another, larger, smaller or differently oriented blower nozzle gap, be replaced or it can be made at the air supply nozzles 9 adjustments to the nozzle openings.

Through the air supply nozzles 9 cold and / or warm air can be supplied and thus the web 3 cooled or heated.

REFERENCE NUMBERS

1

treatment plant

3

web

5

air duct

7

air duct

9

air supply nozzles

10

nozzle boxes

11

conveyor belt

13

conveyor belt

15

calender roll

17

bearing blocks

19

concave surface

21

waves

23

roll

25

periphery

27

gap

29

actuating means

Claims (12)

A method for the continuous treatment of textile webs with air, heat, cold and / or pressure in a treatment plant with air supply means and air suction and pressure roller pairs, characterized in that the heat or cold and pressure treatment comprises a plurality of immediately consecutive cycles, wherein during each cycle the thermal energy and / or the pressure on the web (3) is adjustable and adjustable. A method according to claim 1, characterized in that the heating or cooling of the web (3) in each cycle to the deformation properties of the web (3) is adaptable. Method according to one of claims 1 or 2, characterized in that the pressure on the web (3) in each cycle to the air permeability of the web (3) is adaptable. Plant (1) for the continuous treatment of a textile web (3) with air and / or pressure, comprising a plurality of parallel juxtaposed rollers (15) above and below a channel formed by the rollers (15) for the web (3) Pressing the fabric web (3) and a plurality of air supply nozzles (9) and / or Luftabsaugdüsen, which are arranged between the rollers (15) to carry air to the web (3) and away from this, characterized in that the air supply nozzles (9 ) and / or the Luftabsaugdüsen axially extendable between each two adjacent calender rolls (15) are arranged. Plant in claim 4, characterized in that the air supply nozzles (9) and / or the Luftabsaugdüsen are formed in box-shaped nozzle boxes (10). Installation according to claim 5, characterized in that on the side walls of the nozzle boxes (10) with the air supply nozzles (9) and / or Luftabsaugdüsen sliding elements (23) are mounted, which are intended to rest on the peripheries of the adjacent rollers (15). Installation according to claim 6, characterized in that the sliding elements comprise rollers (23) mounted on shafts (21) parallel to the axes of rotation of the rollers (15). Installation according to claim 7, characterized in that the rollers (23) roll on the peripheries of the adjacent rollers (15) and carry the nozzle boxes (10) with the air supply nozzles (9) and / or Luftabsaugdüsen. Installation according to one of claims 4 to 8, characterized in that the two rows of calender rolls (15) for adjusting the vertical distances of the rollers (15) and the nozzle boxes (10) are mounted vertically displaceable. Installation according to claim 8, characterized in that the mutual distance of each pair of rollers is adjustable and adjustable. Installation according to one of claims 4 to 10, characterized in that the size, position and orientation of the openings at the air supply nozzles (9) and / or the Luftabsaugdüsen are adjustable. Installation according to one of claims 5 to 11, characterized in that the nozzle boxes (10) are interchangeable.

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