EP1830146A2 - Apparatus for straightening textile webs - Google Patents

Abstract

An initial treatment zone (1) in the direction (21) of web transport, is designed to force air through the textile web (7). Equipment removing used air from the air jet zones, is connected to this initial treatment zone, such that outgoing air is directed through the web. A fan (12) induces the outgoing air and is located near the initial zone, in order to draw it through the web, or force it through under pressure. First and second fans (11, 12) are used, the initial treatment zone being located between them. An independent claim is included for the corresponding method.

Description

The invention relates to a device and a method for heat treatment of textile webs with a plurality of successive treatment zones, which are designed as impact jet ventilation zones.

In the DE-U-201 16 279 a device for the treatment of textile webs is described, which consists essentially of a housing, means for transporting the web in the extended state through the housing and a nozzle system for inflating treatment gas on the web. The nozzle system usually has upper and lower nozzle boxes, which extend over the entire width of the web, so that the web can be acted upon both from above and from below with a treatment gas.

The treatment gas, for example heated air, is circulated, i. repeatedly heated, applied to the web and returned. At one or more points of the device, a part of the treatment gas is discharged via exhaust nozzles and replaced by fresh air via fresh air supplied fresh air.

Furthermore, it is known to supply the exhaust gas to a heat recovery system in order to save energy in the apparatus for heat treatment of textile webs.

The invention is based on the object to improve the device or the method for heat treatment of textile webs to the effect that a further energy saving and at the same time increasing the efficiency of the heat treatment is possible.

According to the invention, this object is solved by the features of claims 1 and 11.

The inventive device for heat treatment of textile webs consists essentially of several successive treatment zones, which are designed as impact jet ventilation zones and means for deriving the exhaust air of the impact jet ventilation zones. Furthermore, an upstream in the transport direction of the web treatment zone is provided, which is designed as a ventilation zone, wherein the means for discharging the exhaust air of the impact jet ventilation zones are connected to the ventilation zone such that the exhaust air is passed through the web.

In the method according to the invention for the heat treatment of textile webs, the web is exposed in a plurality of successive treatment zones of a collision jet ventilation. In a treatment zone upstream of the web, the web is aerated by the exhaust air of the baffle jet aeration.

In the impingement jet ventilation zones, the treatment gas, for example heated air, is blown onto the web in order to dry it, for example. The treatment gas absorbs the moisture. By the exhaust gases are passed through the web in the upstream aeration zone, the exhaust air can continue to cool down to the cooling limit temperature, wherein energy is supplied to the web. This means an increase in efficiency of the drying performance and an energy saving.

According to a preferred embodiment of the invention, the means for discharging the exhaust air of the impact jet ventilation zones comprise a fan which is arranged in the region of the ventilation zone in such a way that it draws the exhaust air through the material web. According to another variant, the fan in the region of the ventilation zone is arranged such that it pushes the exhaust air through the web. According to a preferred arrangement, both fans are provided, so that the ventilation zone is arranged between the two fans.

The impact jet ventilation zones can be designed so that the exhaust air is introduced into at least one downstream in the transport direction of the web impact air ventilation zone in a previous impingement jet ventilation zone. As a result, the exhaust air is guided counter to the transport direction of the web through the impingement jet ventilation zones, whereby the treatment gas / exhaust gas can concentrate with moisture or preparation.

In a further embodiment of the invention, the web is in the ventilation zone with at least one aligned in the transport direction of the web carrier tape in contact to support the web during aeration.

According to a further embodiment, the fabric web is in frictional contact with at least two juxtaposed and aligned in the transport direction of the web carrier tapes, each carrier tape drive means are assigned to accelerate and delay the fastener tapes for removing non-linear distortion relative to the transport speed of the web , In this embodiment, the straps serve as a support surface for the web during the ventilation and at the same time allow the correction of distortion. For the operation of the two straps to correct the distortion is hereby on the DE-A-10 2006 003 384 directed.

The operation of the fastener tapes by changing their speed relative to the transport speed of the material web is improved by the ventilation with the exhaust gases from the impingement jet ventilation zones, because due to the ventilation results in a stronger frictional contact of the web with the straps.

Further advantages and embodiments of the invention will be explained in more detail below with reference to the description and the drawing.

Fig. 1

eine schematische Darstellung einer Vorrichtung zur Wärmebehandlung einer textilen Warenbahn gemäß einem ersten Ausführungsbeispiel,

Fig. 2

eine schematische Darstellung einer Vorrichtung zur Wärmebehandlung einer textilen Warenbahn gemäß einem zweiten Ausführungsbeispiel und

Fig. 3

eine schematische Draufsicht im Bereich der Durchlüftungszone.

In the drawing show

Fig. 1

a schematic representation of an apparatus for heat treatment of a textile web according to a first embodiment,

Fig. 2

a schematic representation of an apparatus for heat treatment of a textile web according to a second embodiment and

Fig. 3

a schematic plan view in the region of the ventilation zone.

The device shown in FIG. 1 for heat treatment, for example for drying and / or fixing a textile web 7 essentially consists of a plurality of successive treatment zones 1 to 6, wherein the treatment zones 2 to 6 are formed as impact jet ventilation zones and the treatment zone 1 as a ventilation zone. The textile web 7 is transported by transport means not shown in the expanded state through the treatment zones 1 to 6. In the impingement jet ventilation zones, nozzle systems 17 are provided, which in the exemplary embodiment shown consist of upper and lower nozzle boxes, which extend over the entire width of the material web, so that the material web is acted upon both from above and from below with a treatment gas.

The treatment gas consists of fresh air 8, which is supplied to the impact jet ventilation zones via suitable nozzles, and circulating air 9. Furthermore, the treatment gas may also contain the exhaust air 10 of the impact jet ventilation zone following in the transport direction 21 of the fabric.

By suitable means 11, which are formed for example by fans, the exhaust air 10 of a treatment zone in the transport direction of the web 7 preceding treatment zone can be derived.

This has the effect that the treatment gas is now passed from treatment zone to treatment zone and thus from back to front to the aeration zone 1. The treatment gas saturates with moisture.

In the ventilation zone 1, the means 11 for discharging the exhaust air are arranged such that the exhaust air is passed through the web 7. The flow through the web can be done by the fan 11, which presses the exhaust air 10 through the web. But it is also conceivable that the exhaust air is drawn through a downstream fan 12 through the web. In a preferred embodiment, both fans 11, 12 are provided, wherein the web 7 between the two fans 11, 12 is arranged.

The exhaust air 10 is performed in the ventilation zone 1 through the cold, wet web 7 and cooled in this way almost to the cooling limit temperature.

Depending on the number of impact jet ventilation zones, it may be expedient not to use the entire exhaust air from all impact jet ventilation zones for aeration of the material web. In the illustrated embodiment, the exhaust air of the impact jet ventilation zones 2 and 3 is used for the ventilation. The exhaust air 13, which is concentrated via the impact jet ventilation zones 6, 5 and 4 with moisture or with preparations from the fixing process, is discharged via a fan 14 approximately in the middle of the entire apparatus and optionally fed to a heat recovery device 30. The fresh air is sucked in via a fan 29, heated in the heat recovery 30 by the exhaust air 13 and fed as preheated fresh air 8 via the fresh air pipe of the device.

In the ventilation zone 1 is expediently provide at least one support band 15 to support the web 7, which should be designed so that it can also be ventilated.

FIG. 2 shows a floor dryer in which the fabric web 7 first passes through a plurality of upper treatment zones 18 and then several lower treatment zones 19. The web 7 is transported by means of one or more conveyor belts 16 through the upper and lower treatment zones. Each upper and lower treatment zone is in turn designed as a baffle-jet ventilation zone and in turn has a suitable nozzle system 17 in order to inflate the treatment gas onto the material web 7. For reasons of clarity, the nozzle systems are shown schematically in FIG. 2 only in the two last treatment zones 19.

Each lower treatment zone 19 is associated with an upper treatment zone 18 arranged above it, wherein fresh air 8 is supplied to the lower treatment zones, which in turn forms the treatment gas together with the circulating air 9 in the lower treatment zone. The exhaust air 10 of the lower treatment zone 19 is supplied to the overlying upper treatment zone 18 as a treatment gas. By suitable means 20, such as exhaust ducts, the exhaust air 10 is collected from each of the upper treatment zones 18 and fed to an upstream in the transport direction 21 of the web 7 aeration zone 1. The means for discharging the exhaust air 10 may in particular include a fan 11 which is arranged so that it presses the exhaust air 10 in the ventilation zone 1 through the web 7. A downstream fan 12 can in turn assist the ventilation of the web by pulling the exhaust air through the web.

Also in this embodiment, at least one carrier tape 15 is provided for the transport and the support of the web 7 in the region of the ventilation zone 1.

The drawn through the web 7 exhaust air is saturated with moisture and cooled almost to the cooling limit temperature. This exhaust gas can then be discharged to the outside, unless there is still another heat recovery is provided.

The fresh air 8 of the two embodiments described above is formed in particular by ambient air, which is preheated by a heat recovery or a heating system. Characterized in that the exhaust air 10 is guided in countercurrent to the transport direction 21 of the web through at least two treatment zones, the exhaust air can concentrate with moisture or preparation, to then be passed through the web at the beginning of the process in the ventilation zone. This exhaust air guidance results in a particularly uniform heating of the goods and a very efficient utilization of the heat energy of the exhaust air. The web 7 can thereby be warmed up faster and more uniformly, so that drying and / or fixing operations can be carried out more quickly.

In the following, with reference to FIG. 3 and with reference to the DE-A-10 2006 003 384 described a further embodiment of the above-described devices for heat treatment of textile webs.

As has already been explained above, the conveyor belt 15 serves to ensure that the web receives sufficient support in the region of the aeration zone 1 when it is loaded with the exhaust air when it flows through.

If at least two adjacently arranged carrier tapes 15a, 15b, which are aligned in the transport direction 21 of the web 7 and are in frictional contact with the web, it is possible to remove nonlinear distortions by assigning a drive means 22a, 22b to each carrier tape is to accelerate or retard the fastener tapes 15a, 15b relative to the transport speed of the web.

Distortions of textile material webs during production change the structure of textiles, whereby the use value of the goods is reduced and the further processing is disturbed. Straightening systems for textile material webs, such as thread and / or stitching are state of the art. Such systems can detect warpage of the webs via opto-electronic measurements and then eliminate it via one or more straightening rollers.

In principle, a distinction is made between linear and nonlinear distortions of the material web. Schräggrichtwalzen are usually used to remove the detected linear distortions of the webs. In the embodiment shown in FIG. 3, the web 7 running from bottom to top initially has a linear (24) and a non-linear (25) distortion. The removal of the linear distortion 24 is carried out with at least one Schräichtichtwalze 23. The nonlinear distortion 25, which is formed in Fig. 3 by a leading sheet, but this can not be corrected.

By suitable transport means 26, the edges of the web 7 are fixed during transport through the ventilation zone 1. In the aeration zone 1, the web 7 is also in frictional contact with the two straps 15a, 15b.

In the illustrated embodiment, the web 7 on an anticipatory arcuate delay 25, which can be remedied by the fact that the fastener tapes 15a, 15b are driven either slower than the transport speed of the web 7 or even against the transport direction 21. This is shown by the arrows 27, 28. Due to the frictional contact of the fastener tapes 15a, 15b with the web 7 of the arcuate delay is getting smaller, until the complete correction of the delay has occurred. During frictional contact with the straps 15a. 15b, the edges of the web 7 are fixed.

The arrangement of the fastener tapes in the ventilation zone 1, the web 7 is acted upon simultaneously with the exhaust air 10, whereby the frictional contact with the fastener tapes 15a, 15b increases and thereby a particularly efficient correction is made possible.

Claims (11)

Device for the heat treatment of textile webs (7) with a plurality of successive treatment zones, which are designed as impact jet ventilation zones (2, 3, 18, 19) and means for discharging the exhaust air (10) of the impact jet ventilation zones,
characterized by a in the transport direction (21) of the web (7) upstream treatment zone, which is designed as a ventilation zone (1), wherein the means for discharging the exhaust air of the baffles are connected to the ventilation zone such that the exhaust air (10) through the web is directed. Apparatus according to claim 1, characterized in that the means for discharging the exhaust air (10) of the impact jet ventilation zones comprise a fan (12) which is arranged in the region of the ventilation zone (1) such that it pulls the exhaust air through the web (7) , Apparatus according to claim 1, characterized in that the means for discharging the exhaust air (10) of the impact jet ventilation zones comprise a fan (12) which is arranged in the region of the ventilation zone (1) such that it pushes the exhaust air through the web (7) , Apparatus according to claim 1, characterized in that the means for discharging the exhaust air of the impact jet ventilation zones comprise a first fan (11) and a second fan (12), wherein the ventilation zone (1) is arranged between the two fans. Apparatus according to claim 1, characterized in that the impact jet ventilation zones (2, 3, 18, 19) are designed such that the exhaust air (10) at least one in the transport direction of the web downstream impact jet ventilation zone is introduced into a previous impingement jet ventilation zone. Apparatus according to claim 1, characterized in that the impact jet ventilation zones (2, 3) are designed such that the exhaust air (10) is guided against the transport direction of the web through the impingement jet ventilation zones. Apparatus according to claim 1, characterized in that in the impact jet ventilation zones (2, 3, 19) means for supplying fresh air (8) are provided, which together with the exhaust air (10) in the transport direction (21) of the web (7) following Impeller jet ventilation zone opposite to the transport direction of the web is guided by the previous in the transport direction of the web impact air ventilation zones. Device according to claim 1, characterized in that the device is a floor dryer. Apparatus according to claim 1, characterized in that the web (7) in the ventilation zone (1) with at least one aligned in the transport direction of the web carrier tape (15, 15a, 15b) is in contact. Apparatus according to claim 1, characterized in that the fabric web (7) in the ventilation zone (1) with at least two juxtaposed and in the transport direction (21) of the web (7) aligned carrier tapes (15a, 15b) is in frictional contact, each Lanyard drive means (22a, 22b) are assigned to accelerate or retard the straps to remove non-linear distortion relative to the transport speed of the web. Process for the heat treatment of textile webs, wherein the web is exposed in a plurality of successive treatment zones (2, 3, 18, 19) to an impingement jet ventilation and the resulting exhaust air is discharged,
characterized in that the web (7) in a transport direction (21) of the web upstream treatment zone (1) is ventilated by the exhaust air (10) of the impact jet ventilation.

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