EP0935112B1 - Apparatus for the heat treatment of a web - Google Patents

Abstract

Each treatment section (1) has two fans (7,8), supplying the upper (5) and lower (6) jets respectively, placed side by side on the same side wall of the housing. The respective distribution ducts (9,10) between fans (7,8) and jets are shaped so that they cross over each other horizontally. The fans can have common or separate filtration arrangements at the inlet.

Description

The invention relates to a device for heat treatment a web, especially for drying and / or fixing a textile web.

DE-A-22 01 731 describes a heat treatment of textile webs or the like certain device known in the air supply ducts for the above and arranged below the web transport level Nozzle box systems on one pressure side each Air outlet opening of a fan connected are, the fan wheel in two coaxially one behind the other Flow spaces is divided so that gives a kind of double fan, part of which a treatment air flow to the upper nozzle box system and the other part of a treatment air flow to lower nozzle box system - via trained in between Air supply channels - promotes. This is a double fan within the device housing in the area below the nozzle box systems and nearby the one longitudinal wall arranged and coaxial with two nested suction openings, one of which is connected to a separate intake duct with an air backflow space in Connection is established. The top and bottom nozzle box systems treatment air flows to be promoted in this way regulated and heated up separately become.

For the heat treatment of textile and similar webs are also different embodiments known from devices in which the upper and lower nozzle box systems to be fed separately Treatment gas flows in each longitudinal treatment section or treatment field from a separate Be generated in a separate fan Space is arranged below the nozzle box systems. For example, DE-C-578 282 discloses an embodiment where the one fan with the associated one pressure-side gas supply duct on one longitudinal wall of the housing and the second fan with his pressure-side gas supply duct approximately in the area of the longitudinal center the device is arranged, both fans from a common, single drive shaft are driven. In another embodiment (EP-B-0 471 162) are two in one treatment field Fans in an approximately chamber-like pressure box arranged. Both print boxes extend across the entire length of the treatment field and are in the transverse direction of the treatment field in a field half next to each other arranged, the two fans - viewed in the plan of the field length - approximately diagonally are offset from each other. For this reason, the Intake of the closer to the longitudinal wall of the housing Fan with the inside the treatment area existing gas backflow space via a separate Intake pipe connected to the pressure box of the other fan located further inside got to.

With a completely different, non-generic Drying device for webs (GB-A-633 292) are above and below no nozzle box systems on the web transport level provided with associated gas supply channels. The too drying fabric web is there rather in a treatment chamber first in the longitudinal direction by a upper treatment compartment, in which drying air is free is inflated to the top of the web, and then after redirection by a separate lower one Treatment compartment transported through in the again drying air on the top of the web is inflated. For this purpose, the top Treatment compartment a first fan and the lower one Treatment compartment assigned a second Ventialtor. Both fans are in the machine housing arranged on one long side and in pairs in one common spiral fan housing housed, which at the same time a kind of separation and Baffle between these two fans forms, so that the recirculating drying air flow of the first Fan the web only in the upper Treatment compartment and the recirculating drying air flow the second fan into the lower one Floor deflected web only in the lower treatment compartment can happen, the suction side of each Fan a separate suction or collection chamber is assigned for the returning air flow.

The invention has for its object a known device so that they are characterized by a special reliable separate gas supply from the two fans to the upper and lower nozzle box systems as well as a particularly favorable arrangement and placing these fans in a treatment field distinguished.

This object is achieved by the features of claim 1 solved.

Advantageous embodiments of the invention are the subject of subclaims.

In this device according to the invention are in one or both fans in each longitudinal treatment section close to the inside of the same housing wall and in the longitudinal direction of the device essentially one after the other, and here are the two gas supply channels in the area between the associated Pressure sides of the fans and inflow ends of the upper and lower nozzle box systems are each other arranged crossing. These crossing each other Gas supply channels thus make it possible for the upper and lower nozzle box systems - each individually from the associated fan - in the respectively required Wise and separately controllable with the treatment gas be supplied to this in an optimal way the corresponding side of the transported web to be able to inflate. On the other hand, both can Fans one behind the other in the longitudinal direction of the device, but as close as possible to the inside one and the same housing longitudinal wall arranged become. In this way, both fans and especially their drive motors from the outside this longitudinal housing wall relatively easily accessible, and In addition, the suction sides or suction openings both fans directly into the gas backflow space inside of the treatment longitudinal section directed his.

As the following explanations show, a Longitudinal treatment section in the sense of the present Invention can be of different sizes. To a first aspect of the invention provides that a gas intake duct on the intake sides of both fans connected and the or each longitudinal treatment section is formed by a treatment field, that in two consecutive in the longitudinal direction of the device, half fields of essentially the same size is divided, with a fan in each half field and the associated gas intake duct are housed and wherein upper and. assigned to the gas supply channels lower gas distribution boxes (which connect to the Incoming ends of the upper and lower nozzle box systems produce) essentially over both half fields, So extend essentially over the entire treatment field.

According to a second aspect of the invention, it can be multiple but also be advantageous if the heat treatment device through at least one treatment field is characterized in two in the longitudinal direction of the Device consecutive, essentially the same large and each forming a longitudinal treatment section Is divided into half fields, each with the fans connected in pairs one behind the other upper and lower gas distribution boxes essentially only over the length of the associated half field extend, being on the suction sides of the two Fans in each half-field have a common gas intake duct connected.

Whether or not each treatment longitudinal section in the present invention each through an entire treatment field or by one half field of a treatment field is formed, for example by the structural size of the heat treatment device, however also depend on how the treatment gas in the associated treatment longitudinal section to the respective Material web is to be inflated. In the latter There are two fans in each half-field associated gas supply channels and gas distribution boxes arranged. These components (fans, gas supply ducts and distribution boxes) can be structurally corresponding be made smaller than in the embodiment according to the first aspect (two fans in one Treatment area). In addition, the embodiment offers each half field with two fans (and corresponding accessories) the great advantage that very flexible and targeted to the respective treatment air or treatment gas requirement per half field responds can be, and it can be a relatively lossless Achieve energy efficiency, with the amount of treatment gas required in each case without the need of flaps in the gas supply channels very much easily and quickly with appropriate fan speeds can be adapted to current needs.

Fig. 1

eine Teil-Längsansicht der erfindungsgemäßen Behandlungsvorrichtung, insbesondere im Bereich eines ganzen Behandlungsfeldes;

Fig.2

eine Querschnittsansicht durch ein Behandlungsfeld im Bereich des ersten Ventilators, etwa entsprechend der Schnittlinie II-II in Fig.3;

Fig. 3

eine Teil-Grundrißansicht im Bereich eines oberen Gasverteilerkastens, etwa entsprechend der Linie III-III in Fig.2;

Fig.4

eine Querschnittsansicht durch ein Behandlungsfeld im Bereich des zweiten Ventilators, etwa entsprechend der Linie IV-IV in Fig.5;

Fig. 5

eine Teil-Grundrißansicht im Bereich eines unteren Gasverteilerkastens, etwa entsprechend der Linie V-V in Fig.4;

Fig.6

eine Teil-Grundrißansicht ähnlich der Fig.5, zur Erläuterung einer Ausführungsvariante hinsichtlich der Anordnung von Ventilator-Ansaugkanälen sowie der Ausbildung und Zuordnung von Filterflachsieben und einer Gaserhitzungseinrichtung;

Fig.7

eine Querschnittsansicht durch ein Behandlungsfeld eines weiteren Ausführungsbeispieles;

Fig.8 und 9

zwei Teil-Grundrißansichten etwa entsprechend den Linien VIII-VIII bzw. IX-IX in Fig.7;

Fig.10

eine Teil-Längsansicht eines weiteren Ausführungsbeispieles der Erfindung, insbesondere im Bereich eines ganzen Behandlungsfeldes, das in zwei Halbfelder unterteilt ist, die je einen erfindungsgemäß ausgeführten Behandlungs-Längsabschnitt bilden;

Fig.11

eine Querschnittsansicht etwa entlang der Linien XI-XI in den Fig. 10 und 12;

Fig.12

eine Teil-Grundrißansicht eines in zwei Halbfelder unterteilten Behandlungsfeldes, etwa im Bereich der Linie XII-XII in Fig.11.

The invention will be explained in more detail below on the basis of some particularly preferred exemplary embodiments. Show in this drawing

Fig. 1

a partial longitudinal view of the treatment device according to the invention, in particular in the area of an entire treatment field;

Fig. 2

a cross-sectional view through a treatment field in the region of the first fan, approximately corresponding to section line II-II in Figure 3;

Fig. 3

a partial plan view in the area of an upper gas distribution box, approximately along the line III-III in Figure 2;

Fig. 4

a cross-sectional view through a treatment field in the area of the second fan, approximately along the line IV-IV in Figure 5;

Fig. 5

a partial plan view in the area of a lower gas distribution box, approximately along the line VV in Figure 4;

Fig. 6

a partial plan view similar to Figure 5, to explain an embodiment variant with regard to the arrangement of fan intake ducts and the formation and assignment of flat filter screens and a gas heating device;

Fig. 7

a cross-sectional view through a treatment field of a further embodiment;

Fig. 8 and 9

two partial plan views approximately corresponding to lines VIII-VIII and IX-IX in Figure 7;

Fig. 10

a partial longitudinal view of a further embodiment of the invention, in particular in the area of an entire treatment field, which is divided into two half fields, each of which forms a longitudinal treatment section designed according to the invention;

Fig. 11

a cross-sectional view taken approximately along lines XI-XI in Figs. 10 and 12;

Fig. 12

a partial plan view of a treatment field divided into two half fields, approximately in the area of the line XII-XII in Fig.11.

In the case of those first described below with reference to FIGS. 1 to 9 Embodiments and variants each longitudinal treatment section - roughly accordingly the first aspect of the invention described above - formed by an entire treatment field.

A first embodiment of the invention Heat treatment device using FIGS. 1 to 5 described. Here, it is assumed that this heat treatment device in the form of a tensioning machine Drying and / or fixing textile webs is trained. In general, such a heat treatment device but also in any other suitable in their general structure and in their function known heat treatment device, for example a conveyor belt dryer or the like.

Because the general structure and function of such Prestressing machine is assumed to be known per se, is only one treatment field in the drawings with its training opportunities according to the invention illustrated; in principle this applies to all of the following examples described with reference to the figures.

Accordingly, only a partial longitudinal view is shown in FIG illustrates the tensioning machine according to the invention, namely with an entire treatment field 1, on the Longitudinal ends 1a and 1b each one - in the drawing only indicated - further treatment field 1 'or 1' 'connects, in this case every treatment field a longitudinal treatment section in the sense of the present Invention forms. In this context emphasizes that the tensioning machine according to the invention in extreme cases only one treatment field, e.g. the treatment field 1, but usually several such treatment fields contains that in the longitudinal direction of the device in immediate succession, i.e. with their Longitudinal ends are directly attached to each other so that one web to be treated WB all treatment fields 1, 1 ', 1' 'etc. one after the other in the direction of arrows 2 and thus the whole device or tensioning machine in Longitudinal direction or direction of transport passes. The Material web WB is spread out or kept wide State - as illustrated in Figures 2 to 5 - In the web transport plane shown in FIGS. 1, 2 and 4 with the help of suitable transport equipment transported with this tensioner by two usual, with a corresponding cross section circulating transport chains 3, 3a are formed, which are only hinted at in the drawing and capture the web WB on its longitudinal edges and during transport in a wide range or wide range Keep condition.

The following description will only still referred to the treatment field 1, wherein however, it should be emphasized that every other existing treatment field can be carried out exactly the same way.

The treatment field 1 is with or in a housing 4 formed, the two in the longitudinal direction Longitudinal aligned walls 4a and 4b and contains a top wall 4c.

In the (each) treatment field 1, specifically in the housing 4 are above and below the web WB and the thus defined web transport level (cf. Fig.1, 2 and 4) across the treatment range extending nozzle box systems arranged in the present Trap in a manner known per se on the one hand through a group of parallel ones upper nozzle boxes 5 and on the other hand by a group of parallel lower nozzle boxes 6 is formed, although other nozzle box systems (for example, a single nozzle box above each and below the web) could be provided.

There are also two fans 7 in the treatment field 1 and 8 provided for the generation of treatment gas or. Treatment air flows are formed by the upper and lower nozzle boxes 5 and 6 on the Inflated top and bottom of the web WB become. The print page is for this purpose (Outflow opening) 7a of the first fan 7 via a first gas supply duct (or air supply duct) 9 with the Incoming 5a of the upper nozzle boxes 5 and the pressure side (Downstream side) 8a of the second fan 8 via a second gas supply duct (or air supply duct) 10 with the inflow ends 6a of the lower nozzle boxes 6 in Connection (see in particular Fig. 1, 2 and 4). To the Intake sides (intake openings) 7b and 8b of both fans 7, 8, a gas intake duct 11 or 12 is connected.

As in Figures 2 to 5 (and also in all subsequent Figures) are shown in the (each) treatment field 1 both fans 7, 8 near the inside 4a 'of the same longitudinal housing wall 4a (each in the drawing the left longitudinal wall of the housing) and in the longitudinal direction the device (see e.g. Fig. 1, 3 and 5) essentially arranged in a row, which means that both fans 7, 8 as close as possible or structurally justifiable installed next to this inside 4a ' are, with their drive motors 7c and 8c essentially outside of this longitudinal housing wall 4a are arranged. So that the second fan 8 with the second gas supply channel 10 somewhat cheaper the lower nozzle boxes 6 can be positioned (whereupon will be discussed later), is the one holding it Wall section 4a '' opposite the other longitudinal wall of the housing 4a indented a little (towards the Interior of the housing), as is particularly the case in FIGS. 4 and 5 is shown.

According to the invention it is further provided that the two Gas supply channels 9, 10 - approximately dashed in that in Fig.1 shown way - in the area between each associated pressure sides 7a and 8a of the fans 7, 8 and the respective corresponding inflow ends 5a and 6a of the upper and lower nozzle boxes 5, 6 themselves are arranged crossing each other. In this context it should be noted that - as from Fig.1 visible - the upper ones lying parallel next to each other Nozzle boxes 5 with substantially equal distances from each other in about the whole Length of the field 1 extending group arranged together are; and so are the lower ones Nozzle boxes 6 arranged in a lower nozzle box group, which are also essentially about the entire length of this field 1 extends. Accordingly, all upper nozzle boxes 5 of these upper Group by the first fan 7, on the one hand, and all lower nozzle boxes 6 of the lower group through the second fan 8, on the other hand, each reliably and to be able to supply treatment gas evenly, are the upper sections of both gas supply channels 9, 10 each in the form of itself in the longitudinal direction of the device or the treatment field 1 widening upper and lower gas distribution boxes 9a and 10a. Here are the inflow ends 5a of the upper nozzle boxes 5 together on the upper gas distribution box 9a and the inflow ends 6a of the lower nozzle boxes 6 together connected to the lower gas distribution box 10a, these two gas distribution boxes 9a, 10a are essentially one above the other and essentially run horizontally and parallel to each other, as in Fig. 1, partly but also in Figures 2 and 4 is recognizable. At least from these Figs. 1, 2 and 4 it can also be seen that one of the pressure side 7a of the first Fan 7 substantially vertically upwards extending section 9b of the first gas supply duct 9 the second gas supply channel 10 in the area of the associated lower gas distribution box 10a crosses while doing so between this lower gas distribution box 10a and the Inside 4a 'of the associated longitudinal housing wall 4a led up to the upper gas distribution box 9a is.

With the training field described so far 1 it is also considered appropriate if there are two in the longitudinal direction of the device or of the field consecutive, essentially the same large (equally long) half fields (field halves) 21, 22 is divided. In each of these half fields 21, 22 are one of the fans 7 and 8 and the associated one Gas intake duct 11 or 12 (with associated others Facilities, as will be explained later). With this training, however, the upper and lower gas distribution boxes 9a, 10a essentially over both half fields 21, 22, essentially over the entire length of the treatment field 1. Looking at the partial longitudinal view according to 1 and the plan views according to FIGS. 3 and 5, the treatment field 1 then has two of the same size Half fields 21 and 22 on that with respect to one the field subdivision defined cross median plane 1c of the Field 1 are arranged symmetrically to each other.

A peculiarity of this first embodiment will be explained below with reference to Figures 2 to 5. After that is the (each) treatment field 1 in relation to one through the longitudinal center of the transport device (Transport chains) 3, 3a vertical going through Longitudinal median plane 1d executed asymmetrically. The treatment field 1 is under training in this case of an enlarged gas flow cross section at least in the upper gas distribution box 9a of the first gas supply channel 9 in the area of the Ventialtoren 7, 8 containing Longitudinal wall 4a widened on one side, i.e. in relation on the representations in Figures 2 to 5 is the left longitudinal section located next to the longitudinal center plane 1d of field 1 a little wider than that Longitudinal section located to the right of the longitudinal median plane 1d. This way it becomes a big enough one Gas distributor or gas flow cross section for the upper one Gas distribution box 9a and thus for a special one reliable supply of the treatment gas to the attached upper nozzle boxes 5 created. The total height H of field 1 and thus of the stenter can thereby the usual height dimensions correspond to known tensioners.

With this asymmetrical cross-section can in turn be any number of like executed treatment fields 1, 1 ', 1 "etc. immediately successively, i.e. approximately in modular form a straight row, so assembled that the fans 7, 8 of all treatment fields 1, 1 ', 1 " close to or on the same longitudinal housing wall 4a (as above explained) are arranged, the to be treated WB goods web successively through all treatment fields is transported through.

2 and 3 on the one hand and the Fig. 4 and 5 on the other hand, you can quite well the arrangements and proportions of the essentially parallel and horizontal and largely immediate overlapping upper and lower gas distribution boxes 9a and 10a of the two gas supply channels 9 and 10 and the associated fans 7 or 8 recognize. 2 shows a cross-sectional view through the half field 21, which among other things the first fan 7, the associated first gas supply duct 9 and a partial longitudinal section of the associated contains upper gas distribution box 9a. Fig.3 shows in Adaptation to a partial floor plan view in the area this upper gas distribution box 9a, for the better Recognized here, roughly hatched, highlighted is.

In contrast, Figure 4 shows a cross-sectional view through the other half field 22, which i.a. the second Fan 8, the second gas supply duct connected to it 10 and the corresponding longitudinal section of the associated lower gas distribution box 10a contains. This lower gas distribution box 10a is in partial plan view 5 by a dashed line Slanted hatching slightly highlighted.

At this point, let's also look at a second embodiment the tensioning machine or the (each) treatment field received that with reference to Figures 7 to 9 is illustrated. Since this second embodiment essentially only through the cross-sectional designs of the two gas supply channels and one small deviation in the arrangement of the second fan from the basic version of the first embodiment (Fig. 2 to 5) differs, are based on this Fig. 7 to 9 only the most important parts and differences explained.

A basic difference between the first embodiment and this second embodiment especially in a symmetrical design of the (each) treatment field 101 with respect to that through the longitudinal center the transport devices / transport chains 3, 3a vertical vertical median plane 101d seen therethrough. This means that - based on the representation in Fig. 7 - the left of the median longitudinal plane 101d located longitudinal section of the treatment field 101 or the housing 104 in cross section just as large is like that to the right of the median longitudinal plane 101d Longitudinal section. In this case too sufficiently large or enlarged in the necessary manner Gas flow cross section at least in the upper one Gas distribution box 109a of the first gas supply channel 109 To create, this upper gas distribution box is over the upper sides 5b of the inflow ends 5a on the upper nozzle boxes 5 increased in the required manner (compared to that previously explained with reference to FIGS. 2 to 5 asymmetrical design with height H). It may also be useful for the lower gas distribution box 110a of the second gas supply channel 110 compared to the design according to Fig. 2 to 5 to make it a little higher, to thereby a sufficiently large flow cross section for the vertical channel section 109b of the first gas supply channel 109 to create, which in turn in this case between the lower gas distribution box 110a and the inside 104a 'of the associated first fan 7 runs upwards.

Similar to Figures 3 and 5 is for this second Example in partial floor plan views in each case the Formation and arrangement of the gas distribution boxes 109a and 110a by roughly dashed oblique hatching somewhat highlighted, namely in Fig.8 with the first Fan 7 connected upper gas distribution box 109a and in FIG. 9 the one connected to the second fan 8 lower gas distribution box 110a.

This symmetrical design of every treatment field 101 is used in a particularly advantageous manner Possibility created in a relatively long stenter (Heat treatment device), i.e. with a relatively large number of similarly designed, immediately successive treatment fields 101, each in the longitudinal direction of the device neighboring or successive To turn treatment fields 101 against one another or to counter, causing the fans 7, 8 to each one or the other long side of the entire treatment device are arranged. As is well known, this leads along the entire length of the device particularly uniform heat treatment of a web, if these successively through all treatment fields is transported through.

As can also be seen in particular from FIGS. 8 and 9 lets, in this second embodiment, everyone Fan 7 and 8 in the same way as tight as possible on the inside 104a 'of the associated longitudinal housing wall 104a without being placed for the second fan 8 - as in the first embodiment - a wall section should be offset somewhat inwards got to.

2 to 6 are some below preferred embodiments for training and arrangement the one on the suction sides 7a and 7b of the two Fans 7, 8 connected intake ducts 11 and 12 and the associated facilities explained. It will be based on the above descriptions of the Fig. 2 to 5, i.e. linked to treatment area 1, also with regard to the partial plan view in Fig. 6.

With the help of FIGS. 2 and 4 (and equally based on 1 and 7) it should first be pointed out that in all embodiments the fans 7, 8 and those on the suction sides 7b and 8b of these fans connected intake ducts 11, 12 themselves Area below the group of lower nozzle boxes are located. Each intake duct 11, 12, which is preferably is designed in the form of a separate intake pipe, extends from the suction side 7b or 8b of the associated fans 7, 8 approximately in the transverse direction the opposite housing longitudinal wall 4b (104b), wherein its suction end adjacent to this housing longitudinal wall 4b 11a and 12a a filter device and a Heating device are assigned, followed by in the different execution options in individual is received. But it is already here noted that in all different embodiments, as shown in particular in FIGS. 3, 5 and 6 are illustrated, the suction ends 11a, 12a of the two Intake channels 11, 12 with their associated Filter screens and gas heating devices in treatment field 1 with respect to the cross median plane 1c are arranged symmetrically to one another (cf. again Fig. 3, 5 and 6).

If you look at the partial floor plan in the sense of what was said 3, then there are, accordingly a first embodiment, the suction 11a, 12a of the two intake ducts 11, 12 and associated ones Filter screen devices, namely a first filter screen device 13 and a second filter screen device 14 in each case close to a longitudinal end 1e or 1f of this treatment field 1 and approximately parallel to it arranged. The two filter screens 13, 14 will be carried out similarly in practice. The 3 are the two filter sieve devices 13, 14 only to show different ones Execution options executed differently, namely with respect to the first filter screen device 13 assumed that - as known per se - Contains a rotary drivable circular sieve 13a (which can be cleaned using suction nozzles if it continuously or at certain cleaning intervals is driven), while in the second filter screen 14 it is assumed that they are two of the associated housing longitudinal wall 4b ago interchangeable (insertable and extractable) flat sieves contains in the form of plug-in sieves 14a. As before has also been mentioned, each suction end 11a or 12a of the gas intake channels 11, 12 expediently one Associated gas heating device. With all described here Embodiments are for the sake of simplicity assumed that each heater by a corresponding burner device (as known per se) 15 is formed. In the embodiment according to 3 protrudes this burner device 15 in front each filter device 13, 14 from the adjacent longitudinal wall of the housing 4b into it.

5 differs from the previously described with reference to Figure 3 in that the Intake ends 11a, 12a of the two intake channels 11, 12 and the associated filter device 13, 14 each in the Proximity of the transverse center plane 1c of the treatment field 1, however, also in the corresponding half field 21 and 22 are arranged. These aspirators 11a, 12a can again be substantially parallel to each other on both sides of the transverse center plane 1c of the treatment field 1 lie. Also protrude in this case the burner devices 15 from the adjacent longitudinal wall of the housing 4b ago in the associated filter devices 13 or 14. A special advantage results 5 in this embodiment according to FIG. that the generally in the area of the longitudinal ends 1e and 1f of each treatment field 1 arranged side adjustment devices (with spindles and the like) freely accessible for maintenance and possible repair purposes are.

The suction ends are also in the embodiment according to FIG 11a and 12a of the two intake ducts 11, 12 and associated filter devices 14 each in the Arranged near the transverse center plane 1c of the treatment field 1. Both filter screens 14 can in be carried out in the same way in this case. Any filter screen device Accordingly, 14 in turn contains two flat sieves designed in the form of plug-in sieves 14a, those from the adjacent longitudinal wall 4b are interchangeable (as explained above) and each against the free gas backflow space within of the associated half field 21 or 22 (same as in the previous embodiments the case is). The push-in or flat sieves 14a can, however, in a suitable manner and as in Figure 6 illustrates with respect to the cross median plane 1c inclined or aligned at the same angle his.

However, it is of particular importance in the case of FIG. 6 also that the screen-free backs facing each other 11a 'and 12a' of the two channel suction ends 11a, 12a at least near the associated longitudinal wall of the housing 4b are in open communication with each other. This is a prerequisite for the intake 11a, 12a only one, two intake ducts 11, 12 common Heating device in the form of a burner device 15 can be assigned by this longitudinal wall of the housing 4b forth in the connection area mentioned protrudes between the two suction ends 11a and 12a.

In this embodiment according to FIG the advantage of free accessibility in the area of the longitudinal ends 1e and 1f of the treatment field 1 Width adjustment devices still have the advantage a single (common) gas heating device 15 added.

Another embodiment of the invention Heat treatment device or tenter described below with reference to FIGS. 10, 11 and 12. A main difference to those previously shown in FIGS. 1 to 9 The exemplary embodiments explained are that the tenter has at least one treatment field 201, but preferably several of the same type and - similarly as described before - immediately ' successively arranged treatment fields 201 contains and each treatment field 201 in two Longitudinal direction of the tenter, successive, in subfields 221 and 222 of essentially the same size are divided is, according to the invention one in each of these examples form executed treatment longitudinal section. Since each treatment half field 221, 222 in Principle one - in the longitudinal direction of the device - something reduced or halved embodiment of a treatment field previously described with reference to FIGS. 1 to 9 (1 and 101) are simplicity for the sake of all in these treatment half fields 221, 222 housed device parts that are similar to in the previous examples (especially Fig.1 to 5) are added with the same reference numerals of a line, so that another detailed explanation of these device parts are omitted can.

Accordingly, in the common housing 4 'of the each treatment field 201 the two in principle similarly constructed or trained half fields 221, 222 provided. Each half field contains 221 and 222, respectively thus two fans 7 ', 8', each in pairs one behind the other in the longitudinal direction of the device arranged and on the inside of the same housing longitudinal wall 4'a (in half field 221) or 4'b (in half field 222) are arranged one behind the other. With the influx 5'a of the upper nozzle boxes 5 'is in each case the first fan 7 'in fluid communication, and via the first gas supply channel 9 'assigned to it and its upper gas distribution box 9'a. The each second fan 8 'is above the associated second one Gas supply duct 10 'with the inflow ends 6'a of the lower one Nozzle boxes 6 'connected. As can be seen in Fig. 10 and 12 are in a corresponding manner in each half field 221, 222 in turn the two gas supply channels 9 ', 10 'in the area between the respectively associated printed pages 7'a and 8'a of the fans 7 ', 8' and the inflow ends 5'a and 6'a of the upper and lower nozzle box systems 5 ', 6' arranged crossing each other (as described above in particular with reference to FIGS. 1 to 5 in connection with an entire treatment field in the individual is explained).

While in the previous examples (Fig.1 to 9) each fan has a separate gas intake duct is assigned, in the example according to FIG to 12 preferred, on the suction sides 7'b and 8'b of two fans 7 ', 8' of each half-field 221, 222 to connect a common gas intake duct 212 which themselves below the lower nozzle boxes 6 '- similar as in the previous examples - across the treatment device after the opposite Longitudinal side 4'a or 4'b extends where, respectively the corresponding suction end 212a is provided. This suction end 212a is then in turn corresponding trained and adapted filter screen device 13 'assigned. In the representation in Fig.12 one can further recognize that the gas intake passage 212 in each Area of its suction end 212a a reduced Has cross-section while in the area of the two sufficient fans 7 ', 8' to be supplied together is widened. In this broadened section of the gas supply channel 212 can - as in the Fig. 11 and 12 indicated - a suitable gas heating device 15 'may be arranged. Instead, or in addition to this, however, it can also be useful on the front side in each rotary sieve that can be driven executed filter screen device 13 'a gas heating device in the form of a burner device 15 " to be provided by the adjacent longitudinal wall of the housing 4'a or 4'b on the end face into the filter screen device 13 'or into the suction end 212a of the gas suction channel 212 protrudes.

In Figure 12 it is also illustrated that this too Embodiment the treatment longitudinal sections forming half fields 221 and 222 are all of the same design and appropriate in immediate succession can be assembled so that each in Longitudinal direction of the device adjacent to each other or successive half fields 221, 222 against each other are twisted or countered, which means that in pairs coordinated fans 7 ', 8' each alternately on one or the other side of the housing or longitudinal wall 4'a or 4'b are provided.

In all of the previously described embodiments expediently ensured that the fans or Circulating air fans to the corresponding nozzle box systems or nozzle box groups flowing treatment gas flows (Drying air flows) immediately if necessary can be interrupted. For example, this is required if during treatment, e.g. Drying, a textile web of web transport e.g. through an emergency stop is coming. To at such a standstill of the goods transport damage to the web e.g. by a To avoid over-drying, it is necessary to reduce the treatment gas flow around the upper and lower nozzle boxes, e.g. 5, 6 to bypass as the bypass flow Fans cannot be stopped so suddenly.

For the reasons mentioned above is in the gas supply channels 9, 10 or 9 ', 10' or in the associated upper and lower gas distribution boxes 9a, 10a and 9'a, 10'a each have a bypass flap or switch flap 16, 17 arranged as shown in FIGS. 2, 4 and 11 is indicated. These switching flaps can be used accordingly the double arrows 16a and 17a there between two positions can be adjusted, between the 2, 4 and 11 each illustrated open positions, in which the associated inflow ends 5a, 6a and 5'a, 6'a of the upper and lower nozzle boxes 5, 6 or 5 ', 6' are released, and one of these inflows 5a, 6a, 5'a, 6'a blocking bypass position, in which the incoming treatment gas is then placed Bypassing these nozzle boxes 5, 6, 5 ', 6' directly in one formed within the housing 4 or 4 ' Gas Rückströmraum 18 can be deflected with the Intake ends of the associated gas intake ducts 11, 12 or 212 is in flow communication.

Claims (18)

1. An apparatus for the heat-treatment of a fabric web (WB), especially for drying and/or fixing a textile fabric web, comprising a housing (4, 104, 4') and, constructed with the latter, at least one treatment length (1, 1', 1'', 101, 221, 222) through which the fabric web can be transported in the outspread state, in which nozzle box systems (5, 6, 5', 6') extending across the treatment width above and below the transport plane of the fabric web and two fans (7, 8, 7', 8') for producing streams of treatment gas which are to be blown onto the upper side and the lower side of the fabric web (WB) are arranged, the delivery side (7a, 7'a) of the first fan (7, 7') being connected via a first gas supply channel (9, 109, 9') to the inflow end (5a, 5'a) of the upper nozzle box system (5, 5') and the delivery side (8, 8'a) of the second fan (8, 8') being connected via a second gas supply channel (10, 110, 10') to the inflow end (6a, 6'a) of the lower nozzle box system (6, 6'), wherein,
   in the or each treatment length (1, 101, 221, 222), both fans (7, 8, 7', 8') lie at the inside (4a', 104a') of the same longitudinal wall (4a, 104a, 4'a) of the housing and substantially one behind the other in the longitudinal direction of the apparatus, and the two gas supply channels (9, 10, 109, 110, 9', 10') are arranged to cross each other in the region between the respectively associated delivery sides (7a, 8a, 7'a, 8'a) of the fans and the inflow ends (5a, 6a, 5'a, 6'a) of the upper and lower nozzle box systems (5, 6, 5', 6').
2. An apparatus according to claim 1, wherein the upper nozzle box system is formed by a group of upper nozzle boxes (5, 5') lying side by side in parallel, and the lower nozzle box system is formed by a group of lower nozzle boxes (6, 6') lying side by side in parallel, characterised in that the upper portions of both gas supply channels (9, 10, 109, 110, 9', 10') are constructed in the form of upper and lower gas distribution boxes (9a, 10a, 109a, 110a, 9'a, 10'a) that become wider in the longitudinal direction of the apparatus, the inflow ends (5a, 5'a) of the upper nozzle boxes (5, 5') being connected in common to the upper gas distribution box (9a, 109a, 9'a) and the inflow ends (6a, 6'a) of the lower nozzle boxes (6, 6') being connected in common to the lower gas distribution box (10a, 110a, 10'a), and those two gas distribution boxes lying substantially one above the other and extending substantially horizontally and parallel to each other.
3. An apparatus according to claim 2, characterised in that a portion (9b) of the first gas supply channel (9, 109) extending substantially vertically upward from the delivery side (7a) of the first fan (7) crosses the second gas supply channel (10, 110) in the region of the lower gas distribution box (10a, 110a) and in so doing is led upward to the upper gas distribution box (9a, 109a) between that lower gas distribution box and the inside (4a', 104a') of the longitudinal wall (4a, 104a) of the housing.
4. An apparatus according to claim 3, wherein a transport device (3, 3a) is provided by means of which the fabric web (WB) can be transported through the apparatus in the longitudinal direction, characterised by an asymmetrical construction of the or each treatment length (1) with respect to a vertical longitudinal central plane (1d) extending through the longitudinal centre of the transport device (3, 3a), the treatment length (1) being widened on one side, forming an enlarged gas flow cross-section at least in the upper gas distribution box (9a) of the first gas supply channel (9) in the region of the adjacent longitudinal wall (4a) of the housing.
5. An apparatus according to claim 4, characterised in that a number of treatment lengths (1, 1', 1'') constructed in the same manner directly follow one another and are assembled in such a manner that the fans (7, 8) of all the treatment lengths are arranged close to the same longitudinal wall (4a) of the housing and the fabric web (WB) to be treated can be transported through all of the treatment lengths one after another.
6. An apparatus according to claim 3, wherein a transport device (3, 3a) is provided by means of which the fabric web (WB) can be transported through the apparatus in the longitudinal direction, characterised by a symmetrical construction of the or each treatment length (101) with respect to a vertical longitudinal central plane (101d) extending through the longitudinal centre of the transport device (3, 3a), the height of the upper gas distribution box (109a) of the first gas supply channel (109) being extended above the upper sides (5b) of the upper nozzle boxes (5), providing an enlarged gas flow cross-section at least in that upper gas distribution box (109a).
7. An apparatus according to claim 6, characterised in that a number of treatment lengths (101) constructed in the same manner are assembled one directly after another, and the treatment lengths that are adjacent to one another in the longitudinal direction of the apparatus are rotated relative to one another in such a manner that the fans (7, 8) placed together in pairs are provided alternately on the one or the other longitudinal wall (104a or 104b) of the housing, and the fabric web (WB) to be treated can be transported through all of the treatment lengths one after another.
8. An apparatus according to claim 1 or 3, characterised in that a respective gas intake channel (11, 12) is connected to the intake sides (7b, 8b) of both fans (7, 8), and the or each treatment length is formed by a treatment section (1, 101) that is divided into two half-sections (21, 22) of substantially equal size which follow one another in the longitudinal direction of the apparatus, one fan (7, 8) and the associated gas intake channel (11, 12) being arranged in each half-section, and upper and lower gas distribution boxes (9a, 10a, 109a, 110a) associated with the gas supply channels (9, 10, 109, 110) substantially extending over both half-sections.
9. An apparatus according to claim 1 or 3, characterised by at least one treatment section (201) that is divided into two half-sections (221, 222) of substantially equal size which follow one another in the longitudinal direction of the apparatus and each of which forms one treatment length, in which half-sections (221, 222) upper and lower gas distribution boxes (9'a, 10'a) respectively connected to the fans (7', 8') arranged one behind the other in pairs substantially extend only over the length of the associated half-section, a common gas intake channel (212) being connected to the intake sides (7'b, 8'b) of the two fans (7', 8') of each half-section (221, 222).
10. An apparatus according to claim 8 or 9, characterised in that the fans (7, 8, 7', 8') and the intake channels (11, 12, 212) are situated in the region beneath the lower nozzle box group (5, 5') and those intake channels (11, 12) extend from the intake sides (7b, 8b, 7'b, 8'b) of the fans, approximately in the transverse direction, to the opposite longitudinal wall (4b, 104b, 4'b) of the housing, there being associated with the intake channels a gas-heating device (15, 15', 15'') and, at their intake ends (11a, 12a, 212a) adjacent to that longitudinal wall of the housing, a filter screen device (13, 14, 13').
11. An apparatus according to claim 10, characterised in that the gas-heating device (15') is arranged inside the associated intake channel (212) in the region between the intake side (7'b, 8'b) of the fans (7', 8') and the filter screen device (13') or also in the region of the intake end (212a) of the intake channel.
12. An apparatus according to claim 11, characterised in that the intake ends (11a, 12a) of the two intake channels (11, 12), together with their associated devices (13, 14, 15), are arranged in the treatment section (1) substantially symmetrically to each other with respect to transverse central plane (1c) defined by the division of the section.
13. An apparatus according to claim 11, characterised in that the intake ends (11a, 12a) of the two intake channels (11, 12) and the associated filter screen devices (13, 14) lie close to a respective longitudinal end (1e, 1f) of the treatment section (1) and approximately parallel thereto.
14. An apparatus according to claim 11, characterised in that the channel intake ends (11a, 12a) and the associated filter screen devices (13, 14) are arranged in proximity to the transverse central plane (1c) of the treatment section (1).
15. An apparatus according to claim 13 or 14, characterised in that each filter screen device (13, 14) contains a cylindrical screen (13a) which is drivable in rotation or two flat screens (14a) that can be interchanged from the associated longitudinal wall (4b) of the housing.
16. An apparatus according to claim 15, characterised in that a gas-heating device, preferably in the form of a burner device (15), projects into the end of each filter screen device (13, 14) from the adjacent longitudinal wall (4b) of the housing.
17. An apparatus according to claim 12, characterised by the following further features in each treatment section (1):

    a) the intake ends (11a, 12a) of the two intake channels (11, 12) and the associated filter screen devices (14) are arranged in proximity to the transverse central plane (1c) of the treatment section (1);

    b) each filter screen device (14) contains two flat screens (14a) which can be interchanged from the adjacent longitudinal wall (4b) of the housing and each of which faces towards the free gas return chamber inside the associated half-section (21, 22);

    c) the mutually opposing screen-free rear sides (11a', 12a') of the two channel intake ends (11a, 12a) are in open communication with each other at least in the vicinity of the associated longitudinal wall (4b) of the housing, a single heating device, preferably in the form of a burner device (15), which is common to both intake channels (11, 12) projecting into that communicating region from that longitudinal wall of the housing.
18. An apparatus according to claim 1 or 2, characterised in that, in the gas supply channels (9, 10, 9', 10') or in the upper and lower gas distribution boxes (9a, 10a, 9'a, 10'a), a respective change-over valve (16, 17) is arranged which is movable between an open position which uncovers the associated inflow ends (5a, 6a, 5'a, 6'a) of the upper and lower nozzle boxes (5, 6, 5', 6') and a by-pass position which closes those inflow ends and in which the inflowing treatment gas can be diverted, by-passing the nozzle boxes, directly into a gas return chamber (18) inside the housing (4, 4').

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