DD255201A1 - DEVICE FOR THE HEAT TREATMENT OF TRACKS, IN PARTICULAR TEXTILE TRACKS - Google Patents

Abstract

The invention relates to a device for heat treatment of webs, especially textile webs, with a gaseous treatment agent, for. B. a tension-dry-fixing machine. It is an object of the invention to improve the ratio of the width of the device to the width of the treated web. The invention has for its object to design for the wear of the environment of the Duesenkaesten by the treatment agent enabling Bypassoeffnungen serving flaps so that the depth of the Gebläesen and Duesenkaesten arranged Druckkaesten can be significantly reduced without reducing the quality of treatment. According to the invention, this object is achieved in that the pivot axis of the at least one flap is further away from the blower than the closest outlet opening of the nozzle surface of the respective nozzle box. Fig. 2

Description

Field of application of the invention

The invention relates to a device for heat treatment of webs, especially textiles, with a gaseous treatment agent, ie z. B. a tension-dry-fixing machine.

Characteristic of the known state of the art

Devices for heat treatment of webs, in particular textile webs, with a gaseous treatment agent, which is blown from below and / or above these webs arranged nozzle boxes against those are well known. In general, these nozzle boxes are connected in groups to pressure boxes connected to a fan, from which they are fed with the treatment agent. After hitting the web, the treating agent flows back to the fan in the return flow space surrounding the nozzle box. In the case of an undesirable stoppage of the web, there is a risk in such devices that the hot treatment agent which continues to impinge on the web leads to overdrying of the web, possibly also to the emergence of quality-reducing markings. To counter this, but also to avoid throttling the heat and the Behandlungsmittelumwälzung at short web downtime, it is already known to introduce in the nozzle box upstream of the pressure boxes directly to Rückströmraum pointing bypass openings. These are closed during normal operation by a hinged flap, which closes the access from the pressure box to the nozzle boxes in the case of a web standstill, the bypass opening hereby releases and thus allows the treatment agent the opportunity, bypassing the nozzle boxes to flow immediately through the Rückströmraum back to the blower ( DD-WP 208210).

Due to the fact that the nozzle box at its Einblasseite have a high height to blow the treatment agent approximately perpendicular to the web, the flap and the pivoting range required by her are formed correspondingly large. But this also requires a considerable depth of the pressure box, which means that the machine width is very large in relation to the width of the treated web. This makes the machine more expensive and increases the space requirement for the user.

Object of the invention

It is an object of the invention to improve the ratio of the width of the heat treatment device to the width of the treated web.

Explanation of the essence of the invention '.

The invention has for its object to make the closing of the environment of the nozzle boxes by the treatment agent enabling bypass openings serving flaps so that the depth of the arranged between blowers and nozzle box pressure boxes without reducing the quality of treatment can be significantly reduced. , -

According to the invention, this object is achieved in that the pivot axis of the at least one flap is further away from the fan than the nearest outlet opening of the nozzle surface of the respective nozzle box. Further features of the invention include claims 2 to 14.

The invention makes it possible to significantly reduce the width of the treatment device, while still preventing in the case of a stoppage of the web, the treatment agent at the entrance to the nozzle boxes and thus hitting the web, without interrupting the actual supply of the treatment agent from the fan. Furthermore, the pivoting angle of the flaps is significantly reduced, which leads to a significant reduction in the pivoting time when the need to block the nozzle boxes. The invention also enables a simplification of the flow path and thus one of the flow resistance in guiding the treatment agent through the bypass opening.

embodiment

The invention will be explained in more detail with reference to an embodiment. The accompanying drawings show in

1 shows a section through a heat treatment device according to the invention transversely to the direction of movement of

Web, Figure 2 to 5: two further embodiments of designed according to the invention nozzle arrangements in each one

Cross-section analogous to FIG. 1 and a plan view, FIG. 6: a further embodiment in cross-section,

7 to 10: two other embodiments of the invention in each case a representation of the operating and the blocking position and in Fig. 11: a further embodiment in cross section

Heat treatment devices of the invention in question have within a heat-insulating housing 1, a nozzle assembly for acting on a web 2 with a gaseous treatment agent. This consists i.allg. arranged from above and / or below the surface of the device continuous web 2 arranged nozzle box 3. The latter are preferably connected in groups to a pressure box 4, which in turn is in communication with the pressure side of a fan 5. The fan 5 are arranged in the required number of heat exchangers 6 for heating the treatment agent. On their side facing the web 2, the nozzle box 3 each have a nozzle surface 7 provided with outlet openings. The nozzle surface 7 opposite ceiling 8 runs mostly obliquely to this, wherein the distance to the end facing away from the fan 5 end of the nozzle box 3 decreases towards. Ceiling 8 and nozzle surface 7 are connected by side walls 9, which separate the interior of the nozzle boxes 3 of extending therebetween Rückströmkanälen 10, the part of the nozzle box 3 surrounding and m the long side of the fan 5 connected

Rückströmraumes 11 are.

However, the invention also relates to nozzle arrangements which are not arranged with between the nozzle box

Return flow channels are formed. In these treatment devices, the nozzle boxes extend over the entire treatment surface, and the treatment agent is otherwise z. B. discharged parallel to the web. In order to avoid overdrying or deterioration of the same at a standstill of the web 2, bypass openings 12 are provided, which in such cases allow the treatment agent to flow directly from the fan 5 into the return flow chamber 11. The bypass openings 12 are associated with flaps 13, which close the bypass openings 12 during the undisturbed treatment of the web 2 in an operating position. At standstill of the web 2, the flaps 13 move into a blocking position in which they prevent inflation of the treatment agent from the nozzle boxes 3 on the web 2. According to the invention, these flaps are arranged so that their pivot axis 14 is further away from the fan 5 as this closest outlet opening 15 of the nozzle surface. 7

In the embodiment of FIG. 1, this is realized in such a way that the pivot axis 14 in each case at the interface of the ceiling 8 and nozzle surface 7, ie at the end remote from the fan 5 of the nozzle box 3, is located. In this way, the entire ceiling 8 of the nozzle box 3 is simultaneously formed as a flap 13 which completely covers the nozzle surface 7 in the blocking position shown in the lower half of FIG. 1 and thus releases the entire ceiling surface as a bypass opening 12. This embodiment is particularly suitable for the treatment of narrow webs 2 or devices in which nozzle boxes 3 extend from both sides to the middle of the web 2.

As shown in Figures 2 and 3, the pivot axis 14 of the flap 13 may also be arranged on the ceiling 8 and only a part of the ceiling 8 may be formed as a flap 13. The bypass opening in this case extends exclusively in the area of the blower 5 facing half of the web 2 arranged. The flap 13 forms in the blocking position shown with reference to the upper nozzle box 3 an inclined wall, the contact line with the nozzle surface 7 closer to the fan 5 than the pivot axis 14 and the blower 5 nearest outlet opening 15. The plan view of Figure 3 reveals that In this embodiment, each of the nozzle boxes 3 connected to the pressure box 4 has its own flap. The running between the nozzle boxes 3 return flow channels 10 therefore extend in the area of the ceiling 8 up to the pressure box 4 zoom.

In contrast, extends in the embodiment of Figures 4 and 5, the bypass opening 12 into the ceiling 16 of the pressure box 4 inside. In addition (but this is not exclusively tied to this version) not every nozzle box 3 has its own flap 13, but all, each on one side of the web 2 connected to the pressure box 4 nozzle boxes 3 is associated with a common flap 13, the respective Bypaßöffnungen 12 closes in the operating position. In the locked position, the flap 13 also forms, as already described above, in each nozzle box 3 an access blocking oblique wall. The return flow channels 10 are limited in this embodiment in the area of the bypass openings by the flap 13, but this has no significant influence on the outflow of the treatment agent from the web 2. FIG. 4 also illustrates, on the basis of the lower nozzle box 3, that the flap 13 can be designed not only as a planar but also as a spatial element, in that its surface forming the inclined wall in the blocking position and the surface facing the return flow channels 10 are non-zero Angle to each other.

Furthermore, Fig. 6 shows a variant in which the pivot axis 14 of the flap 13 is arranged at the intersection of the ceiling 8 of the nozzle box 3 and the ceiling 16 of the pressure box 4. The bypass opening 12 extends herein known manner exclusively in the ceiling 16 of the pressure box 4, which, however, can be significantly reduced in depth as a result of the inventive arrangement of the flap 13.

Finally, Figures 7 and 8 show an embodiment of the invention in which, in the blocking position, the oblique walls closing the access to the pressure boxes 3 are formed by a plurality of overlapping, preferably jointly movable flaps 13a, 13b and 13c. Whose pivot axes 14a, 14b, 14c are all according to claim 1 arranged so that they are farther away from the fan 5 as this next-lying outlet opening 15 of the nozzle surface 7. The bypass opening 12 is disposed in the ceiling 16 of the pressure box 4. In the operating position according to FIG. 8, the flap 13a mounted at the juncture of the ceilings 8 and 16 of the nozzle box 3 and the pressure box 4 closes the bypass opening 12. Analogous conditions are present in the variant according to FIGS. 9 and 10. Here, however, the bypass opening 12 is associated with an additional flap 17, which closes them in the operating position (Fig. 10). In this way, during normal operation in the blocking position, the sloping wall forming flaps 13 a, b, c given the opportunity to occupy intermediate positions between the actual operating position and the blocking position and thus to effect a throttling of the Behandlungsmittelzustroms to the nozzle box 3. This possibility is advantageous if the above and below the web 2 arranged nozzle boxes different amounts of treatment agent to be supplied. In the embodiment according to FIG. 11, this effect is explained by arranging additional throttle valves 18 between the blower 5 and the flaps 13a, b, c, preferably so that all or individual of the throttle valves 18 and the flaps 13a, b, c are arranged in planes parallel to the nozzle surface 7. In this way, the flow resistance of the flaps 13a, b, c and the throttle valve 18 is minimized in the throttled operating position.

Claims (14)

1. Apparatus for heat treatment of goods webs, in particular textile webs, with a gaseous treatment agent, the plurality within a housing extending from above and / or below the web extending, connected via a pressure box to a fan nozzle boxes pointing to the web, with Having outlet openings versehener nozzle surface, which are surrounded by a blower connected to the return flow chamber, wherein at least one flap is provided which blocks the connection between the blower and the inputs of the nozzle boxes in a blocking position and a bypass opening releases the Rückströmraum and in an operating position against the Bypaßöffnung closes and the treatment agent supply from the fan to the nozzle boxes releases, characterized in that the pivot axis (14; 14a; 14b; 14c) of the at least one flap (13; 13a; 13b; 13c) is further away from the fan (5) than the nearest to this A Outlet opening (15) of the nozzle surface (7). 2. Device according to claim 1, characterized in that the at least one flap (13; 13a; 13b; 13c) in the blocking division forms an oblique wall closing the inlet of the nozzle box (3) whose contact line with the plane of the nozzle surface (7th ) closer to the fan (5) than the pivot axis (14; 14a; 14b; 14c) of the flap (13; 13a; 13b; 13c) and the outlet (15) nearest to the fan (5). 3. A device according to claim 1, characterized in that the pivot axis (14; 14a) of the at least one flap (13; 13a) on the nozzle surface (7) opposite cover (8) of the nozzle box (3) is arranged. 4. Apparatus according to claim 3, characterized in that a part of the ceiling (8) of the nozzle box (3) is designed as a flap (13). 5. Apparatus according to claim 4, characterized in that the bypass opening (12) in the ceiling (8) of the nozzle box (3) is arranged. 6. Apparatus according to claim 5, characterized in that the bypass opening (12) extends into the ceiling (16) of the pressure box (4). · " 7. Apparatus according to claim 3, characterized in that the pivot axis (14; 14a) of the flap (13; 13 a) at the junction of the pressure box (4) and nozzle box (3) is arranged. 8. Apparatus according to claim 3, characterized in that a plurality associated with the same pressure box (4) nozzle boxes (3) is associated with a common flap (13). 9. Apparatus according to claim 3, characterized in that the entire cover (8) of the nozzle box (3) is designed as a flap (13), wherein the pivot axis (14) on the fan (5) facing away from the end of the nozzle box (3). is arranged. 10. Device according to claims 1 to 3, characterized in that a plurality, with their pivot axes (14a, 14b, 14c) preferably in a plane, motion-related flaps (13a, 13b, 13c) in the blocking position form the inclined wall, wherein in the operating position of the bypass opening (12) nearest flap (13a) covers this. 11. The device according to claim 10, characterized in that the bypass opening (12) is associated with an additional flap (17) which is adapted to completely close them. 12. The device according to claim 11, characterized in that the flaps (13a, 13b, 13c) are adapted to occupy intermediate positions between the blocking position and the operating position. 13. The apparatus according to claim 11, characterized in that between the flaps (13 a, 13 b, 13 c) and the fan (5) pivotable throttle valves (18) are arranged. 14. The apparatus according to claim 13, characterized in that flaps (13a, 13b, 13c) and throttle valves (18) are arranged in planes parallel to the nozzle surface (7). For this 3 pages drawings