FI76144B - MUNSTYCKSTORK FOER TORKNING AV EN ROERLIG MATERIALBANA. - Google Patents

Description

1 76144

Nozzle dryer for drying a moving web of material

The invention relates to a nozzle dryer for drying a moving material web, in particular a paper web, which nozzle dryer consists of a plurality of nozzle housings arranged close to the material web, for example below it, forming gaps transversely to each other in the material web and provided with holes.

The nozzle graph works in such a way that warm drying air is applied to the material web but quickly absorbs moisture and the moisture web is kept floating by means of the air.

A variety of complex nozzles and nozzle assemblies are already known which allow the web to be guided without any supporting effect on it. Such web guidance requires a nozzle in which the thrust of the blow jet decreases as the distance from the web increases.

With simple tapered nozzles, the thrust decreases as the web distance increases in the very short range of the web distance, and as the web distance continues to increase, this thrust increases.

The disadvantage of using simple tapered slot nozzles is that at a small web distance, the suction force of the nozzle assembly prevails and a stable track control position is not achieved. A nozzle assembly that sucks the web as curved as the balance with a hundred tensile stress allows, or in the case of a high vacuum, the web is absorbed toward the suction channels until it contacts the tips of the dryer nozzles and prevents the dryer from operating.

According to DE-A-2 640 773, a perforated nozzle structure for the treatment and fluid transfer of material webs is known. It comprises nozzle channels, i.e. blow boxes, which form a flat nozzle field towards the web of material and a space is left between the individual housings, which acts as a throttling gap and then expands further into an outflow channel. The rows of holes for the desiccant outlet 2 76144 are placed in the outer edge area placed closer to each other than the other rows of holes.

DE-A-2 836 103 discloses an air nozzle with one elongated nozzle lip and an opening 5 for calming the flow.

The disadvantage of such air nozzles is that, although they are intended to stabilize the web of material, the measures are not sufficient to provide a pressure mattress which would be maintained even when the machine is running on the stability-10 mass web of material.

From this state of the art, it is an object of the invention to provide such a nozzle dryer in which the area of reduction of the thrust reaches a substantially greater web distance, whereby even a simple spray nozzle makes it possible to steer the web stably and take advantage of this advantage in drying. According to the invention, this is achieved by the slots acting as desiccant blowing holes and the holes as exhaust holes, by moving the nozzle opening of the out-blowing slots backwards and forming a dam space exhaust ducts remain, and that level slides are fitted to the exhaust ducts. In order to create a pressure mattress in a simple manner just outside the slit nozzle, the invention also discloses that the cross-sections of the parts of the dam space are triangular or rectangular with lengths of 20 to 40%, preferably 30%, of the spacing of the individual nozzle housings.

30 This ensures that the thrust of the desiccant acts at a greater web distance. Then the material web can be guided stably.

The invention is explained in more detail by means of a model example. In this case, Fig. 1 shows a tapered slit nozzle with a triangular reservoir space.

Figure 1 shows a section of a tapered nozzle.

The nozzle housing 1 is tubular in shape and almost rectangular in cross section. These nozzle housings 1 are formed side by side in a nozzle field, whereby the opposite side walls are shaped so as to form a slit-like blow nozzle 2. The narrowest point forms the blow-out gap 3 and extends along the entire length of the nozzle housing 1. The mouth area of the blow gap 3 of the nozzle housing 1 is slightly retracted, i.e. a dam space 4 is left between the nozzle-15 field and the material web 8. Both cross-sections of the dam space 4 are made either triangular or rectangular as in Fig. 2. The length a of the dam space 4 is 20 to 40%, preferably 30%, of the distribution gap t. The distribution interval t is defined from the center of the blow gap 3 in the middle of the next blow gap 3 in the adjacent nozzle housing 1. The back surface 5 is made according to the situation. They are round holes and equidistant from the blow gap 3, but smaller than the exhaust holes 7, with the most preferred aspect ratio being 1: 4.

The formation of the dam space 4 provides stable guidance of the web of material as well as rapid drying even at relatively high web speeds. It is essential for good web guidance that the thrust is generated by a blow jet that weakens as the web-30 distance increases.

Fig. 3 shows a view of the nozzle housing 1 and the cargo path 8 above it. A side wall 9 is placed next to it, at a certain distance, leaving space for the suction duct 10. A slide plate 11 is placed near the nozzle housing 1 35. 4 retains the pressure mattress. 76144 4 in action. The slide plates 11 are arranged on both sides of the nozzle housing 1 to be moved horizontally.

Figure 4 shows a diagram of the arrangement of the nozzle field as it consists of a number of nozzle housings 1. A web of material 8 moves above the nozzle field 5 and is guided on a roll 14. The left edge of the drawing shows the outlet end of the system. Here, too, a side wall 15 is placed and just so close to the material web 8 that an outlet channel 13 is formed. A vertical movable slide plate 12 is attached to the side wall 15, which also serves to maintain a pressure mattress in the dam space 4 (not described here).

These two types of slide plates 11, 12 are arranged on the edges of the nozzle housing 1 horizontally like a slide plate 11 and on the inlet and outlet ends vertically like a slide plate 15. For accurate exhaust air delivery, the slide plates 11, 12 are made of parts so that they can be placed in desired places. It is essential that the slide plates 11, 12 completely surround the nozzle housing 1 and can be adjusted independently of one another.

As a result of these measures, such as providing a pressure mattress immediately to each outlet gap 3 by means of the dam space 4 and by placing the slide plates 11, 12 near the outlet channels 10, 13, good maneuverability of the web is ensured under all operating conditions.

Claims (7)

A nozzle dryer for drying a moving web of material, in particular a paper web, which nozzle dryer 5 consists of a plurality of nozzle housings (1) arranged close to, e.g. the slits act as blow-out slots (3) for the desiccant 10 and the holes as suction holes (7), the nozzle opening of the blow-out slots (3) is moved backwards and a dam space (4) is formed between the nozzle opening and the web of material (8); (6) that the side walls (9, 15) 15 surround the nozzle housing set (1) at a distance on all sides, so that the exhaust ducts (10, 13) remain, and that level slides (11, 12) are arranged in the exhaust ducts (10, 13). Nozzle dryer according to Claim 1, characterized in that when a plurality of nozzle housings arranged below the material web are used, the side walls (9, 15) and the level slides (11, 12) are arranged below the material web. Nozzle dryer according to Claim 1 or 2, characterized in that the parts of the dam space (4) arranged in front of and behind the blow-out gap (3) have a triangular or rectangular cross-sectional surface with a length (a) of 20 to 40%, preferably 30. % of spacing (s) of individual nozzle housings (1). Nozzle according to one of Claims 1 to 3, dry and characterized in that the pressure relief openings (6) are equidistant from the blow-out gap (3), are made into round holes and are smaller than the outlet holes (7) of the nozzle housing (1). , preferably in a ratio of 35 1: 4. 6 76144 Nozzle-dryer according to one of Claims 1 to 4, characterized in that the distances between the pressure relief openings (6) arranged along the blow-out gap (3) are greater than the distances between the outlet holes (7). 5 76144 Nozzle dryer according to one of Claims 1 to 5, characterized in that the level slides (11) at the lateral ends of the nozzle housings (1) are guided horizontally and the level slides (12) at the inlet and outlet ends of the nozzle housing set are guided vertically. Nozzle-dryer according to one of Claims 1 to 6, characterized in that the level slides (11, 12) are divided into sections and can be adjusted independently of one another. 7 76144