EP0897092A1 - Condensation drying - Google Patents

Abstract

The suction unit, with a connected vacuum supply, has a hollow body (1) with at least one cooled condensation element (4) and at least one collection zone (5) for the condensation.

Description

The invention relates to a condensation element for paper, coating and Tissue machines for the production and finishing of fibrous webs.

Such a device is described for example in DE-OS 40 09 797 described. The solvents emerging from a web condense on a rotating condensation surface.

In the process claimed in DE-PS 38 37 133, the removal takes place the moist air of a paper dryer. That in a subsequent Heat exchanger condensate is the paper manufacturing process fed again. Both solutions are mostly constructive too complex and therefore expensive.

The invention also relates to a suction element consisting of a connected to a vacuum source, the hollow body near a wet and heated web moving past it, in particular one Paper web, a textile web or another fibrous web, one Sieve, a band or a felt is arranged and at least one for Has web-oriented opening.

Such suction elements are found particularly in machines for manufacturing and finishing of paper webs, textile webs or other fibrous webs Application and are in the form of a rotating roller perforated roll shell for example from EP 738 801 and the DE-Gbm 29 601 543 known. It can be connected to the vacuum source Suction box as in EP 738 801 in the roller or according to the DE-Gbm 29 601 543 outside the roller on the one not wrapped by the web Be arranged part of the circumference.

The negative pressure can be used to guide the web to or on the suction element and / or serve to remove moisture from the web. Regardless of the purpose, however, there is always a certain amount of water discharged together with the air via the suction element. The separation the water then takes place outside the machine, for example via a Heat exchanger as in DE-PS 38 37 133. This is relatively expensive and requires a corresponding one because of the water to be extracted large vacuum value.

A device for dewatering paper webs with a suction element is known from US 2,714,839. DE-PS 17 37 28 relates to one Decatizing cylinder with a bowl to catch with a scraper smeared condensed water.

The object of the invention is to provide a device that is as possible is simple and effective drying of fibrous webs enables.

According to the invention, this is achieved on the one hand according to claim 1, that at least one cooled and fixed condensing element in places of increased water vapor formation and / or accumulation is arranged and has a condensate collector. By the fixed Arrangement not only simplify the structure but also the safe drainage of the condensate. The condensate collector is located preferably under the condensation element, whereby also a condensate collector is assigned to several condensation elements can be. The condensate collector is easy to remove if necessary, the reuse of the condensate in the process possible.

To the low temperature on the surface necessary for the condensation to be able to ensure the condensation element should Condensation element have at least one cooling channel by one Coolant, preferably water, is flowed through.

To simplify the construction and as uniform as possible The condensation element should be removed as much as possible across the fibrous web and preferably over the entire web Width. This will make the condensation element easy to attach on both sides of the fibrous web on the machine frame possible.

In order to intensify the condensation, the condensation element should Enlargement of the surface a profiled, preferably corrugated surface have.

The arrangement can be supplemented by at least one other rotatable stored condensation element in the form of a roller. this makes possible direct contact with the sieve, felt or fibrous web to be cooled, because they are generally moving at high speed.

For the safe removal of the condensate from the rotating roller in the condensate collector can be a rotating condensation element touching wiper element in the form of a scraper, which is axially along the Roll runs, serve.

The condensation element can be used advantageously in press and dryer sections the above Machines are used, the condensing element preferably in the vicinity of the heated fibrous web and / or of a warmed screen or felt.

The condensation elements can also be arranged in a hood be an area of the machine with water vapor formation at least partially covered and preferably an outlet for the water vapor having. Because of the condensation in the hood, less has to be done Water vapor can be removed from the hood.

Especially when the fibrous web is heated with a heating element a condensation element in the direction of web travel connect so that the water vapor emerging from the fibrous web can immediately condense and be discharged. This speeds up the drying process of the fibrous web.

According to the invention the object was achieved in that Hollow body of the suction element according to claim 6 at least one cooled Condensation element and at least one condensate collector arranged is.

This ensures that the majority of the water is already in Hollow body condensed and separated from the intake air from the Suction element can be performed. This simplifies the overall construction and a reduction in the amount of air to be extracted result.

The condensation element should have at least one cooling channel that is flowed through by a coolant, preferably water. The effect the condensation element can be designed as possible large condensation area can be improved. Therefore, the condensing element have a profiled, preferably corrugated surface. In this context, it is also advantageous if it is in the hollow body there are several condensation elements.

To simplify the construction, the condensing element should fixed and the condensate collector under the condensation element to be appropriate. It is also advantageous if a Condensate collector is assigned to several condensation elements.

In general, the hollow body runs approximately transversely to the web and preferably across their entire width. Depending on the individual case, he can however, they are also limited to only part of the width, for example for the transfer of strips of a fibrous web.

If the hollow body is fixed, it is in particular when the web is guided directly along the hollow body by Advantage if the hollow body at the points of contact with the web Has sliding body.

At the moment, however, the rotatable arrangement of the hollow body in predominates Form of a roller, the roller shell of which is partially wrapped in the web is. In order to vacuum the web, the roller jacket preferably has Breakthroughs in Shape of holes.

Such suction elements are used in particular in dry or Press sections in machines for the production or finishing of paper, Textile or other fibrous webs.

Fig. 1:

ein Kondensationselement 1 in der Nähe eines Siebes 10;

Fig. 2:

ein Kondensationselement 1 in der Nähe der Faserstoffbahn 2;

Fig. 3:

ein Kondensationselement 1 nach einem Heizelement 9;

Fig. 4:

ein Kondensationselement 1 in einer Pressenpartie;

Fig. 5:

ein Kondensationselement 1 in einer Trockenpartie;

Fig. 6:

ein feststehendes und rotierendes Kondensationselement 1 bzw. 5 in einer Trockenpartie mit Haube 7;

Fig. 7:

einen Querschnitt durch ein rotierendes Saugelement;

Fig. 8:

einen Längsschnitt von Fig. 7; und

Fig. 9:

einen Querschnitt durch ein feststehendes Saugelement.

The invention will be explained in more detail below using several exemplary embodiments. In the accompanying drawings

Fig. 1:

a condensation element 1 in the vicinity of a sieve 10;

Fig. 2:

a condensation element 1 in the vicinity of the fibrous web 2;

Fig. 3:

a condensing element 1 after a heating element 9;

Fig. 4:

a condensation element 1 in a press section;

Fig. 5:

a condensation element 1 in a dryer section;

Fig. 6:

a fixed and rotating condensation element 1 or 5 in a dryer section with hood 7;

Fig. 7:

a cross section through a rotating suction element;

Fig. 8:

a longitudinal section of Fig. 7; and

Fig. 9:

a cross section through a fixed suction element.

All embodiments of the condensation element shown in FIGS. 1 to 6 is common that one or more cooled and fixed Condensation elements 1 in places of increased water vapor formation and / or accumulation in paper, coating or tissue machines and there are arranged in particular in dryer or press sections. There are 1 condensate collector under the condensation elements 3 from which the condensate can be removed.

The condensation elements 1 have at least one cooling channel 4 which is flowed through by a coolant, preferably water.

In addition, the condensation elements 1 run transversely to the fibrous web 2 across their entire width. Own to enlarge the surface the condensation elements 1 a profiled, preferably wavy surface.

The moist air can accumulate on the cooled condensation elements 1 knock down. The condensate then drips into the condensate collector. Because of the reduced humidity, the drying of the Fibrous web 2.

1 shows a section of a dryer section in which the fibrous web 2 together with a sieve 10 alternately over heated Drying cylinder 11 and guide rollers 12 is guided. While heating up The fibrous web 2 on the drying cylinders 11 collects water vapor in the sieve 10, which in the return of the endless sieve 10 can condense on the condensation elements 1. Both condensation elements 1 is a common condensate collector 3 assigned.

In Fig. 2 the fibrous web 2 runs alone over a heated drying cylinder 11. Under the drying cylinder 11 are in the looping area the fibrous web 2 a plurality of condensation elements 1 in Form of pipes with a common condensate collector 3. The Condensate collector 3 has sliding bodies 14 on its open side Ceramic, so that contact with the fibrous web 2 is not negative affects.

In the example in Fig. 3, the fibrous web 2 is together with a Screen 10 guided over a guide roller 12, the fibrous web 2 outside lies and the guide roller 12 can be vacuumed. In the loop area the guide roller 12 is a heating element 9 for heating the fibrous web 2nd

The warming leads to the formation of water vapor. For this The reason closes in the web running direction at the looping area a condensation element 1 with two cooling channels 4. The condensate collector 3 is connected to the heating element 9 via an insulation element 12 connected.

Fig. 4 shows at least a portion of a press section in which the fibrous web 2 together with a felt 16 for drainage by one press nip 15 formed by two press rolls runs. The runs endless felt 1 above the fibrous web 2 and is the lower press roll 15 heated. After the press nip, the fibrous web 2 runs one more Continue on the heated lower press roll 15 before moving on to the next one Unit of the machine arrives. In this area following the press nip there are several condensation elements 1 in the form of tubes, the condensate collector 3 open towards the fibrous web 2 are surrounded.

5 shows a section of a dryer section in which the fibrous web 2 together with the sieve 10 alternately via heated drying cylinders 11 and guide rollers 12 runs, the drying cylinder 11 in a row under the guide rollers 12 are arranged. In this case the condensation elements 1 with the condensate collector 3 in the space between the drying cylinders 11 under a guide roller 12. In in this area the heated fibrous web evaporates 2 through the sieve 10.

A whole dryer group is shown in the embodiment in FIG. 6. In this also runs the fibrous web 2 together with a sieve 10 alternately via heated drying cylinders 11 and guide rollers 12, wherein however, the drying cylinders 11 are arranged above the guide rolls.

The entire drying group is covered by a hood 7, however, the at least part of the water vapor through the discharge line 8 removed from the area of the drying group, which has a positive effect on the Drying result affects. In addition, there are examples here under the return of the endless screen 10 attached condensation elements 1 with a common condensate collector 3. Also there is another cooled one instead of the last drying cylinder Condensation element 5 in the form of a roller. Which is on the roller Precipitation moisture from the fibrous web 2 is outside of the wrapping area via a stripping element 6 in the form of a Scraper in the condensate collector 3. This possibility of condensation In addition to improved drying, less Water vapor must be removed from the hood.

Both versions of the suction element described in FIGS. 7 to 9 is common that the suction element from a with a vacuum source connected hollow body 101, which is in the vicinity of a moving past moist and heated web 102 is arranged and at least has an opening 103 directed towards the web 102. For separation the moisture from the extracted air is at least in the hollow body 101 a cooled condensation element 104 and at least one condensation collector 105 arranged. The moisture can thus become the condensation element 104 and into the condensate collector drain. From there it is discharged from the suction element. As a result, less air needs to be sucked in, which is energetic has a positive effect.

To simplify the construction here is the condensing element 104 fixed, the condensate collector 105 below the condensing element 104. Of course, they are also rotating Condensation elements 104 possible. In this case, the condensate stripped from the surface of the condensing element 104 and / or caught in the spraying due to the centrifugal force.

The condensation elements have to enlarge the condensation surface 104 a profiled surface. They also have the condensation elements 104 at least one cooling channel 106, the cold Water is flowing through.

In the examples shown, the suction elements run across the web 102 and across their entire width.

In the embodiment shown in FIGS. 7 and 8, the application is of the suction element in a press section for dewatering Fibrous web as seen in paper.

For this purpose, the moist and heated fibrous web is combined with a web 102 in the form of a drainage felt through a Press nip led. The press nip is a press roller and the suction element formed in the form of a rotatably mounted roller, the roller shell is perforated. The in the press nip from the fibrous web in the Dewatering felt pressed liquid arrives together with the suctioned Air through the openings 108 into the interior of the roll shell. The moisture can condense there on the condensation elements 104. The drained condensate arrives in the condensate collector 105 via an outlet 109 from the roller. The inside of this hollow body 101 is connected to a vacuum source via a line 110. Around to limit the intake air is the suction space 111 of the Hollow body 101 on the area wrapped by the web 102 Restricted roller over seals 112.

In the hollow body 101 there are two condensation elements 104 in here Form of a pipe loop through which the cooling water flows. Here is both Condensation elements 104 a common condensate collector 105 assigned.

In Fig. 9 a fixed suction element is shown, over which a fibrous web guided on a web 102 in the form of a dryer fabric is. This serves to redirect the course of the path and simultaneous removal of moisture from the dryer fabric.

The suction element 101 has a large number of openings facing the web 102 103 and at the points of contact with the web 102 sliding body 107 made of ceramic, for example. In the vacuumed interior of the hollow body 101 there is a condensation element 104 with a cooling channel 106. The collected condensate can also drain here 109 of the condensate collector 105 reach the outside. The suction takes place via a line 110 connected to a vacuum source.

Claims (10)

Condensation element (1) for paper, coating and tissue machines for the production and finishing of fibrous webs (2),
characterized,
that at least one cooled and fixed condensation element (1) is arranged at locations of increased water vapor formation and / or accumulation and has a condensate collector (3). Condensing element according to claim 1,
characterized,
that the condensate collector (3) is arranged under the condensation element (1), and / or that the condensate collector (3) is assigned to several condensation elements (1), and / or that the condensation element (1) has at least one cooling channel (4) which is flowed through by a coolant, preferably water, and / or that the condensation element (1) extends approximately transversely to the fibrous web (2) and preferably over its entire width, and / or that the condensation element (1) has a profiled, preferably corrugated surface . Condensation element according to claim 1 or 2,
characterized,
that at least one further cooled condensation element (5) is rotatably mounted and has the shape of a roller, in particular a stripping element (6) touching the rotatable condensation element (5) guides the condensate into the condensate collector (3). Condensation element according to one of the preceding claims,
characterized,
that the condensation element (1) is arranged in dryer or press sections, and / or that the condensation element (1) is arranged in a hood (7) which at least partially covers an area with water vapor formation and preferably has a discharge line (8) for water vapor . Condensation element according to one of the preceding claims,
characterized,
that the condensation element (1) is arranged in the vicinity of the heated fibrous web (2), the condensation element (1) in particular being arranged after a heating element (9) heating the fibrous web (2), and or that the condensation element (1) in the Near a heated screen (10) or felt (16) is arranged. Suction element, consisting of a hollow body (101) connected to a vacuum source, which is arranged in the vicinity of a wet and heated web (102) moving past it, in particular a paper web, a textile web or another fibrous web, a sieve, a band or a felt and has at least one opening (103) facing the web (102),
characterized,
that at least one cooled condensation element (104), which has in particular the features of at least one of claims 1 to 5, and at least one condensate collector (105) are arranged in the hollow body (101). Suction element according to claim 6,
characterized,
that the condensation element (104) is arranged stationary and the condensate collector (105) is preferably attached under the condensation element (104), and / or that there are several condensation elements (104) in the hollow body (101), in particular the condensate collector (105) having several Condensation elements (104) is assigned. Suction element according to claim 6 or 7,
characterized,
that the condensation element (104) has at least one cooling channel (106) through which a coolant, preferably water, flows, and / or that the condensation element (104) has a profiled, preferably corrugated surface, and / or that the hollow body (101 ) runs approximately transversely to the web (102) and preferably over its entire width. Suction element according to one of claims 6 to 8,
characterized,
that the hollow body (101) is arranged to be stationary, in particular the web (102) being guided directly along the hollow body (101) and the hollow body (101) having sliding bodies (107) at the points of contact with the web, or that the hollow body ( 101) is arranged in a rotating manner and has the shape of a roller, the roller shell of which has openings (108) which are preferably distributed over the circumference of the roller, the web being guided directly along the roller. Suction element according to one of claims 6 to 9,
characterized,
that the suction element is used in dryer or press sections in machines for the production or finishing of paper, textile or other fibrous webs.

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