EP2909550A1

EP2909550A1 - Dryer for a textile product web

Info

Publication number: EP2909550A1
Application number: EP13736775.1A
Authority: EP
Inventors: Markus Böhn; Stephan Hajdu
Original assignee: Truetzschler GmbH and Co KG
Current assignee: Truetzschler GmbH and Co KG
Priority date: 2012-10-17
Filing date: 2013-07-05
Publication date: 2015-08-26
Anticipated expiration: 2033-07-05
Also published as: CN104136871A; WO2014060056A1; JP2015514200A; DE102012109878B4; DE102012109878A1; EP3059539B1; CN104136871B; US20150267965A1; RU2015118228A; EP3059538A1; EP2909550B1; EP3059539A1; US9696088B2

Abstract

The invention relates to a dryer for a textile product web, comprising a dryer chamber (2) and having at least one drum (3a), which is arranged in the dryer chamber (2) and around which the product web (5) wraps at least partly, wherein heated drying air flows through the product web (5) and is led away via an interior of the drum (3a), and the dryer (1) has a separate additional chamber (10), via which fresh air (11) is led in and exhaust air (13) is led away.

Description

Title: Dryer for a textile web

description

The invention relates to a dryer for a textile web according to the preamble of claim 1, and a method for drying a textile web.

For drying textile webs dryer are known in which one or more drums are arranged in a housing. Through an opening in the dryer chamber, a textile web is fed to the dryer by looping around the drum to a large extent of the circumference and then removed from the dryer chamber again. Usually, the fresh air is supplied through this opening, which is heated within the dryer chamber and mixed with the circulating air, so that they can absorb the highest possible proportion of moisture. During the winding of the drum, the mixture of circulating air and fresh air flows through the web, at least partially absorbs the moisture of the web and is discharged through the interior of the drum again. From this volume flow, a partial volume flow is removed as exhaust air. The moist exhaust air is discharged through channels above the drums, which requires a complex and expensive seal due to the rotating drums and is maintenance-intensive. In order to avoid the suction effect from the environment of the dryer, supply lines or channels for fresh air have been subsequently added to the dryer chamber, which can for example be coupled to a heat exchanger for heating the fresh air. A previously described dryer is disclosed in DE 102009016019 A1. In the dryers of this type, the air circulation of fresh air takes place at right angles to the withdrawal direction of the moist air, ie perpendicular to the drum axis, whereby the air circulation is disturbed within the dryer chamber. Another disadvantage is due to lack of space, the often expensive conversion, in which the fresh air duct can not be coupled to a heat exchanger. Since the dryers are very dense in a number of different process engineering aggregates that treat the textile web one after the other, there is often a lack of space to retrofit a fresh air duct between the units.

DE 1729499 A1 discloses a perforated drum dryer with intermediate chambers arranged at the end faces of the sieve drums. Fresh air is supplied to these intermediate chambers and mixed with the drying air. Part of the exhaust air is discharged via the fan room. The intermediate chamber is firmly integrated in the dryer housing and can not be retrofitted with a heat exchanger.

It is an object of the invention to provide a dryer for a textile web in which aerodynamically an exhaust air and fresh air can be done, in which also optionally a heat exchanger can be installed later.

The invention solves the problem by the teaching of claim 1, and 12; Further advantageous features of the invention are characterized by the subclaims.

According to the technical teaching according to claim 1, the dryer for a textile material web comprises a dryer space with at least one drum arranged in the dryer space, which is at least partially wrapped by the web, wherein the web is passed through by heated drying air and is discharged through an interior of the drum, in which the dryer has a separate additional chamber through which fresh air is added and exhaust air is discharged.

With the features of the invention, it is possible to arrange the connections for the fresh air and the exhaust air to the dryer so that the air flow for the drying process in the dryer room 2 and inside the drum is not disturbed. By the additional chamber, the drying air relaxes, so that their flow rate reduces as it exits the drum by a multiple. From the additional chamber, the exhaust air is withdrawn with the least impact on the drying process. Furthermore, the fresh air can be sucked in freely by the negative pressure in the additional chamber and directed into the heating and fan room.

In an advantageous embodiment, the invention provides to arrange the additional chamber between an end face of the dryer and a heating and fan room. For energetic reasons, the removal of the exhaust air from the drying air in the additional chamber is most optimal, since the drying air has the lowest energy level here. Thus, the energy loss through the exhaust air is the lowest. This results in a flow-favorable solution for the drying process, which can be arranged independently of the available space between the successively arranged units. In addition, the clearly defined interface allows the use of heat recovery under optimal conditions. With this, the energy balance can be further improved.

Within the additional chamber, the fresh air mixes with the drying air. The fact that means for heating the fresh air and drying air are arranged within the heating and fan room, the heated drying air has only a short way to the dryer room on which it does not cool.

An energy-efficient improvement is achieved, in which the means are designed as heat exchangers, wherein the heat exchanger, the exhaust air from the Use additional chamber to heat the fresh air and drying air.

The fresh and exhaust air flowing in the additional chamber can be separated from one another by means for segmentation. Likewise, the additional chamber can be segmented analogously to the number of drums. The individual segments can be partitioned off from one another by walls so that there is no exchange of air between the segments. About a partially transparent segmentation, for example in the form of perforated plates, a distribution of the exhaust air or the fresh air can be generated in several segments. This can also be done via baffles.

The arrangement of the fans to the heating and fan room to circulate the drying air has the advantage that the dryer can be built relatively compact.

Within the additional chamber connections are arranged, through which the drying air from the dryer room or the drums can be sucked by means of the fans. In turn, the ports may be streamlined to minimize flow losses.

The inventive method for drying a textile web is characterized by the steps that drying air is heated and passed into a dryer room in which a web at least partially wraps around at least one arranged within the dryer chamber drum, wherein the heated drying air flows through the web and an interior the drum is discharged, wherein fresh air fed to a separate additional chamber and exhaust air is discharged through the additional chamber.

Due to the additional chamber, the flow conditions within the dryer space and the drum are not affected. The exhaust air reduces significantly when entering the additional chamber, the flow rate, whereas the fresh air can be sucked in freely due to the negative pressure in the additional chamber and directed into the heating and fan room. The result is a circulation system in which the drying air withdrawn a partial mass flow of exhaust air and a partial mass flow of fresh air is supplied. The exhaust air is discharged at the point from the drying air at which the drying air has the lowest energy level, namely in the additional chamber.

The invention will be explained in more detail with reference to a possible schematically illustrated embodiment. It shows:

Figure 1: a schematic representation of a series dryer in

Front view;

Figure 2: a representation corresponding to Figure 1 with a

heat recovery;

Figure 3: the row dryer according to the invention in lateral

Section;

Figure 4: a rear view of the row dryer with removed

Heating and fan room.

FIG. 1 shows a dryer 1 in the form of a row dryer. Within a dryer room 2, three drums 3a, 3b, 3c are arranged one behind the other and with their axes 4a, 4b, 4c in a row. A web 5 is guided via an inlet 6 into the dryer room 2 into it. Via a guide roller 7, the web 5 is guided first below the first drum 3a, then above the second drum 3b and then below the third drum 3c. Via a guide roller 8, the web 5 is led out through an outlet 9 from the dryer room 2. During the passage through the dryer room 2, the web 5 is flowed through with heated drying air. The drying air absorbs the moisture of the web 5 and is sucked off through the interior of the drums 3a to 3c. According to the invention, an additional chamber 10 is arranged on the dryer chamber 2, into which the channel 12 for the fresh air 11 and the channel 14 for the exhaust air 13 open. The additional chamber 10 is completely separate and constructed separately from the dryer room 2. At the additional chamber 10 of the heating and fan room 22 is arranged. The dryer room 2 is connected to air ducts above and below the drums 3a - 3c with the heating and fan room 22. The additional chamber 10 is connected via the frontal opening of the drums 3a - 3c with the dryer room 2.

In FIG. 2, the dryer 1 from FIG. 1 is equipped with optional heat recovery. The same parts have the same reference numerals. On the housing of the fan 15 in the connection to the channel 14, a further channel 16 is placed, which allows the exhaust air 13 to flow through another heat exchanger 17 and discharges via a channel 18. The heat exchanger 17 is connected simultaneously with the channel 12, so that the fresh air 11, before it flows into the auxiliary chamber 10, has already experienced a temperature increase by the heat exchanger 17. With this optional retrofittable solution, the thermal efficiency of the dryer 1 can be further increased.

In contrast to the prior art, in this case the fresh air 11 does not flow directly into the dryer 1, but only into the additional chamber 10, in which a further heating takes place by a mixture with the drying air after the flow through the web 5. In previous constructions, this mixing of the fresh air with the drying air was carried out before the flow through the web 5, whereby the temperature of the drying air before the web 5 is influenced. The utilization of the temperature difference between the exhaust air 13 and fresh air 11 is sufficient to further increase the thermal efficiency of the dryer 1.

Figure 3 shows a side section through a dryer 1. The fans 19a - 19c, which suck the moisture-saturated drying air from the drums 3a - 3c, are flanged to the heating and fan room 22 and connected via connections 20a - 20c and adapters with the additional chamber 10. Opposite the drums 3a -3c are also connected via connections with the auxiliary chamber 10. The drying air flows from the drums 3a-3c into the auxiliary chamber 10 and from the additional chamber 10 via the ports 20a-20c into the intake cross-section of the respective fan 19a-19c. In the area of the drum 3a, the exhaust air is taken from the auxiliary chamber 10 via a channel 14 which is arranged on the front side (see FIGS. 1 and 2). At the end of the channel 14, a fan 15 provides the necessary air flow. The supply of fresh air takes place in the region of the drum 3 c via the additional chamber 10, to which the channel 12 is connected at the end face.

By the additional chamber 10, the drying air relaxes, so that their flow rate at the exit from the drum 3a, 3b, 3c reduced by a multiple. Furthermore, the fresh air 11 can be sucked in freely by the negative pressure in the additional chamber 10 and fed via this to the heating and fan room 22 with drying air.

Within the heating and fan room 22 heating elements 21 may be arranged in the form of heat exchangers, one or more gas heaters or electric heaters, which heat the discharged drying air 11 including the fresh air to the drying temperature. Figure 4 shows a rear view of the dryer 1, in which the heating and fan room 22 has been hidden. Here, the openings of the drums 3a - 3c can be seen, via which the drums 3a - 3c is connected by means of connections with the additional chamber 10. The fresh air 11 is introduced via a channel 12 into the additional chamber 10. Within the additional chamber 10 separating plates 23 are arranged in the form of perforated plates, which segment the additional chamber 10, so that the distribution of the fresh air to the individual fans 19a - 19c can be influenced. It is also possible to influence the distribution of the fresh air within the auxiliary chamber 10 via guide plates, not shown, for example, to separate from the exhaust air. From the additional chamber 10, the mixture of fresh and drying air flows through the fans 19 a - 19 c in the heating and fan room 22 a. This is a circulation system, which extracts a partial mass flow in the form of exhaust air and a partial mass flow is supplied in the form of fresh air. The heating and fan room 22 is arranged as a separate chamber in the region of the rear end face of the dryer 1, wherein the additional chamber 10 is arranged therebetween. Outside the heating and fan room 22, the drives of the fans 19 a, 19 b, 19 c are arranged, are located inside the fan wheels. Depending on a fan 19a, 19b, 19c is associated with a drum 3a, 3b, 3c. The fans 19a, 19b, 19c are connected via connections 20a-20b or adapter with the additional chamber 10 and these also via terminals or adapters with the drums 3a, 3b, 3c.

reference numeral

1 dryer

2 drying room

3a, b, c drum

4a, b, c axis

5 web

6 inlet

7 guide roller

8 guide roller

9 outlet

10 additional chamber

11 fresh air

12 channel

13 exhaust air

14 channel

15 fans

16 channel

17 heat exchangers

18 channel

19a, b, c Fan

20a, b, c connection

21 heating element

22 Heating and fan room

23 separating plate

Claims

claims

1. A dryer for a textile web, comprising a dryer space (2) and at least one in the dryer room (2) arranged drum (3 a), which is at least partially wrapped by the web (5), wherein the web (5) of heated drying air is flowed through, which is discharged through an interior of the drum (3 a), characterized in that the dryer (1) has a separate additional chamber (10) via the fresh air (11) and exhaust air (13) is discharged.

2. Dryer according to claim 1, characterized in that the additional chamber (10) between an end face of the dryer (1) and a heating and fan room (22) is arranged.

3. Dryer according to claim 1, characterized in that within the additional chamber (10) means for distributing the fresh air and / or means for separating the exhaust air from the fresh air and / or means for segmenting the additional chamber (10) are arranged.

4. Dryer according to claim 3, characterized in that the means as separating plates (23) or baffles are formed.

5. Dryer according to claim 1, characterized in that the drying air via frontal openings of the drums (3 a - 3 c) is discharged into the additional chamber (10).

6. Dryer according to claim 1, characterized in that on the heating and fan room (22) fans (19a - 19c) for sucking the exhaust air from the dryer space (2) are arranged.

7. Dryer according to claim 6, characterized in that the heating and fan room (22) via connections (20a - 20c) with the additional space (10) is connected.

8. Dryer according to claim 2, characterized in that the heating and fan room (22) via air ducts to the dryer room (2) is connected.

9. Dryer according to one of the preceding claims, characterized in that outside the additional chamber (10) a

Heat exchanger (17) is arranged, which heats the fresh air (11) through the withdrawn from the drying air exhaust air (13).

10. Dryer according to claim 2, characterized in that means for heating the drying air are arranged within the heating and fan room (22).

11. Dryer according to claim 10, characterized in that the means for heating the drying air are designed as heat exchangers, gas burners or as an electric heater.

12. A method for drying a textile web, wherein drying air is heated and passed into a drying room (2), in which a

Web (5) at least partially at least one within the dryer space (2) arranged drum (3a) wraps around, wherein the heated drying air flows through the web (5) and is discharged through an interior of the drum (3a), characterized in that fresh air of a separate Additional chamber (10) supplied and exhaust air via the additional chamber (10) is discharged.

13. A method for drying a textile web according to claim 12, characterized in that the fresh air () in the region of the outlet of the web (5) of the additional chamber (10) and the exhaust air (13) in the region of the inlet of the web (5) is discharged from the additional chamber (10).

14. A method for drying a textile web according to claim 12, characterized in that the fresh air (11) within the additional chamber (10) is mixed with the drying air.

15. A method for drying a textile web according to claim 12, characterized in that the drying air withdrawn a partial mass flow of exhaust air and a partial mass flow of fresh air is supplied.

16. A method for drying a textile web according to claim 15, characterized in that the exhaust air is discharged at the point from the drying air, where it has the lowest temperature or energy level.

17. A method for drying a textile web according to claim 12, characterized in that the fresh air and the drying air are heated within the heating and fan room (22).

18. A method for drying a textile web according to claim 17, characterized in that the heating of the fresh air and

Drying air via heat exchangers, gas burners or electric heating takes place.

19. A method for drying a textile web according to claim 12, characterized in that the fresh air (11) is heated before flowing into the additional chamber (10).