EP0945695A1 - Apparatus for treating web material - Google Patents

Abstract

The web of material (10) is preferably continuously conveyed through a drying chamber (11) in which slotted nozzles (13,14) direct a gaseous medium, preferably air, at a slant from above or and below onto the material. Part of the nozzles has several slits through at least one of which the volume of the gas in-flowing is set by a control.

Description

The invention relates to a device for treating thin Webs of material, in particular of paper, foil or the like, with a gaseous medium, especially supply air, in a drying chamber through which the material web is preferably is continuously conveyable and in which the medium of above and / or below from several transverse slot nozzles is directed onto the material web.

The, preferably coated, material web is dried through the gaseous medium, which by means of transverse Slit nozzles is directed onto the material web. In addition can increase the drying effect of the gaseous medium or parts of the drying device or parts of the slot nozzles, be heated. The flow conditions in the area of the material web and the temperature supply to this are here predetermined by the design of the slot nozzles and therefore cannot respond to different operating conditions, for example, different material webs or transport speeds the same can be adjusted. With less than optimal Design of the flow conditions or the supply of heat can affect the web, for example insufficient drying or damage. At (production-related) Reduction in transport speed or The web can come to a standstill if further heat is added Burn train.

The invention is therefore based on the object, the flow conditions between the slot nozzles and the material web to improve changeable operating states.

The device according to the invention is used to achieve this object characterized in that at least part of the slot nozzles has several nozzle slots and that the volume flow of the gaseous medium through at least one nozzle slot a control device is adjustable. By means of the control device In extreme cases, the inflow of one nozzle slot can be switched to another nozzle slot be. This is the position of the loading of the web with the gaseous medium and possibly the direction of Action by the control device changeable.

In a further embodiment of the invention, the control device at least one slide device. Preferably the slide device has a base body and a Cover body with at least one opening each, at opened slide device at least one common opening for the passage of the gaseous medium at least form a nozzle slot, and the common opening is through Change in the relative position of the base body and the cover body lockable. While the dryer is operating can be done easily by manual or automatic Change in the relative position of the base body and of the cover body, for example by moving one of the Body, the loading of the material web with the gaseous Medium and thermal energy are changed. In addition to the simple Such a slide device has operability Advantage that it is easy to manufacture.

The nozzle slots of a slot nozzle preferably have different ones Outflow directions of the gaseous medium. For maximum temperature supply to the material web can this at a heated roller. When the (temporary) standstill Material web and the heated roller can overheat the This avoids material web in the contact area with the roller be that by controlling a tangential nozzle the gaseous Medium tangential to the roller the contact area between Roller and web of material is fed so that there is an air cushion between the roller and the material web. At the same time is the thermal energy of the roller through the air cushion in Tangential direction removed by means of the gaseous medium.

Fig. 1

eine Trockenvorrichtung im Längsschnitt,

Fig. 2

eine Schlitzdüse im Querschnitt,

Fig. 3

eine Schlitzdüse im Querschnitt gemäß Fig. 2 bei veränderter Stellung der Schiebereinrichtung,

Fig. 4

Ansicht IV der Schiebereinrichtung,

Fig. 5

Ansicht V der Schiebereinrichtung,

Fig. 6

weitere Ausführungsform der Schlitzdüse mit beheizter Walze im Querschnitt und

Fig. 7

Schlitzdüse mit beheizter Walze gemäß Fig. 6 bei veränderter Stellung der Schiebereinrichtung.

Preferred developments of the invention result from the subclaims and the description. Exemplary embodiments of the invention are explained in more detail below with reference to the drawings. Show it:

Fig. 1

a drying device in longitudinal section,

Fig. 2

a slot nozzle in cross section,

Fig. 3

2 with a changed position of the slide device,

Fig. 4

View IV of the slide device,

Fig. 5

View V of the slide device,

Fig. 6

further embodiment of the slot nozzle with heated roller in cross section and

Fig. 7

6 with a changed position of the slide device.

The treatment of the (thin) material web 10 takes place in a treatment or drying chamber 11. Through this the Material web 10 preferably continuously in the transport direction 12 passed through. The material web is in the drying chamber 11 10 applied with a gaseous medium, in particular with (heated) air, namely supply air. This is done using several nozzles, namely upper slot nozzles 13 or lower Slot nozzles 14, on the top and bottom of the web 10 directed. The upper slot nozzles 13 are one horizontal upper nozzle box 15 in parallel, transverse to Transport direction 12 of the material web 10 oriented rows assigned, the lower slot nozzles 14 corresponding to a lower one Nozzle box 16. The upper nozzle box 15 and the lower one Nozzle box 16 are oriented parallel and spaced apart in such a way that between the upper slot nozzles 13 and the lower Slot nozzles 14 a transport channel for the material web 10 arises, preferably with the formation of a (horizontal) Gap. The upper and lower nozzle boxes 15, 16 will gaseous medium supplied via supply air channels 17.

The supply air moves within the drying chamber 11 in one (Closed) circuit 18: after feeding to the nozzle boxes 15 through the supply air channels 17, the supply air passes through the Slot nozzles 13 in the area of the material web and will via suction channels 19, a collecting space 20 and a flow channel 21 (if necessary with air exchange with the environment) fed back to the feed channels 17. The movement of the supply air is caused by a fan 22, heating the supply air can be done by means of the air heater 23. Accordingly in In another closed circuit, the supply air becomes the lower one Nozzle box 16 supplied.

In Fig. 2 is a section through a slot nozzle 13, 14 at Cutting in the transport direction 12 of the material web 10 is shown. This embodiment of the slot nozzle essentially has a feed area 24, a prechamber 25 and with this nozzle slits connected by open flow channels 26, 27 28, 29 and a side chamber 30 with one with this nozzle slot 32 connected via a flow channel 31. The feed area 24 is also connected via the slide device 33 the prechamber 25 on the one hand and the side chamber 30 on the other connected. The outlet openings of the continuous or interrupted nozzle slots 28, 29, 32 are approximately in a horizontal plane. With regard to the transport direction 12 are the nozzle slots 28, 29, 32 oriented transversely to this and with parallel orientation one behind the other.

The gaseous medium flows out of the nozzle slot 28 in the outflow direction 34 at an angle α ₁ (35) to the material web 10. In the transport direction 12 in front of the nozzle slot 28 is the nozzle slot 29, from which the gaseous medium emerges in the outflow direction 36 at an angle α ₂ (37) to the material web 10 in the direction of the latter. The outflow direction 34 has a component opposite to the transport direction 12, and the outflow direction 36 has a component in the transport direction 12. The outflow directions 34, 36 are therefore directed towards one another.

When the supply air is guided in this way, it hits the nozzle slot 28 on the one hand and the nozzle slot 29 on the other emerging volume flows in the space between the nozzle slots 28, 29 on top of each other in the area of the material web 10, which results in a low flow rate.

The slot nozzle 38 is essentially formed with extruded Profiles, for example made of aluminum, which with the in Fig. 2 shown cross sections transverse to the longitudinal extent are oriented to the transport direction 12 and by means of them Outside and inside surfaces of the feed area 24, the pre-chamber 25, the side chamber 30, the flow channels 26, 27, 31 and the nozzle slots 28, 29, 32 are formed. The extruded Profiles are connected to each other by several bolts 38, 39 and fixed in the position shown in Fig. 2. The Slot nozzle 38 is on the bottom with the bottom of the upper nozzle box 15 or the top of the lower nozzle box 16 connected. The feed area 24 can be gaseous Medium via one or more feed channels 41 of the nozzle box 15, 16 are supplied. The transport of the gaseous medium through the slot nozzle 38 is due to a pressure increase in the feed channel 41 relative to the discharge area 42.

In the position of the slide device shown in FIG. 2 33 is an opening 43 between the feed area 24 and the Antechamber 25 released so that the gaseous medium in flow directions 44, 45 in the direction of the slot nozzles 28, 29 flows. Another opening 46 between the feed area 24 and Side chamber 30 is in the position outlined in FIG Slider device 33 closed, so that from the nozzle slot 32 no gaseous medium escapes.

3, the opening 43 can be closed by suitable actuation of the slide device 33, so that the supply of the supply air to the nozzle slots 28, 29 is interrupted. At the same time, the opening 46 is opened so that the supply air enters the side chamber 30 in the flow direction 47 and exits through the nozzle slot 33 in the outflow direction 48 at an angle β (49) to the material web. The outflow direction 48 has a component in the transport direction 12. The outflow direction 48 points more in the direction of the material web than the outflow directions 34, 36, so that β> α ₁ , α ₂ applies. 2, the gaseous medium can emerge tangentially with the material web 10 from the slot nozzle in the position of the slide device 33 according to FIG. 3. The flow velocities of the gaseous medium in the region of the material web 10 are therefore greater in FIG. 3 than for the position of the slide device according to FIG. 2, so that there is a changed heat transfer to the material web.

In addition to the extreme positions of the slide device shown 33 in Fig. 2 and Fig. 3, it is also conceivable that the Openings 43, 46 are only partially released, so that the Flow conditions sensitive to the required operating conditions are customizable.

The slide device 33 is with an angular base body 50 and an angular cover body 51 formed are L-shaped in the present case and under plant the corresponding legs are nested. The vertical Legs form a connection between the feed area 24 with the side chamber 30. The horizontal legs of the basic body 50 and the cover body 51 form a connection of the Feed area 24 with the prechamber 25 Cover bodies 51 each have a plurality of rectangular ones on each leg Recesses on each leg in one Row lie and are equally spaced. When aligned of the rectangular recesses 52 abutting one another Legs of the base body 50 and the cover body 51, see Fig. 5, the medium can be formed by the Openings 53 from the feed area 24 into the pre-chamber 25 or the Enter side chamber 30. Are the rectangular recesses 52 on the two legs of the base body 50 (cover body 51) staggered, then you can close the opening 43 at the same time opening 46 is opened.

Alternatively, it is also conceivable that the openings 43 and 46 can be actuated by separate slide devices. Farther other recesses 52 are also conceivable, for example circular recesses. To operate the slide device can the base body 50 and / or the cover body 51st be assigned at least one actuator, for example can be welded to this a rod, the side out the drying chamber 11 protrudes. A ring can be attached to this by means of which the slide device 33 can be operated by hand.

An alternative embodiment of a slot nozzle is shown in Fig. 6 shown. This slot nozzle 54 is comparable to Slot nozzle 38 with the upper nozzle box 15 or the lower Nozzle box 16 connected. The slot nozzle 54 also has a feed area 55, an antechamber 56 and a side chamber 57 on. By means of the slide device 58 is the corresponding Slot nozzle 38 the entry of the gaseous medium from the feed area 55 controllable to the prechamber 56 or to the side chamber 57.

Regardless of the position of the slide device 58, supply air exits the supply area 55 through an opening 59 into a side channel 60, which feeds it to a nozzle slot 61, from which the supply air exits in the outflow direction 62 at an angle γ ₁ (63) to the material web 10. The outflow direction 62 has a component in the transport direction 12. In the position of the slide device 58 outlined in FIG. 6, this opens an opening 64 between the feed region 55 and the side chamber 57, so that the gaseous medium also exits through the side chamber 57 from a nozzle slot 65 connected to it, with the outflow direction 66 at the angle γ ₂ (67) to the material web. The outflow direction 66 has a component opposite to the transport direction 12, so that the nozzle slots 61 and 65 are directed opposite. A rotating, heatable roller 58 or the pre-chamber 56 is arranged between the nozzle slots 61 and 65 or the side channel 60 and the side chamber 57. The longitudinal axis of the roller 68 is oriented transversely to the direction of transport of the material web and the upper side of the lateral surface lies approximately in the transport plane of the material web 10. The outflow directions 62, 66 that are directed apart create a negative pressure in the areas 69, as a result of which the web of material is pressed against the roller, forming an acute wrap angle of the roller.

When the position of the slide device 58 changes, the Opening 64 are closed so that the supply of the supply air to Nozzle slot 65 is interrupted. When opening 70 the supply air can be supplied from the supply area by the slide device 58 55 enter the antechamber 56. The supply air enters here in contact with the rotating roller 68. On the in the direction of flow 12 lying side of the rotating roller 68 is the Flow around the roller interrupted by a seal 71, the is about three o'clock. On the opposite Side of the roller, i.e. on the back in the flow direction On the side, the supply air can flow freely around the roller 68 and one formed with the roller 68 and an intermediate wall 78 Nozzle slot 72 approximately tangential in the outflow direction 73 to the rotating roller 68 or material web 10 with flow component in the direction of transport 12. By the volume flow in the direction of flow 52 forms between the material web 10 and the roller 68 an air cushion, so that between Roll 68 and web 10 a gap 74 is formed. This is advantageous, for example, when at a standstill the material web 10 the supply of heat from the heated roller 68 to avoid material web.

In the front and rear area of the transport direction Slot nozzle 54 has these outlet surfaces 75, 76, which are approximately oriented parallel to the transport plane of the material web are and in which the supply air in a horizontal between the Runout surfaces 75, 76 and the material web 10 formed channel 77 is guided away from the slot nozzle.

The slot nozzle 54 is also made of extruded profiles, preferably made of aluminum.

The slot nozzles 38, 54 are transversely to the transport direction 12 in End area of the extruded profiles by common in the drawings Walls not shown sealed in such a way that the supply air only enter the slot nozzles 38, 54 through the feed channel 41 can and this only through the nozzle slots 28, 29, 32 or 61, 65, 72 can leave.

Reference symbol list :

10th

Material web

11

Drying chamber

12th

Direction of transport

13

Slot nozzles

14

Slot nozzles

15

upper nozzle box

16

lower nozzle box

17th

Supply air duct

18th

Circulation

19th

Suction channels

20th

Gathering room

21

Flow channel

22

Fan

23

Air heater

24th

Feed area

25th

Antechamber

26

Flow channel

27

Flow channel

28

Nozzle slot

29

Nozzle slot

30th

Side chamber

31

Flow channel

32

Nozzle slot

33

Slide device

34

Outflow direction

35

Angle α ₁

36

Outflow direction

37

Angle α ₂

38

Slot nozzle

39

bolt

40

bolt

41

Feed channel

42

Discharge area

43

opening

44

Flow direction

45

Flow direction

46

opening

47

Flow direction

48

Outflow direction

49

Angle β

50

Basic body

51

Cover body

52

Recess

53

openings

54

Slot nozzle

55

Feed area

56

Antechamber

57

Side chamber

58

Slide device

59

opening

60

Side channel

61

Nozzle slot

62

Outflow direction

63

Angle γ ₁

64

opening

65

Nozzle slot

66

Outflow direction

67

Angle γ ₂

68

roller

69

Area

70

opening

71

poetry

72

Nozzle slot

73

Outflow direction

74

gap

75

Outlet area

76

Outlet area

77

channel

78

Partition

Claims (10)

Device for treating thin material webs (10), in particular made of paper, film or the like, with a gaseous medium, in particular supply air, in a drying chamber (11) through which the material web (10) can preferably be conveyed continuously and in which the medium is directed onto the material web from above and / or from below via a plurality of transverse slot nozzles (13, 14, 38, 54), characterized in that at least some of the slot nozzles (13, 14, 38, 54) have a plurality of nozzle slots (28, 29 , 32, 61, 65, 72) and that the volume flow of the gaseous medium through at least one nozzle slot (28, 29, 32, 61, 65, 72) is adjustable by a control device. Device according to one of the preceding claims, characterized in that the control device has at least one slide device (33, 58) Device according to one of the preceding claims, characterized in that the slide device (33, 58) has a base body (50) and a cover body (51), each with at least one opening (43, 46, 53, 64, 70) which, when open Slider device (33, 58) form at least one common opening (43, 46, 53, 64, 70) for the passage of the gaseous medium to at least one nozzle slot (28, 29, 32, 61, 65, 72), and that the common Opening (43, 46, 53, 64, 70) can be closed by changing the relative position of the base body (50) and the cover body (51). Apparatus according to claim 3, characterized in that in a relative position of the base body (50) and the cover body (51) these form at least one common opening (43, 46, 53, 64, 70) which changes with the relative position of the base body ( 50) and the cover body (51) can be closed to form at least one new opening (43, 46, 53, 64, 70). Device according to one of the preceding claims, characterized in that nozzle slots (28, 29, 32, 61, 65, 72) of a slot nozzle (13, 14, 38, 54) have different outflow directions (34, 36, 48, 62, 66, 73) ) of the gaseous medium. Device according to one of the preceding claims, characterized in that a slot nozzle (13, 14, 38, 54) has three nozzle slots (28, 29, 32) or (61, 65, 72) one behind the other in the conveying direction (12). Apparatus according to claim 6, characterized in that two nozzle slots (28, 29) of a slot nozzle (38) are connected to one another via a prechamber (25) and the supply of the gaseous medium to the prechamber (25) is adjustable via the control device. Apparatus according to claim 7, characterized in that the supply of the gaseous medium to the third nozzle slot (32) of a slot nozzle (38) can be adjusted by means of the or a control device. Apparatus according to claim 8, characterized in that the two nozzle slots (28, 29) connected to one another via a pre-chamber (25) have outflow directions (34, 36) directed towards one another with acute angles α ₁ , α ₂ (35, 37) to the material web ( 10) and the third nozzle slot of the same slot nozzle (38) has an outflow direction (48) with an acute angle β (49) to the material web (10) with β <α ₁ , α ₂ . Device according to one of the preceding claims, characterized in that the division of a partial volume flow of the gaseous medium into an outer nozzle slot (65) of a slot nozzle (54) with a flow direction (66) opposite to the transport direction (12) of the material web (10) and a nozzle slot (72) with outflow direction (73) approximately tangentially to the material web (10) or to a roller (68) can be controlled by the slide device (58).

Images