DE102006027529A1 - Material web e.g. paper web, guiding device, has housing with guiding surface, where gas outlets are arranged in guiding surface, and compressed gas is discharged via gas blowing openings that are arranged outside of guiding surface - Google Patents

Abstract

The device has a housing (7) with a guiding surface (8), where gas outlets (9) are arranged in the guiding surface. The gas outlets are connected with a gas pressure producing device e.g. blower. The housing has gas blowing openings (16, 17), which are arranged outside the guiding surface, where compressed gas is discharged through the gas blowing openings. The gas outlets and the gas blowing openings are in connection with the same gas pressure producing device. An independent claim is also included for an arrangement with a coating mechanism for a material web and a device for contactless guiding of the material web.

Description

The The invention relates to a device for non-contact guiding a Material web, in particular a paper or board web, with a housing, the has a guide surface, in the gas outlet openings are arranged, which are connected to a gas pressure generating device are. Furthermore, the invention relates to an arrangement with a coating device for one Material web and such a device.

A device for non-contact guiding a material web of the type mentioned is, for example EP 1 041 026 B1 known. In the production and processing of webs, such as paper or board webs, it is often necessary to redirect the web without contact. This applies, for example, when the web has been coated in a coating system. As long as the coating has not become solid or dry, one can not touch the web on its coated side to guide or deflect it. It is therefore used a compressed gas cushion, in most cases, a compressed air cushion on which the train can rest when diverting or in another guide. The air cushion then supports the material web.

you However, in some situations it can be observed that the coated one Side of the track despite the non-contact shoring up not the quality that you would expect.

Of the Invention is based on the object, the quality of a surface of the To ensure material web in a simple manner.

These Task is characterized in a device of the type mentioned by solved, that this casing outside the guide surface at least one gas blowout has, is discharged through the compressed gas.

This Design is the following consideration basis: if a material web, for example a paper or board web, in a "coater", ie in a coating device, enters, has they often increased Temperature of for example 80 to 90 ° C. The coating, for example A dash, is usually with a certain moisture content applied. The coating typically has temperatures between 35 and 50 ° C on. After the coater can change the temperature of the coated web therefore quite between 60 and 70 ° C be. Due to the increased Temperature can evaporate considerable amounts of water from the coating composition and significantly increase the dew point in the vicinity of the track. hereby It may be at the guide device or other elements to condensation. There is the Danger, for example liquid drops on the surface get the web and affect this negative. If Now through the at least one gas exhaust port additionally gas, preferably air, ejects, then Can the moisture-laden air in the environment of the surface of the Railway "diluted". With others Words, the relative humidity in this air is lowered, so that Risk of dripping on colder Components, in particular on the housing the guiding device, can be kept small or even completely eliminated. The emerging from the gas discharge opening Gas can also be used to remove the moisture-laden air simply blow away from the train, so by drier air too replace. If in the following of "air" is mentioned, then can do that naturally Any other gas should be meant for the treatment of the material web is used. For the dilution the moisture-laden air is used one of the gas outlet openings separate gas outlet.

Preferably stand the gas outlet openings and the gas exhaust port with the same gas pressure generating device in conjunction. The gas pressure generating device is for example as a blower formed, which generates a certain air pressure, which ultimately the material web opposite the guide surface is supported.

preferably, is the gas exhaust opening Throttle upstream. The throttle body serves as Mengeneinstelleinrichtung for the from the gas outlet expelled Air. Such a measure is particularly advantageous if both the gas outlet openings as well as the gas discharge opening supplied by the same gas pressure generating device. Because the gas outlet openings at least partially covered by the material web results Here is a relatively high flow resistance for the compressed air. Without further action then there is a risk that the biggest part the compressed air from the Gasausblasöffnung exit and the support function the gas outlet openings no longer guaranteed is. With the throttle body can be counteract this phenomenon.

Preferably, a flow obstacle is arranged on a web feed side and / or on a web drain side, and the gas blow opening is arranged in a region of the housing which is located on the side of the flow obstacle facing away from the guide surface. Such a flow obstacle is from the aforementioned EP 1 041 026 B1 known. It is used to prevent fluttering of the web by stabilizing an airflow adhering to the web. The Flow obstacle is formed in the simplest case as a plate. In most cases, the flow obstacle has a certain distance from the guide surface in the direction of travel of the web. If the gas discharge opening is arranged outside the guide surface and even outside of the flow obstacle, then the gas discharge opening has a corresponding distance from the guide surface and therefore can disarm the mist or the moisture-laden air relatively early.

Preferably the gas outlet is a Gas heater upstream. With the gas heater can the temperature of the air expelled through the gas exhaust port elevated become. With it increased also the ability this air to absorb moisture. This air therefore improves the drying effect on. Since the gas heater in many make also a temperature increase of the housing causes, it reduces the risk with the increase in temperature at the same time drop formation, i. a condensation of moisture on Casing.

Preferably the heater is associated with a Gasttemperaturinstelleinrichtung. This can be Save energy. The air expelled through the gas exhaust port does not have to be overheated. It's enough to warm them that the Air in the vicinity of the device for non-contact guidance in sufficient dimensions is dried.

Preferably is on the case at least one humidity sensor arranged, which is connected to a control device is connected, which controls the gas outlet from the gas exhaust port. Again, this is a measure to control the air outlet from the Gasausblasöffnung so that as possible little energy is wasted. When the humidity sensor has a Moisture value, which becomes dangerous, then the must the gas outlet expelled Air either further heated or with a larger amount pushed out be used to dry the ambient air.

preferably, is the case arranged in the direction of gravity above the gas outlet openings. In this Case is the guided Material web underneath the housing, whereby in particular there is a danger that on the housing Condensate forms and drips. In this case, the gas discharge opening of particular advantage because they dripping of condensate drops on the surface prevents the material web.

preferably, shows the case at least one end wall, which is transverse to the direction of movement the material web extends, and the gas discharge opening is in the end wall arranged. This is a particularly simple design to make sure that the air expelled from the gas exhaust port reaches the area of the ambient air, through the material web Moisture is introduced. If, for example, the incoming Rail blows air, then the moist air is diluted or deflected out of the critical area of the housing of the guide device. But it may also be useful, the gas blowout or even to the expiring Train to increase the moisture content of the air there reduce and condensation on subsequent aggregates to prevent.

Preferably the end wall has at least two staggered sections on and in each section, at least one gas exhaust port is provided. This avoids that form moisture nests on any steps, which in turn lead to condensation could.

The Task is characterized in an arrangement of the type mentioned by solved, that the Device for contactless To lead the material web additionally Has at least one gas exhaust port.

The Invention will be described below with reference to a preferred embodiment described in conjunction with the drawing. Herein show:

1 an arrangement with a coating device for a material web and a device for non-contact guiding,

2 the device for non-contact guiding the web in side view and

3 the device after 2 in front view.

1 shows a coating device 1 for coating a material web 2 , in particular a web of paper or cardboard. The coating apparatus has two rollers 3 . 4 auf, which apply in a manner not shown, but known per se, a coating, such as a line on the surface of the web. Instead of the illustrated coating device 1 that with rollers 3 . 4 works, you can also use any other commissioned work, such as a so-called "curtain coater", in which the coating is applied in the form of a liquid curtain.

If now one or both surfaces of the web 2 have been provided with a coating that is still relatively moist, then the web 2 not be touched on this surface in order to be able to handle it further. It is assumed in the following that the material web has a coated upper side 5 but must be redirected in subsequent processing, with this deflection at the top 5 must be done. For this purpose, it is known to provide a so-called "Air Turn", ie a device 6 with which the material web 2 can be guided or deflected without contact.

The device 6 is in the 2 and 3 shown in more detail. The device 6 has a housing 7 on, on its underside a guide surface 8th has, in the across the width of the web 2 and thus across the width of the housing 7 that is at least the width of the material web 2 has, a plurality of gas outlet openings 9 are provided. The gas outlet openings 9 stand with a fan 10 in conjunction, which acts as a gas pressure generating device. The from the gas outlet openings 9 escaping air that is under some pressure creates an air cushion 11 between the guide surface 8th and the material web 2 on which the material web 2 is supported without contact. Accordingly, the surface should be at the top 5 Do not take damage here.

At a railway entrance 12 and at a train exit 13 the device 6 are baffles 14 . 15 arranged. These baffles are off EP 1 041 026 B1 known and serve to stabilize the air flow and thus prevent fluttering of the web. For the sake of simplicity, it is shown that the baffles 14 . 15 the material web 2 touch. In fact, the baffles have 14 . 15 a distance in the range of about 5 to 30 mm to the material web 2 , If necessary, you can also use other "flow obstacles".

In some situations, there is now the top 5 the material web 2 despite the non-contact deflection by the device 6 Quality problems. These may be due to the following phenomenon:
The material web 2 in the coating device 1 comes in, often comes from the dryer section of a paper machine or other upstream processing device in which the web 2 an elevated temperature of for example 80 or 90 ° C receives. Due to the usually somewhat colder coating mass, a web temperature of 60 to 70 ° C can be set after the coating device. This results in significant amounts of water evaporating from the web and thus the dew point in the immediate vicinity of the web is significantly increased. There is a risk that the device 6 Condensation occurs, which would result in undesirable dripping.

To counteract this effect, the housing has 7 the device 6 in addition to the gas outlet openings 9 even more gas exhaust openings 16 . 17 on, which also over the width of the housing, ie transversely to the direction of the web 2 , are distributed. These gas vents 16 . 17 are in a frontal area 18 of the housing 7 arranged and in the front side 18 , the incoming material web 2 is facing. The material web 2 runs in the direction of an arrow 19 , This will remove the air from the gas exhaust 16 . 17 is directed into the area where the mist is present. The air coming out of the gas vents 16 . 17 is ejected, then leads to a "dilution" of the moisture-laden air, so to a reduction in the relative humidity.

The gas exhaust openings 16 . 17 have no supporting function. They are even arranged outside an area that passes through the baffles 14 . 15 is limited and in which the gas outlet openings 9 are arranged. The air passing through the gas vents 16 . 17 is ejected, only serves to damp the air in the environment of the device 6 decrease.

Of course, instead of air as a gas, you can also use another gas, if this is for the treatment of the web 2 is required.

The air passing through the gas vents 16 . 17 is ejected from the same blower 10 that also includes the gas outlets 9 supplied with air under a certain pressure.

So you get the blower 10 conveyed air targeted to the gas outlet openings 9 on the one hand and on the gas exhaust openings 16 . 17 on the other hand, is a throttle body 20 provided as a Mengenbegrenzer for from the Gasausblasöffnungen 16 . 17 expelled air is used. So you can through the Gasausblasöffnungen 16 . 17 ejected portion of the compressed air from the blower 10 must be generated, set specifically.

Of course, such a throttle body 20 also inside the case 7 be arranged.

Between the blower 10 and the gas exhaust ports 16 . 17 is also a heater 21 arranged the air from the blower 10 heated before these from the gas exhaust 16 . 17 is ejected. The heater 21 can be a temperature sensor 22 downstream, in turn, to the heater 21 is coupled back so that the air passing through the gas exhaust 16 . 17 is ejected and referred to as "dilution air" in the following selectable temperature is adjustable. This allows the energy consumption of the heater 21 within certain limits.

At the housing 7 is also a humidity sensor 23 arranged, which determines the humidity of the air located there. This moisture sensor 23 is with a control device 24 connected to the heater 21 and / or the throttle body 20 actuated to reduce the humidity in the area of the housing 7 below a critical value. For this example, the temperature of the dilution air by the heater 21 be increased or the amount of dilution air through the throttle body 20 increase.

The gas exhaust openings 16 . 17 are preferably designed as nozzles, thus have a comparatively small diameter, for example in the order of 10 mm. So you blow the moist air from the case 7 away, which on the one hand leads to the above-mentioned dilution, on the other hand, but also to a displacement of the moist air.

Claims (11)

Device for the contactless guiding of a material web, in particular a paper or board web, with a housing which has a guide surface, in which gas outlet openings are arranged, which are connected to a gas pressure generating device, characterized in that the housing ( 7 ) outside the guide surface ( 8th ) at least one gas outlet opening ( 16 . 17 ), is discharged through the compressed gas. Apparatus according to claim 1, characterized in that the gas outlet openings ( 9 ) and the gas discharge opening ( 16 . 17 ) with the same gas pressure generator ( 10 ) keep in touch. Apparatus according to claim 1 or 2, characterized in that the gas discharge opening ( 16 . 17 ) a throttle body ( 20 ) is connected upstream. Device according to one of claims 1 to 3, characterized in that on a web feed side ( 12 ) and / or on a web drain side ( 13 ) a flow obstacle ( 14 . 15 ) is arranged and the Gasausblasöffnung ( 16 . 17 ) in an area of the housing ( 7 ), which is located on the guide surface ( 8th ) facing away from the flow obstacle ( 14 . 15 ) is located. Device according to one of claims 1 to 4, characterized in that the gas outlet opening ( 16 . 17 ) a gas heating device ( 21 ) is connected upstream. Apparatus according to claim 5, characterized in that the heating device ( 21 ) a gas temperature adjuster ( 22 ) assigned. Device according to one of claims 1 to 6, characterized in that on the housing ( 7 ) at least one moisture sensor ( 23 ) arranged with a control device ( 24 ), the gas outlet from the gas exhaust port ( 16 . 17 ) controls. Device according to one of claims 1 to 7, characterized in that the housing ( 7 ) in the direction of gravity above the gas outlet openings ( 9 ) is arranged. Device according to one of claims 1 to 8, characterized in that the housing ( 7 ) at least one end wall ( 18 ) which transversely to the direction of movement of the web ( 2 ), and the gas exhaust port ( 16 . 17 ) in the front wall ( 18 ) is arranged. Apparatus according to claim 9, characterized in that the end wall ( 18 ) has at least two staggered sections and in each section at least one gas exhaust port ( 16 . 17 ) is provided. Arrangement with a coating device ( 1 ) for a material web and a device ( 6 ) for non-contact guiding of the material web ( 2 ) according to one of claims 1 to 10.