This application is the US national phase of PCT application PCT/EP02/03776, filed 5 Apr. 2002, published 17 Oct. 2002 as WO 02/081103, and claiming the priority of German patent application 10117668.6 itself filed 9 Apr. 2001.
The invention relates to an apparatus for coating a traveling material web with a slot nozzle emitting a free-falling curtain of coating material and having at each side of its outlet slot a downwardly extending guide element for an edge of the curtain, and with an element at each edge of the web for aspirating coating material.
In order to coat traveling webs, such as paper or cardboard webs or plastic or metal foils, so-called curtain coaters are known that apply the coating material (plastic dispersions, inks, etc.) to the web as a free-falling curtain from a slot nozzle. In order to produce a stable curtain that is uniform over the entire coating width, WO 99/09253 (DE 197 35 558 and U.S. Pat. No. 6,468,592) describes guiding the two curtain edges each with a guide element extending from the slot nozzle down to near the web. The two guide elements are formed as bars and have flat inner faces turned toward the curtain. So as to hold the curtain in contact with the guide elements and thus prevent the curtain edges from moving inward, the inner face of each guide element are coated with a wetting agent, for example water or the coating material, that influences surface tension.
An apparatus of this type known from WO 98/47630 published 29 Oct. 1998 serves for applying dispersions to a web where downstream of the slot nozzle in each edge region of the web there is an element for aspirating the dispersion. Suction nozzles that can be moved vertically and transversely to the web-travel direction are used to aspirate any excess coating on the two web edges. The excess of coating material results from the fact that the curtain is somewhat constricted at its edge guides and thus is applied somewhat more thickly to the web in these regions so as to produce an edge bead. This effect is known as “neck in.” The excess at the edges creates unwanted variations in thickness of the coated web and can lead to problems in a subsequent dryer or when rolling up the coated web.
It is an object of the invention to so improve a coating apparatus of the above-described type that, with simplified construction, it is possible to achieve a uniform layer of the coating material over the entire width of the web with straight and sharp coating edges.
This object is achieved in that an aspiration element is fixed at a lower end of each guide element, has an inner face that is turned toward the curtain and aligned with an inner face of the guide element, and is formed with a throughgoing vacuum line opening into a vacuum passage that opens into an aspiration groove that extends vertically on a lower region of the inner face of the aspiration element in a plane of the curtain.
Such construction of the aspiration element ensures on the one hand a trouble-free exactly guided application of each curtain edge up to immediately before it engages the web and on the other hand aspirates any excess coating at the edges horizontally toward the outside and thus eliminates the so-called “neck-in” effect. A sharp and straight edge is produced on coating the web.
The coating apparatus shown in the drawing serves for applying a dispersion adhesive (e.g. an acrylate) in an aqueous solution to a siliconized paper web. Due to its advantageous characteristics, the apparatus can also be used to apply other dispersions onto paper webs or plastic or metal foils as well as to coat paper or cardboard webs with ink.
The apparatus has a slot nozzle 1 that is suspended in a frame of the apparatus above the path of the web. The slot nozzle 1 is connected to a supply of coating material and has on its underside an outlet slot 3 extending the full coating width and from which the coating material drops as a free-falling curtain that lands on the upper surface of the web.
At each side of the slot nozzle 1 directly against the outlet slot 3 is a bar-shaped guide element 2 that extends downward to immediately adjacent the web. Each guide element 2 has an inner face that is turned toward the curtain and that is coated with a wetting agent, for example with water or the coating material. To this end each guide element 2 has above the outlet slot 3 of the slot nozzle 1 a throughgoing hole 4 that is connected to a feed line 5 via which the wetting agent is supplied. At its inner end the throughgoing hole 4 opens into a feed passage 14 running vertically downward from above the outlet slot 3 and having an output end that is level with and directly adjacent the outlet slot 3. The feed passage 14 is of very simple construction, comprised of a vertical straight groove formed on the outer face of the side wall of the slot nozzle 1 and closed when the guide element 2 is fixed to the side wall.
Preferably each guide element 2 is formed as a bar and has a thickness of 0.1 mm to 0.3 mm and a width of about 10 to 20 mm. The length of the guide element 2 corresponds to the height of the curtain, that is the spacing between the outlet slot and the web being coated. In this embodiment the drop height of the curtain and thus the downwardly extending free portion of each guide element 2 is between 50 mm and 250 mm.
It is significant for the invention that each guide element 2 carries at its lower end an aspirating element 6 whose inner face turned toward the curtain is aligned with the inner face of the guide element 2. As a result the curtain edge flowing down the guide element 2 and then onto the aspirating element 6 is not disturbed on its way toward the web. A vacuum passage 7 leads inward through the aspirating element 6 and is connected to a suction line 8. The vacuum passage 7 is at the lower end of the aspirating element 6 and opens into an aspiration groove 9 that extends vertically on the lower end of the inner face of the aspirating element 6. The width parallel to the web-travel direction of the aspiration groove 9 is 0.5 mm to 15 mm, preferably 5 mm to 12 mm, so that aspiration is maintained even when the curtain moves somewhat in a direction transverse to its plane, which here is parallel to the plane of the view in
In order to prevent depositions from forming in the aspiration groove 9 and in the vacuum passage 7, a rinse liquid, for example water, is flushed through them. To this end, two rinse passages 11 extend parallel to the suction line 8 and open into the aspiration groove 9 at a slight spacing upstream and downstream relative to the web-travel direction of the vacuum passage 7. The rinse liquid is carried off with the aspirated coating material by the suction line 8. The suction line 8 is to this end connected to the intake of a pump.
To be able to do some adjustment of the position of the edge of the curtain transverse to the web-travel direction, both guide elements 2 are formed of a limitedly flexible and elastically bendable material, for example spring steel. A support beam 12 extends downward from the side wall of the slot nozzle 1 and is closely juxtaposed with each guide element 2 in order to brace and position it. The support beam 12 is made of a rigid material, for example of fairly thick steel, and ends just short of the aspirating element 6. At its lower end the support beam holds an externally operable adjustment element, for example a screw 13, that can press from outside against the guide element 2. The adjustment screw 13 can limitedly move the free end of the guide element 2 with the aspirating element 6 carried on it transversely of the web-travel direction in order to exactly set the position of the aspiration element 9. In addition the adjustment elements 13 also allow the shapes of the guide elements 2 to be adjusted within limits in order to optimize the guiding and maintenance of the curtain edges.
Number | Date | Country | Kind |
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101 17 668 | Apr 2001 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP02/03776 | 4/5/2002 | WO | 00 | 12/3/2003 |
Publishing Document | Publishing Date | Country | Kind |
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WO02/081103 | 10/17/2002 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4974533 | Ishizuka et al. | Dec 1990 | A |
6048582 | Schweizer et al. | Apr 2000 | A |
6464858 | Brown et al. | Oct 2002 | B1 |
6468592 | Becker et al. | Oct 2002 | B1 |
Number | Date | Country | |
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20050126479 A1 | Jun 2005 | US |