This application is the U.S. national phase of PCT application PCT/EP2003/050857 filed 20 Nov. 2003 with a claim to the priority of German patent application 10254793.9 itself filed 22 Nov. 2002, whose entire disclosures are herewith incorporated by reference.
The invention relates to a device for applying a wide liquid film in laminar flow in even thickness over its working width to a continuously advancing strip of goods. The device has a liquid reservoir that is restricted on one side by a intake face that is inclined upward at an angle to the horizontal and extends the entire working width, which is followed in the downstream direction by a spillover weir and a runoff face connected thereto, from the bottom edge of which the overflowing liquid film runs off onto the strip of goods, and which is preferably restricted on the other side by an opposing intake face disposed above the first intake face and with a space therebetween. The liquid reservoir has a liquid intake region.
A device of such kind is known from U.S. Pat. No. 5,887,459. A characterizing feature of that device is that the liquid is applied evenly to a strip of goods as it advances. This is true initially for any quantity of a paint to be applied. However, it has been shown for larger quantities that with necessarily thick liquid films the pressure from the feed pumps must be so great that the liquid separates from the surface at the spillover weir. The liquid overshoots the spillover weir, and it is no longer possible to apply the liquid evenly over the working width of the runoff face. This problem of constantly increasing kinematics to counter the effective gravity was observed for application quantities between 50 and 200 l/m/min. Of course, it also applies for larger application quantities.
The object of the invention is to improve an application device of the kind described in the introduction so that any volume may be distributed evenly over the working width in a given time unit.
To attain this object, according to the invention a diverter block extending over the entire working width is attached to the spillover weir or the runoff face to limit the flow rate. The effect of this diverter block is to slow and deflect the liquid rushing over the spillover weir, thus forcing it to run down on the runoff face at a thickness that is predetermined via the adjustable diverter block.
According to above-cited U.S. Pat. No. 5,887,459, a divider comb is arranged inside the liquid reservoir and is designed to have a calming and homogenizing effect on the liquid as it flows over the spillover weir. In conjunction with the diverter block provided according to the present invention, which limits the film thickness of the flow area over the entire working width, it is also advantageous if the free ends of this comb are curved in such manner that they extend over the spillover weir and down onto the runoff face.
The drawing is an exemplary illustration of a device according to the invention. In the drawing:
The liquid application device shown in
A solid member 7, the liquid distribution mechanism, is attached in liquid-impermeable manner to the side of bar 1 on the intake face 3 and forms a liquid reservoir 8 adjacent the spillover weir 2. This liquid reservoir 8 is defined on one side by the intake face 3 and oppositely by a face 9 of the liquid distribution element, which is arranged above, parallel to, and at a spacing from the intake face 3.
A liquid collecting space 10 is formed at the end of the liquid reservoir 8 opposite the spillover weir 2. It is fed by a plurality of bores 11 that pass through the liquid distribution mechanism 7, and have liquid inflow apertures 12 at the lower end of the liquid reservoir 8.
A liquid distribution mechanism 13 as described in U.S. Pat. No. 5,243,841 is arranged at the opposite, upper end of bores 11.
It is normally sufficient if the stream of liquid that is pumped through bores 11 flows to spillover weir 2 and from there flows downward over runoff face 4. However, with large application quantities of 50 l/m/min and more there is a risk that the liquid distributed over the working width of the application device may flow so quickly that the kinematics exceed the force of gravity at the spillover weir 2. With such large quantities of liquid, it may happen that the liquid overshoots the spillover weir 2. To prevent this, a liquid diverter block 14 that blocks the overshooting liquid extends the full length of the application device adjacent the spillover weir 2. It has a downwardly projecting lip 15 that forms a flow gap 16 with the runoff face 4. By this means, the advancing volume of liquid is forced to follow the path over the spillover weir 2 collects upstream of the flow gap 16 and then flows with the desired thickness and in the desired volume along the runoff face 4 over the entire width of the application device and onto the goods 6.
Of course, the spacing of the liquid diverter block 14 is adjustable via screws 17 that engage with member 7.
A divider comb 18 is arranged inside the liquid reservoir 8, and a lower mounting rail 19 thereof closes off the bottom the liquid reservoir 8. It is advantageous if the free ends 20 of the teeth of the divider comb 18 are shaped to curve downward as shown in
Number | Date | Country | Kind |
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102 54 793 | Nov 2002 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP03/50857 | 11/20/2003 | WO | 00 | 11/8/2005 |
Publishing Document | Publishing Date | Country | Kind |
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WO2004/048671 | 6/10/2004 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5243841 | Fleissner | Sep 1993 | A |
5887459 | Fleissner | Mar 1999 | A |
5913905 | Fleissner | Jun 1999 | A |
5996154 | Fleissner | Dec 1999 | A |
Number | Date | Country |
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9302905 | Aug 1994 | DE |
0753357 | Jan 1997 | EP |
3-94865 | Apr 1991 | JP |
Number | Date | Country | |
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20060144328 A1 | Jul 2006 | US |