CS244280B1 - Equipment for aerodynamic cleaning of sheet materials, in particular belts - Google Patents

Abstract

The invention provides a device for aerodynamic cleaning of sheet materials, in particular strips. The device is formed in such a way that two rows of circular nozzles inclined at an angle are formed in the nozzle wall at the cleaning head, and slots are formed on both sides of the circular nozzles at a distance from the intersections of the axes of the nozzles. The total slits cross section is at least 20% larger than the total cross section of the circular nozzles. The nozzle wall is positioned to the plate material such that the intersection of the circular nozzle axes lies on the surface of the plate material, the nozzle wall cleaning heads may be located on either side of the plate material, or alongside the plate material side by side.

Description

BACKGROUND OF THE INVENTION The present invention relates to an apparatus for the aerodynamic cleaning of sheet materials, in particular belts, in which the supply of air to the sheet material by means of circular nozzles and the extraction of air with dirt through continuous slots are provided.

In industrial processing of film strips, especially in their copying, the problem is to ensure their cleanliness. This means removing solid particles of dirt adhering to the surface of the film web. Until now, film cleaning has been performed by velvet, ultrasonic, and the use of the aerodynamic effects of air streams has recently been introduced. Aerodynamic strip cleaning is a fairly complex air handling system and is designed with varying degrees of perfection. From a functional point of view, the most important element of the system is the scrub head. Its solution is very different. In some cases, only suction of contaminants is considered by providing a vacuum around the film web. Other scrub heads use a film strip blowing system wherein the flowing air releases particles from the film surface and pptom is aspirated. Other solutions use air streams from the film impact nozzles, which again release particles and the air with dirt is exhausted. The efficacy of the release of the dirt particles and their suction is generally variable, but always insufficient. For example, in a solution with only suction of dirt, to achieve greater efficiency, the apertures to create a vacuum would have to be in close proximity to the film web, which is not practically feasible. When using air jets from the nozzles impinging on the film, only a certain geometric arrangement between the air jets and the cleaned film and the high velocity of the air jets can ensure a higher cleaning efficiency of the system. Likewise, the cleaning efficiency will depend on the arrangement of the air inlet openings and their exhaust from the blower compartment.

The disadvantages of the prior art solutions are largely eliminated by the apparatus for aerodynamic cleaning of sheet materials, in particular the inventive belts, which consists in the fact that in the cleaning head two rows of circular nozzles are formed at an angle to each other at an angle and There are slots formed in the nozzle wall at a distance from the intersections of the axes of these nozzles. The total cross-section of the slots is at least 20% larger than the total cross-section of the circular nozzles

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The nozzle wall is positioned to the plate material such that the intersection of the axes of the circular nozzles lies on the surface of the plate material. The cleaning heads with the nozzle wall may be located on either side of the plate material and / or along the plate material side by side.

An advantage of the apparatus for aerodynamic cleaning of sheet materials, in particular strips, according to the invention is that the turbulent properties of the impact currents are utilized as they interact with each other on the surface of the material. The arrangement of the circular nozzles and slots creates a highly turbulent flow on the surface of the material, which entrains the particles of dirt more intensively from the material web, dispersing them into the air stream, with which the boundary layers are more easily sucked away. This significantly increases the cleaning efficiency of the material surface.

An exemplary embodiment of an apparatus for aerodynamic cleaning of sheet materials is shown in the accompanying drawing, wherein FIG.

The cleaning head comprises a nozzle cocoon 2 to which the nozzle wall J is connected. In the nozzle wall two rows of circular nozzles 2 are formed inclined at an angle? On both sides of the circular nozzles 6 at a distance L from the intersections 6 of the axes of the circular nozzles 2, which is 6 to 15 diameters of the circular nozzle 2, slots 6 are formed in the nozzle wall. The overall cross-section of the slots I is at least 20% larger than the overall cross-section of the circular nozzles 2. The cleaning head with the jet wall thus formed J is positioned on the sheet material 2, in this case the film strip. The cleaning head 1 may be positioned in combination on both sides of the sheet material 1 opposite or side by side on one or the other side of the material.

The air supplied by the oblique circular nozzles 2 meets at the surface of the plate material 1. The air upon impact on the plate material 1 flows through the space formed between the material JL and the nozzle wall J, uniformly on both sides to the slots I. plate surface

3 244 280 of the material 1 and dispersed in the air stream by which they are carried away from the cleaned sheet material 1 and sucked through the slits 5. The aerodynamic cleaning apparatus of the sheet materials according to the invention can also be used to remove impurities from foils, cassette tapes and the like.

Claims (3)

Apparatus for aerodynamic cleaning of plate materials, in particular strips, comprising a cleaning head comprising a nozzle chamber with a nozzle wall with circular nozzles and slots, characterized in that two rows of circular nozzles (4) inclined to one another are formed in the nozzle wall (3) at an angle () and on both sides of the circular nozzles (4) at. of the distance (L) from the intersections (6) of the axes of the circular nozzles (4), slits (5) are formed in the nozzle wall (3) whose overall cross-section is at least 20% larger than the overall cross-section of the circular nozzles (4); 3) is positioned to the plate material (1) so that the intersection (6) of the axes of the circular nozzles (4) lies on the surface of the plate material (1). Device according to claim 1, characterized in that the distance (L) of the slots (5) is 6 to 15 diameters of the circular nozzle (4). Device according to Claims 1 and 2, characterized in that the cleaning head with the nozzle wall (3) is arranged on either side of the plate material (1) or alongside the plate material (1).