The invention relates to a method and a device for removing particles from webs of material, for example from single-layer or multilayer webs of material which, printed, respectively, on the top and bottom sides thereof, move past variably positionable slitting devices.
The published Japanese Patent Document JP-10 029 746 A discloses a spreader roller which is driven in circumferential direction by a drive and which, in addition to the spreading function, is used to remove paper dust particles from a web of material. The surface of the spreader roller, which simultaneously serves to remove paper dust particles, is provided with helically encircling grooves which, starting from the center of the spreader roller, run in opposite direction to the latter. Cross-pieces which delimit the helical grooves may either be formed of flexible plastic material or from lines of brushes extending in the circumferential direction of the roller.
The published European Patent Document EP 0 245 526 A1 is concerned with a device for removing dust from moving surfaces, in particular moving surfaces of paper. In the dust removal device, a nozzle out of which a gas, Preferably air, flows, is arranged opposite a web of material. The device also has a duct via which air containing the particles which have been sucked up can be extracted; also a high-voltage electrode which may be of either punctiform or linear construction. The high-voltage electrode extends in a first plane which is not parallel to the web of material moving past it. The nozzle may be arranged in either punctiform or elongate configuration, connected in series, while the blowing device extends in a second plane lying downline of the high-voltage electrode, as viewed in the travel direction of the web of material. The two planes mutually intersect in a straight line lying in the travel plane of the material web, perpendicularly to the web travel direction. As viewed in the web travel direction, the punctiform or linear openings extend in front of the high-voltage electrode.
The published European Patent Document EP 0 858 889 A2 is concerned with a dust removal system with a sheet-guiding device which, in a conveying direction of the printed matter, is arranged in front of a pressure zone, the dust removal system being constructed in the form of a suction box with brushes arranged at least in upper and lower regions thereof and being coupled to a suction air source. At least one blow or blast tube, which is so connected in that it extends parallel to the axis of an impression cylinder and over the circumferential surface thereof, with openings which are directed approximately oppositely to the conveying direction, is arranged upline of the dust removal system, as viewed in the conveying direction. It is possible to generate a blowing air flow which is directed in the blowing direction onto the circumferential or jacket surface of the impression cylinder and the upline transfer region of the same impression cylinder.
It is an object of the invention to provide a method and a device for removing particles lying on or entrained by single-layer or multilayer webs of material during processing operations, which are improvements over heretofore known methods and devices of this general type.
With the foregoing and other objects in view, there is provided in accordance with one aspect of the invention, a method for removing from at least single-layer webs of material, particles formed by slitting devices which are arranged along a web travel path in a slitting zone, which comprises generating a suction zone associated with the slitting devices in accordance with the position of a cutting location location or point.
In accordance with another mode, the method includes effecting the suction zone by deflecting flexible elements for delimiting a suction device.
In accordance with a further mode, the method includes deflecting the flexible elements by displacing elements for producing the deflections of the flexible elements in a forcibly coupled manner with the slitting devices.
In accordance with another aspect of the invention, there is provided a device for removing from at least single-layer webs of material, particles formed by slitting devices arranged along a web travel path in a slitting zone, comprising deflection elements movable parallel to an axis of rotation of the slitting devices for deflecting elements forming a suction zone, the deflection elements being coupled to the slitting devices.
In accordance with a further feature of the invention, the elements forming the suction zone are constructed as flexible brushes.
In accordance with an added feature of the invention, the elements forming the suction zone are flexible and are constructed as lamellar displaceable elements.
In accordance with an additional feature of the invention, the elements forming the suction zone delimit an opening formed in a suction device.
In accordance with yet another feature of the invention, the deflecting elements are held on a bearing plate of one of the slitting devices.
In accordance with yet a further feature of the invention, the particle-removing device includes a drive for displacing the bearing plate in a given direction of displacement.
In accordance with yet an added feature of the invention, the direction of displacement extends perpendicularly to the travel direction of the web of material.
In accordance with yet an additional feature of the invention, the suction device comprises a vacuum box with lateral vacuum ports.
In accordance with still another feature of the invention, the suction device is formed with an opening covered by deflectable elements.
In accordance with still a further feature of the invention, the deflectable elements are arranged in rows or series.
In accordance with still an added feature of the invention, the deflection elements comprise a rounded contour.
In accordance with still an additional feature of the invention, the deflection elements are capable of generating a suction zone lying in the web travel plane and extending into an outlet wedge of the mutually cooperating slitting devices.
In accordance with a third aspect of the invention, there is provided a jobbing web-fed rotary printing machine having a device for removing from at least single-layer webs of material, particles formed by slitting devices arranged along a web travel path in a slitting zone, comprising deflection elements movable parallel to an axis of rotation of the slitting devices for deflecting elements forming a suction zone, the deflection elements being coupled to the slitting devices.
In accordance with a fourth aspect of the invention, there is provided a newspaper rotary printing machine having a device for removing from at least single-layer webs of material, particles formed by slitting devices arranged along a web travel path in a slitting zone, comprising deflection elements movable parallel to an axis of rotation of the slitting devices for deflecting elements forming a suction zone, the deflection elements being coupled to the slitting devices.
In accordance with another mode, the method includes situating the slitting zone in a turner-bar superstructure of a web-processing rotary printing machine.
In accordance with a further feature of the invention, the slitting zone is situated in a turner-bar superstructure of a web-processing rotary printing machine.
The advantages associated with the solutions according to the invention are that, when the position of the slitting device is adjusted, the suction zone is automatically set to the position of the new cutting location or point without special actions being required on the part of the pressman. The suction zone, which is adapted to the position of the current cutting location, extends as far as into the outlet pocket of the two mutually cooperating cutting tools, so that particles such as paper dust or the like can be removed immediately from the top or bottom side of the web of material, which may also be multilayered, at the location at which they are formed; the suction therefore removes the particles directly at the location at which they are formed and prevents them, when moving past guide rollers, from being impressed into the top and bottom side of the respectively outermost paper webs of multilayer paper webs.
In a further configuration of the concept upon which the invention is based, with the method according to the invention, a suction zone is defined by a deflection of flexible elements which delimit a suction device. If the elements which produce the deflection are coupled to the slitting devices, the zone which sucks out the particles is inevitably generated in accordance with the displacement position of the slitting tools by adapted deflection of flexible elements. Thus, there is no need for readjustment by the pressman, and the position of the suction zone is automatically adjusted to the corresponding position of the slitting tools; where the following text refers to one slitting device, it is also intended to mean a plurality of slitting devices which can be adjusted independently of one another transversely with respect to the travel direction of the webs of material.
According to the device for removing particles from webs of material which is also proposed in accordance with the invention, the elements which are respectively assigned to a slitting device and form the suction zone may be constructed as flexible brushes or tufts of bristles. These are advantageously arranged so that they close off an opening, which extends across the width of the web of material, in the vacuum box of the suction device, only those flexible brush elements which form the suction zone being deflected, and the opening in the vacuum box being kept closed by the brush elements which are arranged in series or rows and are not deflected.
To set individual working positions of the slitting devices, the bearing plates thereof may be driven in a manner that they can be displaced transversely to the web travel direction. The suction device, which is installed in a stationary position and is preferably arranged beneath the web of material, is formed by a vacuum box, of which the opening, which is positioned in the web travel direction, is closed by the flexible brush elements which, when not deflected, are in a vertical orientation. When the brush elements are deflected by a deflection element held on the displaceable bearing plate of the slitting tools and preferably having a uniformly rounded external contour, a suction region which lies in the web travel plane is produced and preferably extends beneath the exiting web of material as far as into the outlet pocket of the mutually cooperating cutting tools.
The solution according to the invention can advantageously be used in web-processing Jobbing or newspaper printing machines wherein single-layer or multilayer webs of material are slit into web strands in accordance with the product configuration to be produced and are then guided above one another.
Other features which are considered as characteristic for the invention are set forth in the appended claims.
Although the invention is illustrated and described herein as a method and a device for removing particles from webs of material, it is nevertheless not intended to be limited to the details shown, since various modifications and structural changes may be made therein without departing from the spirit of the invention and within the scope and range of equivalents of the claims.
The construction and method of operation of the invention, however, together with additional objects and advantages thereof will be best understood from the following description of specific embodiments when read in connection with the accompanying drawings, wherein:
Referring now to the drawings and, first, particularly to
According to the web travel direction 6, which could also extend in the vertical direction or may be reversed by 180°, the web of material 5, in the exemplary embodiment shown in
The deflection finger 13, which is formed by a deflection angle bracket 19 which has been angled off through 90°, is attached to a bearing plate 18. The illustrated deflection angle bracket 19 is angled off at a 90° angle, however, this angle bracket could also be arranged at a different angle from 90° in the deflection finger 13. The deflection finger 13 can be arranged so that it is easy to exchange on the bearing plate 18 by an attachment element or fastener 14; it is readily possible to exchange the deflection finger 13 with a deflection angle bracket 19 which is formed with a specific rounding 25 (note
Through the intermediary of a drive 15, which is only diagrammatically represented in
The shape of the vacuum box 11 of the suction system 23 is selected so that a delimiting or boundary wall 11.1 and the opening 11.2 allow space for the arrangement of a deflection finger 13 on the bearing plate 18, optimum utilization of space beneath the web of material 5 being desired, on the one hand, and the installation of a deflection finger 13 which generates a sufficiently dimensioned suction zone 26, on the other hand, being possible. The farther the deflection angle 19 which deflects the flexible brushes 17, for example, is oriented towards the roots of the brushes, the farther the flexible elements 17 can be deflected towards the outlet pocket of the mutually cooperating cutting tools 1 and 3, and the farther a suction zone 26 which is established in accordance with the position of the cutting point 4 extends.
Furthermore, it can be seen from the plan view of the device according to the invention for removing particles which is shown in
The instant the bearing plate 18 shown in
It is believed to be apparent from the plan view of the vacuum box 11 according to
Although only one slitting device is shown in
The solution which is proposed in accordance with the invention allows the extraction of the particles which may form during the slitting to take place directly where they are formed, without the occurrence of any entrainment of the particles by the boundary layer which forms on the top side 7 and the bottom side 8 of the web of material 5 and, in this way, being conveyed away. At web velocities of approximately 15 m/s, particles contained in the boundary layer on both sides of the web of material 5 can be removed only by a suction air flow with a velocity in the order of magnitude of approximately 25 m/s. However, a high suction air velocity of this nature requires corresponding blowers and corresponding drive work which, with the solution proposed according to the invention, can advantageously easily be economized on or saved.
Analogous to the illustration which has already been discussed with regard to
Instead of the brushes shown in
On the sides thereof, the support 28 encompassing the deflected brush region 21 is delimited or bounded by side faces 29 which, therebetween, enclose the rounding 30. The support 28, which is provided with an inclined support surface, is attached to the vacuum box 11 by the fastener 14.
A side view of the semicircular support is shown in FIG. 4.
The support 28 has a rounded region 30 (note FIG. 5), which is constructed to run with an inclination 32 with respect to the horizontal. The base of the rounding 30, represented by broken lines in
The support 28 is of crankshaped construction and is formed with a recess 33 wherein a delimiting or boundary wall 11.1 of the vacuum box 11 opens out, at which vacuum box the support 28 is held by an attachment element or fastener 14. The support 28 may be produced both as a metal component and as a component formed from plastic material.
The support 28, whether it be a plastic or metal component, can be held on the vacuum box 11 (note
Number | Date | Country | Kind |
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100 04 305 | Feb 2000 | DE | national |
0011643 | Sep 2000 | FR | national |
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631 858 | May 1933 | DE |
39 14 310 | Oct 1990 | DE |
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40 23 257 | Jan 1992 | DE |
42 29 699 | Mar 1994 | DE |
0 245 526 | Nov 1987 | EP |
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2 240 843 | Aug 1991 | GB |
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Number | Date | Country | |
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20010017144 A1 | Aug 2001 | US |