EP1090752A1 - Bearing for a cylindrical screen in a rotary screen printing press - Google Patents

Abstract

The bearing is for the cylindrical vat which is contained on both sides by means of stencil rings (9) in a turnbuckle (8) mounted in an intermediate ring. (2) Each intermediate ring is flat and is spring-mounted in a side-plate (1) of the printer. The intermediate ring can swivel in relation to the side-plate and can move in an axial direction. Of two flat concentric rings the inner ring is connected to the outer ring by two diametrically opposite bridge pieces. The outer ring is joined to a holder enclosing the ring by two diametrically opposite bridge pieces

Description

The present invention relates to a bearing for the circular screen in rotary screen printing units, the screen in cylindrical form recorded on both sides via template rings in a turnbuckle which is in turn rotatable in an intermediate ring is stored.

Printing forms for rotary screen printing are made from so-called Screeny screen printing plates, which are made as cylinders in the Printing unit can be mounted. This material consists of fine mesh stabilized steel mesh and may only be subjected to tension (axial strain on the circular sieve). One if possible uniform sieve tension at standstill should be aimed for, because during the printing process is from the inside Doctor blade additionally applied a different torsional moment.

Very different screen tensions locally cause one Wave formation on the screen circumference.

The inherent stability of the sieve is guaranteed by the cylindrical shape.

• Die Konstruktion des Spannschlosses mit der üblichen U-förmigen Ausnahme verursacht bei axialer Belastung ein Kippen des Lagers.
• Die Geräte zur Herstellung der Siebe weisen Abweichungen auf oder können mit Klebstoffresten verschmutzt sein, so dass die äusseren Schablonenringe nicht genau zueinander fluchten.
• Unter der axialen Spannung, die für das Sieb notwendig ist, werden die Seitenplatten mit den Lagerstellen verformt, so dass die Achsrichtungen zueinander einen Winkel bilden.
• Allgemeine Toleranzen im Druckwerk können zu verschiedenen Fehlern führen, z.B. Koaxialabweichung der Lagerpositionen zueinander etc.

The screen is loaded differently for several reasons during insertion and during the printing process:

• The construction of the turnbuckle with the usual U-shaped exception causes the bearing to tilt under axial load.
• The devices for the production of the screens have deviations or can be contaminated with adhesive residues, so that the outer template rings are not exactly aligned with one another.
• Under the axial tension, which is necessary for the sieve, the side plates are deformed with the bearing points, so that the axial directions form an angle to one another.
• General tolerances in the printing unit can lead to various errors, e.g. coaxial deviation of the bearing positions from one another, etc.

Experience has shown that the swiveling movement on the Sieve sides to compensate for all causes up to max. 0.5 ° should. If no compensation can take place, there will be ripples observed on the pressure screen. These shorten the sieve life and lead to early sieve failures and loss of quality in print.

It should also be mentioned that the sieve does not transmit any moments can, so that a compensation without restoring torque is practical must be done without power.

The object of the present invention is to provide a screen storage find which under axial loading all influences for uneven Can compensate for fabric tension.

The tried and tested turnbuckle with a U-shaped receptacle is to be retained can be. The storage should be as flat as possible Be a design and integrate on both sides in the side panels to let.

A "simple" spherical bearing could compensate create, however, requires a complex for axial movements Construction. For the proper functioning is a bigger one Wrapping necessary, otherwise the ball acts as if Wedge. The size and speed is critical, if as spherical plain bearing executed.

A purely gimbal bearing has similar disadvantages.

The task is now at a circular sieve storage at the beginning defined type according to the invention by the features of characterizing part of claim 1 solved.

This solution essentially includes a flat intermediate ring, which is held so resiliently in the side cheek, that besides a swivel with respect to the cheek also one Displacement in the axial direction is possible.

Fig. 1

eine perspektivische Ansicht auf die Innenseite einer Seitenwange eines Siebdruckwerkes mit in der Wange montiertem erfindungsgemässem Lager für den Siebdruckzylinder;

Fig. 2

einen Vertikalschnitt, rein schematisch, entlang der Linie II-II von Fig. 1;

Fig. 3

das eine Ende eines auf einen Schablonenring aufgesetzten Siebdruckzylinders;

Fig. 4

einen Vertikalschnitt durch die Siebdruckzylinderachse im Bereich von Spannschloss und Zwischenring;

Fig. 5

rein schematisch eine zum Einsatz in eine Druckwerkwange vorgesehene Platte mit integriertem Zwischenring (aus zwei mit federnden Stegen miteinander verbundenen konzentrischen Ringen) als Variante des Lagers, und

Fig. 6

eine weitere Variante des erfindungsgemässen Lagers, insbesondere den Zwischenring bestehend aus einem inneren Basisring mit in dessen Ebene radial nach aussen abstehenden Federzungen.

Particular embodiments of the invention are defined in the dependent claims. The invention is explained in more detail below with reference to exemplary embodiments shown in the drawing. It shows:

Fig. 1

a perspective view of the inside of a side cheek of a screen printing unit with the inventive bearing mounted in the cheek for the screen printing cylinder;

Fig. 2

a vertical section, purely schematically, along the line II-II of Fig. 1;

Fig. 3

one end of a screen printing cylinder placed on a stencil ring;

Fig. 4

a vertical section through the screen printing cylinder axis in the area of turnbuckle and intermediate ring;

Fig. 5

purely schematically, a plate intended for use in a printing unit cheek with an integrated intermediate ring (consisting of two concentric rings connected with resilient webs) as a variant of the bearing, and

Fig. 6

a further variant of the bearing according to the invention, in particular the intermediate ring consisting of an inner base ring with spring tongues projecting radially outward in its plane.

Figures 1 to 4 show a first embodiment of an inventive Bearing in a side cheek 1 of a screen printing unit. There is an intermediate ring 2 for rotatably receiving the conventional turnbuckle 8 provided, the Stencil ring 9 carrying screen cylinder in the U-shaped receptacle of the turnbuckle 8 is used.

The intermediate ring 2 is by means of its four to each other by 90 ° offset cylinder pins 3 stored. Pins 3 are held by two flat springs 4, 5 and towards the center centered. A third spring 13 on the back of the cheek 1 keeps the intermediate ring 2 in a de-energized state (Balance of forces). For the positioning of the pins 3 are Two cylindrical ones protruding from each other at a distance from each other Pins 6, 7 are provided.

Thanks to this storage, the screen printing cylinder can each in Take on the resulting position (it can become under load pivot with respect to the cheek 1 and in the axial direction also against the action of the springs move).

The depth of deflection under axial load is determined by the Flat springs determined. It is an advantage if one side has stronger springs, so that the screen printing cylinder Load changes only slightly shifted.

Fig. 2 shows in particular the arrangement or effect of the the cylinder pins 3 acting springs 4, 5 and 13th

Fig. 4 shows the arrangement of the turnbuckle 8, which Thin ring bearing 14 is received in the intermediate ring 2.

5 shows a variant of a variant of the invention in a purely schematic manner Storage. In a plate 15 there are two concentric ones Rings 16, 17, each with two resilient connecting webs 18, 19 or 20, 21 incorporated. The webs are each 180 ° to each other offset (the position of the inner webs 18, 19 is too the outer webs 20, 21 offset by 90 °).

This flexible (resilient) storage can in particular Compensate and allow axial runout (wobbling movements of the axis) plus swivel movements and slight axial shifts.

6 finally shows a further variant of a resilient Bearing for the intermediate ring. It consists of an inner base ring 22 and a plurality in its plane radially outwards protruding spring tongues 23.

In the base ring 22, the intermediate ring is used while the outer ends of the spring tongues held laterally in the cheek become. This particularly simple embodiment can do the same Swivel and lighter requirements to meet axial displaceability as described above Camp.

Claims (6)

Bearings for the rotary screen in rotary screen printing units, whereby the sieve in cylindrical form on both sides via template rings a turnbuckle is included, which in turn is rotatable is mounted in an intermediate ring, characterized in that that each intermediate ring in the form of a flat component in one Side cheek of the printing unit is so resiliently mounted that he is under load at least within predetermined limits pivot with respect to the cheek and in axial direction. Bearing according to claim 1, characterized in that the Storage takes place over two flat concentric rings, whereby the inner ring over two diametrically opposed webs communicates with the outer ring while the outer Ring also over two diametrically opposite Bridges which are 90 ° from the inner connecting bars are offset in connection with a holder surrounding the ring stands. Bearing according to claim 2, characterized in that all Parts of the bearing of the intermediate ring in a plate, e.g. a steel plate, are integrated. Bearing according to claim 1, characterized in that the Intermediate ring with four radially protruding, offset by 90 ° to each other Pins is provided, which on the associated Sidewall are held so that the intermediate ring is not can rotate around its axis, but against the force of Return springs with respect to the cheek and in the axial direction can easily pivot or move. Bearing according to claim 4, characterized in that each the pins of the intermediate ring between two guide bolts the side cheek is supported and through from the front and back the pins acting flat springs is acted on in such a way that the intermediate ring regardless of any axial load in is de-energized. Storage according to claim 1, characterized in that everyone Intermediate ring in a fixed in the side cheek, flat, annular spring element is held, which from a base ring and a plurality in the radial plane protruding spring tongues is formed, the intermediate ring sits firmly on the base ring and the spring tongues only are held at their outer ends.

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