DE2231452A1 - MAGNETIC PRESSURE CYLINDER - Google Patents

Description

The invention relates to a magnetic printing cylinder for the use of flexible, magnetizable printing plates ιαχΐ a plate & ylinder and a number in the axial direction extending magnetic pole devices, which are arranged side by side on the surface of the plate cylinder.

Due to the increasing use of magnetizable, flexible There has been a need for a magnetic plate cylinder for printing plates. Examples of such cylinders are in the U.S.A. patents 3,039,390 ujid 3,097,598 ("Printing Cylinders") and 3,496,866 ("Magnetic Plate Cylinder"). Are in it explains three of the conventional types of cylinders used for this purpose. In the first two patent specifications

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Treated plate cylinders, which are provided with annular magnetic poles on their outer surface * These two mentioned Plate cylinders have a complicated structure and can only be assembled with great expenditure of time of the latter patent described cylinder has axially extending pole pieces, which only the ends of the Hold pressure plate »With this cylinder, the pressure plate can only be arranged on the magnetic pole pieces.

The object of the invention is to provide a printing cylinder that is better than the known printing cylinders meets these requirements.

In the case of a magnetic printing cylinder of the type mentioned at the outset, this object is achieved according to the invention by at least a profile element, the side walls extending essentially radially for mutual contact with adjacent profile elements has, by several magnet pieces and magnetizable Pcl pieces, which are arranged alternately in a profile element and by means of fixing the magnet pieces and the pole pieces in a profile element.

According to a preferred Ausfüiurungsform the invention, the Magnetpoleinrichtungen- each case a number of ^in: · intervals in a profile element arranged permanent magnets. Non-ferrous spacers ensure that the magnets are fixed in the profile elements. Magnetic pole pieces are arranged between the spacers and the magnets. Spacers and magnetic pole pieces are attached to the profile elements by a simple arrangement. The permanent magnets can be formed either separately or in one piece with the spacer devices to simplify assembly in the profile elements. The profile elements

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can easily be adapted to any cylinder diameter, without having to change the pole pieces, magnets and spacers. A magnetic printing cylinder this type can be used for a large number of printing plate sizes.

The invention creates a forme cylinder with profile elements "made of magnetically isolating material. The outer surface of the magnetic pole devices forms the support surface for the printing plates.

Further features, details and advantages of the invention result from the following description of exemplary embodiments based on the drawing. It shows:

Fig. 1 - a perspective view of an inventive magnetic printing cylinder,

2 shows a partial plan view of one of the magnetic pole devices,

Fig. 3 is a sectional view taken along line 3-3 in Fig. 2 of a magnetic pole device with the between && n. adjacent pole pieces running magnetic fields,

FIG. 4 is a sectional view of one of the pole pieces corresponding to FIG Line 4-4 in Fig. 3?

5 is a sectional view taken along line 5-5 in FIG 3 through an embodiment of a part combined from a spacer and a permanent magnet piece and

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■ Pig. 6 is a sectional view similar to that in Pig. 5 one further embodiment of a combined part.

Pig. 1 shows an inventive! magnetic plate cylinder 10 with a cylinder 12 at both ends of which bearing journals 14 are seated. By a number of magnetic pole devices 16 on the cylinder 12, a magnetic field is generated on its entire outer surface. The magnetic pole devices 16 each have a number of permanent magnet parts. 18 and magnetizable pole pieces 20, which in one Profile element 22 are arranged alternately »The previously assembled magnetic pole devices 16 are on the Cylinder 12 attached and the outer surface of the magnetic pole devices is on by appropriate machining adapted to the desired diameter or circumference of the cylinder 12.

According to the invention, over the entire circumference of the cylinder 12 a magnetic peId generated by the magnetic pole devices 16, to hold magnetizable printing plates. Pig. 2 and 3 show part of the magnetic pole device 16 alternating with the permanent magnet and spacer pieces 18 arranged at intervals in the profile element 22 and the magnetic pole pieces 20. The permanent magnet and spacer pieces 18 and the pole pieces 20 are held in the profile element 22 by means of terminating pieces 30 located at both ends of the element 22. the combined parts 18 border with the same magnetic poles on adjacent common pole pieces 20, which in detail further should be described below.

The profile elements 22 are made of magnetically insulating material, e.g. a non-ferrous metal such as aluminum, brass or rust

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made of free steel «The profile element 22 has means for retaining the combined 3? egg 18 and the pole pieces 20 in the element 22. The fig. 4, 5 and 6 each show such a device, each of which is formed as a form-fit engageable web ■ 32 each of which is formed on an inner surface 34 of the side walls 36 of the profile elements 22. ₄ Although the webs 32 are designed as rectangular ribs, other suitable holding devices with a dovetail or truncated cone shape can also be used. The surface 38 of a lower wall 40 of the profile 22 is shaped to adhere to. the outer surface of the cylinder 12 rests in a form-fitting manner. It can be curved or flat, as in the drawing.

The combined parts 18 can either as -in fig. 5 or in fig. 6 be formed. That in fig. ' 5 shown part 18 has a in the lower part of the profile element 22 to- ' ordered permanent magnet 42 on. The permanent magnet 42 is held in the profile element 22 by means of a spacer 44, which is axially extending flute 46 on both sides for engaging with the webs formed in the profile part 22 owns. At the fig. The second embodiment shown is a one-piece permanent magnet 42 with a spacer 48 trained. The outer shape of the spacer 48 corresponds exactly the inner shape of the profile element 22. The webs are provided on the sides of the spacer 48 Grooves 50 added. Both the spacer 44 and the Abctandsstück 48 Cfig · 5i 6) are made of a magnetically insulating Made of material such as a metal or a plastic.

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The magnetic pole pieces 20 and the terminating pieces 30 also correspond in their shape exactly the same as the inner wall of the profile element 22. On the sides of the pole pieces, 20 and the terminating pieces Grooves 52 provided for 30 take the webs 32 of the profile elements 22 on (Fig. 4-) · The "outer edge 54 · the Pole piece 20 should be adapted in shape to the desired cylinder radius.

The magnetic pole devices 16 are assembled by alternately pushing a combined part 13 and a magnetic pole piece 20 into the profile element 22. The parts 42 (or the parts' - ^L 8 in Fig. 6) are alternately arranged so that the south poles of two adjacent magnets are on both sides of a magnetizable pole piece 20 and the north poles of the next adjacent magnets are on both sides of the next following pole piece 20 are (Fig. 3 »5 and 6).

The Ab Schlußstück3 30 are at the ends of the profile elements fastened by means of pins 60 which, through openings 62 provided in the profile elements 22, are attached to the end pieces 30 provided recesses 64 protrude.

The magnetic pole devices 16 are fastened to the cylinder 12 by means of a bolt 66 which is guided through a bore 68 which is flat in the end piece 30 and is received in a threaded bore 70 in the cylinder. The pole pieces 20 and the combined parts 18 can be a ^ B. by means of an epoxy resin old dem. Profile element 22 are glued.

To unify the installation in the profile element 22, the dimensions are: .. 'j.ge:v the combined?) (Parts IS and ie:? Polstacke 20

standardized. The profile elements 22 can each have the radius of the cylinder 12 can be adjusted by the radial angle the outer surface of the side walls 36 of the element 22 through corresponding processing is designed such that the profile element 22, when it is attached to the cylinder 12, against adjacent Magnetpoleinrichtüngen 16 is applied. This will be the Profile element 22 initially with ... running in "radial direction .Side walls "made that" run at an angle,

which corresponds to the cylinder with the largest diameter considered for a certain group of profile elements comes. The Seitönwandwinkel of the profile element 22 can then be adapted to the radial angle of other cylinders by simply editing the same, so that the Profi! element 22 for smaller Cylinder is usable.

All of the claims, the description and the drawing characteristics arising iisxd advantages of the invention, including design details ₃ spatial arrangements and process steps, can be erfindungswesentlieh both per se and in any combination.

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Claims (11)

"223U52 Patent claims 1.JMagnetic pressure cylinder for the use of Flexible, magnetizable printing plates, with one plate cylinder and a number of axially extending magnetic pole devices, which side by side, on the surface of the plate cylinder are arranged, ge-marked e t by at least one profile element (22) facing the opposite side Has system with adjacent profile elements substantially radially extending side walls (36) by several magnet pieces (18) and magnetizable pole pieces (20) which are arranged alternately in the profile element (22) and by means (32) to the Magrjetstück and the To fasten pole pieces in the profile element (22). 2. Druckzylidn.er according to claim 1, characterized in that the means (32) for fastening the magnet pieces and the pole pieces from one on the PxOfilelement formed with these pieces mechanically engageable locking element (32) exist. 3. Di'uck cylinder according to claim 1 and / or 2, characterized ge ken η ζ eichnet that each of the magnet pieces (18) consists of a permanent magnet. 4- "Magnetic forme cylinder according to at least one of the Claims 1 to 3 »characterized in that the outer side walls (36) of the profile element (22) extend radially outward from the surface of the plate cylinder (12). 209882/0789 5 · Magnetic I-shaped cylinder according to at least one of the Claims 1, 2 and 4-, characterized in that that the magnet piece (18) contains a permanent magnet (42) formed from one piece therewith. : 6. Magnetic forme cylinder according to at least one of the Claims 1 to 5i characterized in that that the profile element (22) is made of a magnetically insulating material. 7. Magnetic pole device for a printing cylinder., Characterized by a profile element (22), by several Magnet pieces (42) and magnetic pole pieces arranged at intervals (20), the zx ^ isch adjacent magnet pieces (4-2) are arranged and by means of fastening devices (32) formed on the profile element (22) for holding the magnet pieces (42) and the magnetic pole pieces (20). 8. magnetic pole device according to claim 7 _S, characterized in that each of the magnet pieces (18) each has a permanent magnet (42). 9. magnetic pole device according to claim 7> characterized in that the magnetic pieces (18) each one from one piece with this. have formed permanent magnets (42). 10. Magnetic pole device according to at least one of the claims 1 to 9 characterized ₅ in that the magnet pieces (18) each comprise a made of a magnetically insulating material spacer (44, 48) and a permanent magnet (42). 209882/0789 " ^1C " 223U52 11. Magnetpoleinriclrbimg na.ch vrenigstons a ß.er claims 1 "to 10, characterized geke η ii ζ eic Ii η et that on each side of a pole piece (20) poles of the same name of the adjacent magnet pieces (42) are. 0 9 8 8 2/0789