EP1156401A2 - Apparatus for positioning a cylindrical sleeve on a carrier body - Google Patents

Abstract

Cylinder arrangement for electro-graphical printers has a cylinder support body (1) with accommodating forward ends (4, 7) for supporting a cylinder housing (6). On the outer surface of the cylinder (6) is an operating layer (16) such as a photoelectrical layer. The cylinder arrangement has devices for pre-positioning of the cylinder housing (6) when it requires exchanging. Independent claims are made for a printer mechanism and printer using the above cylinder exchange mechanism.

Description

The present invention relates to a positioning device a cylinder sleeve on a carrier body, in particular for positioning a Cylinder sleeve with a functional layer on the outer surface, for example a photoelectric layer.

US 5,215,013 relates to a device for noise attenuation Pulling a sleeve-shaped rubber blanket on the peripheral surface of a Printing form cylinder. This device is preferably on the printing unit Offset printing machine used, which is equipped with channelless printing unit cylinders is. The blanket sleeve is expandable in the circumferential direction, which is why Inside of the blanket sleeve with a pneumatically generated pressure is applied. Then the expanded blanket sleeve is on the side pushed telescopically over the outer surface of the cylinder. The rubber blanket sleeve is equipped with a damping ring to dampen the noise caused by the lateral escape of the compressed air is provided. By means of the Damping ring is the high-frequency noise generated by vibrations the pressurized blanket sleeve, damped. The cylinder surface is at the point where the blanket sleeve on the side of the cylinder jacket for Slip on is provided with outlet openings that the air cushion when sliding the blanket sleeve over the outer surface of the cylinder generate and maintain.

US 5,649,267 relates to a cylinder arrangement which is in a printing unit can be used. On the cylinder assembly, which is essentially drum-shaped is configured to be configured essentially in the form of a sleeve Element used, on the outer surface of which a toner image is generated. The Drum shell surface includes open ends, the end faces of which through the shell surface supporting disc-shaped peripheral surfaces is supported. The end faces, with which the openings of the cylindrical surface configuration are lockable, are cooled before assembly, and then in the Openings of the lateral surface to be let in. The end faces on this Are shrunk into the cylindrical surface, are each with axle bearings, in which one penetrates the drum arrangement in the axial direction Axis, designed as a carrier body, is added. Through on the end faces The adjusting screws provided allow the eccentricity of the drum casing Preset relative to the axis of rotation.

In the case of electrographic printing units in which cylinders, the lateral surface of which a functional layer, for example a photoelectric layer there is wear of the functional layer, which requires its replacement makes. In order to make the exchange easy, the Functional layer receiving sleeve inside or outside the printing unit changed; there is a correct postponement of the functional layer supporting cylinder sleeve required.

In view of the solutions known from the prior art and the technical problem, the invention has the object of tilting or tilting a sleeve carrying the functional layer at its To prevent assembly.

According to the invention, this object is achieved by the features of the patent claim 1 solved.

The advantages associated with the solution according to the invention can be seen above all in that the prepositioning of the cylinder sleeve on the one hand prevents damage to the functional layer on the cylinder sleeve due to improper handling during the changing process. On the other hand, tilting of the cylinder sleeve and its tilting during the change is excluded. The provision of a pre-positioning means that the cylinder sleeve can be changed in the horizontal position in the printing unit of a printing unit that works on the principle of electrography, with a minimal set-up time being maintained.
In a further advantageous embodiment of the idea on which the invention is based, it is provided that the devices for prepositioning contact the cylinder sleeve on the inner wall. This ensures that it is aligned over its entire axial extent, in particular in the initial area where tilting can have adverse consequences, in such a way that it can be pushed on strictly axially.

It is also provided that the devices for prepositioning the Cylinder sleeve are added to a cylindrical element. That one or Multi-part sleeve-shaped element can be opened in a simple manner a carrier body passing through the cylinder arrangement can be accommodated and is detachably mounted on the carrier body and thus easily replaceable.

According to a further advantageous embodiment of the invention lying thought can be the sleeve-shaped element on which the cylinder arrangement store penetrating carrier body. In addition to centering the sleeve-shaped element and thus the devices for prepositioning the The cylinder sleeve can thus also be replaced easily by the sleeve Element.

According to an embodiment variant of the devices for prepositioning the Cylinder sleeve can be seen from the wall of the sleeve-shaped Elements up to the inner wall of the cylinder sleeve to be positioned be designed to extend. In addition to an increase in stiffness axial mounting of the cylinder sleeve resulting cylinder arrangement can Web-shaped design of the devices for prepositioning the cylinder sleeve in addition to stiffening the cylinder arrangement, also a significant one Weight saving compared to a massive design of the cylinder be achieved. The devices for pre-positioning the cylinder sleeve can radially to the carrier body over its entire axial length extend. But they can also be divided into individual sections via the axial Length of the carrier body or the sleeve-shaped element can be provided.

Simplifying the assembly or replacement of a cylinder body can be achieved in that the devices for prepositioning the Cylinder sleeve are provided parallel to the axis of rotation of the carrier body. So centering of the lateral surface can already be carried out as part of the pre-positioning achieve the cylinder sleeve, the final centering by a Prestressing the bevels provided on the end faces provided centering surfaces; one final to increase accuracy Centering can also be done by lateral bracing of the end faces against each other.

According to an embodiment variant, the devices for prepositioning can of the cylinder sleeve make a frictional contact with the inner wall of the cylinder sleeve. In addition to a non-positive connection between the cylinder sleeve their entire scope would be supporting devices for prepositioning also conceivable a positive connection between the end regions of the essentially radially extending devices for prepositioning the Cylinder sleeve and the inner wall of the cylinder sleeve in the form of along extending recesses, for example in the form of longitudinal grooves produce. Longitudinal grooves were particularly easy on the inner surface of the sleeve train very advantageously. Instead of longitudinal grooves, too slot-shaped openings in the inner wall of the cylinder sleeve, at the Surface of the functional layer in the form of an electrographic coating is applied to be trained.

According to the solution proposed here, the weight can be reduced proposed cylinder arrangement can be achieved in particular that extending between the individual web-like in the radial direction Devices for prepositioning the cylinder sleeve cavities are created. Seen over the entire circumference of the cylinder arrangement, for example six web-shaped radial walls can be provided, the are positioned at an angle of 60 ° to each other. Instead of this, as well let the following embodiments have six webs four or eight webs are oriented at 90 ° or 45 ° to each other, in Train the inside of the drum.

In addition to contacting the institutions in sections The bar-shaped can be pre-positioned Pre-positioning devices cover the entire axial extent of the Grip over the cylinder sleeve, the axial extent of which corresponds exactly to the distance between the End faces of the cylinder arrangement corresponds. In addition to a consistent Touch between the ends of the web-shaped devices for Pre-positioning of the cylinder sleeve and the inner wall of the cylinder sleeve can also bridge-like sections with individual breaks in the direction the axial extension of the cylinder sleeve can be provided.

According to a variant of the embodiment on which the invention is based The surface of the cylindrical sleeve can be a photoelectric object Be shift. The cylinder arrangement can be used, for example, for electrographic Use printing units where there is a specific permissible comparison of the surface of the functional layer an exchange of these Layer is required. The printing units in which the invention proposed cylinder arrangement can be used, rail or Process sheet-like materials, although in a printing unit too several cylinders can be provided with an interchangeable cylinder sleeve can.

The invention is explained in more detail with the aid of the drawing.

Figur 1

einen Längsschnitt durch eine Zylinderanordnung gemäß der vorliegenden Erfindung mit einer eine Funktionsschicht aufnehmende auswechselbaren Zylinderhülse und

Figur 2

einen Querschnitt durch die Zylinderanordnung gemäß Figur 1. Im in Figur 1 dargestellten Längsschnitt durch eine Zylinderanordnung gemäß der vorliegenden Erfindung wird eine eine Funktionsschicht aufnehmende Zylinderhülse auf zwei Stirnseiten positioniert.

It shows:

Figure 1

a longitudinal section through a cylinder arrangement according to the present invention with a replaceable cylinder sleeve and a functional layer

Figure 2

2 shows a cross section through the cylinder arrangement according to FIG. 1. In the longitudinal section through a cylinder arrangement according to the present invention shown in FIG. 1, a cylinder sleeve receiving a functional layer is positioned on two end faces.

On a support body 1, which is penetrated by a bore and in extends substantially rotationally symmetrical to its axis of rotation, there are two Journal 2, 3 formed. On the support body 1 are in the area of seats a first end face 4 and a second end face 7 are mounted. The end face 7 is fixed on the carrier body 1 in the axial direction by a stop 31, while the first end face 4 on its seat on the circumference of the carrier body 1 is attached by means of a releasable bracing.

Centering surfaces 5 are located on the end faces 4 and 7 on the peripheral surfaces formed, which in the illustration according to Figure 1 executed as bevels could be. The bevels are on the first end face 4 or the second Face 7 oriented in each case inclined to the interior of the cylinder arrangement. Complementary to the bevels of the first serving as centering surfaces 5 End face 4 and the second end face 7 are to be fixed there Cylinder sleeve 6 bevels 15 formed. By means of the bevels 5 or 15, the cylinder sleeve 6 can be non-positively positioned Pick up face 4 on face 4 or 7. On the surface of the A functional layer 16 is formed in the cylinder sleeve 6, for example a can be photoelectric layer.

The first end face 4, which is coaxial with the bearing journal 3 on the circumference of the carrier body 1 can be positioned, is secured by means of a lock nut 11. The Slotted nut 11, which is on a thread 10 formed on the journal 3 can twist, acts on a pressure body 12, which in turn a deformable sleeve 13 which is located on an annular collar surface of the Carrier body 1 supports. When the lock nut 11 is rotated, an axial Preload of the pressure body 12, which is a deformation of the sleeve 13 in the radial Direction. As a result, the first end face 4 is seated on the Carrier body 1 releasably attached. Depending on the position of the first positionable End face 4 with respect to the second end face 7 defined in the axial direction there is a degree of coverage 18 between the centering surfaces 5, 15. Thereby can in particular eccentricity of the cylinder sleeve 6 and thus the Adapt functional layer 16 to the respective purposes.

Between the first end face 4 and the second end face 7 is on the circumference of the Carrier body 1 mounted a sleeve 17. On the circumference of the sleeve 17 are individual extending devices in the radial direction for prepositioning the Cylinder sleeve 6 executed.

2 shows a cross section through the cylinder arrangement according to Figure 1. The position of the sleeve 17 can be seen in FIG remove that is recorded on the circumference of the carrier body 1. The Carrier body 1 is provided with lateral trunnions 2 and 3, with which it in the side walls of a printing unit is mounted, either driven by of a gear train or via a direct drive. From the circumference of the sleeve-shaped Elements 17, recorded on the circumference of the carrier body 1 and with a Through bore 19 provided extend as shown in FIG Figure 2 six web-shaped devices for pre-positioning in the radial direction. These web-like devices for prepositioning 21; 25, 26, 27, 28 and 29 are at an angle of approx. 60 ° to each other positioned and enclose cavities 20 between them. Instead of the in Figure 2 shown six devices extending in the radial direction four web-shaped devices for prepositioning can also be used Prepositioning should be provided that are at an angle of 90 ° to each other lock in. In the formation of eight on the peripheral surface of the sleeve 17 itself close devices for prepositioning extending in the radial direction this creates cavities at an angle of approx. 45 °. This in rib structure trained arrangement of the devices for prepositioning has the advantage a stiffening of the cylinder configuration according to Figure 1 and pulls one Weight saving after itself. The tops of each web-shaped trained pre-positioning devices 21; 25, 26, 27, 28 and 29 can be designed in such a way that they are chamfered in the initial area, on which the cylinder sleeve 6 is positioned and aligned laterally to the web-shaped elements can be pushed on. This can happen in the machine remaining rear second end face 7 take place on the carrier body 1 in their axial position is fixed. A bevel on each Pre-positioning devices allow tilting and tipping-free Sliding on the cylinder sleeve 6 with the functional layer 16 formed thereon lateral direction towards the second end face 7 remaining in the printing press.

An assembly of the cylinder sleeve 6 with a laterally horizontal position is just as good of the carrier body 1 possible outside the printing unit. For this is the carrier body 1 with the sleeve 17 attached to it so that after Pulling off the end face 4 by relaxing the lock nut 11 and thus accompanying relaxation of the pressure piece 12, the deformable sleeve 13 is relieved, so that the first end face 4 of the bearing pin 3 Seat on the circumference of the support body 1 can be removed laterally. To Exposure of the first face and removal of this component can Cylinder sleeve 6 laterally over the web-shaped elements 21; 25, 26, 27, 28 and 29 are withdrawn, the second end face 7 in its axial position on Carrier body 1 can remain positioned. The second end face 7 is on the one hand the sleeve 17 provided on the circumference of the carrier body 1 and the Stop surface 31 axially fixed.

After removing the cylinder sleeve 6 with worn functional layer 16 leaves by axially sliding on a cylinder sleeve 6 with formed thereon Position the renewed functional layer 16 again on the carrier body 1. This will the cylinder sleeve 6 over the devices for prepositioning the cylinder sleeve 6 brought into a horizontal position and can now be on the side web-shaped devices for pre-positioning pushed on become. After contact of the centering surfaces 15 of the cylinder sleeve 6 with the Centering surfaces 5 of the second end face 7 and after bracing the first Front 4 of the contacting of the centering surfaces 5 and 15 and the setting corresponding coverage areas 18 on the centering surfaces in the area of End faces, the first end face by means of the lock nut 11 and the deformable Sleeve 13 clamped on its seat on the carrier body 1. This allows the Eccentricity of the functional surface 16 with respect to the axis of rotation of the Adjust carrier body 1 precisely.

Instead of a positive pre-positioning of the cylinder surface 6 on it Inner wall 23 with the end regions of the devices 21; 25, 26, 27, 28 and 29 for prepositioning the cylinder sleeve 6 can also be a positive Connection of the device for prepositioning to the inner wall 23 of the Cylinder sleeve 6 take place. For this purpose, the inner wall 23 of the cylinder sleeve 6 for example with longitudinal grooves or extending in the axial direction Slots. Also point-like elevations and snap connections between the end regions of the radially extending devices 21; 25, 26, 27, 28 and 29 for prepositioning and the inner wall 23 of the Sleeve 6 are conceivable.

The sleeve 17 on which the devices 21; 25, 26, 27, 28 and 29 for Prepositioning extending in the radial direction can be included be made of plastic or of plastics with metallic reinforcement are manufactured. Also the material from which the cylinder sleeve 6, in wall thickness 24 is formed, can be either plastic with a metallic Coating or a metallic sleeve. To save weight, the individual web surfaces 30 are penetrated by openings to weight and Saving material. Instead of a continuous contact surface on the radial End of facilities 21; 25, 26, 27, 28 and 29 for prepositioning this also the inner wall 23 of the cylinder sleeve 6 only in sections contact so that free spaces between the individual walls 23 contacting end areas remain. With one procured in this way Configuration, which is not shown in the drawing here, can be added a stiffening effect also a weight saving of this kind achieve obtained cylinder arrangement.

Reference list

1

Carrier body

2nd

Bearing journal

3rd

Bearing journal

4th

first face

5

Centering surface end face

6

Cylinder sleeve

7

second face

8th

Seat

9

Seat

10th

thread

11

Locknut

12th

Pressure hull

13

deformable sleeve

14

Centering face end faces

15

Centering surfaces sleeve

16

Functional layer

17th

Sleeve

18th

Coverage area

19th

Through hole

20th

Cavity segment

21

Positioning bridge

22

Positioning surface

23

Inner wall of cylinder sleeve

24th

Wall thickness

25th

web

26

web

27

web

28

web

29

web

30th

area

31

attack

Claims (18)

Cylinder arrangement for electrographic printing units with end faces (4, 7) accommodated on a carrier body (1), on the periphery of which a cylinder sleeve (6) is supported, the outer surface of which receives a functional layer (16), characterized in that the arrangement (1, 4, 6, 7) contains devices (21; 25, 26, 27, 28, 29) for prepositioning the cylinder sleeve (6) when it is replaced. Cylinder arrangement according to claim 1, characterized in that the devices (21; 25, 26, 27, 28, 29) for prepositioning contact the cylinder sleeve (6) on its inner wall (23). Cylinder arrangement according to claim 1, characterized in that the devices (21; 25, 26, 27, 28, 29) for pre-positioning enable sufficient centering of the cylinder sleeve per se. Cylinder arrangement according to claim 1, characterized in that the devices (21; 25, 26, 27, 28, 29) for prepositioning the cylinder sleeve (6) are accommodated on a sleeve-shaped element (17). Cylinder arrangement according to claim 4, characterized in that the sleeve-shaped element (17) is received on the carrier body (1) passing through the cylinder arrangement (1, 4, 6, 7). Cylinder arrangement according to claim 1, characterized in that the devices (21; 25, 26, 27, 28, 29) for pre-positioning the cylinder sleeve (6) extend from the wall of the sleeve-shaped element (17) to the inner wall (23) of the one to be positioned Extend cylinder sleeve (6). Cylinder arrangement according to claim 1, characterized in that the devices (21; 25, 26, 27, 28, 29) for pre-positioning the cylinder sleeve (6) are web-shaped. Cylinder arrangement according to claim 7, characterized in that the devices (21; 25, 26, 27, 28, 29) extend in the radial direction from the carrier body (1). Cylinder arrangement according to claim 1, characterized in that the devices (21; 25, 26, 27, 28, 29) for prepositioning the cylinder sleeve (6) extend parallel to the axis of rotation of the carrier body (1). Cylinder arrangement according to claim 1, characterized in that the devices (21; 25, 26, 27, 28, 29) for prepositioning the cylinder sleeve (6) make a non-positive contact with the inner wall (23) thereof. Cylinder arrangement according to claim 1, characterized in that the devices (21; 25, 26, 27, 28, 29) for prepositioning the cylinder sleeve (6) engage in recesses on the inner wall (23) of the cylinder sleeve (6). Cylinder assembly to claim 10, characterized in that the recesses are configured as longitudinal grooves in the inner wall (23) of the cylinder sleeve (6) according. Cylinder arrangement according to claim 1, characterized in that cavities (20) are formed between the devices (21; 25, 26, 27, 28, 29) for prepositioning the cylinder sleeve (6). Cylinder arrangement according to claim 1, characterized in that the axial extension of the devices (21; 25, 26, 27, 28, 29) for pre-positioning the cylinder sleeve (6) the distance of the end faces (4, 7) of the cylinder arrangement (1, 4, 6, 7). Cylinder arrangement according to one or more of the preceding claims, characterized in that the outer surface (16) of the cylinder sleeve (6) is a photoelectric layer. Cylinder arrangement for electrographic printing units with end faces (4, 7) accommodated on a carrier body (1), on the periphery of which a cylinder sleeve (6) is supported, the outer surface of which is designed as a photoelectric layer (16), characterized in that the cylinder arrangement (1, 4, 6, 7) contains devices (21; 25, 26, 27, 28, 29) for prepositioning the cylinder sleeve (6) when it is replaced. Printing unit with a cylinder arrangement for electrographic printing, with end faces (4, 7) accommodated on a carrier body (1), on the periphery of which a cylinder sleeve (6) is supported, the outer surface of which receives a functional layer (16), characterized in that the cylinder arrangement ( 1, 4, 6, 7) contains devices (21; 25, 26, 27, 28, 29) for prepositioning the cylinder sleeve (6) when it is replaced. Printing unit for processing sheet-like or web-shaped printing material with a cylinder arrangement for electrographic printing, with end faces (4, 7) accommodated on a carrier body (1), on the circumference of which a cylinder sleeve (6) is supported, the outer surface of which receives a functional layer (16), characterized in that the cylinder arrangement (1, 4, 6, 7) contains devices (21; 25, 26, 27, 28, 29) for prepositioning the cylinder sleeve (6) when it is replaced.

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