This application claims the priority, under 35 U.S.C. ยง 119, of German Patent Application DE 10 2006 053 131.0, filed Nov. 10, 2006; the prior application is herewith incorporated by reference in its entirety.
The invention relates to an apparatus for turning a sheet during transport through a printing press. The apparatus includes a first transfer drum having gripper systems disposed in channels for holding the sheet at the leading and trailing sheet edge, a second transfer drum having a gripper system for accepting the sheet from the first transfer drum at the trailing sheet edge, and at least one drive for synchronous revolution of the transfer drums.
In order to keep down the production costs of a multicolor sheet-fed printing press, printing units are constructed to print on only one side of a sheet and the printing units are fabricated with a high degree of part repetition. If, in the case of a sheet-fed printing press having an inline configuration of the printing units, the intention is to print on both sides of the sheet, a turning apparatus for the sheets is provided between the last printing unit for printing on the front side and a following printing unit for printing on the rear side. Conventional turning apparatuses include a transfer drum, a storage drum and a turning drum between impression cylinders of the printing units. The transfer drum has a gripper system for holding a sheet at the front edge. The storage drum is implemented with a diameter twice as large as the impression cylinders and has two gripper systems for holding the sheet at the front edge and two suction gripper systems for holding the sheet at the rear edge. The turning drum has a tongs-type gripper system for holding the sheet edge trailing on the storage drum. All of the sheet-carrying cylinders are driven so as to revolve synchronously, for example by a gear mechanism.
The gripper systems of the storage drum and of the turning drum each include individual grippers disposed along a straight gripper closing line. The gripper closing lines in each case lie parallel to the axis of rotation of the storage drum and the turning drum. As is seen in the axial direction of the storage drum and of the turning drum, gripper closing lines of the turning drum and of the storage drum during a sheet transfer form a common tangent line which runs through a center line that passes through the axes of rotation.
In order to turn a sheet, it is transferred from the gripper system of the transfer drum to a gripper system for the front sheet edge of the storage drum. During the rotation on the storage drum, the rear sheet edge is held by an associated suction gripper system of the storage drum. The sheet is led past the tangent line by the leading edge gripper system of the storage drum. Once the rear edge of the sheet reaches the tangent line, a transfer is made to the tongs-type grippers of the turning drum. During the further revolution of the drums, the sheet is peeled off the circumferential surface of the storage drum and the suction action of the suction grippers is cancelled. The vacuum of the suction grippers is led to the storage drum through a rotary leadthrough. If the leading-edge gripper system of the storage drum opens at a predefined angle of rotation, a free flight phase of the sheet begins. The sheet is then held only at one sheet edge by the tongs-type grippers of the turning drum until it is transferred to the gripper system of the impression cylinder disposed downstream.
During the detachment from the storage drum, at the edge on which the tongs-type grippers act, the sheet has a different speed from the freely flying new rear edge. Before leaving the storage drum, the future rear edge of the sheet is moved at the orbital velocity of the storage drum. The speed of the future rear edge subsequently decreases to zero. The direction of movement of the rear edge then changes from zero to an orbital velocity which results from the rotation of the tongs-type grippers of the turning drum.
Due to the speed changes, the sheet is moved out of its ideal path as a result of dynamic forces and other external interfering forces. The storage drum does not have an ideal aerodynamic external contour because of channels with the gripper components located therein. The sheet guided forcibly at the front edge by the tongs-type grippers of the turning drum and carried freely at the rear edge tends to form waves and, as a result of flapping effects, to collide with components of the storage drum and guide elements, which leads to undesired printed results.
In order to avoid a collision between a sheet and components of a storage drum, in a turning apparatus according to German Published, Non-Prosecuted Patent Application DE 199 49 412 A1, corresponding to U.S. Pat. Nos. 6,722,276 and 7,207,265, the storage drum is constructed with a recess that is open at the edge. Air is introduced through the recess in a vacuum region, which results in a space between the storage drum, the turning drum and the sheet during the detachment.
A sheet transport drum described in German Published, Non-Prosecuted Patent Application DE 101 02 226 A1, corresponding to U.S. Pat. No. 6,659,456, includes comb segments which can be rotated relative to one another in order to set them to a format length. Interspaces between prongs of the comb segments are provided with a covering for aerodynamic reasons. Channel regions of the drum are kept open for a passage of gripper systems of adjacent drums.
It is accordingly an object of the invention to provide an apparatus for turning a sheet during transport through a printing press, which overcomes the hereinafore-mentioned disadvantages of the heretofore-known apparatuses of this general type and which permits better printing results as a result of improved sheet guidance.
With the foregoing and other objects in view there is provided, in accordance with the invention, an apparatus for turning a sheet during transport through a printing press. The apparatus comprises a first transfer drum having gripper systems disposed in channels for holding the sheet at leading and trailing sheet edges. A second transfer drum has a gripper system for accepting the sheet from the first transfer drum at the trailing sheet edge. At least one drive is provided for the synchronous revolution of the transfer drums. Guide elements cover the channels.
According to the invention, a transfer drum has gripper systems disposed in channels and guide elements thereon partly or completely covering the channels. Therefore, the aerodynamics of the transfer drum are improved in such a way that a sheet accepted from an adjacent drum does not enter into a channel of the transfer drum, so that there is no collision between the sheet and grippers on the transfer drum.
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 embodied in an apparatus for turning a sheet during transport through a printing press, 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.
Referring now to the figures of the drawings in detail and first, particularly, to
As is seen in more detail in
In addition to the bearings for the gripper shafts 36, 37 and the gripper pads 40, 41, guide plates 45, 46 are fixed to the holders 34.1, 35.1. The guide plates 45, 46 form guide surfaces 47, 48, which are inclined relative to a contour of revolution 49 of the circumferential surface segments 32, 33. The guide surfaces 47, 48 rise gently from the interior of the channels 33, 31, in each case in the direction of the gripper systems 19, 20. The radially outermost ends of the guide surfaces 47, 48 are located at the level of the contour of revolution 49. The guide plates 45, 46 are connected to the holder 34.1, 35.1 through webs 50, 51 and bars 52, 53. As a sheet 22 is pulled off the sheet supporting surfaces of the holders 34 or 35 by the tongs-type gripper system 21 of the turning drum 15, the respective guide surface 47, 48 prevents the end of the sheet from entering into the channel 30 or 31.
In a variant according to
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Number | Date | Country | Kind |
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DE102006053131.0 | Nov 2006 | DE | national |