EP1319507A2 - Suction device for removing powder and hot air in a delivery device of a sheet-fed rotary printing machine - Google Patents

Abstract

The suction device is in the stacker. It consists of first and second partitioning devices (12, 13), which extend along the sheet feed path and across the width of the stacker. The first one is above the slack part (3) of the chain, and has a suction aperture (14). The second one is between the conveying part (4) and slack part of the chain and includes a suction device (15.1).

Description

The invention relates to a device for powder and hot air extraction, which in Boom of sheet-fed rotary printing machines is used.

For high-speed printing presses with a large number of inking units and additional ones The freshly printed sheet arriving in the delivery is usually the coating equipment not yet dried out. So that it is due to the mechanical stresses of the Printed sheet experiences, and the pressure prevailing in the delivery stack does not lead to a reduction in quality comes in the form of greasing or blocking, pollination facilities are on display and drying equipment used. As drying facilities infrared dryers are often used. The dusting equipment turns powder small grain size evenly distributed over the arch, which adheres to the arch. The heat brought into the delivery with the dryer must be removed at a suitable location otherwise it will overheat. Excess powder can be next to the grippers also contaminate an upstream coating unit or the printing units and impair quality to lead.

The invention relates to a device for powder and air extraction in the boom a sheet-fed rotary printing machine, chain wheels being provided in the delivery in order to circulate the chains with these assigned gripper carriages and a pollination device and / or a drying device between the conveyor and the empty strand of the chains and a sheet guide device are arranged below the conveyor run of the chains.

A device of this type can be found in DE 198 26 083 A1. The one in the boom Excess hot air can with the solution mentioned together with part of the Powder / air mixture are sucked off through the openings provided in the sheet guide plate. There is also a powder lock in the area that extends across the width of the boom of the pressure cylinder and another powder lock on the empty run. adversely of this solution is that the powder applied to the top of the substrate due to the openings arranged on the other side of the substrate only to a small extent Part is suctioned off. As a result of the suction caused by the movement of the gripper car A large part of the powder / air mixture initially spreads out in an uncontrolled manner until it is removed from the powder lock.

According to DE 42 07 118 A1, a pollination device is known in which excess Powder is taken up by a suction channel arranged downstream of the powder nozzle in the direction of sheet travel becomes. To prevent the powder / air mixture from escaping from the pollination device, a row of nozzles is also provided, from which at an acute angle to the substrate surface Blown air emerges. With the help of the device, excess powder / air mixture can only be sucked off from the top of the substrate. The part of the Excess powder that passes this barrier can spread freely in the boom and in the wake of the returning gripper wagons, other units of the printing press, such as coating unit or printing units.

DE 199 08 266 A1 discloses a powder suction device for keeping clean and / or Cleaning a sheet delivery, which is arranged between the empty and conveying strand and on the has an opening for powder suction on the side facing the empty strand. This facility can be arranged below a blowing device with which air from outside of the boom is sucked in and conveyed into the interior of the boom. This creates one Air flow on the empty run side of the chain, causing the spread of the Powder / air mixture in the direction of the pressure cylinder is prevented. The disadvantage of this solution is that the excess powder that is not adhering to the sheet is unhindered in the delivery can spread until it is vacuumed. In addition, the powder / air mixture can be promoted from the flows resulting from the chain movement, from that of the pressure cylinder reach the side of the pollination device starting from the pressure cylinder.

Based on the disadvantages mentioned, it is an object of the invention to provide a device create with which the excess warm air is removed from the boom and the pollution the aggregates of the printing press can be reduced by powder.

This object is achieved by the features of claim 1. Further advantageous refinements are contained in the subclaims.

The powder / air mixture is advantageously removed from the interior of the boom by the invention, the excess warm air being disposed of at the same time. For this purpose, the flows generated by several suction devices for extracting the warm air are combined to form an exhaust air flow. The powder dust adhering to the parts of the boom or the air permeated with powder is sucked off in the boom both above and below the conveyed printed sheets, as a result of which the majority of the excess powder can be removed.
An additional powder lock is provided on the empty strand side of the chain, which advantageously prevents powder from sticking to the gripper carriage and being transported to the gripper carriage or by the air flow caused by the movement of the gripper carriage to the printing unit.
The flow velocities required for effective suction of the powder can be achieved in an energy-saving manner, since the suction devices for suctioning off the powder act largely in the same direction on the top of the printed sheet. The efficiency of the powder suction is advantageously further improved in that the first partitioning device is arranged in addition to the inserted additional devices for powdering or drying so that a suction channel is formed on the empty run side. As a result of the suction power present, there is an air flow which runs approximately perpendicular to the chain center line in the area of the suction opening and approximately parallel to the chain center line at a greater distance from the suction opening. The flow on the side of the suction opening facing the pressure cylinder is directed in the opposite direction to the movement of the gripper carts returning on the empty side. The gripper carriage returning to the pressure cylinder and the powder / air mixture surrounding it in residues are thus exposed to the flow effect on a long section of the gripper carriage path.
Overall, the interior of the boom is traversed by suction currents that reach the largest part of the enclosed volume and thus effectively remove the powder / air mixture and the excess heat present.

The invention will be described in more detail with reference to the exemplary embodiment listed below become.

The only drawing shows a sheet delivery and indicates the sheet stack 5 generated by it. Between pairs of upper and lower sprockets 1, 2, chains run around, to which gripper carriages 7 are assigned at a uniform distance. The sheets 17 to be transported are fixed to the gripper carriage 7 on gripper supports, not shown, fed to the sheet stack 5 on the conveyor run side of the chains 4 and braked with the aid of a suction roller 6. On the empty run side of the chains 3, the gripper carriage 7 is returned to a printing cylinder or coating cylinder, not shown. Underneath the conveyor run 4 and thus below the sheet conveying path, sheet guiding plates 10 extending along the sheet path are arranged. These are used for arch guidance and have openings. Instead of several individual sheets, a continuous sheet guide plate 10 can also be provided. The last sheet guide plate 10 viewed in the direction of sheet travel can be designed to be displaceable together with the suction roll, which enables adaptation to changing formats. The openings of the sheet guide plates 10 are connected to a vacuum source. In a variant with several sheet guide plates 10, a separate vacuum source can be assigned to each. Axial fans are used as a vacuum source. The air discharged from the pressure sheet by several axial fans can be brought together and conveyed out of the boom via a central extraction system. A large part of the excess heat present in the delivery is thus dissipated through the openings of the sheet guide plates 10. In the areas of the sheet guide plate 10 which are opposite the dusting device 9 or which, viewed in the direction of sheet travel, adjoin these areas, the powder dust contained in them is sucked off together with the warm air.
A first partitioning device 12 is arranged above the empty run of the chain 3. The first partitioning device 12 is fitted between the side walls of the boom and sealed off from the side walls. In the preferred embodiment, it extends in the sheet running direction in the area from the lower sprocket 2 to the suction roller 6. A longer version is also possible. The first partitioning device 12 has a suction opening 14 through which the powder / air mixture and the warm air can be extracted from the interior with the aid of a suction device, not shown, for example in the form of an axial fan.
With the arrangement of the first bulkhead device 12, a shaft enclosing the transport zone is formed, which is delimited laterally by the boom walls on its upper side by the first bulkhead device 12 extending across the boom width and on its underside by the sheet guide plates 10.
A second partitioning device 13 is arranged between the conveying and empty runs 4, 3 and also extends over the width of the boom. The second partitioning device 13 has a first suction device 15.1 which extends transversely to the sheet running direction. The space between the conveyor and empty runs 4, 3 also accommodates a dusting device 9 and / or a drying device 11. The dusting device 9 is formed by a powder nozzle strip 8, a bell 18 surrounding it and open to the conveying strand 4 and a second suction device 15.2.
The second suction device 15.2, viewed in the conveying direction, is arranged behind the powder nozzle strip 8 and extends across the machine width transversely to the sheet conveying direction. The powder nozzle strip 8 is sealed with respect to the second suction device 15.2 such that the powder which has been applied is only suctioned off in the areas of the printing sheet which have left the powder zone.

The dusting device 9 and the drying device 11 have an outer shape which makes it possible to push them into the side walls of the boom, in which recesses are provided for this purpose.
The cutouts are arranged in such a way that the second partitioning device 13 adjoins the inserted pollination device 9. Seals can be provided between the two devices. In an embodiment (not shown) with an extended second partitioning device 13, recesses are provided for receiving the pollination device 9 and / or the drying device 11. The dusting device 9 can then be pushed into this, for example, via the cutouts in the side walls, so that it is enclosed on all sides by the second partitioning device 13 parallel to the sheet conveying plane.

The mode of operation of the invention is described below.
The printed sheet 17 conveyed in the gripper closure is pulled off the printing cylinder and conveyed in the direction of the sheet stack 5. Upon reaching the sheet guide plates 10, it is sucked from its underside through the openings in the sheet guide plates 10 and thus guided on the sheet guide plates 10. The radiation from the drying device 11 acts on the upper side of the printing sheet 17 and heats it. This also heats the air surrounding the printed sheet 17, which is discharged around the printed sheet 17 through the sheet guide plates 10. When the printed sheet 17 has reached the powder nozzle row 8, it is dusted with powder by the latter. Powder which has reached the gripper carriage 7 and powder which does not adhere to the printed sheet 17 is subsequently sucked off by the second suction device 15.2, which is arranged directly above the gripper carriage path. Due to the turbulent flow generated by the movement of the gripper carriage 7, powder remaining above the printed sheet 17 is whirled up, so that a powder / air mixture forms. This is then sucked off by the first suction device 15.1, which is arranged at a greater distance from the sheet conveying plane than the second suction device 15.2.

The air flow generated by the first and second suction devices 15.1, 15.2 then under the action of another suction, not shown in the drawing passed through the suction opening 14 from the boom. There is a big one Flow speed, since the suction devices 15.1, 15.2 and the one not shown Suction act in the same direction and the suction power thus add up. The Air flow of high flow speed acts as a powder barrier against the paint or Pressure cylinder.

The first partitioning device 12 forms, together with the second partitioning device 13, the dusting device 9 and the drying device 11, a suction channel. In this suction channel there is a flow that runs largely parallel to the chain line and is directed above the drying device in the opposite direction to the movement of the gripper carts returning on the empty strand side.
This also prevents the powder / air mixture in the suction of the returning gripper carriage from reaching the coating unit or printing unit and, even if it has passed the powder lock, is returned and transported to the outside through the suction opening 14. Overall, the interior of the boom is traversed by suction currents that reach the largest part of the enclosed volume and thus effectively remove the powder / air mixture and the excess heat present.

All flows from the boom are combined with the help of a total suction system and passed through a powder separator, in which the powder from the powder / air mixture Will get removed.

The first partitioning device can be used to ensure better accessibility for the operator partially rotatable about the pivot axis.

LIST OF REFERENCE NUMBERS

Upper sprocket 1 Lower sprocket 2 loose side 3 conveying 4 sheet pile 5 suction roll 6 gripper carriages 7 Powder nozzle bar 8th dusting device 9 sheet guide plate 10 drying device 11 First isolation facility 12 Second bulkhead facility 13 suction 14 First suction device 15.1 Second suction device 15.2 swivel axis 16 sheet 17 Bell jar 18

Claims (12)

Device for powder and air suction in the delivery of a sheet-fed rotary printing machine, chain wheels being provided in the delivery to circulate around the chains with the gripper carriages assigned to them and a dusting device and / or a drying device between the conveyor and the empty run of the chains and a sheet guide device below the delivery run of the Chains are arranged
characterized in that a first and a second partitioning device (12, 13) are provided, which extend along the sheet conveying path and across the width of the boom, the first partitioning device (12) above the empty strand (3) and the second partitioning device (13 ) is arranged between the conveyor and the empty strand (4; 3) of the chains and the second partition device (13) receives a first suction device (15.1) extending transversely to the sheet conveying path. Device for powder and warm air suction according to claim 1, characterized in that the first partitioning device (12) has a suction opening (14). Device for powder and hot air suction according to claim 2, characterized in that the first suction device (15.1) is arranged below the suction opening (14). Device for powder and warm air extraction according to claim 1, characterized in that the second partitioning device (12) has a recess for receiving the pollination device (9). Device for powder and warm air extraction according to claim 1, characterized in that seals are formed between the dusting device (9) and the second partitioning device (13). Device for powder and hot air extraction according to claim 1, characterized in that recesses are provided in the side walls of the boom for receiving the pollination device (9) and / or the drying device (11). Device for powder and hot air extraction according to claim 6, characterized in that the dusting device (9) and / or the drying device (11) are designed to be insertable into the recesses in the side walls of the boom. Device for powder and hot air suction according to Claim 1, characterized in that the dusting device (9) is formed from a powder nozzle bar (8) and a second suction device 15.2 arranged downstream of the powder nozzle bar (8) in the direction of sheet travel. Device for powder and hot air extraction according to claim 1, characterized in that the powder nozzle strip (8) is partially enclosed by a bell '(18). Device for powder and hot air suction according to claim 8, characterized in that the second suction device 15.2 is arranged closer to the sheet conveying plane than the first suction device 15.1. Device for powder and hot air suction according to claim 1, characterized in that the pollination device (9) is enclosed by a bell (18) which is open on the delivery side and sealed against the second suction device (15.2). Device for powder and hot air extraction according to claim 1, characterized in that the first partitioning device (12) is partially pivotable.

Images