EP0931741A1 - Pile turning device - Google Patents

Abstract

A paper stack turning machine (1) incorporates a jack by means of which the stack of sheets of paper is lifted, inclined and inverted. It further has clamps (4) which hold the stack of paper secure during this operation, pads with which the paper stack sides are re-aligned as required, and ventilators which loosen the sheets of paper from each other. One side of the stack (B) has a side-face rule (5) which operates in at right angles to the clamps (4), and which may be repositioned parallel to the direction of the clamp (4) plane.

Description

The invention relates to a device according to the preamble of claim 1.

Devices are known which are referred to as pile turner, by means of whose stack of sheets can be manipulated on pallets. The Sheets are stacked in printers or other paper processing companies Operated delivered on pallets and are therefore of the transport or type the packaging very strongly compressed so that the sheets tend to do so to have each other. The stack can also be aligned by transport have been negatively affected because the sheet stack can slip. For It is possible to process the sheets from the sheet stack individually required to loosen the entire stack and, if necessary, the Realign the sheets to each other. When using so-called Logistics systems, such as those recently used in wide areas of sheet processing may apply, the stack of sheets may need to Pallets or support systems can be implemented. A pile turner is therefore in the Able to close a transport pallet together with the sheet stack resting on it to capture. For this he is with a, possibly fork-shaped, clamping device Mistake. This clamping device has an upper and a lower holder between which the stack of sheets can be packed. In addition, the Provide pile turner with a lifting device that allows the Lift, tilt and swivel the sheet stack around an axis.

The goals of the further development of such a pile turner are various ones related to processing operations and batch quality Measures to see. For the preparation of sheet stacks for automatic Processing in sheet-processing machines, it is necessary to special the Take measures influencing stack quality. Furthermore, the Sheets of sheets, for example, from a simple transport pallet to one so-called system range can be implemented. The system palette serves the automatic feeding of the sheet stack to a sheet processing machine. The sheet stack should improve in terms of build quality the system range can also be aligned as precisely as possible. Farther The change of the transport pallet against the system pallet should be possible run automatically.

The object of the invention is therefore to re-stack a sheet stack Processing in a sheet-processing machine, especially the Implementation from a transport pallet to a system pallet with high Accuracy and as variable a positioning as possible on the system range enable.

This object is achieved according to the features of claim 1. Additional features of the subclaims are of particular importance here. The pile turner is provided with a ruler that applies to both Transport pallet as well as on the stack, for its positioning, itself can align. The guideline also serves as a contact surface for Swiveling the stack. Furthermore, a clamping device for pallets, e.g. System pallets, provided when changing stacks. Finally, it is possible to attach at least one of the carriers of the pile turner. This means that a pallet can be processed in one pass. Besides, can a runway part can be attached to both supports of the pile turner, so that it can be used on both sides.

The following is based on graphic representations Embodiment of the invention shown in more detail.

Figur 1

eine erste Darstellung eines Stapelwenders,

Figur 2

einen Stapelwender in Verbindung mit einer Rollbahn,

Figur 3

einen Aufriß eines Stapelwenders nach der vorhergehenden Figur und

Figuren 4A bis 4F

einen schematisierten Ablauf eines Stapelwendevorganges mittels des genannten Stapelwenders.

In it show:

Figure 1

a first representation of a pile turner,

Figure 2

a pile turner in connection with a taxiway,

Figure 3

an elevation of a pile turner according to the previous figure and

Figures 4A to 4F

a schematic sequence of a pile turning process using said pile turner.

Figure 1 is a pile turner 1 together with one on one Transport pallet TP shown on sheet stack B, The pile turner 1 is provided with a base frame 1A. The pile turner is attached to the base frame 1A 1 a hoist 2. The hoist 2 in turn is connected to a holding platform 3. On the holding platform 3, two clamping plates 4 are arranged transversely. The clamping plates 4 are trough-shaped in this case and along the Holding platform 3 slidable, so that a sheet stack B can be pinched. The sheet stack can then be lifted by means of the lifting mechanism 2 B around a horizontal axis from its upright standing position into one Be tilted up to 90 degrees, then the bend vertically stand. The hoist 2 is designed so that it is any other inclined position Sheet stack B can also start. The hoist 2 is also able the sheet stack B held in the clamping plates 4 by a perpendicular to Holding platform 3 to pivot the pivot axis D. Here lies the Sheet stack B on the holding platform 3.

A device for aligning is also in shape on the holding platform 3 a multi-adjustable guideline 5A arranged. The rule of thumb is 5A both in the direction of the arrows in its length and position in the longitudinal direction adjustable, as well as on its holder 5 on the holding platform 3 parallel to the Clamping plates 4 in the working direction of the pile turner 1 and across it adjustable. So that the rule 5A both in its length, its position in Longitudinal direction and its positioning with respect to one side of a sheet stack and can be positioned with regard to the position of the entire sheet stack B, are all Positioning options, i.e. the rule 5A itself and the bracket 5 with Provide actuators.

In a particularly suitable embodiment, the straightedge 5A is in two parts executed on the bracket 5 and arranged with simple, self-adjusting Provide drives. These can be pneumatic cylinders, for example, which are Support on the bracket and then act in the direction of the clamping plates 4 are oriented towards two lateral arms of the rule 5A on both sides. The pneumatic cylinders adjust the parts of the 5A ruler against the Clamping plates 4 or against a pallet protruding over the stacking edge. Because of the operating mode, no exact setting is required. The parts of the 5A ruler simply lay on the respective counter surface and are held there during batch processing.

Finally, preferably in the middle, within the surface of the Holding platform 3 a vibrating and ventilation unit 6 arranged. It serves the Generation of vibrations and air blowing to one side of the Apply sheet stack B and separate the sheets from each other and each other should align. The vibrating and ventilation unit 6 can be divided. Here a part is arranged statically. The second part 6A of the vibrating and Ventilation unit 6 can together with the holder 5 of the rule 5A be positionable. This means that regardless of what is currently being processed Stack format, always an even impact of the vibrating and Aeration function on sheet stack B reached.

For manipulating a stack of sheets on a TP transport pallet B in the pile turner 1 becomes in the direction indicated on the sheet pile B. retracted into the lower of the two clamping plates 4. Then the top of the moved both clamping plates 4 in the direction against the lower clamping plate 4 or the two clamping plates 4 are in the direction indicated by the arrow run against each other and the sheet stack B together with the transport pallet TP clamped between the clamping plates 4.

The sheet stack B together with the transport pallet TP can then be lifted by means of the lifting mechanism 2 tilted by 90 degrees or tilted at a smaller angle and be pivoted, as will be explained in more detail later. At the Swiveling the sheet stack B acts the guideline 5A, which for this purpose in its length is adjustable and its position can be positioned in all directions and is driven against a corresponding side of the sheet stack B, as Support and protection against displacement of the sheet stack B. Die Holding function is not absolutely necessary, however, because the clamping force of the Clamping plates 4 normally suffice to secure the sheet stack B as well hold against shifting when turning.

A further embodiment of the pile turner 1 is shown in FIG. Here, the basic structure of base frame 1A, lifting mechanism 2, holding platform 3, clamping plates 4, a ruler 5A on a holder 5 and the vibrating and ventilation unit 6, 6A of the embodiment described above is the same. However, transport rollers 7 are inserted into the clamping plates 4 at least on the underside. These transport rollers 7 can be arranged such that they can be fitted into a runway 8. Furthermore, the transport rollers 7 can be driven. In this way, a sheet stack B can be conveyed on such a roller conveyor 8 and inserted directly into the pile turner 1. After the sheet stack B has been automatically inserted into the pile turner 1, it can be gripped and clamped using the second clamping plate 4. The transport rollers 7 are braked in this case or their drives are stopped, so that the sheet stack B can be held securely. By means of the second clamping plate 4, the sheet stack B can then be clamped and turned as already indicated. To adjust the sheet stack B within the pile turner 1, it is possible to arrange the transport rollers 7 mounted on the pile turner 1 so as to be movable in the direction of their axes of rotation. The sheet stack B can thus be moved not only transversely in the transport direction but also in the longitudinal direction within the pile turner 1. This can be useful for aligning the front stack side on the vibrating and ventilation unit 6, 6A in the holding platform 3.
If necessary, transport rollers 7 can also be arranged on the second clamping plate 4. Then the pile turner 1 can be used on both sides. The immovable mounting of the sheet stack B when swiveling is then, as already described, ensured by braking the transport rollers 7 and above all by means of the rule 5A as a safety stop.
Alternatively and in a particularly simple manner, extendable stops can be provided on the lower clamping plate 4 for each pallet to be processed. The pallet is driven against these stops and thus fixed in its position.

To ensure the exact positioning, it is provided in the pile turner 1 to create a centering for the pallet to be used. The pallet to be used is, for example, the system pallet SP, which has defined dimensions, since it is to be used in an automatic transport and further processing system in connection with a sheet-processing machine. In the simplest case, the system palette SP can be aligned on an edge and centered in the pile turner 1. For this purpose, for example, stops adjustable to different standard formats can be provided in the pile turner 1. Likewise, regardless of size, each system pallet SP can be given a center marking that can be queried by means of a scanning device on the pile turner 1. System pallet SP and sheet stack B are thus centered with respect to one another.
Likewise, an asymmetrical arrangement of the sheet stack B within the pile turner 1 or to the system range SP is possible by means of the rule 5A. The straightedge 5A can be moved on the holder 5 in the direction of the height and also in the direction of the width of the sheet stack B. In this case, the guideline 5A can be aligned firstly on a pallet, for example a transport pallet TP or a system pallet SP, and then also on the actual side surface of the sheet stack B. Finally, the ruler 5A is also arranged such that it can serve as a side stop when the sheet stack 5 is turned. In this way, the 5A guideline can also be set above the wing of a pallet and not just on the side edge. The sheet stack B can therefore also be held laterally by the straightedge 5A if the edges of the sheet stack B and the pallet are not covered.
These functions are performed in a particularly advantageous manner by the guidelines 5A described above with a pneumatic drive.

Ultimately, the sheet stack B is already after turning or swiveling both sides, i.e. in the two orientations of the arches, aligned, since he already has one side on the holding platform 3 and one on the second side of the 5A guideline.

With the help of the 5A guideline as a safety stop, it is also possible to the sheet stack B in an inclined position of the clamping plates 4 of the pile turner 1 turn and thus save time for the production process. Here the Sheet stack B is not tilted by 90 degrees, as is customary, around the sheet stack B to be able to swivel safely. Rather, the sheet stack B is just around tilted an angle of, for example, 45 degrees. When swiveling the Sheet stack B then inevitably gets at least one stack side in one Hillside down. But she can focus on this in this direction Support the adjacent 5A guideline. The danger of slipping the Sheet stack B does not exist.

The use of the stack turner 1 described above presupposes that there is a connection to the stack transport and to the pallet handling. Here, the stack can be transported via roller conveyors 8 or also via separate floor conveyors.
Furthermore, the supply of empty pallets or the removal of empty pallets can be provided for each pile turner 1. This is useful, for example, if the transport pallet TP is to be exchanged for a so-called system pallet SP.

In the exemplary embodiment, however, the handling of the pallets is even in the Pile turner 1 is only provided insofar as, for example, a system range SP can be detected together with the sheet stack B and the transport pallet TP can. The sheet stack B is on the transport pallet TP on the System range SP. When turning the unit, the system palette SP can Clamps is attached to one of the clamping plates 4. You can do this at the top Clamping plate 4 a holding device or a fastening device be provided in which the system range SP can be inserted or hung and also can be clamped if necessary. In the process of batch handling is then released of the sheet stack B with the corresponding device, the system palette SP held above the sheet stack B and the exposed transport pallet TP can be removed manually or automatically. To put down on the The system stack SP then only needs the sheet stack B together with the System range SP to be clamped and turned. It is a safe and fast process for moving the sheet stack B onto a system pallet Given SP.

The pallets can be held on the pile turner 1 in different ways happen. Here, e.g. it is possible to slide a pallet onto support arms, if the pile turner 1 is not with clamping plates 4 as shown, but with conventional fork-shaped support arms is provided. Furthermore, a Clamping device on the support arms or clamping plates 4 of the pile turner 1 be provided, the pallet there, for example, by clamping a Pallet part fixed. The holding device can also be used simply as a hook arrangement be executed, into which the pallet can be inserted. By means of the holding device but also the position of the pallet to be used can be determined. Therefore, a Holding device provided that the pallet to be used, for example the system range SP, fixed in the direction against the holding platform 3. This can a fixed stop on the lower clamping plate 4 in the area of the holding platform 3 be provided, against which the system range SP then by means of a Pneumatic cylinder pressed from the opposite side and so in their Position is also fixed when hanging overhead. Against the holding platform 3 is also the sheet stack B created when shaking and aerating. This results in automatic parallel alignment of system pallet SP and sheet stack B.

Fig. 4A

Der Bogenstapel B wird auf der Transportpalette TP in den Stapelwender 1 eingefahren. Das Richtlineal 5A dient dabei als Justieranschlag.

Fig. 4B

Der Bogenstapel B wird zusammen mit der Transportpalette TP im Stapelwender 1 zwischen den Klemmplatten 4 festgeklemmt. Das Richtlineal 5A wird auf die Länge zwischen den Klemmplatten 4 eingestellt.

Fig. 4C

Der Bogenstapel B wird zusammen mit der Transportpalette TP im Stapelwender 1 mittels des Hubwerkes 3 um 90 Grad gekippt oder um einen Winkel kleiner 90 Grad angekippt.

Fig. 4D

Der Bogenstapel B wird zusammen mit der Transportpalette TP im Stapelwender 1 mittels des Hubwerkes 3 um eine senkrecht auf der Halteplatte 2 stehende Achse geschwenkt. Das Richtlineal 5A wirkt dabei als Sicherungsanschlag für den eingeklemmten Bogenstapel B.

Fig. 4E

Die Klemmplatten 4 werden auseinandergefahren. Der Bogenstapel B wird gerüttelt und belüftet. Gegebenenfalls wird in horizontaler Lage der Klemmplatten 4 die Transportpalette TP gegen eine Systempalette SP ausgetauscht.

Fig. 4F

Der Bogenstapel B wird zusammen mit der Transportpalette TP (Systempalette SP) erneut zwischen den Klemmplatten 4 geklemmt, in die richtige Orientierung mit der Transportpalette TP (Systempalette SP) nach unten geschwenkt, in die Ausgangslage zurückgekippt, im Stapelwender 1 abgesetzt und kann dann verarbeitungsbereit aus dem Stapelwender 1 ausgefahren werden.

The batch processing is explained in more detail below in FIGS. 4A to 4F:

Figure 4A

The sheet stack B is moved into the stack turner 1 on the transport pallet TP. The 5A guideline serves as an adjustment stop.

Figure 4B

The sheet stack B is clamped together with the transport pallet TP in the pile turner 1 between the clamping plates 4. The rule 5A is set to the length between the clamping plates 4.

Figure 4C

The sheet stack B is tilted together with the transport pallet TP in the pile turner 1 by means of the lifting mechanism 3 by 90 degrees or tilted by an angle of less than 90 degrees.

Figure 4D

The sheet stack B is pivoted together with the transport pallet TP in the pile turner 1 by means of the lifting mechanism 3 about an axis perpendicular to the holding plate 2. The 5A guideline acts as a safety stop for the jammed sheet stack B.

Figure 4E

The clamping plates 4 are moved apart. The sheet stack B is shaken and aerated. If necessary, the transport pallet TP is exchanged for a system pallet SP in the horizontal position of the clamping plates 4.

Figure 4F

The sheet stack B is clamped again together with the transport pallet TP (system pallet SP) between the clamping plates 4, swiveled downward into the correct orientation with the transport pallet TP (system pallet SP), tipped back into the starting position, set down in the pile turner 1 and can then be processed the pile turner 1 are extended.

Fig. 4A

Der Bogenstapel B wird zunächst außerhalb des Stapelwenders 1 (oder mit dessen Hilfe) gemeinsam mit der Transportpalette TP auf eine Systempalette SP abgesetzt und in den Stapelwender 1 gegen das Richtlineal 5A eingefahren.

Fig. 4B

Der Bogenstapel B wird zusammen mit der Transportpalette TP und der Systempalette SP im Stapelwender 1 zwischen den Klemmplatten 4 festgeklemmt. Das Richtlineal 5A wird auf die Länge zwischen den Klemmplatten 4 eingestellt.

Fig. 4C

Der Bogenstapel B wird zusammen mit der Transportpalette TP und der Systempalette SP im Stapelwender 1 mittels des Hubwerkes 3 gekippt / angekippt.

Fig. 4D

Der Bogenstapel B wird zusammen mit der Transportpalette TP und der Systempalette SP im Stapelwender 1 mittels des Hubwerkes 3 um eine senkrecht auf der Halteplatte 2 stehende Achse geschwenkt. Das Richtlineal 5A wirkt dabei als Sicherungsanschlag.

Fig. 4E

Die Klemmplatten 4 werden (ggf. nur in geringem Umfang) auseinandergefahren. Der Bogenstapel B wird gerüttelt und belüftet. Die Transportpalette TP wird aus dem Stapelwender 1 entnommen, wobei die Systempalette SP an einer Klemmplatte 4 festgeklemmt und gehalten wird.

Fig. 4F

Der Bogenstapel B wird zusammen mit der Systempalette SP wieder zwischen den Klemmplatten 4 geklemmt, in die richtige Orientierung mit der Systempalette SP nach unten geschwenkt, zurückgekippt, im Stapelwender 1 abgesetzt und kann dann verarbeitungsbereit aus dem Stapelwender 1 ausgefahren werden.

In the special case of simplified pallet exchange, the steps remain basically the same. There are only a few changes:

Figure 4A

The sheet stack B is first placed outside of the pile turner 1 (or with its help) together with the transport pallet TP on a system pallet SP and moved into the pile turner 1 against the straightedge 5A.

Figure 4B

The sheet stack B is clamped together with the transport pallet TP and the system pallet SP in the pile turner 1 between the clamping plates 4. The rule 5A is set to the length between the clamping plates 4.

Figure 4C

The sheet stack B is tilted / tipped together with the transport pallet TP and the system pallet SP in the pile turner 1 by means of the lifting mechanism 3.

Figure 4D

The sheet stack B is pivoted together with the transport pallet TP and the system pallet SP in the pile turner 1 by means of the lifting mechanism 3 about an axis perpendicular to the holding plate 2. The 5A guideline acts as a safety stop.

Figure 4E

The clamping plates 4 are moved apart (possibly only to a small extent). The sheet stack B is shaken and aerated. The transport pallet TP is removed from the pile turner 1, the system pallet SP being clamped and held on a clamping plate 4.

Figure 4F

The sheet stack B is clamped together with the system pallet SP again between the clamping plates 4, pivoted down into the correct orientation with the system pallet SP, tilted back, set down in the pile turner 1 and can then be moved out of the pile turner 1 ready for processing.

For different substrates or sheet materials it is possible to use different ones Set production processes on pile turner 1. Here comes in particular to ensure that thinner substrates stick together more than thicker ones Substrates. In addition, the consumption of sheets with thicker substrates larger than with thinner substrates because the stacks are processed faster become. Furthermore, the stack weights vary depending on the substrate.

In view of these criteria, it makes sense to have different procedures predefine for the pile turner 1 and based on the incoming material automatically expire. A controller is provided here it enables the type of stack and the substrate to be recognized. This can for example via a barcode reader, by means of which either the operator writes the data from a label attached to sheet stack B. reads or the data from the sheet stack at an automatic reading station B can be scanned. From the determination of the size of the sheet stack B and the control of the pile turner 1 takes one from the pile weight specific course of treatment for moving the stack.

• die Einstellungen für die Positionierung des Bogenstapels B im Stapelwender 1 mittels der Transportrollen 7, 8,
• die Bestimmungswerte für die Erfassung des Bogenstapels B mit den Klemmplatten 4 und deren Haltekraft,
• die Einstellung und Positionierung des Richtlineals 5A,
• die Einstellung der Rüttel- und Belüftungseinheit 6 bezüglich Intensität und Dauer und gegebenenfalls Anwendungszyklen,
• der Kipp- bzw. Ankippwinkel des Hubwerkes 3
  und
• die Zangenbewegung der Klemmplatten 4 beim Belüften und Austauschen der Paletten
  mittels einer Voreinstellung beispielsweise bei einem Probelauf erfasst und in einer Steuereinheit des Stapelwenders 1 sowohl als Stellwerte abgelegt, als auch als Ablaufprogramm eingespeichert. Bei der weiteren Verarbeitung von Bogenstapeln B können dann in Abhängigkeit der Rahmenbedingungen und der Daten zu einem Bogenstapel B die verschiedenen Ablaufprogramme für die Stapelbehandlung aufgerufen werden.
  In Vereinfachung der Abläufe werden die Abmessungsparameter und die von Papiersorte und Stapelgewicht beeinflussten Einstellungen in einem programmierten Ablauf zur Stapelbehandlung aufeinander abgestimmt abrufbar gemacht.

Here, the specific needs of the respective substrate or stack type are selected and, if necessary, also depending on the supplier, the environmental conditions and the specific requirements from further processing in a sheet-processing machine

• the settings for the positioning of the sheet stack B in the pile turner 1 by means of the transport rollers 7, 8,
• the determination values for the detection of the sheet stack B with the clamping plates 4 and their holding force,
• the setting and positioning of the rule 5A,
• the setting of the vibrating and ventilation unit 6 with regard to intensity and duration and, if appropriate, application cycles,
• the tilting or tipping angle of the hoist 3
  and
• the forceps movement of the clamping plates 4 when ventilating and exchanging the pallets
  detected by means of a presetting, for example during a test run, and stored in a control unit of the pile turner 1 both as control values and also stored as a sequence program. During the further processing of sheet stacks B, the various sequence programs for the batch handling can then be called up depending on the general conditions and the data for a sheet stack B.
  In order to simplify the processes, the dimension parameters and the settings influenced by the paper type and stack weight can be called up in a programmed process for batch processing.

For the execution of the pile turner 1 are only the essential features cited, so that further embodiments within the scope of what has been described can be given. For example, the pile turner 1 can be used for detection of a sheet stack B can also be arranged to be movable in its longitudinal direction.

Claims (17)

Pile turner of a sheet stack with a lifting mechanism for lifting, tilting and pivoting the sheet stack, clamping means for gripping and holding a sheet stack, preferably together with at least one stack pallet and with means for aligning and venting the sheet stack,
characterized by
that a stop means acting on one side of the sheet stack (B) is provided, which is slidably arranged laterally of a stack position between the clamping means (4). Pile turner according to claim 1,
characterized by
that a control for the pile turner (1) is provided, by means of which at least positions of the lifting means can be detected and positions of the lifting means can be preset and automatically approached. Device according to claim 1 to 2,
characterized by
that the stop device is a rule (5A), which is arranged perpendicular to the plane of the clamping means (4) on a holder (5) connected to the lifting mechanism (2) or a holding plate (3). Device according to claims 1 to 3,
characterized by
that the ruler (5A) is arranged parallel to the direction of the planes of the clamping means (4). Device according to claims 1 to 4,
characterized by
that the ruler (5A) is adjustable in its longitudinal orientation both in its position and in its length. Device according to claim 5,
characterized by
that the ruler (5A) is made in two parts and each part is longitudinally adjustable in length by means of a pneumatic cylinder. Device according to claim 1 to 6,
characterized by
that the straightening ruler (5A) is designed as a lateral stop for the sheet stack (B) in such a way that the sheet stack (B) is secured against displacement during swiveling movements in an inclined position by the straightening ruler (5A). Device according to claims 1 to 7,
characterized by
that the clamping means are designed as clamping plates (4). Device according to claims 1 to 7,
characterized by
that at least one of the clamping plates (4) is provided with transport rollers (7) for the driven transport of a stack of sheets (B). Device according to claim 9,
characterized by
that both clamping plates (4) are provided with transport rollers (7). Device according to claim 9,
characterized by
that the transport rollers (7) on at least one clamping plate (4) are slidable in the direction of their longitudinal axis. Device according to claims 1 to 7,
characterized by
that a device for holding a pallet is provided on at least one clamping plate (4), such that the pallet can be lifted from the stack of sheets (B) together with the clamping plate (4) when the sheet stack (B) is turned. Device according to claim 12,
characterized by
that at least on the clamping plate (4) lying at the bottom in the starting position of the pile turner, a fixed stop parallel to the holding plate (3) and an adjustable stop on the opposite side of the clamping plate (4) is provided, such that a pallet against the by means of the adjustable stop Fixed stop is non-positively pressed. Device according to claim 13,
characterized by
that the fixed stop and / or the adjustable stop are designed for positive engagement in the pallet. Device according to one of claims 3 to 14,
characterized by
that a holding platform (3) oriented perpendicular to the expansion of the clamping plates (4) is provided on the lifting mechanism (2), that a shaking and ventilation unit (6) is provided within the holding platform (3) that the shaking and ventilation unit (6) is made in two parts and that a part (6A) of the vibrating and ventilation unit (6) is arranged to be movable together with the holder (5) of the guideline (5A). Method for ventilating, aligning and relocating a stack of sheets using a pile turner according to claim 1 or 2,
characterized by
that the sheet stack (B) is positioned on the stop means, that the sheet stack (B) is gripped and held by the clamping means (4) together with a pallet, that the sheet stack (B) is tilted between 0 and 90 degrees, that the sheet stack (B) is pivoted under the attachment of the lifting means in such a way that it remains in contact with the lifting means and that the sheet stack (B) is pivoted back and set down again after alignment, ventilation and exchange or removal of the pallet using the lifting means. A method according to claim 16,
characterized by
that the sequence of the batch processing can be stored in the control, in such a way that
values in different memories of the controller for the dimensions and weight of the sheet stack (B) and single sheets, for specifications for positioning the sheet stack (B) on a pallet and Processing parameters with regard to exposure time and exposure intensity of the stack alignment or stack ventilation are stored, that depending on the stored values for the dimension and weight of the sheet stack (B) and single sheet and on the specifications for the positioning of the sheet stack (B) on a pallet, values for the processing parameters and the positioning of the lifting mechanism (2) and lifting gear are defined, that the values for dimensions and weight of sheet stack (B) and single sheet are read in automatically or manually when a sheet stack (B) is fed to the pile turner (1) and that the batch processing is carried out by logically retrieving the assigned values of the processing parameters and the positioning of the lifting mechanism (2) and the lifting means.

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