EP1262435A1 - Process and apparatus for piling of raw material, especially for signatures or stacks of signatures - Google Patents

Abstract

The machine includes a cutter (11) for a continuous web of paper and first and second auxiliary stack carrier (28,30) on either side of the tray (23) which supports the pallet (22). There are movable side walls (18) and a front wall (19) which help align the paper sheets in the stack. An auxiliary stack is built up on the stack carriers which may be moved aside to lower the stack onto the pallet.

Description

Field of application and state of the art

The invention relates to a method and an apparatus for stacking sheet material, in particular paper sheets or paper sheet layers, a stacking shaft in a sheet entry level and fed in a sheet infeed direction and in this with stack formation are collected, and to take out a completed stack.

In paper processing machines, especially at the end of cross cutters, the larger sheet intended for the printing industry from rolls cut, they are usually in very high and heavy stacks stacked and, usually lying on pallets, for storage or others Processing removed. On the one hand, it is absolutely necessary to create straight and undamaged stack edges for later processing the sheet does not hinder, and on the other hand during the stack change not to disturb the continuous running of the machine.

Various proposals have already been made for this purpose. EP 0 790 206 A1 and US Pat. No. 5,322,272 A disclose methods for automatic non-stop batch change known for sheetfed presses are provided. Those guided by a gripper chain Sheets are placed in a stacking chute, the side auxiliary stack carrier after entering the stacking chute from the side the sheets of sheet separating devices which also engage laterally in Form was held back by fingers gripping the edge of the bow. The auxiliary stack carriers are moved out at the same time, so that they place the stack part formed on them on the main stack carrier can.

EP 0 718 231 B1 describes a stacking device in which an auxiliary table is retracted in the direction of sheet travel to change the stack after a separable finger that can be folded in from the same side forms a gap for this Has. DE 31 22 451 C2 describes a stacking device in which an upper and lower auxiliary table are provided in the stacking direction drive in and accordingly under the transport device for the Arc current must be arranged. The upper auxiliary table grips like a finger into the arc stream and creates a gap in which the lower auxiliary table can be retracted. The auxiliary table is provided with a rolling device, i.e. with bands, the relative movements and thus friction prevent the underside of the partial stack that forms on it.

DE 35 35 113 C2 also describes a retractable in the sheet running direction Auxiliary table with a rolling device, instead of a mechanical Fingers the gap is kept open by means of blowing air.

The devices that work with an auxiliary table have the problem that the partial stack placed on the main stack carrier is moving during the Put down due to the thickness of the auxiliary table and must deform not exactly straight to the rest of the stack. This is particularly the case with fear smooth and high quality papers.

Task and solution

The object of the invention is to provide a stacking method and device create a nonstop batch change without affecting the Stack quality is possible.

This object is achieved by a method with the features of the claim 1 solved and by a device with the features of the claim 11th

The first auxiliary stack carrier moves in the course of an arc gap that on any Can be generated, preferably by a device, as described in DE 198 51 371 (corresponding to EP 99 120 664 A and US-6 189 884 B1). This gap is sufficient to the first auxiliary stack carrier preferably against the direction of sheet entry to drive in. The auxiliary stack then forms on the whole Auxiliary stack carrier spanning the stacking shaft, which preferably can be designed as a plate. It will be according to the speed the stack formation of the partial stack formed on it is lowered. While During this time, the finished stack can be completely lowered and removed from the main stack carrier removed on which he rested. If that is at first Auxiliary stacks forming auxiliary stacks have reached a certain height and the starting position of a second auxiliary stack stack carrier is passed the transfer of the auxiliary stack to the main stack is initiated. To the second auxiliary stack carrier moves, preferably in the direction of the sheet inlet and at the same height as the first auxiliary stack carrier, in the shaft and follows the simultaneous withdrawal of the first auxiliary stack carrier. Both auxiliary stack carriers can be moved freely by belts or other roll-off measures, such as rolls or as blown air Air table, designed so that there is no friction between them and the bottom sheet of the auxiliary stack.

The second auxiliary stack carrier follows the withdrawal of the first, so that the Auxiliary stack is supported evenly distributed over its entire surface and stays flat. When the two free ends of the auxiliary stack support the middle of the stack has been reached, the second auxiliary stack carrier is reversed and drives back, preferably at the same speed, with which the first auxiliary stack carrier is withdrawn further becomes. As a result, the stack is removed from the center by the auxiliary stack carriers freed and now rests on the main stack carrier, which has since been raised, on which a transport pallet is usually placed. The at Withdrawal of the auxiliary stack carrier resulting deflection of the stack in the middle area is symmetrical, so that the stack when both auxiliary stack carriers withdrawn, flat and without edge offset - in front or Reverse direction rests on the main stack carrier.

The problems with an offset stack formation are thus eliminated. The The invention also has the advantage that the main stack is directly on a Transport pallet can be formed. It is also essential that due to the relatively large height of the partial stack before transfer to the Can reach the main stack carrier, the main stack carrier cannot reach into the Area of the sheet inlet level must be raised. So he can stay below the area of the stack chute boundaries that are in the Bow entry area by so-called bats, i.e. vibrating sheets, formed are the same as the bow. That allows the palette to look that way The main stack carrier can be placed so that it is even Has edge overhang on the stacking edges, what for transport and storage purposes necessary is. There is therefore no need to postpone it of the stack on the pallet more.

The second auxiliary stack carrier can also have a second advantageous function fulfill. When the finished stack, lying on the main stack support, the Starting position of the second auxiliary stack carrier happens, this can in the stacking shaft retracted and lowered onto the finished stack as it moves down. It spreads over him and can Apply contact pressure so that it holds the stack like a gripper. This enables high lowering speeds without the risk of the upper Fly up the leaves and slide. As well as the main stack, its lower one Has reached the emptying position, then the second auxiliary stack carrier moves back up and goes to its starting position to the previous one described function in cooperation with the first auxiliary stack carrier exercise.

In terms of construction, considerable advantages are also achieved. The space among the Transport routes for the sheet is for additional device parts, such as Auxiliary tables etc., difficult to access. In the invention is preferably the second auxiliary stacking table arranged under the sheet entry area. He only needs to have half the stacking shaft width, because it only goes up to Middle of the stacking shaft must reach, so that it and its drive easier is to be accommodated. He can also be well below the Sheet entry position lie, so that there too the constructive freedom for the actual sheet entry area is larger. Against is the first Auxiliary stack carrier that covers the entire width of the shaft, preferably in the area of the shaft area forming the front edge of the stack, ie on End of the machine, arranged where there is enough space for his work is.

The invention thus enables a paper processing machine with one Stackers are created that are designed as non-stop stack changers is. After dragging a gap in the shingled stream a first auxiliary stacking table is run in, on which there is an auxiliary stack can form. After reaching the position of an opposite one second auxiliary stacking table, this is synchronized with the extension of the first auxiliary stacking table moved to a middle position and from this in opposite synchronous with the extension of the first Auxiliary stacking table also extended. The partial stack formed on it then lies down on a pallet lying on a main stacking table. Through the synchronous, symmetrical extension of the two auxiliary stacking tables the auxiliary stack is placed without an edge offset.

These and other features are based on the claims as well the description and the drawings, the individual Features each individually or in groups in the form of sub-combinations in one embodiment of the invention and in other fields be realized and advantageous as well as protective designs can represent, for which protection is claimed here. The subdivision registration in individual sections and subheadings does not limit the generality of the statements made under these.

Brief description of the drawings

An embodiment of the invention is shown in the drawings and is explained in more detail below.

The drawing figures 1 to 9 show successive process steps of the method according to the invention, demonstrated on one schematically shown stacking device in partially cut Side view.

Detailed description of a preferred embodiment

Fig. 1 shows the end of a paper processing machine, namely one Cross cutter 11, in the paper rolls wound in rolls Sheets 12 are cut. The paper webs are made by several Coming rollers, several of rotating knife shafts lying on top of each other cut lengthways and from knives attached to knife shafts cut transversely to the sheet or overlying sheet layers. If sheets are mentioned below, layers are also included to be understood from several single sheets, which are treated as a unit.

After the cut, the sheets become delayed and staggered a staggered or scaled arc stream is generated, which on a Transport device 13, the end of which is shown, to a stacking device 14 are transported essentially horizontally. The transport device summarizes the shingled arc stream between the upper and Under belt sections. An upper belt 15 runs over one in a machine frame 10 arranged stacking shaft 16 of the stacking device time. A device is provided in the transport device 13, with which a gap in the sheet current is generated for a stack change can without completely stopping the processing machine 11 must become. This device is not shown here and in detail described. It can be designed as in the aforementioned DE 198 51 371 A or US 6 189 884 B1 of the applicant. This is explicit Referred.

At the level of the sheet inlet level 17, the stack shaft of front bats 18 and side rackets 19 limited according to the sheet format are adjustable. These rackets are vibrating moving wall parts, also known as vibrating plates, which the in Sheet entry direction 20 supplied sheet 12 to form a straight Butt the stack edge.

Fig. 1 also shows that the very high and heavy stack 21 with interposition a normal transport pallet 22, e.g. Euro pallet, on a main stack carrier 23 rests. This is a vertical one movable table that hangs on lifting chains 24 and by a drive 25 can be raised and lowered on guides 26. As indicated the main stack carrier 23 contains a conveyor belt 27 with which the pallet 22nd and thus the stack 21 can be moved out of the stacking shaft can to be transported there by a forklift or the like.

In the sheet entry direction behind the stacking shaft 16 is on the machine frame 10 a drive and guide mechanism 32, 33 for a first one Auxiliary stack carrier 28 arranged. The carrier elements 29 are with their free Ends 30 facing the stacking shaft. The distribution of the stack carriers 23, 28 and 36 in individual "tines" is not absolutely necessary, since it is advantageous the tables do not cross each other in their work have to.

The first auxiliary stack carrier is arranged horizontally and horizontally Movable in the direction so that it is in a first entry direction (arrow 31) the shaft is insertable. The first auxiliary stack carrier 28 with its guide 32 is also guided to be vertically movable and by means of a drive 33 moved vertically. Its upper position is close below the sheet entry level 17. It has a usable length that the stacking shaft dimension in the direction of sheet entry. The support elements are like indicated by the rollers 34, provided with freely running conveyor belts, whose upper run forms the supporting surface 35 of the auxiliary stack carrier. Such, the friction between the respective element and that on it to be arranged stack reducing drain devices are known per se, for example from DE 35 35 113 C2. The auxiliary stack carriers 26, 36 can also be designed as air tables coated with blown air.

On the opposite side of the stacking shaft 16, namely below of the transport device 13, a second auxiliary stack carrier 36 is arranged. It is also horizontal and vertical movable, by a similar, albeit much smaller trained drive as that of the first auxiliary stacking table. For reasons for clarity, it is not shown in detail, but only through dash-dotted lines, e.g. as a pneumatic cylinder, indicated (vertical drive 37, horizontal drive 38). The formation of the second auxiliary stack carrier (36) in the form of carrier elements with rolling devices etc. same as described for the first auxiliary stack carrier (28). The top section the leading edge of the free end 39 of the second auxiliary stack carrier is slightly beveled. The upper position shown in Figures 1 to 3 of the second auxiliary stack carrier 36 forms its starting position 40. In this is the auxiliary stack carrier withdrawn from the shaft 16. she lies considerably, e.g. by approx. 250 mm, below the sheet inlet level 17, that is below the front and possibly also the side rackets 18, 19. The second Auxiliary stack carrier 36 is only usable in its horizontal extent about half as long as the usable shaft dimension in the direction of sheet entry 20. The second auxiliary stack carrier 36 is in this direction of the horizontal drive 38 retractable into the shaft.

function

Fig. 1 shows the stacking device in a position in which a stack 21 is completed and the last sheet 12 or the last sheet layer on it runs. The stack 21 rests on the pallet 22 and this on the main stacking table 23. Up to this point the main stacking table was 23, possibly clocked, depending on the speed of the stack formation downwards have been moved so that each sheet 12 in staggered previously or scaled, i.e. overlapping shape, relatively smooth on the previously filed Accurate sheets and from the rackets 18, 19 to a straight line Stacks are pushed. The top edge of the stack lies thus at sheet entry level 17.

At this time, the transport device 13 is influenced in such a way that a gap is formed in the stream of incoming sheets 12. For for a certain period of time, there are no arches in the area of the stacking shaft on. This can be accomplished in a number of ways. Before DE 198 51 371 A had been mentioned, which is an advantageous option describes this. Possibly. can the working speed of the Overall machine 11 are reduced. However, it does not need to stop to become.

Fig. 2 shows that the finished stack 21 by vertical downward movement of the main stack carrier 23 is lowered (arrow 41). If the top of the stack 42 passes the starting position of the first auxiliary table 28 has, then this is horizontal by means of its drive 33 in the stacking shaft retracted, in the first retraction device 31, which is preferred the sheet entry direction 20 is opposite. Opposite one the illustrated first entry direction also has possible lateral entry the advantage that even at a relatively early end of the gap, that is, an onset of the arc current before complete retraction, no lateral misalignment of the arches is to be feared. The first auxiliary stack carrier is possibly raised somewhat in the direction of the sheet inlet level 17 (see arrow 43).

Fig. 3 shows that the first auxiliary stacking table 28 then the entire shaft width covered at the level of the sheet entry level and ready to that the sheets following the gap are placed on it. Fig. 3 also shows that after the top edge 42 of the stack the starting position 40 of the second auxiliary stack carrier 36 has passed, this in overdrive the stacking shaft 16 retracted horizontally and then by lowering placed on the top edge of the finished stack 21 with contact pressure becomes. The lowering is therefore somewhat faster at the beginning, while after the resting of the second auxiliary stack carrier on the stack 21 it follows in its lowering movement, but exerts a contact pressure. This can be achieved by e.g. the drive designed as a pneumatic drive 37 of the second auxiliary stack carrier during the lowering movement in the downward direction is kept under pressure. This will stack through the second auxiliary stack carrier 36 is gripped as with a gripper, and it is prevents the upper ones from lowering the stack relatively quickly Arches lift or move sideways.

Fig. 4 shows the position in which the finished stack 21 is in its extended position has reached and now by starting the belt conveyor 27 from Main stack carrier 23 can be moved out. This can be in the sheet entry direction 20 happen or with the appropriate orientation of the conveyor belt 27, to the machine side (perpendicular to the plane of the drawing). It is also possible to work and without a transport system 27 remove the stack directly with a forklift, however, this will Change times are extended and a forklift always has to be ready for use.

The dash-dotted arrow 44 indicates that the second auxiliary stack carrier is thereafter 36 can be moved back to its starting position 40 (shown in broken lines).

In the meantime, the machine continued to run and the stack that followed formed in the form of an auxiliary stack 45 on the first auxiliary stack carrier 28th

Fig. 5 shows that after unloading the stack 21 from the main stack carrier 23 a new pallet 22 is placed on this by means of the conveyor 27 becomes. It can be seen from the drawings that this palette is normally has slightly larger dimensions than that of the stack, so they has a lateral projection 46 (see FIG. 4) over the stack dimensions. This is important for later packaging, storage and transportation of the stack not to damage the stack edges and thus the sheet edges. The pallet can be positioned so that the protrusion 46 is present on all edges because it, as outlined later still emerges, not up to the area of the front or side rackets must be raised. With a direct collection of the stack the stack would have to be on the pallet without forming an auxiliary stack later moved on the pallet, which in turn can cause injury of the straight edge stack means.

The main stack carrier 23 with the pallet 22 is now quickly up driven (arrow 47) until it has reached the position shown in FIG. 6, namely immediately below the starting position 40 of the second auxiliary stack carrier 36. Fig. 6 also shows that after the auxiliary stack 45 is one Has reached a height that it descends synchronously with the stack formation Auxiliary stack carrier 28 the same level as the second auxiliary stack carrier 36, i.e. whose starting position has reached 40, the stack transfer of the auxiliary stack 45 onto the pallet 22 and thus the main stack carrier 23 starts. For this purpose, the first and second auxiliary stack carriers 28, 36 are synchronized moved so that the first auxiliary stack carrier 28 under the stack in Sheet feed direction 20 is moved out of the stacking shaft, while the second auxiliary stack carrier 36 immediately follows it, so that does not create a substantial gap between them. Both auxiliary stack carriers 28, So 36 slide together under the stack and over the Pallet 22. However, they lie with the lower run of the rolling device not on the pallet, so the unwinding device provided for both 34, 35 is started by the upper run 35 practically adheres to the bottom sheet of the stack that is under it under the weight of the Auxiliary stack 45 rests, and the tape on the rollers 34 against each other rolls clockwise so that the shift without friction between the bottom sheet of the stack and its support damage to this stack part is avoided.

Fig. 7 shows the position in which the two free ends 30, 39 of the first and the second auxiliary stack carrier, still close together, the middle one Area, preferably the exact center, of the stack extension in the direction of sheet entry achieved. The stack is now supported by both auxiliary stack carriers worn evenly and essentially over the entire surface.

FIG. 8 shows that, starting from this middle position according to FIG. 7, the second auxiliary stack carrier 36 is reversed and now extended again, in opposite directions, but preferably at the same speed, how the first auxiliary stack carrier 28 continues in the sheet entry direction. As a result, the auxiliary stack 45 can now start from the center place on the pallet 22, which causes a certain bending of the auxiliary stack 45 presupposes. However, this is exactly symmetrical, so that after the complete Storage of the auxiliary stack on the pallet 22 and thus the Main stack carrier 23 the stack is exactly straight again (cf. FIG. 9). To also helps that the auxiliary pile carriers due to their good guidance don't need to be very thick.

During the stack transfer (FIGS. 6 to 8), the two auxiliary stack carriers became together with the main stack carrier 23 according to the in the meantime, ongoing stack formation lowered clocked. It is also possible to move the main stack carrier 23 up to one position only, which corresponds to the process phase according to Fig. 7, i.e. the beginning of Part stacker.

Fig. 9 shows that both auxiliary stack carriers are now extended and in their Starting position according to FIG. 1 and the stack formation on the main stack 21 is continued until this is due for change (Fig. 1).

It can be seen that the invention has numerous procedural advantages and the device allows. Formation of the main stack takes place immediately after delivery on the later transport element (Palette). The stack can be centered on this in its later end position set and formed on it. It is therefore no longer necessary with earlier stack quick changers used steel plates as intermediate beams, by means of which the stacks are picked up by the forklift and placed on the transport pallets after which they had to be pulled out again. This always caused damage to the underside of the stack. Because of the symmetrical Lowering the stack is no longer necessary with earlier stack quick changers disturbing paragraphs to be observed in the stacking edges ("stacking lugs"). A structural advantage is the shortness of the second auxiliary stacking table, the on the critical point is located below the sheet transport system, and the fact that it is located far below the sheet entry plane can be.

Claims (13)

Method for stacking sheet material, in particular paper sheets or layers of paper sheets, which are fed to a stacking shaft (16) at a sheet inlet level (17) and in a sheet inlet direction (20) and collected therein, and to remove a finished stack (21) with the following procedural features:

1.1

Moving at least one auxiliary stack carrier (28) into the stacking shaft (16) in a first entry direction (31) close below the sheet entry level (17);

1.2

Lowering the first auxiliary stack carrier (28) according to the increasing height of the partial stack (45) forming on it, while the finished stack (21) resting on a main stack carrier (23) is lowered and removed from the main stack carrier,

1.3

Retracting a second auxiliary stack carrier (36) from a starting position (40) below the sheet entry level (17) opposite the first entry direction (31) above the main stack carrier (23) and essentially at the current level of the first auxiliary stack carrier (28);

1.4

Moving the first auxiliary stack carrier (28) out of the stack shaft (16) counter to the first entry direction (31) and simultaneously following the second auxiliary stack carrier (36) as far as a central region under the stack (21);

1.5

Extending the second auxiliary stack carrier (36) out of the shaft in the first entry direction (31) and counter to the extending direction of the first auxiliary stack carrier (28), and

1.6

Placing the auxiliary stack (45) on the main stack carrier (23).

Method according to Claim 1, characterized in that the auxiliary stack carriers (28, 36) are lowered during their engagement phases in accordance with the stack formation of the auxiliary stack (45). A method according to claim 1 or 2, characterized in that the finished stack (21) is overlapped and contacted, preferably pressurized, by the second auxiliary stack carrier (36) at least during part of its lowering. Method according to Claim 3, characterized in that the second auxiliary stack carrier (36) is retracted from its starting position (40) over the finished stack (21) when the latter has passed the starting position (40) during its lowering into the unloading position and onto the stack ( 21) is lowered, preferably follows it into the unloading position and is then returned to its starting position (40) before the main stack carrier (23) is raised again. Method according to one of the preceding claims, characterized in that the stack (21) lies on the main stack carrier (23) on a transport pallet which preferably has a protrusion on all sides with respect to the stack (21). Method according to one of the preceding claims, characterized in that the auxiliary stack carriers (28, 36) are moved to the auxiliary stack (45) below it largely without friction. Method according to one of the preceding claims, characterized in that the first entry direction (31) is opposite to the sheet entry direction (20). Method according to one of the preceding claims, characterized in that the extension of the second auxiliary stack carrier (36) from the central region takes place synchronously in opposite directions and at essentially the same speed as the extension of the first auxiliary stack carrier (28). Method according to one of the preceding claims, characterized in that the starting position (40) of the second auxiliary stack carrier (36) lies below the lower end of a stacking shaft boundary (18, 19), in particular a vibratingly moving shaft wall lying in the direction of sheet travel. Method according to one of the preceding claims, characterized in that the first auxiliary stack carrier (28) is retracted during an arc (12) entering the stream. Device for stacking sheet material, in particular paper sheets or paper sheet layers, which are fed to a stacking chute (16) at a sheet entry level (17) and in a sheet entry direction (20) and collected in the latter with the formation of stacks and for removing a finished stack

11.1

a first auxiliary stack carrier designed to form an auxiliary stack (45) with a free end (30) facing the stacking shaft (16),

11.2

a first auxiliary stack drive (33) for moving the first auxiliary stack carrier (28) into the stacking chute (16) in a first entry direction (31) over substantially the entire stack dimension in the sheet entry direction (20) and for controlled lowering in accordance with the stack formation of the auxiliary stack (45) .

11.3

with a second auxiliary stack carrier (36) with a free end (39) facing the stacking shaft (16) and with a second auxiliary stack drive (37, 38) for entering the stacking shaft (16) over substantially half the stack dimension and for controlled lowering accordingly stack formation, the second auxiliary stack carrier (36) being arranged on the side of the stack shaft (16) opposite the first auxiliary stack carrier (28),

11.4

with a transfer control for the coordinated extension of the first auxiliary stack carrier (28) and the subsequent insertion of the second auxiliary stack carrier into a middle position of both free ends (30, 39) as well as the controlled extension of both auxiliary stack carriers (28, 36) from the middle position below Simultaneously, essentially symmetrically placing the auxiliary stack (45) on a main stack carrier (23).

Apparatus according to claim 11, characterized in that the second auxiliary stack carrier (36) is designed as an upper gripper for stabilizing the finished stack and for following the lowering movement of the main stack carrier (23). Apparatus according to claim 11 or 12, characterized in that at least one of the auxiliary stack carriers (28, 36) is provided with a friction-reducing drain device (34, 35).

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