EP1135319B1 - Stack storage device for a printing device - Google Patents

Description

The invention relates to a stack storage device for a Printing device.

In known high-performance printing devices, there are several output trays provided, in which the printed sheets are stacked become. The output trays are usually with a lift table provided on which a tray to hold the leaves lies. At the beginning of a destacking process, i.e. if there is still If there are no sheets in the output slot, the lift table is in arranged in its uppermost position, so that on the output shaft incoming sheets with a low drop on the tray be filed. A stack of sheets forms on the tray, whereby the lifting table according to the increasing height of the sheet stack is lowered to keep the drop height of the leaves about constant hold. If the lift table is lowered to its lowest position, do so the capacity of the output slot is exhausted. The further Stacking of sheets and operation of the printing device must be interrupted until the output chute is empty. For easy emptying, the tray can be moved on a slide Carriage be arranged so that it is together with the paper stack can be pulled out of the output shaft.

Such output trays usually have a holding capacity of up to approximately 1300 sheets of paper, which has a basis weight of 80 g / m ² . With a sheet rate of approx. 80 sheets / min, such an output slot is filled in about half an hour and must be emptied. In the meantime, however, high-performance printers are used which feed sheets into the output trays at a sheet rate of 158 sheets / min. At such a sheet rate, an output tray with a maximum fill capacity of 1300 sheets would be filled in about a quarter of an hour. An operator who would operate several such high-performance printers is constantly busy with the emptying of the output trays of the individual printers at such short emptying intervals. In order to extend the emptying intervals at such high sheet rates, the capacity of the output chutes has therefore been increased. For this purpose, external large stackers were used in existing printing devices, which have a single, high shaft for receiving a stack of, for example, 3,000 to 4,000 sheets.

The sheet stacks piled up in such large output shafts are difficult to handle, since they usually have a considerable weight. For example, 1000 sheets of A3 format paper with a basis weight of 80 g / m ² already weigh 10 kg.

Thus, the existing high-performance printing devices already exist a significant need for a stack device with a high absorption capacity and that of the operator is easy to use and in particular is easy to empty. she should also be easy with existing high performance printing devices can be retrofitted. It is assumed that future high-performance printing devices with even larger ones Blade rates will work, so the aforementioned problem is increasing is gaining in importance.

A stack storage device is known from US Pat. No. 3,374,902. This stack storage device consists of a shaft in which a support surface through three parallel horizontal ones lying next to each other Last is formed, which is vertically movable in the shaft are. At the top of the shaft are a conveyor Brochures in the stream of shed fed into the shaft. The brochures are from the opposite in the conveying direction Wall of the shaft stopped and stacked on the support surface. If a predetermined stack height is reached, then the support surface is lowered, which means that on the support surface accumulated piles of brochures from another conveyor is transferred, which conveys the respective stack. On this additional conveyor can have several Put the stack on.

CH 683 179 A5 is a device for processing single sheets delivered by a printer. At this Devices are continuously supplied by a printer Single sheets at a first collecting station for a partial stack collected and then gradually after one on the bar code contained in individual sheets. The partial stacks are collected on a conveyor belt. This device is designed as a separate unit, which an output slot on the printer.

DE 44 40 367 A1 describes a device for stacking paper or cardboard sheets on pallets. This device has a scaffold for lifting and lowering pallets. A device for feeding the sheets is provided, whereby A bulletin board is arranged in the feed plane above the pallets against which the sheets are promoted. The bow are stopped by the bulletin board and on the one below Pallet stored.

A device for feeding stacks is known from US Pat. No. 5,037,078 of paper folded in zigzag format. The paper one stack is bonded to the paper of an adjacent stack, by using a suction device to remove the top layers one stack removed and with the lowest layer of the neighboring one Stack can be associated.

DE 197 01 645 A1 describes a device for handling a stack formed by sheets on a printing press. This device has a stacking space in which sheets form one Pile to be accumulated. After reaching a predetermined one Stack height, a stack is automatically shifted by using a conveyor line is transported from the stacking space. The The conveyor line has two sections, the first section inside the stacking space and the second section outside of the stacking space is arranged. The stacks are here accumulated on a stacking pad, for example a Palette is. The pallet lies on the conveyor lines and when the specified stack height is reached, the stack space fed out.

From US 5,335,903 a sheet feeder emerges that has a storage shaft and a feed shaft, the immediate are arranged side by side. From the feed shaft the sheets are separated and fed to the printer. Is the Feed chute completely emptied, so it is in the storage chute arranged stack of sheets transferred into the feed shaft. For this purpose, conveyor belts are provided, with which the stack from Storage shaft is moved into the feed shaft. With this Sheet feeder is used to reload the feed chute necessary dead time kept low. During further operation the storage compartment can be gradually refilled.

No. 5,139,254 discloses a stacking device for an electrophotographic Copier or a laser printer. The stacking device has one to the copying machine can be coupled to the stack of paper to be stacked can be fed through a slot of the stacking device. The arches will then placed on an inclined recording device, which serves as the recording area for the sheets of paper to be stacked. The receiving device is vertically displaceable and is controlled by a processor unit.

FR 1 376 864 A describes a device for the automatic stacking of folded Sheets, especially checks, that have a stop against the material to be stacked is conveyed, to lie on a support surface comes. The support surface can be moved vertically and has recesses that can be penetrated by conveyor belts, which are stacked on the support surface Remove the stack.

WO 89/08597 describes a stacking device for a printing device a sheet receiving surface for receiving a stack of sheets, one Lifting device provided for raising and lowering the sheet receiving surface is. This corresponds to the output unit of the printing device as set out in claim 1 is defined.

The invention has for its object a stack storage device for a printing device for stacking sheets create that allows a high recording capacity, easy to use is simple and on an existing printing device can be retrofitted.

The task is accomplished with a stack storage device Features of claim 1 solved. Advantageous configurations the invention are specified in the subclaims.

The stack storage device according to the invention has a conveyor on which one is on a sheet receiving surface accumulating sheets of sheets are automatically removed and can be cached. As a result, the on the Sheet receiving surface of stacked sheets in several, handy Stack divided and buffered on the conveyor. An operator can therefore use the relatively small and therefore just remove the light stack. By caching the stack of sheets on the conveyor becomes a high sheet capacity achieved by arbitrarily extending the conveyor is expandable.

The stack storage device is designed as a separate structural unit, so that they can easily be placed in an output tray of an existing Printing device can be used. The one in the output bin If necessary, the tray is moved to the conveyor compatible tablet, e.g. a slotted tray replaced.

The stacked storage device preferably has one of the Independent electrical control device, so that the retrofitting or preparation of the stack memory device is easy to accomplish on the printing device.

Fig. 1

eine an eine Druckervorrichtung gekoppelte Stapelspeichervorrichtung in einer teilweise aufgebrochenen Seitenansicht,

Fig. 2

die Vorrichtungen aus Fig. 1 in einer aufgebrochenen Draufsicht,

Fig. 3

eine Druckvorrichtung mit einem Ausführungsbeispiel einer erfindungsgemäßen Stapelspeichervorrichtung in perspektivischer Ansicht,

Fig. 4

die Stapelspeichervorrichtung aus Fig. 3 in einer aufgebrochenen Seitenansicht,

Fig. 5

die Stapelspeichervorrichtung aus Fig. 3 in einer aufgebrochen Draufsicht,

Fig. 6

und 7 grob vereinfacht ein Hubtisch mit geschlitztem Tablett und Förderriemen der Stapelspeichervorrichtung nach Fig. 3 in perspektivischer Ansicht,

Fig. 8

die Anordnung der Förderriemen und des Tabletts aus Fig. 6 beim Transport eines Blattstapels in der Frontansicht, und

Fig. 9 und 10

ein geschlitztes Tablett mit Abdeckplatten in der Vorderansicht.

The invention is explained in more detail below with reference to exemplary embodiments illustrated in the accompanying drawings. They show schematically:

Fig. 1

a stack storage device coupled to a printer device in a partially broken side view,

Fig. 2

1 in a broken top view,

Fig. 3

a printing device with an embodiment of a stack storage device according to the invention in perspective view,

Fig. 4

3 in a broken side view,

Fig. 5

3 in a broken top view,

Fig. 6

and 7 roughly simplified a lifting table with slotted tray and conveyor belt of the stack storage device according to FIG. 3 in a perspective view,

Fig. 8

the arrangement of the conveyor belt and the tray of Fig. 6 when transporting a stack of sheets in the front view, and

9 and 10

a slotted tray with cover plates in the front view.

In Fig. 1, a stack memory device 1 is shown which an output unit 2 of a printing device 5 is coupled. It is a conveyor path 3 for printed by the printing device 5 Sheets shown, with pairs of rollers for transporting the sheets 4 are arranged.

The stack storage device 1 has an approximately cuboid housing 6 on that to a housing 7 of the printing device 5 in the area whose output unit 2 is detachably coupled. The housing 6 the stack storage device 1 is open on one side. From the output unit 2 is a usually provided carriage for Remove a stack that has accumulated in the output unit removed so that the output unit is also open on one side is. The two housings 6, 7 are placed together with their open sides, so that they have a continuous chamber 8 for stacking or save printed paper.

The conveyor path 3 is limited by a stop 13 which is transverse is arranged to the conveying direction and against which on the conveying path 3 conveyed sheets are promoted. The attack 13 consists for example of a sheet metal strip with a length of about 30 cm and a height of 3 to 5 cm. In addition, you can lateral stops and / or a device in a manner known per se to align the sheets on the stops, such as. a paddle wheel.

A lifting table 14 is provided in the area below the conveying path 3, the at least 2 longitudinal struts arranged in the conveying direction 15 is formed, on which e.g. three feet 16 attached could be. The longitudinal struts 15 of the lifting table 14 can of one Lifting device (not shown) lifted together or be lowered. A tray 17 lies on the longitudinal struts 15 on that in plan view (Fig. 2) with a rectangular shape has two longitudinal edges 18 and two end edges 19. The size of the tray 17 is dimensioned so that that of the printing device sheets to be processed usually on the tray 17 completely rest. However, sheets can also be stacked, which protrude a bit at the edges of the tray 17.

The tray 17 is with respect to the stop 13 with its front Front edge 19 arranged in alignment with the stop 13, so that at the beginning of the stacking process, the tray 17 with his front end edge 19 can be attached to the stop 13 and the sheets braked by the stop 13 securely on the tray 17 come to rest. There are slots 20 in the tray 17 introduced, which are parallel to the front end edge 19 extend the longitudinal edges 18. In the present embodiment three slots 20 are provided, which are the same from each other are spaced, the longitudinal struts 15, the tray 17 on the Support between areas between two adjacent slots 20. The slots 20 extend over much of the length the tablet 17.

Immediately above a bottom wall 21 of the housing 6 is a Belt conveyor 22 arranged in the present embodiment has three endless conveyor belts 23, each two horizontal Loop conveyor rollers 24, 25. The conveyor roller 25 is arranged adjacent to the end wall of the housing 6. The other Conveyor roller is by means of a holding device (not shown) outside the housing 6 of the stacking device arranged such that the belt conveyor 22 on the stacking device 1 protrudes and into the housing 7 of the output unit 2 protrudes.

The conveyor belts 23 are each a slot 20 of the tray 17th assigned so that they are at the same distance as the slots 20th and arranged directly in the area below the slots 20 are so that when lowering the lifting table 14, the upper run 26th the conveyor belt 23 does not collide with the tray 17. The tablet 17 can thus be at a level below the upper run 26 the conveyor belt 23 are lowered, the conveyor belt 23 the slots 20 of the tray 17 in each case with their upper run 26 passed through.

The area of the output unit 2 in which the lifting table 14 is located forms a receiving area 27 for receiving the supplied Leaves, the surface of the tray 17 a Sheet receiving surface 28 represents. The spread over the recording area 27 extending region of the belt conveyor 22 forms a storage area 29 in which at least one sheet stack 30 can be cached. The memory area preferably has 29 a length that at least the intermediate storage allowed by two or more sheet stacks 30.

The output unit 2 has a stack height sensor 8, a lifting table sensor 9 for detecting the lowest position of the lifting table 14 and an extension sensor 10. The extension sensor 10 is intended for detecting a carriage with which a stack can be removed. The sledge is through here Stack storage device 1 according to the invention replaced.

The stack storage device 1 has an actuating element 11 provided, which is arranged adjacent to the extension sensor 10 and with which this can be operated. The stack storage device 1 also has another lift table sensor 12/1 and one Sheet stack position sensor 12/2. The lift table sensor is 12/1 provided for detecting the lowest position of the lifting table 14 and with the sheet stacking position sensor 12/2 one Sheet stack 30 can be detected when the output unit 2 has left and completely in the stack device is included.

The operation of this stack memory device 1 will be described below explained in more detail.

The sheets printed by the printing device run along of the conveyor path 3 promoted against the stop 13. At stop 13 the movement of the leaves is slowed down, so that they on the Sheet receiving surface 28 of the tray 17 fall. Is the tray 17 empty, the lifting table 14 is in its maximum upper position raised, in which the tray 17 either immediately on Stop 13 abuts or spaced only a small distance from it is arranged. With increasing funding time, the stacks up Tray 17 a stack of sheets 30 at the height level of the tray 17 lowered according to the height of the sheet stack 30 becomes. The lowering can be done by a continuous gradual Lowering movement or carried out in small steps. The sheet stack height is detected by the sensor 8.

Has a sheet stack 30 with predetermined on the tray 17 Accumulated height, so the further leaf conveyance is short-term interrupted, and the lifting table 14 lowered to a level, so that the tray 17 below the upper runs 26 of the conveyor belt 23 is arranged. As a result, the sheet stack 30 lies directly on the conveyor belt 23.

This lowest position of the lifting table 14 is from the two Sensors 9 and 12/1 detected. The sensor 9 is with the control device the printing device 5 connected. The sensor is 12/1 connected to the control device of the stack storage device 1. Their control device starts the engine (not shown) of the belt conveyor 22. This motor is stopped when the stack 30 to be conveyed from the output unit, the sheet stack position sensor Has reached 12/2.

The actuating element 11 acts on the extension sensor 10, only while lowering the operation of the belt conveyor motor 22 this exposure is removed, whereby the Output unit is simulated that the carriage does not exist is extended. This will cause conflicts in the automatic Operation of the printing device with the output unit and the stack storage device 1 avoided without a common electrical control device for both the printing device and must also be provided for the stacking device.

The maximum height of the sheet stack 30 is to be dimensioned such that at fully lowered tray 17 the top of the sheet stack is arranged below the lower edge of the stop 13.

The sheet stack 30 lying on the belt conveyor 22 in this way becomes according to the control operations described above from the conveyor belts 23 in the conveying direction 31 from the output unit 2 into the stack storage device 2 or storage area 29 conveyed. Has the stack of sheets reaches the storage area 29, the conveyor belt stopped again - controlled by the stack position sensor 12/2 - and the lifting table 14 in its maximum upper Position moved to pick up another stack of sheets. The The process of stacking another sheet stack 30 is repeated yourself in the way indicated above.

In the present exemplary embodiment, 29 two sheet stacks 30 are temporarily stored. The two Sheet stacks can be used during the substantially continuous Operation of the printing device 5 and the output unit 2 by the operator can be removed at any time. The height of the sheet stack 30 is preferably set so that the sheet stack 30 a good manageable weight of e.g. Have 5 kg to 15 kg. The absolute Height of the sheet stack 30 depends on the size of the Leaves and the properties such as Thickness, basis weight, etc. of the sheets and can be set individually for each sheet type become.

The operation of the stack memory device 1 is controlled by one of the printing device and the output unit 2 independent control device (not shown) controlled, which automatically the Stacking of the sheets on the tray 17, lowering the lifting table 14 and transporting the stack of sheets into the storage area 29 controls. Represents the controller of the stack device 1 detects an error, it cancels the application of the extension sensor 10, whereby the control device the printing device interrupts the stacking process. With the formed by the actuator 11 and the extension sensor 10 Interface of the control devices can thus even occur Errors are passed on and further processing to be interrupted.

Divide the output unit 2 and the stack storage device 1 thus automatically the incoming sheet stream in easily manageable sheet stack 30 on.

3 shows a printing device with an output unit 2 and a stack storage device 1 coupled to it. The stack storage device 1 is on a roller frame 32 arranged with a locking and / or locking device (not shown) releasably attached to the output unit 2 is so that their arrangement with respect to the output unit is permanent is definable. From Fig. 3 it is clear that the stack memory device 1 can be moved as a separate unit and attached to an output unit 2 and released from this again can be. With the stack storage device according to the invention 1 can subsequently, easily and quickly increase the output capacity a printing device or its output unit be enlarged.

4 shows an output unit 2 of a printing device 5 a stack storage device 1 with two belt conveyors 22 shown schematically in a broken side view. The Output unit has a stop 13, a lifting table 14, longitudinal struts 15 and a slotted tray 17 with longitudinal edges 18 and Front edges 19 on. The belt conveyors 22 are with three conveyor belts 23, which each loop around two conveyor rollers 24, 25, formed. It is also the same as the one described above Embodiment a receiving area 27 with a sheet receiving surface 28 and a memory area 29 are provided.

The tray 17 located on the lifting table 14 is with its Front edges 19 parallel and with its longitudinal edges 18 transversely to Conveying direction 33 of the belt conveyor 22 is arranged. Accordingly are the slots 20 in the tray 17 starting from the in Conveying direction 33 longitudinal edge 18 of the tray arranged at the front 17 formed parallel to the end edges 19. The In this embodiment, sheets are transverse to the conveying direction 33 of the belt conveyor 22 along the transport direction 34 fed to the receiving area 27 of the stack storage device 1 (Fig. 5 to 7). The transport direction 34 is usually predetermined and can by the design of the printing device cannot be changed easily. The stop is accordingly 13 at the rear edge region of the Receiving area 27 parallel to the conveying direction 33 of the belt conveyor 22 arranged to be conveyed in the transport direction 34 To stop leaves over the sheet receiving surface 28.

The conveyor belt 23 and the slots 20 of the tray 17 are again arranged at equal distances from each other. 6 to 8, a modification is shown for this, according to which in the transport direction 34 successive conveyor belts 23 with different Distances to each other are arranged. So points which first passed from the leaves in the direction of transport 34 Conveyor belt 23 a greater distance from the second conveyor belt as the second conveyor belt 23 to the third conveyor belt 23, which is arranged adjacent to the stop 13.

This embodiment is advantageous because it ensures that 34 short sheets in the transport direction on at least the two conveyor belts 23 adjacent to the stop 13 for support come, and in the transport direction 34 long sheets over their entire length of all three conveyor belts 23 captured and secure in Conveying direction 33 are transported.

A further modification of this exemplary embodiment is shown in FIGS 9 and 10 shown, according to which the tray 17 with flaps 35 is provided for closing the slots 20. The cover flaps 35 have a slightly narrower width than that Slits 20 open and are double on one side edge angled lever 36 hinged to a swivel joint 37, the is located on the underside of the tray 17.

On the lever 36 is a protruding beyond the swivel joint 37 Actuating extension 38 formed. At the swivel joint 37 a spring 39 is provided which the cover flap 35 in a presses the corresponding slot 20 closing position. At the Long side of the cover flap 35 opposite the lever 36 a stop edge 40 is formed, which at one Slot 20 closing position against the bottom of the tray 17 strikes. In the area below the actuation extension 38 is a pivot pin 41 on a spring operated telescopic rod 42 arranged.

If the tray 17 is in its maximum raised position, so is the slot 20 due to the spring action of the spring 39 closed with the cover flap 35. Now a leaf in Transport direction 34, that is, transversely to the slots 20 on the tray 17 transported, it is ensured by the cover flaps 35 that the sheet does not get into the slot 20 and possibly caused a leaf jam.

When the tray 17 is lowered, the actuation extension 38 hits on the pivot pin 41 so that the actuation extension 38 after is pressed at the top and the cover flap is turned down by about 90 ° the swivel joint 37 is pivoted. When lowering the Trays 17 slide the cover flap 35 down on the conveyor belt 23 over and the conveyor belt 23 passes through the open Slot 20 up through the tray 17. When lowering of the tray 17, the pivoting mandrel is counteracted downward the spring action of the telescopic rod 42 moves.

This simple mechanism allows opening and opening independently Closing the slots 20 of the tray 17 without additional electronic Control device or the like.

The cover flaps 35 can also with their actuation extension 38 be arranged on the tray so that the actuation extension on Edge of the tablet protrudes. This allows a fixed arrangement of the swiveling mandrel without telescopic rod.

The functioning of these further exemplary embodiments corresponds that of the first embodiment, which is why renewed description can be omitted.

The stack memory device according to the second embodiment can be retrofitted to an existing printing device are, wherein the conveyor is designed as a separate unit that is inserted into an existing output tray. The lift table of the output bin can be without or with only the slightest constructive changes are adopted, only that Tray by a tray compatible with the conveyor needs to be replaced.

The invention explained in more detail above using an exemplary embodiment is not on the specific training of the embodiments limited. Instead of a belt conveyor, a any other conveyor can be provided for Transporting stacks of sheets is suitable. There are e.g. other Linear conveyors, e.g. a roller conveyor or wide conveyor belts. With such conveyors, it can be useful that the entire conveyor in two units is divided, with a unit on the sheet receiving surface and the other unit is located in the storage area. Instead of a linear conveyor, a vertical conveyor can also be used be provided, e.g. one similar to one Pater-noster elevator working conveyor, where the Stacked on vertically stacked plates become. Regardless of the conveyor is for the invention essential that the incoming leaf stream into several Sheet stacks are split and saved by the operator can be easily removed. Are the longitudinal struts sufficient arranged closely side by side, so it is also possible to use the tray omit.

• Im Gegensatz zu bekannten Großstaplern, die nur einen nicht mehr handhabbaren Stapel erzeugen, werden bei der erfindungsgemäßen Stapelspeichervorrichtung mehrere handhabbare Stapel gebildet.
• Die Ausgabekapazität kann je nach Länge der Fördereinrichtung beliebig erweitert werden. Die Grenzen sind hauptsächlich durch den zur Verfügung stehenden Bauraum gesetzt. Insbesondere ist es möglich, an eine bestehende Stapelspeichervorrichtung weitere Fördereinrichtungen anzuschließen, so daß auch eine nachträgliche Erhöhung der Kapazität möglich ist.
• Die erfindungsgemäße Stapelspeichervorrichtung kann nachträglich und mit keinem oder nur geringen Umbauaufwand an eine Ausgabeeinheit einer bestehenden Druckvorrichtung angesetzt werden. Auch das Trennen von einer solchen Einheit ist sehr einfach, so daß die Druckvorrichtung jederzeit wieder im ursprünglichen Zustand betrieben werden kann.
• Die externe Stapelspeichervorrichtung arbeitet autark und benötigt keine Verbindung zur Steuerung der Druckvorrichtung. Daher ist kein zusätzlicher Steuerungsaufwand an der Druckvorrichtung nötig, was zu einer billigen einfachen Lösung führt.
• Da die Ausgabeeinheit für alle Einzelblattdrucker nahezu identisch ist, kann insbesondere die externe Stapelspeichervorrichtung an allen Einzelblattdruckern ohne speziellen oder mit nur geringfügigem Umbau für das jeweilige Modell verwendet werden.
• Es sind weitere Funktionen möglich, wie z.B. das Vorsehen geeigneter Elemente zur Ausführung eines Jobversatzes, die lediglich im Aufnahmebereich der Stapelspeichervorrichtung vorzusehen sind.

The following essential advantages are achieved with the invention:

• In contrast to known large stackers, which only produce a stack that is no longer manageable, several manageable stacks are formed in the stack storage device according to the invention.
• The output capacity can be expanded depending on the length of the conveyor. The limits are mainly set by the available space. In particular, it is possible to connect further conveying devices to an existing stack storage device, so that a subsequent increase in capacity is also possible.
• The stack storage device according to the invention can be retrofitted to an output unit of an existing printing device with little or no modification. The separation from such a unit is also very simple, so that the printing device can be operated again in its original state at any time.
• The external stack storage device works autonomously and does not require a connection to control the printing device. Therefore, no additional control effort on the printing device is necessary, which leads to an inexpensive simple solution.
• Since the output unit for all cut sheet printers is almost identical, the external stack storage device can be used on all cut sheet printers in particular without any special or with only minor modifications for the respective model.
• Further functions are possible, such as the provision of suitable elements for executing a job offset, which are only to be provided in the receiving area of the stack storage device.

The invention can be briefly summarized as follows: The invention relates to a stack storage device.

According to the invention, the output unit is fed sheets of piled up into a stack of predetermined height and several these stacked sheets of sheets are stored in the stack storage device cached. This will easily achieved a considerable sheet capacity, while at the same time the stack size of the individual sheet stacks was kept relatively small can be, which is why they are easy to handle.

LIST OF REFERENCE NUMBERS

1

Stack storage device

2

output unit

3

conveying

4

pairs of rollers

5

printing device

6

Stacking device housing

7

Housing of the printing device

8th

Stack height sensor

9

Hubtischsensor

10

Ausschubsensor

11

actuator

1.12

Hubtischsensor

2.12

Stacking position sensor

13

attack

14

Lift table

15

longitudinal struts

16

feet

17

tray

18

longitudinal edges

19

front edges

20

slot

21

bottom wall

22

belt conveyor

23

conveyor belts

24

conveyor roller

25

conveyor roller

26

upper run

27

reception area

28

Sheet receiving surface

29

storage area

30

sheet stack

31

conveying direction

32

roll stand

33

conveying direction

34

transport direction

35

Front doors

36

lever

37

pivot

38

Actuating extension

39

feather

40

stop edge

41

Abschwenkdorn

42

telescopic rod

Claims (13)

1. Stack storage device for a printing device, wherein the printing device has an output unit with a sheet receiving surface (28) for receiving a stack (30) of sheets, as well as a stop (13) which is arranged such with respect to the sheet receiving surface (28) that a sheet supplied to the output unit (2) is conveyed against the stop (13) and is braked by this stop so that it is placed on the sheet receiving surface (28), wherein a lifting device (14) is provided for raising and lowering the sheet receiving surface (28), and the stack storage device (1) has a conveyor means (22) that can be inserted in the area of the sheet receiving surface (28) and extends over a storage area (29) lying outside the sheet receiving surface (28) so that sheet stacks (30) can be conveyed by the conveyor means (22) from the sheet receiving surface (28) and be intermediately stored in the stack storage device, and wherein the stack storage device is designed as a separate structural unit that can be detachably coupled to the output unit of the printing device.
2. Stack storage device according to claim 1, characterized in that the sheet receiving surface (28) is formed by a tray (17) compatible with the conveyor means, which tray can be replaced with a tray of the lifting device of the output unit (2) of the printing device.
3. Stack storage device according to claim 1 or 2, characterized in that the storage area (29) of the conveyor means (22) is so long that at least two sheet stacks (30) can be intermediately stored.
4. Stack storage device according to one of the claims 1 to 3, characterized in that the conveyor means is a belt conveyor (22) with at least two endless conveyor belts (23), and in that the tray has slots (20), one slot being allocated to each conveyor belt (23) such that when lowering the tray (17) below the level of the conveyor belts (23) these are respectively located in one of the slots (20) and do not collide with the tray (17).
5. Stack storage device according to claim 4, characterized in that the belt conveyor (22) has three conveyor belts (23), the conveyor belts (23) being arranged to one another at a different distance.
6. Stack storage device according to claim 4 or 5, characterized in that covering flaps (35) for closing the slots (20) are provided on the tray, in case the tray (17) is located above the belt conveyor (22).
7. Stack storage device according to one of the claims 1 to 6, characterized in that the conveyor means is formed of two separate conveying units, the one conveying unit being arranged in the area of the sheet receiving surface (28), and the other conveying unit being arrangeable adjacent to the sheet receiving surface (28), and both conveying units can be driven in the same conveying direction.
8. Stack storage device according to claim 7, characterized in that at least one of the conveying units is a roller conveyor.
9. Stack storage device according to claim 7 or 8, characterized in that at least one of the conveying units is formed as a conveying belt.
10. Stack storage device according to one of the claims 1 to 9, characterized in that the stack storage device (1) has an electronic control device which is formed independently of an electronic control device of the printing device (5).
11. Stack storage device according to claim 10, characterized in that the control device of the stack storage device (1) has a lift table sensor (12/1) for detecting the lowest position of the lifting device as well as a stack position sensor (12/2) which detects the position of a stack immediately after leaving the output unit (2) of the printing device.
12. Stack storage device according to claim 10 or 11, characterized in that the control device has an actuating element (11) which can admit a sensor (10) of the printing device (5) and by the actuation of which the stacking operation in the output unit (2) can be interrupted.
13. Stack storage device according to one of the claims 1 to 12, characterized in that the stack storage device (1) has a housing (6) and the conveyor means (22) projects at the housing (6) such that the conveyor means can be inserted in an output unit (2) of a printing device (5).

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