EP1209111A2 - Device for depositing sheets - Google Patents

Abstract

The sheet feed has at least two feed rollers (3) mounted on a common shaft (9). These have tangential slots (4) which feed the sheets to a sheet guide (5) and they are mounted in recesses (8) in a stop bar (7).The slots on all the rollers are in corresponding positions and the shaft can be adjusted to be at an angle to the sheet guide.

Description

The invention relates to a sheet depositing device for flexible flat material, in particular Paper, with at least one deflection wheel, which is at least one essentially has tangentially arranged receiving slot, a sheet feeder, which in the at least one receiving slot opens when it is in a receiving position is located and a sheet deposit stop in a position opposite the receiving position Area of the deflection wheel, this in a recess of the sheet deposit stop runs and the latter in a sheet deposit position at least on one side of a Recording slot is.

Such a sheet depositing device is known from DE 23 09 075 A1. At this A straight stack is created on the sheet stacker. Often there is Need for an offset in the sheet tray after a certain number of sheets is done in the stack. This can serve, for example, the total number of the leaves easier to grasp. However, this is particularly important if it is ongoing different sheets are printed that belong together. This is often the case with electrophotographic Printing presses the case. Then it is necessary that through a such a shift separates one job from the other.

The invention is therefore based on the object of a sheet depositing device at the beginning mentioned type in such a way that an offset in the laid out in a simple manner Stack can be generated.

This is achieved according to the invention in that at least two on one shaft Deflection wheels are arranged, which have the same position slots and that the shaft can be inclined relative to the transport direction of the sheet feed.

The invention makes it possible with a simple further development, without interruption to create an offset of the sheet deposit at any time. That’s it For example, it is possible to separate one job from the other, even if the jobs are each have a different number of sheets. Furthermore, it is also possible for the invention to be used in a smaller setting area, the storage position of the sheets to regulate in order to correct deviations and thereby related sheets stack neatly on top of each other.

The function of the invention is that the flat material in the receiving slots runs and after 90 ° rotation is inclined by the same angle as the shaft with the deflection wheels. Now move the idler wheels and do it flat material to the sheet deposit stop, so there is a rotation of about 180 ° so that the blade is inclined at twice the angle of the shaft. If one stack part is to be moved relative to another, the shaft of their perpendicular position to the transport direction preferably once in one direction and slanted once in the other direction so that the offset is an angular offset one stack part compared to the other stack part, which is four times the Inclination of the shaft. Of course, the wave could also happen be aligned perpendicular to the transport direction and for the next stack part be inclined.

The sheets are turned at the same time by the sheet depositing device. This Advantage as well as some others relate to the sheet depositing device of the stand the technology, therefore reference is made to DE 23 09 075 A1.

Expedient developments of the invention are described below on Advantages according to the invention are referred to.

The deflecting wheels are expediently designed in such a way that they each have two Have receptacle slots offset by 180 °. So the storage position is the one Receiving slots identical to the receiving position of the receiving slots offset by 180 °. In this way, the deflection wheels with every half turn pick up a new sheet and drop the previous sheet.

If a sheet is fed, it must be ensured that the receiving slots of the both deflection wheels are in the receiving position. This can be achieved be that there are a plurality of receiving slots on the deflection wheels and these have such a large opening that the deflection wheels are in any position Receiving slots are in the receiving position. This is the proposal of DE 23 09 075 A1. However, it is also possible to use other measures to ensure that the receiving slots are in the receiving position when a sheet is fed. For example, one proposal provides for a braking device to be provided which the deflection wheels stops in the at least one pick-up position. For example a cam can be provided against which an element presses, the Element in the receiving positions must overcome increases in the cam.

In order to achieve the movement of the deflection wheels required for the sheet deposit, be provided that the deflection wheels with respect to their weight and the shaft with respect their storage are designed such that the deflection wheels through the feed of the flat good can be driven.

An alternative provides that a drive for the deflection wheels is provided. Then can be provided instead of the braking device that the drive is designed such that he stops the idler wheels in the receiving positions. For example, for this a stepper motor can be used.

So that the drive can drive the shaft even when it is inclined it is possible to arrange this directly on the shaft so that it is inclined participates. Alternatively, however, it can also be provided that the drive in the machine housing is arranged and is transmitted to the shaft. For example the shaft pivoted about a pivot axis, it can be provided that the Swivel axis is designed as a hollow shaft, in which there is a power transmission shaft of the drive.

The receiving slots are preferably V-shaped at the beginning of the slot. In this way it is ensured that the flat material is safely received and the receiving slot can be made so narrow after the beginning of the slot that the flat goods are held securely.

In order to achieve a clean angular offset of the flat material, the slots should be be carried out as closely as possible. To prevent bouncing by striking the end of the slot prevent, it is proposed that at the at least one receiving slot Braking device for the flat material is provided, which this before the stop on The end of the slot deprives the speed so that there is no bouncing on the Attacks coming. There are various possibilities for such a braking device. One proposal provides for the braking device to be designed as resilient tabs are, which are arranged in the region of the receiving slots and opposite the flat goods have friction. For example, rubber tabs can be provided his.

An appropriate embodiment of the aforementioned training provides that the Tabs are movable in the insertion path of the flat goods. This makes it possible to move them in the insertion position in the insertion path and in the storage position to remove from this so that the sheet deposit is not hindered. It will therefore proposed that the braking device for the flat material in the sheet deposit position is unlocked. Moving the braking device into the engagement and release position can be done, for example, by means of an eccentrically mounted weight, that transports the tabs in the insertion position into the insertion path and in the Storage position removed again from the area of the receiving slots.

A further development suggests that the sheet deposit stop with respect to its angular position is adjustable. Then an adjustment corresponding to the inclination of the Wave can be made. However, it can also be provided that the angle setting the sheet deposit stop coupled with the angular setting of the shaft is that the inclination of the sheet tray stop is always twice the angle of the Inclination of the shaft corresponds. In this way the sheet tray stop has automatic the right position.

An alternative embodiment provides that the shaft from the perpendicular to the direction of transport is inclinable in both directions by a predetermined angle and that the sheet filing stop is V-shaped, each leg of the V each has twice the angle as the angle predetermined for the shaft. On In this way, the angular offset in the shelf is specified, however, one Setting of the sheet deposit stop saved, since one leg of the V-shaped one Training has the correct position at one of the predetermined angles.

A corresponding design of the sheet feed ensures that it always for exact positioning of the flat material in the receiving slots comes. For example, at least one transport roller can be located on the sheet feeder the flat good. However, preferably two are interacting Transport rollers arranged.

Fig. 1

wesentliche Funktionselemente eines erfindungsgemäßen Ausführungsbeispiels in perspektivischer Ansicht,

Fig. 2

eine Draufsicht auf den Gegenstand der Fig. 1,

Fig. 3

eine Seitenansicht eines Ausführungsbeispiels mit weiteren Funktionselementen,

Fig. 4

ein Ausführungsbeispiel einer Blattablage und

Fig. 5

ein Ausführungsbeispiel mit Antrieb der Welle und Schwenkachse.

The invention is explained below with reference to the drawing. Show it

Fig. 1

essential functional elements of an embodiment according to the invention in perspective view,

Fig. 2

2 shows a top view of the object of FIG. 1,

Fig. 3

2 shows a side view of an exemplary embodiment with further functional elements,

Fig. 4

an embodiment of a sheet tray and

Fig. 5

an embodiment with drive the shaft and pivot axis.

1 shows essential functional elements of an exemplary embodiment of the sheet depositing device 1 according to the invention in a perspective view. The sheet depositing device 1 essentially consists of a sheet feeder 5 and at least two deflection wheels 3, in this exemplary embodiment there are four, which are arranged on a shaft 9. The deflection wheels 3 have receiving slots 4 arranged in the same position with respect to the rotation 25 (see FIG. 3), two receiving slots 4 being arranged offset by 180 ° for each deflecting wheel 3. Compared to the sheet feeder 5 offset by approximately 180 ° - this is the lower region of the deflection wheels 3 - there is a sheet storage stop 7 which has cutouts 8 in which the deflection wheels 3 move.

According to the invention it is provided that the shaft 9 with the deflection wheels 3 from the bring it into an inclined position perpendicular to the direction of transport 10 leaves. This ensures that arriving in the transport direction 10 on the sheet feeder 5 Sheets (not shown here) in the receiving slots 4 of the deflection wheels 3 are inserted, with the inclination of the shaft 9 and the receiving slots 4 are inclined relative to the transport direction 10. They turn Pick-up wheels 3 by a drive or because they were pushed by the sheet, a sheet is thus lifted from the sheet feeder 5, the sheet end 26 (see FIG. 3) by turning the sheet to the beginning of the sheet. Get the receiving slots 4 in the lower area, the sheet abuts against the sheet deposit stop 7 and becomes pushed out of the receiving slots 4 by the latter and on the filing stack 20 filed. By reversing the sheet by 180 ° the doubles Inclination angle of the blade with respect to the inclination of the shaft 9, so that a corresponding angular misalignment in the stack 20 is achieved.

The shaft 9 turns out once in a direction of rotation with respect to the transport direction 10 pivoted out of their vertical position and to deposit one opposite first stack part 20 'offset stack part 20 "by the same angle in the other Swiveled direction, it is thereby achieved that stack parts 20 'and 20 "are formed, which have an angular offset by four times the inclined position of the shaft 9. If the shaft 9 is inclined by an angle α, then the inclination is the stack parts 20 'and 22' against each other four times the angle α.

The sheet deposit stop 7 extends laterally of the recess 8 in such a way that it lies to the side of the receiving slots 4 when they reach the sheet depositing position 17, whereby the sheets abut the stop 7 from the receiving slots 4 pushed out and put down. This is explained in more detail with reference to FIG. 3.

FIG. 2 shows a plan view of the sheet depositing device 1 shown in FIG. 1. It can be seen how the sheet feeder 5 is preferably equipped with transport rollers 19, which are located in areas of guide plates 21 which are tongue-like between the deflection wheels 3. This guarantees a safe transport of the sheets into the receiving slots 4 of the deflection wheels 3. Due to the lateral offset of the shaft 9 by the angle α by means of a pivoting about a pivot axis 13, a first inclination of the blades by the angle α is achieved, this angle α increasing due to the turning of the blades and when the blades are deposited on a blade tray 22 doubled an angle 2α.

In this figure it is also shown that the sheet deposit stop 7 is V-shaped is, the two legs 18 from the perpendicular to the transport direction 10th each have an angle 2α. This gives a sheet with the original one Front 26 (see Fig. 3), which is turned by the turn to the rear, on one of the Leg 18 so that the sheet edge is parallel to the leg 18. Will the Wave 9 once in one and then in the other direction by the angle α to Vertically deflected relative to the transport direction 10, this is already done Fig. 1 described and also shown here stack offset of the stack parts 20 ' and 22 ', with of course further stack parts 20' '', 20 "" in any order etc. offset on the sheet tray 22 can be stored.

FIG. 3 shows a side view of an exemplary embodiment of the sheet depositing device 1 according to the invention with further functional elements. The sheet feeder 5 was advanced somewhat counter to the transport direction 10 in order to be able to uncover the area of insertion of the flexible flat material 2 - that is to say the sheets - into the receiving slots 4. Of course, a configuration as described for FIG. 2 is also expedient here.

In this illustration, the sheet depositing device 1 is in side view compared to FIG. 2 shown, a further functional element being a braking device 11 for the Deflection wheels 3 is arranged. This consists of an arranged on the shaft 9 Cam 27, which has elevations 28. With this cam 27 acts a resilient element 29 together, which is arranged and designed such that it stops the deflection wheels 3 whenever the resilient element 29 against one of the Increases 28 runs. The upper receiving slot 4 is in this position its receiving position symbolized by arrow 6 and the lower receiving slot 4 in its sheet deposit position symbolized by arrow 17.

So that due to the speed of a flexible, flat good 2 to none Bouncing at the stops 16 is a braking device 15 for the flat Goods 2 are provided, which consist of a tab 23 and an eccentrically mounted Weight 24 exist. The weight 24 ensures that the tabs 23 are always up are directed and thereby the speed of a flexible, flat good 2 brake so that there is no bouncing on the attacks 16 is coming.

If the deflection wheels 3 continue to rotate in the direction of arrow 25 by 180 °, the bumps Leading edge of the sheet in the sheet depositing position 17 against the sheet depositing stop 7, whereby the flexible, flat material 2 is pushed out of the receiving slots 4 is and is placed on the sheet tray 22. Because the eccentrically mounted weights 24 also hold the tabs 23 up here, the latter are from their interventions in the Receiving slots 4 moved away and can thereby remove the flexible, do not hinder flat good 2.

In the process shown, the flat good 2 was turned so that the former Sheet end 26 now lies at the front on sheet tray 22. This illustration is also good visible how the receiving slots 4 are widened V-shaped at the beginning of the slot by one To ensure safe insertion of the flat goods 2. You can also see how the storage stack 20 contains a plurality of stack parts 20 ', 20 ", 20"', 20 "", each of which have the angular offset already mentioned.

Fig. 4 shows an embodiment of a sheet tray 22, the remaining parts already described are omitted to make the sheet tray 22 more visible. In the manner already described, the sheet deposit stop 7 is formed with legs 18 arranged in a V-shape, each offset by the angle 2α, this is the double angle of the inclined position which is provided for the shaft 9. This results in a clean contact of the sheets 2 on the sheet deposit stop 7, since the sheets have already been brought into the angular offset 2α by means of the deflection wheels 3. However, it should be noted that the angular misalignment has been exaggerated, in fact a much smaller misalignment is required to achieve the purpose according to the invention described at the beginning.

Fig. 5 shows an embodiment of a drive 12 with shaft 9 and pivot axis 13. For driving the shaft 9 and for pivoting the shaft 9, the pivot axis 13 is designed as a hollow shaft in which a power transmission shaft 14, driven by the drive 12, runs centrally , The drive 12 is arranged in the machine housing 30 and the pivot axis 13 is rotatably mounted in the machine housing 30. The power transmission of the power transmission shaft 14 to the shaft 9 takes place by means of a gear, two bevel gears 31, for example, being able to be arranged in order to transmit the rotational movement of the vertical power transmission shaft 14 to the horizontal shaft 9. The swivel axis 13 is held in its swivel angle by means of a ring gear 32 and a gear wheel 33, the ring gear 32 and the gear wheel 33 also serving to carry out the swivel movement for the shaft 9.

The above-mentioned exemplary embodiments are of course only exemplary and it not all of the functional elements according to the invention are shown, such as these the description part not relating to the drawing can be found. They are too the most diverse combinations possible, for example, a drive 12 can a braking device 11 can be combined or it is possible that the drive 12 does the positioning itself, for example by arranging a stepper motor becomes. The inclined position 9 by means of the pivot axis 13 is also only an example, an actuating element can also be arranged in an outer area of a bearing the shaft 9 attacks or it is another way of generating the pivoting movement possible. The sheet feeder 5 can also be designed in different ways his. It is only essential that there is a clean feeding of the sheets into the Receiving slots 4 comes, this can be a guide plate 21 or transport rollers 19 arranged in different ways if they only ensure that there is a clean feed to the receiving slots 4. this The upstream machine, for example the Serve delivery of a printing press.

LIST OF REFERENCE NUMBERS

1

Sheet stacking device

2

flexible flat material, e.g. B. paper

3

guide wheel

4

receiving slot

5

sheet feed

6

Arrow: shooting position

7

Sheet tray support plate

8th

recess

9

wave

10

transport direction

11

Braking device for the deflection wheels

12

drive

13

swivel axis

14

Power transmission shaft

15

Braking device for the flat material

16

Slot end of the receiving slots

17

Arrow: sheet tray position

18

Leg of the V-shaped sheet deposit stop

19

transport roller

20

discard pile

20 ', 20 ", 20 '' ', 20' '' '

Stacked parts with offset

21

guide plate

22

sheet tray

23

tabs

24

eccentrically mounted weights

25

Arrow: Direction of rotation of the deflection wheel

26

blade end

27

cam

28

Elevations of the cam

29

Resilient element

30

machine housing

31

Bevel gears

32

sprocket

33

Gear wheel for the swiveling movement

Claims (21)

Sheet depositing device (1) for flexible flat material (2), in particular paper, with at least one deflection wheel (3), which has at least one substantially tangentially arranged receiving slot (4), a sheet feeder (5) which is inserted into the at least one receiving slot (4 ) opens when it is in a receiving position (6) and a sheet deposit stop (7) in a region of the deflection wheel (3) opposite the receiving position (6), said deflection wheel (3) running in a recess (8) in the sheet deposit stop (7) and the latter in a sheet depositing position (17) lies at least on one side of a receiving slot (4),
characterized in that at least two deflecting wheels (3) are arranged on a shaft (9), which have receiving slots (4) of the same position and that the shaft (9) can be inclined with respect to the transport direction (10) of the sheet feeder (5). Sheet depositing device according to claim 1,
characterized in that the deflecting wheels (3) each have two receiving slots (4) offset by 180 °. Sheet depositing device according to claim 1 or 2,
characterized in that a braking device (11) is provided which stops the deflecting wheels (3) in the at least one receiving position (6). Sheet depositing device according to one of claims 1 to 3,
characterized in that the deflection wheels (3) are designed with regard to their weight and the shaft (9) with regard to their mounting in such a way that the deflection wheels (3) can be driven by the feeding of the flat material (2). Sheet depositing device according to one of claims 1 to 3,
characterized in that a drive (12) is provided for the deflection wheels (3). Sheet depositing device according to claim 5,
characterized in that the drive (12) is designed such that it stops the deflecting wheels (3) in the receiving positions (6). Sheet depositing device according to claim 5 or 6,
characterized in that the drive (12) is arranged on the shaft (9). Sheet depositing device according to claim 5 or 6,
characterized in that the drive (12) is arranged in the machine housing (13) and is transmitted to the shaft (9). Sheet depositing device according to one of claims 1 to 8,
characterized in that the shaft (9) is pivotable about a pivot axis (13). Sheet depositing device according to claim 9,
characterized in that the pivot axis (13) is designed as a hollow shaft in which there is a power transmission shaft (14) of the drive (12). Sheet depositing device according to one of claims 1 to 10,
characterized in that the receiving slots (4) are V-shaped at the beginning of the slot. Sheet depositing device according to one of claims 1 to 11,
characterized in that a braking device (15) for the flat material (2) is provided on the at least one receiving slot (4), which deprives the latter of the speed in front of the stop (16) at the end of the slot such that there is no bouncing on the stops (16) is coming. Sheet depositing device according to claim 12,
characterized in that the braking device (15) is designed as resilient tabs (17) which are arranged in the region of the receiving slots (4) and have friction with the flat material (2). Sheet depositing device according to claim 13,
characterized in that the tabs (17) can be moved into the insertion path of the flat material (2). Sheet depositing device according to claim 13 or 14,
characterized in that the braking device (15) is released in the sheet depositing position (17). Sheet depositing device according to claim 15,
characterized in that the braking device (15) is brought into the engagement and release positions by means of an eccentrically mounted weight (24). Sheet depositing device according to one of claims 1 to 16,
characterized in that the sheet deposit stop (7) is adjustable with respect to its angular position. Sheet depositing device according to claim 17,
characterized in that the angular adjustment of the sheet deposit stop (7) is coupled with the angular adjustment of the shaft (9) such that the inclined position of the sheet deposit stop (7) always corresponds to twice the angle of the inclined position of the shaft (9). Sheet depositing device according to one of claims 1 to 16,
characterized in that the shaft (9) from the perpendicular to the direction of transport (10) can be inclined in both directions by a predetermined angle (a) and that the sheet storage stop (7) is V-shaped, each leg (18) of the V each has twice the angle (2α) as the predetermined angle (α) for the shaft (9). Sheet depositing device according to one of claims 1 to 19,
characterized in that there is at least one transport roller (19) for the flat material (2) on the sheet feeder (5). Sheet depositing device according to claim 20,
characterized in that two cooperating transport rollers (19) are arranged.

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