EP2120615A1

EP2120615A1 - Emptying magazine for a tray emptying device used to empty trays filled with rod-shaped products

Info

Publication number: EP2120615A1
Application number: EP08748849A
Authority: EP
Inventors: Piotr Budny; Thomas Müller; Matthias Horn; Michael Knabe; Arnd Meier
Original assignee: Hauni Maschinenbau GmbH
Current assignee: Koerber Technologies GmbH
Priority date: 2007-03-13
Filing date: 2008-03-12
Publication date: 2009-11-25
Anticipated expiration: 2028-03-12
Also published as: DE102007012697A1; PL2120615T3; WO2008110390A1; PL2120615T4; CN101631479A; EP2120615B1

Abstract

The invention relates to an emptying magazine (13) for a tray emptying device (10) used to empty trays (12) that are filled with rod-shaped products. Said magazine comprises connecting means (21) for coupling the trays (12) that are to be emptied to the emptying magazine (13), a receiving area (22) for the products from the trays (12), at least one flow regulating element (23) that delimits the lower part of the receiving area (22) and a conveying element (24) that is arranged below the flow regulating element or each flow regulating element (23) for transporting the products. Said invention is characterised in that several shaft walls (29) arranged inside the receiving area (22) are embodied for subdividing said receiving area (22) into individual shafts (30). Said shaft walls (29) extend continuously from the connection means (21) in the downward direction to the flow regulating element (23) or to each flow regulating element (23).

Description

Emptying magazine for a tray emptying device for emptying fillings filled with rod-shaped products

description

The invention relates to an emptying magazine for a tray emptying device for emptying filled with rod-shaped slopes, comprising

Connection means for coupling the slopes to be emptied to the emptying magazine, a receiving space for the products flowing from the slopes products, at least one current regulating element bounding the receiving space down and arranged below the or each current regulating element conveying element for transporting the products.

Such devices are used particularly in the tobacco processing industry in the processing of rod-shaped products. Cigarettes, filter rods or the like are stored in containers, the so-called bevels, in particular for transport and storage. In this case, the container as

Standard trays are designed with a single receiving space for all products or as shaft trays in which the products lie in several separate shafts. For further processing of the stored products, these are delivered to downstream devices, such as packaging machines or the like, or introduced into an existing mass flow. Drawer unloading stations are usually available for the automated supply of the products from the containers. The emptying stations have, in a known manner, a supply for product-filled slopes, an emptying magazine, an outlet for the emptied slopes and a transfer device, by means of the full slopes of the feed in the area of the emptying magazine and the emptied bevels from the emptying magazine in the area the removal be transported. The transfer device can be designed differently. Widening are pivoting devices which have a receptacle for one or more slopes and which is associated with a movable closing element for the upwardly open slopes.

From EP 0 461 679 B1, for example, a feeding device of rod-shaped articles into a hopper having the features of the preamble of claim 1 is known. The receiving space itself is funnel-shaped and limited in the flow direction of the article down through a plurality of current regulating elements. In the area of the narrowest point of the funnel-shaped receiving space several partitions are arranged. For all, e.g. from a sloping flowing products common receiving space opens only immediately in

Transition area between the receiving space and the underlying conveying element in so-called outlet shafts. However, this device has the disadvantage that when removing articles, e.g. From a slant through the receiving space of the device in the region of the conveying element can interfere. All articles fall unmoved into the recording room. Of the

Reception room serves as a kind of temporary storage, from which the products reach the area of the current regulation elements. The assignment of the articles to the individual outlet shafts is uncontrolled and random. As a result, in particular when the tray or the like changes, so-called transverse flyers, that is to say transverse items within the unloading magazine, can occur.

It is therefore an object of the present invention to provide a device which ensures a safe and reliable emptying of slopes.

This object is achieved by an emptying magazine of the type mentioned above in that a plurality of shaft walls for dividing the receiving space into individual shafts are formed and arranged within the receiving space, with the shaft walls extending from the connection means down to the or each current regulating element. As a result, a controlled emptying of the bevels is ensured because the products from the slope through the receiving space to the conveyor element in groups are virtually forced out. An orderly emptying while avoiding the cross-planes is guaranteed. The subdivision of the Furthermore, the storage space in individual shafts also reduces the load on the products.

An expedient development of the invention provides that the emptying magazine is designed and set up for emptying shaft trays, wherein the number of shafts within the receiving space corresponds to the number of shafts of the shaft trays to be emptied. As a result, a bay assignment of the products is possible, which greatly facilitates the orderly flow of products through the discharge magazine. The simultaneous emptying of all shafts of Schachtschragens is also facilitated.

Advantageously, the shafts defining or forming the receiving space are open at the top, the cross sections of the shafts of the receiving space substantially corresponding to the cross sections of the shafts of the shaft to be emptied. As a result, an outflow of products from the shafts of Schachtschragens is ensured in the shafts of the receiving space free of obstacles.

A preferred embodiment is characterized in that the emptying magazine is assigned a monitoring means which is used to detect the

Level is set up and formed within the tray, wherein the or each monitoring means for individually controlling the or each current regulating element is in operative connection with this. The inventive construction is an effective adjustment of the current regulating elements, which allows a reliable and safe flow of the products from the receiving space in the region of the conveying element, guaranteed.

In an expedient embodiment of the invention, a compensation means is arranged in the region of the connection means. The compensating means is used to compensate for or compensate for any existing tolerance variations between the shafts of the tray on the one hand and the shafts of the receiving space on the other hand or deviations in the shaft walls, - A - whereby the emptying of the slopes is controlled and improved in a particularly simple manner.

The shafts of the receiving space preferably extend downwards in the direction of the current regulating elements. As a result, a trouble-free flow of products through the shafts of the receiving space is supported.

Further expedient or advantageous features and developments emerge from the subclaims and the description. Particularly preferred embodiments will be explained in more detail with reference to the accompanying drawings. In the drawing shows:

Fig. 1 is a perspective view of a tray emptying device with a

Emptying magazine according to a first embodiment of the invention,

FIG. 2 shows a front view of the tray emptying device according to FIG. 1, FIG.

3 shows the detail A of Figure 1 in an enlarged view,

4 is a front view of a tray discharge device with a discharge tray according to a second embodiment of the invention,

5 shows the detail B according to FIG. 4 in a perspective and enlarged view, FIG.

6 is a front view of a tray discharge device with a discharge tray according to a third embodiment of the invention,

7 shows the detail C according to FIG. 6 in an enlarged view,

8 shows the detail D of Figure 6 in an enlarged view,

9 is a front view of a tray discharge device with a discharge tray according to a fourth embodiment of the invention, and 10 is a front view of a Schrägentleereinrichtung with a discharge tray according to a fifth embodiment of the invention.

The emptying magazines described are used for emptying filled with stabformigen products inclines or shaft trays.

For better understanding, a tray emptying device 10 with its essential components will first be described, wherein the tray emptying device 10 may also be constructed in any other conventional and known manner. The

Schragenentleerstation 10 includes a feed station 1 1 for filled with products Schragen / Schachtschragen 12, an emptying magazine 13, a discharge 14 for the emptied Schragen / Schachtschragen 12 and a transfer device, not shown, by means of the full trays / shaft trays 12 from the feed station 11 in the Dump magazine 13 area and the empty ones

Inclined / Schachtschragen 12 are transported from the discharge tray 13 in the region of the discharge station 14. The invention will be described with reference to shaft trays 12, but can be used in the same way for slopes 12. The shaft tray 12 has side walls 15, parallel to the side walls 15 extending and shafts 16 forming shaft walls 17, a rear wall 18 and a bottom wall 19. The bottom wall 19 may have openings 20 (see, for example, Figure 9) or may be formed at least partially transparent to allow monitoring means, described below, to detect the fill level within the wells 16 of the shaft tray 12. The same applies to the rear wall 18th

The emptying magazine 13 has a connection means 21 for coupling the shaft trays 12 to be emptied to the emptying magazine 13, a receiving space 22 for the products flowing out of the shaft tray 12, at least one but preferably a plurality of current regulating elements 23 delimiting the receiving space 22 and one beneath the or each Stromregulierungselementes 23 arranged conveying element 24 for the removal of the products. The receiving space 22 is not a rear wall 25, a front wall, for reasons of clarity is shown, as well as side walls 26, 27 formed. Down the receiving space 22 is limited by the current regulating elements 23. Below the flow regulating elements 23, the conveying element 24 is arranged. Towards the top in the direction of the shaft tray 12, the receiving space 22 or the connection means 21 is open.

A shaft tray 12 to be emptied is connected above the receiving space 22 via the connection means 21 to the emptying magazine 13 or connected thereto. The shaft tray 12 stands for the emptying process overhead. This means that the products within the shafts 16 on one of the bottom wall 19 opposite closing element 28 are. The closure member 28 may be in a known manner e.g. be a movable sword, which is movable in the horizontal direction. The closing element 28 may further be part of the shaft tray 12, the discharge magazine 13 but also the transfer device, not shown, for the full and empty shaft trays 12. The transfer device is conventional swiveling devices or the like, which is why a representation and description is dispensed with.

Within the receiving space 22 a plurality of shaft walls 29 are formed and arranged for dividing the receiving space 22 into individual shafts 30. The

Shaft walls 29 extend from the connection means 21 or from the closing means 28 downwards continuously to the current regulating elements 23. As a result, when the closing means 28 are open, a plurality of parallel shafts are formed which are continuous from the shaft tray 12 to the conveying element 24. In the area of the current regulation elements 23, the shaft walls 29 are angled in an L shape. The inside of the L-shaped portion of the shaft walls 29 are provided with a radius to form a kind of throat, so that the products falling into this area are guided in the direction of the current regulating elements 23. In the event that the emptying magazine 13 is designed and arranged for emptying shaft trays 12, the number of shafts 30 within the receiving space 22 corresponds to the number of shafts 16 of a shaft tray 12 to be emptied. In the exemplary embodiments shown, the shaft trays 12 and Reception room each ten shafts 16 and 30 on. However, the number of slots 16 and 30 may vary.

The shafts 30 which form or define the receiving space 22 are designed to be open in the direction of the connecting means 21 or in the direction of the shaft 12. At least in the region of the transition of the shafts 16 of the shaft tray 12 into the shafts 30 of the receiving space 22 correspond to the cross sections of the shafts 16 and 30. In the embodiments according to Figures 1 to 5 and 9 and 10, the cross section of the respective shafts 16 and 30 over the entire length the same. In other embodiments, the cross section of the wells 30 of the receiving space 22 may change, in particular. In the embodiment shown in FIGS. 6 to 8, the shafts 30 widen, starting from the connection means 21, in the direction of the current regulation elements 23. The expansion can be realized in various ways. For example only, the shaft walls 29 of the receiving space 22 can extend at an angle to the vertical.

Each shaft 30 of the receiving space 22 is assigned at its lower end at least one current regulating element 23. The current regulation elements 23 can - as will be described in detail below - be designed in different ways. The current regulation elements 23 serve for the controlled outflow of the products from the respective shafts 30 of the receiving space 22. They are designed and arranged such that they change or at least partially close the shaft 30 to which they are associated. On the side of the shafts 30 opposite the current regulating elements 23, a compensating means 31 is arranged in the region of the connecting means 21. In the exemplary embodiments shown, the compensating means 31 has a plurality of rod-shaped compensating elements 32. The compensating elements 32 may be stationary, movable or actively driven and located directly above each shaft wall 29 of the receiving space 22, so that from the shafts 16 of the shaft tray 12 flowing products when hitting the upwardly facing edge of the shaft walls 29 inevitably on one of the adjacent Shafts 30 are distributed. The current regulating elements 23 are formed in the embodiments of Figures 1 to 5 and 9 and 10 as rollers or drums 33. The drums 33 are rotatably driven and have troughs 34 for receiving and separating the rod-shaped products. The drums 33 preferably extend over the entire depth (into the image plane) of the shaft 30. Each drum 33 is associated with a scraper element 35, which is preferably arranged adjacent to the drum 33 and together with the drum 33 with a stationary drum 33, an outflow of Products from the shaft 30 prevented. Furthermore, each shaft 30 of the receiving space 22 is associated with a guide element 36. The guide elements 36 serve to guide the separated by the drums 33 in connection with the wiper element 35 products.

In the embodiment shown in Figs. 6-8, the current regulating elements 23 comprise pivotable guiding elements 37. A guiding element 37 may e.g. a flap 38 pivotable about a pivot point S, which is arranged with one end in the region of the pivot point S on the shaft wall 29 and has a free end 39 on the opposite side. The guide element 37 or the flap 38 is formed from a part of the shaft wall 29. In other words, the guide element 37 is an integral part of the shaft wall 29. Of course, the guide elements 37 may also be a separate part and in particular also one or more parts. The length of the guide elements 37 and the flaps 38 may vary. In the described embodiment, the guide element 37 narrows the cross section of the shaft 30 of the receiving space 22 only, whereby the outflow of the products from the shaft 30 is only slowed down. In embodiments not shown, the length of the guide elements 37 may also be selected such that the guide elements 37 completely obstruct or close the shaft 30 in its closed position, ie in the horizontal position, so that leakage of the products from the shaft 30 is prevented.

The length of the wells 30 of the receiving space 22 may vary in the vertical direction. Examples are shown in which the wells 30 of a receiving space 22 all have an identical length (see the embodiments in Figures 1 to 3 and 9). The length of the shafts 30 may, as in the examples of Figures 4 to 8 and Fig. 10 also may be different within a receiving space 22. In the exemplary embodiment of FIGS. 4, 5 and 10, the shafts 30 are cascade-shaped. The length of the shafts 30 decreases from right to left, ie in the conveying direction F of the conveying element 24. Accordingly, the height of the channel 40 formed between the flow regulating elements 23 and the conveying element 24 increases from right to left in the conveying direction F. The same applies essentially to the embodiment shown in FIGS. 6 to 8, wherein the height of the channel 40 is variable, as described further below.

The conveying element 24 can also be designed in different ways. The emptying magazine 13 according to FIGS. 1 to 3 shows a conveying element 24, which comprises a funnel-shaped magazine 41. The magazine 41 is arranged below the current regulating elements 23 and has in its interior optionally one or more guide elements 42. These guide elements 42 are usually arranged stationary and optionally mounted fixed or rotating. Optionally, the guide elements 42 which are elliptically shaped in plan view, for example, can also be driven. The number and position of the vanes 42, which are also referred to as plums, may of course vary. The magazine opens into the (mass flow) channel 40 formed below the magazine 41. Below the magazine 41 a band element 43 or the like is arranged, by means of which the products can be transported further. The band element 43 can also be arranged directly and directly below the current regulation elements 23 (see, for example, the embodiment according to FIGS. 4 and 5). The band element 43 can be arranged and designed to be stationary (as in the embodiment according to FIGS. 1 to 5 and 9, 10) or movable (as in the embodiments according to FIGS. 6 to 8). The mobility of the band element 43 can be realized in various ways. Purely by way of example, a pivotable band element 43 is shown in FIGS. 6 to 8. The band member 43 is pivotable from a substantially horizontal position in an inclined position up and down, so that at a different length of the wells 30 about a constant height of the channel 40 can be reached. By lowering of the band member 43, a kind of process memory is formed, which is needed in particular when changing a shaft tray 12 or at a stop of a connection machine, not shown. In the embodiments with the shafts 30 of different lengths, the shaft walls 29 are stepped (from left to right against the conveying direction F) in each case by a defined distance deeper and thus protrude further into the (mass flow) channel 40 (see, eg, FIG. 4 or 6). , The vertical distance of the vertically offset drums 33 is defined by the height of the mass flow divided by the number of shafts 30. For further embodiments, not shown, it is also conceivable that the current regulating elements 23 are formed from a combination of the variants described with drums 33 and guide elements 37.

To control an optimized product flow from the shaft tray 12 through the shafts 30 of the receiving space 22 into or onto the conveying element 24, the discharge hopper 13 may optionally be further assigned a monitoring means 44. The monitoring means 44, e.g. On a frame 45 or the like of the emptying magazine 13 may be arranged, serves to detect the level of the products within the tray or within the shafts 16 of the shaft tray 12. Preferably, a plurality of monitoring means 44 serving as sensor elements 46 are for individual control of the current regulating elements 23 with these in active connection. This active compound can e.g. via a common control (not shown) or the like. The monitoring means 44 comprises at least two sensor elements 46. However, the number of sensor elements 46 preferably corresponds to the number of shafts 30. In the event that the emptying magazine 13 is set up for emptying shaft trays 12, the number of sensor elements 46 corresponds to the number of shafts 16 of the shaft tray 12. The sensor elements 46 are arranged such that the fill level of each shaft 16 can be determined separately. The arrangement can be chosen differently.

In the embodiment according to FIG. 9, the sensor elements 46 are positioned above the shaft tray 12. More precisely, a single sensor element 46 is arranged above each shaft 16. As mentioned above, the bottom wall 19 of the

Schachtschragens 12 prepared or formed so that the current level height can be determined within the shaft 16. In an embodiment not explicitly shown, the sensor elements 46 are behind or in front of the shafts 16 arranged such that the sensor elements 46 are directed at an angle obliquely from above on the products within the wells 16. In this case, the fill level can be determined by the open front wall or a - as described above - prepared or correspondingly formed rear wall 18. The embodiment according to FIG. 10 essentially differs from that shown in FIG. 9 in that the sensor elements 46 are directed horizontally. Each shaft 16 of a shaft tray 12 is associated with at least two sensor elements 46, which are arranged one above the other or one below the other.

In addition to the monitoring means 44 already described, the

Emptying magazine 13 be assigned at least one other monitoring means not shown, which monitors the level within the wells 30 of the receiving space. In particular, this prevents the shaft trays 12 coming into contact with the products located inside the shafts 30 when changing. All monitoring means or sensor elements are preferably designed as analog optical light sensors. Other embodiments of the sensor elements, e.g. as an ultrasonic sensor, etc., are also used.

The emptying hopper 13 may be provided as a separate unit or as an (integral) component of a tray emptying station 10, e.g. be used in production lines or arrangements. Of course, the emptying magazine 13 is also suitable for emptying standard slopes with a single storage space. Finally, the receiving space of a standard beveling is also a (wider) shaft 16 to which the monitoring means 44 can be associated. The above-described features and constructive embodiments are of course interchangeable between the individual embodiments.

The process principle of the emptying magazines 13 shown is briefly described below: A filled with rod-shaped products Schragen / Schachtschragen 12 is brought in the usual way over head in the region of the connection means 21 of the discharge magazine 13 or pivoted, the products by the closing element 28 in the Schragen / Schachtschragen 12 are held. As soon as the closing element 28 is opened When emptying a shaft tray 12, there is a corresponding shaft 30 in the receiving space 22 for each shaft 16 of the shaft tray 12, so that the products are transferred from the shaft tray 12 to the unloading magazine 13 shaftwise and at the same time become. Within the shafts 30 of the receiving space 22, the products are transported via the flow regulating elements 23 to the conveying element 24. In the embodiments in which the current regulating elements 23 comprise the drums 33, the products are picked up by the drums 33 and separated to then be given to the conveying element 24 in isolated fashion. This may mean that the products fall into the funnel-shaped magazine 41 (see eg FIGS. 1 to 3). In other cases, for example, where the wells 30 have a different length, the products are delivered by means of the vertically and horizontally spaced drums 33 directly into the forming mass flow within the channel 40 (see eg Figures 4 and 5). With an emptying magazine 13 according to the embodiment of FIGS. 6 to 8, the products flow out of the shafts 16 of the shaft tray 12 into the shafts 30 of the emptying magazine 13, which can also be referred to as a fan magazine. Within the ducts 30, the flow of the products is regulated by the flow regulation elements 23, namely the guide elements 37. If the guide elements 37 allow the products to flow, ie are not completely closed, the strip element 43, which is designed as a discharge belt, lowers and transports the products from the discharge magazine at a constant speed. By lowering the band member 43, a process memory is formed, which is needed in particular when changing the shaft tray 12.

In all embodiments, the compensation elements 32 ensure that possible dimensional deviations between the shaft walls 17 and 29 are compensated. For this purpose, the compensation elements 32 move, for example, oscillating. For controlling the current regulating elements 23, as can be seen by way of example from FIGS. 9 and 10, the monitoring means 44 can serve. The sensor elements 46 detect the level in each shaft 16 of the shaft tray 12. By means of suitable control, the current regulating elements 23 are controlled so that the level heights within the shafts 30 of the receiving space 22 are balanced can be. For this example, the guide elements 37 and the flaps 38 are dispensed or expanded to narrow the cross section within the shaft 30, whereby the product flow is braked in the corresponding shaft 30. The shaft-wise guidance of the products within the emptying magazine 13 enables a safe and controlled emptying of the bevels 12. In particular, the level control within the shafts 30 can have a supporting effect.

Claims

claims

An emptying magazine (13) for a tray emptying device (10) for emptying fillets (12) filled with rod-shaped products, comprising a connection means (21) for coupling the bevels (12) to be emptied to the emptying magazine (13), a receiving space (22 ) for the products flowing out of the bevels (12), at least one current regulating element (23) delimiting the receiving space (22) and a conveying element (24) arranged below the or each current regulating element (23) for transporting the products through nnze ic hn et, that within the receiving space (22) a plurality of shaft walls (29) for dividing the

Receiving space (22) are formed and arranged in individual shafts (30), wherein the shaft walls (29) extending from the connection means (21) down to the bottom or each current regulating element (23).

2. emptying magazine according to claim 1, characterized in that it for

Emptying of shaft trays (12) is designed and set up.

3. emptying magazine according to claim 2, characterized in that the number of shafts (30) within the receiving space (22) corresponds to the number of shafts (16) to be emptied shaft troughs (12).

4. emptying magazine according to claim 2 or 3, characterized in that the receiving space (22) defining shafts (30) are open at the top, wherein the cross sections of the shafts (30) of the receiving space (22) substantially the cross sections of the shafts (16 ) of the shaft tray to be emptied

(12).

5. emptying magazine according to one of claims 2 to 4, characterized in that each shaft (30) of the receiving space (22) at the lower end at least one current regulating element (23) is associated.

6. emptying magazine according to one of claims 1 to 5, characterized in that the emptying magazine (13) is associated with a monitoring means (44), the is arranged and configured to detect the level within the tray (12), wherein the or each monitoring means (44) for individually controlling the or each current regulating element (23) is operatively connected thereto.

7. emptying magazine according to claim 6, characterized in that the monitoring means (44) comprises at least two sensor elements (46).

8. emptying magazine according to claim 6 or 7, characterized in that the number of sensor elements (46) at least the number of shafts (30) of the

Recording room (22) corresponds.

9. emptying magazine according to one of claims 1 to 8, characterized in that in the region of the connection means (21) a compensating means (31) is arranged.

10. emptying magazine according to claim 9, characterized in that each shaft wall (29) of the receiving space (22) on the current regulating elements (23) opposite side of a compensation element (32) is associated.

11. Discharge magazine according to one of claims 1 to 10, characterized in that the conveying element (24) comprises a funnel-shaped magazine (41).

12. emptying magazine according to one of claims 1 to 1 1, characterized in that the conveying element (24) comprises a belt conveyor (43) or the like.

13. emptying magazine according to claim 12, characterized in that the belt conveyor (43) is designed to be movable.

14. emptying magazine according to claim 12 or 13, characterized in that the belt conveyor (43) is pivotable up and down.

15. Discharge magazine according to one of claims 1 to 14, characterized in that the current regulating elements (23) are designed as rotationally drivable drums (33), wherein the drums (33) troughs (34) for receiving the from the shaft (30) flowing having rod-shaped products.

16. emptying magazine according to claim 15, characterized in that the drums (33) is assigned in each case a scraper element (35).

17. emptying magazine according to claim 15 or 16, characterized in that each slot (30) of the receiving space (22) in the region of the drum (33) a

Guiding element (36) is assigned.

18. Discharge magazine according to one of claims 1 to 17, characterized in that the current regulating elements (23) comprise pivotable guide elements (37).

19. Discharge magazine according to claim 18, characterized in that the guide elements (37) are an integral part of the shaft walls (29) of the receiving space (22).

20. Discharge magazine according to claim 18 or 19, characterized in that the guide elements (37) each with one end pivotally mounted on a shaft wall (29) of the receiving space (22) are arranged.

21. Discharge magazine according to one of claims 18 to 20, characterized in that the guide elements (37) are designed such that they close the respective shaft (30) of the receiving space (22) in a horizontal position at least partially.

22. Discharge magazine according to one of claims 18 to 21, characterized in that the guide elements (37) are designed such that they completely close the respective shaft (30) of the receiving space (22) in a horizontal position.

23. Discharge magazine according to one of claims 1 to 22, characterized in that all the shafts (30) of the receiving space (22) have the same length.

24. emptying magazine according to one of claims 1 to 22, characterized in that the shafts (30) of the receiving space (22) each have a different length.

25. Discharge magazine according to claim 24, characterized in that the lengths of the shafts (30) of the receiving space (22) from one side of the

Emptying magazine (13) to the other side with respect to the conveying direction F of the conveying element (24) continuously increase or decrease.

26. Discharge magazine according to one of claims 1 to 25, characterized in that the shafts (30) of the receiving space (22) widen down in the direction of the current regulating elements (23).