DE3343529A1 - METHOD AND DEVICE FOR AUTOMATICALLY CONTROLLING THE CAPACITY CHANGING ELEMENT OF A BUFFER STORAGE MAGAZINE - Google Patents

Description

Method and apparatus for automatically controlling the capacity changing element of a buffer storage magazine

The invention relates to systems for conveying cigarettes or similar objects and in particular installations for conveying cigarettes from one or more cigarette manufacturing machines to one or more cigarette packaging machines, the systems at least one Buffer storage magazine is assigned, which is in communication with a passage area for the cigarettes also called the crossing area and with an inlet for the incoming cigarettes and an outlet for the outgoing cigarettes is connected, the capacity of the buffer storage magazine using at least a respective change element can be changed, the movement of which is reversible and which is moved so that the capacity of the magazine is increased and cigarettes coming from the passage area are stored therein when the throughput of the incoming cigarettes is greater than the throughput of the outgoing cigarettes, or so is moved so that the capacity of the magazine is reduced and the cigarettes are returned to the passage area, when the throughput of the incoming cigarettes is less than the throughput of the outgoing cigarettes.

The throughput of cigarettes outgoing from the passage area is generally equal to the throughput of cigarettes, that of the machine or the machines, in particular the cigarette packaging machine or the cigarette packaging machines which are supplied by the conveyor system and are located below the passage area

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i.e. connected to the outlet of this area.

The invention relates to a method and a device for automatically controlling the movement reversible element which changes the capacity of the buffer storage magazine of the type described above, so that the cigarettes are either taken into the magazine or returned from the magazine.

In previously known systems for conveying cigarettes or similar objects with a buffer storage magazine of the type described above, the reversible element in its motion becomes the capacitance of the buffer storage magazine changes, via a device that acts on the volume of the cigarette mass in the passage area responds, i.e. controlled by a height detector located on the free upper outer surface of the cigarette mass is arranged in the transition area. If the throughput of the incoming cigarettes is greater than the throughput of the outgoing cigarettes Cigarettes, the height of the cigarette mass will increase in the passage area and upon reaching one cause a movement of the movable change element via the respective detector with the specified maximum value, so that cigarettes are taken from the passage area into the buffer storage magazine. If vice versa the throughput of outgoing cigarettes is greater than the throughput of incoming cigarettes, the amount of cigarette mass becomes decrease in the passage area and when a predetermined minimum value is reached via the respective detector cause a reverse movement of the movable changing element to remove some cigarettes from the buffer storage magazine to be returned to the transit area. If, of course, the throughput of outgoing cigarettes is equal to that of incoming cigarettes, the amount remains the same

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The cigarette mass in the passage area is essentially constant and the capacity changing element does not move.

At present, the speed of the movable member for changing the capacity of the buffer storage magazine is in constant in both directions of movement and this speed has such a value that a cigarette pick-up and cigarette return rate is ensured that the maximum intake of cigarettes by the following processing machine or the following processing machines and thus the maximum throughput of the outgoing cigarettes from the passage area. Because of this and the fact that the control of the Capacitance change element for the buffer storage magazine on the volume of the cigarette mass in the passage area based, the density of the cigarette mass in the passage area is not constant in the previously known devices, so that the degree of compaction and consequently the degree of compression of the cigarettes in this area is variable. A high degree of compaction can be detrimental to the integrity of the cigarette, whereas Too little compaction can allow the formation of gaps, which may lead to Put up cigarettes, which can then arrange themselves crosswise or jam.

In certain conveyor systems of the type described at the outset, the cigarette mass in the buffer storage magazine has a free surface, which tends to be irregular, i.e. with peaks and hills. Under normal This free surface of the cigarette mass in the storage magazine is close to a fixed one Cover or on the ceiling of the magazine. When the buffer magazine empties and the throughput of the outgoing Cigarettes is smaller than the maximum throughput and thus smaller than the throughput of the cigarettes that are from

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Magazine are returned to the passage area, a high degree of compaction of the cigarettes in the passage area can cause the cigarettes to jam in the buffer magazine and therefore an increase in the free surface area of the cigarette mass lead in the magazine, so that finally this surface with the permanently attached lid or ceiling of the magazine comes into contact. In this case and especially with filter cigarettes that are not completely horizontal Forming layers, the slope of which increases with their distance from the floor, become the higher mouthpieces of the cigarettes on the surface of the cigarette mass in the magazine first contact the ceiling of the magazine and thereby break off, so that these cigarettes can tilt themselves and cause interference.

These deficiencies can be eliminated according to the invention due to the fact that those entering the passage area Cigarettes and the cigarettes going out from the passage area repeatedly and each time for a certain one Time interval are counted and that the difference between these two values is calculated to to act on the capacity change element of the buffer storage magazine so that depending on the positive or negative sign of this difference and at a rate proportional to the absolute value This difference is, the capacity of the magazine is increased and hence cigarettes from the passage area are picked up or the capacity of the magazine is reduced and consequently cigarettes returned to the passage area will.

The cigarettes entering the passage area can either be at the entrance to the passage area or on at any point above the inlet. Similarly, those going out from the passage area Cigarettes either at the outlet of the

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rich or counted anywhere below the outlet. As incoming cigarettes can In particular the cigarettes are counted / which take a single layer on a section of their way to the Form passage area, while the cigarettes that are in one can be counted as outgoing cigarettes predetermined time interval by one or more processing machines that process the cigarettes that come from the passage area, in particular from one or more processing machines several packaging machines are included.

In the following, a particularly preferred embodiment of the invention is described in more detail with reference to the accompanying drawing:
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Fig. 1 shows a conveyor system of a cigarette packaging machine.

Fig. 2 shows a schematic partial sectional view longitudinally the line II-II in Fig. 1 in an enlarged

Scale.

As shown in the drawing, filter cigarettes SF are produced by one or more cigarette making machines and in particular come from a device 1 that the good quality of the manufactured Cigarettes SF checks, via a conveyor belt 2 to a vertically rising suction air path 103 of a transport conveyor belt 3, which follows an inverted L-shaped walkway. The horizontal path 203 of this conveyor belt 3 is preferably a suction air path at its end section and via a slide 4 with an adjoining one horizontal conveyor belt 5 connected. The conveyor belt 3 is controlled by a motor 6 with variable Speed operated. Similarly, that will

following conveyor belt 5 operated by a motor 7 with variable speed. Motors 6 and 7 can for example DC motors.

The cigarettes SP form a single layer on top of the rising suction path 103 of the conveyor belt 3, so that this conveyor belt 3 at the same speed, with which the cigarettes SF come from the testing device 1 and are therefore moved at a speed, which is proportional to the operating speed of the cigarette making machine or machines is, which is not shown or are and the test device 1 deliver. The single cigarette layer is also on the horizontal path 203 of the conveyor belt 3 retained. The subsequent conveyor belt 5 is moved at a speed that is less than that of the conveyor belt 3 is. As a result, a large number of individual layers of cigarettes lying on top of one another is formed on the conveyor belt 5. However, the free surface of this multitude of layers is im substantially coplanar with the single cigarette layer of the horizontal path 203 of the preceding conveyor belt 3 due to the lower level of the conveyor belt

At the end of the horizontal conveyor belt 5 there is the inlet 108 of a so-called crossing area or passage area 8, which runs downwards and from side walls 11, 12 is limited and has a lower opening 208, which via a vertical tube 9 with the funnel 10 a Cigarette packing machine is connected. The passage area 8 is on the side opposite the wall 12 with a buffer storage magazine 13 in connection, which in the illustrated embodiment of a horizontal Conveyor belt 14 is formed, which alternately as desired via a switchable motor with variable speed, for example a DC motor 15, in one of

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can be moved in both directions. A transverse dividing element 16, the capacity changing element is called, is attached to the upper track of the conveyor belt 14 and is thus under a fixed Cover 17 and moved between two side walls, not shown.

The passage area 8, the vertical tube 9, which with the outlet 208 communicates, and the space of the buffer storage magazine 13, which extends up to the movable Subdivision or extending to the movable change element 16 are usually filled with cigarettes. These Cigarette mass converges via the inlet 108 of the passage area 8 with the cigarette layers which be conveyed on the conveyor belt 5, and has a free upper outer surface, the height of which by a suitable Detector is perceived. In the illustrated embodiment, this height detector has the shape of a Feeler arm 18, which rests with one end portion on the free upper outer surface of the cigarette mass in the passage area 8 and at the other end pivotable on one horizontal pivot pin 118 is attached and is in functional connection with an angular position transducer 19. Around to increase the capacity of the buffer storage magazine 13, i.e. to accommodate therein cigarettes which are in the passage area 8 via inlet 108 and the cigarettes exceed that of the packaging machine and discharged from the passage area via the outlet 208, the change division 16 becomes moved by the conveyor belt 14 away from the passage area 8, i.e. to the left in Fig. 1. To increase the capacity of the Reduce buffer storage magazine 13, i.e. to return cigarettes to the passage area 8 when the The amount of cigarettes fed to the inlet 108 is less than the amount of cigarettes required by the packaging machine and is therefore smaller than the amount of cigarettes that is dispensed from the passage area 8 via the outlet 208,

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on the other hand, the change subdivision 16 is replaced by the Conveyor belt 14 towards the passage area 8, i. in Fig. 1 moved to the right.

To control the movements of the change subdivision 16 / According to the invention, both the cigarettes coming into the passage area 8 and those from Passage area 8 outgoing cigarettes counted. The number of incoming cigarettes is counted above of inlet 108 at the single layer of cigarettes End section preferably on the suction section of the horizontal path 203 of the conveyor belt 3, for example by means of a photocell device 20. However, the outgoing cigarette count is based on the cigarettes produced by the packaging machine. Counting devices are preferably not provided for this purpose, but any suitable element of the packaging machine is advantageously used, this causes cyclical work movements, each of which involves the intake of a given number of cigarettes by the Packaging machine. For example, use can be made for this purpose of the reciprocating transfer slide 21, which is cylindrical in each active Clock (to the left in Fig. 2) from the bottom of the funnel 10 a Group SG pushes out any number of cigarettes SF. The transfer slide 21 can simply, as in the illustrated embodiment, be provided twice or three times be. In this case, based on * the active clocks of the transmission slider 21, which is either from the simple or multiple types, the number of cigarettes received by the packaging machine can be determined.

In practice, a given time interval T, the so-called measurement interval, is provided. The cigarettes SF that are under the Photo cell 20 pass through in each measuring interval T, cause

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Via the photocell 20, a corresponding number of electrical pulses that are sent to a microprocessor, not shown located, which drives the motor 15 to operate the conveyor belt 14 controls. This microprocessor counts the number of pulses from the photocell 20 and thus determines the number of NE incoming cigarettes in each measuring interval T. The microprocessor also determines the ratio NE, that of the number

of incoming cigarettes that are in the transit area 8 migrate through inlet 108 per unit of time.

To determine the number of cigarettes used by the packaging machine can instead, according to the invention, for example, from the reciprocating transfer slide 21 of the single or multiple type can be made use of, which cyclically with each active clock (to the left in Fig. 2) pushes a predetermined number of cigarettes out of the bottom of the hopper 10 of the packaging machine and, for example, a corresponding electrical pulse, a so-called packaging pulse, at each active clock to the control microprocessor. For this purpose, the transfer slide 21 can, for example, via a Actuate nose 121 an Endtak'tdetektor 22. Since between the clock of the transfer slide 21 and the time origin If there is no relationship, a given number N of active clocks of the slider 21 is set to be equal to one Number N of packaging pulses which are supplied by the detector 22 to the microprocessor. This number N of packaging pulses corresponds to a proportional number NP of cigarettes, which .together through the transfer slide 21 are pushed out from the bottom end of the funnel 10, and hence an equal number NP of cigarettes that is picked up by the packaging machine. The microprocessor received the packaging pulses determines the number NT of Measurement interval that has passed and divides between the first and the last of the received N packaging pulses the corresponding number NP of cigarettes by the number NT

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at measuring intervals, so that the number of cigarettes that is picked up by the packaging machine in each time interval T is obtained. This number of cigarettes NP / NT is additionally divided by T in the microprocessor, so that the number of cigarettes NP is obtained, .die

NT-T

is picked up by the packaging machine per unit of time and is equal to the number of cigarettes that from Passage area 8 go out through the outlet 208 per unit of time.

The microprocessor then calculates the difference between the number of NE of cigarettes in the passageway

area 8 enter per time unit and the number of NP

of cigarettes that come out of the passage area 8 per unit of time, i.e.

NP 'Δ «NE N? = ¹ ^

T NT. T T j

and, as a function of this difference, controls the direction and the speed of movement of the change subdivision 16. In particular, when the number NE arrives

the number of cigarettes per unit of time is equal to the number of NP

NT-T

of outgoing cigarettes per unit time, then Δ = 0 so that the change subdivision 16 is fixed in place, i.e. the capacity of the buffer storage magazine is not changed. However, if the number NE of the other

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coming cigarettes per unit of time is greater than the number NP of cigarettes that NT-T

go out, then Δ ^ 0 and determines the microprocessor the shifting of the change subdivision 16 in a Direction in which the capacity of the buffer storage magazine 13 is increased, i.e. to the left in Fig. 1. If reversed the number NE of incoming cigarettes per unit of time

NP
NT-T

T
smaller than the number NP of outgoing cigarettes

per unit of time, then Δ ^ 0 and the microprocessor switches over the motor 15, ie so that it shifts the change subdivision 16 in a direction in which the capacity of the buffer storage magazine 13 is reduced (to the right in FIG. 1). In addition to determining the direction of rotation of the motor 15 and therefore the direction of movement of the partition 16 to change the capacity of the buffer storage magazine 13, in both cases the microprocessor also determines the speed of the motor 15 so that the capacity changing partition 16 moves at a linear speed, which is proportional to the absolute value of the difference A between the number NE

T of incoming cigarettes per time unit_and the

Number of NPs of outgoing cigarettes per time unit NT-T

is. The capacity of the buffer storage magazine is thus increased and decreased to such an extent that the cigarette surplus of the cigarettes which enter the passage area 8 through the inlet 108 is received with considerable accuracy if Δ *> 0, and with considerable accuracy the throughput of the outgoing cigarettes from the passage area 8 through the outlet 208, if A <0, while the volume and the contacting of the cigarette mass in the passage area 8 are kept essentially constant and the other deficiencies that were explained at the beginning are also excluded.

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The direction and the speed of movement of the partition 16 for changing the capacity of the buffer storage magazine 13 are determined by the control microprocessor in each measurement interval T on the basis of the actual values NE and the values NP which

T NT-T

were formed in the previous time interval and correspond to the specified N packaging pulses. That is based on the assumption that the packaging machine is ο constant speed during two consecutive the following time intervals works, each of which corresponds to the predetermined N packaging pulses. This assumption usually applies.

In controlling the movement of the partition 16 to the Changing the capacity of the buffer storage magazine 13, it may be desirable to use a compensation or correction coefficient to take into account the fact that the SF cigarettes supplied are not absolute have constant dimensions and may be more or less oval shaped or deformed when they enter the passage area 8 enter. Because of these deformations or dimensional deviations of the cigarettes, it actually can happen that either when filling or emptying the buffer storage magazine 13, i.e. either when this Magazine picks up cigarettes from the passage area 8 or when it returns cigarettes to the passage area 8, despite controlling the speed of movement of the change divider 16 based on the count of the incoming cigarettes and outgoing cigarettes picked up by the packaging machine The height of the cigarette mass in the passage area 8 tends to vary, i.e. tends to go up and down, rather than substantially to stand or stay constant. To these possible changes in height of the cigarette mass in the passage area

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to avoid, the control microprocessor receives the signals generated by the angular position transducer 19, the is actuated by the feeler arm 18 of the height detector, and the microprocessor corrects the speed of the movement the partition 16 for changing the capacity of the buffer storage magazine 13 depending on the sign of the signals received by the angular position transducer 19 and depending on the absolute value of these signals. If especially when emptying the buffer storage magazine 13, the height of the cigarette mass in the passage area 8 tends to increase, the speed of the change division becomes 16 diminished, and if this amount decrease tends, this speed is increased. Conversely, when the buffer storage magazine 13 is filled, the speed becomes the change subdivision 16 increases when the height of the cigarette mass in the passage area 8 increases tends, while as this altitude tends to decrease, this speed is decreased. I.e. in summary, that the speed V used by the microprocessor of the partition 16 to change the capacity of the buffer storage magazine is given, is expressed by

NP

V =
25th

NT Λ

κ ¹ Iz + Δν

where ₍ K is a proportional constant and Δ V denotes the correction coefficient, which depends on the deformations and dimensional deviations of the cigarettes.

The present invention is further characterized in that the counting of the number NE of in a single Cigarette layer at the end section of the horizontal path 203 of the transport conveyor belt 3 in each measuring time interval T

incoming cigarettes are used more regularly Conversion of the individual cigarette layer, which is present on the transport conveyor belt 3, into a multiple cigarette layer ensure that is present on the following conveyor belt 5. With the previously known conveyor arrangements of the type shown, there is a constant ratio between the speed of the two conveyor belts 3 and 5 and an electromagnetic clutch is provided to stop the conveyor belt 5 when conveying the cigarettes on the conveyor belt 3 is interrupted. According to the invention, however, the speed of the motor 7 and therefore the speed of the conveyor belt 5 carrying the multiple layer of cigarettes by the control microprocessor at each measurement time interval T as a function of the number of cigarettes NE regulated per unit of time comes to the conveyor belt 3. The speed of the conveyor belt 5 is thus proportional to NE. So it becomes

not only ensured that the speed of the conveyor belt 5 for the multiple layer of cigarettes becomes equal to 0 when the cigarettes are transported over the conveyor belt 3 is interrupted, but that in addition this speed is reduced proportionally when the throughput of the in a single shift on the conveyor belt 3 arriving cigarettes decreases, for example due to a possible rejection of defective cigarettes can be the case.

The present invention is not limited to the illustrated embodiment and can in particular in Systems for conveying rod-shaped objects other than cigarettes and in particular in systems for conveying of filter rods or the like can be applied. The invention is also subject to changes and modifications wide scope, especially in the construction area

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- Depart. Instead of the photocell device 20, in particular another suitable device can be used in a single layer on the conveyor belt 3 present cigarettes to count, and there can be another cyclically movable element of the processing machine below the passage area can be used to count the number of cigarettes or the to determine other rod-shaped objects that are picked up by the latter machine. The user The microprocessor can be of any suitable type and the cigarette bulk height detector the passageway can also be of any suitable type.

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Claims (10)

PATENT CLAIMS 11.J method for automatically controlling the capacity change element of a buffer storage magazine / which is assigned to a system for conveying rod-like objects to a processing machine and in particular for conveying cigarettes from one or more cigarette manufacturing machines to one or more cigarette packaging machines, in which system the buffer storage magazine with a cigarette passage area the so-called intersection area, which is connected to an inlet for the incoming cigarettes and an outlet for the outgoing cigarettes, wherein the capacity of the buffer storage magazine can be changed by means of at least one respective change element, the movement of which is reversible and which is moved to the capacity of the magazine and to store cigarettes in it that come from the passage area when the throughput of the incoming cigarettes is larger than that of outgoing cigarettes, or that is moved to capacity of the magazine · to reduce and return cigarettes to the transit area when the throughput of the incoming Cigarette is smaller than that of the outgoing cigarette, characterized in that it is repeated and each time for a certain time interval, the so-called measurement time interval T, the cigarettes that are in the passage area go in, and the cigarettes going out from the passage area will be counted and the difference between these two values is calculated, the capacity change element being of the buffer storage magazine depending on the positive or negative sign of the difference and operated at a speed proportional to the absolute value of the difference so that the Capacity of the magazine increases and consequently cigarettes are picked up by the passage area or the capacity of the magazins and consequently cigarettes the passage area be returned. 2. The method according to claim 1, characterized in that the number of the passage area Outgoing cigarettes is determined on the basis of the cigarettes produced by the packaging machine in the measuring time interval T be included. 3. The method according to claim 1, characterized in that g e k e η η, that the number of cigarettes recorded by the packaging machine in the measuring time interval T. based on the number of cyclic movements made by any moving element of the packaging machine, in particular on the basis of the active clocks of at least one transfer slider from the simple or BATH multiple type is determined, which at each cycle a group of cigarettes from the lower end of the hopper for the packaging machine pushes out. 4. The method according to claim 3, characterized in that the difference Δ between the pro Time unit incoming number of cigarettes NE and the cigarettes NP taken per unit of time by the packaging machine is formed, with the last ... NT-T "te. named number is obtained by taking the total number of cigarettes NP that are a given number NT of cyclic Corresponds to movements of the movable element of the packaging machine, in particular of the transfer slide, by the number of movements NT and by the measuring time interval T is shared. 5. The method according to claim 1, characterized in that g e k e η η, that the speed of the element for changing the capacity of the buffer storage magazine as Function of the changes in height of the free surface of the cigarette mass in the passage area is regulated by this speed is decreased or increased as the altitude increases while emptying the buffer storage magazine or tends to decrease, and by increasing or decreasing the speed when filling the buffer magazine this height tends to increase or decrease. 6. The method according Ansrpuch 1 for use in a conveyor system, wherein the rod-shaped objects, and particularly incoming cigarettes in a single layer at least _i on part of its conveyor track to the passage area 35 are arranged / characterized in that the counting of the incoming cigarettes at the individual Cigarette layer takes place. 7. The method according to claim 1, wherein the rod-shaped Objects and in particular arriving cigarettes to the entrance of the passage area by means of a conveyor belt be conveyed, which carries a multitude of superimposed cigarette layers ^ and of a conveyor belt on which the cigarettes are arranged in a single layer are, characterized in that the incoming cigarettes are preferably at the end portion counted from the type of a suction conveyor belt of the transport conveyor belt, while the following conveyor belt, carrying the plurality of layers of cigarettes is operated at a speed proportional to the Is the number of incoming cigarettes per unit of time that is counted on the conveyor belt. 8. Device for performing the method according to one of the preceding claims, marked net through a microprocessor associated with a facility (20) for example in the form of a photocell, which has a number of pulses equal to the number NE of incoming Can produce cigarettes in a given measuring time interval T, and is connected to a device (22) which can generate a number of pulses N corresponding to the number of cyclical movements that any movable Element of the packaging machine within a given number NT of measuring time intervals and which corresponds to a total number NP of cigarettes picked up by the packaging machine, the Microprocessor the number NE of incoming cigarettes BATH ORIGINAL per time unit and the number NP of the NT * T cigarettes per unit of time and the difference between them 5 ^ = NE - NP calculates while he calculates the toggle T NT * T ble motor (7) with adjustable speed of the element (16) for changing the capacity of the buffer storage magazine (13) controls / that it keeps the change element (16) stationary when Δ = 0 and the change element (16) in a direction to increase the capacity of the buffer storage magazine (13) when Δ ^ Ο or in one direction to reduce the capacity of the buffer storage magazine (13) shifts when Δ -C 0, the speed of shift being proportional to the absolute value of the difference Δ. 9. The device according to claim 8, characterized in that g e k e η η, that the microprocessor with a device such as a reciprocating feeler arm. (18) is connected to an angular position transducer (19) is assigned and at the level of the free surface the cigarette mass in the passage area (8) responds, and that the microprocessor the speed of movement of the element (16) for changing the capacity of the buffer storage magazine (13) depending on the direction and the absolute value of the changes in height of the cigarette mass in the passage area (8). 10. Device according to one of claims 8 or 9, characterized in that the microprocessor drives the motor (7) at an adjustable speed for the conveyor belt (5), which carries the incoming cigarettes in the form of a large number of layers one on top of the other conveyed to the inlet (108) of the passage area (8), so controls, that the conveyor belt (5) is given a speed that is proportional to the number of incoming cigarettes which are fed to the conveyor belt (5) per unit of time. BATH