Improved hopper

Description

[0001] The present invention relates to a hopper for particulate material such as tobacco, and is especially useful in tobacco rod makers.

[0002] In conventional tobacco delivery hoppers for tobacco rod makers, a spiked delivery roller extends across the hopper, parallel to the carded drum which dispenses tobacco from the hopper to the suction box of the tobacco rod maker. A single photo sensitive cell is disposed in a side wall of the hopper; when the photo sensitive cell senses the presence of tobacco, it sends a signal to the motor controlling the delivery roller to slow or stop it. This provides a crude system for ensuring that there is an adequate supply of tobacco from the hopper to the suction box. However, it does not take account of the possibility that the tobacco is lying unevenly on the carding drum which forms the bottom of a hopper. Thus, delivery of tobacco to the suction box may be uneven, possibly resulting in a tobacco rod of irregular density.

[0003] GB-A-2 093 330 discloses a cigarette-making machine in which tobacco is supplied to the upper end of a descending shaft by a main tobacco supply unit communicating with an upper input end of the shaft. The distribution of tobacco across the shaft is adjusted by the introduction of auxiliary tobacco from an auxiliary supply unit which communicates with a side opening in the shaft. The supply unit comprises a number of independent tobacco introduction elements disposed along the major transverse direction of the shaft. The rate of supply of tobacco from each of these introduction elements is selectively controlled by tobacco level detectors disposed across the width of the shaft.

[0004] US-A-4 235 248 discloses apparatus for regulating the upper surface of a supply of tobacco in a cigarette making machine. Tobacco stored in a main magazine is transferred to an upright duct by a belt conveyor. A rotary paddle wheel mounted on a shaft is disposed adjacent the belt conveyor and removes surplus tobacco from the conveyor as it passes. The position relative to the conveyor of one end of the shaft of the paddle wheel is adjustable, so that the amount of tobacco removed from different portions of the conveyor can be controlled. The level of the upper surface of tobacco in the upright duct is monitored by a number of detectors disposed across its width. If the level of the upper surface is not generally horizontal, the position of the paddle wheel is adjusted so that tobacco is removed appropriately from the belt conveyor to correct the level.

[0005] According to the present invention there is provided a hopper for particulate material such as tobacco comprising a delivery roller disposed in the path of incoming material and a sensor for sensing a level of material in the hopper, characterised in that the delivery roller comprises a plurality of independently driven roller sections each associated with a sensor such that activation of the sensor causes the motion of the associated roller section to change. Preferably, the sensors sense a desired maximum level of material in the hopper. Also preferably, the sensors respond ro detecting material by causing the associated roller section to rotate.

[0006] The invention will be further described by way of example with reference to the drawings in which:

Figures 1 and 2 show schematically a hopper according to an embodiment of the invention, and

Figure 3 shows schematically one embodiment of a roller for use in a hopper according to the invention.

[0007] The hopper 10 shown in the drawings is a tobacco rod maker hopper of generally conventional design. A delivery roller 12 is disposed across the inlet of the hopper. The circumferential surface of the roller 12 has spikes 14 to engage with tobacco entering the hopper. The roller 12 is mounted on a driven shaft 16 and comprises four separate roller sections 12a,b,c,d. At the bottom of the hopper two rotatable carded drums 18 (only one drum is shown) are disposed between the level of the delivery roller 12 and the carded drum 18, in a location corresponding to the desired maximum level of tobacco in the hopper, a generally horizontal row of four photo sensitive cells 20a,b,c,d is disposed. Each cell 20a,b,c,d is connected to an actuator for a respective roller section 12a,b,c,d, and each cell is at a point in the hopper wall vertically below the projection of the respective roller section onto the hopper side wall.

[0008] In use, tobacco enters the hopper 10 from above. All the delivery roller sections 12a,b,c,d rotate to distribute incoming tobacco onto the rotating carded drum 18 which forms the floor of the hopper. This situation, shown in Figure 1, obtains so long as the level of tobacco in the hopper remains below the level of all the photo sensitive cells 20a,b,c,d. Figure 2 shows a hopper 10 in which the level of tobacco 22 has risen to the desired maximum level adjacent two cells 20b,d. Activation of these cells by the tobacco causes them to send a signal which disengages the respective roller sections 12b,d, which causes less tobacco to be distributed to the regions of the hopper 10 covered by the activated photo sensitive cells 20b,d.

[0009] Once the level of tobacco has fallen below the level of the activated photo sensitive cells, the disengaged roller sections are reengaged and rotate, distributing tobacco to those regions once more. If desired, re-engagement of roller sections may be delayed for a fixed time after the respective photo sensitive cell is deactivated, allowing the level of tobacco in the region monitored by the activated cell to drop below the desired maximum.

[0010] The signal sent by a photo sensitive cell on activation can cause the respective roller section to engage the driven shaft in any of several ways. For example, the signal can cause an electromagnetic clutch within the roller section to engage the driven shaft, causing the roller section to rotate. Alternatively, the signal can cause a solenoid to move a key in one of the shaft or the roller section into a keyway in the other; the relative rotation of the driven shaft and the unengaged roller section will bring the key and keyway into opposition so that engagement takes place.

[0011] Figure 3 shows a pneumatic clutch arrangement. A delivery roller 12 comprises four roller sections 12a,b,c,d (the spikes of the roller are not shown). The driven shaft 16 on which the roller 12 is mounted has passageways 24a,b,c,d each of which opens in the circumferential wall of the shaft 16 away from the roller 12 and each of which ends in an actuator chamber 26a,b,c,d which opens in the circumferential wall of the shaft 16 adjacent a respective one of the roller sections 12a,b,c,d. Each actuator chamber 26a,b,c,d houses a friction block 28a,b,c,d which engages sealingly with the side walls of the chamber 26a,b,c,d but is free to move in the chamber toward and away from the respective roller section 12a,b,c,d. In the embodiment shown, two of the channels 24a,b open in the circumferential wall of the shaft 16 to one side of the roller 12 and two to the other side.

[0012] A source of compressed air (not shown) is connected to each of the passageways 24a,b,c,d by air supply pipes 30a,b,c,d. The supply pipes 30a,b,c,d are connected to the passageways 24a,b,c,d in such a manner that the shaft 16 can rotate without rotation of the supply pipes. The connection may be such that each supply pipe 30a,b,c,d is in constant communication with a respective passageway 24a,b,c,d throughout a revolution of the shaft 16. This can be achieved by providing a plenum block 32 circumferentially around the shaft 16 through which the air supply pipes 30a,b,c,d pass. The ends of the supply pipes adjacent the shaft each end in a respective circumferential plenum chamber 34a,b,c,d, each of which is in constant communication with the respective passageway 24a,b,c,d as the shaft rotates. Alternatively it can be that the communication is broken as the shaft rotates, the open ends of the channels being sealed during the rest of the revolution of the shaft by means not shown such as sealing blocks extending circumferentially around the shaft 16 through which the air supply pipes 30a,b,c,d pass.

[0013] In use, when no signal is received from one of the sensors 20a, indicating an acceptable level of tobacco in the part of the hopper covered by that sensor, a valve (not shown) in the respective air supply pipe 30a is open admitting air under pressure into the circumferential plenum chamber 34a in the plenum block 32 and thence into the respective passageway 24a in the rotating shaft 16 and the actuator chamber 26a at the other end of the passageway 24a. The raised air pressure in the actuator chamber 26a urges the friction block 28a in the actuator chamber 26a against the wall of the respective roller section 12a, causing it to rotate with the shaft 16.

[0014] If the sensor 20a sends a signal indicating a build up of tobacco in the part of the hopper covered by that sensor, the valve in the air supply pipe 30a closes. The air pressure in the actuation chamber 26a returns to atmospheric as air leaks out of the passageway 24a, so that the friction block 28a is no longer urged against the wall of the roller section 12a, thus disengaging that roller section from the shaft 16 so that the roller section stops rotating. It will be appreciated that the other roller sections 12b,c,d are disengaged and engaged in the same way in response to a signal or the lack of a signal from the respective sensors 20b,c,d in the hopper.

[0015] It will be appreciated that the signal from the activated cell can pass through a processing device which then sends a signal to the respective roller section. It will also be appreciated that the cell may be activated to send a signal when it is not detecting tobacco, and cease to send the signal or send a different signal when it detects tobacco.

[0016] It will be seen that the present invention provides a hopper which can control the level of its contents more precisely than is the case for conventional hoppers. This allows an even delivery of material from the hopper to be achieved. This is particularly advantageous in the case of a tobacco rod maker hopper, since it ensures an even tobacco density in the resulting tobacco rod.

Claims

1. A hopper (10) for particulate material such as tobacco comprising a delivery roller (12) disposed in the path of incoming material and a sensor (20a,b,c,d) for sensing a level of material in the hopper, characterised in that the delivery roller comprises a plurality of independently driven roller sections (12a,b,c,d) each associated with a respective sensor such that activation of the sensor causes the motion of the respective associated roller section to change.

2. A hopper according to claim 1 in which the sensors (20a,b,c,d) sense a desired maximum level of material in the hopper.

3. A hopper according to claim 1 or 2 in which the sensors (20a,b,c,d) respond to detecting material by causing the respective associated roller sections (12a,b,c,d) to rotate.

4. A hopper according to claim 1, 2 or 3 in which the roller comprises four roller sections (20a,b,c,d).

5. A hopper according to any preceding claim in which the material is delivered by the delivery roller onto the surface of a carding drum (18).

6. A hopper according to any preceding claim in which the roller sections are mounted on a common shaft (16).

7. A hopper according to claim 6 in which the roller sections are brought into and out of driving engagement with the shaft (16) in response to a signal from the sensor.

8. A hopper according to claim 6 or 7 in which a roller section is brought into and out of driving engagement with the shaft by an electromagnetic clutch.

9. A hopper according to claim 6 or 7 in which a roller section is brought into and out of driving engagement with the shaft by a solenoid operated key and keyway.

10. A hopper according to claim 6 or 7 in which a roller section is brought into and out of driving engagement with the shaft by a pneumatic clutch.

Ansprüche

1. Trichter (10) für Feststoffe wie Tabak, umfassend eine im Weg von ankommendem Material angeordnete Austragswalze (12) und einen Sensor (20a, b, c, d) zum Fühlen eines Materialstands im Trichter, dadurch gekennzeichnet, dass die Austragswalze eine Mehrzahl von unabhängig angetriebenen Walzenabschnitten (12a, b, c, d) umfasst, die jeweils mit einem betreffenden Sensor assoziiert sind, sodass die Aktivierung des Sensors eine Änderung der Bewegung des betreffenden assoziierten Walzenabschnitts verursacht.

2. Trichter nach Anspruch 1, bei dem die Sensoren (20a, b, c, d) einen gewünschten Materialhöchststand im Trichter fühlen.

3. Trichter nach Anspruch 1 oder 2, bei dem die Sensoren (20a, b, c, d) auf das Feststellen von Material reagieren, indem sie verursachen, dass sich die betreffenden assoziierten Walzenabschnitte (12a, b, c, d) drehen.

4. Trichter nach Anspruch 1, 2 oder 3, bei dem die Walze vier Walzenabschnitte (20a, b, c, d) umfasst.

5. Trichter nach einem der vorhergehenden Ansprüche, bei dem das Material von der Austragswalze auf die Oberfläche einer Kardentrommel (18) gebracht wird.

6. Trichter nach einem der vorhergehenden Ansprüche, bei dem die Walzenabschnitte auf einer gemeinsamen Welle (16) montiert sind.

7. Trichter nach Anspruch 6, bei dem die Walzenabschnitte in Reaktion auf ein Signal vom Sensor in den oder aus dem Antriebseingriff mit der Welle (16) hinein/heraus gebracht werden.

8. Trichter nach Anspruch 6 oder 7, bei dem ein Walzenabschnitt durch eine elektromagnetische Kupplung in den oder aus dem Antriebseingriff mit der Welle hinein/heraus gebracht wird.

9. Trichter nach Anspruch 6 oder 7, bei dem ein Walzenabschnitt durch einen solenoidbetätigten Keil und Keilnut in den oder aus dem Antriebseingriff mit der Welle hinein/heraus gebracht wird.

10. Trichter nach Anspruch 6 oder 7, bei dem ein Walzenabschnitt durch eine Druckluftkupplung in den oder aus dem Antriebseingriff mit der Welle hinein/heraus gebracht wird.

Revendications

1. Trémie (10) pour matière particulaire telle que du tabac comprenant un rouleau de distribution (12) disposé dans le trajet de la matière entrante et un capteur (20a, b, c, d) pour détecter un niveau de matière dans la trémie, caractérisée en ce que le rouleau de distribution comprend une pluralité de sections de rouleau entraînées indépendamment (12a, b, c, d) associées chacune à un capteur respectif si bien que l'activation du capteur entraîne un changement du mouvement de la section de rouleau associée respective.

2. Trémie selon la revendication 1, dans laquelle les capteurs (20a, b, c, d) détectent un niveau maximum désiré de matière dans la trémie.

3. Trémie selon la revendication 1 ou 2, dans laquelle les capteurs (20a, b, c, d) répondent à la détection de matière en entraînant une rotation des sections de rouleau associées respectives (12a, b, c, d).

4. Trémie selon la revendication 1, 2 ou 3, dans laquelle le rouleau comprend quatre sections de rouleau (20a, b, c, d).

5. Trémie selon l'une quelconque des revendications précédentes, dans laquelle la matière est distribuée par le rouleau de distribution sur la surface d'un tambour de cardage (18).

6. Trémie selon l'une quelconque des revendications précédentes, dans laquelle les sections de rouleau sont montées sur un arbre commun (16).

7. Trémie selon la revendication 6, dans laquelle les sections de rouleau sont engagées et désengagées de l'arbre (16) pour leur entraînement ou non en réponse à un signal provenant du capteur.

8. Trémie selon la revendication 6 ou 7, dans laquelle une section de rouleau est engagée et désengagée de l'arbre pour son entraînement ou non par un embrayage électromagnétique.

9. Trémie selon la revendication 6 ou 7, dans laquelle une section de rouleau est engagée et désengagée de l'arbre pour son entraînement ou non par une clavette et une rainure de clavette actionnées par solénoïde.

10. Trémie selon la revendication 6 ou 7, dans laquelle une section de rouleau est engagée et désengagée de l'arbre pour son entraînement ou non par un embrayage pneumatique

Drawing