EP1725125A1

EP1725125A1 - Device for producing cigarettes

Info

Publication number: EP1725125A1
Application number: EP05716169A
Authority: EP
Inventors: Thomas Jessen; Steffen Pohl
Original assignee: Focke and Co GmbH and Co KG
Current assignee: Koerber Technologies GmbH
Priority date: 2004-03-19
Filing date: 2005-03-17
Publication date: 2006-11-29
Anticipated expiration: 2025-03-17
Also published as: DE502005010799D1; WO2005089574A1; CN1933742B; EP1725125B1; PL1725125T3; DE102004013972A1; CN1933742A

Abstract

The invention relates to the production of cigarettes, during which tobacco lengths (10) are successively separated from a continuously driven tobacco strand (11) by means of a blade organ (15) that comprises blades (17). The tobacco strand (11) is held by cutting tubes (18) in the vicinity of the separation cut. Several cutting tubes are fed to the tobacco strand (11) by a rotatable gear mechanism (21). The cutting tubes (18) can be displaced by a planetary gear drive (29). In addition, all the cutting tubes (18) can be adjusted together to modify the rotational speed.

Description

Device for producing cigarettes

description

The invention relates to a device for producing cigarettes or the like by separating a continuously transported tobacco rod with a rotating knife, wherein in the region of the separation of the tobacco rod by a cross-section in particular U-shaped support member - cutting tube - is at least partially included and the support member through a revolving gear is movable along a circular path.

In the manufacture of cigarettes tobacco rods are usually separated for each two cigarettes from a continuously supplied at high speed tobacco rod. For this purpose, a rotating knife is used. In the region of the separating cut, the cigarette rod is supported by a support member which at least partially surrounds it, namely by a so-called cutting tube, in order to ensure a clean separating cut.

A device is known in which a single cutting tube is moved by a planetary gear. The cutting tube is guided in the cycle of the separating cut against the underside of the cigarette rod, while the knife passes through the cigarette rod. This device is further adapted to adapt the movement of the cutting tube to different cigarette lengths by changing the conveying speed of the cutting tube at a constant speed of the tobacco rod (DE 2 505 516). The transmission in this prior art is complex and unsatisfactory especially in terms of adaptability to different speeds of the tobacco rod. The invention is based on the object to provide a device for producing cigarettes or a cutting unit for tobacco sticks, in which or in which the support member for the tobacco rod, so the Schneidtube, with greater precision and with precisely adjustable speed even at high cycle rates the tobacco rod can be fed.

To solve this problem, the device according to the invention by the following

Characteristics marked:

a) several support members - cutting tubes - are arranged in a balanced relative position on a common, rotating carrier of the transmission,

b) the support members or cutting tubes are mutually adjustable with respect to the relative position on the carrier, in particular for changing the size - radius - a circular path of movement.

A first special feature of the device according to the invention is that several, in particular three support members or cutting tubes are assigned to a common knife assembly with rotating knives. The cutting tubes are successively moved to the support positions on the tobacco rod. The conveying speed of the cutting tubes is thereby relatively reduced.

The cutting tubes are connected via holders, in particular support rods, with a common rotary gear, which is centrally adjustable with effect for all cutting tubes to adapt to the respective length of the tobacco rods to be produced. According to the invention, the preferably three cutting tubes are moved by a planetary gear with a fixed, central sun gear to rotate around each holder or cutting tube associated planetary gears. The planet gears are mutually adjustable with respect to the relative position of the sun gear, such that the rotational speed can be changed for all cutting tubes with a single adjustment.

The transmission according to the invention as a unit relative to the knife assembly or tobacco rod by up and down movement via a (manual) actuating mechanism displaceable in order to adapt the gear or a cutting tube unit at different circular movement paths to the predetermined conveying plane of the tobacco rod.

Further details about the structure and operation of the device will be explained in more detail with reference to the drawings. It shows:

1 is a plan view according to arrow II in Fig. 1, Fig. 3 shows a detail of the device, namely a cutting tube unit, in transverse view, partially in 4 shows the transmission for the movement of the cutting tubes in vertical section corresponding to sectional plane IV-IV in Fig. 1, Fig. 5 shows a detail of the transmission in the vertical sectional plane VV in Fig. 4,

Fig. 6, the gear unit of FIG. 5 with changed Relativste !! ung,

7 shows a detail of the transmission in the vertical sectional plane VII-VII of FIG. 4, FIG. 8 shows a representation of the transmission in an offset sectional plane V1-VIII in FIG. 4,

Fig. 9, the cutting unit with cutting tubes in side view. Cigarettes are made from tobacco sticks 10, that is, from double-length sections of a tobacco rod 11. This is fed continuously and at a constant speed from a distributor (not shown). The tobacco sticks 10 are separated by a cutting unit 12 and then transferred to an intermediate conveyor, namely a spider 13, the receptacles 14 for each a tobacco stick 10 has.

The cutting unit 12 is formed in a special way. Below the conveying plane of the tobacco rod 10, a blade member 15 is arranged, which consists of a rotating blade carrier 16 and individual, arranged on the circumference of the drum-like blade carrier 16 knives 17. The knife

17 are shaped and arranged to perform a transverse separating cut through the tobacco rod 11 during the conveying movement thereof. This is made possible in particular by an inclined position of the knife carrier 16.

In order to carry out a precise, error-free separating cut, the tobacco rod 11 is guided on the (upper) side opposite to the knife 17 by a supporting member during the separating cut. This is a cutting tube 18. This is designed so that an enclosure of the tobacco rod 11 is carried from above and the tobacco rod 11 is also guided laterally during the separating cut. In the present embodiment, the cutting tube is

18 in cross-section U-shaped with two extending to both sides of the tobacco rod 11 legs. The cutting tube 18 has a transverse gap 19 for the passage of the blade 17 during the separation cut.

The cutting tubes 18 are part of a cutting tube unit 20, which is arranged substantially above the plane of movement of the tobacco rod 11. Part of the cutting tube unit 20 is a gear 21, which performs the controlled movement of several cutting tubes 18. In the present embodiment is taken the most favorable solution, namely with three at equal angular intervals from each other arranged cutting tubes 18. These are successively moved along a circular path of movement 22 and thereby lowered in a lower position on the tobacco rod 11. The cutting tubes 18 are moved along the circular path of movement 22 without changing the relative position, that is translationally.

The three cutting tubes 18 are mounted on a common, upright, circular support which is rotationally driven. It is a gear housing 23 which is rotatable in an upright plane on a fixed main axis 24. This is connected to a part of a machine frame, namely a holding piece 25. The cutting tube unit 20 or the gear housing 23 is driven by an endless drive, namely by a toothed belt 26, continuously rotating. In the illustration in Fig. 1, the cutting tubes 18 and the gear housing 23 are moved in a clockwise direction.

The cutting tubes 18 are each arranged on a holder which leads into the gear 21 and is rotatable relative to the gear housing 23. These are elongate, horizontal support rods 27, which cause a greater distance of the cutting tubes 18 from the gear housing 23 due to the length. At the free ends of the support rods 27, the cutting tubes 18 are mounted with a transverse pivot arm 28. This is non-rotatably mounted on the end of the support rod 27.

The support rods 27 are rotatable by a common transmission, namely a planetary gear 29. Each support rod 27 is centrally connected to a planetary gear 30. The equidistantly spaced planetary gears 30 run on a circular path 31 due to the rotary drive of the gear housing 23. The planetary gears 30 revolve around a centrally located, central sun gear 32. This is stationary and arranged with the main axis 24 connected. The gears formed as gears 30 are not directly with the sun gear 32 also formed as a gear, but via an intermediate 33. This is on the one hand with the sun gear 32 and on the other hand with the associated planet gear 30 in engagement. Intermediate gear 33 and planetary gear 30 are connected to each other, such that each wheel is freely rotatable at an unchangeable distance from each other. These are each provided at the ends with an annular connecting piece 35, 36, which on the one hand comprises a rotation axis 37 for the intermediate gear 33 and on the other hand connected to the planet gear 30 support rod 27. The tabs 34 allow a change in the relative position of the planetary gears 30 relative to the sun gear 32, such that the distance of the planetary gears 30 from the sun gear 32 changes. Accordingly, the planet gears 30 can rotate on circular paths 31 of different diameters (FIGS. 5, 6). The different circular paths 31 correspond to different rotational speeds of the cutting tubes 18 corresponding to the length of the cigarettes or tobacco sticks 10 to be produced.

The intermediate wheels 33 are held in a fixed, predetermined relative position to the sun gear 32, with equal angular distances from each other. For this purpose, a support piece 38, which is designed star-like in view. At the ends of support arms are the axes of rotation 37 for the intermediate wheels 33. In a central cavity 39 is the sun gear 32. The support piece 38 is rotatably mounted on the main axis 24. ,

A special feature is the central adjustability of the transmission 21, such that the change in the rotational speed or the circular path 31 is performed by a common actuator with effect for all cutting tubes 18. For this purpose, a (mechanical) actuating gear is integrated in the planetary gear 29. The adjustability is effected by the fact that the connecting member between the planetary gear 30 and idler 33, so the tab 34, in terms of Angular position to a (imaginary) radial plane is changeable. Fig. 6 shows the maximum size of the circular path 31 with alignment of the tabs 34 in the radial direction. Fig. 5 shows a smaller circular path 31 with inclined position of the tabs 34 with respect to the imaginary radial plane.

Thus, the respective position of the planetary gear 30 remains stable despite pivotable tab 34, each planetary gear 30 is associated with a guide that ensures the rotation of the planetary gear 30 about its own axis and along the circular path 31 while maintaining the relative position. To this guide includes a guide piece 40 within the gear housing 23. The trained here as a circular disc guide piece 40 is displaceable in a predetermined guide. This is a radially directed guide groove 41 in a rear wall 42 of the gear housing 23. The each planetary gear 30 associated with guide grooves 41 are directed radially. A projection or pin 43 of the guide piece 40 enters slidably and rotatably in the guide groove 41 a.

The planet gear 30 is rotatably connected to the guide piece 40 and supported on this. For this purpose, a rotating piece 44 is arranged centrally on the side opposite to the support rod 27 side of the planetary gear 30. This enters a recess 45 of the guide piece 40 a. The rotating piece 44 is rotatable in this recess 45 while maintaining the guiding action. The recess 45 is arranged eccentrically in the guide piece 40.

The actuating gear includes a (circular) bearing piece 46 for each planetary gear 30. Each guide piece 40 is connected to a bearing piece 46, rotatable together, connected, namely a central connecting pin 47. The bearing pieces 46 also serve to guide and support the elongated support rods 27th These occur off-center, namely offset from the connecting pin 47, in the region of a bearing bore 48 through the associated Bearing 46 through. Due to larger axial dimension, the support rod 27 is guided with sufficient length. The bearing pieces 46 come out of the gear housing 23 with a partial region, namely in the region of a front wall 49.

The bearing pieces 46 are (jointly) rotatable about their own axis-connecting pin 47-. This results in a corresponding rotation and radial displacement of the guide pieces 40. This in turn causes a corresponding adjustment or pivotal movement of the planet gears 30 and the tabs 34th

The bearing pieces 46 and thus the planet gears 30 are simultaneously adjustable by a corresponding actuator. For this purpose, a central adjusting wheel 50 is provided, which is rotatably mounted on the front side in the gear housing 23 and protrudes with an actuating end 51 of the front wall 49. The coaxially arranged to the sun gear 32 thumb wheel 50 is formed as a gear and is in engagement with the bearing pieces 46 and with a ring gear 52 on the bearing piece 46 (inside the gear housing 23). By pressing, namely turning the thumbwheel 50 with a to be applied to the operating end 51 tool (square) is carried out a corresponding rotation of the bearing pieces 46 in the same direction of rotation. This results in a radially directed displacement of the guide pieces 40 with a corresponding movement of the pins 43 in the guide grooves 41. This causes a corresponding adjustment of the planet gears 30, for example, from the position shown in FIG. 5 in the FIG. 6 or vice versa.

The described transmission (planetary gear 29) causes an exact movement of the cutting tubes 18 at different speeds. The arrangement is such that the bent pivot arms 28 are each directed transversely, namely approximately horizontally. This position is maintained during the complete rotational movement, so that a translatory movement is given. The transmission housing 23 is divided. A front part 53 is displaceable relative to a rear part 54 in the circumferential direction. For this purpose, connecting members, namely connecting screws 55 are arranged in segment-shaped oblong holes 56 of the front part 53. To adjust the front part 53, the connecting screws 55 are released.

The cutting tube unit 20 is a total up and moved away, with a screw jack 57. This consists in the present embodiment of a spindle drive with (upright) spindle 58 and spindle nut 59. The spindle 58 is rotatable by a handwheel 60 with handle. To fix the (exact) height position of the gear 21 is a hand-operated clamping lever 61. The unit is held for the up and down movement in an upright guide. The holding piece 25 is formed substantially plate-shaped and mounted on two sides with a dovetail-like guide 62 on a support frame 63.

The (relative) mobility of the front part 53 of the gear housing 23 and the adjustability of the cutting tube unit 20 depend on the height together with the variability of the trajectories 22 of the cutting tubes 18. To adapt to the length of the tobacco sticks 10 are larger or smaller trajectories 22 adjustable ( Fig. 9). However, it must be ensured that the cutting tubes 18, regardless of the movement path 22 in the lower position in each case comprise the tobacco rod 11 supporting. This is ensured by the adjustability of the transmission 21 in terms of height.

The adjustability of the planet gears 30 (Fig. 5, Fig. 6) requires a

Circumferential movement of the front part 53 of the transmission housing 23. Before the

Adjustment by means of the adjusting wheel 50, the connecting screws 55 are thus solved so that the front part 53 is rotatable within the limits of the slots 56. In Fig. 5 and Fig. 6, the different positions of the connecting screws 55 are indicated within the slots 56.

LIST OF REFERENCE NUMBERS

10 tobacco sticks 38 supporting piece

11 tobacco rod 39 cavity

12 cutting unit 40 guide piece

13 spider 41 guide groove

14 Recording 42 Rear wall

15 knife member 43 pin

16 knife carrier 44 turning piece

17 knives 45 recess

18 cutting tube 46 bearing piece

19 gap 47 connecting bolts

20 cutting tube unit 48 bearing bore

21 Transmission 49 Front wall

22 movement path 50 setting wheel

23 gear housing 51 actuation end

24 main axis 52 sprocket

25 holding piece 53 front part

26 Timing belt 54 Rear part

27 Support rod 55 Connecting screw

28 Swivel arm 56 slot

29 planetary gear 57 Hubgetriebe

30 planet gear 58 spindle

31 circular path 59 spindle nut

32 sun gear 60 handwheel

33 intermediate gear 61 clamping lever

34 tab 62 guide

35 connector 63 support frame

36 connecting piece 37 axis of rotation

Claims

claims

1. A device for producing cigarettes while separating tobacco sticks (10) from a continuously transported tobacco rod (11) with a rotating knife (17), wherein in the region of the cut through the tobacco rod (11) by a cross-section in particular U-shaped support member - Cutting tube (18) - is at least partially included and the support member or the cutting tube (18) by a rotating gear (21) along a circular movement path (22) is conveyed, characterized by the following features:

a) several support members - cutting tubes (18) - are arranged in a balanced relative position on a common, rotating carrier of the transmission (21), b) the support members or cutting tubes (18) are mutually adjustable relative to the relative position on the carrier, in particular for changing the Size of the trajectory (22).

2. Apparatus according to claim 1, characterized in that the preferably three cutting tubes (18) arranged on a preferably continuously rotating gear housing (23) and within the gear housing (23) the gear (21) for generating a movement of the cutting tubes along the path of movement ( 22) is arranged.

3. Apparatus according to claim 1 or 2, characterized in that the cutting tubes (18) by a planetary gear (29) are movable, each cutting tube (18) via a connecting member, in particular a support rod (27), with a planet gear (30). is connected and the planet gears (30) rotate around a common, central, fixed sun gear (32).

4. Apparatus according to claim 3 or one of the further claims, characterized in that the planetary gears (30) in each case with an intermediate gear (33) and this with the sun gear (32) is engaged, said planet gear (30) and intermediate wheel (33) connected to each other, in particular by a tab (34).

5. Apparatus according to claim 3 or one of the further claims, characterized in that the planet gears (30) with respect to the relative position to the sun gear (32) are adjustable together, such that the distance between the planetary gear (30) and sun gear (32) is variable for changing the size of an orbit, namely circular path (31) of the planet gears (30).

6. Apparatus according to claim 5 or one of the further claims, characterized in that the planet wheels (30) actuated by an externally

Adjusting wheel (50) are adjustable, wherein the adjusting wheel (50) with each planetary gear (30) associated with actuators is engaged.

7. The device according to claim 5 or one of the further claims, characterized in that each planetary gear (30) is associated with a first actuator, namely a bearing piece (46) and a second actuator or guide member, namely a guide piece (40), which within the transmission housing (23) is adjustable in vorgebner trajectory, wherein the bearing piece (46) with the guide piece (40) is centrally connected, in particular via a connecting pin (47).

8. The device according to claim 7 or one of the further claims, characterized in that each planetary gear (30) is rotatably connected to the guide piece (40), in particular with a in a recess (45) of the guide piece (40) entering the rotating piece (44) ,

9. Apparatus according to claim 7 or one of the further claims, characterized in that each guide piece (40) is displaceably mounted with a staggered pin (43) in a guide groove (41), in particular in a radially directed in a rear wall (42). the transmission housing (23) arranged guide groove (41).

10. The device according to claim 1 or one of the further claims, characterized in that the cutting tubes (18) having Schneidtuben- unit (20) and the transmission housing (23) up and is movable up, in particular by a power transmission (57), for adapting the relative position of the cutting tube unit (20) to the respective relative position of the cutting tubes (18), such that they occupy the supporting position on the tobacco rod (11) during the circulating movement along the movement path (22) in the lower position.

11. The device according to claim 1 or one of the further claims, characterized in that a supporting part of the transmission housing (23), in particular a front part (53), relative to the remaining part of the transmission housing (23), namely relative to the rear part (54) rotatable is, in particular during an adjustment of the planetary gears (30) by the adjusting wheel (50), wherein the front part (53) and rear part (54) are preferably interconnected by axially parallel connecting screws (55) in slots (56) of the front part (53 ) are arranged.