Tube Filling Device and Method
Improved methods of transferring a portion of smokable material from a casing into a smokable tube include displacing the casing and the portion of smokable material into the tube by specified amounts and at least partially withdrawing the casing from the tube, while holding the portion in the tube. A device for carrying out the methods includes a tube receiving area for receiving a smokable tube to be filled, portion displacement means for displacing the portion relative to the casing, and casing displacement means for engaging and displacing the casing.
Latest JT International S.A. Patents:
The present application is a divisional of U.S. patent application Ser. No. 14/359,277 filed on May 19, 2014, which is a national stage application under 35 U.S.C. § 371 of International Application No. PCT/EP2012/073484, filed Nov. 23, 2012, published in English, which claims priority from European Patent Application No. 11190629.3, filed Nov. 24, 2011, all of which are incorporated by reference herein in their entireties.
BACKGROUND OF THE INVENTIONThe present invention relates to methods and devices for filling a cigarette tube with a pre-portioned amount of smokable material provided in a portion casing. In particular, the invention relates to methods and devices for improving the quality of a cigarette manufactured by filling a tube with a portion of tobacco from a portion casing.
As an alternative to buying pre-manufactured cigarettes, it is available to a user to buy loose hand rolling tobacco and cigarette papers in order to roll his own cigarettes by hand. As an alternative, it is possible to purchase ready-made cigarette tubes, which generally include a filter at a first end and an open second end, and loose tobacco and to fill the cigarette tubes with the tobacco, commonly known as make-your-own (MYO) cigarettes. An alternative to loose tobacco for making MYO cigarettes is to use tobacco, or other smokable material, which is pre-portioned in tubes or casings, which are not intended for smoking, and which may not be suitable for smoking. The casing generally holds a portion of tobacco for a single cigarette and the portion is of a diameter small enough to fit in a paper cigarette tube. This tobacco portion can then be transferred manually by a user from the portion casing to the cigarette tube.
The drawbacks associated with known tobacco rod transferring devices are that, due to friction forces between the portion and its casing, or between the portion and the paper of the paper tube to which it is being transferred, a sub-optimal distribution of tobacco can be found in the resulting cigarette. The friction forces can mean that the tobacco that is driven furthest into the cigarette tube, at a distal or filter end of the tobacco portion, is rarefied in comparison to that which travels less distance into the cigarette tube. Further, the end of the tobacco portion which is driven against to displace the portion into the tube can be over-compressed, as it is subject to the resistance of friction forces from the whole length of the tobacco portion. This can result in an uneven density of tobacco in the resulting manufactured cigarette, which can detract from the user experience, since the quality of the cigarette can vary within the length of a cigarette itself, and also between sequentially manufactured cigarettes.
BRIEF SUMMARY OF THE INVENTIONIn seeking to address the drawbacks of prior art systems and devices, the present invention provides a method of transferring a portion of smokable material from a casing into a smokable tube, the method comprising:
advancing at least one of the casing and the portion of smokable material toward the other to advance the casing and the portion into the tube by a first distance less than the length of the space within the tube;
at least partially withdrawing the casing from the tube, while holding the portion in the tube; and
further driving the tobacco portion into the tube.
The method of the present invention provides a more even distribution of smokable material in the finished smokable article and thus improves its impression of quality and the experience of the user. Advancing at least one of the portion and the tube toward the other can comprise maintaining either one in a fixed position and moving the other, or moving both toward one another simultaneously.
The method may alternatively comprise:
advancing at least one of the casing and the portion of smokable material toward the other to advance the casing and the portion into the tube and to drive a distal end of the portion to a closed end of the tube;
at least partially withdrawing the casing from the tube, while holding the portion in the tube; and
further driving the tobacco portion toward the tube to remove the cigarette tube from the casing.
The partial withdrawal of the casing can allow the open end of the tube and the portion to be supported and protected during any later steps in the process before the finished cigarette is released for use by a user, resulting in a more consistent and attractive end product.
The step of displacing the casing and the portion of smokable material into the smokable tube by a first distance may leave a gap between the portion and a closed end of the tube. This allows the portion to be transferred into the tube in multiple steps which can result in a more even distribution of smokable material in the tube. The first distance may be less than a longitudinal length of the portion to allow further multiple steps of insertion.
The first distance may be less than:
around nine tenths of the length of the portion; or
around four fifths of the length of the portion; or
around three-quarters of the length of the portion; or
around half of the length of the portion; or
around a quarter of the length of the portion; or
around 10% of the length of the portion; or between any of the above ranges. Depending upon the density, friction and other properties of the tube, casing and smokable material, different degrees of insertion of the portion in the initial steps and extraction of the casing in subsequent steps can be advantageous to obtain the most suitable final distribution of smokable material in the tube.
Displacing the portion within the casing may be carried out by a portion driving member of a cigarette tube filling device. The casing may be engaged by a cigarette tube filling device to displace the casing. Using a device to carry out these steps can improve the consistency over a purely manual process.
The casing may comprise an adaptor arranged to be engaged by a cigarette tube filling device. Alternatively, cigarette tube filling device may be arranged to grip the casing directly. This enables the use of a device for the method to improve distribution of smokable material and consistency of the end product.
The device may comprise movable casing engagement means for engaging the casing such that the machine can displace the casing in a longitudinal manner. The casing engagement means may comprise clamping means.
Tube end adapter means may be provided at the open end of the smokable tube. These means can help to guide the portion into the tube and may also protect the end of the tube from damage from the portion or its casing as each enters the tube
The tube end adapter may comprise flexible members, or a substantially frustro-conical member, or a plurality of converging members having first ends located outside the tube and at a larger diameter than the tube and second ends at or within the tube end.
The method may further comprise displacing the portion and the smokable tube by driving an end of the portion. This allows both parts of the product to be displaced by action of a single member.
The portion and the smokable tube may be displaced until the tube abuts an end stop. This helps to compress the smokable material more evenly throughout the tube in the end product.
The portion and the smokable tube may be displaced by driving against an end of the portion until the smokable tube is removed from an outer side of the casing. This combines removal of the tube from the casing with more even distribution of the smokable material to efficiently provide an end product with improved distribution of material in the tube.
The smokable tube may be held in place by a tube retaining part of a machine during withdrawal of the casing. The tube retaining part may comprise a tube retaining mechanism, which may be arranged to clamp the tube.
Once the portion is transferred into the tube, the casing may be partially withdrawn, such that a first part of the portion in the tube is not in the casing, a second part of the portion in the tube remains in the casing and a part of the tube covers an end part of the casing. This allows the casing to support at least the tube and optionally the end of the portion during the transfer process to result in an improved end product.
The portion may be driven against a closed end of the tube to remove the tube from the casing, resulting in improved distribution of smokable material in the tube.
The length of the portion prior to transfer to the cigarette tube may be greater than the length of the void within the cigarette tube. This allows for compression of the portion within the tube during the process so that the smokable material can be compressed to a desired length and consistency and evenness of distribution of the smokable material can be improved. The length of the portion may alternatively be the same length as the length of the void within the tube, or shorter than the length of the void in the tube to help to ensure that no smokable material protrudes from the end of the tube after the transfer process is complete.
The method may further comprise measuring a length of the smokable tube and calculating an optimal end position to which the end of the portion should be driven.
The method may further comprise:
after at least partially withdrawing the casing from the smokable tube while holding the portion in the tube, further driving both the casing and the portion toward the cigarette tube. This can aid in providing an improved distribution of smokable material in the tube.
The method may further comprise the step of:
withdrawing the casing from the cigarette tube after the step of further driving the casing and the portion toward the cigarette tube.
The portion may be held in a substantially fixed position relative to the tube while the casing is withdrawn.
The step of at least partially withdrawing the casing relative to the tube may comprises:
withdrawing the casing by a distance of up to around 30% of the length of the tube; or
withdrawing the casing by a distance of between around 3% to around 30% of the length of the tube; or
withdrawing the casing by a distance of between around 10% and 30% of the length of the tube; or
withdrawing the casing by a distance of between around 10% and 25% of the length of the tube; or
withdrawing the casing by a distance of between around 3% and 10% or 25% of the length of the tube. Use of these ranges can improve the distribution of smokable material in the tube for different types and densities of material in the tube.
The method may further comprise the step of driving the second transfer member against the end of the tobacco portion in the filled cigarette tube to finish the cigarette end.
The casing may be a separate part of a consumable comprising the smokable portion and the casing. This allows the casing to be provided to a user for use in a re-usable device.
A cigarette tube filling device may be arranged to carry out the methods described herein.
A tube filling device for transferring a portion of smokable material from a casing to a smokable tube is further provided, comprising:
a tube receiving portion for receiving a smokable tube to be filled;
portion displacement means for displacing the portion relative to the casing; and
casing displacement means for engaging and displacing the casing.
The casing displacement means and the portion displacement means may be movable relative to one another. This allows the device to control, at least to some degree, relative movement of the casing and portion to result in a more consistent process.
The casing displacement means may be movable relative to the tube receiving area to allow the casing to be moved into the tube in a controlled manner.
The casing displacement means and the portion displacement means may be movable relative to one another and relative to the tube receiving portion to allow independent and/or combined movement of the two displacement means relative to the tube.
The casing displacement means may comprise casing engagement means to allow the casing to be engaged.
The casing engagement means may comprise clamping means.
The tube receiving area may comprise tube engagement means for engaging the tube to hold it in place during the portion transfer process.
The tube engagement means may comprise clamping means and/or an end stop.
The casing displacement means may be driven by a first drive mechanism and the portion displacement means may be driven by a second drive mechanism, such that each may be driven independently of the other. This can allow the two displacement means to be driven in accordance with methods of the present invention to result in improved end products as described above.
The portion displacement means may be arranged to actuate a casing engagement means of the casing displacement means. This allows the casing engagement means to be actuated without the need for further drive mechanisms or actuators.
With such an adapter in place, it is possible to use the adapter to place the portion 12 of smokable material inside a pre-formed cigarette tube, along with casing 11. By placing a portion driving element inside adapter 13 when casing 11 is withdrawn in a direction of arrow 14 in
Known methods of carrying out the above described process for transferring a tobacco portion 12 into a cigarette tube are relatively simple, in that the portion 12 is inserted to its full extent to the distal end of a cigarette tube, and the casing 11 is withdrawn in a simple single step. Such simple processes can have numerous drawbacks. In particular, due to friction forces between the portion 12 and its casing 11, or between the portion 12 and the paper of the paper tube to which it is being transferred, distribution of the tobacco or other smokable material in the resulting cigarette can be uneven. The density of the resulting cigarette or other smokable product can vary along its length and this can lead to a sub-optimal and varied experience for the consumer as the resulting smokable item is smoked. The smokable material can be over-compressed at a first end, the first end being the end where pressure is applied by the driving member by pushing the smokable material or by simply holding it in place against friction forces as the casing 11 is withdrawn. The smokable material at the distal end of the portion, adjacent to the filter of the cigarette tube where the filter is present, can therefore be relatively rarefied compared to the end where pressure is applied. Certain distributions of tobacco within the tube may be preferred, for example in factory made cigarettes available to consumers, the tobacco within the cigarette may be more densely packed at one end to aid end-fortification of the cigarette and to prevent tobacco from falling from the cigarette during transport or use.
The methods described herein seek to address the drawbacks of such methods.
In
In
As is shown in
In a further step, which is not illustrated, the portion driving member 230 can be advanced further in the direction of arrow 26, which step can have two functions. Firstly, it can act to drive cigarette tube 202 away from tube retaining means 240 and can further drive the distal end 201, adjacent optional filter 201 of the filled cigarette against an end stop 241. This additional driving step against end stop 241 can result in a more even distribution of smokeable material 12 within the cigarette, since an opposing force at end stop 241 is created in the direction of arrow 27 and, since this force is substantially equal to the force applied by portion driving member 230, the compression of smokable material adjacent to filter 201 is substantially the same as at the end adjacent portion driving member 230 and throughout the portion 12, resulting in a more evenly distributed smokable material 12 within the finished cigarette, which results in a higher quality product, greater consistency between subsequent products made and an improved user experience.
In
In the step illustrated in
The use of the partial insertion step before driving portion 12 further into cigarette tube 202 allows the degree of travel required by casing engagement means 220 to be reduced, while reducing any potential friction forces in the initial stages of the insertion stages between portion 12 and the tube 202, and can speed up the overall process, while providing a more evenly distributed cigarette as compared to previously known processes. Use of only partial insertion of the casing into the cigarette tube also helps to avoid any damage to the paper tube by collision with the adapter 13 of the casing 11. Further, the partial insertion of the casing allows the casing to be gripped along its length rather than by an adapter extending from an end of the casing and so this can remove the need for an adaptor 13 altogether if so desired, reducing costs associated with the adapter and can reduce the dimensions required for a machine to manipulate the casing due to its shorter overall length. The casing 11 is not completely extracted in
In
In the final step, illustrated in
After the final compression step of
The portion 12 of smokable material may be chosen such that it is longer than the ultimate desired length of the finished cigarette, so that a degree of compression of the portion 12 by portion driving member 230 is always possible and this helps to ensure that the finished cigarette is never shorter than the desired length. If the portion 12 is longer than desired, then the compression of the portion 12 between end stop 241 and portion driving member 230 corrects the length to the final desired length of the finished cigarette.
A further alternative process can be envisaged where, prior to any of the insertion steps, a length of the cigarette tube 202 is measured. In a following step, the casing 11 and portion 12 are partially inserted into the cigarette tube 202 as illustrated in
Tubes 20 and portions 10 may be supported in longitudinal channels in their respective receiving areas 41 and 42. An end stop may be located at a distal end 410 of the tube receiving area 41 to prevent the tube from moving longitudinally away from the casing during the portion transfer process beyond a certain point at which the end stop is located. The tubes 20 and portions 10 may be placed in their respective receiving areas manually by a user or moved there by a suitable mechanised arrangement, not shown in the Figures.
Casing engagement means 50 comprises a first member 51 which is arranged to pass to a first side of the adapter 13 of casing 11. In the case where the adapter is a tube, the first member 51 passes to the inside of the adapter tube 13. As can be seen in the figure, the first member 51 is connected to the support 501 which guides movement of the portion driving member 230. A second member 52 is arranged to engage the opposite side of the adapter 13 to the first member 51. In this way, when adapter 13 is placed between the first and second members 51 and 52 then the adapter can be clamped by those two members when they are moved towards one another. The first member 51 and second member 52 may be moved towards and away from one another by various actuating means, such as solenoids, piezoelectric device, screw threads and the like. In the example illustrated, the second member 52 is biased towards the first member 51 by biasing means 53, which may be any resilient member and in the illustrated embodiment is a coil spring. Movement of the second member towards and away from the first member is governed in the illustrated embodiment by a profiled section 232. The profiled section 232 comprises a part in which the side of portion driving member 230 transitions between first and second positions relative to the first member 51 of the casing engagement means 50. A follower member 54 is biased against the portion driving member 230, such that as the portion driving member is driven back and forth in a longitudinal direction, the follower member 54 follows the profile of an outside of the portion driving member 230. Since the second member 52 is connected with the follower member 54, when the follower member 54 advances towards member 51, as it reaches the appropriate part of the profiled section 232 of the portion driving member 230, and the second member 52 advances towards first member 51 to clamp the adapter 13.
Further alternative arrangements of casing engagement means can be envisaged, which include an expandable ring member which has a plurality of sections, the sections being displaceable radially relative to one another to exert outward radial forces on the inner side of the casing adapter 13. Alternative engagement or clamping forces may be created by members creating a radially inward force on the outer side of the adapter, or of the casing itself to engage the casing. These arrangements can avoid the need for clamping members to be placed both inside and outside the adaptor radius.
The portion driving member 230 therefore has a first part having a first lateral dimension for moving the casing engagement means to an open position and a second part having a second lateral dimension for allowing the casing engagement means to be moved into a clamped position on the adapter 13. A transition part may be provided between the first and second parts of the member 230. The device of the present invention may be therefore be configured so that relative motion of the portion driving member 230 relative to the casing engagement means 50 actuates a casing engagement mechanism (51, 52, 53, 54) of the casing engagement means.
Since the portion driving member 230 and the casing engagement means 50 have been advanced by the same amount, their relative positions are maintained and the casing engagement means 50 is in an open position. First member 51 and second member 52 have not yet been advanced towards one another.
As can be seen in
As can be seen in
In
It will be apparent that the apparatus described above can therefore be used to implement any of the tube filling methods described herein for transfer of a portion of smokable material 12 from a casing 11 to a cigarette tube 20. The different degrees of insertion of the portion 12 and casing 11 can be implemented by adapting the motion of the casing engagement means 50 and portion driving member transport means 231 accordingly via appropriate drive mechanisms and associated control systems. This motion could also be either partially or completely implemented by manual input to the respective transport means for the casing engagement means 50 and portion driving member 230.
Claims
1. A tube filling device for transferring a portion of smokable material from a casing to a smokable tube comprising:
- a tube receiving area for receiving a smokable tube to be filled;
- portion displacement means for displacing the portion relative to the casing; and
- casing displacement means for engaging and displacing the casing.
2. The device according to claim 1, wherein the casing displacement means and the portion displacement means are movable relative to one another.
3. The device according to claim 1, wherein the casing displacement means are movable relative to the tube receiving area.
4. The device according to claim 1, wherein the casing displacement means and the portion displacement means are movable relative to one another and relative to the tube receiving area.
5. The device according to claim 1, wherein the casing displacement means comprises casing engagement means.
6. The device according to claim 5, wherein the casing engagement means comprises clamping means.
7. The device according to claim 1, wherein the tube receiving area comprises tube engagement means for engaging the tube.
8. The device according to claim 7, wherein the tube engagement means comprises clamping means and/or an end stop.
9. The device according to claim 1, wherein the casing displacement means is driven by a first drive mechanism and the portion displacement means is driven by a second drive mechanism, such that the casing displacement means and the portion displacement means are configured to be driven independently of the other.
10. The device according to claim 1, wherein the portion displacement means is arranged to actuate casing engagement means of the casing displacement means.
11. A tube filling device for transferring a portion of smokable material from a casing to a smokable tube comprising:
- a tube receiving area for receiving a smokable tube to be filled;
- a shaft for displacing the portion relative to the casing; and
- a casing displacement clamp having first and second members for engaging and displacing the casing.
12. The device according to claim 11, wherein the casing displacement clamp and the shaft are movable relative to one another.
13. The device according to claim 11, wherein the casing displacement clamp is movable relative to the tube receiving area.
14. The device according to claim 11, wherein the casing displacement clamp and the shaft are movable relative to one another and relative to the tube receiving area.
15. The device according to claim 11, wherein the first member is configured to pass inside the casing or an adaptor connected to the casing, and the second member is configured to engage an outside of the casing or the adaptor connected to the casing.
16. The device according to claim 15, wherein the first member and the second member are configured to be moved towards and away from one another.
17. The device according to claim 16, wherein the second member is biased towards the first member by a spring.
18. The device according to claim 16, wherein the shaft has a first part having a first lateral dimension, a second part having a second lateral dimension smaller than the first lateral dimension, and a transition part therebetween, and wherein the second member has a follower member biased against the shaft such that movement of the shaft along its axis causes the second member to move toward and away from the shaft and the first member.
19. The device according to claim 11, wherein the tube receiving area comprises a clamp and/or an end stop.
20. The device according to claim 11, wherein the casing displacement clamp is driven by a first drive mechanism and the shaft is driven by a second drive mechanism, such that the casing displacement clamp and the shaft are configured to be driven independently of the other.
Type: Application
Filed: Apr 21, 2021
Publication Date: Aug 5, 2021
Applicant: JT International S.A. (Geneva)
Inventors: Christian Kissling (Olten), Peter Preisig (Herisau), Stephen Meyer (Oberengstringen)
Application Number: 17/236,552