Not applicable.
Not applicable.
The specification relates generally to production of smoking articles, and more specifically, to apparatuses and methods for filling cones in production of conical smoking articles.
Int. Pub. No. WO 2017/172844 A1 discloses an apparatus including a holder plate and a carriage assembly. The holder plate includes a plurality of through-holes configured to receive containers having an interior cavity. The carriage assembly comprises one or more carriage plates and tamper rods, the carriage plates having a plurality of through-holes. Each of the tamper rods can be slidably disposed in a respective one of the plurality of through-holes of the carriage plate. Each of the tamper rods can be independently weighted to provide a force independent of the other of the tamper rods and can be independently movable relative to the other of the tamper rods. The carriage assembly can be configured to be aligned with the holder plate such that the each of the tamper rods provides a compressive force to a filler material within the interior cavity of each of the containers.
U.S. Pat. App. Pub. No. 2016/0120212 A1 discloses a tube filling apparatus. The apparatus includes a base and a filling assembly mountable on the base. The filling assembly has a number of tube receiving recesses wherein tubes may, in use, be received. The apparatus further includes a vibration plate which is locatable between the base and the filling assembly. In use, the tubes rest on the vibration plate when they are located in the recesses. The apparatus also includes vibrating means which is connected to the vibration plate for, in use, vibrating the vibration plate, which is capable of moving independently from the filling assembly.
The following summary is intended to introduce the reader to various aspects of the applicant's teaching, but not to define any invention.
According to some aspects, a cone filling apparatus for production of smoking articles includes: (a) a cone pallet including a plurality of cavities, each cavity for holding a respective cone; (b) a delivery chute having a load end for receiving a smokeable product from a source and an unload end downstream of the load end for unloading the smokeable product from the chute; and (c) a dosing tray disposed above the pallet. The dosing tray includes a plurality of transfer sleeves. Each sleeve has an upper sleeve end for receiving smokeable product unloaded from the unload end of the chute, and a lower sleeve end for dispensing the smokeable product into a cone held in a respective cavity aligned beneath the lower sleeve end.
In some examples, the chute is configured to provide a controlled flow of the smokeable product to the dosing tray.
In some examples, chute includes an inner chute surface for conveying the smokeable product, and a plurality of prongs adjacent the inner chute surface for inhibiting consolidation of the smokeable product.
In some examples, the load end is at an elevation greater than the unload end to facilitate transport of smokeable product along the chute by gravitational force.
In some examples, the chute includes at least a first chute segment and a second chute segment downstream of the first chute segment. The first chute segment includes the load end and the second chute segment includes the unload end. In some examples, the chute includes a third chute segment intermediate the first chute segment and the second chute segment. The third chute segment has a third segment upstream end for receiving product from the first chute segment and a third segment downstream end for delivering product to the second chute segment. In some examples, one of the chute segments is inclined at a first angle from the horizontal and another one of the chute segments is inclined at a second angle from the horizontal. The second angle is different from the first angle.
In some examples, the chute is sized to receive one batch amount of the smokeable product. The batch amount is equal to an amount of product required to fill all the cones in the cone pallet.
In some examples, the chute is configured to preferentially advance product granules by size. In some examples, the chute is configured to advance larger granules ahead of smaller granules.
In some examples, the apparatus includes a vibratory drive operable to urge vibration of the chute. In some examples, the vibratory drive has an adjustable frequency and amplitude. The frequency and amplitude are tunable to facilitate a desired flow rate and preferential advancement of the smokeable product based on granule size along the chute.
In some examples, the plurality of transfer sleeves and the plurality of cavities are of equal quantity.
In some examples, the dosing tray includes a collection chamber above the transfer sleeves for receiving the product from the unload end of the chute and facilitating dispersion of the product among the transfer sleeves.
In some examples, the lower ends of the transfer sleeves are simultaneously aligned with open upper ends of the respective cavities.
In some examples, each of the plurality of cavities and the plurality of transfer sleeves are arranged about a vertical axis in a circular array, and the apparatus includes a rotary drive for rotating the dosing tray about the vertical axis. In some examples, the cone pallet is releasably coupled to the dosing tray to rotate with the dosing tray and maintain alignment of the transfer sleeves and the cavities. In some examples, rotation of the dosing tray is synchronized with a rate at which product is dispensed from the unload end of the chute such that the dosing tray rotates an integer multiple of times while receiving one batch of the smokeable product from the unload end. The one batch is equal to an amount of product required to fill all the cones in the cone pallet.
According to some aspects, a method of production of smoking articles includes: (a) positioning a plurality of cones in respective cavities of a cone pallet; (b) positioning the cone pallet under a dosing tray; (c) conveying a smokeable product along a chute toward an unload end of the chute, the unload end positioned above the dosing tray; and (d) unloading the smokeable product from the unload end of the chute and into the cones through a plurality of transfer sleeves of the dosing tray.
In some examples, step (c) includes controllably flowing the smokeable product along the chute to the unload end.
In some examples, step (c) includes conveying the smokeable product along the chute at least in part by gravitational force.
In some examples, the method further includes loading the chute with one batch amount of the smokeable product and unloading the batch amount from the unload end in step (d) prior to loading a subsequent batch amount on the chute. The batch amount is equal to an amount of smokeable product required to fill all the cones in the cone pallet.
In some examples, step (c) includes preferentially advancing granules of the smokeable product based on granule size. In some examples, step (c) includes advancing larger granules ahead of smaller granules. In some examples, step (c) includes imparting vibrations on the chute. In some examples, the method further includes adjusting at least one of an amplitude and a frequency of the vibrations to facilitate a desired flow rate and preferential advancement of the smokeable product based on granule size.
In some examples, step (c) includes conveying the smokeable product along a plurality of chute segments of the chute, and the method further includes vibrating a first one of the chute segments at a first frequency and a first amplitude, and vibrating a second one of the chute segments at a second frequency and a second amplitude. In some examples, at least one of (i) the second frequency is different from the first frequency and (ii) the second amplitude is different from the first amplitude.
In some examples, each of the cavities and the transfer sleeves are arranged about a vertical axis in a circular array, and the method further includes, during step (d), rotating the dosing tray and the cavity pallet about the vertical axis to facilitate generally equal dispersion of the smokeable product among the cavities.
In some examples, the method further includes synchronizing rotation of the dosing tray and the cavity pallet with a rate at which the smokeable product is unloaded from the chute such that the dosing tray rotates an integer multiple of times while receiving one batch amount of the smokeable product from the unload end of the chute. The batch amount is equal to an amount of smokeable product required to fill all the cones in the cone pallet.
In some examples, step (d) includes: (i) partially filling the first cone with a first amount of the smokeable product, (ii), after (i), partially filling a second cone with the smokeable product, and (iii), after (ii), depositing a second amount of the smokeable product into the first cone on top of the first amount.
In some examples, the first amount of the smokeable product has a first average granule size, and the second amount of the smokeable product has a second average granule size. The second average granule size is smaller than the first average granule size.
In some examples, the method further includes, after step (d), compacting the smokeable product in the cones. In some examples, the method further includes, prior to the compacting step, moving the cone pallet from under the dosing tray to a compaction station.
In some examples, the method further includes, after step (d), twisting an upper portion of each cone to close the cones. In some examples, the method further includes, prior to the twisting step, moving the cone pallet to a cone closure station.
Additional aspects of the invention, together with the advantages and novel features appurtenant thereto, will be set forth in part in the description which follows, and in part will become apparent to those skilled in the art upon examination of the following, or may be learned from the practice of the invention. The objects and advantages of the invention may be realized and attained by means of the instrumentalities and combinations particularly pointed out in the appended claims.
The drawings included herewith are for illustrating various examples of articles, methods, and apparatuses of the present specification and are not intended to limit the scope of what is taught in any way. In the drawings:
Various apparatuses or processes will be described below to provide an example of an embodiment of each claimed invention. No embodiment described below limits any claimed invention and any claimed invention may cover processes or apparatuses that differ from those described below. The claimed inventions are not limited to apparatuses or processes having all of the features of any one apparatus or process described below or to features common to multiple or all of the apparatuses described below. It is possible that an apparatus or process described below is not an embodiment of any claimed invention. Any invention disclosed in an apparatus or process described below that is not claimed in this document may be the subject matter of another protective instrument, for example, a continuing patent application, and the applicants, inventors, or owners do not intend to abandon, disclaim, or dedicate to the public any such invention by its disclosure in this document.
Smoking articles having a conical shape, like that of the example smoking article 10 shown in
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At step 55 of the process 50, a plurality of the cones 12 are staged for filling with the smokeable product. The cones 12 can be staged by, for example, being positioned in a pallet with the open upper ends 22 directed upwardly for receiving the smokeable product.
At step 60, the staged cones 12 can be filled with the smokeable product through respective open upper ends 22 of each cone 12. The cones 12 can be filled while held in the pallet. The cones 12 can be filled with the smokeable product using filling apparatuses and methods like those described in more detail below with respect to
At step 65, the smokeable product in the cones 12 is compacted. The smokeable product can be compacted while the cones 12 are held in the pallet. Compaction can be through the means of vibration energy transferred to the fill material in the cones. Compaction can be through the use of mechanical devices acting on the fill material in the cone.
At step 70, in the example illustrated, an upper portion 28 of each wrapper 16 is twisted to close the upper end 22 of the cavity 18 for inhibiting the granule product from escaping from the cavity 18, and to form the smoking article 10. At step 75, the smoking articles 10 can be packaged for shipment and/or sale.
Referring to
In the example illustrated, the cone filling apparatus 100 includes a frame 102 and a cone pallet 104 releasably supported by the frame 102. In the example illustrated, the frame 102 includes a housing 103 and a chamber 103a in the housing 103. At least a portion of the cone pallet 104 is received in the chamber 103a when supported by the frame 102.
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In the example illustrated, the apparatus 100 further includes a dosing tray 126 disposed above the pallet 104. Referring to
In the example illustrated, the lower sleeve ends 132 of the transfer sleeves 128 are simultaneously aligned with open upper ends 108a of the respective pallet cavities 106. Referring to
In the example illustrated, the dosing tray 126 includes a collection chamber 134 open to the transfer sleeves 128. The collection chamber 134 is open to multiple transfer sleeves 128, and in the example illustrated, is a single chamber open to all of the transfer sleeves 128. The collection chamber 134 is arranged for receiving the smokeable product from the unload end 122 of the chute 118 (
Referring to
In some cases, it may be desirable to fill each cone with a precise amount of smokeable product based on weight. The nominal precise amount defines a target weight of smokeable product. The fill amount during production could be, for example, the target weight +/− 10%, or +/− 5%. Sometimes a tolerance of minus 0% and plus 5% is desired. Other products may require minus 0% to plus 10% of the target weight. The target weight may be the label weight (e.g. the sale weight). In some examples, the target weight for a single cone may be set so that a maximum permitted amount, for example, 1.0 g per single cone, is not exceeded. In some examples, the target weight is 0.95 g +/− 0.05 g. In some examples, the target weight is 0.5 g or 0.33 g, with a tolerance of +/− 10%.
In the example illustrated, the shuttle mechanism 136 comprises a drive shaft 138 rotatably supported by the frame 102 and extending along the vertical axis 107. Each of the pallet 104 and the dosing tray 126 are removably mounted to the drive shaft 138 for rotation therewith. The drive shaft 138, the pallet 104, and/or the dosing tray 126 can include complementary engagement features to facilitate alignment of the lower sleeve ends 132 with respective pallet cavities 106 when the pallet 104 and the dosing tray 126 are mounted to the drive shaft 138, and for rotationally locking the pallet 104 and dosing tray 126 to the drive shaft 138. The engagement features can include, for example, complementary engagement surfaces, keys, locating pins, etc. The rotary drive 140 drives rotation of the drive shaft 138 (and the pallet 104 and dosing tray 126) about the vertical axis 107. The rotary drive 140 can include, for example, a motor and/or a manual crank coupled to the drive shaft 138. In the example illustrated, the rotary drive 140 includes a motor 142 in the housing 103 below the pallet 104.
In the example illustrated, the apparatus further includes a tightening device for tightening the connection between the dosing tray 126 and the cone pallet 104. In the example illustrated, the tightening device includes a hand crank 144 (
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In the example illustrated, the apparatus 100 includes one or more chute vibratory drives 148 operable to urge vibration of at least a portion of the chute 118 to facilitate movement of the smokeable product along the chute 118. In the example illustrated, the chute 118 is configured to preferentially advance product granules by size. In some examples, the chute 118 is configured to advance larger granules ahead of smaller granules. In the example illustrated, the chute vibratory drive 148 has an adjustable frequency and amplitude, and the frequency and amplitude is tunable to facilitate a desired flow rate and/or preferential advancement of the smokeable product based on granule size along the chute 118.
In the example illustrated, the chute 118 comprises a plurality of chute segments 150 including at least a first chute segment 152 and a second chute segment 154 downstream of the first chute segment 152. The first chute segment 152 includes the load end 120 of the chute 118 and the second chute segment 154 includes the unload end 122 of the chute 118. In the example illustrated, the chute segments 150 further include a third chute segment 156 intermediate the first chute segment 152 and the second chute segment 154. The third chute segment 156 has a third segment upstream end 158 for receiving product from the first chute segment 152 and a third segment downstream end 160 for delivering product to the second chute segment 154. In the example illustrated, a chute vibratory drive 148 is coupled to each chute segment 150. Each chute vibratory drive 148 can have an adjustable frequency and amplitude to vary the flow rate and/or preferential advancement characteristics of a respective chute segment 150. In the example illustrated, each chute drive has a vibration frequency in a range of about 3300 vpm (vibrations per minute) to about 4000 vpm. The amplitude of the drive 148 coupled to the first chute segment 152 is adjusted to about 1.5 mm, the amplitude of the drive 148 coupled to the second chute segment 154 is adjusted to about 3 mm, and the amplitude of the drive 148 coupled to the third (intermediate) chute segment 156 is adjusted to an amount between the amplitudes of the first and second drives, for example, in a range of about 2 mm to about 2.5 mm.
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The dosing tray, shuttle mechanism, adjustable chutes, and/or adjustable vibratory drives of the apparatus 100 can help achieve, for example, homogeneity, uniform volume, uniform density, and/or uniform density distribution (e.g. along the cone axis) of the smokeable product across all cones held in the pallet, and across cones in different pallets.
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During step 330, granules of the smokeable product can be preferentially advanced based on granule size, and in some examples, larger granules are advanced ahead of smaller granules. During step 330 vibrations can be imparted to the chute 118. At least one of an amplitude and a frequency of the vibrations can be adjusted to facilitate a desired flow rate and/or preferential advancement of the smokeable product based on granule size.
During step 330, the smokeable product can be conveyed along a plurality of chute segments 150 of the chute 118, and the process 330 can further include vibrating a first one of the chute segments 150 at a first frequency and a first amplitude, and vibrating a second one of the chute segments 150 at a second frequency and a second amplitude. The second frequency can be different from the first frequency and/or the second amplitude can be different from the first amplitude. In some examples, at least one of the frequency and amplitude of each of a plurality of the chutes are adjusted to achieve at least one of a preferential particle conveyance and a target fill time to fill all of the cones. In some examples, the target fill time is about 60 seconds.
At step 340 of the process 300, the smokeable product is unloaded from the unload end 122 of the chute 118 and into the cones 12 through the transfer sleeves 128 of the dosing tray 126. During step 340, the dosing tray 126 and the cone pallet 104 can be rotated about the vertical axis 107 to facilitate generally equal dispersion of the smokeable product among the pallet cavities 106.
In some examples, rotation of the dosing tray and the cavity pallet is synchronized with a rate at which the smokeable product is unloaded from the chute 118 such that the dosing tray 126 rotates an integer multiple of times while receiving one batch amount of the smokeable product from the unload end of the chute. The batch amount is equal to an amount of smokeable product required to fill all the cones 12 in the cone pallet 104.
Step 340 can further include: (i) partially filling a first cone 12 in the pallet 104 with a first amount of the smokeable product; (ii), after (i), partially filling a second cone 12 in the pallet 104 with the smokeable product; and (iii), after (ii), depositing a second amount of the smokeable product into the first cone 12 on top of the first amount. The first amount of the smokeable product can have a first average granule size, and the second amount of the smokeable product can have a second average granule size. In some examples, the second average granule size is smaller than the first average granule size.
The method 300 can further include the step of loading the chute 118 with one batch amount of the smokeable product and unloading the batch amount from the unload end 122 of the chute 118 in step 340, prior to loading a subsequent batch amount on the chute 118. The batch amount is equal to an amount of smokeable product required to fill all the cones 12 in the cone pallet 104.
In some examples, step 310 of the process 300 can include positioning the pallet 104 at a cone staging station to facilitate the staging step 55 of the process 50 (
After each cone 12 in the pallet 104 is filled, the filled pallet 104 can be moved from under the dosing tray 126, and another pallet 104 holding empty cones 12 can be positioned under the dosing tray 118 for filling the empty cones with the smokeable product. Replacing the filled pallet 104 with a pallet 104 having empty cones can include removing the dosing tray 126 from the chamber 103a. The dosing tray 126 can be removed by operating the crank 144 to loosen the dosing tray 126 from the pallet 104. When loosened, the dosing tray 126 can be lifted out of the chamber 103a, and this step can be facilitated by moving the unload end 122 of the chute 118 clear of the chamber 103a. The filled cone pallet 104 can then be removed from the chamber 103a, a cone pallet with empty cones can be positioned in the chamber 103a, and the dosing tray 126 can be mounted atop the cone pallet with empty cones and tightened via the crank 144.
The filled pallet 104 can be moved to a cone compaction station to facilitate the compacting step 65 of the process 50 (
Referring to
The second chute segment 1152 is, in the example illustrated, pivotable about a generally vertical axis between a deployed position (shown at arrow 1154) and a stowed position (shown at 1154a in
In the deployed position, the second chute 1154 is aligned generally orthogonal to the direction of the flow of product received from the third (intermediate) chute 1156. This change in flow direction can help to break up any clumps of product leaving the third chute 1156. In the example illustrated, the third chute 1156 is also oriented generally orthogonal to direction of the flow of product received by the third chute 1156 from the first chute 1152, which can also aid in breaking up any clumps of product leaving the first chute 1152. The relative orthogonal orientation of the third chute 1156 relative to the first and second chutes 1152, 1154 can also help to reduce the overall length of the apparatus 1100, making the apparatus more compact.
While described with respect to the cone 12, the apparatuses and methods disclosed herein may be adapted for use with smoking articles of a variety of shapes and sizes, including cones having a lower draft and/or cylindrical tubes.
From the foregoing it will be seen that this invention is one well adapted to attain all ends and objectives herein-above set forth, together with the other advantages which are obvious and which are inherent to the invention.
Since many possible embodiments may be made of the invention without departing from the scope thereof, it is to be understood that all matters herein set forth or shown in the accompanying drawings are to be interpreted as illustrative, and not in a limiting sense.
While specific embodiments have been shown and discussed, various modifications may of course be made, and the invention is not limited to the specific forms or arrangement of parts and steps described herein, except insofar as such limitations are included in the following claims. Further, it will be understood that certain features and subcombinations are of utility and may be employed without reference to other features and subcombinations. This is contemplated by and is within the scope of the claims.
This application is based on and claims priority to U.S. Provisional Application Ser. No. 62/661,348 filed Apr. 23, 2018; U.S. Provisional Application Ser. No. 62/809,998 filed Feb. 25, 2019; and U.S. Provisional Application Ser. No. 62/810,010 filed Feb. 25, 2019, each of which is incorporated herein by reference in its entirety.
Number | Date | Country | |
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62661348 | Apr 2018 | US | |
62809998 | Feb 2019 | US | |
62810010 | Feb 2019 | US |