A method and a unit for the formation of tapered cigarettes into groups

Abstract

 Tapered cigarettes (2) are formed into groups (6), each comprising at least two layers (7) adjacently disposed, ordered in such a way that the tapered profiles of the single cigarettes (2) are oriented alternately and oppositely within each individual layer (7), and oppositely also in the one layer to the corresponding contiguous cigarettes (2) of the other layer. The groups (6) are formed by a unit (1) equipped with at least two loading stations (11), arranged in series, and at least one conveying pocket (10) which pauses at each station to receive two half-layers (8) of cigarettes (2) supplied in succession to respective feed stations (18) disposed on opposite sides of the station (11) and directed simultaneously into the pocket; the cigarettes (2) of each half-layer (8) are oriented identically one with another and oppositely to the cigarettes of the other half-layer (8).

Description

[0001] The present invention relates to a method of forming tapered cigarettes into groups.

[0002] The term "tapered cigarette" used here and in the course of the following specification is intended to signify a cigarette of substantially frustoconical appearance with substantially circular greater and lesser bases interconnected perpendicularly by a longitudinal axis.

[0003] It is customary in the manufacture of tobacco products for tapered cigarettes to be bunched together by hand in an entirely random fashion and formed into groups each providing the contents of one packet, whereupon each group is inserted into the relative packet; given the conical geometry of the single cigarettes, and therefore the overall shape that the group can subsequently assume, it happens that the surfaces of the packet will almost invariably exhibit unsightly undulations, even after attempts have been made to rearrange the contents by manipulation once inserted.

[0004] In addition to its notable cost, reflected not least in the need to employ operatives in relatively large number, the method of forming groups outlined above involves somewhat lengthy operating times that are effectively incompatible with the levels of output encountered in present day manufacture; moreover, the group formed in this manner presents a markedly unstable structure and is unsuitable for any of the mechanized handling operations normally utilized.

[0005] The object of the present invention is to provide a method of forming tapered cigarettes into groups such as will allow of mechanizing the procedures involved and afford a simple and economic solution to the drawbacks mentioned above.

[0006] The stated object is realized in a method of forming tapered cigarettes into groups, characterized in that it comprises the steps of advancing at least one forming pocket in a predetermined direction and along a feed path extending through at least two loading stations arranged in series along the path; and causing the cigarettes to be distributed into the pocket at each loading station and positioned therein adjacent one to another, in such a way that a layer of mutually parallel tapered cigarettes is formed at each loading station.

[0007] In a preferred version of the method thus described, each group comprises at least two layers of tapered cigarettes disposed mutually adjacent, each layer in its turn composed of a first half-layer and a second half-layer occupying the same plane, of which the respective single cigarettes are similarly oriented and disposed parallel one with another.

[0008] Likewise preferably, the tapered cigarettes of the first half-layer and the tapered cigarettes of the second half-layer will be oriented oppositely and disposed in interlocking alternation.

[0009] The present invention relates also to a unit for the formation of tapered cigarettes into groups.

[0010] A unit according to the invention for the formation of tapered cigarettes into groups is characterized in that it comprises conveying means extending along a predetermined feed path, designed to advance at least one forming pocket along the selfsame path in a predetermined feed direction and through at least two loading stations arranged in series along the path, also distribution means disposed in alignment with each loading station, of which the function is to direct the tapered cigarettes into the pocket in mutually adjacent positions and thus to bring about the formation of a layer of cigarettes, disposed parallel one with another, at each station.

[0011] In a preferred embodiment, the unit according to the invention further comprises feed means associated with each loading station, such as will supply two successions of half-layers of the tapered cigarettes to respective feed stations positioned in alignment with the loading station and on opposite sides of the feed path, each half-layer consisting in a given number of cigarettes oriented identically one with another and oppositely to the cigarettes of the remaining half-layer; also sliding means associated with the feed means, of which the function is to direct the two half-layers into the pocket and thus bring about the formation of one relative layer of the tapered cigarettes.

[0012] The invention will now be described in detail, by way of example, with the aid of the accompanying drawings, in which:

• fig 1 illustrates a unit for implementation of the method according to the present invention, seen schematically in perspective and with certain parts omitted for clarity;
• fig 2 shows an enlarged detail of the unit as in fig 1, illustrated in perspective with certain parts in section and others omitted for clarity.

[0013] With reference to fig 1 of the drawings, 1 denotes a machine, in its entirety, for fashioning packets to accommodate cigarettes 2 of tapered geometry, each presenting a greater base 3 and a lesser base 4 substantially of circular shape, and a longitudinal axis 2a perpendicular to the bases 3 and 4.

[0014] The machine 1 comprises a forming unit 5 by which the cigarettes 2 are ordered into groups 6 each providing the contents of one packet (not indicated) and, in the example illustrated, consisting in at least two adjacent layers 7 of cigarettes; more exactly, the single cigarettes 2 of each layer 7 are disposed with the relative axes 2a mutually parallel and with their respective tapered profiles oriented alternately in opposing directions, the cigarettes 2 of the one layer 7 also being oriented oppositely to the corresponding contiguous cigarettes 2 of the other layer 7. In the example of the drawings, each layer 7 is composed of six cigarettes 2 arranged with the tapered profiles oriented in alternately opposing directions and divisible, according to the orientation, into two half-layers 8 occupying the same plane and making up the single layer 7, each of which comprises three similarly oriented tapered cigarettes 2 disposed in alternation with the three similarly and oppositely oriented cigarettes 2 of the other half-layer 8.

[0015] The unit 5 comprises a pocket conveyor 9 affording a plurality of single pockets 10 each proportioned to accommodate a relative group 6 of cigarettes. The pockets 10 are caused to advance transversely to the axis 2a of the cigarettes 2 in a predetermined feed direction D1 and along a predetermined feed path P extending through at least two loading stations 11, arranged in series along the path P, at which each pocket 10 in turn is brought to a halt in readiness to receive a layer 7 of cigarettes 2, as will become clear in due course. In particular, each pocket 10 presents what is substantially a U shaped sectional profile, and comprises a horizontal bottom 12 with two side walls 13 disposed perpendicular to the bottom 12; the side walls 13 extend transversely to the feed direction D1 and combine with the bottom 12 to afford two lateral openings 14 into the pocket 10 which lie parallel to the feed direction D1.

[0016] The unit 5 further comprises a feed device 15, coinciding with an infeed station of the machine 1, by which the tapered cigarettes 2 are supplied to the conveyor 9. The feed device 15 in its turn comprises two outlet ducts 16 serving each loading station 11, disposed on opposite sides of the path P and designed to supply respective successions 17 of half-layers 8 of the cigarettes 2 to respective feed stations 18 located on opposite sides of the path P and in alignment with each loading station 11. More exactly, the two outlet ducts 16 associated with each loading station 11 exhibit respective bottom openings 19 disposed one facing toward the other on either side of the feed path P and establishing the relative feed stations 18; each outlet duct 16 also incorporates a set of channels 20 disposed side by side, equal in number to the number of cigarettes 2 making up each half-layer 8, along which respective columns 21 of cigarettes 2 are fed by gravity to the relative opening 19.

[0017] The outlet ducts 16 further comprise respective horizontal bottom plates 22 positioned at increasing heights along the feed direction D1, relative to the bottoms 12 of the pockets 10, of which the function is to arrest the fall of the cigarettes 2 within the channels 20 and thus cause a respective half-layer 8 to form at the relative opening 19.

[0018] The channels 20 of each outlet duct 16 are shown in the perspective of fig 1 as being separated one from the next along the feed direction D1 by a distance substantially equal to a maximum thickness of the cigarettes 2, and are offset along the selfsame feed direction D1 in relation to the channels 20 of the outlet duct 16 positioned opposite at the respective loading station 11. Moreover, the channels 20 of each duct 16 coincide with a first substantially rectilinear and vertical path P1 on the side facing the conveyor 9 and with a second curvilinear path P2 on the side remote from that facing the conveyor 9, and are embodied in such a way that the relative columns 21 of cigarettes 2 will descend freely with the greater bases 3 of the cigarettes 2 distributed along the second path P2 and the lesser bases 4 distributed along the first path P1.

[0019] In particular, the second path P2 of each outlet duct 16 comprises at least one substantially chevron profiled portion T located immediately above the relative bottom plate 22 and serving to ensure, in operation, that the cigarettes 2 distributed along the part of each channel 20 compassed by this same portion T will remain horizontally disposed. During operation, accordingly, the cigarettes 2 occupying an initial stage and a terminal stage of the chevron portion T afforded by each single channel 20 will be disposed mutually parallel and oriented transversely to the feed direction D1, whilst the cigarettes 2 occupying the part of the chevron portion T between the initial and terminal stages will be oriented in respective positions angled first increasingly away from a plane transverse to the feed direction D1, when between the initial stage and a middle stage of the chevron portion T, then in respective positions angled increasingly toward a plane transverse to the selfsame feed direction D1 when between the middle stage and the terminal stage.

[0020] The unit 5 also comprises a distribution unit 23 by which the half-layers 8 of cigarettes 2 are ejected from the outlet ducts 16 through the openings 19 and transferred into a relative pocket 10 positioned at the respective loading station 11, by way of the two lateral openings 14. The distribution unit 23 is also designed to operate in conjunction with a guide device 24 (see fig 2) favouring the insertion of the cigarettes 2 of each half-layer 8 into the relative pocket 10, and comprises a set of slide devices 25, one associated with each outlet duct 16, each in its turn comprising a fingered push rod 26 operated by an actuator (not illustrated) and capable thus of reciprocating movement through the bottom opening 19 and above the bottom plate 22 of the relative outlet duct 16 along a diverting direction D2 transverse to the feed direction D1, parallel with the axes 2a of the cigarettes 2 occupying the opening 19, in such a way as to transfer each successive half-layer 8 of cigarettes into a relative pocket 10.

[0021] Observing fig 2 the guide device 24 will be seen to comprise a horizontal plate 27, and more exactly one such plate to each loading station 11, associated with an actuator (not illustrated) and capable thus of movement between a raised position (indicated in fig 2) in which the plate 27 is disposed directly above a pocket 10 occupying the relative station 11, and a lowered position (not indicated) in which the open top 28 of the pocket 10 is enclosed by the plate 27. The underside of the plate 27, facing the conveyor 9, presents a plurality of vertical fins 29 set skew in relation to the diverting direction D2; the adjacent fins 29 are angled oppositely relative one to another and designed to assist, when the plate 27 occupies the lowered position, in wedging the cigarettes 2 of one half-layer 8 between the cigarettes 2 of the other half-layer 8.

[0022] Finally, the unit 5 comprises a compactor device 30 designed to pack the cigarettes 2 of each layer 7 securely into the relative pocket 10; the device 30 illustrated comprises a pair of plate-like pusher elements 31 associated with each loading station 11, disposed on opposite sides of the feed path P beyond the station 11 in the feed direction D1, and capable thus of movement through the agency of respective actuators (not illustrated) toward and away from one another and toward and away from the two relative lateral openings 14 of the single pocket 10 in such a way as to impinge axially on and thus compact the cigarettes 2 occupying the pocket 10.

[0023] In operation, the single pockets 10 are advanced along the feed path P by the conveyor 9 and brought to a standstill at each loading station 11 with the respective lateral openings 14 offered to the bottom openings 19 of the corresponding outlet ducts 16; at the same time, the successions 17 of half-layers 8 are directed down through the outlet ducts 16 to the feed stations 18.

[0024] When an empty pocket 10 draws to a halt at the first of the two loading stations 11 encountered along the feed path P, the plate 27 lying above the station, denoted lla, descends to the lowered position and the push rods 26 are directed toward one another in such a manner as to engage the cigarettes 2 by the ends affording the greater bases 3 and traverse the two half-layers 8 likewise one toward another into the pocket 10; as discernible from fig 2, the two half-layers 8 meet with the lesser bases 4 of the respective cigarettes 2 directed one toward another. The cigarettes 2 of the two half-layers 8 interlock when inserted into the pocket 10, assisted also by the guiding action of the fins 29 which prevent the cigarettes 2 from snagging against one another.

[0025] Once the half-layers 8 have been removed completely from the relative outlet ducts 16 and transferred into the waiting pocket 10 by the push rods 26, the push rods 26 are returned to their former position outside the dimensional compass of the ducts 16 to allow the formation of two further half-layers 8 on the relative bottom plates 22, whilst the conveyor 9 indexes a further step, advancing the pocket 10 to a point between the pusher elements 31 and bringing an empty pocket 10 into the first loading station lla. The pusher elements 31 are now directed inwards and toward the respective lateral openings 14 of the part-filled pocket 10, impinging axially on the cigarettes 2 of the newly formed layer 7 so as to produce the compacting action aforementioned.

[0026] At this juncture the pocket 10 is advanced another step by the conveyor 9 and brought to the second of the two loading stations 11 (denoted llb) whereupon the relative plate 27 (not indicated, but identical to that above the first station lla), descends to the lowered position and the push rods 26 of the second station llb are directed toward one another in such a manner as to engage the cigarettes 2 by the ends affording the greater bases 3 and traverse the half-layers 8 one toward another and into the pocket 10, although not in this instance directly onto the bottom 12 of the pocket 10, rather onto and in direct contact with the layer 7 of cigarettes 2 formed at the first station lla. The cigarettes 2 of the two half-layers 8 interlock when inserted into the pocket 10, assisted also by the guiding action of the fins 29 (not illustrated in the case of the second station llb), and are brought to rest on top of the half-layers 8 assembled previously in such a way that each cigarette 2 of the new layer 7 will be disposed with the relative taper oriented oppositely to the contiguous cigarette 2 of the already formed layer 7.

[0027] Once the half-layers 8 have been removed completely from the relative outlet ducts 16 and transferred into the waiting pocket 10 by the push rods 26, the push rods 26 are returned to their former position outside the dimensional compass of the ducts 16 to allow the formation of two further half-layers 8 on the relative bottom plates 22, whilst the conveyor 9 indexes a further step, advancing the pocket 10 to a point between the pusher elements 31 and bringing a successive pocket 10 into the second station llb. The pusher elements 31 are now directed inwards and toward the respective lateral openings 14 of the pocket 10, impinging axially on the cigarettes 2 of the newly formed layer 7 in the pocket 10 so as to produce the compacting action.

[0028] At this stage, the pocket 10 contains a group 6 of cigarettes 2 exhibiting a notably stable structure that can undergo any further mechanized operation, and in particular a wrapping operation performed by packaging machines of the type used conventionally in the tobacco industry.

Claims

1. A method of forming tapered cigarettes (2) into groups (6),
characterized
in that it comprises the steps of:

- advancing at least one forming pocket (10) in a predetermined direction (D1) and along a feed path (P) extending through at least two loading stations (11) arranged in series along the path (P);

- causing the cigarettes (2) to be distributed into the pocket (10) at each loading station (11) and positioned therein adjacent one to another, in such a way that a layer (7) of mutually parallel tapered cigarettes (2) is formed at each station (11).

2. A method as in claim 1, comprising the further steps, implemented at each loading station (11), of:

- supplying two successions (17) of half-layers (8) of the tapered cigarettes (2) to respective feed stations (18) positioned in alignment with the loading station (11) and on opposite sides of the feed path (P), each half-layer (8) consisting in a plurality of cigarettes (2) oriented identically one with another and oppositely to the cigarettes (2) of the remaining half-layer (8);

- bringing the pocket (10) to a standstill at each loading station (11); and

- inserting each half-layer (8) into the pocket (10) in such a way as to bring about the formation of a relative layer (7) of the tapered cigarettes (2).

3. A method as in claim 2, wherein the step of inserting each half-layer (8) into the pocket (10) consists in displacing the tapered cigarettes (2) of the half-layer (8) along a diverting direction (D2) extending transversely to the feed direction (D1), in such a way that the cigarettes (2) of each two half-layers (8) making up a relative layer (7) are caused to advance axially and convergently from the respective feed stations (18) toward the relative loading station (11).

4. A method as in claim 3, wherein the step of inserting each half-layer (8) into the relative pocket (10) is implemented in such a way that the cigarettes (2) of one of the two half-layers (8) are caused to interlock with and wedge between the cigarettes (2) of the other half-layer (8).

5. A method as in claim 3 or 4, comprising the further step of compacting the tapered cigarettes (2) of each layer (7) occupying the pocket (10) through the agency of compactor means (30) positioned on either side of the feed path (P), located beyond each of the loading stations (11) in the feed direction (D1) and capable of movement toward and away from the path (P).

6. A method as in preceding claims, wherein each group (6) of tapered cigarettes (2) comprises at least two layers (7) of cigarettes disposed mutually adjacent, each layer in turn comprising respective first and second half-layers (8) of cigarettes (2) occupying the same plane, of which the respective single cigarettes (2) are oriented identically and disposed parallel one with another.

7. A method as in claim 6, wherein the cigarettes (2) of the first half-layer (8) are oriented oppositely to the cigarettes (2) of the second half-layer (8).

8. A method as in claim 7, wherein each layer (7) comprises a first and a second half-layer (8) of which the respective tapered cigarettes (2) are disposed in interlocking alternation.

9. A method as in claim 7 or 8, wherein the tapered cigarettes (2) of one layer (7), in a group (6) of at least two layers, are oriented oppositely to the corresponding contiguous tapered cigarettes (2) of the remaining layer (7).

10. A unit for the formation of tapered cigarettes (2) into groups (6), characterized in that it comprises conveying means (9) extending along a predetermined feed path (P), designed to advance at least one forming pocket (10) along the selfsame path (P) in a predetermined feed direction (D1) and through at least two loading stations (11) arranged in series along the path (P), also distribution means (23) disposed in alignment with each loading station (11) of which the function is to direct the tapered cigarettes (2) into the pocket (10) in mutually adjacent positions and thus to bring about the formation of a layer (7) of cigarettes (2), disposed parallel one with another, at each station (11).

11. A unit as in claim 10, further comprising feed means (16) associated with each loading station (11), of which the function is to supply two successions (17) of half-layers (8) of the tapered cigarettes (2) to respective feed stations (18) disposed in alignment with the loading station (11) and on opposite sides of the feed path (P), wherein each half-layer (8) consists in a plurality of cigarettes (2) oriented identically one with another and oppositely to the cigarettes (2) of the remaining half-layer (8), and distribution means (23) consist in sliding means (25) associated with the relative feed means (16), of which the function is to insert each of the two half-layers (8) into the pocket (10) and thus to bring about the formation of one relative layer (7) of the tapered cigarettes (2).

12. A unit as in claim 11, comprising feed means (16) embodied as a plurality of substantially vertical channels (20) associated with each feed station (18) along which respective columns (21) of cigarettes (2) are directed toward a bottom opening (19) common to all the channels (20) and positioned in alignment with the feed station (18), wherein sliding means (25) comprise pushing elements (26) positioned one on the side of each bottom opening (19) remote from the feed path (P) and capable of movement through the bottom opening (19) in a diverting direction (D2) transverse to the feed direction (D1).

13. A unit as in claim 12, wherein the pocket (10) presents two lateral openings (14) and is brought to a standstill at each of the loading stations (11) with the lateral openings (14) disposed facing the respective bottom openings (19) of the relative feed stations (18), and the pushing elements (26) of each station (11) are capable of movement parallel with the diverting direction (D2) toward one another and through the relative lateral openings (14) of a pocket (10) occupying the relative station (11), to the end of inserting the cigarettes (2) of the two half-layers (8) into the waiting pocket (10).

14. A unit as in claim 13, wherein the channels (20) of each feed station (18) are separated one from the next along the feed direction (D1) by a distance substantially equal to a maximum thickness of the tapered cigarettes (2), and offset along the feed direction (D1) in relation to the channels (20) of the feed station (18) positioned opposite at the relative loading station (11).

15. A unit as in claim 14, comprising guide means (24) associated with each loading station (11), capable of movement toward and away from an open top (28) of each pocket (10) and operating in conjunction with the pushing elements (26) to the end of guiding the cigarettes (2) of the half-layers (8) along the diverting direction (D2).

16. A unit as in claim 15, wherein the guide means (24) comprise a plurality of fins (29) disposed skew in relation to the diverting direction (D2), of which adjacent fins (29) are angled oppositely relative one to another in such a way as to assist in wedging the cigarettes (2) of one half-layer (8) between the cigarettes (2) of the other half-layer (8).

17. A unit as in claims 14 to 16, wherein the pushing elements (26) consist in fingered push rods (26) by which the the two half-layers (8) of each layer (7) are inserted into the pocket (10) in such a way that the tapered cigarettes (2) of one half-layer (8) will engage in interlocking alternation with the tapered cigarettes (2) of the other half-layer (8).

18. A unit as in claims 12 to 17, wherein the channels (20) of each feed station (18) describe a first substantially rectilinear path (P1) on one side of the station (18) and a second curvilinear path (P2) on the opposite side of the station, in such a way that tapered cigarettes (2) presenting a greater base (3) and a lesser base (4) can be accommodated, when in the relative column (21), with the lesser bases (4) distributed along the first path (P1) and the greater bases (3) distributed along the second path (P2).

19. A unit as in claim 16, wherein the first path (P1) of each channel (20) is directed toward the feed path (P).

20. A unit as in claims 10 to 17, comprising means (30) disposed on each side of the feed path (P) and beyond each of the loading stations (11), considered in the feed direction (D1), of which the function is to compact the tapered cigarettes (2) of each layer (7) occupying the pocket (10).

Drawing