Patent Grant
6883291
The present invention relates to improvements in methods of and in apparatus for manipulating parallelepiped packs of cigarettes or other smokers' products, and more particularly to improvements in methods of and in apparatus for confining successive finished packs in converted blanks of wrapping material such as cellophane foil and the like. Still more particularly, the invention relates to improvements in methods of and in apparatus for manipulating finished packs of cigarettes and the like in a packing machine, e.g., in a machine known as film wrapper C 90 which is distributed by the assignee of the present application and serves to confine individual soft packs or hinged lid packs in light-transmitting outer envelopes made of cellophane or the like.
As a rule, a cigarette pack includes at least one inner envelope or wrapper which is made of paper, light-weight cardboard or metallic foil and directly surrounds an array of, for example, twenty cigarettes, and an outer envelope which is normally a converted blank of cellophane foil and surrounds the inner envelope. Such outer envelope can be provided with a customary tear strip to facilitate access to the inner envelope and its contents. The inner envelope includes flaps, tucks, panels and like configurations which are folded over each other and are bonded to one another by layers or films of a suitable adhesive. Reference may be had, for example, to commonly owned U.S. Pat. No. 4,999,967 granted Mar. 19, 1991 to Hoffmann for “APPARATUS FOR DRAPING PACKETS INTO BLANKS OF WRAPPING MATERIAL”.
A drawback of presently known methods of and apparatus for confining cigarete packs or the like in wrappers of cellulose foil or the like is that the preparation of packs for draping into blanks necessitates the provision of long paths for the transport of successive finished packs from the machine which turns out such packs to the apparatus which converts blanks into outer envelopes surrounding the packs. The primary reason for the utilization of an elongated path for the transport of packs from the packing machine to the machine or apparatus which provides such packs with outer envelopes is that the adhesive which is to bond overlapping portions of inner envelopes of the packs to each other must set completely prior to the application of outer envelopes; otherwise, the inner envelope is likely to open (e.g., an overlapping flap is likely to become separated from the adjacent (overlapped) flap, tuck or panel upon completion of the outer envelope). The overlapping flaps are likely to become separated from the adjacent portions of the inner envelope at the sides and/or at the bottom of a finished pack which includes an array of cigarettes or the like (e.g., in the so-called quincunx formation) and at least one inner envelope.
Attempts to overcome the afore discussed problems also include the utilization of rapidly or more rapidly setting adhesive substances, e.g., of hot melts in lieu of and/or in addition to the more reliable (stronger) cold setting adhesive which requires a longer period of time to set and to thus reliably bond flaps, tucks, panels and/or otherwise configurated portions of inner envelopes to each other. Furthermore, the provision of sources of several different adhesives and of means for applying such plural adhesives to selected portions of the inner envelopes contributes to the bulk, initial cost and maintenance cost of machines which are designed to provide arrays of cigarettes or the like with one or more inner envelopes.
An object of the invention is to provide a novel and improved method of confining cigarette packs and analogous parallelepiped commodities in envelopes in a space saving and economical manner.
Another object of the invention is to provide a method which renders it possible to complete the confinement of successive cigarette packs in outer envelopes in a time-saving manner.
A further object of the invention is to provide a method of rapidy confining short or long series of cigarette packs and similar commodities in outer envelopes by utilizing a single type of adhesive for the overlapping parts of the inner envelopes of such commodities.
An additional object of the invention is to provide a method of making cigarette packs of the type having inner and outer envelopes by resorting to simple, compact and relatively inexpensive apparatus.
Still another object of the present invention is to provide a novel and improved apparatus for confining cigarette packs and the like in outer envelopes which can be combined with or incorporated in existing cigarette packing machines.
A further object of the instant invention is to provide the apparatus with novel and improved means for preventing deformation of the inner envelopes of cigarette packs during confinement of such commodities in outer envelopes, e.g., in light-transmitting cellophane foils or the like.
Another object of the invention is to provide the above outlined apparatus with a novel and improved system for the advancement of blanks which are to be converted into outer envelopes of cigarette packs or the like and for the transport of packs which are provided with inner envelopes and are about to be confined in outer envelopes.
An additional object of the invention is to provide the above outlined apparatus with novel and improved means for preventing deformation of inner envelopes of cigarette packs preparatory to and during confinement of such packs in outer envelopes.
Still another object of this invention is to provide the above outlined apparatus with novel and improved means for providing cigarette packs or the like with outer envelopes at the rate at which the packs issue from a modern high-speed packing machine.
One feature of the present invention resides in the provision of a method of draping blanks of wrapping material (such as blanks of cellophane or other light transmitting material) around successive finished packs containing smokers' products and having portions abutting each other and bearing layers or films of adhesive (e.g., a cold setting adhesive) serving to bond the aforementioned portions to each other upon setting of such adhesive. The method comprises the steps of advancing a series of successive blanks along a first path (e.g., downwardly along a substantially vertical path), conveying successive finished packs in a predetermined direction along a second path (e.g., along an at least substantially horizontal path) which crosses the first path at a station where successive packs engage and entrain successive foremost blanks of the series of blanks in the first path prior to complete setting of each adhesive layer on the pack which approaches or reaches the aforementioned station, and mechanically urging against each other at least those portions of the packs at the station (namely, if necesssary ahead of, in and downstream of the station) which contact partially set adhesive layers.
Engagement of successive packs with the blanks at the station entails a partial draping of blanks around the respective packs, and the method can further comprise the step of completing the draping around the respective packs in the second path (i.e., in the path for the packs) downstream of the station (as seen in the predetermined direction). Such method can further comprise the step of mechanically urging against each other, in the course of the completing step at least those portions (e.g., flaps) of the packs which contact partially set or hardened adhesive layers. The completing step can include securing portions of the blanks to each other, and such method can further comprise the step of terminating the urging step upon completion of the respective securing step. Each securing step can include bonding portions of the respective blank to each other.
The aforementioned completing step can include securing portions of the blanks to each other, and such method can further comprise the step of terminating the urging step upon completion of the respective securing step.
Another feature of the present invention resides in the provision of an apparatus for draping blanks of wrapping material around successive finished packs containing smokers' products and having portions which abut each other and bear layers or films of adhesive serving to bond the portions of the packs to each other when the setting or hardening of the adhesive is completed. The improved apparatus can form part of or can cooperate with a cigarette packing machine and includes means for advancing a series of successive blanks along a first path, means for conveying successive finished packs along a second path crossing the first path at a station at which each successive pack engages and entrains the foremost blank of the series of blanks in the first path prior to complete setting of each adhesive layer, and means for mechanically urging against each other at least those portions of the packs at the station which contact partially set adhesive layers.
The means for urging can comprise at least one holder which is adjacent one side of the second path and is located at the station.
The means for urging can comprise means for engaging a plurality of portions of each pack being conveyed along the second path against the respective foremost blank in the first path.
Alternatively, the means for urging can comprise a plurality of holders each of which is arranged to engage a different pack in the second path.
Still further, the means for urging can comprise a plurality of discrete holders which are adjacent the second path and which are disposed downstream of each other (as seen in the predetermined direction). The holders can include a first holder which is arranged to temporarily engage successive packs advancing along a first section of the second path, and a second holder arranged to engage successive packs advancing along a second section of the second path downstream of the first section (as seen in the predetermined direction).
The means for conveying blanks can be arranged to partially drape successive foremost blanks of the series of blanks around the respective oncoming packs as a result of the conveying of packs along the second path across the first path and beyond the aforementioned station (as seen in the predetermined direction). Such apparatus further comprises means far completing the draping of blanks around the respective packs in the second path downstream of the station (again as seen in the predetermined direction).
The means for completing the draping of blanks can include a conveyor which is arranged to receive discrete packs with blanks partially draped around them. The conveyor is disposed at a third section of the second path downstream of the second section, as seen in the predetermined direction. Such conveyor is preferably indexible about a fixed axis and is preferably provided with pockets arranged to receive packs and partially draped blanks from the second section of the second path B. The holders can further include a third holder which is adjacent the conveyor and is arranged to engage portions of packs other than those portions which are or which were engaged by the first and second holders. The conveying means can but need not always be arranged to terminate the conveying of successive packs which are engaged by the third holder. The third holder can include or can cooperate with means for folding portions of partially draped blanks while the respective packs are being advanced by the conveyor. The means for folding can comprise a device which is arranged to fold portions of blanks from below.
The aforementioned means for completing the draping of blanks can comprise or cooperate with means for sealing the blanks. If the holders further include a third holder, such holder can serve to engage successive packs at the second path downstream of the second holder and upstream of the sealing means (as seen in the predetermined direction).
The means for mechanically urging can be arranged to engage portions of packs at least while such packs are being conveyed by the conveying means.
The novel features which are considered as characteristic of the invention are set forth in particular in the appended claims. The improved apparatus itself, however, both as to its construction and the modes of assembling, installing and operating the same, together with numerous additional important and advantageous features and attributes thereof, will be best understood upon perusal of the following detailed description of certain presently preferred specific embodiments with reference to the accompanying drawing.
The means for conveying a series of successive equidistant packs 12 from that part of the packing machine which makes the packs includes a first conveyor here shown as including a pair of spaced-apart parallel endless belts 10 which carry pushers 11 serving to advance successive packs 12 of the respective one of the two series of packs in the direction of arrow B. As can be seen in
The pushers 11 of the belts 10 advance successive packs 12 of the respective series or rows into neighboring pairs of pockets disposed at the periphery of an intermittently indexed turntable 14 arranged to rotate about a vertical axis in such a way that a substantially radially extending pocket 14a of the turntable is located in front of each of the endless belts 10. Transfer members or elevators 15 are provided to lift packs 12 from the upper reaches of the belts 10 to the level of the indexible turntable 14. The latter moves the packs 12 stepwise and delivers them into the range of an endless conveyor belt or band 16. This band has receptacles which snugly receive and hold the packs 12 against any changes of shape of their envelopes. This ensures that the parts which are bonded to each other by layers of adhesive cannot become separated during travel with the conveyor 16.
On their way from the level of the upper reaches of the belts 10 to the level of the turntable 14, the outer flaps 34 move past and are folded downwardly by suitably configurated, oriented and dimensioned folding members 35 (one shown in section in
The folding members 35 can be omitted if the turntable 14 is provided with suitable folding members (not shown) cooperating with the pockets 14a to fold the outer flaps 34 over the respective inner flaps 34a.
The turntable 17 indexes the packs. 12 in its pockets 32 to a station where a third elevator 15″ lowers the packs 12 to a level in front of an elongated horizontal pusher 18 serving to advance successive packs 12 in the direction of arrow B (see also
The elevator 15′ can be provided with means for preventing separation of glued-together parts (such as the flaps 34 and the neighboring flaps 34a) of the inner envelopes during transfer from the conveyor 16 onto the turntable 17. The same holds true for the elevator 15″ which transfers packs 12 from the turntable 17 to positions in front of the reciprocable pusher 18. For example, at least the elevator 15′ can be provided with lateral guides which hold the outer flaps 34 against movement away from the respective inner flaps 34a.
The turntable 17 can advance successive packs 12 past a station where the inner envelopes receive revenue labels and/or past a station where the inner envelopes are provided with advertising matter and/or past one or more further stations.
The packs 12 which arrive in front of the pusher 18 are oriented in such a way that the pusher engages a folded over outer flap 34 during its forward stroke. Thus, the pusher 18 also contributes to prevention of deformation of inner envelopes in the event that the adhesive which was supplied at 13 is still not hardened or set to the extent which is necessary to ensure reliable retention of all adhesive bearing parts of an inner envelope, i.e., to prevent the flaps 34 from leaving their desired optimum positions. That outer flap 34 of an inner envelope in front of the pusher 18 which is remote from the pusher (as seen in the direction of arrow B) is engaged by a first mobile holder 19. This holder is coupled to a lever 21 by a linkage (not shown) and a second lever 20. The purpose of the levers 20, 21 and of the linkage is to ensure that the holder 19 can move with the adjacent pack 12 in the direction of the arrow B while the pusher 18 performs a forward stroke. The lever 20 causes the holder 19 to move vertically and out of the path of the pack 12 when the pusher 18 completes its forward stroke. On the other hand, the lever 21 guides the holder 19 for movement along the path for successive packs 12 in the direction of the arrow B.
The apparatus further comprises means for advancing a continuous web 23 of coherent blanks 23a (
The pusher 18 of the means for conveying successive packs 12 along their path in the direction of arrow B is movable back and forth in and counter to the direction indicated by this arrow and causes successive packs 12 to entrain successive foremost (lowermost) blanks 23a in the direction of the arrow B toward and into a stationary mouthpiece 24 which drapes portions of the blanks 23a about the respective packs 12. The forward stroke of the pusher 18 is terminated when the pack 12 in front of it enters a radial pocket 32′ of an indexible turret 30 which is arranged to turn about a horizontal axis. This results in conversion of the respective blank 23a into a U-shaped body which overlies the front panel and the two major lateral panels of the inner envelope forming part of such pack.
The turret 30 cooperates with various folding, adhesive applying, pressing and other instrumentalities, not shown, preferably in a manner as disclosed in the aforementioned U.S. Pat. No. 4,999,967 to Hoffmann, to shape successive blanks 23a, i.e., to bring their configuration nearer to those of acceptable outer envelopes.
The apparatus further comprises a second holder 25 and a third holder 26. These holders serve as additional components of the means for mechanically urging against each other at least those portions (such as 34) of the packs 12 at the station B and at locations or path sections downstream of this station which contact partially hardened or set adhesive layers. The holder 25 is set up to press one or more selected portions of the inner envelopes of successive packs 12 against the adjacent portions of the mouthpiece 24 at the station E.
The holder 25 is located immediately or closely downstream of the intermittently descending web 23 and is movable by a lever 27 which can move this holder horizontally in the direction indicated by the arrow B while the holder 25 engages at least one portion (34) of an inner envelope then advancing within the mouthpiece 24. The holder 26 is designed to move in front of a pack 12 as soon as or even before such pack is released by the pusher 18. This holder 26 serves to engage one of the outer flaps 34. When the pusher 18 is retracted, the third holder 26 engages the lower part of the rear end of the partially converted blank 23a and folds it against the pack.
The holder 25 is preferably mounted and displaceable in such a way that it is movable back and forth along an at least substantially horizontal path.
The turret 30 is followed by a second turret 31 which is also indexible about a horizontal axis and has open pockets 32″ for reception of packs 12 and partly converted blanks 23a from the turret 30. Furthermore, the turret 30 cooperates with a stationary upper folder 28 which serves to fold the upper part of a partly converted blank 23a. In addition, the upper folder 28 can serve as a means for folding one of the lateral flaps of the outer envelope (converted blank 23a).
The upper folder 28 is followed by a sealing device 29 for the converted blanks 23a, i.e., for the outer envelopes of successive packs 12. This not only completes the conversion of blanks 23a into outer envelopes but also ensures that the inner envelopes including the flaps 34 cannot change their shapes, i.e., the inner envelopes are compelled to retain their desired configurations with attendant complete setting of the adhesive which was applied by the paster means 13 and which was applied to selected constituents of the inner envelopes.
The turret 30 indexes successive packs 12 and the corresponding outer envelopes (converted flanks) 23a through 180° and thereupon introduces each such pack and its outer envelope into the radially extending open pocket 32″ of the turret 31. The turret 31 can transport successive packs 12 and their outer envelopes past one or more instrumentalities (not shown) each of which can perform one or more tasks in connection with the conversion of packs 12 and blanks 23a into finished packs each having an inner envelope and an outer envelope. For example, the instrumentalities cooperating with the second turret 31 can serve to fold portions of the blanks at the upper sides and/or at the undersides of the outer envelopes (converted blanks 23a).
An important advantage of the improved method and apparatus is that the inner envelope (i.e., a part of a pack 12) is prevented from opening up even if such envelope contains layers or films of an adhesive (such as a cold setting adhesive) which does not or cannot set while the respective pack 12 advances from that part of the packing machine which makes the packs 12 to the turret 30 or 32. Thus, it is now possible to employ a single type of adhesive which need not harden or set prior to the application of a blank 23a to be converted into the outer envelope of the ultimate product, namely of a container including a pack 12 and an outer envelope (e.g., a converted light-transmitting blank which surrounds the inner envelope). Such mode of making packs having inner and outer envelopes renders it possible to achieve substantial savings in space (due to shortening of the path for advancement of the packs 12 from the machine or machine part serving to make the packs 12) which is required for the apparatus that applies outer envelopes as well as because a single adhesive is necessary to bond the overlapping parts (including 14) of the inner envelopes to each other. The feature that a single adhesive is necessary renders it possible to achieve savings in the initial and maintenance costs because the packing machine must employ a single set of adhesive storing and adhesive applying devices.
The holders 19 and 25 prevent an opening of inner envelopes while the respective packs 12 are being conveyed from the maker(s) of such packs into the pockets of the turret 30, and the holder 26 can assist in a predictable advancement of the partly finished ultimate products (each of which includes a pack 12 and a converted blank 23a) from the turret 30 to the turret 31. Once the conversion of a blank 23a into the outer envelope of a pack having inner and outer envelopes is completed, the outer envelope (i.e., the converted blank 23a which has been sealed at 29) holds the inner envelope including the flaps 34, 34a against expansion, i.e., against separation of those parts of the inner envelope which are supposed to be held against separation from each other by layers or films of adhesive between them.
The provision of holders 19, 25, 26 and/or other suitable means for mechanically urging against each other at least those portions of the inner envelopes of the packs 12 at the station E which are provided with films of glue renders it possible to reduce the number of turrets and/or to operate with a single set of adhesive applicators. Thus, one can dispense with that adhesive applicator or with those adhesive applicators which serves or serve to apply films of hot melt in certain conventional cigarette packing machines.
A further important advantage of the improved method and apparatus is that the making of packs having inner and outer envelopes takes up short intervals of time. This is attributable to the fact that the conversion of blanks 23a into outer envelopes can begin prior to complete setting of adhesive films between the overlapping parts of the inner envelopes. Thus, the adhesive which is applied at 13 need not set at the time the respective pack 12 is conveyed into the path of movement of the pusher 18, i.e., such setting can continue during and subsequent to entrainment of a blank 23a into the mouthpiece 24 and thence into a pocket 32′ of the turret 30 and even into a pocket 32″ of the turret 31. In fact, setting of the adhesive layers between the overlapping parts of the inner envelopes can continue while the respective ultimate products (12+23a) advance beyond the turret 31, e.g., into a machine known as B 90 pack boxer which is distributed by the assignee of the present application and serves to confine sets of, for example, ten finished packs in so-called cartons. The machine which turns out packs 12 and supplies such packs to the belts 10 shown in
An advantage of the utilization of at least two holders (such as 19 and 25) or of at least two sets of holders is that one can ensure predictable advancement of packs 12 toward, through and beyond the station E where such packs engage and entrain successive foremost blanks 23a. The second holder(s) 25 preferably engages or engage a given side of the inner envelope of the pack 12 at the station E. As already mentioned hereinbefore, the engagement between the inner envelope of an advancing pack 12 and the second holder 25 can begin as soon as the engagement between such inner envelope and the upstream holder 19 is terminated. The second holder 25 can be disengaged from the adjacent pack 12 as soon as the latter is received in a pocket 32′ of the turret 30 because, from then on, the overlapping parts of the inner envelope are prevented from becoming separated from each other by the surfaces bounding the respective pocket 32′ of the turret 30 and/or by the respective partly converted blank 23a. The third holder 26 can serve to reliably hold the packs 12 in the pockets 32′ of the turret 30. This third holder can bear upon a portion of the inner envelope of the pack 12 in a pocket 32′ of the turret 30 other than the portion or portions previously engaged by the holder 19 and/or 25. For example, the holder 19 and/or 25 can engage an outer flap 34 at one side of the adjacent pack 12, and the holder 26 can engage an outer flap 34 at the opposite side of such pack. The engagement between the holder 26 and an outer flap of the outer envelope of the adjacent pack 12 can begin or continue upon disengagement of the pusher 18 from such pack.
In the illustrated embodiment of the improved apparatus, the holder(s) 19 and/or 25 bears or bear upon the adjacent portion or portions of an inner envelope while the respective pack 12 is being advanced by the pusher 18. The arrangement is or can be such that the holder 19 or the holders 19, 25 engages or engage the adjacent inner envelope at two opposite sides (e.g., the two outer flaps 34) while the pusher 18 bears upon the rear side or panel of the inner envelope. The pusher 18 is or can be disengaged from the inner envelope of a pack 12 upon engagement of such pack by the third holder 26. Such construction and mode of operation contribute to rapid completion of the outer envelope and to a reduction of the number of parts in the packing machine. As already mentioned hereinbefore, the third holder 26 can also serve as a means for folding selected portions of successive blanks 23a, preferably as a means for folding the blanks from below. For example, a standard folding member in a presently known cigarette packing machine can be set up to perform such folding action as well as to serve as a holder (such as the third holder) of the improved apparatus.
An advantage of the sealing device 29 for successive converted blanks 23a is that, once a converted blank has been sealed, the respective inner envelope need not be engaged by one or more holders, pushers or the like because, at such time, the finished outer envelope (converted and sealed blank 23a) takes over the function of preventing opening of the inner envelope. This renders it possible to employ fewer and simpler holders.
The manner of draping a blank 23a around the inner envelope of a pack 12 is or can be such that the initial step involves draping the blank around four of the six sides of the inner envelope. For example, the blank can be draped about the front and rear sides and the two lateral sides of the inner envelope. The sealing device 29 can include or can be provided in addition to a folding member which folds a portion of the blank 23a from above at or downstream of the station E. The engagement between the third holder 26 and the inner envelope of an adjacent pack 12 can be terminated when such inner envelope reaches the aforementioned folding member or the sealing device 29.
In a presently preferred embodiment of the improved apparatus, a pack 12 advancing along the path indicated by the arrow B is simultaneously engaged by at least two of the illustrated holders 19, 25 and 26.
It is clear that the improved apparatus further comprises one or more suitable prime movers (electric motors, fluid-operated cylinder and piston units and/or the like) and means for synchronizing the movements of various mobile components including the conveyors 10, 14, 1617, pusher 18, one or more holders, turrets 30, 31 and others. The exact construction of such synchronizing means forms no part of the present invention.
Without further analysis, the foregoing will so fully reveal the gist of the present invention that others can, by applying current knowledge, readily adapt it for various applications without omitting features that, from the standpoint of prior art, fairly constitute essential characteristics of the generic and specific aspects of the above outlined contribution to the art of wrapping packs of smokers' products and, therefore, such adaptations should and are intended to be comprehended within the meaning and range of equivalence of the appended claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 100 53 666 | Oct 2000 | DE | national |
This application claims the priority of pending German patent application Serial No. 100 53 666.2 filed Oct. 28, 2000. The disclosure of the above-referenced German patent application, as well as that of each US and foreign patent and patent application identified in the specification of the present application is incorporated herein by reference.
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| Number | Date | Country | |
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| 20020050129 A1 | May 2002 | US |
