Spool and Spool Assembly for Winding-Up Carrier Tapes of a Packaging Taped Imbricated Bag Chain
A spool for winding up an adhesive carrier tape of a packaging taped imbricated bag chain in an apparatus for taking up a succession of imbricated packaging bags including a core with a core surface and walls forming a race where turns of tape are wound up, wherein the core surface includes resilient means for releasing a radial pressure acting on the turns of tape that have been wound up first. Also, a spool assembly for winding up at least two adhesive carrier tapes of a packaging taped imbricated bag chain in an apparatus for taking up a succession of imbricated packaging bags includes at least two spools, each spool having a core surface and walls forming a race where turns of tape are wound up, wherein the core surface includes resilient means for releasing a radial pressure acting on the turns of tape that have been wound up first.
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The present invention relates to the field of bag packaging and in particular it relates to taped imbricated bags. More in particular, it relates to an improved spool, a spool assembly (possibly housed in a proper cassette), for winding-up adhesive carrier tapes conveying a chain of imbricated bags.
It has been known for many years to package food products, for instance meat cuts or poultry, in proper bags. Generally, the packaging bags are conveyed to a loading station in an imbricated bag chain form. The bags are maintained in such an imbricated form and conveyed by using a pair of single side adhesive tapes. Generally, the tapes are wound on spools while the chain of bags is pulled towards the loading station.
GB 2 064 477 relates to a taped bag dispenser, namely an apparatus for dispensing bags from a chain of bags connected together in an imbricated arrangement on a pair of tapes. It is connected to a source of taped bags and to a device comprising a spool for winding each tape, drive means which transmits motion to a differential gear which imparts rotational movement to the spools whereby the spools can rotate at different speeds so as to maintain substantially equal tension in the two tapes and thus maintain the bags in an aligned state. A sensing means detects the presence or absence of a bag and is in operative communication with the drive means which may comprise a sprocket and chain or a pneumatic ram.
The dispenser according to GB 2 064 477 has the inconvenience that the differential gear is somewhat complex, expensive and is integral with the dispenser. Furthermore, the step of replacing a wound spool is rather complicated and time consuming. This results in rather long stops of the whole apparatus dispensing bags.
U.S. Pat. No. 4,796,412, assigned to the same Applicant of the present application relates to a method of packaging utilizing a taped bag chain with cassette. A bag chain for feeding packaging bags to a bag loader includes bags imbricated and carried by a pair of parallel carrier tapes which are wound up on spools of a cassette. Loading the bag chain in a bag indexing drive unit involves simply placing the cassette into position with the spools engraved with parallel drive dogs, after which operation of a drive motor, driving the dogs through a differential unit indexes the bags and winds up the tapes. Upon complete consumption of the bag chain, the cassette can be removed and replaced by a fresh cassette with the tapes outside the cassette and carrying the imbricated bags.
Whilst the loading and unloading steps of the cassette have become easier and more convenient than with the spools of GB 2 064 477, the drive unit is still complicated and the cassette is rather expensive.
PCT/EP03/10754, filed by the same Applicant of the present application relates to an apparatus for taking up a succession of imbricated taped bogs and a method of loading a bag train on a bag loader. The apparatus according to PCT/EP03/10754 comprises two carrier tape winding spools positioned coaxially with one another and a differential gear unit positioned between said spools, said differential gear unit being adapted to be, in use, removably connectable to a shaft of a bag loader whereby two carrier tapes can be wound up on said spools with equal tension. Profitably, each of the spools have a recess in a surface which faces the other spool and the differential gear unit is positioned in said recesses.
Sarting from the apparatus according to PCT/EP03/10754, the Applicant has felt the need to provide an improved apparatus which is able to wind a longer length of tapes. In fact, bags are presently packaged in a box or the like and it is desirable to have a larger number of bags within a box. A larger number of bags results in longer tapes to be wound. Useless to say that having a higher number of bags without having to replace the cassette is a profitable feature because it avoids stops of the loader plant and makes the throughput higher.
A tape which is generally used for taped imbricated bags is made of polypropylene (whilst also polyesters or the like could also be used) and is about 6,0 mm wide and about 0,1 mm thin. One side of the tape is lined by an adhesive composition for sticking the bags. Presently, a tape is about 50 m long, this length corresponding to a number of bags of about 1500.
Profitbly, a spool to be used in connection with PCT/EP03/10754 is made of a plastic material and comprises a cylinder core, a first plurality of spokes extending outwardly at a first end of the cylinder core and a second plurality of spokes extending outwardly at an opposed end of the core. The free ends of the first and second spokes are connected by respective outer rings. In other words, the first and second spokes form a race where the adhesive tape is wound. Alternatively, a flat, disk-shaped surface, can replace the plurality of spokes. Profitably, the spool is made of two pieces snapping on each other. The race is lightly wider than the tape.
The Applicant has realized that when a first length of an adhesive tape is wound on a spool, the tape turns are placed one on each other in a regular and fundamentally tidy manner. Since the adhesive tape is wound under tension each single turn generates a radial pressure on the underlying turns. When a longer length of tape is wound, the intermediate and outer turns operate a high radial pressure on the inner turns, the radial pressure becoming higher and higher while the number of turns increases. Due to the high radial pressure the turns tend to move axially and push against the lateral surface (substantially defined by the spokes) of the race. The tape turn configuration becomes then untidy and unstable. This results in a deformation of the spool and, possibly, in a failure thereof.
With the above in mind, it is only possible to wind a rather reduced length of tape, corresponding to a rather reduced number of bugs, without running the risk to have the spool blocked or broken.
In the Applicant's opinion, the problem of tape axial shifting during winding thereof is caused by several factors, including the narrowness of the tape causing instability as the Eulero's beam and the fact that a fluid is interposed between each single turn of tape. In fat, each tape has a side, which is coated with a fluid adhesive substance providing a rather reduced adhesive force. This results in axial movements of the tape while it is winding up.
The Applicant has studied such a problem in order to find a solution thereto. A possible manner to solve the problem could be having a stiffer and harder spool but this is not compliant with the main requirement to have a cheap and lightweight spool.
The Applicant has surprisingly discovered that a further possible solution is to provide resilient means at the spool core for releasing a radial pressure acting on the turns of tape that have been firstly wound up when such a pressure has reached an excessive value. In this way, the first wound up turns of tape become subject to a reduced or substantially null radial pressure.
Thus, according to a first aspect, the present invention provides a spool for winding-up an adhesive carrier tape of a packing taped imbricated bag chain in an apparatus for tacking up a succession of imbricated packaging bags, the spool comprising a core with a core surface and walls forming a race where turns of tape are wound-up, wherein the core surface comprises resilient means for releasing a radial pressure acting on the turns of tape that have been wound-up first.
According to a first embodiment, the resilient means comprise at least one resilient projecting tongue.
Preferably, a plurality of equally-spaced resilient projecting tongues are provided on the core surface.
According to an embodiment, the tongues are fundamentally tangent to the core surface.
According to a further embodiment, the tongues are inclined of an acute angle with respect to a tangent to the core surface.
In one embodiment, the thickness of the tongues is decreasing towards the free end thereof.
Profitbly, the tongues are moulded with the core surface or a part thereof.
Preferably, the spool is at least partially made of a plastic material or the like.
When the tongues are moulded with the core surface, the core surface preferably comprises proper cavities at the base of each tongue.
Possibly, the tongues are at least partially made of metal or the like.
According to a second embodiment, said resilient means comprise a continuous liner of a resilient material.
Profitably, said resilient material comprises a rubber or a foamed plastic material. Preferably, said resilient material is a foam material, either an open-cell or a closed-cell material.
Preferably, said spool comprises two separate parts snapping one on each other for forming an assembled spool.
Preferably, each spool wall comprises two or more spokes radially extending outwardly from the core, the free ends of the spokes being connected by an outer ring.
According to a second aspect, the present invention provides a spool assembly for winding-up at least two adhesive carrier tapes of a packaging taped imbricated bag chain in an apparatus for taking up a succession of imbricated packaging bags, the assembly comprising at least two spools as set forth above.
In a preferred embodiment, the assembly further comprises a differential gear unit positioned between said at least two spools, said differential gear unit being adapted to be, in use, removably connectable to a shaft of a bag loader whereby two carrier tapes can be wound up on said spools with equal tension.
Profitbly, each of said spools has a recess in a surface which faces the other spool;
the differential gear unit is positioned in said recess.
Preferably, each of said at least two spools is integrally formed with a bevel gear coaxial with the spool.
Preferably, the differential gear unit comprises a core and at least one satellite pinion gear attached to said core and positioned to mesh with each bevel gear.
Profitably, the differential gear unit core comprises a mating hole for mating with a shaft of a bag loader.
According to one embodiment, the assembly is housed in a housing, thus providing a cassette or the like.
According to a third aspect, the present invention provides an apparatus for taking up a succession of imbricated packaging bags carried by at least two carrier tapes, the apparatus comprising: at least two carrier tape winding spools positioned coaxially with one another; and a differential gear unit positioned between said spools, the differential gear unit being adapted to be, in use, removably connectable to a shaft of a bag loader whereby two carrier tapes can be wound up on said spools with equal tension, wherein the spools are as set forth above.
The present invention will become more clear from the following description, given by way of example only and not of limitation, with reference to the accompanying drawings, wherein:
During drawing of the lags 51a, 51b, 51c towards the bag loader 100, it is necessary to keep the tension in the two tapes 52a, 52b equal so that the bag openings, usually directed in the direction of advancement, remain in the same orientation to the bag loader 100 (i.e. usually parallel to the bag loader) such that the bags may be removed from the tapes automatically. In the present invention this is done by use of the spool assembly 10 which ensures that the tapes 52a, 52b, as they are drawing towards the bag loader around rollers or stationary pins 54a, 54b, are kept in equal tension. This is achieved by the internal workings of the assembly 10 which are illustrated in
The way in which the spool assembly 10 takes up the carrier tapes 52a, 52b with equal tension will now be described with reference to
The spools 12a, 12b are positioned coaxially with one another. Each of the spools 12a, 12b is depicted as having a central cut out 13 though this is not necessarily the case. In fat, only one of the spools 12a, 12b will require a central cut out 13 so that the shaft 112 of the bag loader can access a differential gear unit 20 positioned between and coaxially with the spools 12a, 12b. The shaft 112 passes in a cut out 16, through the central cut out 13 of spool 12b to mesh with a mating hole 22 in a core 21 of the differential gear unit 20. Thus, the spools 12a, 12b and core 21 of the differential gear unit are coaxial with the shaft 112 of the bag loader when the spool assembly is loaded on the bag loader.
Mounted on the core 21 is at least one bevel pinion 24. In the preferred embodiment there are four bevel pinions 24 positioned symmetrically around the outside of the core 21. The bevel pinions 24 are mounted to the core such that they can freely rotate around an axis perpendicular to the longitudinal axis of mating hole 22.
The differential gear unit 20 is held substantially coaxially with said spools 12a, 12b by being positioned in recesses in the surfaces of the spools facing each other so that the spools can be positioned close together, possibly even touching. The action of engaging the spool assembly with the shaft 112 may serve to axially align the spools 12a, 12b and the core 21 of the differential gear unit and to hold them together. Alternatively, the spools and differential gear unit may be designed to snap fit together (or otherwise held together) without the aid of the shaft 112 so that the shaft 112 only engages with the differential gear unit 20.
Each of the spools 12a, 12b is provided with an integrally moulded bevel gear 26 (in the recess) which, when the spool assembly 10 is assembled, faces the other of said spools 12a, 12b and meshes with the bevel pinions 24. In this way, if equal tension is present in the tapes 52a, 52b and the shaft 112 of the bag loader rotates the core 21, the two spools 12a, 12b will be rotated at the same rate as the bevel pinions 24 will not rotate around their axis of rotation but the whole core and spool assembly will rotate at the same rate around the longitudinal axis of the shaft 112. However, if tension in one of the tapes 52a, 52b decreases, the spool 12a, 12b on which that tape is wound will rotate faster than the other spool. This happens because the bevel pinions 24 will begin to rotate until the tension in the tapes 52a, 52b wound around their respective spools 12a, 12b is equalised. In this way it is possible to maintain the bag train 50 in an orientation such that each successive imbricated bag 51a, 51b, 51c will arrive at the bag loader in the perfect orientation for removal from the tapes 52a, 52b as the tapes 52a, 52b are taken up by the spools 12a, 12b of the assembly 10.
According to a preferred embodiment, the spool assembly 10 is housed in the cassette 140 (see
The cassette housing components 14a, 14b, spools 12a, 12b and the parts of the differential gear unit may all be formed by injection moulding of plastics material. This is cheap and the thus produced components easily have the durability to last for the entire bag train which can comprise several hundred bags.
It is envisaged that the spool assembly or the cassette will be stored, for example during shipping, with the leading part of each of the tapes connected to the respective spool so that the entire bag chain 50 may be loaded onto the loader easily without first having to connect the tapes 51a, 52b onto the spools 12a, 12b.
The spool assembly 10 or cassette 140 can be re-usable. In use, the machine operator would attach the next bag train to the spools of a spare cassette whilst the machine is still working using another bag train. Once that other bag train is finished, the operator can substitute the old cassette (or the spool assembly) for the spare one and restart the machine. The used tape is then removed from the first cassette, which can then be re-used.
With reference now to
According to the present invention, the core surface 122 is provided with resilient means 126 for releasing a radial pressure acting on the turns of tape that have been firstly wound-up. According to a first embodiment, the resilient means 126 is in the form of at least one resilient projecting tongue 126. Preferably, as in
According to an embodiment, the tongues 126 are fundamentally tangent to the spool surface. Alternatively, the tongues are inclined of an acute angle with respect to a tangent to the spool surface. The angle by which the tongues are inclined with respect to the tangent direction maybe up to 30°, preferably 5° to 30°, more preferably 10° to 20° and still more preferably of about 15°: angles that are deemed suitble for the present invention are 5°, 10°, 14°, 15° and 20°.
According to one embodiment, the tongue thickness is decreasing towards the free end thereof. This feature is provided in order to reduce the increasing stiffness of the tongues that, when a pressure is exercised, tend to mate to the cylinder core surface and to correspondingly reduce their length.
Profitably, the tongues are moulded with the core surface 122 or a part thereof. This, in particular, when the spool is at least partially made of a plastic material.
When the tongues are moulded with the core surface 122, the core surface 122 preferably comprises proper cavities 129 at the base of each tongue 126 (see
According to the present invention, the tongues 126 could be made also of metal or the like.
Whilst an array of equally spaced tongues 126 provides excellent results, good performances can be obtained by providing a continuous liner of a resilient material around the core surface. The liner could be made of a rubber or, preferably, of a foam, i.e. a material that can be compressed under a pressure. The foam material can be “open-cell” or “closed-cell”. Any type of polymeric material that can be foamed, thus resulting in a compressible foam, can be suitably employed. For instance, polyethylene, polyurethane, polyesters and the like.
With reference to FIGS. 9 to 10, the operation of the tongues 126 will be described here below. Since the tape is wound under tension, each turn of the tape generates a pressure in the radial direction. When a rather reduced number of turns of tape 52b are wound around the core 121, the tongues 126 are subject to a rather reduced pressure and, substantially, they will not bend. While the number of wound turns increases, the radial pressure acting on the tongues 126 will increase accordingly and the tongues 126 become bent. In this manner, the tension and consequently the radial pressure on the turns that are wound first will be partially released and the tape 52 will not move towards the race walls 123′. Thanks to this, the number of turns on the spools could be highly increased with respect to the known spools and the general object of the invention is reached.
The present invention has been described by way of example only and variations are possible. In particular, as described above, the cassette 140 is not necessary for the functioning of the invention as shown in
Claims
1. A spool (12, 12a, 12b) for winding-up an adhesive carrier tape (52, 52a, 52b) of a packaging taped bag chain in an apparatus for taking up a succession of packaging bags, the spool (12, 12a, 12b) comprising a core (121) with a core surface (122) and walls (123′) forming a race (125) where turns of tape (52, 52a, 52b) are wound-up, characterized in that the core surface (122) comprises resilient means (126) for releasing a radial pressure acting on the turns of tape (52, 52a, 52b) that have been wound-up first.
2. The spool according to claim 1, wherein said resilient means (126) comprise at least one resilient projecting tongue (126).
3. The spool according to claim 2, wherein a plurality of equally-spaced resilient projecting tongues (126) are provided on the core surface (122).
4. The spool according to claim 2 or 3, wherein said at least one tongue (126) is fundamentally tangent to the core surface (122).
5. The spool according to any of claims 2-3, wherein said at least one tongue (126) is inclined of an acute angle with respect to a tangent to the spool surface.
6. The spool according to any of claims 2-5, wherein said at least one tongue (126) is moulded with the core surface or a part thereof.
7. The spool according to any of claims 2-6, wherein the core surface comprises cavities (129) at the base of said at least one tongue.
8. The spool according to claim 1, wherein said resilient means (126) comprise a continuous liner of a resilient material.
9. The spool according to claim 8, wherein said resilient material comprises a material selected from the group consisting of: rubber and foamed plastic material.
10. A spool assembly (10) for winding-up at least two adhesive carrier tapes (52, 52a, 52b) of a packaging taped bag chain in an apparatus for taking up a succession of packaging bags, the spool assembly comprising at least two spools (12, 12a, 12b), according to any of claims 1 to 9.
11. The assembly according to claim 10, wherein it further comprises a differential gear unit positioned between said at least two spools, said differential gear unit being adapted to be, in use, removably connectable to a shaft of a bag loader whereby two carrier tapes can be wound up on said spools with equal tension.
12. The assembly according to claim 11, wherein each of said spools has a recess in a surface which flues the other spool and wherein said differential gear unit is positioned in said recess.
13. The assembly according to claim 11 or 12, wherein each of said at least two spools is integrally formed with a bevel gear coaxial with said spool.
14. The assembly according to claim 13, wherein said differential gear unit comprises a core and at least one satellite pinion gear attached to said core and positioned to mesh with each bevel gear.
15. The assembly according to claim 14, wherein said differential gear unit core comprises a mating hole for mating with a shaft of a bag loader.
16. The assembly according to any of claims 10 to 15, wherein it is contained in a housing, thus providing a cassette (140).
17. A chain of packaging taped bags, the chain comprising a number of bags and at least two adhesive carrier tapes having respective free ends, wherein the free ends of the tapes are engaged with the spools of the spool assembly according to any of claims 10-16.
18. An apparatus for taking up a succession of imbricated packaging bags carried by at least two carrier tapes (52, 52a, 52b), said apparatus comprising: at least two carrier tape winding spools (12, 12a, 12b) positioned coaxially with one another; and a differential gear unit positioned between said spools, said differential gear unit being adapted to be, in use, removably connectable to a shaft of a bag loader whereby two carrier tapes can be wound up on said spools with equal tension, wherein the spools are according to any of claims 1 to 9.
19. The apparatus according to claim 18, wherein each of said spools (12, 12a, 12b) has a recess in a surface which surfaces the other spool and wherein said differential gear unit is positioned in said recesses.
20. The apparatus according to claim 18 or 19, wherein each of said spools (12, 12a, 12b) is integrally formed with a bevel gear coaxial with said spool.
21. The apparatus according to claim 20, wherein said differential gear unit comprises a core and at least one satellite pinion gear attached to said core and positioned to mesh with each bevel gear.
22. The apparatus according to claim 21, wherein said differential gear unit core comprises a mating hole for mating with a shaft of a bag loader.
23. The apparatus according to any of claims 18 to 22, wherein said spools and differential gear unit are housed in a cassette
Type: Application
Filed: Jan 14, 2005
Publication Date: Sep 13, 2007
Applicant: CRYOVAC, INC. (Duncan, SC)
Inventor: Riccardo Palumbo (Arona (NO))
Application Number: 10/588,412
International Classification: B65H 18/10 (20060101); B65H 75/30 (20060101);