Multi-stage heater plates for sealing and shrinking overwrap
An improved cigarette package has been achieved using multistage heating plates on the ends of package wrapping. The first stage of the heating plate preheats the wrapping, the second stage activates adhesive along edges of the wrapping, the third stage seals the wrapping and the fourth stage shrinks the wrapping around the cigarette packs.
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The disclosed invention relates to a method and apparatus for manufacturing packages sealed with a wrapper. It is conventional in the art of packaging, particularly the art of cigarette packaging, to wrap the final package in shrink wrap film to maintain freshness and to serve as a tamper seal. Heat is applied to shrink the film enclosing the cigarette package.
Conventional packages, such as those used for cigarettes, comprise an outer container or pack which consists of paper in the case of “soft” packs, or of a cardboard box in the case of “hard” packs. The pack is then sealed by covering it with a substantially airtight material, the overlapping edges of which are bonded or heat-sealed together. There is a need and desire in the art for a wrapped package with improved non-melted end-fold seals and overall film tightness.
U.S. Pat. No. 4,887,408 to Mattei et al. teaches a conventional method for sealing the ends of product wrapping. The package is loaded into a drum with the wrapping covering three sides of the package in a U-shaped fashion. Heaters contact the packages on the side facing away from the drum. The heaters bond the two sides of the wrapping material together to seal the sides of the package in a sheath-like manner. The ends of the wrapping material are folded to enclose the packages. Packages are then conveyed through three heating stations to seal the top and bottom ends of the packages by fusing the folded wrapping material upon itself.
U.S. Pat. No. 4,330,977 to Focke also teaches using heating elements for sealing packages. Separated heating elements allow different sealing temperatures to be used.
U.S. Pat. No. 5,477,661 to Draghetti teaches loading cigarette packs onto a drum and heating at a low temperature for a long time to seal packages.
It is conventional to use heater blocks with an “H” pattern (such as used by G. D. Societa' per Azioni) and with a rectangular pattern (such as used by Focke & Co.) for sealing. In these two designs, the operator must reduce the temperature to avoid melting the single folds which cannot withstand the high temperatures and relatively long periods required to heat the multiple folds. The areas where the folds are five layers thick thereby suffer from insufficient heating.
In addition to having wrapping that is insufficiently sealed or, in the other extreme, melted, the conventional finished product has wrinkles 80 as show in
It has therefore been discovered that current apparatuses and methods are incapable of producing uniform, unwrinkled packages with a reliable end fold seal.
It is therefore an object of the invention to provide a method and apparatus for manufacturing a wrapper that will improve end fold sealing and improve the overall appearance of the wrap. Yet another object of the invention is to manage heat input into the poly wrap to increase shrinkage, yet preventing melting. It is also an object of the invention to improve heat input using multiple separate controllers. The multiple stage heater according to the present invention achieves these objectives.
SUMMARY OF THE INVENTIONAccording to a first embodiment, a package that has been enveloped in a film is sealed using a multiple stage heater. The heater of the present invention decouples the sealing into various stages to provide more uniform heat to package wrapping, particularly shrink wrapping, while avoiding melting.
Those skilled in the art will appreciate the above stated advantages and other advantages and benefits of various embodiments of the invention upon reading the following detailed description of the embodiments with reference to the below-listed drawings.
BRIEF DESCRIPTION OF THE DRAWINGSNovel features and advantages of the present invention in addition to those noted above will be become apparent to persons of ordinary skill in the art from a reading of the following detailed description in conjunction with the accompanying drawings wherein similar reference characters refer to similar parts and in which:
Referring with more particularity to the drawings,
Packs 12 are wrapped and folded in a conventional manner (not shown) and loaded into the loading passage 15 according to any conventional manner known in the art. Wrapping 13, shown in
As shown in
As shown in
The spring member 22 could be comprised of spring steel or any shape memory material that can apply sufficient force to press lever arm tab 30 back into the recessed portion of arm body 20. Alternatively, spring member 22 could be any conventional mechanism that would permit the arm tab to extend and would also press the arm tab 30 back into the recessed portion of arm body 20.
After reaching the predetermined stopping point, the arm body 20 travels back to the position shown in
The packs 12 are guided along surface 33 through the heating area 32 by a hold down bar 34. While in the heating area, packs 12 are contacted by one or a pair of heater plates, such as the heater plate 36 shown in
When the packs 12 are initially pushed up from the loading passage 15 into the heating area 32, they can remain in that initial position or stage for any predetermined amount of time. It is anticipated, however, that the packs 12 will remain at each stage in the heating area long enough for the arm body to travel back and forth and slide another set of packs 12 from the first stage to the second stage.
Each set of packs 12 being pushed by the lever arm 14 will in turn push adjacent sets of packs 12 through multiple stages of the heating plate 36 and onto wheel 38 as shown in
Once on wheel 38, packs are guided by pushers 40 and hold down guide 42. Packs 12 can then be loaded into a discharge magazine 44 for final packaging.
A heating plate 36 according to the preferred embodiment of the invention will now be described in greater detail. Although it is anticipated that a heating plate 36 will be placed on both sides of the heating area 32 to contact both ends of the packs 12, only one plate will be described for convenience. The heater plate can be comprised of any conventional material, though a material with relatively high thermal conductivity is preferred.
As shown in
Heater plate 36, as shown in
The first stage 54 on the heater plate 36 may be flat. The packs 12, and more particularly the wrapping 13, contact the flat face of the heater plate 36 as shown in
The second stage 56 is a tacking stage. This stage typically involves activating adhesive on the wrapping. As shown in
The third stage 60 seals the wrapping 13. As shown in
The fourth stage 62, known as the beauty bar shrink stage, shrinks the wrapping 13 tight around the pack 12. The heater plate has a surface with trapezoidal contact members 63, a first recessed area 50 and a second recessed area 65. As shown in
Heat is provided to the heater plate 36 by heater strips 70 on the rear side of plate 36 not facing the packs 12, as shown in
The heater plate can be maintained at one temperature of, for example, approximately 140° C.-170° C., although a higher or lower temperature is envisioned depending on the wrapping material and other conditions. Additionally, the heater stages could be set at different temperatures. For example, the first and second stages could be maintained at a first temperature of, for example, 150° C., while the third and forth stages could be set at a different temperature, for example, 170° C.
Heat can be provided by electrical resistive or inductive heating, or in any other conventional manner. A thermocouple 74 can be inserted at any or all of stages to monitor the temperature. The heater plate 36 can be attached to the motor 37 by any means, for example by bolts or by any other conventional means of attaching or fixing including gluing, riveting or it may be formed integrally.
The foregoing description of the invention illustrates and describes the present invention. Additionally, the disclosure shows and describes only the preferred embodiments of the invention, but it is to be understood that the invention is capable of use in various other combinations, modifications, and environments and is capable of changes or modifications within the scope of the inventive concept as expressed herein, commensurate with the above teachings, and/or the skill or knowledge in the art of packaging and, more particularly cigarette wrapping.
The embodiments described hereinabove are further intended to explain best modes known of practicing the invention and to enable others skilled in the art to utilize the invention in such, or other, embodiments and with the various modifications required by the particular applications or uses of the invention. Accordingly, the description is not intended to limit the invention to the form disclosed herein. Also, it is intended that the appended claims be construed to include alternative embodiments.
Claims
1. A heating plate for packaging comprising:
- a first stage that comprises a flat surface for contacting wrapping that is folded around packages;
- a second stage that comprises first recessed areas and first non-recessed areas, wherein the first non-recessed areas comprise four surfaces for contacting the wrappings of packages;
- a third stage that comprises second recessed areas and second non-recessed areas, wherein the second non-recessed areas comprise two contiguous H-shaped surfaces for contacting the wrappings of packages; and
- a fourth stage that comprises third recessed areas and third non-recessed areas, wherein the non-recessed areas comprise four trapezoidal shaped surfaces for contacting the wrappings of packages.
2. The heating plate according to claim 1, wherein heat is supplied to the heating plate using multiple heating devices.
3. The heating plate according to claim 2, wherein heat is supplied to the heating plate by at least two independently controlled heating devices.
4. The heating plate according to claim 3, wherein the heating devices are maintained at a temperature of between about 140° C. and 170° C.
5. The heating plate according to claim 3, wherein the heating devices are maintained at a temperature of about 150° C.
6. The heating plate according to claim 2, wherein heat is supplied to the heating plate using at least four independently controlled heating devices.
7. The heating plate according to claim 6, wherein two of the independently controlled heating devices are maintained at a temperature of between about 140° C. and 160° C. and two of the independently controlled heating devices are maintained at a temperature of between about 160° C. and 180° C.
8. The heating plate according to claim 6, wherein two of the independently controlled heating devices are located on a portion of the heating plate directly opposite the first stage and second stage and are maintained at a temperature of 150° C., and two of the independently controlled heating devices are located on a portion of the heating plate directly opposite from the third stage and fourth stage and are maintained at a temperature of 170° C.
9. The heating plate according to claim 1, wherein the third recessed areas in the fourth stage have a first recessed portion and a second recessed portion, wherein the second recessed portion is recessed further than the first recessed portion and, wherein the second recessed portion is rectangular shaped.
10. The heating plate according to claim 1, wherein the first stage preheats wrappings around the packages, the second stage activates adhesive along edges of wrappings, the third stage seals wrappings around packages, and the fourth stage shrinks wrappings around packages.
11. The heating plate according to claim 1, wherein the first stage, the first non-recessed areas, the second non-recessed areas, and the third non-recessed areas all lie in the same plane.
12. A heating apparatus for use in cigarette packaging comprising:
- a heating area comprising a multiple stage heating plate;
- a first reciprocating device that advances a set of cigarette packs linearly through the heating area and along multiple stages of the multiple stage heating plate; and
- a second reciprocating device that moves the multiple stage heating plate inwardly to contact the set of cigarette packs and outwardly to allow the set of cigarettes to be moved through the heating area.
13. A heating apparatus according to claim 12, wherein the set of cigarette packs contacts multiple areas of the multiple stage heating plate as the set of cigarette packs is linearly advanced through the heating area.
14. The heating apparatus according to claim 13, wherein each occurrence of contact between the set of cigarette packs and the multiple stage heating plate corresponds to a heating stage.
15. A heating apparatus according to claim 12 further comprising a loading passage through which sets of packs are advanced into the heating area.
16. A heating apparatus according to claim 12 wherein the first reciprocating device comprises a reciprocating arm body, a pivotable lever arm, and a spring mechanism.
17. A method of sealing and shrinking a wrapping material around packages comprising:
- contacting the wrapping material with a first heating stage to preheat the wrapping material along folded edges;
- contacting the wrapping material with a second heating stage to tack the wrapping material;
- contacting the wrapping material with a third heating stage to seal the wrapping material around the packages; and
- contacting the wrapping material with a fourth heating stage to shrink the wrapping material.
18. The method of claim 17 wherein the four heating stages are on one heating plate.
19. A cigarette pack sealed according to the method of claim 17.
20. A cigarette pack sealed by the apparatus of claim 12.
21. A heating plate for packaging comprising at least two of the following stages:
- a first stage for contacting wrapping that is folded around a package;
- a second stage that comprises first recessed areas and first non-recessed areas;
- a third stage that comprises second recessed areas and second non-recessed areas; and
- a fourth stage that comprises third recessed areas and third non-recessed areas.
22. The heating plate according to claim 21, wherein the heating plate comprises at least three of the stages.
23. The heating plate according to claim 21, wherein the heating plate comprises the first stage, the second stage, the third stage and the fourth stage.
24. The heating plate according to claim 21, wherein heat is supplied to the heating plate by at least two independently controlled heating devices.
25. The heating plate according to claim 24, wherein the heating devices are maintained at a temperature of between about 140° C. and 170° C.
26. The heating plate according to claim 25, wherein the heating devices are maintained at a temperature of about 150° C.
27. The heating plate according to claim 21, wherein heat is supplied to the heating plate using at least four independently controlled heating devices.
28. The heating plate according to claim 27, wherein two of the independent heating devices are located on a portion of the heating plate directly opposite the first stage and second stage and maintained at a temperature of between about 140° C. and 160° C., and two of the independent heating devices are located on a portion of the heating plate directly opposite from the third stage and fourth stage and are maintained at a temperature of about 160° C. and 180° C.
29. The heating plate according to claim 28, wherein the two independent heating devices located on the portion of the heating plate directly opposite the first stage and second stage are maintained at a temperature of 150° C., and the two independent heating devices located on the portion of the heating plate directly opposite the third stage and fourth stage are maintained at a temperature of 170° C.
30. The heating plate according to claim 21, wherein the first stage preheats wrapping around a package, the second stage activates adhesive along edges of the wrapping, the third stage seals the wrapping around the package, and the fourth stage shrinks the wrapping around the package.
31. The heating plate according to claim 21, wherein the first stage, the first non-recessed areas, the second non-recessed areas, and the third non-recessed areas all lie in the same plane.
32. A method of sealing and shrinking a wrapping material around a package comprising at least two of the following steps:
- contacting the wrapping material with a first heating stage to preheat the wrapping material along folded edges;
- contacting the wrapping material with a second heating stage to tack the wrapping material;
- contacting the wrapping material with a third heating stage to seal the wrapping material around the package; and
- contacting the wrapping material with a fourth heating stage to shrink the wrapping material.
33. The method of claim 32 wherein the four heating stages are on one heating plate.
34. A cigarette package sealed according to the method of claim 32.
35. A cigarette package sealed by the heating plate of claim 21.
36. A heating plate for packaging comprising at least two of the following stages:
- a first stage that preheats wrapping around a package;
- a second stage that activates adhesive on the wrapping;
- a third stage that seals the wrapping around the package; and
- a fourth stage that shrinks the wrapping around the package.
37. The heating plate according to claim 36, wherein the heating plate comprises at least three of the stages.
38. The heating plate according to claim 36, wherein the heating plate comprises the first stage, the second stage, the third stage and the fourth stage.
Type: Application
Filed: Dec 22, 2004
Publication Date: Jun 22, 2006
Applicant: Philip Morris USA Inc. (Richmond, VA)
Inventors: Duane Wilder (Chesterfield, VA), William Rech (Midlothian, VA)
Application Number: 11/019,576
International Classification: B65B 53/02 (20060101);