EP1064146B1

EP1064146B1 - A forming apparatus for an elevated bottom carton

Info

Publication number: EP1064146B1
Application number: EP98953681A
Authority: EP
Inventors: Charles Christensen; Mats Johansson
Original assignee: Tetra Laval Holdings and Finance SA
Current assignee: Tetra Laval Holdings and Finance SA
Priority date: 1998-03-31
Filing date: 1998-10-19
Publication date: 2005-08-03
Anticipated expiration: 2018-10-19
Also published as: WO1999050054A1; NO20003392D0; AU745817B2; DE69831099T2; DE69831099D1; NO20003392L; AU1100099A; CA2317715A1; NO325837B1; CA2317715C; EP1064146A1; ES2243011T3

Abstract

A bottom forming apparatus having a mandrel cap and a sealing plate configured to create a carton with an elevated bottom. The present invention alleviates the problem of cartons having soggy bottoms since the point of absorption, the raw paperboard edge, is elevated above the moisture which may be present during distribution from the packaging machine to the retailer. The elevated bottom portion is actually inverted into the carton with planar portions resting on the surface to support the carton. The sealing plate has a multitude of elevated portions and the mandrel cap has a recess and an angled edge for elevating the raw paperboard edge. The various embodiments of the sealing plate are able to elevate most carton bottom configurations including the standard TETRA REX® carton and the TETRA REX® sixth panel with skived edge carton.

Description

The present invention relates to a bottom forming apparatus for cartons. Specifically, the present invention relates to apparatus for sealing a carton bottom having portions of the bottom elevated to protect the raw paperboard edges from damage and absorption of moisture.
Cartons fabricated from a carton blank on a form, fill and seal packaging machine risk absorption of moisture into the raw paperboard edges of the bottom of the carton. This absorption is accelerated if the raw paperboard edges are damaged and the carton is continuously exposed to moisture. The transportation, loading and storage of the carton from the conveyance between the packaging machine/packer unit and the retailer display are all sources for damage and moisture absorption.
The raw paper edges are a by-product of the composition of the carton blank. Generally, the carton blank is cut and scored from a sheet of coated fiberboard material. The coated fiberboard material is usually composed of three layers, and may have a barrier layer juxtaposed between fiberboard layers. The exposed surfaces of this sheet are coated with a polymer material such as polyethylene. However, the coating does not extend to the edges which are thus left uncoated, and partially unprotected at least to moisture and sensitive to damage. When the carton is erected and partially formed, these raw:paper edges are most prevalent at the bottom of the carton. If moisture is absorbed into the raw paper edges, the water may be absorbed throughout the fiberboard interior layer, which due to its cellulose-like nature, has a strong affinity for liquids. This absorption of moisture may compromise the integrity of the carton thereby rendering it defective.
This problem has yet to be directly addressed by the packaging industry. However, inventions directed to resolving the stability of cartons have been disclosed in the prior art. Mills et al, U.S. Patent Nos. 5,482,204, and 5,588,943, respectively for a Carton Bottom Sealer and Carton Bottom Sealing Dies disclose cartons having an embossed inverse pyramidal bottom which is directed to providing greater stability to the filled carton and to reduce bulging of the carton. It should be noted, as shown in FIGS. 8 and 9 of the Mills et al Patents, that the end portions of the exposed raw paper edges of the bottom of the carton are not embossed, and therefore are susceptible to moisture absorption.
Fujikawa et al, U.S. Patent No. 5,222,667, for a Container Made Of Paper-Base Laminate, similarly discloses a carton having an inverted V-shaped bottom to provide greater stability to the carton. As shown in FIG. 6 of the Fujikawa et al Patent, the raw paper edge of panel 27 is not inverted and is susceptible to moisture absorption since the V-shaped inversion begins at the raw paper edge and since the inversion must be centered to provide stability to the carton.
Reference is also directed to US Patent No: 3,971,300 for "Apparatus for Ultrasonic Sealing of Non-uniform Folded Carton Bottom Closure". This patent discloses a sealing horn and multi-surface mandrel pad arrangement. The multi-surface pad has surfaces in at least two different planes and shaped to receive and engage different sections of the folded carton bottom closure, so that when the hom and mandrel pad are forcibly engaged, the force exerted on the carton bottom is substantially uniform.
According to the present invention, in apparatus for sealing a carton bottom comprising a mandrel having a mandrel cap with an engagement surface and a sealing plate with a pressing surface for engaging the mandrel cap, the engagement surface on the mandrel cap has first and second opposite ends, and a first recess traversing the engagement surface from its first to its second end, the engagement surface having an angled edge extending along a portion of the first end. The pressing surface of the sealing plate has first and second opposite ends and an elevated portion with a traversal section substantially extending from the first end to the second end, and an edge section substantially perpendicular to the traversal section along a portion of the first end. The edge section has a transition edge for complementing the angled edge on the mandrel cap. The sealing plate may also have a second elevated portion disposed in the first elevated portion.
The present invention resolves the problem of absorption of moisture through raw paperboard edges by sealing the carton bottom in a form with the raw paper edges elevated in order to protect the edges and reduce the susceptibility of moisture absorption. It can do so without adversely affecting the carton.
Various features of and benefits provided by the invention will be apparent from the following description of embodiments thereof, given by way of example only, in which description reference will be made to the accompanying drawings wherein:
FIG. I is a schematic view of a packaging machine for producing cartons having an elevated bottom.
FIG. 2 is an isolated schematic view of a bottom forming assembly of the present invention.
FIG. 3 is a bottom perspective view of one embodiment of a carton fabricated from bottom forming assembly of the present invention.
FIG. 4 is an isolated top perspective view of a mandrel cap of the present invention.
FIG. 5 is a top plan view of the mandrel cap of FIG. 4.
FIG. 6 is an isolated top perspective view of a preferred embodiment of a sealing plate of the present invention.
FIG. 7 is a side plan view of the sealing plate of FIG. 6.
FIG. 8 is a top plan view of the sealing plate of FIG. 6.
FIG. 9 is a side plan view of a sealing plate and mandrel cap of the present invention engaging a carton to form an elevated bottom.
FIG. 10 is a top perspective view of an alternative embodiment of a sealing plate of the present invention.
FIG. 11 is a top perspective view of an alternative embodiment of a sealing plate of the present invention.
FIG. 12 is a top perspective view of an alternative embodiment of a sealing plate of the present invention.
FIG. 13 is a top plan view of the sealing plate of FIG. 12.
FIG. 14 is a top perspective view of an alternative embodiment of a sealing plate of the present invention.
FIG. 15 is a top plan view of the sealing plate of FIG. 14.
FIG. 16 is a top perspective view of an alternative embodiment of a sealing plate of the present invention.
FIG. 17 is a top plan view of the sealing plate of FIG. 16.
As shown in FIGS. 1 and 2, a packaging machine for forming, filling and sealing cartons is generally designated 20. One example of such a machine is a TETRA REX® packaging machine available Tetra Pak, Inc. of Chicago, Illinois. A plurality of carton blanks 22 are fed from a magazine 21 to a bottom forming station 25of the machine 21. During the transfer from the magazine 21 to the bottom forming station 25, each of the carton blanks 22 is erected to a partially-formed state wherein the top and bottom of the carton is open. On the bottom forming station 25, as best shown in FIG. 2, the bottom of the carton is formed at a number stations. First, an erected carton blank 21 is placed upon a mandrel 26. The mandrels 26a-f rotate about a turret 27. Although six mandrels are shown, other configurations have five or four mandrels rotating about a turret 27. The bottom panels of each carton are pre-folded at a pre-folding station 28, and then heated at a heating station 29. The bottom panels are then beat sealed together at a sealing station 30. The sealing of the bottom panels is accomplished by pressing a sealing unit 50 against the bottom panels as they lie on a mandrel 26, and specifically a mandrel cap 40. The carton 100, with its bottom sealed, is then ejected from the mandrel 26 onto a conveyor 32 for further processing on the packaging machine 20. The elevated bottom is formed at the sealing station 30 by an unique sealing plate 50 and an unique mandrel cap 40.
As shown in FIG. 3, the bottom of the carton 100 has an elevated portion 120 bounded by substantially planar portions 160 and 162. The planar portions 160 and 162 are substantially perpendicular to side panels 112a, 112b and 112c and 112d, not shown. The planar portions 160 and 162 contact the conveyor belt 154 while elevated portion 120 is elevated above the belt 154 and any moisture thereon. The same applies during distribution whether in a crate or a shelf at a store.
The elevated portion 120 is further defined by angled portions 164 and 166 and elevated planar portion 170. The elevated planar portion 170 is further defined as elevated planar portion 170a and elevated planar portion 170b. The elevated planar portion 170a substantially includes a portion of panel 132b while elevated planar portion 170b includes a portion of panel 132d. The exposed raw paper edge 140a extends across the bottom of the carton 100, from the end of panel 112 a to the end of panel 112c, not shown. Likewise, the elevated portion 120 extends across the bottom of the carton 100. The elevated portion 120 may be centered on the bottom of the carton 100 with planar portions 160 and 162 being equal in area to each other. However, those skilled in the pertinent art will recognize that planar portions 160 and 162 may be unequal and elevated portion 120 may be uncentered without departing from the scope and spirit of the present invention.
Elevated portion 170a, angled portion 164 and planar portion 160 may all be part of bottom panel 132b. Also, elevated portion 170b, angled portion 166 and planar portion 162 may all be part of bottom panel 132d.
The exposed edge 140b is substantially perpendicular to exposed edge 140a. A side elevated portion 120a elevates this exposed edge 140b thereby preventing moisture absorption as with exposed edge 140a. The side elevated portion 120a has an angled portion 172 which engages planar portion 160, side panel 112a, and angled portion 164. Those skilled in the art will recognize that any exposed raw paperboard edges may be elevated in a similar fashion without departing from the scope and content of the present invention.
Approximately in the center of the elevated portion 120 is a secondary elevated portion 180. The secondary elevated portion 180 prevents loss of elevation in the center of the bottom of the carton 100 during transportation from a packaging machine to the retailer/wholesaler to the consumer. As is apparent, the center of the bottom of the carton 100 is most susceptible to deelevation from the weight of the product. The weight of the product in the carton 100 is focused on the center of the bottom of the carton 100, and thus it is necessary to provide greater elevation in this area. This greater elevation is provided by the secondary elevated portion 180 which compensates for gravitational forces exerted by the product on the center of the bottom of the carton 100.
In a preferred embodiment, the secondary elevated portion 180 is triangular in shape with its apex 181 near the exact center of the bottom of the carton 100. The secondary elevated portion 180 is substantially contained within elevated planar portions 170a and 170b. However, there is a transition to angled portion 166. Alternatively, the triangular shaped embodiment of the secondary elevated portion 180 may be rotated any degree from 1-360 degrees, about apex 181 while not departing from the scope and spirit of the present invention. Thus, the secondary elevated portion 180 may lie entirely within elevated planar portion 170a.
In the preferred embodiment, the secondary elevated portion 180 is partially defined by secondary angled portions 182, 184, 186 and 188. The secondary angled portions 182 and 184 form a transition from the secondary elevated portion 180 to elevated planar portion 170a whereas the secondary angled portions 186 and 188 form a transition from the secondary elevated portion 180 to elevated planar portion 170b.
A mandrel cap 40 of the present invention is shown in FIGS. 4 and 5. The mandrel cap 40 has an engagement surface 41 a-b that engages with the bottom panels for mating with the sealing plate 50 to form the elevated bottom carton 100. Generally, the mandrel cap 40 has a first end 42, a second end opposite the first end, and third and fourth ends 44 and 45 as shown. The third and fourth ends 44 and 45 may be non-straight as shown or straight. The first end may be partitioned into a first portion 42a and a second portion 42b. The engagement surface 41 is traversed by a recess 46 that extends from the first end 42 to the second end 43. The width of the recess 46 is generally less than the combined area of engagement surfaces 41 a-b, however those skilled in the pertinent art will recognize that the width may be equal or larger than such combined area.
The engagement surface 41 also has an angled edge 47 along the first portion 42a of the first end 42. The angled edge 47 connects with the recess 46 at the transition edge 48b. Another transition edge 48a lies opposite the first transition edge 48b. The mandrel cap 40 may also have an elliptical groove 49.
FIGS. 6-8 illustrate a preferred embodiment of the sealing plate 50 of the present invention. The sealing plate has a pressing surface 51 that lies on a first horizontal plane, and which engages with the bottom panels of a carton 100 and the mandrel cap 40. The generally flat pressing surface 51 is interrupted by a first elevated portion 52 which may be partitioned into a traversal section 52a and an edge section 52b. The traversal section 52a traverses the pressing surface 51 from a first end 53 of the sealing plate 50 to a second end 54 of the sealing plate 50. The sealing plate 50 will also have a third end 55 and a fourth end 56. The plan-section of the sealing plate 50 may be square, rectangular, circular, triangular or the like. The edge section 52b is generally perpendicular to the traversal section 52a, and edge section 52a extends along a portion 53a of the first end 53 of the sealing plate 50.
The first elevated portion 52, including both sections 52a and 52b, is generally flat and lies on a second horizontal plane above that of the first horizontal plane defined by the pressing surface 51. However, the edge section 52b may lie on a different horizontal plane than the traversal section 52a, and both sections 52a-b may be non-flat surfaces. The first elevated portion 52 is interrupted by a second elevated portion 60 that generally lies in the traversal section 52a. Although shown as triangular, the second elevated portion 60 may be of any shape or configuration. The second elevated portion 60 is generally flat and lies on a third horizontal plane above the second horizontal plane.
A second pressing layer 62 may be disposed on the sealing plate 50. The second pressing layer 62 may cover a portion of the traversal section 52a of the first elevated portion 52. In general, the second pressing layer 62 will lie above the second horizontal plane but below the third horizontal plane. A pressing surface recess layer 63 is generally flat and lies below the first horizontal plane. The recess area 63 is defined by the pressing surface 51b, the edge section 52b, the traversal section 52a and the fourth end 56 of the seal plate 50.
In general, the height variations on the sealing plate 50 are connected by a plurality of transition edges 64a-i, the most important of which are transition edges 64a and 64b which assist in the elevation of the elevated portions 120 and 120a on the elevated bottom carton 100, as shown in FIG. 3. The transition edges 64a-i are preferably beveled for a gradual transition from one plane the next. However, those skilled in the art will recognize that some or all of the transition edges may not be beveled and may have a steeper transition between planes or a non-flat edge. A plurality of channel block protrusions 65a-l may be disposed about the sealing plate 50, on the pressing surface 51, the first elevation 52, the second pressing layer 62 and at the transition edges 64a-i. The channel block protrusions 65a-l act to create a further moisture barrier in the carton 100 should the raw paperboard edges 140a and 140b begin to wick.
FIG. 9 shows a carton 100 having its bottom formed by simultaneous engagement between the sealing plate 50 and the mandrel cap 40. The mandrel cap 40 is attached or integrated therewith a mandrel 26. The mandrel 26 may also have a plurality of support 73 engaging with the mandrel cap 40. The bottom panels 132a-d of the carton 100 are sealed together and embossed to form the elevated portions 120 and 120a. The bottom forming may occur at the bottom forming station 30 disposed about the mandrels 26 rotating on the turret 27. Alternatively, the carton 100 may be placed onto an isolated mandrel cap 40 and sealing plate 50 for bottom forming before conveyance to further stations on the packaging machine 20.
FIGS. 10 and 11 are alternative embodiments of the sealing plate. The sealing plates 50a-b of FIGS. 10 and 11 are slight variations on the sealing plate 50 of FIG. 6. The sealing plates 50a-b are without many of the various elevations of the sealing plate 50 of FIG. 6, most noticeably the second elevated portion 60 on sealing plate 50a.
FIGS. 12 and 13 represent different views of an alternative embodiment of the sealing plate of the present invention. Similarities between the sealing plate 50 of FIG. 6 and the sealing plate 50c of FIGS. 12 and 13 will utilize the same reference designations. The sealing plate 50c has a sixth panel recess 80 disposed on the first elevated portion 52a and a portion of the second elevated portion 60. Although the recess 80 lies below the second horizontal plane of the first elevated portion 52, the recess 80 may have a surface above the first horizontal plane of the pressing surface 51. The intersection 81 of the recess 80 and the second elevated portion 60 may have a surface that lies on the second horizontal plane of the first elevated portion 52. The sealing plate 50c is primarily directed at providing an elevated bottom on a TETRA REX® sixth panel skived edge carton.
FIGS. 14 and 15 represent different views of an alternative embodiment of the sealing plate of the present invention. Similarities between the sealing plate 50 of FIG. 6 and the sealing plate 50d of FIGS. 14 and 15 will utilize the same reference designations. The sealing plate 50d is primarily directed at providing an elevated bottom on a carton formed from a low resource carton blank such as the one described in co-pending U.S. Patent Application 08/766,493, filed on December 13, 1996, entitled Stackable Gable Top Carton And Corresponding Top Interlocking Carton Blank which relevant parts are hereby incorporated by reference. The sealing plate 50d has the pressing surface 51 a-b and first elevated portions 52a-b, although the edge portion 51b is not adjacent the traversal portion 52a. The sealing plate 50d also has a plurality of second elevated portions 60, 60a, 60 b and 60c which may all lie on the third horizontal plane. A plurality of channel protrusions 65 are also dispersed throughout the sealing plate 50d. The various elevations also have transition edges between different elevations.
FIGS. 16 and 17 represent different views of an alternative embodiment of the sealing plate of the present invention. Similarities between the sealing plate 50 of FIG. 6 and the sealing plate 50e of FIGS. 16 and 17 will utilize the same reference designations. The sealing plate 50e is primarily directed at providing an elevated bottom on a carton formed from a PURE-PAK® carton blank. The sealing plate 50e has the pressing surface 51 a-b and first elevated portions 52a-b. The sealing plate 50e also has a plurality of second elevated portions 60 and 60d which may both lie on the third horizontal plane. A plurality of channel protrusions 65 are also dispersed throughout the sealing plate 50e. The various elevations also have transition edges between different elevations. The second pressing surface 62 extends along the traversal portion 51a and is interrupted by the second elevated portion 60.

Claims

Apparatus for sealing a carton bottom comprising a mandrel having a mandrel cap (40) with an engagement surface (41) and a sealing plate (50) with a pressing surface (51) for engaging the mandrel cap (40),
CHARACTERIZED IN THAT
the engagement surface (41) on the mandrel cap has first and second opposite ends (42,43), and a first recess (46) traversing the engagement surface (41) from its first to its second end, the engagement surface (41) having an angled edge (47) extending along a portion of the first end (42)
AND IN THAT
the pressing surface (51) of the sealing plate (50) has first and second opposite ends (53,54) and an elevated portion (52) with a traversal section (52a) substantially extending from the first end (53) to the second end (54), and an edge section (52b) substantially perpendicular to the traversal section (52a) along a portion of the first end (53), the edge section (52b) having a transition edge (64b) for complementing the angled edge (47) on the mandrel cap (40).
Apparatus according to Claim 1 wherein the sealing plate has a second elevated portion (60) disposed on the first elevated portion (52).
Apparatus according to Claim 2 wherein the first elevated portion (52) and a part of the second elevated portion (60) include a panel recess area, wherein the pressing surface (51) lies on a first plane, the first elevated portion (52) lies on a second plane parallel to the first plane, the second elevated portion (60) lies on a third parallel plane, and the panel recess area of the first elevated portion lies above the first plane and below the second plane.
Apparatus according to any preceding Claim wherein the pressing surface (51) has a recess area (63) wherein the pressing surface lies on a first plane, the first elevated portion lies on a second plane parallel to the first plane, and the recess area of the pressing surface lies below the first plane.
Apparatus according to Claim 2 wherein the sealing plate has at least one further second elevated portion (60a, 60b, 60c) disposed on the first elevated portion.
Apparatus according to Claim 5 wherein the second elevated portions comprise a first central section (60), a second central section (60a) opposite the first central section, a first end section (60b) disposed near the first end of the sealing plate and a second end section (60c) opposite the first end section, wherein the first central section, the second central section, the first end section and the second end section all lie on the same plane.
Apparatus according to Claim 5 including a second pressing layer (51) disposed on a part of the first elevated portion and a plurality of second elevated portions disposed on the first elevated portion, wherein the plurality of second elevated portions comprises a first central section (60) and a second central section (60a) opposite the first central section.
Apparatus according to any preceding Claim wherein the sealing plate is formed with a plurality of transition edges (64a-i).
Apparatus according to Claim 2 and Claim 8 wherein the sealing plate is formed with at least one transition edge between the second elevated portion (60) and the first elevated portion (52).
A method of forming a carton having elevated portions on the bottom of the carton using apparatus according to any preceding Claim, which method comprises: placing an erected carton blank on the mandrel; rotating the mandrel with the erected carton thereon to a bottom sealing station; pressing the sealing plate against the bottom panels of the carton and thus the mandrel cap; and releasing the carton with an elevated bottom from the mandrel.
A method according to Claim 10 including the step of heating a plurality of bottom panels prior to rotating the mandrel to a sealing station.
A packaging machine for fabricating and filling a series of cartons, each having an elevated bottom, which machine comprises apparatus according to any of Claims 1 to 9; a conveyor for transporting the cartons from the apparatus; and a filling station for filling the cartons with a desired product.