Information
-
Patent Grant
-
6199698
-
Patent Number
6,199,698
-
Date Filed
Friday, December 3, 199925 years ago
-
Date Issued
Tuesday, March 13, 200123 years ago
-
Inventors
-
Original Assignees
-
Examiners
Agents
-
CPC
-
US Classifications
Field of Search
US
- 206 530
- 206 532
- 206 484
- 206 5242
- 206 4595
- 206 469
- 428 343
- 428 352
- 383 210
- 383 211
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International Classifications
-
Abstract
A pouch for a pharmaceutical, cosmetic, medical or similar product, with a structure having a top laminate and a bottom laminate. A pouch enclosure for the product is formed in one portion of the structure. The top laminate and the bottom laminate of the pouch enclosure portion are strongly adhered together in the periphery around the pouch enclosure. A flap portion is formed by the remainder of the structure with a portion of the involved region of the top laminate and a portion of the involved region of the bottom laminate are weakly adhered together and are easily pulled apart. Arrangement for separating the flap portion and the pouch enclosure is situated at the interface between the flap portion and the pouch enclosure portion. A notch or slot is located in the strongly adhered periphery of the pouch enclosure portion adjacent to the flap portion. The flap portion is larger than the pouch enclosure portion. Both sides of the top laminate and of the bottom laminate are capable of being printed on.
Description
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to improved packaging, more specifically improved pouches, for pharmaceutical, cosmetic and medical products.
2. Background Art
Currently, pouches on the market for pharmaceutical, cosmetic and medical products are constituted by a front and a back material sealed firmly together all around the perimeter of the pouch. The pouches are made out of laminates known to the art as laminates of metal foils and polymeric films, typically decorated with printing on one or both visible sides of the pouch.
Typical pouch laminate constructions are laminates of polyester films adhering to a metal foil, such as, an aluminum foil, adhering to a sealant layer, typically made out of a polyolefinic material, such as, polyethylene, polypropylene or copolymers thereof.
The polyester film is typically printed on one side. The printing may be buried between the polyester film and the adhesive, known as reverse printing, or may be on the surface of the polyester and exposed to the outside environment, known as surface printing. In many situations the surface printing would require an overlacquer, also known as an overprint varnish, to protect the ink from flaking or scuffing when exposed to the rigors or packaging lines, shipping stresses and consumer misuse.
The pouch constructions, as known in the art, are made out of multiple layers put together with an adhesive. The adhesive may be, although not necessarily, a urethane base or a polyolefinic type like polyethylene and its copolymers. The selection of the layers and the adhesive to adhere the layers together or the heat seal coatings to effect the seals, depend upon the product to be packaged, conditions of use, storage conditions and the barrier requirements needed to protect the product. Moisture, oxygen, light and sometimes other gases can be detrimental to the packaged product, and a protection to such environmental effects is required. In such applications, a metal foil as barrier is often used. In some applications, such barrier is not required, and more cost-effective structures can be used successfully. Such structures would, for instance, be constituted of biaxially oriented polypropylene with a polyolefinic sealant layer, such as, polyethylene, or a laminate of paper and a polymeric sealant could also be used.
The pouch embodiment is fabricated by welding the sealant layer together, thereby constituting an enclosed pocket containing the goods to be packaged. See FIG.
1
.
In certain pharmaceutical applications, such pouch laminate is realized so that the tear resistance of the material is high enough to prevent children from tearing them, and are thereby considered child-resistant. A typical mode of opening for adults is realized by providing the pouch with a notch in the seal area, this notch not extending to the extremity of the pouch. The sealed area needs to be folded over the notch and the pouch torn from the notch in the direction of said notch to tear the pouch open. See
FIGS. 2 and 3
. This sequence of movements is not achievable by children of age less than 51 months and, therefore, the pouch is considered child-resistant.
In the case of pouches used for pharmaceutical products, the United States Food and Drug Administration, as well as similar administrations in other countries, require that each unit or single dose have a complete disclosure of the product content, dosage, side-effects, etc., thereby constantly increasing the surface required to print such vast information with font size readily legible by consumers. Therefore, the pharmaceutical industry and consumers are afflicted by increasing costs of packaging, as the size of these packages increase simply to allow for sufficient print area.
BROAD DESCRIPTION OF THE INVENTION
An object of the invention is to provide improved child-resistant pouches for pharmaceutical, medical, cosmetic and similar products, which provide large surfaces for printing information on without extension of the size of the pouches. Other objects and advantages of the invention are set out herein or are obvious herefrom to those skilled in the art.
The objects and advantages of the invention are achieved by the improved pouches of the invention.
The invention involves a pouch for a pharmaceutical, cosmetic, medical or similar product. The pouch has a structure with a top laminate and a bottom laminate. A pouch enclosure for the product is formed in one portion of the structure. The top laminate and the bottom laminate of the pouch enclosure portion are strongly adhered together in the periphery around the pouch enclosure. A flap portion is formed by the remainder of the structure with a portion of the involved region of the top laminate and a portion of the involved region of the bottom laminate are weakly adhered together and are easily pulled apart. Means for separating the flap portion and the pouch enclosure portion is situated at the interface between the flap portion and the pouch enclosure portion. A notch or slot is located in the strongly adhered periphery of the pouch enclosure portion adjacent to the flap portion. The flap portion is larger than the pouch enclosure portion. Both sides of the top laminate and of the bottom laminate are capable of being printed on. For example, printing can be visibly contained on the inside and outside surfaces of both of the top laminate region and the bottom laminate region of the flap portion.
The invention can also increase the available outer surface for printing on by reducing the size of the pouch enclosure (as compared to the prior art pouch enclosures). In view of this approach, the outer surface area of the flap portion of the invention pouch can be increased up to 50 percent or more.
The invention pouches have the purpose to keep the packaging costs contained within the current situation, thus increasing the total printing surface significantly without increasing the cost of packaging nor adding a secondary package.
Other solutions to achieve the benefit of larger print surfaces are costly, as they involve as discussed above either a bigger package or by adding flaps to packages, including inserts or booklets or by adding expanded-content labels. These add-ons are invariably a source of increased raw material costs and process costs.
The invention achieves such increase in printing surface without adding material and process costs while still providing a child-resistant package.
The main benefit of the pouches of the invention is that it increases the area available for printing information without adding more materials. It takes a current pouch, such as, a sample unit dose pouch or sachet, reduces the size of the cavity while keeping the length and width as originally specified. The balance of the material is used for the information printing on both surfaces, front and back.
When the top and bottom laminate regions of the flap portion have been separated from each other, the top and bottom laminate regions can each individually be easily separated from the pouch enclosure portion.
The means for separating the flap portion from the pouch enclosure portion preferably is a line of perforations aligned along the intersection of the flap portion and the pouch enclosure portion. Preferably a notch or slot is located on each end of the line of perforations and aligned on the longitudinal axis of the line of perforations.
The means for separating the flap portion from the pouch enclosure portion can also be a groove located in the top surface of the top laminate and/or the bottom laminate and aligned along the intersection of the flap portion and the pouch enclosure portion. Preferably a notch or slot is located on each end of the groove line and aligned on the longitudinal axis of the groove or grooves.
The longitudinal axis of the notch or slot in the strongly adhered periphery of the pouch enclosure portion is aligned between 45 and 90 degrees, preferably between 75 and 90 degrees, most preferably 90 degrees, to the intersection between the pouch enclosure portion and the flap portion. In other words, the longitudinal axis of the notch or slot being perpendicular to the intersection between the pouch enclosure portion and the flap portion provides the best results regarding safety and opening of the pouch. The notch or slot in the strongly adhered periphery of the pouch enclosure portion preferably does not contact the line of perforations, and preferably is located far enough away from the line of perforations, so that the notch or slot does not tear when the top and/or bottom laminates of the flap portion are removed from the pouch enclosure portion.
Preferably the periphery of the pouch enclosure portion adjacent to the flap portion is wider (e.g., 20 to 100 percent, preferably 50 percent) than the other parts of the periphery.
The invention pouch:
provides increased printing area
contains the cost of packaging materials
maintains current process efficiencies and configurations (no add-ons, such as, additional labels, flaps, inserts, booklets, leaflets and expanded-content labels, etc.)
achieves child resistance
uses conventional structures
uses conventional processes.
The invention pouch:
is a new combination of conventional art to achieve the above benefits
is a new pouch design or configuration with easy access to additional printed user and/or marketing information
has new child resistant feature with perforations to prevent accidental or incidental access to the product
improves senior friendliness with a larger area to grab to perform the required fold over and opening at the notch
improves child resistance for the same reason as above, because the area is too big for children's hands and the notch is away from the edge of the pouch, where children typically bite or tear
shows tampering with the pouch when the pouch has been handled and the “flap(s)” are missing like when children have tried to open it.
In a preferred embodiment of the pouch of the invention, the top laminate contains, from the outer surface to the inner surface thereof, respectively:
(a) an overprint varnish layer,
(b) a first ink printed layer,
(c) a polyester (preferably polyethylene terephthalate) layer or a paper layer,
(d) a first adhesive layer,
(e) a metal (preferably aluminum) foil,
(f) a second adhesive layer,
(g) a polyolefin (preferably low density polyethylene) layer,
(h) a second ink printed layer,
(i) a strongly adhered heat seal adhesive layer in the pouch enclosure portion, and a cold seal adhesive layer or a pressure sensitive adhesive layer or a peelable sealing adhesive layer or a weak heat sealable adhesive layer in the flap portion,
and the bottom laminate contains, from the outer surface to the inner surface thereof, respectively:
(j) an overprint varnish layer,
(k) a first ink printed layer,
(l) a polyester (preferably polyethylene terephthalate) layer or a paper layer,
(m) a first adhesive layer,
(n) a metal (preferably aluminum) foil,
(o) a second adhesive layer,
(p) a polyolefin (preferably low density polyethylene) layer,
(q) a second ink printed layer.
In another preferred embodiment of the pouch of the invention, the top laminate contains, from the outer surface to the inner surface thereof, respectively:
(a) an overprint varnish layer,
(b) a first ink printed layer,
(c) a paper layer,
(d) an adhesive layer,
(e) a Ceramis® polyester (preferably polyethylene terephthalate) layer,
(f) a second ink printed layer,
(g) a strongly adhered heat seal adhesive layer in the pouch enclosure portion, and a cold seal adhesive layer or a pressure sensitive adhesive layer or a peelable sealing adhesive layer or a weakly adhered heat sealable adhesive layer in the flap portion,
and the bottom laminate contains, from the outer surface to the inner surface thereof, respectively:
(h) an overprint varnish layer,
(i) a first printed layer,
(j) a paper layer,
(k) an adhesive layer,
(l) a Ceramis® polyester (preferably polyethylene terephthalate) layer,
(m) a second ink printed layer.
Ceramis® is a trademark for a silicon oxide coated polyester or polyolefin or polyamide film. The trademark Ceramis® is owned by algroup, a corporation of Switzerland, which has a principal place of business in Zurich, Switzerland. In the invention, the preferred Ceramis® is the silicon oxide coated polyester film, most preferably the silicon oxide coated polyethylene terephthalate film, but the polyolefin and polyamide versions can be used. The preferred polyamide version is the silicon oxide coated nylon film. The preferred polyolefin version is the silicon oxide coated polyethylene film (more preferably high density polyethylene), although good results can also be obtained with silicon oxide coated polypropylene film.
In a further preferred embodiment of the pouch of the invention, the top laminate is transparent and contains, from the outer surface to the inner surface thereof, respectively:
(a) an overprint varnish layer,
(b) a first ink printed layer,
(c) a polyester (preferably polyethylene terephthalate) layer,
(d) an adhesive layer,
(e) a Ceramis® polyester (preferably polyethylene terephthalate) layer,
(f) a second ink printed layer,
(g) a strongly adhered heat seal adhesive layer in the pouch enclosure portion, and a weakly adhered sealable adhesive layer in the flap portion,
and the bottom laminate contains, from the outer surface to the inner surface thereof, respectively:
(h) an overprint varnish layer,
(i) a first ink printed layer,
(j) a polyester (preferably polyethylene terephthalate) layer,
(k) an adhesive layer,
(l) a Ceramis® polyester (preferably polyethylene terephthalate) layer,
(m) a second ink printed layer.
In another preferred embodiment of the pouch of the invention, the top laminate is opaque and contains, from the outer surface to the inner surface thereof, respectively,
(a) an overprint varnish layer,
(b) a first ink printed layer,
(c) a paper layer,
(d) an adhesive layer,
(e) preferably a Ceramis® polyester (preferably polyethylene terephthalate) layer, or a metallized (preferably Al) polyethylene layer or preferably a metallized (preferably Al) polyester (preferably polyethylene terephthalate) layer,
(f) a second ink printed layer,
(g) a strongly adhered heat seal adhesive layer in the pouch enclosure portion, and a weakly adhered sealable adhesive layer in the flap portion,
and the bottom laminate contains, from the outer surface to the inner surface thereof, respectively:
(h) an overprint varnish layer,
(i) a first ink printed layer,
(j) a paper layer,
(k) an adhesive layer,
(l) preferably a Ceramis® polyester (preferably polyethylene terephthalate) layer, or a metallized (preferably Al) polyethylene layer or preferably a metallized (preferably Al) polyester (preferably polyethylene terephthalate) layer,
(m) a second ink printed layer.
A particularly preferred embodiment of the pouch of the invention has a structure composed of:
(a) a pouch enclosure portion comprising a top laminate and a bottom laminate, the periphery of pouch portion (a) comprising the periphery of the top laminate and the periphery of the bottom laminate being strongly adhered together by means of a heat sealed adhesive layer, at least one of the center region of the top laminate extended and the center region of the bottom laminate being outwardly extended, thereby forming a pouch enclosure wherein the product is contained; and
(b) a flap portion which is contiguous with pouch portion (a), flap portion (b) comprising a contiguous extension of the top laminate and a contiguous extension of the bottom laminate, which are weakly adhered together over a portion of inner surfaces of the contiguous extensions of the top and bottom laminates by means of a peelable adhesive coating, a pressure sensitive coating material, a cold seal adhesive coating, or a weak heat sealable adhesive coating,
a line of perforations being aligned along the intersection between the pouch enclosure portion and the flap portion, a notch or slot being located on each end of the line on the longitudinal axis of the line of perforations, a further notch or slot being located in the strongly adhered periphery of the pouch enclosure portion adjacent to the flap portion, the further notch or slot being aligned perpendicular to the line of perforations and not contacting the line of perforations.
BRIEF DESCRIPTION OF THE DRAWINGS
In the drawings:
FIG. 1
is a top view of a prior art pouch for pharmaceutical, medical or cosmetic products;
FIG. 2
is a cross-sectional side view along line
2
—
2
of the prior art pouch of
FIG. 1
;
FIG. 3
is a top view of the prior art pouch of
FIG. 1
with the wide side area folded over on the notch therein to allow opening;
FIG. 4
is a top view of a preferred embodiment of the invention pouch for pharmaceutical, medical or cosmetic products;
FIG. 5
is a cross-sectional side view along line
5
—
5
of the invention pouch of
FIG. 4
;
FIG. 6
is a cross-sectional side view along line
5
—
5
of the invention pouch of
FIG. 4
with the top and bottom laminates of the flap portion in expanded position;
FIG. 7
is a partial top view of another embodiment of the invention pouch;
FIG. 8
is a partial cross-sectional side view of an embodiment of the top laminate;
FIG. 9
is a partial cross-sectional side view of the bottom laminate of the embodiment of
FIG. 9
;
FIG. 10
is a partial cross-sectional side view of a further embodiment of the top laminate;
FIG. 11
is a partial cross-sectional side view of the bottom laminate of the embodiment of
FIG. 10
;
FIG. 12
is a partial cross-sectional side view of another embodiment of the top laminate;
FIG. 13
is a partial cross-sectional side view of the bottom laminate of the embodiment of
FIG. 12
;
FIG. 14
is a partial cross-sectional side view of another embodiment of the top laminate;
FIG. 15
is a partial cross-sectional side view of the bottom laminate of the embodiment of
FIG. 14
;
FIG. 16
is a partial cross-sectional side view of another embodiment of the top laminate;
FIG. 17
is a partial cross-sectional side view of the bottom laminate of the embodiment of
FIG. 16
,
FIG. 18
is a partial perspective view of an embodiment of the invention with both flaps separated with printing on both surfaces of each;
FIG. 19
is a partial cross-sectional side view of an embodiment of the top laminate;
FIG. 20
is a partial cross-sectional side view of the bottom laminate of the embodiment of
FIG. 19
;
FIG. 21
is a partial cross-sectional side view of an embodiment of the top laminate;
FIG. 22
is a partial cross-sectional side view of the bottom laminate of the embodiment of
FIG. 21
;
FIG. 23
is a partial cross-sectional side view of an embodiment of the top laminate;
FIG. 24
is a partial cross-sectional side view of the bottom laminate of the embodiment of
FIG. 23
;
FIG. 25
is a partial cross-sectional side view of an embodiment of the top laminate; and
FIG. 26
is a partial cross-sectional side view of the bottom laminate of the embodiment of FIG.
25
.
DETAILED DESCRIPTION OF THE INVENTION
As used herein, strongly adhered together means that it is difficult to pull apart the top and bottom laminates. As used herein, weakly adhered together means that it is easy to pull apart the top and bottom laminates.
In
FIG. 1
, prior art pouch
100
has pouch enclosure portion
101
and extended portion
102
, both of which are formed by contiguous composite
114
. Composite
114
, as shown in
FIG. 2
, has top laminate
111
and bottom laminate
112
which are strongly, tightly adhered (welded) together by heat sealable adhesive layer
113
. Bubble enclosure portion
104
contains tablet
105
. Periphery
103
around bubble enclosure portion
104
is tightly, strongly heat sealed by means of heat sealable adhesive layer
113
. As shown in
FIG. 2
, the internal portions of the expanded portions of top laminate
111
and bottom laminate
112
which form bubble enclosure
104
do not have any heat sealable adhesive
113
, but could readily contain heat sealable adhesive layer
113
on the internal surface of either or both of top laminate
111
and bottom laminate
112
. This is a matter of choice of design and production. Side periphery portion
106
is wider than the other three side portions of periphery
103
and forms web
114
. The parts of top laminate
111
and bottom laminate
112
which form web
114
are strongly, tightly adhered together by heat sealable adhesive layer
113
. Both external surfaces of web
114
(i.e., the outer surfaces of top laminate
111
and bottom laminate
112
) provide areas which can be printed upon. Web
114
can be much wider (not shown) and thereby forming more extensive external surfaces upon which printing can be placed, but the cost of the prior art pouch is accordingly increased.
Notch
109
is somewhat centrally located in web
114
, as shown in FIG.
1
. Fold line
108
in web
114
is parallel to the adjacent side of pouch enclosure
104
and traverses through notch
109
(forming outer portion
110
of notch
109
). The longitudinal axis of notch
109
is perpendicular to fold line
108
and the adjacent side of pouch enclosure
104
. As shown in
FIG. 3
, web
114
is folded over along fold line
108
. In this manner, notch
109
is also folded over thereby forming a notch
109
/
110
in the folded over edge of web
106
. Exposed notch
109
/
110
can then be used to tear folded-over web
106
and the areas of top laminate
111
and bottom laminate
112
to expose tablet
105
(see typical tear line
115
).
A preferred embodiment of the pouch of the invention is shown in
FIGS. 4
to
6
. Pouch
120
has pouch enclosure portion
121
and extended portion
122
(flap portion
122
). As shown in
FIG. 5
, top laminate
130
and bottom laminate
131
are contiguous. Bubble enclosure portion
124
contains tablet
105
. Periphery
123
around bubble enclosure portion
124
is tightly, strongly heat sealed (welded) by means of heat sealable layer
132
. As shown in
FIG. 5
, the internal surfaces of the expanded portions of top laminate
130
and bottom laminate
131
which form bubble enclosure
124
do not have any heat sealable adhesive
132
, but could readily contain heat sealable adhesive layer
132
on either or both of the internal surfaces of top laminate
130
and bottom laminate
131
. This is a matter of choice of design and production. Side periphery portion
181
is wider than the other three side portions of periphery
123
. Line
126
of perforations is situated at the interface of flap portion
122
and pouch enclosure portion
121
. Notch or slot
127
is located at each end of line
126
of perforations. Notch or slot
128
, located in periphery
123
, is aligned perpendicular to line
126
of perforations and does not contact line
126
of perforations.
Top laminate
130
and adhesive layer
132
/
180
(
125
) preferably are one of composites
133
of
FIGS. 8
,
10
,
12
,
14
and
16
. Bottom laminate
131
preferably is one of composites
135
of
FIGS. 9
,
11
,
13
,
15
and
17
.
The parts of top laminate
130
and bottom laminate
131
are tightly sealed together by adhesive layer
132
. The inner and outer surfaces of top laminate
130
and bottom laminate
131
provide extensive areas which can be printed upon. Flap portion
122
can be half of the size of web
114
of prior art pouch
100
in FIG.
2
and still have the same amount of surface for printing on. When flap portion
122
is the same size as web
114
of prior art pouch
100
, flap portion
122
has twice as much surface area for printing on. The invention includes decreasing the size of the pouch enclosure
124
, as compared to prior art pouch enclosure
104
, whereby flap portion
122
is larger than web
114
of prior art pouch
100
and flap portion
122
has more than twice as much surface area for printing on.
In flap portion
122
, top laminate
130
and bottom laminate
131
are weakly sealed together preferably in a pattern which only covers a minor portion of the inner surface of top laminate
130
and/or bottom laminate
131
(when top laminate
130
and bottom laminate
131
are separated) so as not to substantially reduce the surface areas of the inner surfaces of top laminate
130
and bottom laminate
131
which can contain printing. Adhesive layer
125
/
180
can extend over all or part of the inner surfaces of top laminate
130
and bottom laminate
131
. (All of part of adhesive layer
125
/
180
can be attached to top laminate
130
and bottom laminate
131
during formation of pouch
120
or when top laminate
130
and bottom laminate
131
are separated.) The most preferred pattern for adhesive layer
125
/
180
is shown in
FIG. 4
, namely, adhesive layer
180
has an arc shape with the open side facing line
126
of perforations, and adhesive layer
125
in spot (circular) shape in the outer corners of flap portion
122
. Adhesive layer
125
/
180
is preferably a peelable adhesive coating, a pressure sensitive coating, a cold seal adhesive coating or a weak heat sealable adhesive coating.
As shown in
FIG. 6
, top laminate
130
(with lightly sealed adhesive layer
125
/
180
) and bottom laminate
131
portions of flap portion
122
can be easily separated so as to expose the printing on the inner surfaces of top laminate
130
and bottom laminate
131
. If adhesive layer
125
/
180
is one which is resealable, top laminate
130
and bottom laminate
131
can be resealed. Top laminate
130
and/or bottom laminate
131
parts of flap portion
122
can be separated from pouch enclosure portion
121
along line
126
of perforations.
When flap portion
122
(or top laminate
130
or bottom laminate
131
) is connected to pouch enclosure
121
, notch or slot
128
is not exposed so as to provide easy tearing open of pouch
120
. If flap portion
122
(or top laminate
130
or bottom laminate
131
) is folded over along line
126
of perforations, notch or slot
128
is exposed so as to allow pouch
120
to easily be torn open. When flap portion
122
is separated from pouch enclosure portion
121
, notch or slot
128
can be used to assist in tearing across side periphery portion
181
and the areas of top laminate
130
and bottom laminate
131
to expose tablet
105
(see typical tear line
129
) by folding side periphery
181
over so as to expose notch or slot
128
to an edge. As notch or slot
128
does not contact line
126
of perforations, such factor makes it difficult for an infant/young child to accidentally open pouch
120
.
FIG. 7
shows the use of groove
137
(one or both sides of pouch
120
) in place of line
126
of perforations.
When inspecting current pouches used in pharmaceutical applications and if such pouch is a primary package for such pharmaceutical product, it is evident that the size and surface of the pouch is defined, not necessarily by the size of the product to be packaged (example: a small tablet of 3×10 mm is packaged in a pouch of 45×70 mm), by the amount of information legally required for a single product unit.
The invention, preferably makes use of simple laminates as primary packaging, which as material combinations known to people skilled in such art. These structures are, for instance, polyester film laminated to Ceramis®, i.e., a silicon oxide coated polyester film; or a paper layer of conventional weight of 30 to 50 gr./m
2
laminated to a silicon oxide coated polyester film or to a metallized polyester film; a polyester film laminated to a metal foil such as aluminum in the thickness of 6 to 12 microns and laminated to a polyolefin, like polyethylene. The heat seal coatings are commonly known compounds such as formulations of ethylene vinyl acetate applied wet and dried on a printing press dryer. Such simple laminates are very cost effective and can be mass-produced inexpensively.
The invention also encompasses more complex laminates/composites.
The polyolefins for the laminates are, for example, polyethylene, polypropylene and copolymers thereof, with low density polyethylene usually preferred. The adhesives are, for example, a urethane base or a polyolefinic type like polyethylene and copolymers thereof.
The laminates used in the invention pouches can be made by conventional lamination processes and equipment. The lamination process can be described as bonding together of two or three materials to form a multi-ply structure and is referred to as a duplex or triplex lamination, respectively. A triplex (film/foil/film) lamination process is described, as follows. Three materials, i.e., foil, film A and film B, are fed into the process from unwind stands. The lamination of the foil to film A begins as a coating process. A solvent-based adhesive coating is applied to one side of the foil. The adhesive is then dried through a multiple zone dryer producing a dry tacky film and is conveyed to a lamination station situated at the end of the drying tunnel. Film A, which has been delivered to the lamination station via a separate unwind and web path, is mated to the adhesive coated foil. The two materials are bonded together as they pass through a heated pressure nip formed by a chromed steel heated laminating roll and rubber coated backing roll. Temperature and pressure provide the necessary driving forces to achieve bonding. The laminating station is comprised of one heated laminating roll with a pressure roll and two chill rolls. The chill rolls cool the laminate to stabilize the web and make it easier to handle. This process is repeated as film B is laminated to the other side of the foil. This process, described as dry bond lamination, is performed as one continuous operation at speeds typically exceeding 100/m min.
The above and other laminated structures for the invention pouches described herein may be produced by other lamination processes, such as, extrusion lamination and coating, and heat laminations.
The laminates are then printed on both sides in register, i.e., the print information on one side of the laminate is synchronized with the other printed side. This process is known as two-sided print, and can be achieved at high speed and at low cost.
In addition to the print, but in register, a layer of sealable coating may be applied, as well as a layer of either cold sealable material or a heat sealable layer that has a lower seal strength than such sealable layer, are applied on the same side of the laminate. The other side of the laminate, which is also printed, is covered with a so-called heat resistant overlacquer or overprint varnish such as nitrocellulose or polyester base overlacquers, as is known in the art.
The finished laminate is thereby printed on both sides with pertinent regulatory and marketing information. One side of such laminate is covered with a heat resistant and/or a release overlacquer to protect the ink during the subsequent heat seal process or to keep it from sticking to the cold seal or other sealable coating. The other side of the laminate is also printed, but covered with two different heat sealable coatings, or one heat sealable and one cold-sealable coating over the printed information. Such heat seal coating(s) preferably is transparent, and therefore does not alter the appearance of the print.
The most preferred configurations are described on
FIGS. 8
to
13
which make use of tightly and partly sealed options, and
FIGS. 14
to
17
which create a different performance by a differential in heat seal coating or heat seal layer.
The pouch assembly is performed on conventional pouching equipment, requiring only minor tool modification from a conventional pouch-sealing machine.
There are different processes leading to a sealed conventional pouch. There are so-called rotary sealing machines, vertical form-fill and seal equipment, all leading to three-sided or four-sided sealed pouches, whereby the seal is along the perimeter of the pouch.
The laminate described in this invention is sealed with a so-called fusion or strong seal around the product to be packaged, for instance a pharmaceutical tablet, thereby using as little volume as required by the size of the product. The seal is performed by the heat seal coating described earlier. The cold sealable or the low seal heat sealable portion with a coating that has a lower seal strength is sealed either cold or with the same temperature as used for the heat sealable coating. The seal is designed in order to leave an area for the consumer to peel-open this seal, and therefore does not necessarily cover all the outside perimeter of the pouch.
Furthermore, a perforation is made along the firm seal, with notches extending to the sides of the pouch. The firm seal is provided with a tear-notch in the middle of the seal, as described earlier.
The outside of the pouch is printed and the information or appearance is similar to existing pouches. The print that was applied to the other side of the pouch is visible by peeling the portion of the pouch that is either cold-sealed or that was sealed with the coating having a lower seal strength than coating. When peeling these two sides of the pouch apart, the inside printing is visible to the consumer. Particularly with the cold seal or pressure sensitive, these flaps can be reclosed and stuck together if the product is not to be consumed at that time.
With the invention pouches, the amount of print information available to the consumer without even opening the pouch has been increased significantly.
When the product is to be consumed, the user needs to fold the firm seal perpendicularly to the provided notch in the seal and tear the structure, as one would normally do with existing pouches. That feature, combined with the perforation along the firm seal provides the child-resistant feature to the package.
When peeling the two peelable sides of the pouch with the added printed information with force, once the peel-opening reaches the firm seal with the provided perforation, these now separated flaps will invariably tear away from the firmly sealed portion of the pouch, along the provided perforation.
If, a user, not aware or not capable of reading the printed information (such as a child) performs the same operation, the flaps will separate at the perforations, without allowing access to the product, and therefore providing a child resistant package. If the user or the child notices the notches at the edge of the pouch and applies shear force, the notches and the perforations will tear the flaps away from the firmly sealed compartment containing the product. That way, a child resistant package is provided as well. The only possible way to open the pouch is to fold the firm seal as described earlier and tear the pouch from there along the notch. This represents a high degree of resistance to child opening, while being extremely convenient for adult consumers and particularly for the geriatric population, because a lot of force or a high dexterity to perform the two opening steps is not required.
The fact that the tear notch required to open the pouch is now located further away from the edge of the pouch than with conventional pouches makes it easier for the geriatric population to perform the fold necessary to tear the pouch, because the area to grab to fold is significantly larger. This at the same time is a further hindrance for the small hands of a child to inadvertently perform the required movement leading to a possibility to tear the pouch. Also this notch is very difficult to access by biting, a preferred mode of opening packages for children. The overall bigger print surface also allows for larger fonts to be used for printing the regulatory information as well as the opening indications, which are further welcome help for the geriatric population.
High barrier means that the laminate has a low level of oxygen and moisture permeability, whereas medium barrier means that the laminate has a higher level of oxygen and moisture permeability.
In
FIGS. 8 and 9
, a preferred embodiment of the invention is shown. The portion of pouch
120
shown is the cross-section of top laminate
130
and bottom laminate
131
, separately, at the interface region between pouch enclosure portion
121
and flap portion
122
. The line of perforations at the interface of pouch enclosure portion
121
and flap portion
122
is represented by numeral
129
. In
FIG. 8
, top laminate
130
is a high barrier transparent laminate and contains, from the outer surface to the inner surface thereof, respectively, (a) overprint varnish layer
138
, (b) first ink printed layer
139
, (c) polyester (preferably polyethylene terephthalate) layer
140
, (d) adhesive layer
141
, (e) Ceramis® polyester (preferably polyethylene terephthalate) layer
142
, (f) second ink printed layer
143
, and (g) numeral
144
represents the strongly adhered heat seal adhesive layer in pouch enclosure portion
121
, and numeral
145
represents the weakly adhered sealable adhesive layer in flap portion
122
. In
FIG. 9
, bottom laminate
131
is a high barrier, transparent laminate and contains, from the outer surface to the inner surface thereof, respectively, (h) overprint varnish layer
138
, (i) first ink printed layer
139
, (j) polyester (preferably polyethylene terephthalate) layer
140
, (k) adhesive layer
141
, (l) Ceramis® polyester (preferably polyethylene terephthalate) layer
142
, and (m) second ink printed layer
143
.
In
FIGS. 10 and 11
, another preferred embodiment of the invention is shown. The portion of pouch
120
shown is the cross-section of top laminate
130
and bottom laminate
131
, separately, at the interface region between pouch enclosure portion
121
and flap portion
122
. The line of perforations at the interface of pouch enclosure portion
121
and flap portion
122
is represented by numeral
129
. In
FIG. 10
, top laminate
130
is a high barrier, opaque laminate and contains, from the outer surface to the inner surface thereof, respectively, (a) overprint varnish layer
146
, (b) first ink printed layer
147
, (c) paper layer
148
, (d) adhesive layer
149
, (e) Ceramis® polyester (preferably polyethylene terephthalate) layer
150
, (f) second ink printed layer
151
, and (g) numeral
152
represents the strongly adhered heat seal adhesive layer in pouch enclosure portion
121
, and numeral
153
represents the weakly adhered sealable adhesive layer in flap portion
122
. In
FIG. 11
, bottom laminate
131
is a high barrier, opaque laminate and contains, from the outer surface to the inner surface thereof, respectively, (h) overprint varnish layer
146
, (i) first ink printed layer
147
, (j) paper layer
148
, (k) adhesive layer
149
, (l) Ceramis® polyester (preferably polyethylene terephthalate) layer
150
, and (m) second ink printed layer
151
.
In
FIGS. 12 and 13
, another preferred embodiment of the invention is shown. The portion of pouch
120
shown is the cross-section of top laminate
130
and bottom laminate
131
, separately, at the interface region between pouch enclosure portion
121
and flap portion
122
. The line of perforations at the interface of pouch enclosure portion
121
and flap portion
122
is represented by numeral
129
. In
FIG. 12
, top laminate
130
is a medium barrier, opaque laminate and contains, from the outer surface to the inner surface thereof, respectively, (a) overprint varnish layer
154
, (b) first ink printed layer
155
, (c) paper layer
156
, (d) adhesive layer
157
, (e) metallized polyester (preferred) layer
158
, (f) second ink printed layer
159
, and (g) numeral
160
represents the strongly adhered heat seal adhesive layer in pouch enclosure portion
121
, and numeral
161
represents the weakly adhered sealable adhesive layer in flap portion
122
. In
FIG. 13
, bottom laminate
131
is a medium barrier, opaque laminate and contains, from the outer surface to the inner surface thereof, respectively, (h) overprint varnish layer
154
, (i) first ink printed layer
155
,
0
) paper layer
156
, (k) adhesive layer
157
, (l) metallized polyester (preferred) layer
158
, and (m) second ink printed layer
159
. Layers
158
are particularly preferably Al metallized polyethylene terephthalate layers but can also be metallized polyolefin (preferably polyethylene, best high density polyethylene) layers.
In
FIGS. 14 and 15
, another preferred embodiment of the invention is shown. The portion of pouch
120
shown is the cross-section of top laminate
130
and bottom laminate
131
, separately, at the interface region between pouch enclosure portion
121
and flap portion
122
. The line of perforations at the interface of pouch enclosure portion
121
and flap portion
122
is represented by numeral
129
. In
FIG. 14
, top laminate
130
contains, from the outer surface to the inner surface thereof, respectively, (a) overprint varnish layer
162
, (b) first ink printed layer
163
, (c) polyester (preferably polyethylene terephthalate) layer or paper layer
164
, (d) first adhesive layer
165
, (e) aluminum foil
166
, (f) second adhesive layer
167
, (g) polyethylene (preferably low density polyethylene) layer
168
, (h) second ink printed layer
169
, and (i) numeral
170
represents the strongly adhered heat seal adhesive layer in pouch enclosure portion
121
, and numeral
171
represents the cold seal adhesive layer or the pressure sensitive adhesive layer or the weak heat sealable adhesive layer in flap portion
122
. In
FIG. 15
, bottom laminate
131
contains, from the outer surface to the inner surface thereof, respectively, (j) overprint varnish layer
162
, (k) first ink printed layer
163
, (l) polyester (preferably polyethylene terephthalate) layer or paper layer
164
, (m) first adhesive layer
165
, (n) aluminum foil
166
, (o) second adhesive layer
167
, (p) polyethylene (preferably low density polyethylene) layer
168
, and (q) second ink printed layer
169
.
In
FIGS. 16 and 17
, another preferred embodiment of the invention is shown. The portion of pouch
120
shown is the cross-section of top laminate
130
and bottom laminate
131
, separately, at the interface region between pouch enclosure portion
121
and flap portion
122
. The line of perforations at the interface of pouch enclosure portion
121
and flap portion
122
is represented by numeral
129
. In
FIG. 16
, top laminate
133
contains, from the outer surface to the inner surface thereof, respectively, (a) overprint varnish layer
172
, (b) first ink printed layer
173
, (c) paper layer
174
, (d) adhesive layer
175
, (e) Ceramis® polyester (preferably polyethylene terephthalate) layer
176
, (f) second ink printed layer
177
, and (g) numeral
178
represents the strongly adhered heat seal adhesive layer in pouch enclosure portion
121
, and numeral
179
represents the weakly adhered sealable adhesive layer in flap portion
122
. In
FIG. 17
, bottom laminate
131
contains, from the outer surface to the inner surface thereof, respectively, (h) overprint varnish layer
172
, (i) first ink printed layer
173
, (j) paper layer
174
, (k) adhesive layer
175
, (l) Ceramis® polyester (preferably polyethylene terephthalate) layer
176
, and (m) second ink printed layer
177
.
In
FIG. 18
, top laminate
130
has printing
182
on its top surface
133
and printing
183
on its bottom surface
134
, and bottom laminate
131
has printing
184
on its bottom surface
135
and printing
185
on its top surface
136
.
In
FIG. 19 and 20
, an embodiment of the invention is shown. The portion of the pouch
120
shown is the cross-section of top laminate
130
and bottom laminate
131
, separately, at the interface region between pouch enclosure portion
121
and flap portion
122
. The line of perforations at the interface of pouch enclosure portion
121
and flap portion
122
is represented by numeral
129
. In
FIG. 19
, top laminate
130
contains, from the outer surface to the inner surface thereof, respectively, polymeric film
186
and metal foil
187
. In
FIG. 20
, bottom laminate
131
contains, from the outer surface to the inner surface, respectively, polymeric film
186
and metal foil
187
.
In
FIG. 21 and 22
, an embodiment of the invention is shown. The portion of the pouch
120
shown is the cross-section of top laminate
130
and bottom laminate
131
, separately, at the interface region between pouch enclosure portion
121
and flap portion
122
. The line of perforations at the interface of pouch enclosure portion
121
and flap portion
122
is represented by numeral
129
. In
FIG. 21
, top laminate
130
contains, from the outer surface to the inner surface thereof, respectively, first polymeric film
188
, metal foil
189
and second polymeric film
190
. In
FIG. 22
, bottom laminate
131
contains, from the outer surface to the inner surface, respectively, first polymeric film
188
, metal foil
189
and second polymeric film
190
.
In
FIG. 23 and 24
, an embodiment of the invention is shown. The portion of the pouch
120
shown is the cross-section of top laminate
130
and bottom laminate
131
, separately, at the interface region between pouch enclosure portion
121
and flap portion
122
. The line of perforations at the interface of pouch enclosure portion
121
and flap portion
122
is represented by numeral
129
. In
FIG. 23
, top laminate
130
contains, from the outer surface to the inner surface thereof, respectively, first polymeric film
191
, metal foil
192
, second polymeric film
193
and sealable material layer
194
. In
FIG. 24
, bottom laminate
131
contains, from the outer surface to the inner surface, respectively, first polymeric film
191
, metal foil
192
, second polymeric film
193
and sealable material layer
194
.
In
FIG. 25 and 26
, an embodiment of the invention is shown. The portion of the pouch
120
shown is the cross-section of top laminate
130
and bottom laminate
131
, separately, at the interface region between pouch enclosure portion
121
and flap portion
122
. The line of perforations at the interface of pouch enclosure portion
121
and flap portion
122
is represented by numeral
129
. In
FIG. 24
, top laminate
130
contains, from the outer surface to the inner surface thereof, respectively, overlaquer layer
195
, first polymeric film
199
, metal foil
197
, second polymeric film
198
and sealable material layer
199
. In
FIG. 25
, bottom laminate
131
contains, from the outer surface to the inner surface, respectively, overlaquer layer
195
, first polymeric film
196
, metal foil
197
, second polymeric film
198
and sealable material layer
199
.
Claims
- 1. A pouch for a product, comprising a structure comprising a top laminate and a bottom laminate, a pouch enclosure for a product being formed in one portion of said structure, the top laminate and the bottom laminate of the pouch enclosure being strongly adhered together in the periphery around the pouch enclosure, a flap portion being formed by the remainder of said structure with a portion of the top laminate and a portion of the bottom laminate being weakly adhered together and being easily pulled apart, means for facilitating the separation of the flap portion and the pouch enclosure being situated at the interface between the flap portion and the pouch enclosure, a hole being located in the strongly adhered periphery of the pouch enclosure adjacent to the flap portion, at least one side of at least one member of the group consisting of the top laminate and the bottom laminate being capable of being printed on.
- 2. The pouch as claimed in claim 1 wherein printing is visibly contained on the inside and outside surfaces of both of the top laminate region and the bottom laminate region of the flap portion.
- 3. The pouch as claimed in claim 1 wherein the means for separating the flap portion from the pouch enclosure comprises a line of perforations aligned along the intersection of the flap portion and the pouch enclosure.
- 4. The pouch as claimed in claim 3 wherein, when the top and bottom laminate regions of the flap portion have been separated from each other, the top and bottom laminate regions can each individually be separated from the pouch portion.
- 5. The pouch as claimed in claim 3 wherein a notch is located on each end of the line of perforations and aligned on the longitudinal axis of the line of perforations.
- 6. The pouch as claimed in claim 1 wherein the means for separating the flap portion from the pouch enclosure comprises a groove located in at least one member of the group consisting of outer surface of the top laminate and outer surface of the bottom laminate, and aligned along the intersection of the flap portion and the pouch enclosure.
- 7. The pouch as claimed in claim 6 wherein a notch is located on each end of the groove line and aligned on the longitudinal axis of the groove or grooves.
- 8. The pouch as claimed in claim 1 wherein the hole is a slot, the longitudinal axis of the slot in the strongly adhered periphery of the pouch enclosure being aligned between 45 and 90 degrees to the intersection between the pouch enclosure and the flap portion.
- 9. The pouch as claimed in claim 8 wherein the periphery of the pouch enclosure adjacent to the flap portion is wider than the other parts of said periphery.
- 10. The pouch as claimed in claim 9 wherein the longitudinal axis of said slot is perpendicular to the intersection between the pouch enclosure and the flap portion.
- 11. The pouch as claimed in claim 1 wherein the top laminate contains, from the outer surface to the inner surface thereof, respectively:(a) an overprint varnish layer, (b) a first ink printed layer, (c) a polyester layer or a paper layer, (d) a first adhesive layer, (e) a metal foil, (f) a second adhesive layer, (g) a polyolefin layer, (h) a second ink printed layer, (i) a strongly adhered heat seal adhesive layer in the pouch enclosure, and a cold seal adhesive layer or a pressure sensitive adhesive layer or a peelable sealing adhesive layer or a weak heat sealable adhesive layer in the flap portion, and the bottom laminate contains, from the outer surface to the inner surface thereof, respectively:(j) an overprint varnish layer, (k) a first ink printed layer, (l) a polyester layer or a paper layer, (m) a first adhesive layer, (n) a metal foil, (o) a second adhesive layer, (p) a polyolefin layer, (q) a second ink printed layer.
- 12. The pouch as claimed in claim 1 wherein the top laminate contains, from the outer surface to the inner surface thereof, respectively:(a) an overprint varnish layer, (b) a first ink printed layer, (c) a paper layer, (d) an adhesive layer, (e) a silicon oxide coated polyester layer, (f) a second ink printed layer, (g) a strongly adhered heat seal adhesive layer in the pouch enclosure, and a cold seal adhesive layer or a pressure sensitive adhesive layer or a peelable sealing adhesive layer or a weakly adhered heat sealable adhesive layer in the flap portion, and the bottom laminate contains, from the outer surface to the inner surface thereof, respectively:(h) an overprint varnish layer, (i) a first printed layer, (j) a paper layer, (k) an adhesive layer, (l) a silicon oxide coated polyester layer, (m) a second ink printed layer.
- 13. The pouch as claimed in claim 1 wherein the top laminate is transparent and contains, from the outer surface to the inner surface thereof, respectively:(a) an overprint varnish layer, (b) a first ink printed layer, (c) a polyester layer, (d) an adhesive layer, (e) a silicon oxide coated polyester layer, (f) a second ink printed layer, (g) a strongly adhered heat seal adhesive layer in the pouch enclosure, and a weakly adhered sealable adhesive layer in the flap portion, and the bottom laminate contains, from the outer surface to the inner surface thereof, respectively:(h) an overprint varnish layer, (i) a first ink printed layer, (j) a polyester layer, (k) an adhesive layer, (l) a silicon oxide coated polyester layer, (m) a second ink printed layer.
- 14. The pouch as claimed in claim 1 wherein the top laminate is opaque and contains, from the outer surface to the inner surface thereof, respectively:(a) an overprint varnish layer, (b) a first ink printed layer, (c) a paper layer, (d) an adhesive layer, (e) a silicon oxide coated polyester layer or a metallized polyester layer, (f) a second ink printed layer, (g) a strongly adhered heat seal adhesive layer in the pouch enclosure, and a weakly adhered sealable adhesive layer in the flap portion, and the bottom layer contains, from the outer surface to the inner surface thereof, respectively:(h) an overprint varnish layer, (i) a first ink printed layer, (j) a paper layer, (k) an adhesive layer, (l) a silicon oxide coated polyester layer or a metallized polyester layer, (m) a second ink printed layer.
- 15. The pouch as claimed in claim 1 wherein each of the top laminate and the bottom laminate comprises the structure of a polymeric film and a metal foil.
- 16. The pouch as claimed in claim 1 wherein each of the top laminate and the bottom laminate comprises the structure of a first polymeric film, a metal foil and a second polymeric film.
- 17. The pouch as claimed in claim 16 wherein the top laminate has a layer of a sealable material which is located side of said second polymeric film opposite of said metal film.
- 18. The pouch as claimed in claim 17 wherein, for each of the top laminate and the bottom laminate, a layer of an overlacquer, which is a heat release overlacquer or a release overlacquer, is located on side of said first polymeric film opposite of said metal film.
- 19. The pouch as claimed in claim 1 wherein each of the top laminate and the bottom laminate comprises the structure of (a) at least one polymeric film, (b) a metal foil and (c) at least one polymeric film.
- 20. A pouch for a product, comprising: a structure comprising:(a) a pouch enclosure comprising a top laminate and a bottom laminate, the periphery of pouch portion comprising the periphery of the top laminate and the periphery of the bottom laminate being strongly adhered together by means of a heat sealed adhesive layer, at least one of the center region of the top laminate extended and the center region of the bottom laminate being outwardly extended, thereby forming a pouch enclosure wherein a product can be contained; and (b) a flap portion which is contiguous with the pouch enclosure, the flap portion comprising a contiguous extension of said top laminate and a contiguous extension of said bottom laminate, said contiguous extensions of said top and bottom laminates are weakly adhered together over a portion of inner surfaces of said contiguous extensions of said top and bottom laminates by means of a peelable adhesive coating, sealing a pressure sensitive coating material, a cold seal adhesive coating, or a weak heat sealable adhesive coating, a line of perforations being aligned along the intersection between the pouch enclosure and the flap portion, a notch being located on each end of the line on the longitudinal axis of the line of perforations, a hole being located in the strongly adhered periphery of the pouch enclosure adjacent to the flap portion, the hole being aligned perpendicular to the line of perforations and not contacting the line of perforations.
US Referenced Citations (13)
Foreign Referenced Citations (2)
Number |
Date |
Country |
1141810 |
Feb 1969 |
GB |
112641 |
Dec 1944 |
SE |