Technical Field
[0001] The invention relates to improvements in or relating to the packaging of food.
Background
[0002] It is known to provide a way of packaging food such as fresh fish between two plastic
films as a continuous process using a packaging apparatus. The two plastic films have
an adhesive coating which is heat-activated. A first lower film is fed from a first
roll onto a mould and formed into a series of trays having flat bases. A portion of
fresh fish is then placed onto each flat base. A second upper film is fed from a second
roll over the trays and the portions of fish. A partial vacuum is applied below the
tray and above and the second upper film together with the application of heat to
the second upper film. The region above the top film is then vented to atmosphere
to bond and seal the two films together so that the portions of fish are hermetically
sealed between the two films. The two films having the fish sealed between them are
then repeatedly cut so that separate packages containing the fish are produced. Typically
the lower film is an opaque material, and the upper film is a clear material so that
the portion of fish is visible. Overall the packages have the effect of keeping the
fish fresher for a longer period of time and thereby increasing the shelf life. The
packages are suitable for transporting to a supermarket in bulk and for stacking on
shelves ready for sale. The packages also present the fish to the consumer in an appealing
manner because it has a three-dimensional appearance. Such a way of packaging may
be termed skin packaging which is characterised by the use of adhesive between the
two films, and whereby the upper film is a shrink wrap film. The skin packaging method
is distinct from conventional vacuum packaging which merely applies a partial vacuum
and then creates a seal around a perimeter of the food.
[0003] Whereas the package may keep the portion of fish fresh, for example, up to seven
days, a problem may be encountered towards the end of this shelf life because water
and juices may be lost from the fish. The water collects on the top and on the side
of the portion of fish within the pack itself. The water may contribute to reducing
the shelf life of the fish within the package, or at least contribute to a reduction
in the colour, flavour or integrity of the fish. In addition the water looks unsightly
and may be unappealing to the consumer.
[0004] Water collecting within the package may be a particular problem when the package
containing the fish is frozen prior to transportation and delivery to the supermarket.
Such freezing is typically required when the fish is being transported of a long distance
such as exporting to another country. At the supermarket the package typically undergoes
a controlled defrosting process before it is placed on the supermarket shelves for
sale. Such freezing increases the volume of the portion of fish because water expands
when frozen. This in turn causes the upper plastic film to stretch and become loose.
The upper plastic film may also become loose when the fish has moved or slipped on
the tray whether the fish has not been frozen or not. If the package is displayed
in an upright position the water may collect in a pouch of the upper plastic film.
Overall the collection of water in the pouch between the fish and the top plastic
film provides a poor presentation of the package to the customer.
[0005] It is known in the packing of meats such as pork, chicken or beef to use an absorbent
sheet between the meat and the tray. The absorbent sheet soaks up any unwanted water
and juices from the meat. However, the use of such an absorbent sheet when packaging
food using the skin packaging method described above is expressly not recommended
within the industry because the absorbent sheet may interfere with the seal between
the two films.
[0006] Another problem of the known tray is that the portion of fish may slide on the flat
base during the packing process or during transport of the finished package. During
the packing process such sliding may be occur when the operator places the portion
of fish on the tray, or it may be due to changes in speed or direction of the tray
imparted by the packaging apparatus prior to the formation of the upper film on the
tray. Sliding of the fish on the tray may leave a residue from the food which may
interfere with the bond and seal between the two films of plastic and reduce its effectiveness.
Such a reduction in the integrity of the seal may affect the shelf life of the fish.
[0007] A further problem with the known tray is that it is relatively flimsy, which may
bend excessively when the top film is peeled away from it. The water between the two
films of plastic may then spill out of the package which is undesirable for the end
user.
[0008] It is known from
JP1981 013228 (Sankei) to provide a non-vacuum package for a cake comprising a tray and a cover. The package
has a deoxidiser in a recess underneath the cake to provide an oxygen-absorptive effect
within the package.
[0009] It is also known from
US2005/244551 (Roth Eldon) to provide non-vacuum a package for meat or seafood. The package has a modified
atmosphere containing carbon dioxide with a slight positive pressure.
US 5916613 discloses a package according to preamble of claim 7.
[0010] It is broadly an object of the present invention to address one or more of the above
mentioned disadvantages of the previously known ways of packaging food.
Summary
[0011] What is required is a way of packaging food which may reduce or minimise at least
some of the above-mentioned problems.
[0012] According to a first aspect of the invention, there is provided a method according
to the claims.
[0013] Such a method has the advantage that the portion of food may be kept fresher for
a longer period of time, which may increase the shelf life, or at least contributes
to an improved colour, flavour or integrity of the food over a given period of time.
This advantage is provided by the ability of the water and other juices from the portion
of food to pass to the absorbent pad via said at least one duct. The Applicant has
discovered that water is not good for the food, and in particular for the shelf life
of fish, which has a tendency to deteriorate more quickly. Since the use of an absorbent
pad when packaging fish is expressly not be recommended by packaging suppliers this
represents a prejudice away from using absorbent pads in the technical field. The
Applicant has discovered that with the invention the risks associated with using an
absorbent pad are avoided or at least significantly reduced or minimised to acceptable
levels. The Applicants have also realised that when the fish is frozen there is an
opportunity for ice crystals to develop and grow within the tissue of the food. The
tissue of fish is thought to release more water when defrosted.
[0014] In addition, a further advantage is provided by said at least one channel which may
assist with gripping of the food to inhibit it from sliding on the tray. This may
provide the advantage of improving the integrity of the seal between the two films.
Furthermore, said at least one channel may stiffen the tray. This may provide the
advantage of making the second plastic film easier to remove from the tray or avoiding
the tray flexing excessively. Such a stiffer tray may also allow a lighter weight
tray to be used, which may provide a cost and environmental advantage. It will be
appreciated that the tray may be formed by the packaging apparatus or it may be pre-formed
separately and then subsequently fed into the packaging apparatus.
[0015] Preferably the method further includes cutting the two films to create a separate
package containing the portion of food and the absorbent pad. According to the invention
the method further includes placing the portion of food on the floor of the tray so
that it is at least partially on the absorbent pad, and preferably so that it wholly
covers the absorbent pad. Such arrangements permits the water or juices to pass more
easily to the absorbent pad.
[0016] Preferably the method further includes forming the tray with a continuous lip around
the portion of food, said at least one channel and the absorbent pad, the lip for
providing a continuous seal between the plastic films. This has the advantage of providing
an improved seal. Preferably the method includes forming the lip on the floor of the
tray.
[0017] According to the invention, the method further includes forming the floor of the
tray with a plurality of channels for providing a plurality of ducts between the plurality
of channels and at least one of the second plastic film, the absorbent pad, and the
portion of food. According to the invention the method further includes forming the
plurality of channels so that the ducts are in communication with one another. Such
arrangements permits the water or juices to pass more easily to the absorbent pad,
and may also assist with stiffening the tray, and allow a lighter weight tray to be
used, which may provide a cost and environmental advantage.
[0018] According to the invention the method further includes forming said at least one
channel using a row or a grid of raised portions of the floor of the tray. Such arrangements
permit the water or juices to pass more easily to the absorbent pad, and may also
assist with stiffening the tray. Furthermore, the raised portions may help the tray
to grip the food and to inhibit it from moving on the tray.
[0019] Preferably the method is provided as a continuous process. Preferably the first plastic
film and/or the second plastic film are provided on respective feed reels. Preferably
the portion of food is fish.
[0020] According to the invention the method further includes using the packaging apparatus
to urge the two plastic films together by applying a partial vacuum above the second
plastic film and below the first plastic film, and then venting a region above the
second plastic film to atmospheric pressure. Preferably the method further includes
using the packaging apparatus to apply heat to at least partially bond the two plastic
films together. The heat may activate an adhesive of one or both of the plastic films.
[0021] Preferably the method further includes forming a well in the floor of the tray, wherein
the well is in communication with the at least one channel.
[0022] According to an aspect of the invention there is provided a package according to
the claims 7-14. Such a package has the advantage that the portion of food may be
kept fresher for a longer period of time, which may increase the shelf life, or at
least contributes to an improved colour, flavour or integrity of the food. This advantage
is provided by the ability of the water and other juices from the portion of food
to pass to the absorbent pad via said at least one duct. In addition, said at least
on channel may assist with gripping of the food to inhibit it from sliding on the
tray. This may provide the advantage of improving the integrity of the seal between
the two films. Furthermore, said at least one channel may stiffen the tray. This may
provide the advantage of making the second plastic film easier to remove from the
tray or avoiding the tray flexing excessively. Such a stiffer tray may also allow
a lighter weight tray to be used, which may provide a cost and environmental advantage.
[0023] Preferably the absorbent pad at least partially covers at least a part of said at
least one channel. Preferably the portion of food on the floor of the tray is at least
partially on the absorbent pad, and preferably the portion of food on the floor of
the tray wholly covers the absorbent pad. Such arrangements permits the water or juices
to pass more easily to the absorbent pad.
[0024] Preferably the tray has a continuous lip around the portion of food, said at least
one channel and the absorbent pad, the lip for providing a continuous seal between
the plastic films. This has the advantage of providing an improved seal. Preferably
the lip is formed on the floor of the tray.
[0025] According to the invention, the floor of the tray has a plurality of channels for
providing a plurality of ducts between the plurality of channels and at least one
of the second plastic film, the absorbent pad, and the portion of food. According
to the invention the plurality of channels run along the length of the floor of the
tray. According to the invention the plurality of channels run along the width of
the floor of the tray. According to the invention the plurality of channels are provided
so that the ducts are in communication with one another. A spacing between adjacent
channels may be between 0.5cm and 2.0cm, and preferably 1.0cm. Such arrangements permits
the water or juices to pass more easily to the absorbent pad, and may also assist
with stiffening the tray.
[0026] According to the invention said at least one channel is provided by a row or a grid
of raised portions of the floor of the tray. According to the invention the raised
portions are discrete projections from the floor of the tray. According to the invention
each raised portion has an apex. Preferably each apex has an area of between 0.75
to 4mm
2, and preferably 2.5mm
2. Such arrangements may provide the advantage of helping the tray to grip the food
and to inhibit it from moving on the tray.
[0027] Preferably each raised portion has at least one face which is concave. Preferably
each raised portion has a height of between 1.0mm and 7.0mm, and preferably 3.6mm.
Such arrangements may provide the advantage or promoting a separation between the
tray and the film to create said at least one duct.
[0028] Preferably the portion of food is fish. One or both of the plastic film and the tray
may be a thermoforming material.
[0029] Preferably the tray has a sidewall extending from the floor. Preferably the tray
is an opaque plastic. Preferably at least a part of the plastic film is a see-through
plastic film.
[0030] According to the invention the plastic film is formed onto the tray by applying a
partial vacuum above the plastic film and below the tray, and then venting a region
above the plastic film to atmospheric pressure to urge the plastic film and the tray
together. Preferably the plastic film is at least partially bonded to the tray with
the application of heat. The heat may activate an adhesive of the plastic film or
the tray.
[0031] Preferably the floor of the tray has a well in communication with the at least one
channel.
[0032] Preferably the plastic film is a breathable film.
[0033] Such an apparatus has the advantage that the portion of food may be kept fresher
for a longer period of time, which may increase the shelf life, or at least contributes
to an improved colour, flavour or integrity of the food. This advantage is provided
by the ability of the water and other juices from the portion of food to pass to the
absorbent pad via said at least one duct. In addition, said at least on channel may
assist with gripping of the food to inhibit it from sliding on the tray. This may
provide the advantage of improving the integrity of the seal between the two films.
Furthermore, said at least one channel may stiffen the tray. This may provide the
advantage of making the second plastic film easier to remove from the tray or avoiding
the tray flexing excessively. Such a stiffer tray may also allow a lighter weight
tray to be used, which may provide a cost and environmental advantage.
[0034] Preferably the tray is formed by a mould of the apparatus from a first plastic film.
Preferably one or both of the first and second films are provided on respective feed
reels. Preferably the apparatus has a blade to cut the tray and the plastic film to
create a separate package containing the portion of food and the absorbent pad. Such
arrangement provide the advantage that the apparatus can be operated as a continuous
process where successive portions of food are packaged.
[0035] Preferably the apparatus is arranged to provide the absorbent pad on the floor of
the tray so that it at least partially covers at least a part of said at least one
channel. Preferably the apparatus is arranged to place the portion of food on the
floor of the tray so that it is at least partially covers a part of said at least
one channel. Preferably the apparatus is arranged to place the portion of food on
the floor of the tray so that it is at least partially on the absorbent pad, and preferably
so that the portion of food on the floor of the tray wholly covers the absorbent pad.
Such arrangements permits the water or juices to pass more easily to the absorbent
pad.
[0036] Preferably the tray is formed with a continuous lip around the portion of food, said
at least one channel and the absorbent pad, the apparatus being arranged to form a
continuous seal between the lip and the plastic film. This has the advantage of providing
an improved seal. Preferably the lip is formed on the floor of the tray.
[0037] Preferably the apparatus is arranged to form said at least one channel using a row
or a grid of raised portions of the floor of the tray. Such arrangements may provide
the advantage of helping the tray to grip the food and to inhibit it from moving on
the tray.
[0038] Preferably the apparatus is arranged to form the floor of the tray with a plurality
of channels for providing a plurality of ducts between the plurality of channels and
at least one of the plastic film, the absorbent pad, and the portion of food. Preferably
the apparatus is arranged to form the plurality of channels so that the ducts are
in communication with one another. Such arrangements permits the water or juices to
pass more easily to the absorbent pad, and may also assist with stiffening the tray.
[0039] Preferably the apparatus is arranged for packaging successive portions of food as
a continuous process.
[0040] According to the invention the apparatus is operable to urge the plastic film onto
the tray by applying a partial vacuum above the plastic film and below the tray, and
then venting a region above the plastic film to atmospheric pressure. Preferably the
apparatus is operable to bond the plastic at least partially bonded to the tray with
the application of heat. The heat may activate an adhesive of the plastic film or
the tray.
[0041] Preferably the floor of the tray has a well in communication with the at least one
channel. Preferably the plastic film is a breathable film.
Brief Description of the Drawings
[0042] Other features of the invention will be apparent from the following description of
preferred embodiments shown by way of example only with reference to the accompanying
drawings, in which;
Figure 1 shows a schematic side view of an apparatus for packaging food according to an embodiment
of the invention;
Figure 2 shows a perspective view of the tray shown in Figure 1;
Figure 3 shows a close-up perspective view of a tray floor shown in Figures 1 and 2;
Figure 4 shows a cross sectional view of the tray shown in Figures 1 - 3;
Figure 5 shows a cross sectional view of the package shown in Figure 1;
Figure 6 shows steps of a method according to embodiment of the invention;
Figure 7 shows a plan view and a cross section of a mould according to an embodiment of the
invention;
Figure 8 shows a perspective view of a tray according to another embodiment of the invention;
and
Figure 9 shows experimental results relating to embodiments of the invention.
Detailed Description
[0043] Figure 1 shows a schematic side view of an apparatus for packaging food according
to an embodiment of the invention, generally designated 10. The apparatus 10 has two
feed reels 12, 14 of sheet or film plastics material. The first feed reel 12 has a
stock of opaque plastic film 16 which is a thermoforming material. The second feed
reel 14 has a stock of see-through or clear plastic film 18 which is also a thermoforming
material. In the apparatus 10 the opaque plastic film 16 is arranged to travel in
a direction from left to right as shown by the arrow 20, which is the direction of
travel of a production line of the apparatus 10. The opaque plastic film 16 and the
clear plastic film 18 are comprised of a mixture of food grade plastics including
poly styrenic resins. One or both of the two plastic films 16, 18 have a known adhesive
coating which is, for example heat-activated or activated by the application of light
having a particular wavelength. In one arrangement the plastic film 16 is a gas permeable
plastic film.
[0044] The opaque plastic film 16 is fed from the first feed reel 12 onto a mould 22 or
forming tool where it is formed into a series of trays 24, which are attached to each
other. For example, heat is applied to the opaque plastic film 16 from above as shown
by arrow 25, and the mould 22 is moved upwards as shown by arrow 26 to form the trays
24. A partial vacuum or air pressure may be applied to the opaque plastic film 16
during the moulding stage to form the trays 24. The mould 22 has a mould floor 28
with a series of channels 30 which have been machined into it. The channels 30 of
the mould 22 produce corresponding channels 32 in a tray floor 33 of the trays 24
when formed. The channels 32 are described in greater detail below with reference
to Figures 2 - 5.
[0045] Whereas the term tray 24 is used it will be understood that the tray 24 is a container
or a receptacle having an open top, and which has a floor and a side wall which extends
from the floor and is continuous. In an alternative arrangement the tray 24 does not
have side walls and is substantially planar and includes the channels 32.
[0046] The apparatus 10 is arranged to place an absorbent sheet or pad 34 onto the base
28 of each formed tray 24. Alternatively the absorbent sheet 34 may be placed manually
onto each tray 24. The apparatus 10 then places a portion of fresh fish 36 onto the
absorbent sheet 34 of each tray 24. Alternatively the portion of fresh fish 36 may
be placed manually onto each tray 24. The absorbent sheet 34 is of a known kind, and
acts to absorb water and other juices/liquid from the portion of fresh fish 36 as
described in greater detail below. The absorbent sheet 34 has a smaller area than
the portion of fish 36 when viewed from above so that it is concealed by the portion
of fish 36. It will be appreciated that the step of forming the tray 24 requires the
application of heat 25. The formed tray 24 is required to be sufficiently cool before
the portion of fish 36 is placed on it to reduce the possibility of heating or partially
cooking it. In this respect the absorbent sheet 34 has the advantage that it may provide
an amount of heat insulation between the portion of fish 36 and the tray 24 to reduce
or avoid unwanted heating or cooking of the fish 36.
[0047] The apparatus 10 then feeds the clear plastic film 18 from the second feed reel 14
over the trays 24 and the portions of fish 36 having the absorbent sheet 34 underneath
them, as shown at 38. A vacuum packaging device 40, 42 then moves over each tray 24
as shown by arrows 44, 46 to apply a partial vacuum below the tray 24 and above and
the clear plastic film 18 together with the application of heat to the clear plastic
film 18. For example, the clear plastic film 18 may reach a temperature of around
200 - 210°C under the application of heat. For example, the partial vacuum may be
around 3 to 10 mbar. The region above the clear plastic film 18 film is then vented
to atmosphere. This process removes sufficient air between the two plastic films 16,
18. The apparatus applies heat, for example using a heating element of the vacuum
packaging device 40, 42, to activate the adhesive on the plastic films 16, 18 to adhesively
bond and seal them together at the points where they are in contact with each other.
In this manner the portions of fish 36 and the absorbent sheet 34 are hermetically
sealed between the two plastic films 16, 18. The two plastic films 16,18 and the vacuum
packaging device 40, 42 are of a known kind whereby the two plastic films 16, 18 are
arranged to bond or partially bond to each other during the venting of the region
above the clear plastic film 18 to atmospheric pressure and/or heat. One or both of
the films 16,18 may be provided with the adhesive to provide the required bonding
therebetween. The apparatus 10 has cutters 48, 50 which move as shown by arrows 52,
54 to consecutively cut each tray 24 so that separate packages 56 containing the fish
36 are produced. As an alternative to using the adhesive, the cutters 48, 50 may partially
melt the films 16, 18 together to form the seal therebetween at the points where they
are in contact with each other.
[0048] The apparatus 10 produces packages 56 of fish 36 between the two plastic films 16,
18 as a continuous process on the production line of the apparatus 10. Alternatively
the apparatus 10 may be arranged to produce packages 56 of fish 36 in batches as a
continuous process. Whereas the apparatus 10 has been described above it will be appreciated
that it may be constructed from a known apparatus such as a CRYOVAC™ DARFRESH™ apparatus
available from Sealed Air Corporation, which has been modified according to the embodiments
of the invention. With such an apparatus, or using the apparatus 10 described above,
the opaque plastic film 16 may be a black film having the technical specification
PFIL059, and the clear plastic film 18 may be a multi-layer clear plastic film having
a thickness of 400 micrometres and comprised in the majority of styrenic resins. Packages
56 produced using the DARFRESH™ apparatus or the apparatus 10, may be described as
skin packs or skin packages because they have a base tray 24 with a plastic film 18
or a skin which has been formed thereon. Such a way of packaging may be termed skin
packaging which is characterised by the use of adhesive between the two films 16,
18, and whereby the upper film is a shrink wrap film so that it stretches around the
fish 36.
[0049] The package 56 comprises a moulded tray 24 where the clear plastic film 18 envelops
the fish 36 and cooperates with the tray 24 to bond to it. The clear plastic film
18 is a transparent protective film which adheres to the tray 24 while allowing sight
of the fish 36 by the consumer.
[0050] Whereas the apparatus 10 shows that the tray 24 is formed by the apparatus 10, it
will be appreciated that alternatively the tray 24 may be pre-formed elsewhere and
then fed into the apparatus 10. If the tray 24 is pre-formed it may not necessarily
be of a thermoforming plastic, and it may be for example expanded foam. The steps
of placing the fish 36 and absorbent pad 34 onto the tray 24 and laying the clear
plastic film 18 onto the tray 24 prior to applying the partial vacuum and venting
to atmospheric pressure can then be performed by the apparatus 10.
[0051] Figure 2 shows a perspective view of the tray 24 shown in Figure 1. In Figure 2 like
features to the arrangements of Figure 1 are shown with like reference numerals. In
Figure 2 the channels 32 of the tray floor 33 are shown to run in a transverse direction
along the tray 24 as indicated by an arrow 58. The channels 32 also run in a longitudinal
direction along the tray 24 as indicated by an arrow 60. It will be appreciated that
the arrows 58, 60 are perpendicular to each other when the tray 24 is viewed from
above. In another embodiment the transverse and longitudinal channels 32 may not be
perpendicular or aligned with a width or length of the tray. As shown in Figure 2
there are sixteen channels 32 which run in the transverse direction 58, and eight
channels 32 which run in the longitudinal direction 60. The transverse channels 58
and the longitudinal channels 60 intersect each other so that they are in communication
with each other i.e. so that the lowest point or bottom of the channels are in communication
with each other. The channels 32 are formed by a plurality of raised portions 62 of
the tray floor 33. In this manner the channels 32 are recessed in the tray floor 33.
The raised portions 62 are arranged in rows in a grid formation. In the embodiment
shown the raised portions 62 are provided on substantially the entire tray floor 33.
With such an arrangement the area of the raised portions 62 is larger than the footprint
of the portion of fish 36. Also shown is a raised rim or lip 64 of the tray floor
33, which runs around the channels 32 and the raised portions 62. The lip 64 is between
the tray floor 33 and sides 66 of the tray.
[0052] Figure 3 shows a close-up perspective view of the tray floor 33 shown in Figures
1 and 2. In Figure 3 like features to the arrangements of Figures 1 and 2 are shown
with like reference numerals. In Figure 3 each raised portion 62 is shown to be a
pyramid having a square base 68 and an apex 70 which is truncated to create a flat
top or a curved top. Each apex 70 may have an area of between 0.75 to 4mm
2, and preferably 2.5mm
2. The apex 70 of each raised portion 62 promotes release of the tray 24 from the mould
22. Each pyramid has four faces 72 which are concave, i.e. which bow inwards. Such
an arrangement of the raised portions promotes the creation of a duct 76 (shown in
Figure 5) between the two films 16, 18 in the region of the channels 32 when they
are bonded together during the application of a partial vacuum and venting to atmospheric
pressure as described above. The flat or curved top of each apex 70 reduces the possibility
for the raised portions to pierce the portions of fish 36 or the clear plastic film
16, and they provide a way of gripping the fish 36 to inhibit it from moving on the
tray 24 during the packing process described above and during transportation to a
supermarket. The apex 70 of each raised projection 62 bonds with the second film 18
when a partial vacuum and heat is applied followed venting to atmospheric as described
above. It will be appreciated that the channels 32 are formed by the raised portions
62, i.e. substantially entirely formed by the raised portions with the exception of
the channel 32 formed adjacent to the lip 64 that is around the raised portions 32.
The raised portions 32 are not strips or elongate portions of the tray floor 33, but
are discrete portions (i.e. symmetrical discrete projections) arranged in a grid formation.
Alternatively the raised portions 32 may be termed castellations which each have the
apex 70.
[0053] Figure 4 shows a cross sectional view of the tray 24 shown in Figures 1 - 3. In Figure
4 like features to the arrangements of Figures 1 - 3 are shown with like reference
numerals. In Figure 4 the cross sectional view is along the length of the tray 24
and through the apexes 70 of the raised portions 62. It will be appreciated that the
cross sectional view along the width of the tray 24 is similar. The height of each
raised portion 62 between the lowest point of the channel 32 and the highest part
of the apex 70 is indicated by the double arrows 74. In the embodiment shown the dimension
74 is about 3.6mm. It is envisaged that the dimension 74 could be between 1.0mm and
7.0mm whilst still providing the desired effect. The width between successive lowest
points of the channel 32 is indicated by the double arrows 75. In the embodiment shown
the dimension 75 is about 1.0cm. It is envisaged that the dimension 75 could be between
0.5cm and 2.0cm whilst still providing the desired effect. However, if the spacing
of the channels 32 is large it will be appreciated that any water from the fish 36
may not find its way to the absorbent sheet 34. In addition the apexes 70 of the raised
portions 62 may not grip the fish 36 sufficiently well to reduce the chances of it
slipping on the tray floor 33 during packing and transport. Also shown is the lip
64 which runs around the channels 32 and the raised portions 62. The lip 64 is between
the tray floor 33 and sides 66 of the tray. The skilled person will know the requirements
to provide the required drainage of the fish 36 whilst also providing an appropriate
spacing of the channels. Whereas Figure 4 depicts a cross sectional view, it will
be appreciated that the view is what would be seen if the tray 24 is cut along its
length in the middle thereof, and viewed from a side thereof.
[0054] Figure 5 shows a cross sectional view of the package 56 shown in Figure 1. In Figure
5 like features to the arrangements of Figures 1 - 4 are shown with like reference
numerals. In Figure 5 spaces or ducts 76 are shown to be created between the two plastic
films 16, 18 that have been bonded or partially bonded to each other. The ducts 76
are in the region adjacent to the lowest point of the channels 32. The ducts 76 are
also created between the absorbent sheet 34 and the opaque plastic film 18, and between
the portion of food 36 and the opaque plastic film 18. The ducts 76 may be present
in one or more of these three locations. It will be appreciated that due to the lattice
of channels 32 of the tray 24 which are arranged as a grid the ducts 76 are interconnected
to each other. In this manner the fish 36 is raised above the lowest part of the tray
floor 33 by the raised portions 62. It can also be seen that the apexes 70 of the
raised portions 62 touch and grip the portion of fish 36, which inhibits movement
of the fish 36 on the tray 24. Also shown is the lip 64 which is continuous around
the channels 32 and the raised portions 62. The lip 64 creates a part of the tray
24 onto which the clear plastic film 16 can bond which provides an improved seal between
the two plastic films 16, 18 that is continuous around the portion of fish 36.
[0055] From the above Figures 2 - 5 it can be seen that the ducts 76 are in communication
with each another. This is because the channels 32 are connected to each other, and
because the clear plastic film 16 is above the floor of each channel 32. If the package
56 is tipped from the horizontal position any water or juices from the fish 36 finds
its way to the absorbent sheet 34 underneath the fish 36. The raised portions 62 lift
the portion of fish 36 above the floor of the channels 32 so that the fish 36 does
not rest in the water or juices. It will be appreciated that the channels 32 and raised
portions 62 are not mere surface decoration, and have been specifically designed to
form ducts 76 with the clear plastic film 16 to perform the function of permitting
water and other juices from the fish 36 to pass more easily to the absorbent sheet
34. Furthermore the ducts 76 are typically not mere capillary ducts that operate under
capillary action, but are ducts 76 through which water and other juices can flow under
the action of gravity.
[0056] Figure 6 shows steps of a method according to embodiment of the invention, generally
designated 80. It will be appreciated that the steps may be performed in a different
order, and may not necessarily be performed in the order shown in Figure 6. The method
60 is a method of packaging food 36 between a first plastic film 12 and a second plastic
film 14 using a packaging apparatus 10. The method includes forming a tray 24 from
the first plastic film 12, as shown at 82, the tray 24 having a floor 33 with at least
one channel 32. The method includes providing an absorbent pad 34 on the floor 33
of the tray 24, as shown at 84. The method includes placing a portion of food 36 on
the floor 33 of the tray 24, as shown at 85. The method includes placing the second
plastic film 14 on the tray 24 to sandwich the absorbent pad 34 and the portion of
food 36 between the plastic films 16, 18, as shown at 86. The method includes using
the packaging apparatus 10 to urge the two plastic films 16, 18 together and to create
a seal therebetween, as shown at 88, wherein at least one duct 76 is formed between
said at least one channel 32 and at least one of the second plastic film 16, the absorbent
pad 34, and the portion of food 36.
[0057] The method further includes cutting the two films 16, 18 to create a separate package
56 containing the portion of food 36 and the absorbent pad 34, as shown at 90. The
method further includes providing the absorbent pad 34 on the floor 33 of the tray
24 so that it at least partially covers at least a part of said at least one channel
32, as shown at 84. The method further includes placing the portion of food 36 on
the floor 33 of the tray 24 so that it is at least partially cover a part of said
at least one channel 32, as shown at 85. The method further includes placing the portion
of food 36 on the floor 33 of the tray 24 so that it is at least partially on the
absorbent pad 34, as shown at 85. The method further includes placing the portion
of food 36 on the floor 33 of the tray 24 so that it wholly covers the absorbent pad
85.
[0058] The method further includes forming the tray 24 with a continuous lip 64 around the
portion of food 36, said at least one channel 32 and the absorbent pad 34, the lip
64 for providing a continuous seal between the plastic films 16,18. The method further
includes forming the floor 33 of the tray 24 with a plurality of channels 32 for providing
a plurality of ducts 76 between the plurality of channels 32 and at least one of the
second plastic film 18, the absorbent pad 34, and the portion of food 36. The method
further includes forming the plurality of channels 32 so that the ducts 76 are in
communication with one another, as shown at 82. The method further includes forming
said at least one channel 32 using a row or a grid of raised portions 62 of the floor
33 of the tray 24. The method further includes forming the tray 24 with a sidewall
66 extending from the floor 33. The method further includes using the packaging apparatus
10 to urge the two plastic films 16, 18 together by applying a partial vacuum above
the clear plastic film 18 and below the opaque plastic film 16, and then venting a
region above the clear plastic film 18 to atmospheric pressure. The method further
includes using the packaging apparatus 10 to apply heat to at least partially bond
the two plastic films 16, 18 together.
[0059] Figure 7 shows a plan view and a cross section of the mould 22 according to an embodiment
of the invention. In Figure 7 like features to the arrangements of Figures 1 - 6 are
shown with like reference numerals. Figure 7 shows dimensions in mm. Also shown are
raised portions 92 and apexes 94 of the mould 22 which form the raised portions 62
and the apexes 70 of the tray 24.
[0060] Figure 8 shows a perspective view of a tray according to another embodiment of the
invention, generally designated 95. In Figure 8 like features to the arrangements
of Figures 1 to 5 are shown with like reference numerals. In Figure 8 a trough 96
is shown in the centre of the tray floor 33. The trough 96 is at the same level as
the channels 32 and operates as a well or sink to collect water from the fish 36 so
that it passes to the absorbent sheet 34 more efficiently. In other words, the tough
96 is recessed in the tray floor 33 in a similar manner to the channels 32. The trough
96 operates to connect the channels 32 to the absorbent sheet 34. The trough 96 is
smaller than the footprint of the portion of fish 36 on the tray floor 33. The trough
96 is rectangular and has a length of about 90mm and a width of about 10mm. It is
envisaged that the length of the trough 96 may be between 80 to 100mm. It is envisaged
that the width of the trough 96 may be between 5 to 15mm. The trough 96 has a floor
98 which is flat, and may be used for embossing text thereon. The trough 96 is relatively
narrow and relatively long, which is advantageous because the spaces or ducts 76 are
maintained and the apexes 70 still operate to grip the fish 36.
[0061] Figure 9 shows experimental results relating to embodiments of the invention. The
Applicant has conducted experiments to compare the shelf life of the fish 36 using
the package 56 of the embodiments above, and with the package of the prior art. Figure
9 shows a graph with quality grading scores on the y-axis, and time on the x-axis.
The aim of the experiment was to assess and compare samples of fish 36 (skinless cod
fillets) in the package 56 and a prior art package. The fish 36 in the package 56
and the prior art package was assessed at different time points during the product
shelf life, commencing at day 1 (indicated D+1) and finishing at day 8 (indicated
D+8). The packages were placed in chilled storage. The sensory quality assessment
included raw appearance and odour, and cooked appearance, odour, flavour and texture/mouthfeel
comments, and a quality grading score in accordance with the assessment scale shown
in Table 1.
Table 1
| Quality Grading Score |
Sensory Quality |
| 9 |
Excellent Quality |
| 8 |
Very Good Quality |
| 7 |
Good Quality |
| 6 |
Fairly Good Quality |
| 5 |
Satisfactory Quality |
| 4 |
Just Acceptable Quality |
| 3 |
Poor Quality |
| 2 |
Very Poor Quality |
| 1 |
Bad Quality |
[0062] A summary of the quality grading score for each package is shown in Table 2 and in
Figure 9.
Table 2
| Product |
Quality Grading Score |
| |
D+1 |
D+6 |
D+7 |
D+8 |
| Prior art package |
8 |
4 |
3 |
Not Assessed |
| Package 56 |
8 |
7 |
6 |
3 |
[0063] In Figure 9 the left bar 100 for each day shows the prior art package, and the right
bar 102 for each day shows the package 56. At the start of the trial D+1 there was
little or no difference between the packages, both being rated as Very Good Quality
for all attributes. Figure 9 shows that after D+6 the left bar 100 is consistently
lower than the right bar 102. A significant result is shown for D+7 where the left
bar 100 has a quality grading score of 3, and the right bar 102 has a quality grading
score of 6. The experiment was ended after D+8.
[0064] Whereas the package of the prior art may be able to keep the fish fresh, for example,
up to seven days, the package 56 of the above embodiments has been shown in the experiments
to keep the fish fresh for up to one or two days longer. Extending the shelf life
of the fish 36 by at least one or two days is a highly significant achievement because
it may avoid the requirement to discard the fish 36 if it has not been sold by the
supermarket, which reduces food waste. The advantage of keeping the fish 36 fresher
for longer is due to the fact that the fish 36 rests in less water when in the package
56. In addition, since little or no water pools in the package 56 it provides an improved
appearance to the consumer, particularly towards the end of the shelf life.
[0065] The use of an absorbent sheet 34 when packaging fish 36 is expressly not be recommended
by packaging suppliers because it may interfere with the seal between the two films
16, 18. Such a recommendation against using absorbent sheet 34 represents a prejudice
in the technical field. However, the Applicant has conducted experiments using the
embodiments of the invention describe above to show that the problems associated with
interfering of the seal between the two films 16, 18 of the package 56 are avoided
or at least significantly reduced or minimised to acceptable levels because the tray
24 grips the fish 36 to inhibit it from moving on the tray 24 and because water is
absorbed by the absorbent pad 34.
[0066] The packages 56 are suitable for transporting to a supermarket in bulk and for stacking
on shelves ready for sale. The packages 56 present the fish 36 to the consumer in
an appealing manner because it is visible through the clear plastic film 16 and has
a three-dimensional appearance. The packages 56 may also be frozen for transporting
long distance. Such freezing may expand the volume of the portion of fish 36. If the
package 56 undergoes a controlled thawing process prior to stacking on a supermarket
shelf additional water and juices may be released by the portion of fish 36. With
the embodiments of the invention the additional water and juices are able to pass
more easily to the absorbent sheet 34 due to the ducts 76. When the package 56 undergoes
freezing and defrosting the fish 36 is kept fresher for a longer period of time because
there is little or no water for the fish 36 to rest in which increases the shelf life.
[0067] Another advantage provided by the tray 24 is that it is relatively rigid due to the
raised portions 62 which provide a structure to the tray 24 which stiffens it. This
provides the advantage that it is much easier to peel away the clear plastic film
16 from the opaque plastic film 18 to open the package 56. Furthermore, if a small
amount of liquid is present in the package 56 it is less likely to spill or splash
when the package 56 is opened because the tray 24 is relatively stiff. Furthermore,
such a stiffer tray 24 may also allow a lighter weight tray 24 to be used, which may
provide a cost and environmental advantage.
[0068] In the above embodiments the channels 32 are shown to have a curved floor between
the raised portions 62 where the square bases 68 of each pyramid meet. The curved
floor and the pyramid structure mean that the trays 24 can be formed easily by the
mould 22, and are readily releasable from the mould 22. It will be appreciated that
the raised portions 62 and channels 32 may have any suitable shape that permits the
formation of a duct 76 with the clear plastic film 16. It will also be appreciated
that the number of channels 32 and orientation relative to the tray 24 may also be
varied. In one arrangement the channels 32 are comprised of recessed lettering or
writing on the tray floor 33. Such recessed lettering or writing may be used to display
instructions or a Trade Mark into the tray 24.
[0069] Whereas the packaging of fish 36 is mentioned above it will be appreciated that the
method, package and apparatus may also be used to package other food that may release
water or juices such as chicken, pork, beef, seafood, other proteins etc.
[0070] Whereas the above embodiments describe a plurality of channels 32, raised portions
62 and/or ducts 76, it will be appreciated that the embodiments may at least partially
provide the desired effect with only one channel 32, raised portion 62 and/or duct
76, with the proviso that the water or other juices from the portion of fish 36 is
able to pass to the absorbent sheet 34. Furthermore, whereas the absorbent sheet 34
is shown in the above embodiment to be wholly covered by the portion of fish 36, the
desired effect may at least partially be provided by having the portion of fish 36
covering only a part of the absorbent sheet 34. Alternatively the portion of fish
36 and the absorbent sheet 34 may be located away from each other on the tray floor
33 and connected to each other by the duct 76 between the clear plastic film 16 and
the opaque plastic film 18.
[0071] Whereas in the above embodiments the fish 36 is in contact with the absorbent pad
34, in an alternative arrangement the fish 36 is not in contact with the absorbent
pad 34. With such an arrangement the fish 36 and the pad 34 are located on separate
parts of the floor 33, and are in communication with one another by said at least
one duct 76.
[0072] Whereas the above embodiments have been described as being able to extend the shelf
life of food it will be appreciated that in general such an extension of time may
be dependent on many factors including, for example, the particular supermarket or
retailer, the manner in which the packages 56 are handled or transported, or the final
destination country. Whereas, in general the shelf life may be extended, it will be
appreciated that the food may remain fresher for longer over a given shelf life period.
[0073] In one embodiment the clear plastics film 18 is a breathable film, which may be a
legal requirement for sale of the package 56 in certain countries, for example the
US. Such a breathable film may be of polyethylene, which is porous to oxygen. For
example, the breathable film may have a water vapour transmission rate of 2.1 gms/100
sq. in./24 hrs, and may have an oxygen transmission rate of 12,000 cc/m
2/24hrs. A suitable breathable film is available from Sealed Air Corporation having
the product code VF310K. The oxygen permeable film 18 guards against anaerobic conditions
being generated within the package 56 that may cause anaerobic bacterial spores, such
as Clostridium botulinum, to germinate and produce toxins.
[0074] The Applicant has conducted microbiological experiments using such a breathable film
to compare the package 56 and the prior art package. The experiments show that viable
colony counts for aerobic bacterial colonies is greatly reduced using the package
56. Table 3 shows results for Salmon using the prior art package. Table 4 shows results
for Salmon using the package 56.

[0075] Accordingly, the package 56 with a breathable film 18 produces an additional benefit
of reducing viable bacterial colonies, which is due to the ducts 76 allowing water
and other juices from the fish 36 to pass to the absorbent pad 34.
1. A method of vacuum packaging food (36) between a first plastic film (18) and a second
plastic film (16) using a vacuum packaging apparatus (10) for urging the two plastic
films (16, 18) together upon application of a partial vacuum followed by venting to
atmosphere, wherein one or both of the two plastic films (16, 18) have an adhesive
coating thereon, the method including;
forming a tray (24) from the first plastic film (18) such that one or both of the
tray (24) and the second plastic film (16) has the adhesive coating thereon, the tray
(24) having a floor (33) ;
providing an absorbent pad (34) on the floor (33) of the tray (24);
placing a portion of food (36) on the absorbent pad (34);
placing the second plastic film (16) on the tray (24) to sandwich the absorbent pad
(34) and the portion of food (36) between the plastic films (16, 18);
characterised by:
said forming of the tray (24) comprises forming the floor (33) with at least one channel
(32) running in a transverse direction (58) along the tray (24), and at least one
channel (32) running in a longitudinal direction (60) along the tray (24), said channels
(32) intersecting each other so that they are in communication with each other, said
channels (32) being formed by a plurality of raised portions (62) of the floor (33);
forming said channels (32) using a row or a grid of raised portions (62) of the floor
(33) of the tray (24), the raised portions (62) being discrete projections from the
floor (33) of the tray (24), each raised portion (62) having an apex (70);
providing the absorbent pad (34) on the floor (33) of the tray (24) so that it covers
at least one of said channels (32), wherein the absorbent pad (34) has a smaller area
than the portion of food (36) so that it is concealed by the portion of food (36)
and so that the portion of food (36) is in contact with the apex (70) of the raised
portions (62) of the tray (24) around a perimeter of the absorbent pad (34) to grip
the portion of food (36); and
using the vacuum packaging apparatus (10) to urge the two plastic films (16, 18) together
to create a seal therebetween such that an adhesive bond is provided between the plastic
film (16) and each apex (70) of the raised portions (62) around the portion of food
(36), wherein a plurality of intersecting ducts (76) are formed between said channels
(32) and each of the second plastic film (16), the absorbent pad (34), and the portion
of food (36) to permit liquid to pass to the absorbent pad (34).
2. A method according to claim 1, and further including cutting the two films (16, 18)
to create a separate package (56) containing the portion of food (36) and the absorbent
pad (34).
3. A method according to any preceding claim, and further including forming the tray
(24) with a continuous lip (64) around the portion of food (36), said channels (32)
and the absorbent pad (34), the lip (64) for providing a continuous seal between the
plastic films (16, 18).
4. A method according to any preceding claim, and further including forming the tray
(24) with a sidewall (66) extending from the floor (33).
5. A method according to any preceding claim, wherein the portion of food (36) is fish.
6. A method according to any preceding claim, and further including using the packaging
apparatus (10) to apply heat to at least partially bond the two plastic films together
(16, 18).
7. A vacuum package (56) containing a portion of food (36), the package (56) comprising
a tray (24), a plastic film (16) and an absorbent pad (34), wherein one or both of
the tray (18) and the plastic film (16) has an adhesive coating thereon, the tray
(24) having a floor (33), the absorbent pad (34) and the portion of food (36) being
provided on the floor (33) of the tray (24), the plastic film (16) being vacuum formed
onto the tray (18) to urge the plastic film (16) and the tray (18) together and to
sandwich the absorbent pad (34) and the portion of food (36) between the plastic film
(16) and the tray (24) to create a seal therebetween,
characterised in that:
the floor (33) has at least one channel (32) running in a transverse direction (58)
along the tray (24), and at least one channel (32) running in a longitudinal direction
(60) along the tray (24), said channels (32) intersecting each other so that they
are in communication with each other, said channels (32) being formed by a plurality
of raised portions (62) of the floor (33), said raised portions (62) being provided
as a row or a grid, the raised portions (62) being discrete projections from the floor
(33) of the tray (24), each raised portion (62) having an apex (70),
the absorbent pad (34) and the portion of food (36) being provided so that they cover
at least one of said channels (32), the absorbent pad (34) having a smaller area than
the portion of food (36) so that it is concealed by the portion of food (36) and so
that the portion of food (36) is in contact with the apex (70) of the raised portions
(62) of the tray (24) around a perimeter of the absorbent pad (34) to grip the portion
of food (36),
wherein a plurality of intersecting ducts (76) are formed between said channels (32)
and each of the plastic film (16), the absorbent pad (34), and the portion of food
(36) to permit liquid to pass to the absorbent pad (34), wherein an adhesive bond
is provided between the plastic film (16) and each apex (70) of the raised portions
(62) around the portion of food (36) by said plastic film (16) being vacuum formed
onto the tray (24).
8. A package according to claim 7, wherein the tray (24) has a continuous lip (64) around
the portion of food (36), said channels (32) and the absorbent pad (34), the lip (64)
for providing a continuous seal between the lip (64) and the plastic film (16).
9. A package according to claim 7 or 8, wherein a spacing between adjacent channels (32)
is between 0.5cm and 2.0cm, and preferably 1.0cm.
10. A package according to any of claims 7 - 9, wherein each apex (70) has an area of
between 0.75 to 2.5mm2.
11. A package according to any of claims 7 - 10, wherein each raised portion (62) has
at least one face (72) which is concave.
12. A package according to any of claims 7 - 11, each raised portion (62) has a height
of between 1.0mm and 7.0mm, and preferably 3.6mm.
13. A package according to any of claims 7 - 12, wherein the tray (24) has a sidewall
(66) extending from the floor (33).
14. A package according to any of claims 7 - 13, wherein the portion of food (36) is fish.
1. Verfahren zur Vakuumverpackung von Nahrungsmitteln (36) zwischen einer ersten Kunststofffolie
(18) und einer zweiten Kunststofffolie (16) mithilfe einer Vakuumverpackungsvorrichtung
(10) zum Zusammendrücken der zwei Kunststofffolien (16, 18) nach Anlegen eines Teilvakuums,
gefolgt vom Entlüften in die Umgebung, wobei eine oder beide der zwei Kunststofffolien
(16, 18) eine Klebebeschichtung darauf aufweist/aufweisen, wobei das Verfahren beinhaltet:
Formen einer Schale (24) aus der ersten Kunststofffolie (18), so dass eine oder beide
der Schale (24) und der zweiten Kunststofffolie (16) eine Klebebeschichtung darauf
aufweist/aufweisen, wobei die Schale (24) einen Boden (33) aufweist;
Bereitstellen einer Absorptionsunterlage (34) auf dem Boden (33) der Schale (24);
Platzieren einer Nahrungsmittelportion (36) auf der Absorptionsunterlage (34);
Platzieren der zweiten Kunststofffolie (16) auf der Schale (24), um die Absorptionsunterlage
(34) und die Nahrungsmittelportion (36) zwischen den Kunststofffolien (16, 18) anzuordnen;
gekennzeichnet dadurch, dass:
Formen der Schale (24) umfasst: Formen des Bodens (33) mit mindestens einem in einer
Querrichtung (58) entlang der Schale (24) verlaufenden Kanal (32) und mindestens einem
in einer Längsrichtung (60) entlang der Schale (24) verlaufenden Kanal (32), wobei
die Kanäle (32) einander kreuzen, so dass sie miteinander in Kommunikation stehen,
wobei die Kanäle (32) aus einer Vielzahl erhobener Abschnitte (62) des Bodens (33)
geformt sind;
Formen der Kanäle (32) mithilfe einer Reihe oder eines Rasters aus erhobenen Abschnitten
(62) des Bodens (33) der Schale (24), wobei die erhobenen Abschnitte (62) separate
Vorsprünge vom Boden (33) der Schale (24) sind, wobei jeder erhobene Abschnitt (62)
einen Scheitelpunkt (70) aufweist;
Bereitstellen der Absorptionsunterlage (34) auf dem Boden (33) der Schale (24), so
dass sie mindestens einen der Kanäle (32) abdeckt, wobei die Absorptionsunterlage
(34) eine kleinere Fläche aufweist als die Nahrungsmittelportion (36), so dass sie
durch die Nahrungsmittelportion (36) verdeckt wird und so dass die Nahrungsmittelportion
(36) in Kontakt mit dem Scheitelpunkt (70) der erhobenen Abschnitte (62) der Schale
(24) um einen Umfang der Absorptionsunterlage (34) steht, um die Nahrungsmittelportion
(36) zu greifen;
und Verwenden der Vakuumverpackungsvorrichtung (10), um die zwei Kunststofffolien
(16, 18) zusammenzudrücken, um eine Dichtung dazwischen zu schaffen, so dass eine
Klebeverbindung zwischen der Kunststofffolie (16) und jedem Scheitelpunkt (70) der
erhobenen Abschnitte (62) um die Nahrungsmittelportion (36) bereitgestellt wird, wobei
eine Vielzahl sich kreuzender Durchführungen (76) zwischen den Kanälen (32) und jeder
der zweiten Kunststofffolie (16), der Absorptionsunterlage (34) und der Nahrungsmittelportion
(36) geformt wird, um das Passieren von Flüssigkeit zur Absorptionsunterlage (34)
zu ermöglichen.
2. Verfahren nach Anspruch 1, und ferner beinhaltend das Schneiden der zwei Folien (16,
18), um eine separate Verpackung (56) zu schaffen, die die Nahrungsmittelportion (36)
und die Absorptionsunterlage (34) enthält.
3. Verfahren nach einem der vorstehenden Ansprüche, und ferner beinhaltend das Formen
der Schale (24) mit einer kontinuierlichen Lippe (64) um die Nahrungsmittelportion
(36), die Kanäle (32) und die Absorptionsunterlage (34), wobei die Lippe (64) zum
Bereitstellen einer kontinuierlichen Dichtung zwischen den Kunststofffolien (16, 18)
vorgesehen ist.
4. Verfahren nach einem der vorstehenden Ansprüche, und ferner beinhaltend das Formen
der Schale (24) mit einer sich vom Boden (33) erstreckenden Seitenwand (66).
5. Verfahren nach einem der vorstehenden Ansprüche, wobei die Nahrungsmittelportion (36)
Fisch ist.
6. Verfahren nach einem der vorstehenden Ansprüche, und ferner beinhaltend das Verwenden
der Verpackungsvorrichtung (10), um Wärme anzuwenden, um die zwei Kunststofffolien
(16, 18) mindestens teilweise miteinander zu verbinden.
7. Vakuumverpackung (56), enthaltend eine Nahrungsmittelportion (36), wobei die Verpackung
(56) eine Schale (24), eine Kunststofffolie (16) und eine Absorptionsunterlage (34)
umfasst, wobei eine oder beide der Schale (18) und der Kunststofffolie (16) eine Klebebeschichtung
darauf aufweist/aufweisen, die Schale (24) einen Boden (33) aufweist, die Absorptionsunterlage
(34) und die Nahrungsmittelportion (36) auf dem Boden (33) der Schale (24) bereitgestellt
ist, die Kunststofffolie (16) auf die Schale (18) vakuumgeformt ist, um die Kunststofffolie
(16) und die Schale (18) zusammenzudrücken und die Absorptionsunterlage (34) und die
Nahrungsmittelportion (36) zwischen die Kunststofffolie (16) und die Schale (24) anzuordnen,
um eine Dichtung dazwischen zu schaffen, dadurch gekennzeichnet, dass:
der Boden (33) mindestens einen in einer Querrichtung (58) entlang der Schale (24)
verlaufenden Kanal (32) und mindestens einen in einer Längsrichtung (60) entlang der
Schale (24) verlaufenden Kanal (32) aufweist, wobei die Kanäle (32) einander kreuzen,
so dass sie miteinander in Kommunikation stehen, wobei die Kanäle (32) durch eine
Vielzahl erhobener Abschnitte (62) des Bodens (33) geformt sind, die erhobenen Abschnitte
(62) als eine Reihe oder ein Raster bereitgestellt sind, die erhobenen Abschnitte
(62) separate Vorsprünge vom Boden (33) der Schale (24) sind, jeder erhobene Abschnitt
(62) einen Scheitelpunkt (70) aufweist, die Absorptionsunterlage (34) und die Nahrungsmittelportion
(36) so bereitgestellt sind, dass sie mindestens einen der Kanäle (32) abdecken, die
Absorptionsunterlage (34) eine kleinere Fläche als die Nahrungsmittelportion (36)
aufweist, so dass sie durch die Nahrungsmittelportion (36) verdeckt wird und so dass
die Nahrungsmittelportion (36) in Kontakt mit dem Scheitelpunkt (70) der erhobenen
Abschnitte (62) der Schale (24) um einen Umfang der Absorptionsunterlage (34) steht,
um die Nahrungsmittelportion (36) zu greifen,
wobei eine Vielzahl sich kreuzender Durchführungen (76) zwischen den Kanälen (32)
und jeder der Kunststofffolie (16), der Absorptionsunterlage (34) und der Nahrungsmittelportion
(36) bereitgestellt ist, um das Passieren von Flüssigkeit zur Absorptionsunterlage
(34) zu ermöglichen, wobei eine Klebeverbindung zwischen der Kunststofffolie (16)
und jedem Scheitelpunkt (70) der erhobenen Abschnitte (62) um die Nahrungsmittelportion
(36) bereitgestellt ist, indem die Kunststofffolie (16) auf die Schale (24) vakuumgeformt
ist.
8. Verpackung nach Anspruch 7, wobei die Schale (24) eine kontinuierliche Lippe (64)
um die Nahrungsmittelportion (36), die Kanäle (32) und die Absorptionsunterlage (34)
aufweist, wobei die Lippe (64) zum Bereitstellen einer kontinuierlichen Dichtung zwischen
der Lippe (64) und der Kunststofffolie (16) vorgesehen ist.
9. Verpackung nach Anspruch 7 oder 8, wobei ein Abstand zwischen benachbarten Kanälen
(32) zwischen 0,5 cm und 2,0 cm und vorzugsweise 1,0 cm ist.
10. Verpackung nach einem der Ansprüche 7 bis 9, wobei jeder Scheitelpunkt (70) eine Fläche
von zwischen 0,75 bis 2,5 mm2 aufweist.
11. Verpackung nach einem der Ansprüche 7 bis 10, wobei jeder erhobene Abschnitt (62)
mindestens eine Fläche (72) aufweist, die konkav ist.
12. Verpackung nach einem der Ansprüche 7 bis 11, wobei jeder erhobene Abschnitt (62)
eine Höhe von zwischen 1,0 mm und 7,0 mm, und vorzugsweise 3,6 mm aufweist.
13. Verpackung nach einem der Ansprüche 7 bis 12, wobei die Schale (24) eine sich vom
Boden (33) erstreckende Seitenwand (66) aufweist.
14. Verpackung nach einem der Ansprüche 7 bis 13, wobei die Nahrungsmittelportion (36)
Fisch ist.
1. Méthode de conditionnement sous vide de produits alimentaires (36) entre une première
pellicule plastique (18) et une deuxième pellicule plastique (16) utilisant un appareil
de conditionnement sous vide (10) pour solliciter les deux pellicules plastiques (16,
18) l'une contre l'autre par l'application d'un vide partiel suivi d'une évacuation
à l'atmosphère, une des pellicules plastiques (16, 18) ou les deux étant recouvertes
d'un revêtement adhésif, la méthode comprenant :
la formation d'un plateau (24) depuis la première pellicule plastique (18) de sorte
que le revêtement adhésif soit appliqué sur un des suivants : le plateau (24) et la
deuxième pellicule plastique (16), ou les deux, le plateau (24) possédant un plancher
(33) ;
la mise en place d'un tampon absorbant (34) sur le plancher (33) du plateau (24) ;
le placement d'une partie des produits alimentaires (36) sur le tampon absorbant (34)
;
le placement de la deuxième pellicule plastique (16) sur le plateau (24) pour prendre
en sandwich, entre les deux pellicules plastiques (16, 18), le tampon absorbant (34)
et la partie des produits alimentaires (36) ;
caractérisée en ce que :
ladite formation du plateau (24) comprend la formation du plancher (33) avec au moins
un canal (32) agencé dans une direction transversale (58) le long du plateau (24),
et au moins un canal (32) étant agencé dans une direction longitudinale (60) le long
du plateau (24), lesdits canaux (32) se croisant de façon qu'ils soient en communication
entre eux, lesdits canaux (32) étant constitués d'une pluralité de parties surélevées
(62) du plancher (33) ; et par
la formation desdits canaux (32) utilisant une rangée ou un réseau de parties surélevées
(62) du plancher (33) du plateau (24), les parties surélevées (62) étant des saillies
discrètes sur le plancher (33) du plateau (24), chaque partie surélevée (62) possédant
un sommet (70) ;
la mise en place du tampon absorbant (34) sur le plancher (33) du plateau (24) de
sorte qu'il couvre au moins un desdits canaux (32), la superficie du tampon absorbant
(34) étant inférieure à celle de la partie de produit alimentaire (36) de façon qu'elle
soit masquée par la partie de produit alimentaire (36), et que la partie de produit
alimentaire (36) se trouve au contact du sommet (70) des parties surélevées (62) du
plateau (24) autour d'un pourtour du tampon absorbant (34) afin de serrer la partie
de produit alimentaire (36) ; et
l'utilisation de l'appareil de conditionnement sous vide (10) pour solliciter les
deux pellicules plastiques (16, 18) l'une contre l'autre afin de créer un joint d'étanchéité
entre elles, en constituant ainsi une liaison adhésive entre la deuxième pellicule
plastique (16) et chaque sommet (70) des parties surélevées (62) autour de la partie
de produit alimentaire (36), une pluralité de conduits s'entrecroisant (76) étant
formés entre lesdits canaux (32) et chacun des suivants : la deuxième pellicule plastique
(16), le tampon absorbant (34), et la partie de produit alimentaire (36), pour permettre
le passage du liquide vers le tampon absorbant (34).
2. Méthode selon la revendication 1, comprenant en outre la coupe des deux pellicules
(16, 18) pour créer un conditionnement distinct (56) contenant la partie de produit
alimentaire (36) et le tampon absorbant (34).
3. Méthode selon une des revendications précédentes, comprenant en outre la réalisation
du plateau (24) avec un rebord continu (64) autour de la partie de produit alimentaire
(36), desdits canaux (32), et du tampon absorbant (34), le rebord (64) formant un
joint continu entre les pellicules plastiques (16, 18).
4. Méthode selon une des revendications précédentes, comprenant en outre la réalisation
du plateau (24) avec une paroi latérale (66) s'étendant depuis le plancher (33).
5. Méthode selon une des revendications précédentes, la partie de produit alimentaire
(36) étant du poisson.
6. Méthode selon une des revendications précédentes, comprenant en outre l'utilisation
de l'appareil de conditionnement sous vide (10) pour appliquer de la chaleur de façon
à lier au moins partiellement les deux pellicules plastiques (16, 18).
7. Conditionnement sous vide (56) contenant une partie de produit alimentaire (36), le
conditionnement (56) comprenant un plateau (24), une pellicule plastique (16), et
un tampon absorbant (34), sur un des suivants : le plateau (18) et la pellicule plastique
(16), ou les deux, un revêtement adhésif ayant été appliqué, le plateau (24) possédant
un plancher (33), le tampon absorbant (34) et la partie de produit alimentaire (36)
étant placés sur le plancher (33) du plateau (24), la pellicule plastique (16) étant
formée sous vide sur le plateau (18) pour solliciter la pellicule plastique (16) et
le plateau (18) l'un contre l'autre, et prendre en sandwich le tampon absorbant (34)
et la partie de produit alimentaire (36) entre la pellicule plastique (16) et le plateau
(24) pour créer un joint d'étanchéité entre eux,
caractérisé en ce que :
le plancher (33) possède au moins un canal (32) agencé dans une direction transversale
(58) le long du plateau (24), et au moins un canal (32) étant agencé dans une direction
longitudinale (60) le long du plateau (24), lesdits canaux (32) se croisant de façon
qu'ils soient en communication entre eux, lesdits canaux (32) étant constitués d'une
pluralité de parties surélevées (62) du plancher (33), lesdites parties surélevées
(62) étant agencées sous forme de rangée ou de grille, les parties surélevées (62)
étant des saillies discrètes partant du plancher (33) du plateau (24), chaque partie
surélevée (62) possédant un sommet (70), le tampon absorbant (34) et la partie de
produit alimentaire (36) étant agencés de sorte qu'ils couvrent au moins un desdits
canaux (32), la superficie du tampon absorbant (34) étant inférieure à celle de la
partie de produit alimentaire (36) de façon qu'elle soit masquée par la partie de
produit alimentaire (36), et que la partie de produit alimentaire (36) se trouve au
contact du sommet (70) des parties surélevées (62) du plateau (24) autour d'un pourtour
du tampon absorbant (34) afin de serrer la partie de produit alimentaire (36), une
pluralité de conduits s'entrecroisant (76) étant formés entre lesdits canaux (32)
et chacun des suivants : la pellicule plastique (16), le tampon absorbant (34), et
la partie de produit alimentaire (36), pour permettre le passage du liquide vers le
tampon absorbant (34), une liaison adhésive étant pratiquée entre la pellicule plastique
(16) et chaque sommet (70) des parties surélevées (62) autour de la partie de produit
alimentaire (36) par ladite pellicule plastique (16) formée sous vide sur le plateau
(24).
8. Conditionnement selon la revendication 7, le plateau (24) possédant un rebord continu
(64) autour de la partie de produit alimentaire (36), desdits canaux (32), et du tampon
absorbant (34), le rebord (64) formant un joint continu entre le rebord (64) et la
pellicule plastique (16).
9. Conditionnement selon la revendication 7 ou 8, un espacement entre des canaux (32)
adjacents mesurant de 0,5 cm à 2,0 cm, et de préférence 1,0 cm.
10. Conditionnement selon une quelconque des revendications 7 à 9, la superficie de chaque
sommet (70) étant comprise entre 0,75 et 2,5 mm2.
11. Conditionnement selon une quelconque des revendications 7 à 10, chaque partie surélevée
(62) possédant au moins une face (72) concave.
12. Conditionnement selon une quelconque des revendications 7 à 11, chaque partie surélevée
(62) mesurant de 1,0 mm à 7,0 mm de haut, et de préférence 3,6 mm.
13. Conditionnement selon une quelconque des revendications 7 à 12, le plateau (24) possédant
une paroi latérale (66) s'étendant depuis le plancher (33).
14. Conditionnement selon une quelconque des revendications 7 à 13, la partie de produit
alimentaire (36) étant du poisson.