[0001] The present invention relates to packaging for chest freezers and a method for its
use.
[0002] Chest freezers are currently packaged using complex composite containing structures
covered with sheets of heat-shrinkable material, the purpose of which is to rigidify
such structures and to ensure protection against damage and bad weather.
[0003] These known composite structures involve a multiplicity of structural parts of different
materials, such as wood, expanded polystyrene, cardboard (for example partial boxes
or coverings), polystyrene spacers, polyethylene protection, and metal for nailing
the assembly together and for fixing the wooden parts, giving rise in certain cases
to problems of ecological disposal.
[0004] Some of these packagings are not hermetically sealed, and even present relatively
large apertures through which insects, dirt, dust and mice can enter.
[0005] The main object of the present invention is to provide a specific packaging for chest
freezers which is formed substantially from two easily and ecologically disposable
materials and encloses the freezer on its six faces or sides in such a manner as to
protect it from impact and bad weather.
[0006] Another object of the present invention is to provide a packaging for chest freezers
which is economical and simple to apply.
[0007] A further object of the present invention is to provide a simple, economical and
technically satisfactory method for using said packaging.
[0008] These and further objects which will be apparent from the ensuing detailed description
are attained by packaging and a method for its use in accordance with the technical
teachings of the accompanying claims.
[0009] The invention will be better understood from the following detailed description of
preferred embodiments thereof given by way of non-limiting example and illustrated
in the accompanying drawings, in which:
Figure 1 is an exploded perspective view of a chest freezer with packaging according
to the teachings of the invention;
Figure 2 is an exploded perspective view of a variant of the packaging for a chest
freezer according to the invention;
Figure 3 shows a part of Figure 2 on a larger scale.
[0010] With reference to Figure 1, the packaging of the invention, shown here and indicated
overall by 1, contains a chest freezer 2. The packaging comprises: a structure formed
preferably from single-material parts, for example expanded polystyrene (abbreviated
EPS), which is further discussed hereinafter, and a consolidation and protection covering
formed from known heat-shrinkable film, preferably semi-transparent, but not shown.
[0011] In this example the aforesaid structure comprises two equal endpieces 3 which with
their continuous perimetral wall surround a certain portion of the freezer, and four
longitudinal members 5, commonly known as angle bars (two upper and two lower), connecting
the two endpieces 3 together; the longitudinal members are of substantially L cross-section
and, as is evident, cover the longitudinal comers of the enclosed freezer.
[0012] It should be noted that the heat-shrinkable film entirely covers the six faces of
the freezer. In this respect, the packaging method comprises hooding the freezer by
using a sheet which closes the sixth, said sheet being joined to the hood of heat-shrinkable
material (used for the hooding). Alternatively, opposing faces of the freezer can
be enclosed by two sheets, which are then joined to a piece of tubular heat-shrinkable
film previously drawn over the assembly.
[0013] As can be again seen from Figure 1, the upper longitudinal members 5 present seats
18 for receiving the matching ends 19 of transverse protection spacers 21 provided
on the two opposing sides of the freezer 2. They are provided at their ends with protuberances
22 which are inserted into matching seats 30 present in the upper and lower longitudinal
members respectively.
[0014] At their ends the longitudinal members also present projecting parts 31, 32 to be
inserted into matching seats 33 present in the endpieces 3.
[0015] A variant of the packaging is shown in Figure 2, in which parts equal or corresponding
to those of the preceding figure are indicated by the same reference numerals accompanied
by the letter A.
[0016] This variant comprises a base indicated overall by 7, formed from two equal extremities
or shoes 8 of blow-moulded polyethylene spaced apart by a pair of strips 9 obtained
by extruding polystyrene or polyethyleneterephthalate (PET).
[0017] The extremities 8 present a suitable snap fitting (Figure 3) for the ends of the
strips 9, and a seat for the feet 12 with which the freezer is provided. At their
ends the extremities 8 present cavities or seats 14 to receive feet 15 present on
one side (the lower in Figure 2) of the freezer endpieces.
[0018] The described structure also comprises two upper longitudinal members 5A presenting
end projections 32A to be housed in seats 33A present in the endpieces 3A. The longitudinal
members also present, in their side (the upper in Figure 2), seats 18A to receive
the matching ends 19A of a transverse protection spacer 20A. Other vertical protection
spacers 21A are provided on the two opposing sides of the freezer 2A. They are provided
at their ends with protuberances which are inserted upperly into seats present in
the vertical flange of the longitudinal members 5A and lowerly engage the strips 9
as a C-shaped fit.
[0019] The packaging is used in the following manner.
[0020] An endpiece (3, 3A) is rested horizontally on a rocking support. The freezer is rested
on this latter by means of its side.
[0021] While in this position the various described pieces of the packaging are assembled.
A heat-shrinkable film, in the form of a sheet, will have previously been inserted
below the endpiece (3, 3A) on which the product is rested. The product is then hooded
with a sack made of heat-shrinkable film (sealed by bonding at its upper end with
reference to the hooding configuration).
[0022] After hooding, the freezer packaged in this manner is subjected to heat action to
shrink the film and finally consolidate the packaging onto the freezer.
[0023] The thus packaged product is hermetically sealed, except for a film portion, known
as the microperforated portion, in the front and rear of the packaging to prevent
condensation.
1. Packaging for chest freezers comprising a structure formed from a series of components
and from a covering film of heat-shrinkable material, characterised in that said components comprise endpieces (3, 3A) to cooperate with ends of the freezer
(2, 2A), and longitudinal members (5, 5A) connecting said endpieces (3, 3A) together
to protect the longitudinal comers of the freezer (2, 2A), the film of heat-shrinkable
material enclosing the freezer on all its six faces.
2. Packaging as claimed in claim 1, wherein the longitudinal members (5, 5A) are provided
in correspondence with the upper comers of the freezer, whereas at the base of the
freezer the structure components comprise extremities (8) between which strips extend.
3. Packaging as claimed in claim 1, wherein snap-coupling means are provided between
the extremities (8) and the strips (9).
4. Packaging as claimed in claim 1, wherein four longitudinal members (5) are provided
in correspondence with the four longitudinal comers of the freezer (2, 2A).
5. Packaging as claimed in one or more of the preceding claims, wherein the endpieces
(3) or the extremities (8) comprise support seats for the freezer feet (12).
6. Packaging as claimed in one or more of the preceding claims, wherein lateral and upper
protective spacers (20, 20A, 21, 21A) are provided.
7. Packaging as claimed in one or more of the preceding claims, wherein the structure
components are at least partly insertion-coupled.
8. Method for using the packaging claimed in one or more of the preceding claims, wherein
the structure components are assembled by disposing an endpiece (3, 3A) horizontally
on a support and locating the freezer on this endpiece via one of its sides so as
to position the freezer in an abnormal vertical position, the structure then being
fitted with its various remaining components and the structure obtained being covered
with the heat-shrinkable film, and the covered structure being subjected to heat.
9. Method as claimed in claim 8, wherein the heat-shrinkable film comprises a sheet to
be disposed horizontally under the side wall, and, open at one end, a sack to be drawn
over the freezer to completely dose the packaging.
10. Method as claimed in claim 8, wherein the heat-shrinkable film comprises two sheets
to be disposed on opposing side walls of the freezer, and a tubular piece to be drawn
over the freezer and joined to the two said sheets.