An apparatus for heat shrinking a package, comprising: a chamber configured such that a package on a surface of the apparatus may be heat shrunk via a heating fluid in the chamber; and a preheat container configured to supply a preheated liquid to a heat tank from which the heating fluid is supplied to the chamber; wherein the preheat container is above the surface such that liquid in the preheat container can be preheated by heat from the chamber.

A shrink wrapping apparatus, and associated process, includes a housing (turbine) having a wall forming a passage dimensioned to receive the associated container assembly and associated sleeve. The passage has an inlet and an outlet spaced therefrom, and the inlet is located vertically above the outlet such that the associated container assembly and associated sleeve move from the inlet toward the outlet. A steam path communicates with the passage to provide steam from an associated steam source to at least a portion of the passage in order to shrink wrap the associated sleeve on the associated container assembly as the container assembly and sleeve move downwardly through the passage and the steam naturally rises upwardly through the passage.

A shrink wrapping apparatus, and associated process, includes a housing (turbine) having a wall forming a passage dimensioned to receive the associated container assembly and associated sleeve. The passage has an inlet and an outlet spaced therefrom, and the inlet is located vertically above the outlet such that the associated container assembly and associated sleeve move from the inlet toward the outlet. A steam path communicates with the passage to provide steam from an associated steam source to at least a portion of the passage in order to shrink wrap the associated sleeve on the associated container assembly as the container assembly and sleeve move downwardly through the passage and the steam naturally rises upwardly through the passage.

A heat-shrinkable multilayer film for being filled with contents, comprising an outer surface layer (A) comprising a heat-resistant thermoplastic resin, an intermediate layer (B) comprising a polyamide-based resin, an inner surface layer (D) comprising an ethylene-based copolymer, and adhesion strength between inner surface layers after treatment with 80 C. hot water being not less than 10 N/15 mm. The polyamide-based heat-shrinkable multilayer film obtained in this manner has optimal characteristics for applications that primarily require strength, and has greatly improved self-weldability demanded in packaging films for meat products such as fresh and processed meats.

A heat-shrinkable multilayer film for being filled with contents, comprising an outer surface layer (A) comprising a heat-resistant thermoplastic resin, an intermediate layer (B) comprising a polyamide-based resin, an inner surface layer (D) comprising an ethylene-based copolymer, and adhesion strength between inner surface layers after treatment with 80 C. hot water being not less than 10 N/15 mm. The polyamide-based heat-shrinkable multilayer film obtained in this manner has optimal characteristics for applications that primarily require strength, and has greatly improved self-weldability demanded in packaging films for meat products such as fresh and processed meats.

A packaging process includes providing a semi-sealed package containing a product to be packaged, providing a vacuum chamber, adjusting a spacing between members of the vacuum chamber to open the vacuum chamber, relatively positioning the package and the vacuum chamber such that a terminal portion of an end of the package is positioned within the vacuum chamber and a non-terminal portion of the end is positioned outside the vacuum chamber, an intermediate portion of the end passing through the opening, adjusting the spacing to bring the members substantially sealingly in contact with one another, the intermediate portion being received in the opening, creating, within the vacuum chamber, an internal vacuum pressure to determine a gas flow through the opening causing opposing layers of the film at the second end to maintain a substantially spaced-apart configuration, and to aspirate both gas from inside the package and gas through the opening.

A shrink wrapping apparatus, and associated process, includes a housing (turbine) having a wall forming a passage dimensioned to receive the associated container assembly and associated sleeve. The passage has an inlet and an outlet spaced therefrom. A steam/hot air path communicates with the passage to provide steam from an associated steam source to at least a portion of the passage in order to shrink wrap the associated sleeve on the associated container assembly as the container assembly and sleeve move through the passage. The apparatus also includes a stop member for engaging the associated container assembly and holding in the passage for a predetermined amount of time.

A shrink wrapping apparatus, and associated process, includes a housing (turbine) having a wall forming a passage dimensioned to receive the associated container assembly and associated sleeve. The passage has an inlet and an outlet spaced therefrom. A steam/hot air path communicates with the passage to provide steam from an associated steam source to at least a portion of the passage in order to shrink wrap the associated sleeve on the associated container assembly as the container assembly and sleeve move through the passage. The apparatus also includes a stop member for engaging the associated container assembly and holding in the passage for a predetermined amount of time.

The invention relates to a hot air shrink tunnel (10) for a heat shrinking apparatus for heat shrinking a shrink label to enclose a product, wherein the hot air shrink tunnel surrounds a conveying path of the product. The hot air shrink tunnel includes a moist air zone (1, 2) and a dry air zone (3, 4) arranged in this order in a conveying direction of the product through the hot air shrink tunnel (10); wherein the moist air zone (1, 2) includes heating means for heating air flowing within the moist air zone (1, 2), and water diffusion means for diffusing an amount of water in the air flowing within the moist air zone (1, 2) to produce an air-steam mixture, and the dry air zone (3, 4) includes heating means for heating air flowing within the dry air zone (3, 4).

The invention relates to a hot air shrink tunnel (10) for a heat shrinking apparatus for heat shrinking a shrink label to enclose a product, wherein the hot air shrink tunnel surrounds a conveying path of the product. The hot air shrink tunnel includes a moist air zone (1, 2) and a dry air zone (3, 4) arranged in this order in a conveying direction of the product through the hot air shrink tunnel (10); wherein the moist air zone (1, 2) includes heating means for heating air flowing within the moist air zone (1, 2), and water diffusion means for diffusing an amount of water in the air flowing within the moist air zone (1, 2) to produce an air-steam mixture, and the dry air zone (3, 4) includes heating means for heating air flowing within the dry air zone (3, 4).