A method for packaging piece good batches is provided. A transport device transports a plurality of piece goods in particular in the form of a piece good flow in a specified transport direction, and a first wrapping device wraps a film element around the piece goods, the film element having a specified first width. The first wrapping device has a dispensing assembly which circulates around the piece goods, and the piece goods are supplied to the first wrapping device in order to be wrapped with the film element. The piece goods are wrapped with a strip-like element by means of a strip application device, the strip-like element having a smaller width than the film element.

Provided is a method for packaging piece good groupings, in which a plurality of piece goods, particularly containers, are at least partially interconnected by a first connector, wherein at least two-piece goods of this plurality are directly interconnected by the connector. According to the embodiment, this plurality of piece goods connected by the connector is packaged with a second connector in the form of a second wrapping element, and said plurality of piece goods connected by a first connector is conveyed by a conveyor device to a packaging device and enclosed, particularly wrapped, with the second wrapping element by said packaging unit.

The present application relates to a new vessel, such as a bottle that may be used to hold, store, or transport matter, such as particulates or fluids, and vessel assembly system. The vessel is constructed of a unique nesting design. Multiple vessels may be stacked together and to form a cohesive interrelated structure.

A packaging adapted to contain products, which is made with an extendable plastic film and has a simplified gripping, and in which the extendable plastic film is wrapped around the products with at least one coil to form a bundle, has on its upper surface only one notch configured to provide a gripping point of the packaging for a user.

A cutting unit in a packaging machine for separating a series of finished packages containing a predetermined number of products from a continuous packaging or bundle advancing on a conveyor, comprising a frame, which supports a pair of side cutting blades and a pair of upper cutting and lower cutting blades arranged facing four sides of the continuous bundle, wherein the two pairs of blades can be alternately moved forward and backward between a rest position separated from the continuous bundle, and an engagement position on the continuous bundle containing groups of the products arranged on two flanked rows and wrapped in a film of extendable plastic material, each pair of blades being driven in an alternating forward and backward movement for engagement with and disengagement from the continuous bundle by a double crank actuated by a single motor.

A cutting unit in a packaging machine for separating a series of finished packages containing a predetermined number of products from a continuous packaging or bundle advancing on a conveyor, comprising a frame, which supports a pair of side cutting blades and a pair of upper cutting and lower cutting blades arranged facing four sides of the continuous bundle, wherein the two pairs of blades can be alternately moved forward and backward between a rest position separated from the continuous bundle, and an engagement position on the continuous bundle containing groups of the products arranged on two flanked rows and wrapped in a film of extendable plastic material, each pair of blades being driven in an alternating forward and backward movement for engagement with and disengagement from the continuous bundle by a double crank actuated by a single motor.

A cutting method in a packaging machine using extensible film includes feeding products, wound in a continuous packaging or in a bundle of products, to a cutting unit; cutting the continuous packaging into finished groups of products using a movable cutting device that advances with the packaging to be cut and makes a transversal cut along the perimeter of the packaging; and bringing the movable cutting device back and performing a new cutting step simultaneously in two points of the packaging spaced from each other, with two vertical sections cut at a first point and two horizontal sections are cut at a second point to create a finished packaging. The packaging machine includes a cutting device, a slide moving forward and backward, and a side cutting device and an upper and lower cutting device spaced apart and acting simultaneously on the packaging to cut in two points vertically and horizontally.

Multi-layer collation shrink film comprising a main layer based on a polyethylene mixture comprising 75 to 85 wt.-% low density polyethylene and 15 to 25 wt.-% high density polyethylene or linear low density polyethylene and a skin layer based on a polar ethylene copolymer with vinyl acetate or alkyl (meth)acrylate with a vinyl acetate or alkyl (meth)acrylate content of at least 15 wt.-% and containing 5000 to 20000 ppm silica and a slip agent, use of the film in multi-layer packaging films and method for packaging objects together with the multi-layer collation shrink film including printing the skin layer with a digital ink printing process before or after packaging the objects.

An object can be heat-shrinkable packaged by placing an object inside of heat-shrinkable film, sealing the heat-shrinkable film around the object to form a heat-shrinkable package, coupling a first portion of a label to the heat-shrinkable package, and causing the heat-shrinkable film to shrink into heat-shrunk film and the heat-shrinkable package to form into a heat-shrunk package. The label includes an identifier on a second portion of the label. The label remains coupled to the heat-shrunk film after the heat-shrinkable film is caused to shrink into heat-shrunk film. The second portion of the label remains substantially undeformed after the heat-shrinkable film is caused to shrink into heat-shrunk film.

An object can be heat-shrinkable packaged by placing an object inside of heat-shrinkable film, sealing the heat-shrinkable film around the object to form a heat-shrinkable package, coupling a first portion of a label to the heat-shrinkable package, and causing the heat-shrinkable film to shrink into heat-shrunk film and the heat-shrinkable package to form into a heat-shrunk package. The label includes an identifier on a second portion of the label. The label remains coupled to the heat-shrunk film after the heat-shrinkable film is caused to shrink into heat-shrunk film. The second portion of the label remains substantially undeformed after the heat-shrinkable film is caused to shrink into heat-shrunk film.