Systems and methods for applying decorations from a web onto a substrates are disclosed. According to some aspects, a decoration may be transferred from the web directly to a substrate based on contact of the substrate with an adhesive of a portion of the decoration while the portion of the decoration is attached to the web.

The present invention relates to a container sleeving method for arranging sleeves around a plurality of containers, the method includes: transporting an array of containers past a sleeve discharge unit; arranging a sleeve of heat shrinkable foil around a container passing by the sleeve discharge unit by shooting the sleeve from the sleeve discharge unit towards the container; detecting whether the sleeve has been correctly arranged around the container; and, if the sleeve has not been arranged correctly around the container, continue transporting one or more containers along the sleeve discharge unit and discontinue shooting one or more sleeves towards the containers.

A machine for carrying out at least one operation onto a first article and a second article is disclosed. The machine comprises feeding means for advancing a succession of the first article and the second article along a path and with a first speed; a first operative group, which comprises a first tool configured for carrying out operation onto the first article and which can be operated with a second speed associated to the first speed; gap creating means selectively controllable to create a first gap, which is arranged inside succession and is bounded between the first article and the second article; and a second operative group, which comprises a second tool configured for carrying out operation onto the second article and which can be operated at the second speed.

A lenticular label for a container, such as a curved glass bottle, is formed of a lenticular array having a plurality of lenticules on a front face and a smooth back face and a compliant base layer having first and second faces. A first adhesive is disposed between the first face of the compliant base layer and the smooth back face of the lenticular array. The first adhesive is in substantial contact with both the first face of the compliant base layer and the smooth back face of the lenticular array. A second adhesive is disposed upon the second face of the base layer.

A lenticular label for a container, such as a curved glass bottle, is formed of a lenticular array having a plurality of lenticules on a front face and a smooth back face and a compliant base layer having first and second faces. A first adhesive is disposed between the first face of the compliant base layer and the smooth back face of the lenticular array. The first adhesive is in substantial contact with both the first face of the compliant base layer and the smooth back face of the lenticular array. A second adhesive is disposed upon the second face of the base layer.

A pharmaceutical order filling system receives pharmaceutical orders and uses a loading device to label containers and load the labeled containers onto a pallet. The loading device is configured with at least one container drop assembly that receives containers to be labelled and loaded onto the pallet and that is in communication with a label assembly configured to print and apply labels to the containers. The loading device also includes at least one loading rotary wheel configured to receive the labelled containers and hold the labelled containers in a pick position to be moved from the pick position to a predetermined position on the pallet. The loading device may be configured to accommodate multiple sizes of containers and to consolidate multiple sizes of labelled containers into a single loading rotary wheel for loading onto the pallet.

The invention relates to a container handling machine (1) having at least one operative unit (18) comprising first support means (21) to support a base (12) of a filled and closed container (3), second support means (24) cooperating with an end (17) of the container (3) opposite the base (12), a plunger (31) selectively moved along its axis (E) to perform a deformation operation on the base (12) of the container (3) from a first swollen configuration to a second inwardly-retracted configuration, and actuator means (35) selectively activated to move the plunger (31) along its axis (E) between a first position, detached from the base (12) of the container (3), and a second position, in which the plunger (31) defines the second configuration of the base (12); the machine (1) further comprises a control unit (41) configured to selectively activate the actuator means (35) for moving the plunger (31) along its axis (E); the second support means (24) are maintained at a constant distance from the first support means (21) during the deformation operation; the control unit (41) comprises measuring means (42) for measuring the maximum deforming force (F) exerted by the plunger (31) on the base (12) of the container (3) during the deformation operation in order to determine whether the container (3) is correctly filled.

The invention relates to a container handling machine (1) having at least one operative unit (18) comprising first support means (21) to support a base (12) of a filled and closed container (3), second support means (24) cooperating with an end (17) of the container (3) opposite the base (12), a plunger (31) selectively moved along its axis (E) to perform a deformation operation on the base (12) of the container (3) from a first swollen configuration to a second inwardly-retracted configuration, and actuator means (35) selectively activated to move the plunger (31) along its axis (E) between a first position, detached from the base (12) of the container (3), and a second position, in which the plunger (31) defines the second configuration of the base (12); the machine (1) further comprises a control unit (41) configured to selectively activate the actuator means (35) for moving the plunger (31) along its axis (E); the second support means (24) are maintained at a constant distance from the first support means (21) during the deformation operation; the control unit (41) comprises measuring means (42) for measuring the maximum deforming force (F) exerted by the plunger (31) on the base (12) of the container (3) during the deformation operation in order to determine whether the container (3) is correctly filled.

A label application system for applying labels to relatively short, round, straight-walled articles is constructed and designed so that labels to be applied to passing articles are delivered to the label application zone on a carrier web in a short feed orientation, with each label being oriented lengthwise across a width of the carrier web. At the time of labeling, the label is held stationary on a flat vacuum surface, and the label is applied by spinning the articles past the vacuum surface. As a result, the system is capable of labeling articles at processing speeds of at least 450 articles per minute or more.

A label application system for applying labels to relatively short, round, straight-walled articles is constructed and designed so that labels to be applied to passing articles are delivered to the label application zone on a carrier web in a short feed orientation, with each label being oriented lengthwise across a width of the carrier web. At the time of labeling, the label is held stationary on a flat vacuum surface, and the label is applied by spinning the articles past the vacuum surface. As a result, the system is capable of labeling articles at processing speeds of at least 450 articles per minute or more.