A liner machine for applying a sealing compound to a can end or lid. The liner machine includes a motor drive dual turret system. The turret system is installed at the top of a table or platform surface and two turrets rotate in opposition directions from one another, simultaneously or independently at same or different times. Each turret includes a plurality of workstations which extend out from each turret facing away from each other. The workstations receive an individual lid, which is delivered via a starwheel from a downstacker to each turret system. Each rotates in a direction that is opposite the direction that its respective turret system rotates, and in a direction that is opposite the direction that the other starwheel rotates. Sealant injectors in the turret systems apply sealant to each lid as the lids rotate around each turret system.

A coupling device for coupling a component to an article includes a first retaining member that retains the component, a second retaining member that retains the article, a movement system for moving the first retaining member and the second retaining member between a non-operating position where the component and the article are spaced apart from one another, and an operating position where the component and the article are in a coupling position, and a detection system for detecting the positioning of the component on the first retaining member. The detection system includes an image detector device for capturing at least one image of the component when the component is retained by the first retaining member, and a processing unit provided for analysing the image captured by the image detector device and verifying if the component is retained on the first retaining member in a predefined position.

A coupling device for coupling a component to an article includes a first retaining member that retains the component, a second retaining member that retains the article, a movement system for moving the first retaining member and the second retaining member between a non-operating position where the component and the article are spaced apart from one another, and an operating position where the component and the article are in a coupling position, and a detection system for detecting the positioning of the component on the first retaining member. The detection system includes an image detector device for capturing at least one image of the component when the component is retained by the first retaining member, and a processing unit provided for analysing the image captured by the image detector device and verifying if the component is retained on the first retaining member in a predefined position.

A coupling unit for coupling a component for a container includes a coupling equipment. The coupling equipment includes: a frame, a housing constrained to the frame, a gripping device rotatably constrained with respect to the frame and including a retaining element to selectively retain the component, and a coupling device constrained to the gripping device with respect to the frame, the coupling device including a coupling element to constrain a portion of the component to a coupling surface of the container at a coupling position. The gripping device and the coupling device can move along an arc with a curved trajectory to a removal position where the retaining element is oriented to receive at least one component to be retained, and to a coupling position where the retaining element and the coupling element bring an abutment surface of the container and a couplable portion of the component into contact.

A coupling unit for coupling a component for a container includes a coupling equipment. The coupling equipment includes: a frame, a housing constrained to the frame, a gripping device rotatably constrained with respect to the frame and including a retaining element to selectively retain the component, and a coupling device constrained to the gripping device with respect to the frame, the coupling device including a coupling element to constrain a portion of the component to a coupling surface of the container at a coupling position. The gripping device and the coupling device can move along an arc with a curved trajectory to a removal position where the retaining element is oriented to receive at least one component to be retained, and to a coupling position where the retaining element and the coupling element bring an abutment surface of the container and a couplable portion of the component into contact.

A star wheel for a rotary packing machine, which includes a vertical shaft, a movable assembly with a frame fixed to said shaft, a plurality of pairs of arms, each arm is hinge mounted on the frame about an axis of rotation, an activation mechanism for each pair of arms, which activation mechanism moves the arms between an open position and a closed position, an adjustment mechanism, which moves the axis of rotation of each arm between two positions, and a locking mechanism, which locks the position of the axis of rotation, and a fixed cam.

A star wheel for a rotary packing machine, which includes a vertical shaft, a movable assembly with a frame fixed to said shaft, a plurality of pairs of arms, each arm is hinge mounted on the frame about an axis of rotation, an activation mechanism for each pair of arms, which activation mechanism moves the arms between an open position and a closed position, an adjustment mechanism, which moves the axis of rotation of each arm between two positions, and a locking mechanism, which locks the position of the axis of rotation, and a fixed cam.

The technology described herein generally relates to particular form of folded package and the method of forming that folded package. More particularly, using a folding tip and the application of vacuum pressure to a paper cone it is possible to achieve the formation of properly folded packages that may further include a core that is deposited axially along the length of the package.

The technology described herein generally relates to particular form of folded package and the method of forming that folded package. More particularly, using a folding tip and the application of vacuum pressure to a paper cone it is possible to achieve the formation of properly folded packages that may further include a core that is deposited axially along the length of the package.

The technology described herein generally relates to an automated packaging apparatus and system that packages loose particles into a conical container as well as the final packed containers. More specifically, loose plant matter, such as crumbled dried leaves, are supplied to successive paper cones. The apparatus provides a system for reliably and accurately depositing or injecting a fluid into a cone packed with loose particulate.