A device for inhibiting rotational motion of an article to be processed comprises a pressure plate assembly including a generally ring-shaped guide assembly. The guide assembly has and at least two guide pins extending from a first side in a transverse direction. The guide assembly further includes at least two resilient devices positioned over a respective one of the at least two guide pins and a container guide having an aperture for receiving an open end of a container moving in a first direction and for aligning the open end with a processing device. The container guide is positioned adjacent to the first side of the pressure plate assembly. At least two resilient devices are configured to be compressed in response to movement of the container guide in a first direction and are configured to decompress in response to movement of the container guide in a second, generally opposite direction.

A slicing machine for slicing meat strands that have a cross section that varies over a longitudinal extension in large numbers and as quickly as possible into weight precise slices. In one embodiment, two meat strands are received adjacent to each other in a respective form tube and pushed against a respective separately adjustable stop plate independently from each other by a controlled longitudinal press plunger and compressed in the longitudinal direction. In addition, a cross section of the form tubes may be reduced in a first transversal direction jointly and in a second transversal direction independently from each other and thus the respective meat strand is transversally compressed to a constant cross section prior to slicing.

A device for cutting a preferably thick-walled, extended pipe to length, has at least one cutting tool and a receiving unit for the cutting tool. The cutting tool is radially movable in relation to the extrusion axis and is rotatable via further means about the pipe to be cut to length, in order to cut the pipe to length. The receiving unit may be connected by means of a receiving disc to a sleeve via a ring element, wherein linear guiding elements are arranged on said sleeve parallel to the extrusion axis, and wherein at least four linear guiding elements are evenly distributed around the circumference of the sleeve.

A device for cutting a preferably thick-walled, extended pipe to length, has at least one cutting tool and a receiving unit for the cutting tool. The cutting tool is radially movable in relation to the extrusion axis and is rotatable via further means about the pipe to be cut to length, in order to cut the pipe to length. The receiving unit may be connected by means of a receiving disc to a sleeve via a ring element, wherein linear guiding elements are arranged on said sleeve parallel to the extrusion axis, and wherein at least four linear guiding elements are evenly distributed around the circumference of the sleeve.

A machine is shown having a winding unit (3) and a cutting unit (7) to cut a tube (T) being formed around a mandrel (5). The cutting unit (7) has a rotating cutting blade (9) provided with motion along a circular trajectory, defined by means of a system of cross guides and a fastening to a center of a circular trajectory. The position of the center (33B) of the circular trajectory of the rotating cutting blade (9) is changed according to the direction of movement of the blade with respect to the mandrel, so that the rotating cutting blade (9) cuts the tube (T) during a forward movement and is released form the tube during a backward movement. Methods for production of tubes by means of helical winding of one or more strips of web material around a mandrel are shown as well.

A machine is shown having a winding unit (3) and a cutting unit (7) to cut a tube (T) being formed around a mandrel (5). The cutting unit (7) has a rotating cutting blade (9) provided with motion along a circular trajectory, defined by means of a system of cross guides and a fastening to a center of a circular trajectory. The position of the center (33B) of the circular trajectory of the rotating cutting blade (9) is changed according to the direction of movement of the blade with respect to the mandrel, so that the rotating cutting blade (9) cuts the tube (T) during a forward movement and is released form the tube during a backward movement. Methods for production of tubes by means of helical winding of one or more strips of web material around a mandrel are shown as well.

A hand-held cutting device configured to safely, easily, and reliably remove the plastic tip of the plastic packaging of a Freeze Pop is disclosed. The device includes a housing with a slot into which the tip of the unopened Freeze Pop is inserted. Inside the slot is an internal cutting mechanism which produces a curved cut to remove the tip of the Freeze Pop. The tip then falls into a collection chamber which may be opened for easy disposal of plastic scraps. The entire device is storable on a magnetic surface via a removable magnetic component.

A clamping device is described for clamping a log such as a log of wound material. The inventive clamping device addresses the need for more efficient or flexible clamping systems for logs of wound material that may vary in their diameter, wherein the clamping allows the logs to be cut by a cutting machine to sections of desired length.

A clamping device is described for clamping a log such as a log of wound material. The inventive clamping device addresses the need for more efficient or flexible clamping systems for logs of wound material that may vary in their diameter, wherein the clamping allows the logs to be cut by a cutting machine to sections of desired length.

The present invention relates to a tubular clamp module and a system thereof, and in particular, to a tubular clamp module and a system thereof applicable to a roll material cutting machine. In the tubular clamp module of the present invention, a slope is disposed at a top end of a support, and support rods slide on the slope to support tubular plates to form an appropriate radian, so as to provide a desirable tubular clamping force in combination with the force applied by a pressing belt. In the tubular clamp system of the present invention, a plurality of tubular clamp modules is used and various driving wheels and driving belts are disposed to enable synchronous adjustment of the positions of the support rods and the length of the pressing belt, so as to rapidly complete clamping of rolls having different diameters and provide a desirable tubular clamping force.