An apparatus for cutting polymer includes a rotor having a base with a first side and a second side opposite the first side. The rotor includes an outer annular wall extending from the first side and defining a number of slots, an inner annular wall defining a number of slots and extending from the first side and surrounded by, and spaced apart from, the outer annular wall. The rotor also includes blades extending from the first side and positioned within the inner annular wall. A circular-shaped stator also defines a number of slots. At least a portion of the stator is positioned in a space between the outer annular wall and the inner annular wall of the rotor.

Bread slicer allowing a loaf of bread (2) to be packed in a bag, comprising a loading compartment (1) which is connected to a receiving compartment (6), a pushing member (5) which allows the bread (2) to be pushed in a movement direction of the bread and means for keeping a packing bag (13) open. The slicer comprises an abutment element (19) for reducing the cross-section of the bag (13) at the location of the abutment element (13) so that the portion (21) of the bag with a reduced cross-section forms an abutment for the end of the sliced bread.

A spiralizing device that cuts vegetables into elongated strands. The spiralizing device includes a base that connects to a kitchen utensil, and a cutting blade for contacting the cutting the vegetables. The spiralizing device is an accessory that connects to and receives power from the kitchen utensil.

Methods and apparatuses for cutting food products. The apparatus includes an annular-shaped cutting head having at least a first mounting frame surrounding a central axis of the cutting head and a plurality of cutting tools arranged around the central axis of the cutting head and pivotably coupled to the first mounting frame such that each cutting tool has a pivot axis. The method includes deflecting each cutting tool about its pivot axis by engaging first portions of the cutting tools in proximity to the first mounting frame to deflect the first portions a first radial deflection distance relative to the central axis and engaging second portions of the cutting tools to deflect the second portions a second radial deflection distance relative to the central axis. The first and second radial deflection distances can be adjusted individually or in unison.

The invention relates to a device for cutting a base web with a separating device as well as a corresponding method, where the separating device can cut a base web into individual bases which can be guided under a fresh product. The separating device comprises a knife device and a counter cutting device, each of which comprise at least two cutting edges. The knife device and/or the counter cutting devices can be moved to and fro in two directions.

A coated cutting tool for chip forming machining of metals includes a substrate having a surface coated with a chemical vapour deposition (CVD) coating. The substrate is coated with a coating having a layer of α-Al.sub.2O.sub.3, wherein the α-Al.sub.2O.sub.3 layer exhibits a texture coefficient TC(0 0 12)≥7.2 and wherein the ratio of I(0 0 12)/I(0 1 14)≥0.8. The coating further includes a MTCVD TiCN layer located between the substrate and the α-Al.sub.2O.sub.3 layer. The MTCVD TiCN layer exhibits a pole figure, as measured by EBSD, in a portion of the MTCVD TiCN layer parallel to the outer surface of the coating and less than 1 μm from the outer surface of the MTCVD TiCN, wherein a pole plot based on the data of the pole figure, with a bin size of 0.25° over a tilt angle range of 0°≤β≤45° from the normal of the outer surface of the coating shows a ratio of intensity within β≤15° tilt angle to the intensity within 0°≤β≤45° of ≥45%.

A food slicer assembly includes a housing defining a first opening and a second opening perpendicularly arranged. A slicing blade received at the second opening enters the first opening of the housing. A coupling releasably couples a food product or a food product packaging to the housing. The first opening receives a food product therethrough, the second opening receives the slicing blade therethrough, and the slicing blade slices the food product arranged in the first opening such that the food product is divided into multiple portions using the food slicer assembly. The slicing blade may pass into the first opening from a first end, and upon reaching the second end, the slicing blade seals the food slicer assembly at the first opening. The assembly may be a cheese slicer assembly for slicing a block of cheese so that a slice of cheese can be removed from the first opening.

A blade assembly includes a blade support frame, and a plurality of V-shaped blades removably fastened to the blade support frame. The blade support frame has a food flow path extending downstream, and a plurality of blade mounts distributed around the food flow path. Each V-shaped blade has a first end portion connected to one of the blade mounts, a second end portion connected to another of the blade mounts, and an intermediate portion extending from the first end portion to the second end portion into the food flow path. At the first and second end portions of each V-shaped blade, a respective one of the blade mounts overlies both the upstream edge and the downstream edge of the V-shaped blade to inhibit the V-shaped blade from rotating when impacted by food.

When manufacturing a plurality of strip members by cutting a belt-like member along a length direction thereof, the belt-like member having embedded therein a plurality of reinforcement cords arranged parallel to each other, and a weft thread that intersects the reinforcement cords, a captured image showing images of at least the reinforcement cords in a cross section of one end of the belt-like member in the length direction is used to detect the position of the image of each of the reinforcement cords (RC). The number of the actual reinforcement cord (RC) to which each of the images of the reinforcement cords (RC) corresponds is determined on the basis of an interval between the images of the detected adjacent reinforcement cords (RC) in the image and an average cord interval, and a cutting position (Xa) is set.

The present invention is a cast iron pipe cutter. The cast iron pipe cutter includes a movable upper cutting tool and a rigid lower cutting tool. The upper cutting tool and lower cutting tool includes multiple cutting disc spaced an arc length apart. As the upper cutting tool is advanced downward by a hydraulic press, the cutting discs apply increasing pressure to the outer surface of a cast iron pipe until each cutting discs in the upper cutting tool and the lower cutting tool creates a fracture in the cast iron pipe. The multiple fractures created by the cutting discs amalgamate into a single fracture and the cast iron pipe is cut almost instantaneously.