A housing has a first end and a second end, an inner surface of the housing defining a channel that is configured to slidably receive therein a food product. A food product motivating mechanism is configured to engage a food product, the food product motivating mechanism being slidably receivable in the first end of the housing, the food product motivating mechanism and the housing being configured to cooperatively slidably urge a food product from the first end of the housing toward the second end of the housing. A rotating cutting mechanism is removably attachable to an outer surface of the second end of the housing, the rotating cutting mechanism being configured to rotate about the second end of the housing, the rotating cutting mechanism being further configured to cuttingly engage a food product.

A vehicle is wrapped by an adhesive film which is then slit by applying first tape to the vehicle having a longitudinally extending filament carried by the tape at a position spaced from the side edges. A second tape is applied over the film at the first tape body so as to bridge to each side of the filament and pulling the filament so as to tear through the film and the first ad second tapes body with the second tape applying a force to the film acting to reduce tendency of the film to pull away from the object during the cutting by the filament as the filament is pulled.

A plurality of bushings are coupled to one another via a series of bolts to provide an interlocking, articulating cutter. The bolts have a cylindrical end and a convex end. The convex ends are seated inside a concave socket coupled to the bushings. The cylindrical ends are coupled to a convex nut seated inside another concave socket coupled to an adjacent bushing. The convex ends of the bolts are configured to articulate inside the seat of the concave sockets. A washer may be placed between the bushings to provide a desired amount of flexibility and/or rigidity. The outer surface of the bushing comprises a cutting structure, such as a milled or clad cutting structure.

A plurality of bushings are coupled to one another via a series of bolts to provide an interlocking, articulating cutter. The bolts have a cylindrical end and a convex end. The convex ends are seated inside a concave socket coupled to the bushings. The cylindrical ends are coupled to a convex nut seated inside another concave socket coupled to an adjacent bushing. The convex ends of the bolts are configured to articulate inside the seat of the concave sockets. A washer may be placed between the bushings to provide a desired amount of flexibility and/or rigidity. The outer surface of the bushing comprises a cutting structure, such as a milled or clad cutting structure.

A tool for flash-trimming and/or cleaning a component, comprising a shaft and a processing element mounted on the shaft such that it can be removed, the processing element being designed as a flexible cord and being received on the shaft such that, in an operational state, it bulges radially outwards in at least some sections as the rotational speed of the shaft increases; the invention also relates to a processing system along with this tool

Disclosed are an apparatus and a method for separating a touch screen and a display screen, the apparatus comprises: a working base station configured to hold the touch screen and the display screen jointed together by a sealant; a heater mounted inside of the working base station and configured to heat and soften the sealant between the touch screen and the display screen; a saw wire arranged to contact a contact boundary between the touch screen and the display screen and to reciprocate at least in a tangent direction of the contact boundary so as to preliminarily separate the touch screen and the display screen; a first adsorption device configured to adsorb the display screen and remove the display screen from the touch screen; and a mutual moving mechanism configured to enable the saw wire to contact the contact boundary between the touch screen and the display screen and to move relative to the touch screen and display screen in a normal direction of the contact boundary. The saw wire is reciprocated between the touch screen and the display screen so as to complete a preliminary separation between the display screen and the touch screen, and then the display screen and the touch screen are separated by the adsorption device, thus the display screen and touch screen are not likely to be damaged and can be separated from each other successfully.

Disclosed are an apparatus and a method for separating a touch screen and a display screen, the apparatus comprises: a working base station configured to hold the touch screen and the display screen jointed together by a sealant; a heater mounted inside of the working base station and configured to heat and soften the sealant between the touch screen and the display screen; a saw wire arranged to contact a contact boundary between the touch screen and the display screen and to reciprocate at least in a tangent direction of the contact boundary so as to preliminarily separate the touch screen and the display screen; a first adsorption device configured to adsorb the display screen and remove the display screen from the touch screen; and a mutual moving mechanism configured to enable the saw wire to contact the contact boundary between the touch screen and the display screen and to move relative to the touch screen and display screen in a normal direction of the contact boundary. The saw wire is reciprocated between the touch screen and the display screen so as to complete a preliminary separation between the display screen and the touch screen, and then the display screen and the touch screen are separated by the adsorption device, thus the display screen and touch screen are not likely to be damaged and can be separated from each other successfully.

A diamond wire cutter, using an adjustable length pulley system, a diamond wire saw, and a movable pulley cart, can perform a through-cut of complete sections of a structure such as a tubular subsea by fitting a chain about an outer surface of the structure, securing the chain to the movable pulley cart and using the chain to move or otherwise guide the movable pulley cart about the outer circumference of the structure to cut while using a diamond wire to effect a cut between the movable pulley cart and the diamond wire saw.

A cutting appliance includes a selectively rotatable base to removably receive and secure a tub of material thereon. A scoring assembly is removably mounted to the base and includes two spaced apart and substantially parallel blades. The scoring assembly is selectively engageable with an outer sleeve of the tub to score a band in the outer sleeve upon rotation of the tub. The scored band is removable from the remainder of the outer sleeve to expose a cutting area of the material. A cutting assembly is mounted to the base and comprises a cutting tool to selectively slice reciprocally and radially through the exposed cutting area of the material. An elevational position of the scoring assembly and the cutting assembly is selectively adjustable relative to the base.

A cutting appliance includes a selectively rotatable base to removably receive and secure a tub of material thereon. A scoring assembly is removably mounted to the base and includes two spaced apart and substantially parallel blades. The scoring assembly is selectively engageable with an outer sleeve of the tub to score a band in the outer sleeve upon rotation of the tub. The scored band is removable from the remainder of the outer sleeve to expose a cutting area of the material. A cutting assembly is mounted to the base and comprises a cutting tool to selectively slice reciprocally and radially through the exposed cutting area of the material. An elevational position of the scoring assembly and the cutting assembly is selectively adjustable relative to the base.