The rolled material dispenser of the present invention enables the user to securely grip the rolled material dispenser and safely cut rolled material installed within. The rolled material dispenser provides beveled corners allowing for better gripping and usage for users with decreased hand strength and dexterity. The user inserts the rolled material of their choice into the dispenser. The user opens the lid of the rolled material dispenser, pulls a desired length of material from the roll installed inside the dispenser device, and then closes the lid. Closing the lid secures the rolled material and positions the cutting device to sever the desired length of material. The cutting device travels along the track of the lid. The user slides the cutting device across the rolled material positioned underneath the lid to cut a portion of material from the roll installed within the dispenser.

A paper tube making and cutting machine includes a fixed rod, a paper tape winding mechanism, an angle measurement unit, a length measurement unit, a cutter, and a drive mechanism. The paper tape winding mechanism wraps or winds at least one paper tape around the fixed rod to form a paper tube. The angle measurement unit measures an angle of the paper tape winding mechanism or the paper tape relative to the fixed rod. The length measurement unit measures a conveyed length of the paper tape. The drive mechanism determines and sets a moving speed of the cutter along the fixed rod according to the angle and the conveyed length, such that the moving speed of the cutter is corresponding to or close to a producing speed or generation rate of the paper tube formed on the fixed rod, in order to prevent the paper tube from pushing a side surface of the cutter or to prevent the cutter from pulling and stretching the paper tube to thereby improve durability of the cutter and the quality of a cut paper tube.

A method for manufacturing a belt-shaped cord member by cutting a rubber topped fabric produced by covering a topping rubber on an interdigitated fabric formed by interweaving many warp textile cords and few wefts to a predetermined width, comprising; an interdigitated fabric forming step of arranging a cord having conductivity for every predetermined number of the many warp textile cords which is then interwoven with the weft yarn, a rubber topped fabric producing step of topping rubber on the front and back surfaces of the interdigitated fabric, and a cutting step of cutting the produced rubber topped fabric by every predetermined number of the textile cords, wherein, in the cutting step, the rubber topped fabric is cut along the textile cord in which a cord having conductivity is arranged, after the position of the textile cords is specified by energizing the rubber topped fabric.

A method of cutting a wafer of composite core from a bulk composite core including the steps of placing the bulk composite core in a container, the bulk composite core having a plurality of tube members; depositing a potting compound in contact with an outer surface of the bulk composite core; curing the potting compound; and after curing of the potting compound, cutting through each of the tube members. A method of cutting a wafer of composite core from a bulk composite core, the method comprising the steps of stabilizing the bulk composite core by wrapping an exterior of the bulk composite core with a composite wrap, the bulk composite core having a plurality of tube members; curing the composite wrap; and cutting through each of the tube members.

A folding device for bending a workpiece made of flat material. The folding device includes a machine frame having a flat mounting surface, at which a clamping cheek is arranged, which can be moved relative to the mounting surface. The clamping cheek clamps a workpiece which is positioned on the mounting surface at a specified or specifiable mounting position, to the machine frame. A bending means, of at least one bending tool can be moved relative to the mounting surface so that the clamped workpiece can be bent around a certain bending angle, is furthermore arranged at the folding device. A machine controller is coupled to a cutting tool drive of a cutting tool for cutting the workpiece and which for performing a cutting process for severing a workpiece which is smaller than a distance between the start position and the end position with respect to the bending axis.

Disclosed is a customized blinds&shades cutting apparatus. The customized blinds&shades cutting apparatus comprises a working platform. The working platform is provided with a blinds&shades fabric cutting mechanism, a blinds&shades integrated cutting mechanism and an adjustable positioning mechanism. The blinds&shades fabric cutting mechanism comprises a first base, a first motor is fixedly mounted on the first base, a connected shaft is mounted on a rotating shaft of the first motor, and a cutter knife is further movably arranged on the first base; the blinds&shades integrated cutting mechanism comprises a second base, an aligning and cutting die is arranged on the second base, a cutting groove is formed on the working platform, the second base and the aligning and cutting die, and the blinds&shades integrated cutting mechanism further comprises saw webs corresponding to the cutting grooves in position. The customized blinds&shades cutting apparatus is novel in structure and ingenious in design. The customized blinds&shades cutting apparatus with a novel structure and an ingenious conception enables to manufacture clamps, housings, lower beams and lower round pipes of blinds&shadess with different sizes and models by using the blinds&shades fabric cutting mechanism, the blinds&shades integrated cutting mechanism and the adjustable positioning mechanism to clamp and cut four profiles: a reel pipe, an upper housing, a lower beam and a lower round pipe, so that the processing efficiency is high.

A clamp includes first and second rising portions that rise from a base portion, a first extending portion extending along a first top surface of a table from the first rising portion, a second extending portion extending along a second top surface of the table from the second rising portion, a first clamp portion to urge a medium toward the first top surface, and a second clamp portion to urge the medium toward the second top surface. A gap located above a groove in the table is provided between the first clamp portion and the second clamp portion.

A method of cutting a wafer of composite core from a bulk composite core including the steps of placing the bulk composite core in a container, the bulk composite core having a plurality of tube members; depositing a potting compound in contact with an outer surface of the bulk composite core; curing the potting compound; and after curing of the potting compound, cutting through each of the tube members. A method of cutting a wafer of composite core from a bulk composite core, the method comprising the steps of stabilizing the bulk composite core by wrapping an exterior of the bulk composite core with a composite wrap, the bulk composite core having a plurality of tube members; curing the composite wrap; and cutting through each of the tube members.

An apparatus for cutting tires comprises a frame (1), an accommodation zone (2) intended to receive a tire (31) to be cut, lateral holding means (5, 6) for a tire, a detector (4) capable of detecting a central zone of a tire (31), blades (7) mounted to slide between a separated position of disengagement of the tread and a working position in which they penetrate into the sidewall (32) of a tire, and a control (9) ensuring that the blades (7) penetrate into the side walls (32) of the tire (31) only when they are above its tread (33). The lateral holding means (5, 6) comprise a vertically sliding jaw (6) capable of pressing against the bead (34) of a tire (31) and a part (5) with two branches (37) each bearing a wheel (38) capable of coming into contact with an inner surface (35) of the tread (33) of a tire, the jaw (6) and the part (5) being diametrically opposed relative to the inner circumference of a tire. The blades (7), when they are in working position, penetrate into the side walls (32) of a tire (31) received between the two branches (37) so as to stabilize the cutting zone.

An apparatus for cutting tires comprises a frame (1), an accommodation zone (2) intended to receive a tire (31) to be cut, lateral holding means (5, 6) for a tire, a detector (4) capable of detecting a central zone of a tire (31), blades (7) mounted to slide between a separated position of disengagement of the tread and a working position in which they penetrate into the sidewall (32) of a tire, and a control (9) ensuring that the blades (7) penetrate into the side walls (32) of the tire (31) only when they are above its tread (33). The lateral holding means (5, 6) comprise a vertically sliding jaw (6) capable of pressing against the bead (34) of a tire (31) and a part (5) with two branches (37) each bearing a wheel (38) capable of coming into contact with an inner surface (35) of the tread (33) of a tire, the jaw (6) and the part (5) being diametrically opposed relative to the inner circumference of a tire. The blades (7), when they are in working position, penetrate into the side walls (32) of a tire (31) received between the two branches (37) so as to stabilize the cutting zone.