A method for cutting a plow bolt hole in a work piece using a cutting torch includes receiving a computerized part file including elements representing holes to be cut in the work piece. An element is selected and assigned a plow bolt hole identity. The selected element is associated with an aspect of an inner shape and an aspect of an outer shape of the plow bolt hole. A tool path is developed for the cutting torch that accounts for the aspect of the inner shape and the aspect of the outer shape and is associated with the selected element. Instructions are output to a computer numerical control (CNC) machine to move the cutting torch along the tool path so as to cut both the inner shape and the outer shape of the plow bolt hole in the work piece consecutively without interrupting a flame of the torch.

Adhesive matter remaining at the end of a cuboid metal material is reliably removed in a relatively short time while suppressing the decrease in yield rate of the metal material. Distances of the upper surface and the lower surface of a cuboid metal material from a reference position are measured using a distance measurement device in the longitudinal direction of the slab including the longitudinal end of the slab. On the basis of the measurement results, the state of remaining of adhesive matter remaining on the upper and lower surfaces of the longitudinal end of the slab is comprehended. On the basis of the state of remaining of adhesive matter, the amount and position of cutting by a cutting tool is determined. Corner removing cutting is performed on the upper and lower surfaces of the longitudinal end of the slab using the cutting tool in accordance with the determined amount and position of cutting.

The invention relates to an ozone supply unit (26) for a flame burner apparatus and/or an oxygen cutting apparatus (10), comprising an oxygen inlet (28) to be supplied with oxygen (18), an ozone generator (32) coupled to the oxygen inlet (28) and configured to convert at least a part of the oxygen (18) supplied to the oxygen inlet (28) into ozone (18a), and an outlet (30) coupled to the ozone generator (32), wherein the outlet (30) provides at least a part of the oxygen (18) supplied to the oxygen inlet (28) and at least a part of the ozone (18a) converted by the ozone generator (32). The ozone supply unit (26) is configured to be integrated into a flame burner apparatus and/or an oxygen cutting apparatus (30). The invention further relates to a method for supplying ozone to a flame burner apparatus and/or an oxygen cutting apparatus (30).

A system and a method for separating a tubular component is disclosed, which for constructing a supporting structure, having a longitudinal pipe with pipe ends which are open on both sides. The system has a mobile transport module comprising a receiving platform having a pipe clamping device for clamping variable pipe diameters which receives and mounts the tubular component so that a first pipe end of the component, having a vertical longitudinal axis which detachably and securely engages the pipe clamping device. The invention further relates to a separating arrangement mounted on a supporting structure that it is deflectable at least vertically, to provide secure joining to the pipe end of a tubular component that faces away from the first pipe end. The tubular component is seated on the transport module and vertically securely engages the pipe clamping device.

A system and a method for separating a tubular component is disclosed, which for constructing a supporting structure, having a longitudinal pipe with pipe ends which are open on both sides. The system has a mobile transport module comprising a receiving platform having a pipe clamping device for clamping variable pipe diameters which receives and mounts the tubular component so that a first pipe end of the component, having a vertical longitudinal axis which detachably and securely engages the pipe clamping device. The invention further relates to a separating arrangement mounted on a supporting structure that it is deflectable at least vertically, to provide secure joining to the pipe end of a tubular component that faces away from the first pipe end. The tubular component is seated on the transport module and vertically securely engages the pipe clamping device.

The relevant regulations in the field of automated flame-cutting technology stipulate various safety devices for the process-gas supply of a cutting torch. The invention relates to the simplified installation and maintenance of the safety devices and to a compact structure thereof. Proposed is a multi-functional safety module, in the module body of which there are integrated a first and a second safety element to prevent flame- or gas-blowout, and in which there is provided a mechanical plug-type connection for establishing a gas-tight connection between the safety elements and the corresponding gas lines of the cutting torch.

The relevant regulations in the field of automated flame-cutting technology stipulate various safety devices for the process-gas supply of a cutting torch. The invention relates to the simplified installation and maintenance of the safety devices and to a compact structure thereof. Proposed is a multi-functional safety module, in the module body of which there are integrated a first and a second safety element to prevent flame- or gas-blowout, and in which there is provided a mechanical plug-type connection for establishing a gas-tight connection between the safety elements and the corresponding gas lines of the cutting torch.

An attachment to fit to a nozzle portion of an oxy-fuel torch that enables an operator to precisely cut a circle in a metal without having to move during operation is disclosed. The attachment includes a nut threadably attached to the nozzle portion that in turn holds a brass bushing that is concentrically and coaxially arranged inside a bearing within a bearing retainer. Further, a torch radius adjustment arm retainer is slidably locked to the bearing retainer via a dovetail joint and is configured to slidably receive a long arm of an L-shaped radius adjustment, further secured by a first thumb screw. The operator cuts the circle having a radius equal to distance between the nozzle portion and a replaceable radius pivot point threadably attached at end of a short arm of the radius adjustment arm by pivoting on said pivot point and rotating the torch in the circle.

A system for performing exothermic operations or oxygen delivery uses a rod and handle configuration to create a flowpath of oxygen. The rod includes cables having stainless steel fibers that burn using the oxygen within a hollow center area. While burning, the rod cuts through material. A sheath covers the covers to contain the gases and prevent unraveling of the cables. The handle attaches to the rod and provides control of the flow of oxygen to the rod. A manifold fixing in place bottles of oxygen connects to the handle and can be fixed to provide different mixtures from different bottles. The rod is disconnected when needed to fix a mask thereto for delivering breathable oxygen to a patient.

A system for performing exothermic operations or oxygen delivery uses a rod and handle configuration to create a flowpath of oxygen. The rod includes cables having stainless steel fibers that burn using the oxygen within a hollow center area. While burning, the rod cuts through material. A sheath covers the covers to contain the gases and prevent unraveling of the cables. The handle attaches to the rod and provides control of the flow of oxygen to the rod. A manifold fixing in place bottles of oxygen connects to the handle and can be fixed to provide different mixtures from different bottles. The rod is disconnected when needed to fix a mask thereto for delivering breathable oxygen to a patient.