Systems, method and apparatus for a fixturing platform having a frame assembly configured to couple to a support assembly with a plurality of surface plates configured to couple to the frame assembly in a number of configurations are described in this disclosure. The configurations include a continuous configuration with abutting surface plates forming a continuous working surface and a spaced configuration with spaced surface plates forming a spaced working surface, the spaced configuration have one or more working gaps between surface plates.

The embodiments of disclosure disclose a welding tray, which includes a tray frame (18) and a supporting device (16), wherein the supporting device (16) includes a supporting component and an adjustable connecting component, the supporting component includes a supporting surface, the adjustable connecting component connects the supporting component to a side edge of the tray frame (18), and a distance between the supporting surface and a bearing surface of the tray frame (18) is adjustable.

The invention relates to machines for the separative machining of plate-shaped workpieces using a machining tool. The machines include two workpiece support surfaces for supporting the workpiece, between which a gap is formed, and at least one carriage that is movable in or along the gap, and is connected to at least one covering element. The covering element at least partially covers the gap and includes a chain with a plurality of chain links. The chain links can have a brush support on an upper side and are designed to pivot with respect to one another, wherein at least two mutually adjacent chain links have a pivot-limiting angle () with respect to the longitudinal axis of each of the chain links such that, with a rectilinear orientation to one another and without exposure to force, the chain links assume a non-planar profile.

A laser beam machine cuts a workpiece into a plurality of parts and a remainder material. The machine includes a workpiece supporting unit including supports arranged at intervals and supporting the workpiece and a machining head radiating a laser beam to the workpiece. The machine includes a relative movement unit relatively moving the machining head and the workpiece supporting unit and a control apparatus controlling the relative movement unit and the machining head to cut the workpiece. The control apparatus forms, when cutting the workpiece, joints for coupling, to a partial remainder material that is a portion of the remainder material, both of a part that drops off from the supports after cutting and a part that cannot be attracted by the conveying and attracting unit after cutting such that the partial remainder material and the part are restricted from dropping from the supports and are attractable by the conveying and attracting unit.

A laser containment device, adapted to be mounted to a laser head, has an outer shell and an inner wall defining a peripheral chamber there in-between. An inner seal and an outer seal, respectively mounted to the outer shell and to the inner wall, are adapted to contact a workpiece. The peripheral chamber, encircling an opening in the laser containment device for letting a laser beam reach a workpiece, may be connected to a differential pressure generator operative to generate a differential pressure therein. A pressure sensor is located within the peripheral chamber to read the differential pressure. In use, the laser head, mounted to a computer-controlled manipulator, emits its laser beam. The pressure sensor sends its pressure readings to a controller which compares their values with a predetermined pressure threshold. If the pressure readings cross this threshold, the controller stops the emission of the laser beam.

An embodiment of the present disclosure provides a welding fixture, including: a base; a supporter; a fixing device arranged to fix a member to be welded on the supporter; and a damping hinge which includes a first hinge plate, a second hinge plate and a pivot, the first hinge plate being fixed to the base, the second hinge plate being fixed to the supporter, wherein each of the first hinge plate and the second hinge plate has a pivot hole and is connected to the pivot via the pivot hole, and wherein the pivot is fitted into the pivot hole of each of the first hinge plate and the second hinge plate by interference. An embodiment of the present disclosure provides a welding method using the welding fixture.

Systems and methods for producing mesh from wires or rods with programmed changeable steps for the longitudinal and transverse wires. The longitudinal wires (1) and the transverse wires (12) may be fed from coils or be precut. The longitudinal wires are fed in receptacles (2) on carriers (3) with the carriers being found on prefeeder carrier (4), a feeder carrier (6) with grippers (7) transports them towards the welding heads (10) and the produced mesh (20) is received by a mesh carrier (14). The carriers (3) with the receptacles (2) for the longitudinal wires on the prefeeder carrier (4), the grippers for the longitudinal wires (7) at the feeder carrier (6) and the welding heads (10) are displaced in the direction of the transverse wire without restrictions, generally in an unrestricted fashion, so as to correspond to the longitudinal wires being subjected to welding. The transverse wires are fed towards the welding heads to be welded with the longitudinal wires. The machine produces meshes with openings, grouping the longitudinal wires in groups and feeding the groups of longitudinal wires towards the welding heads, adjusting the position of the related mechanisms to the position of the longitudinal wires.

A laser workpiece cutting system for performing a laser cutting operation on a workpiece. The laser workpiece cutting system includes a modular support unit configured to be easily assembled and disassembled. The modular support unit includes a plurality of individual components, which when assembled, are configured to support one or more workpieces for laser cutting. A frame includes siderails configured to support a plurality of support rails, each of which includes a plurality of pins configured to support and align one or more workpiece fixtures. The workpiece fixtures, in different embodiments, are adapted to support a wide variety of different types of workpieces including, glassware, writing instruments, leather products, novelty items, toys, and utensils.

A workpiece positioning system integrated with a fume extraction device is provided. The system comprises a movable work surface assembly and a manifold. The work surface assembly includes a plurality of work surfaces and a plurality of ventilation ports. Each of the plurality of ventilation ports is disposed on each of the plurality of work surfaces to ventilate the corresponding work zone. The manifold is disposed below the work surface assembly and coupled to a duct system through which fumes produced during welding or cutting are to be transported to the fume extraction device. When a workpiece placed on a work surface is positioned for welding or cutting, the manifold is aligned and in fluid communication with the ventilation port corresponding to the work surface.

Disclosed is a method for loading a sheet placement device of a flat bed machine tool with a material sheet, wherein the material sheet is supplied to the machining operation carried out by the flat bed machine tool, starting from a target position assigned to the machining operation in a machine coordinate system, and the flat bed machine tool comprises a camera system having at least one camera. The camera system is designed to produce captured images of the sheet placement device, which are calibrated three-dimensionally in relation to the machine coordinate system of the flat bed machine tool. The method comprises the steps: producing a captured image of the material sheet in the region of the sheet placement device; evaluating the captured image to determine an actual sheet position in the machine coordinate system; measuring a deviation of the determined actual sheet position from the target position; and using the measured deviation to align and position the material sheet.