The invention relates to a machining device, in particular for machining workpieces consisting of wood, wood products, plastics or similar, said device comprising a workpiece holder for holding a workpiece during the machining, process, and a guide means for displaceably guiding a tool carriage for holding and driving a tool, the workpiece holder and/or the guide means being displaceable by displacement means in order to produce relative movement in a machining direction between the workpiece and the tool, for the machining of the workpiece. The workpiece carriage is displaceably arranged on one side of the guide means and the workpiece carriage supports two tools on one side of the guide means and in the machining direction of the workpiece, said tools being arranged next to one another.

Disclosed is a machine tool including: a base having a pair of first-axial slides facing each other at both sides of a mounting space; a saddle coupled to the first-axial slides of the base to slide in a first axis direction and having a pair of second-axial slides facing each other; a crosspiece coupled to the second-axial slides of the saddle to slide in a second axis direction and having a pair of third-axial slides facing each other; a vertical ram coupled to the third-axial slides of the crosspiece to slide in a direction perpendicular; and a table disposed in the mounting space of the base to be able to rotate relative to the base.

The invention refers to a machine for 3D processing of volumetric metal objects with random shapes and sizes, in particular for thermal and/or laser cutting of holes and random contours in metal cabinets in their assembled state. The machine consist frame /1/, on the horizontally oriented beams /5/ are fixed linear guide ways, on which are placed two vertical oriented carriages /6/, wherein at their upper end the carriages /6/ are connected with a cross beam /7/ oriented toward axis X and perpendicular to axis Y, and on the cross beam /7/ are mounted at least two linear guide ways to which a horizontally oriented carriage /8/ is connected, with the possibility of movement along the axis X, as to the carriage /8/ is mounted a ram /9/, which move in the carriage /8/ with the possibility of movement in the vertical direction along axis Z.

A machine tool includes a frame with two opposite frame sections, a number of leg elements arranged on the frame, and a first carriage having a first linear axis. The first carriage is guided on the two opposite sections of the frame and is displaceable in a first direction. A second carriage of a second linear axis is guided on the first carriage and is displaceable in a second direction A tower element has a third linear axis, which is retained on the second carriage. A machining element is retained on the tower element and is displaceable in a third direction, and a tool spindle is arranged on the machining element for receiving a tool.

A sliding seat device with surrounding structure, which is applied to a bridge type machining center, includes a main body provided with a sliding portion; a sliding seat slidingly disposed on the sliding portion and reciprocating along an X-axis direction of the main body, the sliding seat provided with a housing; a sliding pillar passing through the housing and reciprocating along a Z-axis direction of the main body, one side of the sliding pillar provided with a protruding rail disposed along the Z-axis direction of the main body; an assistant plate connected with the sliding seat and facing the protruding rail; and an adjusting unit passing through the assistant plate and pushing against the protruding rail, the adjusting unit correcting a vertical bias between the sliding pillar and the main body.

This gantry type conveying device is provided with: a beam which is horizontally installed; a runner traveling along the beam; an elevator supported to be movable in the vertical direction with respect to the runner; and a loading part which is supported by the lower portion of the elevator and on which a workpiece is loaded. This processing line has the gantry type conveying device and a machine tool. The machine tool is provided with: a base; and a workpiece supporting device provided movable with respect to the base in a forward and backward direction perpendicular to the extending direction of the beam when viewed in a plane.

The invention is a modular table-top automation apparatus, or for short, a tac, a word derived from an acronym for a table-top automation center, of which, this is the first. Employing integrated mechanical and electronic systems, a tac is a flexible, programmable apparatus, readily reconfigurable, which can be used as either a stand-alone unit, or as a cell within a configuration of other tacs or machines. The tac can utilize various purchasable application devices, mounted on one or two horizontal carriage rail assemblies, which extend past both sides of a frame containing a central work area, giving it a unique ability to load, position, perform numerous operations and unload a wide variety of small parts or assemblies. By combining with optional rotary magazines positioned on both sides of the frame, the tac can be set-up as a fully automatic “load and walk-away” production center.

The invention discloses a multiple-spindle full-automatic vertical machining center, which comprises an actuator, a lathe bed, a feeding area, a tooling area, a machining area and a tool changer area. The actuator comprises a ram, a saddle and a sliding table, the feeding area crosses the lathe bed, and the feeding area and the tool changer area are respectively located on two opposite sides of the machining area, the feeding area is located at a forefront end of the machining center, and the actuator moves above the feeding area, the tooling area, the machining area and the tool changer area. Compared with the prior art, a conveyor belt is arranged in front of the whole machine tool and crosses the machine tool, a length of the conveyor belt may be increased or decreased as required, and by increasing the length of the conveyor belt, more raw materials and finished parts may be stored, so labor is saved.

The invention discloses a multiple-spindle full-automatic vertical machining center, which comprises an actuator, a lathe bed, a feeding area, a tooling area, a machining area and a tool changer area. The actuator comprises a ram, a saddle and a sliding table, the feeding area crosses the lathe bed, and the feeding area and the tool changer area are respectively located on two opposite sides of the machining area, the feeding area is located at a forefront end of the machining center, and the actuator moves above the feeding area, the tooling area, the machining area and the tool changer area. Compared with the prior art, a conveyor belt is arranged in front of the whole machine tool and crosses the machine tool, a length of the conveyor belt may be increased or decreased as required, and by increasing the length of the conveyor belt, more raw materials and finished parts may be stored, so labor is saved.

Apparatuses for holding a tool used for performing a task and methods for performing a task are provided. In one example, the apparatus includes a movable base that is configured to move along a floor surface. A multi-axis arm is coupled to the movable base and is configured to pivotally move in multiple directions. A holding member is coupled to the multi-axis arm and is configured to hold the tool in a position and while moving the tool by moving the movable base and/or pivotally moving the multi-axis arm.