The present invention relates to a machine tool 100 for machining a workpiece, said machine tool 100 having the following: a support portion 30 on which at least one vertical guide 18, 32 is disposed; a machining unit 10 for machining a workpiece on the machine tool 100, said machining unit 10 being guided so as to be vertically movable on the at least one vertical guide 18, 32 of the support portion 30; a drive mechanism 20 having at least one drive 21 and at least one gearbox 22, said drive mechanism 20 being specified for driving a relocation of the machining unit 10 in the vertical direction along the at least one vertical guide 18, 32 of the support portion 30, wherein the machining unit is suspended from one or a plurality of gearbox portions of the at least one gearbox 22 of the drive mechanism 20 in such a manner that the centre of gravity 101 of the machining unit 10 conjointly with an effective point 12 of the suspension 11 of the machining unit 10 on the drive mechanism 20 is disposed in a common vertically oriented straight line 23.

The present invention relates to a machine tool (1) for machining semi-finished aluminum or titanium alloy products and comprises a supporting structure (2), an upright (4), a carriage (6) and a working head (7). The supporting structure (2) in turn comprises a bench (20) and a rear support (22) rigidly connected to each other. The bench (20) extends along a longitudinal direction (X), while the rear support (22) extends both along the longitudinal direction (X) and along a vertical direction (Y). The supporting structure (2) is also provided with upright translation means (3). The upright (4) is connected to the supporting structure (2) by means of the upright translation means (3), so as to translate along the longitudinal direction (X) and is further provided with carriage translation means (5). The carriage (6) is connected to the upright (4) by means of the carriage translation means (5) so as to be translatable along the vertical direction (Y). Finally, the working head (7) is engaged with the carriage (6). The machine tool (1) further comprises four pairs of gearmotors (81, 82, 83, 84) which are positioned aboard the upright (4) and engage with the upright translation means (3).

In the machine tool 2, two or more machine tables 5 are movably provided on the linear way 4 of the machine base 2, the pinion gear 14 is engaged with the rack 13 of the machine base 3, and the feeding movement of each table 5, the pinion gear 14 is driven by a feed motor 15 mounted on each table 5, and the feed motor 15 is controlled by the table control unit 21 so that the table 5 is fed and moved. In the table independent mode, the movement of the table 5 is independently controlled, and in the table linkage mode, the feeding movements of two or more tables 5 are controlled in the same direction at the same speed and in the synchronous state as the same movement amount.

The present invention relates to a woodworking work table and a multipurpose woodworking device including the woodworking work table. The woodworking work table includes: a support post having a predetermined height; a base frame member supported by the support post; a vise member combined with the base frame member to fix a wood piece to be fabricated; a slider disposed under the base frame member and the vise frame member to slide the vise member in a front-rear direction; and a feeding device moving a woodworking machine mounted over the base frame member in X-axial, Y-axial, and Z-axial directions, in which the base frame member has a plurality of first jig-coupling grooves for coupling at least one of a plurality of woodworking jigs, and the vise member has a plurality of second jig-coupling grooves and a plurality of third jig-coupling grooves for coupling at least one of the woodworking jigs.

The present disclosure shows a gantry loader having at least one carriage travelable at a horizontal guide rail, in particular for the transport of workpieces between stations of a production system, wherein the carriage has at least one drive. The present energy is characterized in that the carriage has an energy store for the at least partial energy supply of the drive.

A gantry table includes a table main body. A gantry rail extends along the table main body, and a gantry rack extends along the table main body. The gantry table includes a gantry comprising a pinion gear that engages the gantry rack. The pinion gear drives the gantry to move along the table main body on the gantry rail. A tool bracket is movable along the gantry. The gantry table further includes a first adjustment bar and a second adjustment bar. The gantry rail and the gantry rack are attached to both of the first adjustment bar and the second adjustment bar. A joiner plate joins the first adjustment bar to the second adjustment bar. The gantry table includes a vertical adjustment that is configured to adjust a vertical position of the joiner plate with respect to the table main body. The gantry table further includes a depth adjustment configured to adjust a lateral position of the joiner plate with respect to the table main body.

A carrier transmission device comprises a slide rail, a rack and a pair of gears. The slide rail extends along a transmission direction of a carrier to be transmitted and is adapted to slidingly guide the carrier. The rack extends along the transmission direction and is connectable to, or integrally formed on, the carrier. The pair of gears are spaced by a predetermined distance in the transmission direction and are adapted to engage with the rack and drive the carrier to move in the transmission direction on the slide rail.

The machine tool comprises a fixed bearing structure, a movable bearing structure supported by the fixed bearing structure and displaceable with respect thereto along a horizontal direction, a tool-carrying carriage mounted vertically translatable in the movable bearing structure between an upper end position and a lower end position, situated at respective heights or levels separated by a predetermined vertical distance, and a motor adapted to cause a horizontal displacement of the movable bearing structure with respect to the fixed bearing structure and/or a vertical displacement of the tool-carrying carriage with respect to the movable bearing structure. The fixed bearing structure is configured such that the movable bearing structure is supported and driven in its displacement at a height or level intermediate between the heights or levels of the end positions of the tool-carrying carriage.

A positioning system includes a slide support, on which is mounted a positioning slide, which can be driven to perform a positioning movement in a positioning plane with the aid of drive gears of the slide support, wherein the positioning plane is defined by a Cartesian x-y coordinate system. The drive gears are represented by at least one x-drive gear, which can cause a positioning movement in the x-axis direction, and at least one y-drive gear, which can cause a positioning movement in the y-axis direction. The drive gears are in engagement with a driven toothing structure of the positioning slide, which includes a plurality of driven teeth distributed in a punctiform arrangement in a regular two-dimensional tooth matrix. Although the drive gears are short, the positioning system facilitates a traverse of the positioning slide within a large positioning area.

A drive device for a movement unit of a machine tool includes a first toothed element driven by a drive motor and provided as a drive pinion including a first tooth arrangement and a second toothed element provided as a toothed rack including a second tooth arrangement. One of the first and second toothed elements is connected to a machine frame, and the other of the first and second toothed elements is connected to the movement unit. The first and second toothed elements are moved relative to each other along a movement axis of the first and second toothed elements by the drive motor via a meshing between the first and second tooth arrangements and via an engagement between the first and second tooth arrangements along an engagement axis that extends perpendicularly to the movement axis.