A positioning device, comprising a base element, a carrier element to be positioned relative to the base element along a z-axis as well as at least one first, second, third and fourth slide element, wherein the first, second, third or fourth slide element on the one hand is disposed displaceably by means of a first, second, third or fourth base guide device along a first, second, third or fourth base line on the base element and on the other hand by means of a first, second, third or fourth ascent guide device along a first, second, third or fourth ascent line on the carrier element, wherein the first, second, third or fourth ascent line and the first, second, third or fourth base line run in a projection along the z-axis parallel to one another and with respectively constant different angles of inclination relative to the z-axis. It is provided that the first, second, third and fourth ascent guide device are arranged with respect to one another in such a manner that respectively in at least one projection perpendicular to the z-axis, the first and the second ascent line or the third and fourth ascent line, respectively, are inclined opposite to one another relative to the z-axis so that a synchronous displacement of the first, second, third and fourth slide element relative to the base element brings about a displacement of the carrier element relative to the base element exclusively along the z-axis.

A machine for machining workpieces, including a first column and a second column facing each other according to a first horizontal axis, a guide system guided displacement of at least one of the columns in parallel with the first horizontal axis, one or two tool units, each tool unit being arranged on respective column for controlled displacement perpendicularly to the first horizontal axis, on each column, a workpiece holding device, at least one of the workpiece holding devices being arranged for controlled displacement in parallel with the first horizontal axis, where the workpiece holding devices are arranged for supporting a workpiece between them and for controlled rotation of the workpiece around a workpiece axis parallel with the first horizontal axis.

An improved design and method is disclosed that uses a novel nesting linear slide which incorporates machine tool slides or ways into a structural member. The design simplifies the fabrication and assembly of components requiring accurate sliding alignment, such as milling machine bases, saddles, tables and columns. Due to the use of the single piece, which replaces multiple pieces in the prior art, fabrication and assembly costs are also significantly lower. The invention also enables a method of construction utilizing the novel single shape component which simplifies the assembly of machines requiring sliding surfaces with accurate alignment. The invention essentially comprises a single structural element that includes both male and female sliding members. By nesting two of the single structural elements it is possible to create sliding joints for machine tool bases, saddles, tables, and columns, as well as a wide variety of other sliding joints, in an extremely cost-effective manner. The linear slide includes a deformable element that allows for accurate alignment with no play and creates a strongly supported sliding joint.

The present disclosure relates to a movable table system comprising: a table; a first actuator for moving the table in a first direction; a second actuator for moving the table in a second direction; a first linear guide, which is coupled to the first actuator and the table, for guiding the table in the second direction; a second linear guide, which is coupled to the second actuator and the table, for guiding the table in the first direction; and a support portion for supporting the first actuator and the second actuator.

The present disclosure relates to a movable table system comprising: a table; a first actuator for moving the table in a first direction; a second actuator for moving the table in a second direction; a first linear guide, which is coupled to the first actuator and the table, for guiding the table in the second direction; a second linear guide, which is coupled to the second actuator and the table, for guiding the table in the first direction; and a support portion for supporting the first actuator and the second actuator.

An improved design and method is disclosed that uses a novel nesting linear slide which incorporates machine tool slides or ways into a structural member. The design simplifies the fabrication and assembly of components requiring accurate sliding alignment, such as milling machine bases, saddles, tables and columns. Due to the use of the single piece, which replaces multiple pieces in the prior art, fabrication and assembly costs are also significantly lower. The invention also enables a method of construction utilizing the novel single shape component which simplifies the assembly of machines requiring sliding surfaces with accurate alignment. The invention essentially comprises a single structural element that includes both male and female sliding members. By nesting two of the single structural elements it is possible to create sliding joints for machine tool bases, saddles, tables, and columns, as well as a wide variety of other sliding joints, in an extremely cost-effective manner. The linear slide includes a deformable element that allows for accurate alignment with no play and creates a strongly supported sliding joint.

An improved design and method is disclosed that uses a novel nesting linear slide which incorporates machine tool slides or ways into a structural member. The design simplifies the fabrication and assembly of components requiring accurate sliding alignment, such as milling machine bases, saddles, tables and columns. Due to the use of the single piece, which replaces multiple pieces in the prior art, fabrication and assembly costs are also significantly lower. The invention also enables a method of construction utilizing the novel single shape component which simplifies the assembly of machines requiring sliding surfaces with accurate alignment. The invention essentially comprises a single structural element that includes both male and female sliding members. By nesting two of the single structural elements it is possible to create sliding joints for machine tool bases, saddles, tables, and columns, as well as a wide variety of other sliding joints, in an extremely cost-effective manner. The simplicity and low cost of the method will be especially advantageous in the manufacture of small machine tools and other machines intended for higher volume production.

An improved design and method is disclosed that uses a novel nesting linear slide which incorporates machine tool slides or ways into a structural member. The design simplifies the fabrication and assembly of components requiring accurate sliding alignment, such as milling machine bases, saddles, tables and columns. Due to the use of the single piece, which replaces multiple pieces in the prior art, fabrication and assembly costs are also significantly lower. The invention also enables a method of construction utilizing the novel single shape component which simplifies the assembly of machines requiring sliding surfaces with accurate alignment. The invention essentially comprises a single structural element that includes both male and female sliding members. By nesting two of the single structural elements it is possible to create sliding joints for machine tool bases, saddles, tables, and columns, as well as a wide variety of other sliding joints, in an extremely cost-effective manner. The simplicity and low cost of the method will be especially advantageous in the manufacture of small machine tools and other machines intended for higher volume production.

A rotary headstock positioner assembly for rotatably supporting a workpiece includes a headstock positioner having a support for supporting a workpiece off the ground, where the support has an axis of rotation in a first plane at least substantially parallel to the ground. The rotary headstock positioner assembly also includes a gearbox fixedly connected to the headstock positioner for precisely rotating the support. The rotary headstock positioner assembly further includes a support frame for supporting the headstock positioner, where the support frame has a support surface spaced apart from the axis of rotation of the at least one support at a first precise, predetermined distance. The support surface is also positioned in a second plane at least substantially parallel to the first plane and spaced apart from the first plane at a second precise, predetermined distance.