Apparatus and method for processing optical workpieces

What is claimed is: 1 . An apparatus configured to process optical workpieces, comprising: a working space, a pair of workpiece spindles configured to receive and hold the optical workpieces, respectively the pair of workpiece spindles being arranged in the working space, a pair of tool spindles, each configured to receive a processing tool to process the optical workpieces thereon, the pair of tool spindles arranged in the working space and rotatable about their respective center axes, the center axis of each tool spindle extending in a longitudinal direction of the tool spindle along an axis of rotation of the tool spindle, the center axes also being in a horizontal direction, a device, common to both tool spindles, configured to synchronously and rotationally drive the pair of tool spindles about their respective center axes, the device located outside the working space, and a device configured for horizontal linear drive for the pair of tool spindles along their respective center axes, the device for horizontal linear drive being provided outside the working space, wherein the device for horizontal linear drive has a slide on which the pair of tool spindles is mounted, and wherein the slide is arranged linearly movably on a linear guide in the horizontal direction along the center axes of the pair of tool spindles. 2 . The apparatus according to claim 1 , wherein the device for horizontal linear drive further comprises a toothed rack fixed to the slide and meshing with a rotationally drivable toothed wheel. 3 . The apparatus according to claim 1 , wherein a handling device for handling the optical workpieces is provided outside the working space on a first side of the working space, and wherein the device for horizontal linear drive is arranged on a second side of the working space facing away from the first side of the working space. 4 . The apparatus according to claim 3 , wherein the handling device is designed to be linearly movable along an axis of the apparatus, so that the handling device can approach both a working chamber forming the working space and a cleaning station. 5 . The apparatus according to claim 1 , wherein the device for horizontal linear drive is for synchronously linearly driving the pair of tool spindles. 6 . The apparatus according to claim 1 , wherein each tool spindle of the pair of tool spindles is connected to a tool holder on which a processing tool of the processing tools is rigidly received or held. 7 . The apparatus according to claim 1 , wherein the apparatus comprises a cleaning station, wherein two cleaning fluid nozzles and two compressed air nozzles are provided per workpiece spindle of the cleaning station. 8 . The apparatus according to claim 7 , wherein the cleaning station or a workpiece spindle thereof comprises a collet for receiving an optical workpiece, the collet having a retaining ring which is received and fixed in a suitable recess at a free end of the workpiece spindle of the cleaning station and three gripping elements integrally connected to an upper side of the retaining ring forming a flexure bearing or flexure hinge. 9 . An apparatus configured to process optical workpieces, comprising: a working chamber having a chamber housing which encloses a working space, workpiece spindles configured to receive and hold the optical workpieces, respectively at least two pairs of tool spindles each configured to receive a processing tool to process the optical workpieces thereon, the at least two pairs of tool spindles being arranged to be rotatable about their respective center axes and to be linearly movable along their respective center axes, the center axis of each tool spindle extending in a longitudinal direction of the tool spindle along an axis of rotation of the tool spindle, at least one device for rotational drive for the at least two pairs of tool spindles, the at least one device for rotational drive being provided outside the working space, and at least one device for linear drive for the at least two pairs of tool spindles along their respective center axes, the at least one device for linear drive being provided outside the working space, wherein each or the at least one device for linear drive is arranged on at least one base plate, wherein a first device of the at least one device for linear drive is arranged on an upper side of a first base plate of the at least one base plate and a second device of the at least one device for linear drive is arranged on a lower side of the first base plate of the at least one base plate, wherein one pair of tool spindles of the at least two pairs of tool spindles has one common linear device of the at least one device for linear drive, and wherein the at least two pairs of tool spindles are arranged within the same working space. 10 . The apparatus according to claim 9 , wherein one pair of tool spindles of the at least two pairs of tool spindles has one common rotational device of the at least one device for rotational drive. 11 . The apparatus according to claim 9 , wherein the first and second devices for linear drive of the at least one device for linear drive are provided having one slide each, wherein on each slide a pair of tool spindles of the at least two pairs of tool spindles is mounted, and wherein each slide is arranged linearly movably on a linear guide along the center axes of the respective pair of tool spindles. 12 . The apparatus according to claim 9 , with at least one of: each or the at least one device for rotational drive, respectively, synchronously rotationally driving one pair of the at least two pairs of tool spindles; or each device for linear drive, respectively, synchronously linearly drives one pair of the at least two pairs of tool spindles. 13 . The apparatus according to claim 9 , wherein each device for linear drive of the respective pair of tool spindles further comprises a toothed rack fixed to a respective slide and meshing with a rotationally drivable toothed wheel. 14 . The apparatus according to claim 9 , wherein the second device of the at least one device for linear drive is arranged substantially mirrored to the first device of the at least one device for linear drive, the at least one base plate forming the mirror plane. 15 . The apparatus according to claim 9 , wherein the apparatus comprises a device for tool inspection in order to be able to detect damage or even total loss of a processing tool of the processing tools, wherein a first laser beam of the device for tool inspection is configured to inspect the processing tools received on a first pair of tool spindles of the at least two pairs of tool spindles and a second laser beam of the device for tool inspection is configured to inspect the processing tools received on a second pair of tool spindles of the at least two pairs of tool spindles. 16 . The apparatus according to claim 9 , wherein the apparatus comprises an outer casing enclosing a plurality of work stations, including the working chamber with the chamber housing. 17 . A method for processing optical workpieces comprising: performing a pre-processing step with a first pair of tool spindles having first processing tools received thereon, respectively, and performing immediately thereafter a post-processing step with a second pair of tool spindles with second processing tools received thereon, respectively, the tool spindles of the first and second pair of tool spindles having respective center axes, the center axis of each tool spindle extending in a longitudinal direction of the respectiv