Wire saw

The invention claimed is: 1. A wire saw having a drive unit including: a drive sheave for driving an endless saw wire, and a motor having a motor output shaft directly or indirectly connected to the drive sheave characterized in a at least one torsion suspension device, between the motor output shaft and the drive sheave, for dampening or absorbing torsion jerk/s to or from the endless saw wire, the torsion suspension device comprises an elastic coupling including: an inner torsion suspension coupling member, a coaxial surrounding outer torsion suspension coupling member, and at least one elastic torsion suspension element, between the inner torsion suspension coupling member and the outer torsion suspension coupling member, which at least one elastic torsion suspension element, upon rotation of the inner torsion suspension coupling member in relation to the coaxial surrounding outer torsion suspension coupling member becomes more squeezed between the inner and outer torsion suspension coupling members and tries to move them back to a neutral position, and wherein the inner torsion suspension coupling member has cross section with squared outer shape and the outer torsion suspension coupling member has a cross section with squared inner shape, the squared outer shape of the inner torsion suspension coupling member is rotated 45 degrees in relation to the squared inner shape of the outer torsion suspension coupling member, and wherein the at least one elastic torsion suspension element are provided in each one of four spaces formed between the inner and outer torsion suspension coupling members. 2. A wire saw as claimed in claim 1 , wherein the motor is of a kind that can operate at both driving directions, preferably an electric motor where the poles are shifted to change driving direction. 3. A wire saw as claimed in claim 1 wherein the track is arranged to be patched or arranged to the base into at least two different positions, a first in which the rack side facing to the left and the clamping side to the right, and a second in which the rack side facing to the right and the clamping side to the left. 4. A wire saw according to claim 1 wherein the motor output shaft is connected to a transmission which has a transmission output shaft that is connected to the drive sheave via a first of the at least one torsion suspension device. 5. A wire saw as claimed in claim 4 , wherein the transmission is housed in a pivotable arm which can be pivoted at least 180 degrees around a pivot which is essentially coaxial with the motor output shaft, preferably 360 degrees. 6. A wire saw according to claim 1 wherein the wire saw further includes a track for carrying the motor, the track rising from a base and forming therewith a stand assembly, and the motor and the drive sheave being displaceable along the track as the saw wire ( 1 ) is cutting, a plurality of saw wire sheaves are arranged to the stand assembly to form a storage for the saw wire ( 1 ), the storage including at least one upper storage sheave and at least one lower storage sheave arranged below the at least one upper storage sheave to the stand assembly. 7. A wire saw as claimed in claim 6 , wherein the wire saw includes at least two guide sheaves carried by the stand assembly, one for guiding the saw wire at a position between the drive sheave and an object to be sawed, and the other for guiding the saw wire at a position between the object to be sawed and the saw wire storage. 8. A wire saw as claimed in claim 7 , wherein the at least two guide sheaves is mounted on a pivotable guide sheave arm, which can be pivoted at least 120 degrees, preferably 360 degrees, in a plane essentially parallel to the plane of the drive sheave. 9. A wire saw as claimed in claim 6 , wherein the wire saw can be configured in a left and right hand configuration, switching sides between the drive unit and the wire storage while keeping the same positions in the back and forward direction. 10. A wire saw as claimed in claim 6 , wherein the track has a rack side to which the motor is attached to be movable along and a clamping side to which the storage sheaves can be directly or indirectly secured to, the rack side and the clamping side both being symmetrical. 11. A wire saw according to claim 6 wherein the at least one upper storage sheave or the at least one lower storage sheave being at least one displaceable storage sheave and the other being at least one fixed storage sheave, wherein the at least one displaceable storage sheave is directly or indirectly attached to the track and displaceable in an essentially axial direction of the track for adjusting a length of saw wire in the storage, and the saw wire wraps all of the storage sheaves of the storage during all sawing operations, so that the wire never is transferred to wrap another storage sheave/s and thereby increase the length of saw wire in the storage. 12. A wire saw as claimed in claim 11 , wherein said at least one displaceable storage sheave is a pair of storage sheaves mounted side by side and together displaceable in an essentially axial direction of the track, that said at least one fixed storage sheave is one of two fixed storage sheaves that are at least indirectly connected to the base, and that said displaceable pair of storage sheaves is located essentially above the two fixed storage sheaves. 13. A wire saw as claimed in claim 11 , wherein said at least one displaceable storage sheave is one storage sheave or preferably a pair of storage sheaves mounted side by side and displaceable in an essentially axial direction of the track, that said at least one fixed storage sheave is two storage sheaves or preferably three of the fixed storage sheaves that are at least indirectly connected to the track at an upper position thereof, and that said displaceable storage sheave/pair of storage sheaves is located essentially below the at least two fixed storage sheaves. 14. A wire saw according to claim 11 , wherein said at least one displaceable storage sheave is fixed at least indirectly to the motor, preferably to a motor carriage, and thereby indirectly to the track for travelling with the motor along the track. 15. wire saw as claimed in claim 11 , wherein said at least one displaceable storage sheave is mounted to be carried by an arm, which is pivotally and at least indirectly attached to the track adjustably in a direction along the track for adjusting a length of saw wire in the storage, and which is biased, so as to reduce possible tension variations in the saw wire. 16. A wire saw as claimed in claim 11 , wherein at least one fixed storage sheave is mounted to be carried by an arm, which is pivotally and at least indirectly attached to the track, and which is biased, so as to reduce possible tension variations in the saw wire. 17. A wire saw as claimed in claim 16 , wherein the arm is resiliently and at least indirectly connected to the track by a coupling including at least one elastic element, which upon rotation of an inner coupling member in relation to a coaxial outer coupling member becomes squeezed between two coupling members and tries to move them back to a starting position. 18. A method of re-configuring a wire saw between left and right side configurations, the wire saw having: a starting left or right side configuration wherein the left side configuration is symmetrically arranged relative to the right side configuration about a line of symmetry through a base, a track rising from the base and forming therewith a stand assembly, a drive unit including