Hotwire cutting machine

We claim: 1. A hotwire cutting machine ( 700 ), comprising: a single or plurality of heated wires ( 701 and 101 ); a plurality of springs ( 702 and 702 a ); a plurality of grooved rods ( 703 , 703 a , and 1203 ) supported by end bearings ( 402 and 403 ); secondary bearings ( 404 and 405 ) at a middle of the grooved rods ( 703 , 703 a , and 1203 ), wherein the plurality of grooved rods ( 703 , 703 a , and 1203 ) are coupled to a synchronized motor ( 504 ) for rotating each grooved rods ( 703 , 703 a , and 1203 ) of the plurality of grooved rods ( 703 , 703 a , and 1203 ) in a direction of the single or plurality of heated wires ( 701 and 101 ) movement due to thermal expansion effects and reduce friction between the single or plurality of heated wires ( 701 and 101 ) and the plurality of grooved rods ( 703 , 703 a , and 1203 ); a splined shaft pair ( 704 , 704 a , and 1204 ) on which a plurality of discs ( 705 and 705 a ), slide holding the single or plurality of heated wire ( 701 and 101 ) via a plurality of non-heated wires ( 708 , 708 A); and a motors ( 711 , 711 a ) capable of providing a to-fro oscillating sawing motion action to all the single or plurality of heated wires ( 701 and 101 ) by to-fro rotation of the splined shaft pair ( 704 , 704 a , and 1204 ) to achieve faster cutting speeds, wherein the plurality of grooved rods ( 703 , 703 a , and 1203 ) are free to rotate with help of end bearings ( 402 and 403 ) and secondary bearings to avoid rubbing between single or plurality of heated wires ( 701 and 101 ) and the plurality of grooved rods ( 703 , 703 a , and 1203 ). 2. The hotwire cutting machine ( 700 ) of claim 1 , wherein the synchronized motor ( 504 ) is attached to each of to the plurality of grooved rods ( 703 , 703 a , and 1203 ) and synchronized with the motors ( 711 , 711 a ) that attached to the splined shaft pair ( 704 , 704 a , and 1204 ), to avoid the relative motion between the single or plurality of heated wires ( 701 and 101 ) and the plurality of grooved rods ( 703 , 703 a , and 1203 ). 3. The hotwire cutting machine ( 700 ) of claim 1 , wherein the plurality of grooved rods ( 703 , 703 a , and 1203 ) has grooves on one cylindrical portion along its circumference and another portion being plain without grooves. 4. The hotwire cutting machine ( 700 ) of claim 1 , wherein the grooved rods ( 703 , 703 a , and 1203 ) have straight fine pitch grooves. 5. The hotwire cutting machine ( 700 ) as claimed in claim 1 wherein the plurality of grooved rods ( 703 , 703 a , and 1203 ) can be a threaded or grooved rod ( 601 ) with semi-circular sheet cladding ( 602 ). 6. The hotwire cutting machine ( 700 ) of claim 1 , wherein the plurality of discs ( 705 and 705 a ) are configured to be grabbed by a separate programmable CNC system and moved along the splined shaft pair ( 704 , 704 a , and 1204 ) and positioned to position the single or plurality of heated wires ( 701 and 101 ) at desired pitch position, for multi-wire cutting. 7. The hotwire cutting machine ( 700 ) of claim 1 , wherein the splined shaft pair ( 704 , 704 a , and 1204 ) is supported by a plurality of idler shafts or rollers ( 801 ), preventing the splined shaft pair ( 704 , 704 a , and 1204 ) from bending due to forces from the plurality of springs ( 702 , 702 a ). 8. The hotwire cutting machine ( 700 ) of claim 1 , wherein the splined shaft pair ( 704 , 704 a , and 1204 ) and the plurality of grooved rods ( 703 , 703 a , and 1203 ) are configured with an idler shaft ( 901 ) allowing the plurality of springs ( 702 and 702 a ) to be at 90 deg to the single or plurality of heated wires ( 701 and 101 ). 9. The hotwire cutting machine ( 700 ) of claim 1 , wherein the single or plurality of heated wires ( 701 and 101 ) are composite cutting wire ( 1200 ) comprising a first wire ( 1209 ) joined to both ends of a second heated wire ( 1201 ), wherein the first wire ( 1209 ) and the second heated wire ( 1201 ) are joined by manual twisting or welding and the first wire ( 1209 ) having higher mechanical strength compared to the second heated wire ( 1201 ) and hence capable of withstanding repeated bending cycles moving over the plurality of grooved rods ( 703 , 703 a , and 1203 ) and oscillated along its length by the to-fro rotation of the splined shaft pair ( 704 , 704 a , and 1204 ).