Line-start synchronous reluctance motor and rotor thereof

What is claimed is: 1. A rotor of a line-start synchronous reluctance motor comprising: a laminated core made up of multiple core sheets, each of which has multiple rotor bar holes in proximity to a circumference thereof; rotor bars disposed in the rotor bar holes; and a rotatable shaft connected with the laminated core, wherein the each core sheet has multiple flux barriers and a steel part on which the flux barriers are not formed, and extended ends of the flux barriers are placed between the rotor bar holes, wherein the extended ends of the flux barriers and the rotor bar holes are alternating with each other, wherein the extended ends of the flux barriers and the rotor bar holes are placed along the circumference of the each core sheet at uniform spacings, wherein a space between each of the rotor bar holes and an outer circumference of the each core sheet is twice less than a thickness of the each core sheet, and wherein a space between each of the extended ends and the outer circumference of the each core sheet is twice less than the thickness of the each core sheet. 2. The rotor of claim 1 , wherein the each core sheet includes a shaft hole placed in the center which the rotatable shaft passes through, wherein each of the multiple flux barriers has both ends in proximity to the circumference, and wherein central regions of two or more of the multiple flux barriers face towards the shaft hole, the central regions being placed apart from each other at a specific distance along a radial direction, and being arranged in parallel. 3. A line-start synchronous reluctance motor comprising: a laminated core made up of multiple core sheets, each of which has multiple rotor bar holes in proximity to a circumference thereof and multiple flux barriers, wherein each of the multiple flux barriers has both ends in proximity to the circumference, and wherein central regions of two or more of the multiple flux barriers face towards the center of the each core sheet, the central regions being placed apart from each other at a specific distance along a radial direction; a rotor including multiple rotor bars disposed in the rotor bar holes; and a stator, placed outside the rotor, having slots on which coils capable of generating magnetic flux are wound, wherein extended ends of the flux barriers are placed between the rotor bar holes, wherein the extended ends of the flux barriers and the rotor bar holes are alternating with each other, wherein spaces between the extended ends of the flux barriers and the rotor bar holes match up with spaces between the slots, wherein a space between each of the rotor bar holes and an outer circumference of the each core sheet is twice less than a thickness of the each core sheet, and wherein a space between each of the extended ends and the outer circumference of the each core sheet is twice less than the thickness of the each core sheet.