Glass tube cleaning and cutting system and method for same

What is claimed is: 1. A glass tube cleaning and cutting system, comprising: a conveyor configured to convey a glass tube in a direction transverse to a tube axis; a rotator configured to rotate the glass tube about the tube axis of the glass tube while the conveyor conveys the glass tube; a cutting blade configured to impose scratches on an outer circumference surface of an end portion of the glass tube to cut the end portion of the glass tube, while the rotator rotates the glass tube about the tube axis of the glass tube and the conveyor conveys the glass tube in a direction transverse to the tube axis, a temperature changing device adapted to make the cutting blade be at a temperature different from a temperature of the glass tube to impose thermal shock on the outer circumference surface of the end portion of the glass tube while the cutting blade imposes the scratches; and a blower disposed at a location opposing the cutting blade and extending upstream of the cutting blade with respect to the direction in which the conveyor conveys the glass tube, such that the blower is configured to begin blowing air into an opening located at an other end portion of the glass tube that is opposite to the end portion before the cutting blade begins cutting the end portion of the glass tube, and to continue blowing the air into the opening while the cutting blade cuts the end portion of the glass tube. 2. The glass tube cleaning and cutting system according to claim 1 , wherein the blower includes a blowing nozzle having a flat-shaped nozzle port located along a conveyance route of the glass tube. 3. The glass tube cleaning and cutting system according to claim 1 , wherein the temperature changing device comprises a preheat burner and a liquid container that are configured to, along with the cutting blade, cooperatively impose the thermal shock on the outer circumference surface of the end portion of the glass tube. 4. A method for cleaning and cutting a glass tube, comprising: providing the glass tube cleaning and cutting system of claim 1 , operating the blower to blow air into the opening located at the first end portion of the glass tube; and after the operating of the blower to blow the air has already begun, operating the temperature changing device and the cutting blade to impose the thermal shock and the scratches on the outer circumference surface of a second end portion of the glass tube opposite to the first end portion into which air is being blown by the blower to cut the second end portion of the glass tube while the rotator is rotating the glass tube about the tube axis of the glass tube and the conveyor is conveying the glass tube in a direction transverse to the tube axis of the glass tube. 5. The method for cleaning and cutting a glass tube according to claim 4 , further comprising sucking surrounding air at the end portion of the glass tube while imposing the thermal shock and scratches on the outer circumference surface of the end portion of the glass tube. 6. The method for cleaning and cutting a glass tube according to claim 4 , further comprising blowing air into a second opening located in the end portion of the glass tube during a period after the end portion has been cut. 7. A glass tube cleaning and cutting system, comprising: a conveyor configured to convey a glass tube in a direction transverse to a tube axis; a rotator configured to rotate the glass tube about the tube axis of the glass tube while the conveyor conveys the glass tube; a first cutting blade configured to impose scratches on an outer circumference surface of an end portion of the glass tube to cut the end portion of the glass tube, while the rotator rotates the glass tube about the tube axis of the glass tube and the conveyor conveys the glass tube in a direction transverse to the tube axis, a first temperature changing device adapted to make the first cutting blade be at a first temperature different from a temperature of the glass tube to impose thermal shock on the outer circumference surface of the end portion of the glass tube while the first cutting blade imposes the scratches; a second cutting blade configured to imposes scratches on the outer circumference surface of an other end portion of the glass tube, that is opposite to the end portion, to cut the other end portion of the glass tube, while the rotator rotates the glass tube about the tube axis of the glass tube and the conveyor conveys the glass tube in the direction transverse to the tube axis, a second temperature changing device adapted to make the second cutting blade be at a second temperature different from the temperature of the glass tube to impose thermal shock on the outer circumference surface of the other end portion of the glass tube while the second cutting blade imposes the scratches; a first blower disposed at a first location opposing the first cutting blade and extending upstream of the first cutting blade with respect to the direction in which the conveyor conveys the glass tube, such that the first blower is configured to begin blowing air into an opening located at the other end portion of the glass tube before the first cutting blade begins cutting the end portion of the glass tube, and to continue blowing the air into the opening while the first cutting blade cuts the end portion of the glass tube; and a second blower provided on a more downstream side of the conveying glass tube than the first cutting blade, and disposed at a second location opposing the second cutting blade and extending upstream of the second cutting blade with respect to the direction in which the conveyor conveys the glass tube, such that the second blower is configured to begin blowing air into a second opening located at the end portion of the glass tube that has been cut by the first cutting blade before the second cutting blade begins cutting the other end portion of the glass tube, and to continue blowing the air into the second opening while the second cutting blade cuts the other end portion of the glass tube. 8. The glass tube cleaning and cutting system according to claim 7 , further comprising at least one suction device provided near at least one of the first and second cutting blades and configured to suck surrounding air at at least one of the end portion and the other end portion of the glass tube. 9. The glass tube cleaning and cutting system according to claim 7 , wherein the temperature changing device comprises a preheat burner and a liquid container arrangement that are configured to, along with the first and second cutting blades, cooperatively impose the thermal shock on the outer circumference surface of the end portion and the other end portion of the glass tube. 10. The glass tube cleaning and cutting system according to claim 7 , further comprising at least one suction device provided near at least one of the first and second cutting blades and configured to suck surrounding air at at least one of the end portion and the other end portion of the glass tube. 11. The glass tube cleaning and cutting system according to claim 7 , wherein at least one of the first blower and the second blower includes a blowing nozzle having a flat-shaped nozzle port located along a conveyance route of the glass tube. 12. A method for cleaning and cutting a glass tube, comprising: providing the glass tube cleaning and cutting system of claim 7 , a first blowing operation of operating the first blower to blow air into the opening located at the other end portion of the glass tube; after the first blowing operation has already begin, performing a first cutting operation of operating the first temperature changing device and the