Centrifuge with compressor motor feedback control device

What is claimed is: 1. A centrifuge comprising: a rotor configured to be driven by a motor and to hold a sample; a centrifuge inverter configured to supply power to drive the motor; a chamber accommodating the rotor; a temperature sensor configured to detect the temperature of the chamber; a cooling machine configured to cool the chamber and including a compressor; a compressor inverter configured to supply power to the compressor; a compressor motor incorporated to the compressor and configured to be controlled in a variable speed by the power supplied from the compressor inverter; and a control device configured to control the centrifuge inverter and the compressor inverter based on set centrifuging operation conditions, wherein the control device carries out a feedback control of the compressor motor based on a preset temperature and a detected temperature of the temperature sensor when a rotation number of the compressor motor is larger than a predetermined rotation number, and the control device carries out an intermittent control for turning ON-OFF the cooling function of the compressor when the rotation number of the compressor motor is smaller than the predetermined rotation number. 2. The centrifuge according to claim 1 , wherein the rotation number of the compressor motor, which is compared with the predetermined rotation number, is calculated by the control device by using a difference between the preset temperature and the detected temperature of the temperature sensor. 3. The centrifuge according to claim 2 , wherein the calculation is a PID calculation. 4. The centrifuge according to claim 1 , further comprising an input unit to which the preset temperature is input, wherein the control device is configured to set a target control temperature for making the rotor to the preset temperature based on the inputted preset temperature and is configured to carry out a feedback control of the compressor motor based on the target control temperature and the detected temperature of the temperature sensor. 5. The centrifuge according to claim 4 , wherein the control device controls the cooling function of the compressor to ON state when, during the intermittent control, the detected temperature of the temperature sensor is higher than the target control temperature and the rotation number of the compressor motor is larger than a set minimum continuous rotation number. 6. The centrifuge according to claim 5 , wherein the rotation number of the compressor motor, which is compared with the predetermined rotation number, is calculated by the control device by using a difference between the preset temperature and the detected temperature of the temperature sensor, and wherein when the rotation number obtained by the calculation which uses the detected temperature of the temperature sensor as a feedback information and is based on a difference between the target control temperature and the detected temperature of the temperature sensor is higher than the minimum continuous rotation number at the start of the temperature control of the rotor, a rotation number, which is obtained by multiplying a coefficient obtained from a ratio of the preset rotation number of the rotor and a settable maximum rotation number of the rotor to a maximum continuous rotation number, is used as the preset rotation number of the compressor motor. 7. The centrifuge according to claim 5 , wherein the rotation number of the compressor motor, which is compared with the predetermined rotation number, is calculated by the control device by using a difference between the preset temperature and the detected temperature of the temperature sensor, and wherein when the rotation number obtained by the calculation which uses the detected temperature of the temperature sensor as a feedback information and uses a difference between the target control temperature and the detected temperature of the temperature sensor is higher than the minimum continuous rotation number at the start of the temperature control of the rotor, a rotation number, which is obtained by multiplying an amount of heat generation of the rotor calculated from a windage loss coefficient of the rotor registered in advance and a rotating speed of the rotor during operation as a coefficient to the maximum continuous rotation number, is used as the preset rotation number of the compressor motor. 8. The centrifuge according to claim 4 , wherein the control device is configured to stop the intermittent control and transit to the feedback control when the detected temperature of the temperature sensor is higher than the target control temperature for a predetermined continuous time during the intermittent control. 9. The centrifuge according to claim 1 , wherein the temperature sensor is installed to contact with a metal part of a lower portion of the chamber. 10. The centrifuge according to claim 1 , wherein the control device monitors whether a state where the rotation number of the compressor motor is lower than a predetermined rotation number has continued for the predetermined time or not and whether the rotation number of the compressor motor has reached a set minimum continuous rotation number or not, and when it is determined that the state where the rotation number of the compressor motor is lower than the predetermined rotation number has continued for the predetermined time or the rotation number of the compressor motor has reached the set minimum continuous rotation number, the control device carries out an intermittent control of the cooling function of the compressor. 11. The centrifuge according to claim 1 , wherein the control device is configured to control the compressor motor to ON state or OFF state during the intermittent control. 12. The centrifuge according to claim 11 , wherein when the compressor motor is controlled to OFF state during the intermittent control, the OFF state is maintained for at least a minimum off time. 13. The centrifuge according to claim 1 , further comprising: an evaporator, a supply line for supplying a refrigerant compressed by the compressor to the evaporator, a return line extending from the evaporator to the compressor, a bypass line for bypassing the evaporator by shorting the return line and the supply line, and a valve provided in the bypass line, wherein the control device is configured to control the valve to ON state or OFF state during the intermittent control. 14. The centrifuge according to claim 13 , wherein the control device is configured to control the compressor motor to rotate at a minimum continuous rotation number when the valve is controlled to OFF state. 15. The centrifuge according to claim 14 , wherein the control device is configured to control the valve to ON state or OFF state and is configured to control the compressor motor to a continuous operation state or an intermittent operation state during the intermittent control. 16. The centrifuge according to claim 15 , wherein the control device is configured to control the ON time of the valve to be shorter than the interval of the intermittent operation when the compressor motor is controlled to the intermittent operation state. 17. The centrifuge according to claim 13 , further comprising: the compressor configured to compress a refrigerant which is supplied to the evaporator in a circulation manner; a capillary provided between the compressor and the evaporator; and a throttle part provided to a part of the bypass line, wherein the evaporator is configured to cool the chamber, wherein the return line conne