Cryocooler

What is claimed is: 1. A cryocooler comprising: a compressor; an expander; a gas line that allows a working gas to be circulated between the compressor and the expander and includes a high pressure line through which the working gas is supplied from the compressor to the expander, and a low pressure line through which the working gas is collected from the expander to the compressor; a bypass line that connects the high pressure line to the low pressure line such that the working gas bypasses the expander and returns from the high pressure line to the low pressure line; and a bypass flow rate control unit that controls a flow rate of the working gas flowing in the bypass line to provide pressure control of the gas line, wherein the bypass line includes a variable flow rate bypass that includes a flow rate control valve and connects the high pressure line to the low pressure line, and a fixed flow rate bypass that includes an on/off valve and connects the high pressure line to the low pressure line in parallel with the variable flow rate bypass, and the bypass flow rate control unit controls the flow rate of the working gas flowing in the bypass line through a combination of opening degree adjustment of the flow rate control valve and switching of the on/off valve. 2. The cryocooler according to claim 1 , wherein the bypass flow rate control unit includes a pressure comparison unit that compares a measured pressure of the gas line with a target pressure, and a valve control unit that controls the flow rate control valve and the on/off valve based on a comparison result from the pressure comparison unit, an opening degree of the flow rate control valve, and an on/off state of the on/off valve. 3. The cryocooler according to claim 2 , wherein the bypass line is configured such that a flow rate of the working gas flowing in the variable flow rate bypass, in a state where the flow rate control valve is opened to a specific opening degree, is equal to a flow rate of the working gas flowing in the fixed flow rate bypass in a state where the on/off valve is turned on, wherein when the opening degree of the flow rate control valve is smaller than the specific opening degree in a case where the measured pressure of the gas line is larger than the target pressure, the valve control unit increases the opening degree of the flow rate control valve by a predetermined amount with the specific opening degree as an upper limit without switching between on and off states of the on/off valve, wherein when the flow rate control valve is opened to the specific opening degree and the on/off valve is turned off in a case where the measured pressure of the gas line is larger than the target pressure, the valve control unit switches the on/off valve to on and sets the opening degree of the flow rate control valve to 0%, wherein when the opening degree of the flow rate control valve is larger than 0% in a case where the measured pressure of the gas line is smaller than the target pressure, the valve control unit decreases the opening degree of the flow rate control valve by a predetermined amount without switching between the on and off states of the on/off valve, and wherein when the opening degree of the flow rate control valve is 0% and the on/off valve is turned on in a case where the measured pressure of the gas line is smaller than the target pressure, the valve control unit determines the opening degree of the flow rate control valve and the on/off state of the on/off valve such that the on/off valve is switched to off and the flow rate control valve is opened to the specific opening degree. 4. The cryocooler according to claim 3 , wherein the specific opening degree is an opening degree of 100%. 5. The cryocooler according to claim 3 , wherein the specific opening degree is an opening degree of less than 100%, and wherein when the flow rate control valve is opened to the specific opening degree and the on/off valve is turned on in a case where the measured pressure of the gas line is larger than the target pressure, the valve control unit determines the opening degree of the flow rate control valve and the on/off state of the on/off valve such that the opening degree of the flow rate control valve increases by the predetermined amount without switching between the on and off states of the on/off valve. 6. The cryocooler according to claim 2 , wherein the pressure comparison unit compares a measured pressure of the high pressure line with the target pressure. 7. The cryocooler according to claim 2 , wherein the pressure comparison unit compares a measured differential pressure between the high pressure line and the low pressure line with the target pressure. 8. The cryocooler according to claim 1 , wherein the fixed flow rate bypass includes a plurality of sub-bypasses each including the on/off valve and connecting the high pressure line to the low pressure line in parallel with the variable flow rate bypass. 9. The cryocooler according to claim 1 , wherein the flow rate control valve is an electric valve, and the on/off valve is an electromagnetic valve.