Flow rate adjustment valve for refrigeration cycle

What is claimed is: 1. A flow regulating valve which is used in a refrigeration cycle system for air-conditioning use which has an inside condenser, outside heat exchanger, and inside evaporator, wherein said flow regulating valve comprises an inlet flow control valve which is connected to an inlet side of said inside evaporator and functions as an expansion valve which reduces a pressure of and expands a refrigerant which flows into said inside evaporator in said refrigeration cycle system, and an outlet flow regulating valve which is connected to an outlet side of said inside evaporator and functions as an evaporation pressure regulator which adjusts the pressure to a predetermined target pressure where no frost forms in said inside evaporator, said inlet flow control valve and said outlet flow regulating valve displace so that when the valve opening of one increases, the valve opening of the other decreases; and when one of said inlet flow control valve and said outlet flow regulating valve is at a control opening which functions as the expansion valve or at a control opening which functions as the evaporation pressure regulator, the other of said inlet flow control valve and said outlet flow regulating valve is at a fully open state where the flow of refrigerant is substantially not throttled. 2. The flow regulating valve according to claim 1 , wherein said inlet flow control valve and said outlet flow regulating valve are respectively driven by a single actuator. 3. The flow regulating valve according to claim 1 , wherein said inlet flow control valve is provided with a lead-in connection hole which is formed in the body and leads in the refrigerant and a lead-out connection hole which is formed in said body and leads out refrigerant to said inside evaporator, said outlet flow regulating valve is provided with a lead-out connection hole which is formed in said body and leads the refrigerant to the outside and a lead-in connection hole which is formed in said body and leads in refrigerant from said inside evaporator, and said lead-out connection hole of said inlet flow control valve and said lead-in connection hole of said outlet flow regulating valve are formed in said body adjoining each other. 4. The flow regulating valve according to claim 1 , wherein said inlet flow control valve is provided with a lead-in connection hole which is formed in an expansion valve block and leads in a refrigerant from the outside and a lead-out connection hole which is formed in said expansion valve block and leads out a refrigerant to said inside evaporator, said outlet flow regulating valve is provided with a lead-out connection hole which is formed in an evaporation pressure regulator block and leads out a refrigerant to the outside and a lead-in connection hole which is formed in said evaporation pressure regulator block and leads in a refrigerant from said inside evaporator, and said expansion valve block and said evaporation pressure regulator block are connected. 5. The flow regulating valve according to claim 1 , wherein said inlet flow control valve and said outlet flow regulating valve are poppet valves which are respectively comprised of valve elements and valve seats on which the valve elements are seated and wherein the two valve elements are connected by a single shaft or are simultaneously operated. 6. The flow regulating valve according to claim 1 , wherein said inlet flow control valve and said outlet flow regulating valve are poppet valves which are respectively comprised of valve elements and valve seats on which the valve elements are seated and wherein of the two valve elements, at least one valve element is formed separated to be able to abut against a shaft which drives the valve element, and the other valve element is biased by a spring in the direction of said shaft. 7. The flow regulating valve according to claim 1 , wherein said inlet flow control valve and said outlet flow regulating valve are slide valves which respectively are provided with cylinders and pistons which slide inside the cylinders and can change in opening areas in accordance with displacement of said pistons and wherein two pistons are connected by a single shaft or simultaneously operate. 8. The flow regulating valve according to claim 1 , wherein said inlet flow control valve and said outlet flow regulating valve are rotary valves which respectively are provided with cylinders and rotors which rotate inside the cylinders and can change in opening areas in accordance with the rotational angles of said rotors and wherein two rotors are connected by a single shaft or simultaneously operate. 9. The flow regulating valve according to claim 1 , wherein one or both of said inlet flow control valve and said outlet flow regulating valve is either a poppet valve, slide valve, or rotary valve. 10. The flow regulating valve according to claim 1 , wherein said outlet flow regulating valve is provided with a bypass flow path which allows passage of a predetermined flow rate even when closed. 11. The flow regulating valve according to claim 1 , wherein said refrigeration cycle system includes a main refrigerant circuit which comprises a compressor, said inside condenser, first expansion valve, said outside heat exchanger, and said compressor arranged in that order, a bypass refrigerant circuit which is branched between said inside condenser and first expansion valve, comprises said inlet flow control valve, said inside evaporator, and said outlet flow regulating valve arranged in that order, and returns to said main refrigerant circuit between said outside heat exchanger and said compressor at said main refrigerant circuit, and a connecting refrigerant passage which connects from downstream said outside heat exchanger to said bypass refrigerant circuit. 12. The flow regulating valve according to claim 1 , wherein the refrigeration cycle system operates in a cooling mode, a first dehumidifying heating mode and a second dehumidifying heating mode; when operating in the cooling mode, the outlet flow regulating valve is in the fully open state; when operating in the first dehumidifying heating mode, the outlet flow regulating valve is in the fully open state; and when operating in the second dehumidifying heating mode, the inlet flow control valve is in the fully open state. 13. A flow regulating valve which is used in a refrigeration cycle system for air-conditioning use which has an inside condenser, outside heat exchanger, and inside evaporator, wherein said flow regulating valve comprises an inlet flow control valve which is connected to an inlet side of said inside evaporator and functions as an expansion valve which reduces a pressure of and expands a refrigerant which flows into said inside evaporator in said refrigeration cycle system, and an outlet flow regulating valve which is connected to an outlet side of said inside evaporator and functions as an evaporation pressure regulator which adjusts the pressure to a predetermined target pressure where no frost forms in said inside evaporator, said inlet flow control valve and said outlet flow regulating valve displace so that when the valve opening of one increases, the valve opening of the other decreases, said inlet flow control valve and said outlet flow regulating valve are poppet valves which are respectively comprised of valve elements and valve seats on which the valve elements are seated and wherein the two valve elements are connected by a single shaft or are simultaneously operated; and said inlet flow control valve and said outlet flow regulating valve are poppet valves and wherein said inlet flow control valve is