Throttle device and refrigeration cycle system with same

The invention claimed is: 1. A throttle device, comprising: a tube body which is provided in a duct supplying a refrigerant and has opening end sections at both ends, the opening end sections communicating with the inside of the duct; a valve seat which is provided on an inner circumferential part of the tube body and has a valve port; a valve member including: a valve section which is provided to be movable toward and away from the valve port of the valve seat and controls an opening area of the valve port; and a guide stem section which is continuous with the valve section and extends toward an upstream side in a flow of the refrigerant; a urging member which is provided at an upstream side portion of the valve port and urges the valve member in a direction toward the valve port of the valve seat; and a guide section which is provided upstream side of the valve port in the flow of the refrigerant within the tube body and on which the guide stem section of the valve member is slidably provided; wherein a stopper member is provided at the guide section, the stopper member including an inner surface which touches on an end face of the guide stem section of the valve member and covers the urging member and a support member supporting the urging member. 2. A refrigeration cycle system, comprising an evaporator, a compressor, and a condenser, wherein the throttle device according to claim 1 is provided in a duct located between an outlet of the condenser and an inlet of the evaporator. 3. A throttle device, comprising: a tube body which is provided in a duct supplying a refrigerant and has opening end sections at both ends, the opening end sections communicating with inside of the duct; a valve seat which is provided on an inner circumferential part of the tube body and has a valve port; a needle member including: a tapered section which is provided to be movable toward and away from the valve port of the valve seat and controls the opening area of the valve port; and a guide stem section which is continuous with a distal end of the tapered section and away from the valve port and extends toward an upstream side in a flow of the refrigerant; a urging member which is provided between the needle member and one of the opening end sections of the tube body and urges the needle member in a direction toward the valve port of the valve seat; and a guide section which is fixed to the inner circumferential part of the tube body at an upstream side of the valve seat in the flow of the refrigerant and on which the guide stem section of the needle member is slidably provided, wherein a stopper member is provided at an end portion of the guide section, the stopper member including an end portion which touches on an end face of the guide stem section of the valve member. 4. The throttle device according to claim 3 , wherein the needle member further includes an overhang section which is formed at a proximal end of the tapered section to extend perpendicularly to a direction of the flow of the refrigerant and on which pressure of the refrigerant acts in a direction perpendicular to the direction of the flow of the refrigerant. 5. The throttle device according to claim 4 , wherein a difference in pressure is produced between pressure in a first gap and pressure in a second gap, the first gap formed between a first end of the overhang section of the needle member, which extends perpendicularly to the direction of the flow of the refrigerant, and the inner circumferential part of the tube body, the second gap formed between a second end of the overhang section of the needle member which faces the first end of the overhang section of the needle member and the inner circumferential part of the tube body. 6. The throttle device according to claim 3 , further comprising a communicating hole which is formed in the guide section and allows the valve port to communicate with a gap between an outer circumferential part of the guide section and the inner circumferential part of the tube body and, wherein at least the guide section, the valve seat, and the communicating hole are integrally formed in a guide tube provided in the inner circumferential part of the tube body. 7. The throttle device according to claim 6 , wherein a small-diameter hole of the guide section in which the guide stem section of the needle member is inserted has the same diameter as the valve port of the valve seat each other. 8. A refrigeration cycle system, comprising an evaporator, a compressor, and a condenser, wherein the throttle device according to claim 3 is provided in a duct located between an outlet of the condenser and an inlet of the evaporator.