Receptacle for hydrogen charging of fuel cell vehicle

What is claimed is: 1 . A receptacle for hydrogen charging of a fuel cell vehicle, the receptacle comprising: a body comprising: a nozzle insertion portion into which a nozzle tip of a charging nozzle is to be inserted; a filter space portion having installed therein a filter portion configured to filter hydrogen injected therein through the nozzle tip of the charging nozzle; and a passage space portion provided between the nozzle insertion portion and the filter space portion; and a sealing device configured to seal between a tip end portion of the nozzle tip and an inner side surface of an extended space portion by being installed in the extended space portion extended in a radial direction centered on the tip end portion of the nozzle tip which has passed through the nozzle insertion portion and entered the passage space portion, wherein the sealing device comprises: a movable O-ring installed in the extended space portion; and a spring member configured to elastically support the movable O-ring by being installed on a spring support step formed on an inner side surface of the body and being positioned between the nozzle insertion portion and the passage space portion. 2 . The receptacle of claim 1 , further comprising an O-ring configured to seal between the nozzle tip and an inner side surface of the nozzle insertion portion by being installed at the inner side surface of the nozzle insertion portion through which the nozzle tip of the charging nozzle passes. 3 . The receptacle of claim 1 , wherein the sealing device is configured such that when a pressure of the hydrogen injected through the nozzle tip of the charging nozzle acts on the extended space portion in the passage space portion during hydrogen charging, the movable O-ring moves while compressing the spring member using the pressure of the hydrogen to seat on an outer circumferential surface of the tip end portion of the nozzle tip. 4 . The receptacle of claim 3 , wherein the sealing device is configured such that, when hydrogen charging is completed and a pressure in the extended space portion is released, the movable O-ring is separated from the tip end portion of the nozzle tip by an elastic restoring force of the spring member. 5 . A receptacle for hydrogen charging of a fuel cell vehicle, the receptacle comprising: a body comprising: a nozzle insertion portion into which a nozzle tip of a charging nozzle is to be inserted; a filter space portion having installed therein a filter portion configured to filter hydrogen injected therein through the nozzle tip of the charging nozzle; and a passage space portion provided between the nozzle insertion portion and the filter space portion; and a sealing device configured to seal between a tip end portion of the nozzle tip and an inner side surface of an extended space portion by being installed in the extended space portion extended in a radial direction centered on the tip end portion of the nozzle tip which has passed through the nozzle insertion portion and entered the passage space portion, wherein the sealing device comprises: a pressure seal installed within the extended space portion; and a spring member configured to elastically support the pressure seal by being installed on a spring support step formed on an inner side surface of the body and being positioned between the nozzle insertion portion and the passage space portion, and wherein the sealing device is configured such that, when a pressure of the hydrogen injected through the nozzle tip of the charging nozzle acts on the extended space portion in the passage space portion during hydrogen charging, the pressure seal moves while compressing the spring member using the pressure of the hydrogen to seat on an outer circumferential surface of the tip end portion of the nozzle tip. 6 . The receptacle of claim 5 , wherein the pressure seal comprises: a seal body having a ring shape as a whole and having a c-shaped cross-sectional portion; and an elastic member installed in an inner side of the c-shaped cross-sectional portion of the seal body. 7 . The receptacle of claim 6 , wherein: the c-shaped cross-sectional portion of the seal body has an opening facing toward the filter space portion, and the sealing body being configured such that as the pressure of the hydrogen acts into the seal body through the opening, inner and outer side portions of the seal body spread apart, so that the inner side portion of the seal body is brought into close contact with the outer circumferential surface of the nozzle tip and the outer side portion of the seal body is brought into close contact with the inner side surface of the extended space portion to thereby generate surface pressures. 8 . A receptacle for gas charging of a gas tank, the receptacle comprising: a body comprising: a first end, a second end opposite the first end, and a central region located between the first end and the second end, wherein the body comprises a nozzle insertion portion opening at the first end and extending into the central region, wherein the body further comprises a gas passage portion in the central region, wherein the nozzle insertion portion is configured to receive a gas charging nozzle tip inserted therein during gas charging such that a distal end of the gas charging nozzle tip extends into the gas passage portion, and wherein the gas passage portion is in fluid communication with the nozzle insertion portion, wherein the body further comprises an extended space portion located adjacent the gas passage portion, the extended space portion being in fluid communication with the gas passage portion, and wherein the body further comprises a partition wall portion located adjacent the extended space portion and located between the nozzle insertion portion and the gas passage portion, the partition wall portion having a partition wall hole formed therein with a partition wall hole diameter configured to permit the gas charging nozzle tip to pass therethrough, wherein the extended space portion has an extended space portion diameter larger than the partition wall hole diameter; a seal ring member located in the extended space portion, the seal ring member having a seal ring member hole formed therein with a seal ring member hole diameter configured to permit the gas charging nozzle tip to pass therethrough, wherein the extended space portion diameter is larger than the seal ring member hole diameter; and a spring located in the extended space portion, the spring being located between the seal ring member and the partition wall portion, the spring having an inner spring hole diameter configured to permit the gas charging nozzle tip to pass therethrough, wherein the extended space portion diameter is larger than the inner spring hole diameter. 9 . The receptacle of claim 8 , wherein the sealing ring member comprises a movable O-ring, wherein the movable O-ring and the spring are configured such that when a pressure of a gas injected through the gas charging nozzle tip acts on the movable O-ring during the gas charging, the movable O-ring presses against and compresses the spring using the pressure of the gas to seat on an outer circumferential surface of the distal end of the gas charging nozzle tip. 10 . The receptacle of claim 9 , wherein the movable O-ring and the spring are configured such that, when the gas charging is completed and a pressure in the extended space portion is released, the movable O-ring is separated from the distal end of the gas charging nozzle tip by an elastic restoring force of the spring pressing against the movable O-ring. 11 . The receptacle of claim 8 , wherein the sealing r