Hydrogen gas supply device of fuel cell system

The invention claimed is: 1. A hydrogen gas supply device of a fuel cell system configured to supply a hydrogen gas to a fuel cell stack, the hydrogen gas supply device comprising: a hydrogen gas passage connecting a hydrogen tank configured to store a high-pressure hydrogen gas and a fuel cell stack configured to consume a low-pressure hydrogen gas; and a pressure regulating valve provided on the hydrogen gas passage and configured to regulate pressure of the hydrogen gas flowing out from the hydrogen tank to supply the hydrogen gas to the fuel cell stack, wherein: the pressure regulating valve includes a housing including a valve passage connecting a primary port connected to the hydrogen tank and a secondary port connected to the fuel cell stack, a valve body provided in the housing and configured to move between a closed position where the valve body closes the valve passage and an open position where the valve body opens the valve passage to control an opening degree of the valve passage, and a first sealing member and a second sealing member provided on an outer periphery of the valve body; one end side of the valve body is located on the valve passage side, and the other end side of the valve body is located in a pressure return chamber formed in the housing; the first sealing member and the second sealing member are provided in this order from the one end side of the valve body to the other end side of the valve body; the pressure regulating valve further includes a first space formed between the first sealing member and the second sealing member and a first pressure equalizing passage directly connecting the secondary port and the first space, and a second pressure equalizing passage connecting the secondary port and the pressure return chamber; the first pressure equalizing passage is in fluid communication with the secondary port regardless of whether the valve passage is opened or closed; the valve passage includes a valve space connected to the primary port; the first sealing member is provided between the valve space and the first space; and the first pressure equalizing passage and the second pressure equalizing passage are formed separately. 2. The hydrogen gas supply device according to claim 1 , wherein: the second pressure equalizing passage formed in the housing; and the valve body includes a secondary side pressure receiving portion on which pressure of the secondary port acts in a direction toward the open position that is a direction in which the valve body moves toward the open position and a pressure return chamber side pressure receiving portion on which pressure of the pressure return chamber acts in a direction toward the closed position that is a direction in which the valve body moves toward the closed position. 3. The hydrogen gas supply device according to claim 2 , wherein the pressure regulating valve further includes: a third sealing member provided on the outer periphery of the valve body so as to be located closer to the other end side of the valve body than the second sealing member; a second space formed between the third sealing member and the second sealing member; a bearing member accommodated in the second space; and an atmosphere communication passage connecting the second space and an atmosphere. 4. The hydrogen gas supply device according to claim 3 , wherein a pressure receiving area of the pressure return chamber side pressure receiving portion is larger than that of the secondary side pressure receiving portion. 5. The hydrogen gas supply device according to claim 3 , wherein: the third sealing member is a diaphragm seal; and the diaphragm seal is provided at the other end side of the valve body, and the diaphragm seal and the other end side of the valve body constitute the pressure return chamber side pressure receiving portion. 6. The hydrogen gas supply device according to claim 3 , wherein: the valve body includes a first pressure receiving surface configured to receive primary pressure, introduced to the primary port, in the direction toward the open position and a second pressure receiving surface configured to receive the primary pressure in the direction toward the closed position; and a pressure receiving area of the first pressure receiving surface is equal to that of the second pressure receiving surface. 7. The hydrogen gas supply device according to claim 3 , wherein: the valve body includes a first pressure receiving surface configured to receive primary pressure, introduced to the primary port, in the direction toward the open position and a second pressure receiving surface configured to receive the primary pressure in the direction toward the closed position; and a pressure receiving area of the first pressure receiving surface is smaller than that of the second pressure receiving surface. 8. The hydrogen gas supply device according to claim 3 , wherein: the pressure regulating valve includes a return spring configured to bias the valve body in the direction toward the closed position, and a valve body driving unit configured to apply a driving force, corresponding to an applied voltage or an applied current, to the valve body against the biasing of the return spring to cause the valve body to move in the direction toward the open position; and the pressure regulating valve is a normally closed valve configured such that when the applied voltage or the applied current applied to the valve body driving unit is stopped, the valve body moves in the direction toward the closed position by the return spring. 9. The hydrogen gas supply device according to claim 8 , further comprising: a pressure detector provided on the hydrogen gas passage so as to be located downstream of the pressure regulating valve and configured to detect the pressure of the hydrogen gas supplied to the fuel cell stack; and a control unit configured to control the applied voltage or the applied current, applied to the valve body driving unit, in accordance with the pressure detected by the pressure detector to regulate the secondary pressure to target pressure of the fuel cell stack. 10. The hydrogen gas supply device according to claim 9 , wherein when the pressure detected by the pressure detector becomes equal to or higher than predetermined specified pressure, the control unit controls the applied voltage or the applied current, applied to the valve body driving unit, to cause the valve body to move toward the closed position. 11. The hydrogen gas supply device according to claim 8 , wherein the pressure regulating valve is an in tank type or on tank type container master valve in which the valve body driving unit is provided at a supply port of the high-pressure tank. 12. The hydrogen gas supply device according to claim 1 , further comprising an electromagnetic shutoff valve provided on the hydrogen gas passage so as to be located upstream of the pressure regulating valve and configured to be able to shut off supply of the hydrogen gas to the pressure regulating valve. 13. The hydrogen gas supply device according to claim 1 , further comprising an electromagnetic shutoff valve provided on the hydrogen gas passage so as to be located downstream of the pressure regulating valve and configured to be able to shut off supply of the hydrogen gas to the fuel cell stack. 14. A hydrogen gas supply device of a fuel cell system configured to supply a hydrogen gas to a fuel cell stack, the hydrogen gas supply device comprising: a hydrogen gas passage connecting a hydrogen tank configured to store a high-pressure hydrogen gas and a fuel cell stack configured to consume a lo