Pilot check valve

The invention claimed is: 1. A pilot check valve comprising: a first body that has an input port and an output port; a main path that is provided in the first body and is in communication with the input port and the output port; a check valve element that is provided in the main path and allows a flow of a pressure fluid from a first side in communication with the input port toward a second side in communication with the output port, the check valve element being selectively moved, by supply or discharge of a pilot fluid, to a position where a flow from the output port toward the input port is blocked and a position where the flow is allowed; a residual pressure exhaust path having one end connected to a connecting portion formed on the first side of the main path and another end connected to an exhaust hole provided and opened on the first body; a seal portion that is provided in the residual pressure exhaust path and blocks a flow of a pressure fluid from the connecting portion of the main path toward a side of the exhaust hole; and an operation unit that is capable of moving the check valve element to a position where a flow of a pressure fluid from the second side toward the first side in the main path is allowed and moving the seal portion to a position where the flow of a pressure fluid from the connecting portion of the main path in the residual pressure exhaust path toward the exhaust hole is allowed. 2. The pilot check valve according to claim 1 , wherein the first body extends in an axial direction, is formed into a cylindrical shape, and has a base end and a leading end at both ends in the axial direction, the first body has a through-hole that extends inside in the axial direction, the first body has a first opening portion that opens in a middle portion of the first body in the axial direction and that is in communication with the input port, and a second opening portion that opens in a base end portion of the first body in the axial direction and that is in communication with the output port, the check valve element is supported and is movable in the axial direction in a base end portion in the axial direction of the through-hole extending in the axial direction, and the operation unit is accommodated in the through-hole further toward a leading end side than the check valve element in the axial direction and is movable in the axial direction. 3. The pilot check valve according to claim 2 , wherein the operation unit is a rod member that extends along the through-hole, the rod member has an outer diameter that is smaller than an inner diameter of the through-hole, and the residual pressure exhaust path is formed of a gap formed between an outer peripheral surface of the rod member and an inner peripheral surface of the through-hole. 4. The pilot check valve according to claim 3 , wherein the seal portion has a recessed groove that is formed into an annular shape on the outer peripheral surface of the rod member, and a seal member that is accommodated in the recessed groove, and the seal member is a lip-type seal member, the seal member having a lip portion that is formed to be inclined outward in a radial direction toward a base end side in the axial direction. 5. The pilot check valve according to claim 4 , wherein a part of the through-hole in communication with the first opening portion and the second opening portion forms a part of the main path, the base end portion in the axial direction of the through-hole extending in the axial direction has a valve seat on which the check valve element is capable of abutting, and the check valve element is capable of moving to a check position where the check valve element abuts on the valve seat and blocks a flow of a pressure fluid from the output port toward the input port, and to a first releasing position where the check valve element moves from the valve seat toward a base end side in the axial direction and allows the flow. 6. The pilot check valve according to claim 5 , wherein the rod member is capable of moving in the axial direction inside the through-hole by receiving a force toward a side of the check valve element, when the seal member is moved to a residual pressure exhaust position in the connecting portion, the flow of a pressure fluid from the connecting portion of the main path toward the exhaust hole is allowed, when the check valve element is moved to a second releasing position further toward a base end side in the axial direction than the first releasing position, the flow of a pressure fluid from the second side toward the first side in the main path is allowed, the rod member is capable of moving the seal member to the residual pressure exhaust position by moving in the axial direction, and capable of moving the check valve element to the second releasing position. 7. The pilot check valve according to claim 6 , wherein the check valve element is provided with a first return spring that biases the check valve element toward a side of the valve seat, and the rod member is provided with a second return spring that biases the rod member toward a leading end side in the axial direction. 8. The pilot check valve according to claim 6 , wherein the through-hole has an exhaust valve chamber on a leading end side in the axial direction, the exhaust valve chamber is provided with a piston inside the exhaust valve chamber, the piston dividing the exhaust valve chamber into a pressure chamber and a discharge chamber and being capable of sliding inside the through-hole, and the first body has a pilot port that introduces pilot pressure into the pressure chamber, and the exhaust hole that is located between the seal member and the piston and is in communication with the discharge chamber and an outside. 9. The pilot check valve according to claim 8 , wherein the rod member further has a piston rod that is disposed on a leading end side in the axial direction of the rod member and that is provided to be movable along the through-hole, the piston rod has a base end portion in the axial direction inserted and movable in the axial direction with respect to the piston, and when the piston rod is pressed from a third opening portion that opens at the leading end in the axial direction of the first body toward a base end side in the axial direction, the piston rod is capable of pressing the rod member to move the rod member to the base end side in the axial direction and moving the seal member to the residual pressure exhaust position and capable of moving the check valve element to the second releasing position. 10. The pilot check valve according to claim 2 , wherein when the axial direction is an X-axis direction, a direction orthogonal to the X-axis direction is a Z-axis direction, and a direction orthogonal to the X-axis direction and the Z-axis direction is a Y-axis direction, the first body extends in the X-axis direction, the first body is connected, on a base end side in the X-axis direction, to a second body that extends in the Z-axis direction orthogonal to the X-axis direction and that includes the output port at one end, the first body is connected, in a leading end portion in the X-axis direction, to a pilot body that is fitted around an outer periphery of the first body to be rotatable around the X-direction with respect to the first body, the first body is connected to a connecting pipe portion that is fitted around an outer periphery of the first body and rotatable around the X-axis direction further toward a base end side in the X-axis direction than the pilot body, the connecting pipe portion is connected to an annular body that is coupled and rotatable in the Y-axis direction orthogonal to