Variable flow valve mechanism and turbocharger

What is claimed is: 1. A variable flow valve mechanism for a turbocharger, comprising: a stem; a mounting member integrally connected to the stem; a valve provided at a distal end portion of the mounting member, configured to open and close an opening portion of a variable gas flow passage for adjusting a flow rate of an exhaust gas from an engine supplied to a turbine wheel in the turbocharger; a link member integrally connected to the stem; an actuating rod movably provided in an axial direction of the actuating rod, and rotatably connected to a distal end portion of the link member; a pin hole formed at one of the link member and the actuating rod; a connecting pin provided at the other of the link member and the actuating rod, the connecting pin being inserted into the pin hole; and a biasing member configured to bias the link member and the actuating rod in directions separating the link member and the actuating rod from each other along the axial direction of the actuator rod. 2. The variable flow valve mechanism according to claim 1 , further comprising: a washer provided at the actuating rod and configured to support the biasing member. 3. The variable flow valve mechanism according to claim 2 , wherein the biasing member is a disc spring provided between the link member and the actuating rod. 4. The variable flow valve mechanism according to claim 3 , wherein an inner circumferential surface of the pin hole is locally brought into pressure contact with an outer circumferential surface of the connecting pin by the biasing member. 5. The variable flow valve mechanism according to claim 2 , wherein an inner circumferential surface of the pin hole is locally brought into pressure contact with an outer circumferential surface of the connecting pin by the biasing member. 6. The variable flow valve mechanism according to claim 1 , wherein the biasing member is a disc spring provided between the link member and the actuating rod. 7. The variable flow valve mechanism according to claim 6 , wherein an inner circumferential surface of the pin hole is locally brought into pressure contact with an outer circumferential surface of the connecting pin by the biasing member. 8. The variable flow valve mechanism according to claim 1 , wherein the biasing member is a torsion spring including: a coil supported by the connecting pin, and arms extending from the coil to between the link member and the actuating rod to separate the link member and the actuating rod from each other. 9. The variable flow valve mechanism according to claim 8 , wherein an inner circumferential surface of the pin hole is locally brought into pressure contact with an outer circumferential surface of the connecting pin by the biasing member. 10. The variable flow valve mechanism according to claim 1 , wherein an inner circumferential surface of the pin hole is locally brought into pressure contact with an outer circumferential surface of the connecting pin by the biasing member. 11. A variable flow valve mechanism for a turbocharger, comprising: a stem; a mounting member integrally connected to the stem; a valve provided at a distal end portion of the mounting member, configured to open and close an opening portion of a variable gas flow passage for adjusting a flow rate of an exhaust gas supplied from an engine to a turbine wheel in the turbocharger; a link member integrally connected to the stem; an actuating rod movably provided in an axial direction of the actuating rod, and rotatably connected to a distal end portion of the link member; a pin hole formed at one of the link member and the actuating rod; a connecting pin provided at the other of the link member and the actuating rod, the connecting pin being inserted into the pin hole; and a leaf spring configured to bias the link member and the actuating rod in directions separating the link member and the actuating rod from each other along an axial direction of the connecting pin, wherein the leaf spring has a U-shape with a first end portion and a second end portion, the first end portion is provided with any one of a hole and a notch into which the connecting pin is inserted, the second end portion is provided with any one of a hole and a notch into which the connecting pin is inserted, the first end portion is disposed between the link member and the actuating rod, and the second end portion is disposed between the first end portion and the actuating rod or disposed at a position opposite to a position of the first end portion across the actuating rod. 12. A turbocharger comprising: a variable gas flow passage configured to adjust a flow rate of an exhaust gas supplied from an engine to a turbine wheel in the turbocharger; and a variable flow valve mechanism including: a stem; a mounting member integrally connected to the stem; a valve provided at a distal end portion of the mounting member, configured to open and close an opening portion of the variable gas flow passage; a link member integrally connected to the stem; an actuating rod movably provided in an axial direction of the actuating rod, and rotatably connected to a distal end portion of the link member; a pin hole formed at one of the link member and the actuating rod; a connecting pin provided at the other of the link member and the actuating rod, the connecting pin being inserted into the pin hole; and a biasing member configured to bias the link member and the actuating rod in directions separating the link member and the actuating rod from each other along the axial direction of the actuator rod. 13. A turbocharger comprising: a variable gas flow passage configured to adjust a flow rate of an exhaust gas supplied from an engine to a turbine wheel in the turbocharger; and a variable flow valve mechanism including: a stem; a mounting member integrally connected to the stem; a valve provided at a distal end portion of the mounting member, configured to open and close an opening portion of the variable gas flow passage; a link member integrally connected to the stem; an actuating rod movably provided in an axial direction of the actuating rod, and rotatably connected to a distal end portion of the link member; a pin hole formed at one of the link member and the actuating rod; a connecting pin provided at the other of the link member and the actuating rod, the connecting pin being inserted into the pin hole; and a leaf spring configured to bias the link member and the actuating rod in directions separating the link member and the actuating rod from each other along an axial direction of the connecting pin, wherein the leaf spring has a U-shape with a first end portion and a second end portion, the first end portion and the second end portion are provided with holes or notches into which the connecting pin is inserted, the first end portion is disposed between the link member and the actuating rod, and the second end portion is disposed between the first end portion and the actuating rod or disposed at a position opposite to a position of the first end portion across the actuating rod. 14. A variable flow valve mechanism for a turbocharger, comprising: a stem; a mounting member integrally connected to the stem; a valve provided at a distal end portion of the mounting member, configured to open and close an opening portion of a variable gas flow passage for adjusting a flow rate of an exhaust gas supplied from an engine to a turbine wheel in the turbocharger; a link member integrally connected to the stem; an actuating rod movably provided in an axial directio