Variable-flow-rate valve mechanism and turbocharger

What is claimed is: 1. A variable-flow-rate valve mechanism used for a turbocharger in which a gas-flow-rate variable passage for adjusting a flow rate of exhaust gas supplied to a turbine wheel side has been formed inside a turbine housing or inside a connection body connected in a state of communicating with the turbine housing, and that is configured to open and close an opening of the gas-flow-rate variable passage, the variable-flow-rate valve mechanism comprising: a stem rotatably supported by a support hole formed by penetrating through an outer wall of the turbine housing or the connection body, and having a base end projecting outside the turbine housing or the connection body; a link member provided integrally with the base end of the stem, and configured to swing around an axial center of the stem in normal and reverse directions by driving an actuator; an attachment member provided integrally with the stem, and provided with an attachment hole formed penetrating through the attachment member; a valve including: a valve body fitted in the attachment hole of the attachment member with being allowed to have backlash to the attachment member, and configured to abut against and separate from a valve seat on an opening side of the gas-flow-rate variable passage; and a valve shaft provided integrally with a center of the valve body, and is fitted in the attachment hole of the attachment member; and a clasp provided integrally with a tip of the valve shaft, configured to make the valve non-detachable from the attachment member, wherein a clearance between an inner peripheral surface of the attachment hole of the attachment member and an outer peripheral surface of the valve shaft is set to be smaller than a value obtained by subtracting a depth dimension of the attachment hole of the attachment member from an interval dimension between a top surface of the valve body and a back surface of the clasp, when a condition is satisfied in which the outer peripheral surface of the valve shaft comes into contact with a front-side periphery and a back-side periphery of the attachment hole of the attachment member, and in which the top surface of the valve body comes into contact with a back surface of the attachment member, the variable-flow-rate valve mechanism is constituted so that the clasp becomes non-contact with a front surface of the attachment member, and a ratio of the value obtained by subtracting a depth dimension of the attachment hole of the attachment member from an interval dimension between a top surface of the valve body and a back surface of the clasp to the clearance between an inner peripheral surface of the attachment hole of the attachment member and an outer peripheral surface of the valve shaft is set to be 3.5 to 6.5. 2. The variable-flow-rate valve mechanism according to claim 1 , wherein part of the valve body on a side closer to the stem is cut out along a longitudinal direction of the stem. 3. The variable-flow-rate valve mechanism according to claim 1 , wherein a chamfering is formed at an outer peripheral edge of the back surface of the clasp. 4. The variable-flow-rate valve mechanism according to claim 2 , wherein a chamfering is formed at an outer peripheral edge of the back surface of the clasp. 5. A turbocharger that turbocharges air supplied to an engine by utilizing energy of exhaust gas from the engine, comprising the variable-flow-rate valve mechanism according to claim 1 . 6. A turbocharger that turbocharges air supplied to an engine by utilizing energy of exhaust gas from the engine, comprising the variable-flow-rate valve mechanism according to claim 2 . 7. A turbocharger that turbocharges air supplied to an engine by utilizing energy of exhaust gas from the engine, comprising the variable-flow-rate valve mechanism according to claim 3 . 8. A turbocharger that turbocharges air supplied to an engine by utilizing energy of exhaust gas from the engine, comprising the variable-flow-rate valve mechanism according to claim 4 . 9. The variable-flow-rate valve mechanism according to claim 1 , wherein the valve satisfies a relationship: λ/(R 1 +R 2 )>2δ/(H−R 3 ), in which λ is the value obtained by subtracting a depth dimension of the attachment hole of the attachment member from an interval dimension between a top surface of the valve body and a back surface of the clasp, R 1 is a radius of the top surface of the valve body, R 2 is a radius of a portion of the back surface of the clasp, δ is the clearance between an inner peripheral surface of the attachment hole of the attachment member and an outer peripheral surface of the valve shaft, H is the depth dimension of the attachment hole of the attachment member, and R 3 is a radius of curvature of the back-side periphery of the attachment hole of the attachment member. 10. A variable-flow-rate valve mechanism used for a turbocharger in which a gas-flow-rate variable passage for adjusting a flow rate of exhaust gas supplied to a turbine wheel side has been formed inside a turbine housing or inside a connection body connected in a state of communicating with the turbine housing, and that is configured to open and close an opening of the gas-flow-rate variable passage, the variable-flow-rate valve mechanism comprising: a stem rotatably supported by a support hole formed by penetrating through an outer wall of the turbine housing or the connection body, and having a base end projecting outside the turbine housing or the connection body; a link member provided integrally with the base end of the stem, and configured to swing around an axial center of the stem in normal and reverse directions by driving an actuator; an attachment member provided integrally with the stem, and provided with an attachment hole formed penetrating through the attachment member; a valve including: a valve body fitted in the attachment hole of the attachment member with being allowed to have backlash to the attachment member, and configured to abut against and separate from a valve seat on an opening side of the gas-flow-rate variable passage; and a valve shaft provided integrally with a center of the valve body, and is fitted in the attachment hole of the attachment member; and a clasp provided integrally with a tip of the valve shaft, configured to make the valve non-detachable from the attachment member, wherein a clearance between an inner peripheral surface of the attachment hole of the attachment member and an outer peripheral surface of the valve shaft is set to be smaller than a value obtained by subtracting a depth dimension of the attachment hole of the attachment member from an interval dimension between a top surface of the valve body and a back surface of the clasp, when a condition is satisfied in which the outer peripheral surface of the valve shaft comes into contact with a front-side periphery and a back-side periphery of the attachment hole of the attachment member, and in which the top surface of the valve body comes into contact with a back surface of the attachment member, the variable-flow-rate valve mechanism is constituted so that the clasp becomes non-contact with a front surface of the attachment member, and the valve satisfies a relationship: λ/(R 1 +R 2 )>2δ/(H−R 3 ), in which λ is the value obtained by subtracting a depth dimension of the attachment hole of the attachment member from an interval dimension between a top surface of the valve body and a back surface of the clasp, R 1 is a radius of the top surface of the valve body, R 2 is a radius of a portion of the back surface of the clasp, δ is the clearance between an inner peripheral surface of the attachment hole of the attachment member and an outer peripheral surfac