Spring washer for a variable flow rate valve mechanism

We claim: 1. A variable flow rate valve mechanism comprising: a valve including a valve body and a valve shaft protruding from the valve body; a lock member fixed to the valve shaft; a valve attachment member attached to the valve shaft between the valve body and the lock member to hold the valve together with the lock member; and a spring washer formed into an annular shape around an axis of the spring washer and disposed adjacent to the valve attachment member, wherein the spring washer includes: a support portion including a seat surface formed along a plane perpendicular to the axis of the spring washer and an open surface provided opposite to the seat surface; a deformable portion connected to the support portion and extending in an inclined manner with respect to the plane, the deformable portion including a contact surface formed to be continuous with the open surface of the support portion; and a protrusion portion extending over the open surface of the support portion in a radial direction of the spring washer to limit a deformation of the deformable portion in an axial direction of the spring washer during actuation of the spring washer, wherein the support portion is at least 20% wider than the protrusion portion in the radial direction, to avoid contact of the protrusion portion with deformable portion during the actuation of the spring washer, wherein the support portion is formed into an annular shape around the axis of the spring washer, wherein the deformable portion is connected to a radial inner end portion of the support portion, and wherein the protrusion portion is provided on the open surface of the support portion at a radial outer edge of the support portion. 2. The variable flow rate valve mechanism according to claim 1 , wherein the protrusion portion is formed by bending the radial outer edge of the support portion. 3. The variable flow rate valve mechanism according to claim 1 , wherein the spring washer is disposed between the valve attachment member and the lock member. 4. The variable flow rate valve mechanism according to claim 1 , wherein the spring washer is disposed between the valve attachment member and the valve body. 5. The variable flow rate valve mechanism according to claim 1 , wherein the support portion of the spring washer includes: a plurality of first support portions each including a first seat surface formed along a first plane perpendicular to the axis of the spring washer and a first open surface opposite to the first seat surface; and a plurality of second support portions each including a second seat surface formed along a second plane perpendicular to the axis of the spring washer, the second plane being spaced apart from the first plane in a direction along the axis of the spring washer, and a second open surface opposite to the second seat surface, wherein the first support portions and the second support portions are spaced apart from each other in a circumferential direction of the spring washer and are alternately disposed in the circumferential direction, wherein the deformable portion includes a plurality of inclined portions each connected to a circumferential end portion of the first support portion and a circumferential end portion of the second support portion to extend in an inclined manner with respect to the first plane and the second plane, and wherein the protrusion portion is provided on at least one of the first open surface of the first support portion and the second open surface of the second support portion. 6. A turbocharger comprising the variable flow rate valve mechanism according to claim 1 . 7. A variable flow rate valve mechanism comprising: a valve including a valve body and a valve shaft protruding from the valve body; a lock member fixed to the valve shaft; a valve attachment member attached to the valve shaft between the valve body and the lock member to hold the valve together with the lock member; and a spring washer formed into an annular shape around an axis of the spring washer and disposed adjacent to the valve attachment member, the spring washer comprising: a support portion including a seat surface formed along a plane perpendicular to the axis of the spring washer and an open surface provided opposite to the seat surface; a deformable portion connected to the support portion, wherein the deformable portion extends in an inclined manner with respect to the plane from a bending point of the spring washer, and wherein the deformable portion includes a contact surface formed to be continuous with the open surface of the support portion; and a protrusion portion extending over the open surface of the support portion in a radial direction of the spring washer to limit a deformation of the deformable portion in an axial direction of the spring washer during actuation of the spring washer, wherein the support portion is at least 20% wider than the protrusion portion in the radial direction so as to space away the protruding portion from the bending point of the spring washer, in the radial direction. 8. The variable flow rate valve mechanism according to claim 7 , wherein the support portion is formed into an annular shape around the axis of the spring washer, wherein the deformable portion is connected to a radial end portion of the support portion, wherein the protrusion portion is provided on the open surface of the support portion, and wherein the protrusion portion is formed by bending a radial edge of the support portion. 9. The variable flow rate valve mechanism according to claim 8 , wherein the protrusion portion includes a surface formed to be continuous with the open surface of the support portion, and wherein the surface of the protrusion portion contacts the open surface of the support portion. 10. The variable flow rate valve mechanism according to claim 8 , wherein the protrusion portion is formed into an annular shape around the axis of the spring washer. 11. The variable flow rate valve mechanism according to claim 7 , wherein the protruding portion is positioned to avoid contact with the deformable portion during the actuation of the spring washer. 12. The variable flow rate valve mechanism according to claim 7 , wherein the support portion is formed into an annular shape around the axis of the spring washer, wherein the deformable portion is connected to a radial outer end portion of the support portion, and wherein the protrusion portion is provided on the open surface of the support portion. 13. The variable flow rate valve mechanism according to claim 7 , wherein the support portion is formed into an annular shape around the axis of the spring washer, wherein the deformable portion is connected to a radial inner end portion of the support portion, and wherein the protrusion portion is provided on the open surface of the support portion at a radial outer edge of the support portion. 14. The variable flow rate valve mechanism according to claim 13 , wherein the protrusion portion is formed by bending the radial outer edge of the support portion. 15. A variable flow rate valve mechanism comprising: a valve; a stem having a first end and a second end, the first end being coupled to the valve; a bearing that has a tubular shape and rotatably supports the stem; a link member coupled to the second end of the stem, the second end of the stem protruding from an end face of the bearing; and a spring washer, formed into an annular shape, the spring washer comprising: a support portion including a seat surface formed along a plane perpendicular t