A pulsation damper is small in size and can achieve an appropriate supporting force for a diaphragm damper. A pulsation damper accommodated in a case includes a diaphragm damper having a gas sealed therein, and a first support member and a second support member that are disposed between the case and
A pulsation damper is small in size and can achieve an appropriate supporting force for a diaphragm damper. A pulsation damper accommodated in a case includes a diaphragm damper having a gas sealed therein, and a first support member and a second support member that are disposed between the case and the diaphragm damper and that hold the diaphragm damper.
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1. A pulsation damper accommodated in a case, the pulsation damper comprising: a diaphragm damper having a gas sealed therein; and a support member that is disposed between the case and the diaphragm damper and that holds the diaphragm damper, wherein the support member comprises an annular holding
1. A pulsation damper accommodated in a case, the pulsation damper comprising: a diaphragm damper having a gas sealed therein; and a support member that is disposed between the case and the diaphragm damper and that holds the diaphragm damper, wherein the support member comprises an annular holding part that is provided on a peripheral edge portion thereof and that holds a peripheral edge of the diaphragm damper, a base part provided on a center part thereof, a plurality of elastically deformable beam parts that are defined by a plurality of opening portions formed in an annularly aligned manner around the base part between the holding part and the base part, each of the plurality of beam parts held by the holding part at one end and held by the base part at the other end, and a plurality of claw parts defined by the plurality of openings, the plurality of claw parts that abut on the case in an elastically deformable manner, each of the plurality of claw parts provided to extend outward from the base part between two adjacent beam parts, wherein each of the plurality of claw parts is arranged on an opposite side of the base part from a respective one of the plurality of beam parts, wherein the plurality of claw parts and the plurality of beam parts are alternatingly arranged around a circumference of the base part, and a distance between a free end of each of the plurality of claw parts and a base of an adjacent one of the plurality of beam parts connected to the holding part is greater than a maximum width of each of the plurality of beam parts. 2. The pulsation damper according to claim 1, wherein a width of the plurality of beam parts and a width of the plurality of claw parts are respectively approximately the same. 3. The pulsation damper according to claim 1, wherein the plurality of beam parts comprises a neck provided at least at a portion thereof. 4. The pulsation damper according to claim 1, wherein the plurality of beam parts comprises a ridge-trough shape at least at a portion thereof. 5. The pulsation damper according to claim 4, wherein the plurality of beam parts comprises a bellows shape. 6. The pulsation damper according to claim 1, wherein the holding part is composed of an annular part and a cylindrical part connected to the annular part, wherein the plurality of beam parts respectively extend from the cylindrical part, and wherein a cutout is formed to the cylindrical part so as to contact each of a base of the plurality of beam parts. 7. The pulsation damper according to claim 1, wherein the support member is disposed to cover one side of the diaphragm damper. 8. The pulsation damper according to claim 1, wherein the support member is disposed on both sides of the diaphragm damper. 9. The pulsation damper according to claim 1, wherein the each of the plurality of claw parts and the respective one of the plurality of beam parts are provided radially from the base part as a center. 10. The pulsation damper according to claim 1, wherein the base part having a hole therethrough, and a portion of the base part between an outer circumference of the hole and an outer circumference of the base part forms a leaf spring with the beam parts and the claw parts. 11. The pulsation damper according to claim 1, wherein the plurality of claw parts and the plurality of beam parts are alternatingly arranged around a circumference of the base part, andeach of a width of each of the plurality of claw parts and a maximum width of each of the plurality of beam parts are within ±20% of an average value. 12. The pulsation damper according to claim 1, wherein a number of the plurality of claw parts, a number of the plurality of beam parts, and a number of the opening parts are equal. 13. The pulsation damper according to claim 1, wherein each of the plurality of claw parts is disposed at an opposing position of an opposed beam part of the plurality of beam parts across the base part, the opposed beam part being aligned with the each of the plurality of claw parts. 14. The pulsation damper according to claim 1, wherein each of the plurality of beam parts is defined between adjacent opening portions of the plurality of opening portions, andeach of the plurality of opening portions defines a respective one of the plurality of claw parts.
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