IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0712517
(2010-02-25)
|
등록번호 |
US-8317501
(2012-11-27)
|
우선권정보 |
JP-2009-42247 (2009-02-25); JP-2009-256383 (2009-11-09) |
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
4 |
초록
▼
Gas of a predetermined pressure, which is equal to or higher than the atmospheric pressure, is filled in a damper chamber of a damper member that includes first and second-side diaphragms. A first-side limiting portion of a first-side cover member and a second-side limiting portion of a second-side
Gas of a predetermined pressure, which is equal to or higher than the atmospheric pressure, is filled in a damper chamber of a damper member that includes first and second-side diaphragms. A first-side limiting portion of a first-side cover member and a second-side limiting portion of a second-side cover member are engageable with a first-side concave portion of the first-side diaphragm and a second-side concave portion of the second-side diaphragm, respectively, to limit bulging of the damper member when a pressure of a fluid chamber is equal to or less than the predetermined pressure.
대표청구항
▼
1. A damper device comprising: a damper housing that has an opening at one end of the damper housing;an opening cover member that covers the opening and forms a fluid chamber in cooperation with the damper housing, wherein the fluid chamber is adapted to conduct fluid therethrough;a damper member th
1. A damper device comprising: a damper housing that has an opening at one end of the damper housing;an opening cover member that covers the opening and forms a fluid chamber in cooperation with the damper housing, wherein the fluid chamber is adapted to conduct fluid therethrough;a damper member that is placed in the fluid chamber and includes a first-side diaphragm and a second-side diaphragm, which are made of metal and are resiliently deformable, wherein a first-side outer peripheral portion of the first-side diaphragm and a second-side outer peripheral portion of the second-side diaphragm are joined with each other all around the first-side outer peripheral portion and the second-side outer peripheral portion to gas-tightly seal a damper chamber between a first-side concave portion of the first-side diaphragm and a second-side concave portion of the second-side diaphragm;a first-side cover member that is provided on one side of the first-side diaphragm, which is opposite from the second-side diaphragm, and includes a first-side outer peripheral portion and a first-side limiting portion, wherein the first-side outer peripheral portion of the first-side cover member is engaged with the first-side outer peripheral portion of the first-side diaphragm, the first-side limiting portion radially inwardly extends from the first-side outer peripheral portion of the first-side cover member, wherein the first-side limiting portion includes a plurality of arms, which radially inwardly extend from the first-side outer peripheral portion of the first-side cover member, and wherein a distal end of each of the plurality of arms of the first-side limiting portion is a free end that is bendable independently from the rest of the rest of the plurality of arms of the first-side limiting portion in a direction generally perpendicular to an imaginary plane, in which the first-side outer peripheral portion of the first-side cover member extends;a second-side cover member that is provided on one side of the second-side diaphragm, which is opposite from the first-side diaphragm, and includes a second-side outer peripheral portion and a second-side limiting portion, wherein the second-side outer peripheral portion of the second-side cover member is engaged with the second-side outer peripheral portion of the second-side diaphragm and cooperates with the first-side outer peripheral portion of the first-side cover member to clamp the first-side outer peripheral portion of the first-side diaphragm and the second-side outer peripheral portion of the second-side diaphragm between the first-side outer peripheral portion of the first-side cover member and the second-side outer peripheral portion of the second-side cover member and thereby to hold the first-side diaphragm and the second-side diaphragm on an inner side of the first-side cover member and the second-side cover member, and the second-side limiting portion radially inwardly extends from the second-side outer peripheral portion of the second-side cover member;a first-side support member that is configured into a generally tubular form and is placed between the first-side cover member and the opening cover member, wherein the first-side support member urges the first-side outer peripheral portion of the first-side cover member toward the first-side outer peripheral portion of the first-side diaphragm; anda second-side support member that is configured into a generally tubular form and is placed between the second-side cover member and the damper housing, wherein the second-side support member urges the second-side outer peripheral portion of the second-side cover member toward the second-side outer peripheral portion of the second-side diaphragm to clamp the first-side outer peripheral portion of the first-side cover member, the first-side outer peripheral portion of the first-side diaphragm, the second-side outer peripheral portion of the second-side diaphragm and the second-side outer peripheral portion of the second-side cover member between the first-side support member and the second-side support member, wherein:gas of a predetermined pressure, which is equal to or higher than an atmospheric pressure, is filled and sealed in the damper chamber of the damper member; andthe first-side limiting portion and the second-side limiting portion are engageable with the first-side concave portion and the second-side concave portion, respectively, to limit bulging of the damper member when a pressure of the fluid chamber is equal to or less than the predetermined pressure. 2. The damper device according to claim 1, wherein: the pressure of the fluid chamber is variable within a predetermined pressure range;the predetermined pressure of the gas, which is filled in the damper chamber of the damper member, is lower than a lower limit value of the predetermined pressure range; andthe first-side limiting portion and the second-side limiting portion are kept spaced away from a center of the first-side concave portion and a center of the second-side concave portion, respectively, when the pressure of the fluid chamber varies within the predetermined pressure range. 3. The damper device according to claim 1, wherein: the second-side limiting portion radially inwardly extends from the second-side outer peripheral portion of the second-side cover member and is configured to cover the second-side concave portion; andthe second-side limiting portion includes a plurality of through holes that communicate between one side of the second-side limiting portion, at which the second-side concave portion is located, and the other side of the second-side limiting portion, which is opposite from the second-side concave portion. 4. The damper device according to claim 1, wherein: the first-side cover member and the first-side support member are integrally formed; andthe first-side outer peripheral portion of the first-side cover member and one end part of the first-side support member, which is adjacent to the first-side cover member, are joined together. 5. The damper device according to claim 1, wherein: the second-side cover member and the second-side support member are integrally formed;the second-side outer peripheral portion of the second-side cover member and one end part of the second-side support member, which is adjacent to the second-side cover member, are joined together. 6. The damper device according to claim 1, wherein: the first-side support member includes a plurality of first-side engaging portions, which radially outwardly project;the second-side support member includes a plurality of second-side engaging portions, which radially outwardly project and are placed to correspond with the plurality of first-side engaging portions, respectively, of the first-side support member; andeach of the plurality of first-side engaging portions of the first-side support member is engaged with a corresponding one of the plurality of second-side engaging portions of the second-side support member to hold the damper member between the first-side support member and the second-side support member through the first-side cover member and the second-side cover member. 7. The damper device according to claim 1, wherein: the first-side cover member includes a plurality of first-side engaging portions, which radially outwardly project;the second-side cover member includes a plurality of second-side engaging portions, which radially outwardly project and are placed to correspond with the plurality of first-side engaging portions, respectively, of the first-side cover member; andeach of the plurality of first-side engaging portions of the first-side cover member is engaged with a corresponding one of the plurality of second-side engaging portions of the second-side cover member to hold the damper member between the first-side cover member and the second-side cover member. 8. The damper device according to claim 1, wherein: one side of the first-side limiting portion, which is adjacent to the damper member, is coated with fluoroplastic; andone side of the second-side limiting portion, which is adjacent to the damper member, is coated with fluoroplastic. 9. A high pressure pump comprising: the damper device recited in claim 1;a housing that includes a pressurizing chamber, which is communicated with the fluid chamber; anda plunger that is received in the housing and is adapted to reciprocate in the housing to pressurize fluid in the pressurizing chamber. 10. A manufacturing method for manufacturing the high pressure pump recited in claim 9, comprising: filling gas of a predetermined pressure, which is equal to or higher than an atmospheric pressure, into the damper chamber of the damper member, wherein a pressure of the fluid chamber is variable within a predetermined pressure range during operation of the high pressure pump, and the predetermined pressure of the gas is lower than a lower limit value of the predetermined pressure range. 11. The damper device according to claim 1, wherein the first-side outer peripheral portion of the first-side diaphragm and the second-side outer peripheral portion of the second-side diaphragm are welded with each other all around the first-side outer peripheral portion and the second-side outer peripheral portion. 12. A damper device comprising: a damper housing that has an opening at one end of the damper housing;an opening cover member that covers the opening and forms a fluid chamber in cooperation with the damper housing, wherein the fluid chamber is adapted to conduct fluid therethrough;a damper member that is placed in the fluid chamber and includes a first-side diaphragm and a second-side diaphragm, which are made of metal and are resiliently deformable, wherein a first-side outer peripheral portion of the first-side diaphragm and a second-side outer peripheral portion of the second-side diaphragm are joined with each other all around the first-side outer peripheral portion and the second-side outer peripheral portion to gas-tightly seal a damper chamber between a first-side concave portion of the first-side diaphragm and a second-side concave portion of the second-side diaphragm;a first-side cover member that is provided on one side of the first-side diaphragm, which is opposite from the second-side diaphragm, and includes a first-side outer peripheral portion and a plurality of arms, wherein the first-side outer peripheral portion of the first-side cover member is engaged with the first-side outer peripheral portion of the first-side diaphragm, and each of the plurality of arms of the first-side cover member has a free end that is bendable independently from the rest of the plurality of arms of the first-side cover member in a direction generally perpendicular to an imaginary plane, in which the first-side outer peripheral portion extends; anda second-side cover member that is provided on one side of the second-side diaphragm, which is opposite from the first-side diaphragm, and includes a second-side outer peripheral portion and a plurality of arms, wherein:the second-side outer peripheral portion of the second-side cover member is engaged with the second-side outer peripheral portion of the second-side diaphragm and cooperates with the first-side outer peripheral portion of the first-side cover member to clamp the first-side outer peripheral portion of the first-side diaphragm and the second-side outer peripheral portion of the second-side diaphragm between the first-side outer peripheral portion of the first-side cover member and the second-side outer peripheral portion of the second-side cover member and thereby to hold the first-side diaphragm and the second-side diaphragm on an inner side of the first-side cover member and the second-side cover member;each of the plurality of arms of the second-side cover member has a free end that is bendable independently from the rest of the plurality of arms of the second-side cover member in a direction generally perpendicular to an imaginary plane, in which the second-side outer peripheral portion extends; andgas of a predetermined pressure, which is equal to or higher than an atmospheric pressure, is filled and sealed in the damper chamber of the damper member. 13. The damper device according to claim 12, wherein the first-side outer peripheral portion of the first-side diaphragm and the second-side outer peripheral portion of the second-side diaphragm are welded with each other all around the first-side outer peripheral portion and the second-side outer peripheral portion. 14. A damper device comprising: a damper housing that has an opening at one end of the damper housing;an opening cover member that covers the opening and forms a fluid chamber in cooperation with the damper housing, wherein the fluid chamber is adapted to conduct fluid therethrough;a damper member that is placed in the fluid chamber and includes a first-side diaphragm and a second-side diaphragm, which are made of metal and are resiliently deformable, wherein a first-side outer peripheral portion of the first-side diaphragm and a second-side outer peripheral portion of the second-side diaphragm are joined with each other all around the first-side outer peripheral portion and the second-side outer peripheral portion to gas-tightly seal a damper chamber between a first-side concave portion of the first-side diaphragm and a second-side concave portion of the second-side diaphragm;a first-side cover member that is provided on one side of the first-side diaphragm, which is opposite from the second-side diaphragm, and includes a first-side outer peripheral portion and a first-side limiting portion, wherein the first-side outer peripheral portion of the first-side cover member is engaged with the first-side outer peripheral portion of the first-side diaphragm, the first-side limiting portion radially inwardly extends from the first-side outer peripheral portion of the first-side cover member;a second-side cover member that is provided on one side of the second-side diaphragm, which is opposite from the first-side diaphragm, and includes a second-side outer peripheral portion and a second-side limiting portion, wherein the second-side outer peripheral portion of the second-side cover member is engaged with the second-side outer peripheral portion of the second-side diaphragm and cooperates with the first-side outer peripheral portion of the first-side cover member to clamp the first-side outer peripheral portion of the first-side diaphragm and the second-side outer peripheral portion of the second-side diaphragm between the first-side outer peripheral portion of the first-side cover member and the second-side outer peripheral portion of the second-side cover member and thereby to hold the first-side diaphragm and the second-side diaphragm on an inner side of the first-side cover member and the second-side cover member, and the second-side limiting portion radially inwardly extends from the second-side outer peripheral portion of the second-side cover member, wherein the second-side limiting portion includes a plurality of arms, which radially inwardly extend from the second-side outer peripheral portion of the second-side cover member, and wherein a distal end of each of the plurality of arms of the second-side limiting portion is a free end that is bendable independently from the rest of the plurality of arms of the second-side limiting portion in a direction generally perpendicular to an imaginary plane, in which the second-side outer peripheral portion of the second-side cover member extends;a first-side support member that is configured into a generally tubular form and is placed between the first-side cover member and the opening cover member, wherein the first-side support member urges the first-side outer peripheral portion of the first-side cover member toward the first-side outer peripheral portion of the first-side diaphragm; anda second-side support member that is configured into a generally tubular form and is placed between the second-side cover member and the damper housing, wherein the second-side support member urges the second-side outer peripheral portion of the second-side cover member toward the second-side outer peripheral portion of the second-side diaphragm to clamp the first-side outer peripheral portion of the first-side cover member, the first-side outer peripheral portion of the first-side diaphragm, the second-side outer peripheral portion of the second-side diaphragm and the second-side outer peripheral portion of the second-side cover member between the first-side support member and the second-side support member, wherein:gas of a predetermined pressure, which is equal to or higher than an atmospheric pressure, is filled and sealed in the damper chamber of the damper member; andthe first-side limiting portion and the second-side limiting portion are engageable with the first-side concave portion and the second-side concave portion, respectively, to limit bulging of the damper member when a pressure of the fluid chamber is equal to or less than the predetermined pressure. 15. The damper device according to claim 14, wherein: the pressure of the fluid chamber is variable within a predetermined pressure range;the predetermined pressure of the gas, which is filled in the damper chamber of the damper member, is lower than a lower limit value of the predetermined pressure range; andthe first-side limiting portion and the second-side limiting portion are kept spaced away from a center of the first-side concave portion and a center of the second-side concave portion, respectively, when the pressure of the fluid chamber varies within the predetermined pressure range. 16. The damper device according to claim 14, wherein: the first-side limiting portion radially inwardly extends from the first-side outer peripheral portion of the first-side cover member and is configured to cover the first-side concave portion; andthe first-side limiting portion includes a plurality of through holes that communicate between one side of the first-side limiting portion, at which the first-side concave portion is located, and the other side of the first-side limiting portion, which is opposite from the first-side concave portion. 17. The damper device according to claim 14, wherein: the first-side cover member and the first-side support member are integrally formed; andthe first-side outer peripheral portion of the first-side cover member and one end part of the first-side support member, which is adjacent to the first-side cover member, are joined together. 18. The damper device according to claim 14, wherein: the second-side cover member and the second-side support member are integrally formed;the second-side outer peripheral portion of the second-side cover member and one end part of the second-side support member, which is adjacent to the second-side cover member, are joined together. 19. The damper device according to claim 14, wherein: the first-side support member includes a plurality of first-side engaging portions, which radially outwardly project;the second-side support member includes a plurality of second-side engaging portions, which radially outwardly project and are placed to correspond with the plurality of first-side engaging portions, respectively, of the first-side support member; andeach of the plurality of first-side engaging portions of the first-side support member is engaged with a corresponding one of the plurality of second-side engaging portions of the second-side support member to hold the damper member between the first-side support member and the second-side support member through the first-side cover member and the second-side cover member. 20. The damper device according to claim 14, wherein: the first-side cover member includes a plurality of first-side engaging portions, which radially outwardly project;the second-side cover member includes a plurality of second-side engaging portions, which radially outwardly project and are placed to correspond with the plurality of first-side engaging portions, respectively, of the first-side cover member; andeach of the plurality of first-side engaging portions of the first-side cover member is engaged with a corresponding one of the plurality of second-side engaging portions of the second-side cover member to hold the damper member between the first-side cover member and the second-side cover member. 21. The damper device according to claim 14, wherein: one side of the first-side limiting portion, which is adjacent to the damper member, is coated with fluoroplastic; andone side of the second-side limiting portion, which is adjacent to the damper member, is coated with fluoroplastic. 22. A high pressure pump comprising: the damper device recited in claim 1;a housing that includes a pressurizing chamber, which is communicated with the fluid chamber; anda plunger that is received in the housing and is adapted to reciprocate in the housing to pressurize fluid in the pressurizing chamber. 23. A manufacturing method for manufacturing the high pressure pump recited in claim 22, comprising: filling gas of a predetermined pressure, which is equal to or higher than an atmospheric pressure, into the damper chamber of the damper member, wherein a pressure of the fluid chamber is variable within a predetermined pressure range during operation of the high pressure pump, and the predetermined pressure of the gas is lower than a lower limit value of the predetermined pressure range.
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