IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0053661
(2002-01-24)
|
발명자
/ 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
12 |
초록
▼
A hydraulic fluid reservoir comprises a body defining a variable volume chamber having one end portion movable with the level of fluid in the chamber. A biasing member acting on a traction rod extending from the movable end portion restrains movement thereof under fluid pressure. The fluid pressure
A hydraulic fluid reservoir comprises a body defining a variable volume chamber having one end portion movable with the level of fluid in the chamber. A biasing member acting on a traction rod extending from the movable end portion restrains movement thereof under fluid pressure. The fluid pressure in the variable volume chamber advantageously counterbalances the force of reaction in the biasing member.
대표청구항
▼
1. A reservoir for supplying hydraulic fluid to a hydraulic system to meet the needs thereof, comprising a body defining a variable volume chamber, a movable part in said variable volume chamber, a port for connecting said variable volume chamber to the hydraulic system, and a restrainer urging said
1. A reservoir for supplying hydraulic fluid to a hydraulic system to meet the needs thereof, comprising a body defining a variable volume chamber, a movable part in said variable volume chamber, a port for connecting said variable volume chamber to the hydraulic system, and a restrainer urging said variable volume chamber towards a collapsed position, said restrainer including a biasing member, and a traction rod extending from said movable part in a direction opposite to an expansion direction of said variable volume chamber, and wherein the biasing force of the biasing member is transmitted to the movable part by said traction rod, said biasing member being mounted in a tubular guide to prevent said biasing member from buckling, said tubular guide being in fluid flow communication with said variable volume chamber so that said biasing member is immersed in the hydraulic fluid, said biasing member including a spring mounted about said traction rod, said spring having a first end abutted against said outer surface of said body and a second end abutted against a stop provided at a free end portion of said traction rod opposite said movable part of said variable volume chamber, said spring pushing in said stop to urge said movable part to said collapsed position, the arrangement being such that when the variable volume chamber expands under the fluid pressure of the hydraulic fluid against a biasing force of the restrainer, a force of reaction in the restrainer equal and opposite to the biasing force is transmitted to an outer surface of the body in a direction opposite to the fluid pressure exerted by the hydraulic fluid on an inner surface of the body opposite said inner surface, thereby allowing the force of reaction in the restrainer to be counterbalanced by the fluid pressure in the variable volume chamber. 2. A reservoir for supplying hydraulic fluid to a hydraulic system to meet the needs thereof, comprising a body having a housing defining a variable volume chamber, a movable part in said variable volume chamber, a port for connecting said variable volume chamber to the hydraulic system, and a restrainer urging said variable volume chamber towards a collapsed position, said restrainer including a biasing member, and a traction rod extending from said movable part in a direction opposite to an expansion direction of said variable volume chamber, and wherein the biasing force of the biasing member is transmitted to the movable part by said fraction rod, said movable part including a piston axially slidable in said cylindrical housing so as to divide an interior volume of said housing into first and second chambers, said port being connected in fluid flow communication with said second chamber, said traction rod extending outwardly of said second chamber through an end plate of said cylindrical housing, said biasing member having a first end thereof abutted against an outer surface of said end plate and a second opposed end thereof abutted against a stop provided at a free end of said traction rod. 3. A reservoir as defined in claim 2, wherein an air bleed valve is provided on said piston to allow air to flow from said second chamber to said first chamber. 4. A reservoir as defined in claim 1, wherein said variable volume chamber is defined by first and second end plates connected together by a bellows. 5. A reservoir as defined in claim 4, wherein said restrainer includes a biasing member and a rod extending from said first end plate, said biasing member acting on said rod to bias said first end plate towards said second end plate. 6. A reservoir as defined in claim 5, wherein an air bleed valve is provided on said first end plate. 7. A reservoir as defined in claim 5, wherein said biasing member is received in a tubular guide connected in fluid flow communication with an interior space defined by said first and second end plates and said bellows. 8. A reservoir as defined in claim 7, wherein said biasing member is a spr ing mounted about said rod, and wherein said tubular guide is fixed relative to said second and plate. 9. A reservoir as defined in claim 2, wherein a level indicating magnet is provided outwardly of said body for joint movement with said piston in order to provide an indication of the level of hydraulic fluid in the variable volume chamber. 10. A reservoir for use in a hydraulic circuit, comprising a body defining a variable volume chamber, a port for operatively connecting the variable volume chamber to the hydraulic circuit, said variable volume chamber having a part movable with the level of the fluid in said chamber, a device opposing movement of said part under fluid pressure, said device including a traction rod connected to said part, a biasing member acting on said traction rod to urge said part towards a collapsed position, said biasing member including a spring having a first end abutted against and outer surface of the body and a second end abutted against a stop provided at a free distal end of said traction rod so that a force of reaction in said spring be balanced by the fluid pressure on an inner surface of the body opposite a point of contact of said spring with said outer surface of said body. 11. A reservoir as defined in claim 10, wherein said biasing member is tightly placed in a tubular member to prevent buckling of said biasing members. 12. A reservoir as defined in claim 11, wherein said tubular member is in fluid flow communication with said variable volume chamber. 13. A reservoir as defined in claim 12, wherein said port is defined in said tubular member so that said biasing member is immersed in the hydraulic fluid. 14. A reservoir as defined in claim 10, wherein said body includes first and second end plates connected by a bellows, and wherein said traction rod extends from said first end pate outwardly of said variable volume chamber through said second end plate.
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