IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0239552
(1981-03-02)
|
우선권정보 |
DE-0008002 (1980-03-01) |
발명자
/ 주소 |
|
출원인 / 주소 |
- Reutter Metallwarenfabrik GmbH
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
13 인용 특허 :
0 |
초록
▼
In the housing of a closing cap 2, a valve seat plate 3 is held in place by means of a resilient ring 8 forming at the same time a seal relative to the tank connection to which the closing cap is screwed by its internal thread 1. The valve seat plate 3 supports a sub-pressure valve 4 and an excess-p
In the housing of a closing cap 2, a valve seat plate 3 is held in place by means of a resilient ring 8 forming at the same time a seal relative to the tank connection to which the closing cap is screwed by its internal thread 1. The valve seat plate 3 supports a sub-pressure valve 4 and an excess-pressure valve 5. Aside from its seal ring 13, the closing member 4 of the sub-pressure valve is made in one piece. The excess-pressure valve 5 comprises a loose valve disc 28 cooperating with a valve seat 27 of the valve seat plate 3. The closing spring 30 is non-rotatably secured to the valve disc 28 and bears by its other open end against a stop 37 so that, by turning the valve disc, the spring pressure is increased or reduced. For this purpose, the valve disc is actuated by a tool introduced through the outlet aperture 21. In another embodiment, a setting member 40 is provided which is rotatable in the outlet aperture and can be displaced in the axial direction of the valve by means of two mating helicoidal surfaces 38, 39.
대표청구항
▼
1. A removable motor vehicle radiator closing cap for a vehicle cooling system, comprising, a cap housing having an open end, a resilient valve seat plate extending across said housing and dividing it vertically into a closed top space and a bottom space adjacent the opened end, an excess pressure v
1. A removable motor vehicle radiator closing cap for a vehicle cooling system, comprising, a cap housing having an open end, a resilient valve seat plate extending across said housing and dividing it vertically into a closed top space and a bottom space adjacent the opened end, an excess pressure valve mounted in said plate including a cup-shaped extension portion having an excess pressure opening extending through said seat plate, an excess pressure valve seat defined around the excess pressure opening, an excess pressure valve disc engageable on said valve seat to close the excess pressure opening, a top cover member overlying said excess pressure valve disc and having a top bearing face with a top opening, an excess pressure spring biased between said disc and said bearing face and urging said valve disc toward said excess pressure valve seat, a sub-pressure valve mounted in said plate including a sub-pressure opening through said plate, a sub-pressure valve seat defined around said sub-pressure opening, a sub-pressure valve including a disc portion engageable with the sub-pressure valve seat and having a tappet portion extending through the sub-pressure opening, and a sub-pressure spring biased between said valve seat plate and said tappet urging said disc portion onto said sub-pressure valve seat. 2. A closing cap, according to claim 1, wherein said top cover member comprises a separate member having a locking flange, said valve seat plate having a locking groove into which said flange extends. 3. A closing gap, according to claim 2, wherein said top cover member includes a flange bounding said top opening providing a centering shoulder, said excess pressure valve spring comprising a helical compression spring having an end guided on said flange. 4. A closing cap, according to claim 1, wherein the excess pressure opening is defined by wall portions of said plate in the form of a plurality of circumferentially spaced, radially extending strips, providing guides for said excess pressure valve seat. 5. A closing cap, according to claim 4, wherein said excess pressure valve disc is provided with a tubular projection, said excess pressure spring being a helical spring having a portion engaged with said projection. 6. A closing cap, according to claim 1, wherein said excess pressure spring comprises a helical spring engageable with said excess pressure disc and said top cover member, said top cover member and said disc being relatively rotatable to vary the tension on said spring. 7. A closing cap, according to claim 6, wherein said top cover member has a stop thereon engaged with the excess pressure valve spring, said excess pressure valve disc having a driving tool engagement portion which may be engaged by a driving tool to rotate it relative to said top cover member to vary the tension of said spring. 8. A closing cap, according to claim 1, wherein said excess pressure valve disc includes a tubular projection, said excess pressure spring comprising a helical spring engageable with the tubular projection, said projection having two tool engagement elements thereon offset through 180° for engagement with a driving tool. 9. A closing cap, according to claim 1, wherein said top cover member includes a helicoid spring engagement surface, said excess pressure spring including a mating helicoidal surface, said excess pressure disc and said spring being relatively rotatable to vary the tension on said spring. 10. A closing cap, according to claim 9, wherein the helicoidal surfaces are provided with stepped areas defining detent positions between the surfaces. 11. A closing cap, according to claim 1, wherein said tappet portion of said sub-pressure valve is provided with an enlarged headportion having a conical shape with a bearing shoulder on the side thereof facing said disc portion, said sub-pressure spring comprising a frusto-conical helical spring having a large base portion bearing against the valve disc and a small portion engaged with said bearing shoulder.
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