IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0311612
(2007-06-30)
|
등록번호 |
US-8171951
(2012-05-08)
|
국제출원번호 |
PCT/EP2007/005821
(2007-06-30)
|
§371/§102 date |
20090406
(20090406)
|
국제공개번호 |
WO2009/003500
(2009-01-08)
|
발명자
/ 주소 |
- Quendt, Volker
- Danner, Tobias
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
4 |
초록
▼
A valve (1) with a AND gate function has a valve member (2) cooperating with moving passage members (23a and 23b) in a valve housing (3) in order to control connections between one outlet (A) and two inlets (E1 and E2). If the pressure difference present at the input side goes above a threshold valu
A valve (1) with a AND gate function has a valve member (2) cooperating with moving passage members (23a and 23b) in a valve housing (3) in order to control connections between one outlet (A) and two inlets (E1 and E2). If the pressure difference present at the input side goes above a threshold value, the valve member (2) can thrust back one of the passage members (23a and 23b) against the stressing force of the stressing means (34a and 34b) in order to separate the outlet (A) simultaneously from both inlets (E1 and E2). Accordingly a safety and/or a logic function may be implemented.
대표청구항
▼
1. A valve with an AND function in the case of which a valve member able to be shifted in relation to a valve housing controls the fluid connection between two inlets and an outlet, the switching position of the valve member being dependent on the pressure difference between the fluid pressure obtai
1. A valve with an AND function in the case of which a valve member able to be shifted in relation to a valve housing controls the fluid connection between two inlets and an outlet, the switching position of the valve member being dependent on the pressure difference between the fluid pressure obtaining at the two inlets so that at equal input pressures at least one inlet is joined with the outlet, the valve member being able to assume two opposite terminal positions in which it respectively clears one of two first passages and simultaneously shuts off the other first passage, said first passages being connected with the outlet and being stationary in relation to the valve housing, wherein two second passages, connected with respectively one of the two inlets, are present which are respectively a component of one of two passage members able to move in relation to the valve housing in the actuating direction of the valve member, such passage members being so biased by stressing means independently of one another in a yielding manner into a home position that the valve member prior to reaching its terminal positions can bear, dependent on its actuation direction, on the one or the other passage member and thereby can close the second passage thereof so that the associated inlet is separated from the outlet, the level of the stressing force defining a threshold value for the inlet pressure difference and on exceeding said threshold value the valve member being able to force back the passage member, which is stressed and closed by the valve member, in order to shift itself into one of the terminal positions and accordingly to separate both inlets from the outlet. 2. The valve in accordance with claim 1, wherein the valve member has two mutually facing first sealing faces, respectively opposite a first valve seat arranged stationary in relation to the valve housing and defining one of the first passages, and in the two terminal positions of the valve member respectively one of the first sealing faces bears against the first valve seat facing it and the other first sealing face is lifted from the first valve seat facing it. 3. The valve in accordance with claim 2, wherein the valve member has two second sealing faces facing away from each other, opposite which there is respectively a second valve seat, on one of the passage members, such second valve seat defining one of the second passages so that on engagement of one of the second sealing faces with the second valve seat associated with it, the respectively other sealing face is lifted from the second valve seat associated with it. 4. The valve in accordance with claim 3, wherein, respectively, a first sealing face and a second sealing face are disposed on mutually opposite terminal faces of two closure disks, spaced apart in the actuating direction, of the valve member. 5. The valve in accordance with claim 1, wherein, respectively, a first passage and a second passage are joined in series for fluid flow, the valve member being able to shut off respectively either the first passage or the second passage. 6. The valve in accordance with claim 1, wherein the home position of the passage members is defined by the valve member being able to bear against a passage member positioned in its home position with a shutting off of the second passage thereof without simultaneously closing the other second passage and the two first passages. 7. The valve in accordance with claim 1, wherein the home position of each passage member is defined by an abutment face stationary in relation to the valve housing, against which abutment face the passage member is urged by the stressing means. 8. The valve in accordance with claim 1, wherein the valve member is arranged axially between the two passage members. 9. The valve in accordance with claim 1, wherein the passage members are designed in an annular manner to form their second passage. 10. The valve in accordance with claim 1, wherein the passage members are arranged coaxially in relation to the valve member. 11. The valve in accordance with claim 1, wherein each passage member is arranged in the valve housing in a sliding fashion. 12. The valve in accordance with claim 1, wherein each passage member bears a seal by way of which it makes constant sealing contact with the valve housing. 13. The valve in accordance with claim 1, wherein the stressing means are each constituted by a compression spring means. 14. The valve in accordance with claim 1, wherein the valve housing has an elongated recess in which the valve member is arranged axially between the two passage members, the outer terminal portions of the recess lying on the side, which is axially opposite the valve member, communicating respectively with one of the two inlets and also accommodate the stressing means. 15. The valve in accordance with claim 2, wherein, a first passage and a second passage are joined in series for fluid flow, the valve member being able to shut off respectively either the first passage or the second passage. 16. The valve in accordance with claim 3, wherein, a first passage and a second passage are joined in series for fluid flow, the valve member being able to shut off respectively either the first passage or the second passage. 17. The valve in accordance with claim 4, wherein, a first passage and a second passage are joined in series for fluid flow, the valve member being able to shut off respectively either the first passage or the second passage. 18. The valve in accordance with claim 2, wherein the home position of the passage members is defined by the valve member being able to bear against a passage member positioned in its home position with a shutting off of the second passage thereof without simultaneously closing the other second passage and the two first passages. 19. The valve in accordance with claim 3, wherein the home position of the passage members is defined by the valve member being able to bear against a passage member positioned in its home position with a shutting off of the second passage thereof without simultaneously closing the other second passage and the two first passages. 20. The valve in accordance with claim 4, wherein the home position of the passage members is defined by the valve member being able to bear against a passage member positioned in its home position with a shutting off of the second passage thereof without simultaneously closing the other second passage and the two first passages.
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