Claims
- 1. A control for the outlet of a liquid supply tank comprising:
- an open bottom housing defining a chamber extending upwardly from said open bottom;
- means for mounting said housing within the tank with said open bottom overlying the outlet;
- a float confined within said chamber and adapted for exposure to liquid within the tank through said open bottom of the housing,
- said float being vertically reciprocable within the chamber between a lowered position when air is trapped in the chamber above the float and an upwardly buoyed position when the trapped air is released;
- a valve coupled with said float and reciprocable therewith for closing said outlet when the float is in its lowered position and for opening said outlet when the float is in its buoyed position; and
- actuator means for selectively trapping or releasing air within said chamber whereby to close or open said outlet respectively,
- said actuator means including means defining escape orifice means from said housing above said float and mechanism shiftable between positions opening and closing said orifice means.
- said mechanism including a plunger shiftable into and out of sealing relationship with said orifice means, means yieldably biasing said plunger toward said sealing relationship, and a latch disposed to releasably retain the plunger out of said sealing relationship, said latch further being disposed for actuation by the float when the latter approaches its buoyed position for releasing the plunger.
- 2. A control for the outlet of a liquid supply tank comprising:
- an open bottom housing defining a chamber extending upwardly from said open bottom;
- means for mounting said housing within the tank with said open bottom overlying the outlet;
- a float confined within said chamber and adapted for exposure to liquid within the tank through said open bottom of the housing,
- said float being vertically reciprocable within the chamber between a lowered position when air is trapped in the chamber above the float and an upwardly buoyed position when the trapped air is released;
- a valve coupled with said float and reciprocable therewith for closing said outlet when the float is in its lowered position and for opening said outlet when the float is in its buoyed position; and
- actuator means for selectively trapping or releasing air within said chamber whereby to close or open said outlet respectively,
- said actuator means including means defining escape orifice means from said housing above said float and mechanism shiftable between positions opening and closing said orifice means,
- said mechanism including a hollow body having a valve chamber therewithin defining said escape orifice means,
- said valve chamber having a pair of spaced ports, one of said ports being coupled with a buoyant device disposed outside of said housing for automatically opening said one port when the liquid in said tank reaches a predetermined level, the other of said ports being coupled with manually actuatable means for selectively opening said other ports,
- said mechanism further including a valve piece selectively shiftable within said valve chamber between locations sealing said one port while opening said other, sealing said other port while opening said one port, and opening both ports.
- 3. A control for the outlet of a liquid supply tank including:
- an open bottom housing defining a chamber extending upwardly from said open bottom;
- a float confined within said chamber for vertical reciprocation between a lowered position when air is trapped in the chamber above the float and an upwardly buoyed position when the trapped air is released and the float is exposed to liquid;
- a valve coupled with said float and reciprocable therewith;
- an annular seat for said valve rigidly joined to the housing and suspended below said open bottom of the latter in disposition to be sealingly engaged by said valve when the float is in its lowered position; and
- means for mounting said housing within the tank with said seat overlying the outlet for opening and closing the latter when said valve is disengaged and engaged respectively with said seat.
- 4. A control as claimed in claim 3, wherein said housing is provided with a plurality of hangers supporting said seat, said hangers being spaced apart to define open areas therebetween through which liquid may reach said open bottom of the housing.
- 5. A control as claimed in claim 3, wherein said mounting means includes a downwardly facing annular cavity in said seat sized to receive a mating upwardly projecting portion of said outlet, said mounting means furher including a substance within said cavity for sealingly affixing the seat on to said projection.
- 6. A control for the outlet of a liquid supply tank comprising:
- an open bottom housing of circular cross section defining a chamber extending upwardly from said open bottom;
- means for mounting said housing within the tank with said open bottom overlying the outlet;
- a float of circular cross section confined within said chamber and adapted for exposure to liquid within the tank through said open bottom of the housing,
- said float being vertically reciprocable within the chamber between a lowered position when air is trapped in the chamber above the float and an upwardly buoyed position when the trapped air is released;
- a valve coupled with said float and reciprocable therewith for closing said outlet when the float is in its lowered position and for opening said outlet when the float is in its buoyed position;
- actuator means for selectively trapping or releasing air within said chamber whereby to close or open said outlet respectively,
- said housing and said float each having a side and a top;
- side spacer means between the sides of the housing and the float maintaining the latter concentric to the housing during reciprocation and forming an annulus between the sides; and
- top spacer means between the tops of the housing and the float for maintaining space between said tops when the float is in its buoyed position,
- said space between the tops communicating with said annulus between the sides for fully draining liquid from around and above the float as the liquid level in the tank falls below said bottom of the housing.
- 7. A control as claimed in claim 6, wherein said side spacer means comprises a plurality of normally vertically extending, circumferentially spaced ribs.
- 8. A control as claimed in claim 7, wherein said ribs are on said side of the housing.
- 9. A control as claimed in claim 6, wherein said side spacer means comprises an upper circumferentially extending series of relatively small projections and a lower circumferentially extending series of relatively small projections spaced substantially below said upper series.
- 10. A control as claimed in claim 9, wherein said projections are on said side of the float.
- 11. A control as claimed in claim 6, wherein said top spacer means comprises a series of radially extending, circumferentially spaced apart fins.
- 12. A control as clamed in claim 11, wherein said fins are on said top of the housing.
- 13. A control as claimed in claim 6, wherein the space between the tops is at least as great as the thickness of said annulus when the float is in its buoyed position.
- 14. A control as claimed in claim 6, wherein said valve includes a seal having a flat lowermost surface disposed for closing said outlet when the float is in its lowered position.
CROSS REFERENCES
This is a continuation-in-part of my prior copending application Ser. No. 479,896 by the same title, filed June 17, 1974 and now abandoned.
US Referenced Citations (2)
Number |
Name |
Date |
Kind |
3662408 |
Knudtson |
May 1972 |
|
3900904 |
Braswell |
Aug 1975 |
|
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
479896 |
Jun 1974 |
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