Claims
- 1. A fluid level sensor comprising:
- a small diameter solenoid type induction coil having substantially contiguous windings and of a length comparable to the maximum dimension of a buoyant metallic means, captured for movement substantially axially with respect to the coil from a point intermediate the ends of the coil to a point exterior of the coil,
- a solid state oscillator utilizing the coil is an inductive component,
- detection circuitry responsive to the oscillator to determine if the buoyant metallic means is inside or outside the coil, and
- means responsive to the output signal of the circuitry for performing a predetermined function.
- 2. An electronic probe for sensing a fluid level comprising:
- a removable rigid elongated means mounted to extend from a point above the desired liquid level to a point below the desired liquid level,
- coil means secured to the rigid elongated means at approximately the desired liquid level,
- cage means secured to the rigid elongated means and extending axially beyond the coil means in an upward direction, said cage means including side portions and end portions permitting the passage of fluid,
- buoyant means captured within the cage means for movement with the liquid level axially of the coil means from a position within the confines of the coil to a position outside the confines of the coil,
- circuit means interconnected with the coil means to detect whether the buoyant means is within the coil means, and
- means responsive to the detection.
- 3. A fluid level sensor comprising:
- a small diameter elongated solenoid type induction coil having variably spaced windings,
- buoyant metallic means captured for movement substantially axially with respect to the coil from one end of the coil to the other,
- a solid state oscillator of which the coil is an inductive component,
- said oscillator and related components, the metal of said buoyant metallic means, and the operating frequency of the oscillator all specifically chosen such that the oscillator signal is very sensitive to a change in coil efficiency caused by a change in position of the bouyant metallic means,
- detection circuitry for converting the change in oscillator signal to a change in output, and
- means responsive to the output of the circuitry whereby the output may indicate or act upon the sensed level.
- 4. A liquid level sensor capable of both continuous and intermittent indications of the fluid level comprising;
- a primary small diameter elongated solenoid induction coil having variably spaced windings,
- buoyant metallic means captured for movement substantially axially of said coil,
- a solid state oscillator of which the coil is an inductive component,
- said oscillator and related components, the metal of said buoyant metallic means, and the operating frequency of the oscillator all specifically chosen such that the oscillator signal is very sensitive to a change in coil efficiency caused by a change in position of the buoyant metallic means,
- detection circuitry for converting the change in oscillator signal to a change in output,
- secondary coil means interconnected with and serving as an inductive component for an oscillator responsive to the presence of the buoyant metallic means whereby the secondary coil may serve as a backup for the primary coil, and
- means responsive to the output.
- 5. A sensor as in claim 4, wherein the secondary coil is in integral part of the primary coil.
- 6. A sensor as in claim 4 wherein the secondary coil is coaxial and separate from the primary coil.
- 7. An electronic probe for sensing fluid level capable of both continuous and intermittent indications of the fluid level comprising:
- a rigid elongated means mounted to extend from a point above the surface of the liquid to a point below the surface,
- a primary small diameter elongated solenoid type induction coil having variably spaced windings, said induction coil being secured to the rigid elongated means,
- buoyant metallic means captured for movement substantially axially of said coil,
- a solid state oscillator of which the coil is an inductive component,
- said oscillator and related components, the metal of said buoyant metallic means, and the operating frequency of the oscillator all specifically chosen such that the oscillator signal is very sensitive to a change in coil efficiency caused by a change in position of the buoyant metallic means,
- detection circuitry for converting the change in oscillator signal to a change in output,
- secondary coil means secured to the rigid elongated means, said coil means being interconnected with and serving as an inductive component for an oscillator responsive to the presence of the buoyant metallic means whereby the secondary coil may serve as a backup for the primary coil, and
- means responsive to the output.
- 8. A probe as in claim 7 wherein the secondary coil is an integral part of the primary coil.
- 9. A probe as in claim 7, wherein the secondary coil is coaxial and separate from the primary coil.
- 10. An electronic probe for sensing fluid level comprising:
- a rigid elongated means mounted to extend from a point above the surface of the liquid to a point below the surface,
- a small diameter elongated solenoid type induction coil having variably spaced windings, said induction coil being secured to the rigid elongated means,
- buoyant metallic means captured for movement substantially axially of said coil,
- a solid state oscillator of which the coil is an inductive component,
- said oscillator and related components, the metal of said buoyant metallic means, and the operating frequency of the oscillator all specifically chosen such that the oscillator signal is very sensitive to a change in coil efficiency caused by a change in position of the buoyant metallic means,
- detection circuitry for converting the change in oscillator signal to a change in output and
- means responsive to the output.
Parent Case Info
This application is a continuation-in-part of application Ser. No. 756,761 filed Jan. 5, 1977 now abandoned.
US Referenced Citations (2)
Number |
Name |
Date |
Kind |
2337608 |
Hulsberg |
Dec 1943 |
|
2804517 |
Ferry |
Aug 1957 |
|
Foreign Referenced Citations (1)
Number |
Date |
Country |
820,993 |
Aug 1937 |
FR |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
756761 |
Jan 1977 |
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