Storage tank level monitoring apparatus and method therefor

US 4,487,065 A
Filed: 03/07/1983
Issued: 12/11/1984
Est. Priority Date: 03/07/1983
Status: Expired due to Fees

First Claim

Patent Images

1. An apparatus for determining the level of fluid in a storage tank holding said fluid, said apparatus comprising:

means attached to the underside of the roof of said storage tank for directing acoustic pulses in a direction substantially normal to said level of said fluid, said directing means being further capable of receiving any reflections of said acoustic pulses from said fluid level and generating an analog signal proportional to said level,means attached to said directing means and depending downardly, substantially the height of said tank, for suspendedly providing a plurality of reference disks at predetermined fixed spacings, each of said reference disks being capable of reflecting said acoustic pulses, andmeans connected to said directing means for activating said directing means to provide a first acoustic pulse, said activating means being receptive of each successive analog signal from said directing means corresponding to the successive first acoustic pulse reflection from each lower reference disk for determining a calibration value compensating for the effects of the atmospheric conditions in the tank above the fluid level, said activating means being capable of activating said directing means to provide a second acoustic pulse, said activating means being receptive of the reflection of said second acoustic pulse from the upper surface of said fluid and of said calibration value for determining the actual level of the fluid in said storage tank.

View all claims

2 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A storage tank level monitoring apparatus and method for determining fluid levels in a storage tank. The apparatus of the present invention includes a magnet coated with rubber for holding a pivotally mounted housing to the interior of the storage tank and an ultrasonic transducer contained within the housing for generating acoustic pulses and for receiving reflections of the acoustic pulses for producing an analog signal proportional to the reflections, a string carrying a number of reference disks vertically oriented below the housing for producing a series of reflected acoustic signals from each reference disk, and a processor connected to the ultrasonic transducer for activating the transducer and for analyzing the reflected pulses for calibrating the apparatus for environmental changes in the atmosphere above the stored fluid and for determining the level of the stored fluid in the tank. The method of the present invention includes the steps of receiving reflected pulses from each reference disk only during certain window time intervals and to calibrate the system by adjusting for environmental conditions between the transducer and the fluid level.

Citations

10 Claims

1. An apparatus for determining the level of fluid in a storage tank holding said fluid, said apparatus comprising:
- means attached to the underside of the roof of said storage tank for directing acoustic pulses in a direction substantially normal to said level of said fluid, said directing means being further capable of receiving any reflections of said acoustic pulses from said fluid level and generating an analog signal proportional to said level,means attached to said directing means and depending downardly, substantially the height of said tank, for suspendedly providing a plurality of reference disks at predetermined fixed spacings, each of said reference disks being capable of reflecting said acoustic pulses, andmeans connected to said directing means for activating said directing means to provide a first acoustic pulse, said activating means being receptive of each successive analog signal from said directing means corresponding to the successive first acoustic pulse reflection from each lower reference disk for determining a calibration value compensating for the effects of the atmospheric conditions in the tank above the fluid level, said activating means being capable of activating said directing means to provide a second acoustic pulse, said activating means being receptive of the reflection of said second acoustic pulse from the upper surface of said fluid and of said calibration value for determining the actual level of the fluid in said storage tank.
- View Dependent Claims (2, 3, 4)
- - 2. The apparatus of claim 1 wherein said directing means comprises:
    - a magnet, said magnet being partially coated with rubber so as to prevent spark generation when mounted to said roof,a swivel bolt having a spherical head on one end, said swivel bolt having the end opposing said spherical head fixedly connected to said storage tank,a housing pivotally connected to said swivel bolt, said housing comprising;
      
      (a) a swivel bolt holder having a spherical cavity formed therein, said cavity receptive of said spherical head of said swivel bolt and being capable of pivoting around said spherical head,(b) a transducer for generating said acoustic pulses and receiving said reflected acoustic pulses, said transducer being capable of generating said analog signals,and(c) a transducer carrier mounted to said swivel bolt holder for carrying said transducer, said housing being capable of being aligned with respect to said storage tank by pivoting said housing until the acoustic pulses from said transducer travel normal to said fluid level.
  - 3. The apparatus of claim 1 wherein said providing means further comprises:
    - a string attached to said directing means,a weight on said string for orienting said string vertically in said tank, andsaid plurality of reference disks being disposed along said string at said predetermined fixed distances.
  - 4. The apparatus of claim 1 further comprising a housing attached to the exterior of said storage tank for holding said activating means and an electrical cable interconnecting said activating means with said directing means, the connection of said cable with said directing means in said tank being insulated so as to prevent the generation of any electrical sparks within said tank.

5. An apparatus for determining the level of fluid in a storage tank holding said fluid, said apparatus comprising:
- a transducer housing pivotally connected to means mounted to an interior wall of said storage tank, said housing comprising;
  
  (a) means for pivoting said housing with respect to said storage tank interior wall,(b) an ultrasonic transducer in said housing for generating acoustic pulses and receiving reflections of said acoustic pulses from said fluid and from at least one reference reflector spacedly mounted from said interior wall, said ultrasonic transducer being capable of generating analog signals proportional to said reflections, and(c) a transducer carrier mounted to said pivoting means for carrying said ultrasonic transducer, said housing being capable of being aligned with respect to said interior wall by pivoting said housing until the acoustic pulses from said ultrasonic transducer travel normal to the fluid level in said tank, andmeans connected to said ultrasonic transducer for activating said ultrasonic transducer to provide acoustic pulses, said activating means being receptive of said analog signals of the acoustic pulse from the upper surface of said fluid for determining the actual level of the fluid in said storage tank.
- View Dependent Claims (6)
- - 6. The apparatus of claim 5 further comprising a housing attached to the exterior of said storage tank for holding said activating means and an electrical cable interconnecting said activating means with said transducer, the connection of said cable with said transducer in said tank being insulated so as to prevent the generation of any electrical sparks within said tank.

7. An apparatus for determining the level of fluid in a storage tank holding said fluid, said apparatus comprising:
- a magnet,a swivel bolt having a spherical head on one end, said swivel bolt having the end opposing said spherical head fixedly connected to said magnet, anda housing pivotally connected to said swivel bolt, said housing comprising;
  
  (a) a swivel bolt holder having a spherical cavity formed therein, said cavity receptive of said spherical head of said swivel bolt and being capable of pivoting around said spherical head,(b) a transducer for generating acoustic pulses and receiving reflected acoustic pulses, said transducer being capable of generating analog signals proportional to said received reflected acoustic pulse, and(c) a transducer carrier mounted to said swivel holder for carrying said transducer, said housing being capable of being aligned with respect to said magnet by pivoting said housing until the acoustic pulses from said transducer travel normal to said fluid level,a string attached to said housing,a weight on said string for orienting said string vertically in said tank,a plurality of reference disks disposed along said string at predetermined fixed distances, each of said reference disks being capable of reflecting said acoustic pulses,means connected to said transducer for activating said transducer to provide a first acoustic pulse, said activating means being receptive of each successive analog signal from said transducer corresponding to the successive first acoustic pulse reflection from each lower reference disk for determining a calibration value compensating for the effects of the atmospheric conditions in the tank above the fluid level, said activating means being capable of activating said directing means to provide a second acoustic pulse, said activating means being receptive of the reflection of said second acoustic pulse from the upper surface of said fluid and of said calibration value for determining the actual level of the fluid in said storage tank, anda housing attached to the exterior of said storage tank for holding said activating means and an electrical cable interconnecting said activating means with said directing means.

8. A method for determining the level of fluid in a storage tank containing fluid comprising the steps of:
- directing a first acoustic pulse from a transducer located in the upper portion of the tank above the level of the fluid downwardly and normal to the surface of the fluid,reflecting the first acoustic pulse by means of a series of vertically spaced, at known distances, reference disks located substantially throughout the height of the tank and mounted from the roof of said storage tank,generating an analog signal for each successive reflection of the first acoustic pulse from each lower disk in said transducer,determining a calibration value in response to each analog signal based upon the known distances between the disks and the transducer in order to compensate for atmospheric conditions affecting the speed of the acoustic pulse in the region between the transducer and the fluid,directing a second acoustic pulse from the transducer,generating an analog signal for the reflection of the second acoustic pulse by the surface of the fluid in the transducer, anddetermining the actual level of the fluid in response to the fluid reflection analog signal as modified by said calibration value.
- View Dependent Claims (9, 10)
- - 9. The method of claim 8 wherein the step of generating an analog signal for each successive reflection from each lower disk in said transducer comprises steps in the order of:
    - (a) producing an overall time interval, T0, a blanking time interval, T1, and a window time interval, T2,(b) starting said blanking time interval T1 when said first acoustic pulse is directed downwardly,(c) starting said window time interval, T2, when said blanking time interval ends, one-half of the time in said window time interval when added to said blanking time being equal to the time the first acoustic pulse would take to reflect from the first disk and return to the transducer under ideal atmospheric conditions, said blanking time, T1, being greater than said window time, T2,(d) sensing the analog signal corresponding to the reflected acoustic pulse from the reference disk only during the window time interval, T2,(e) determining the calibration value based on when the reflected acoustic signal was received and modifying the time in the overall counter, T0, to reflect the atmospheric conditions between the transducer and the first reference disk,(f) narrowing the window time interval by a predetermined amount of time, and(g) repeating steps (a) through (f) for each successive reference disk until an acoustic reflection for the last reference disk immediately above the fluid is detected.
  - 10. The method of claim 9 wherein the step of generating an analog signal for the reflection of the second acoustic pulse comprises the steps of:
    - increasing the blanking time, T1, to correspond to the time that the second acoustic pulse travels from the transducer to the last reference disk immediately above the fluid,increasing the window time, T2, to correspond to the time that it takes the second acoustic pulse to travel between a pair of reference disks,starting the blanking time interval, T1, when the second acoustic pulse is directed downwardly,starting the window time interval, T2, when the aforesaid blanking time, T1, ends, andsensing the analog signal corresponding to the reflected acoustic pulse only during the aforesaid window time interval, T2, and generating an analog signal proportional thereto.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Cypher Systems Co.
Original Assignee
Cypher Systems Co.
Inventors
Carlin, John A., Beard, Steven A., Mesch, William G., Thompson, Randall D., Stephens, Tracy R.
Primary Examiner(s)
Yasich, Daniel M.

Application Number

US06/473,144
Time in Patent Office

645 Days
Field of Search

73/290 V, 73/1 DV, 73/1 H, 367/908, 364/509, 364/571
US Class Current

73/290.00V
CPC Class Codes

G01F 23/296 Acoustic waves

Y10S 367/908 Material level detection, e...

Storage tank level monitoring apparatus and method therefor

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

Citations

10 Claims

Specification

Solutions

Use Cases

Quick Links

Storage tank level monitoring apparatus and method therefor

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

Citations

10 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links