Liquid level sensor device

US 5,627,523 A
Filed: 06/03/1996
Issued: 05/06/1997
Est. Priority Date: 06/03/1996
Status: Expired due to Fees

First Claim

Patent Images

1. A liquid level sensor device comprising in combination:

(a) a tube, said tube being sealed at its bottom end and having an exterior threaded portion at its top end;

(b) a cap member having an interior threaded portion sized to screw tightly over the top threaded portion of said tube;

(c) a first means fop gripping wires, said first means being attached externally to near the top end of said tube;

(d) a float member, having a substantially annular, cylindrical form and sized to fit slidingly over the outside diameter axis of said tube;

said float member including a multiplicity of permanent magnets embedded in its periphery;

(e) a second means for electrical conduction disposed inside said tube for providing electrical signal connection to a top sensor circuit assembly inside said tube and to externally located equipments through said first means;

(f) a top sensor circuit assembly located inside said tube near said top end, comprising;

an RS-485 serial communication bus;

an interface connector for connecting said communication bus to said second means;

a multiplicity of reed switches that are arranged in two lines along the length of said top sensor circuit assembly, said reed switches being staggered along the length of said lines so that the center-to-center distance between reed switches is approximately 0.5 inches;

a third means for master control of said top sensor circuit assembly and all lower sensor circuit assemblies and for communication with an external computer, said third means including &

first microcomputer following a predetermined program which includes procedures for detection of faulty reed switches as well as reed switch status data collection, said reed switches having their output signals connected input to said first microcomputer; and

a fourth means for a power supply for all electrical circuits that are mounted on said top sensor circuit assembly; and

an interconnect connector for transmitting and receiving signals to and from lower sensor circuit assemblies, said interconnect connector being connected to said third means for master control;

(g) a multiplicity of lower sensor circuit assemblies located inside said tube below said top sensor circuit assembly, each lower sensor circuit assembly comprising;

a first interconnect connector for input/output signal electrical connection to the next circuit assembly that is connected above said lower sensor circuit, assembly;

a multiplicity of reed switches that are arranged in two lines along the length of said lower sensor circuit assembly, said reed switches being staggered along the length of said lines so that the center-to-center distance between reed switches is approximately 0.5 inches;

a second microcomputer for reed switch status data collection, following a predetermined program, and being electrically connected to the output signals of said reed switches and to said first interconnect connector for input/output signals; and

a fifth means for a power supply for all electrical circuits that are mounted on said lower sensor circuit assembly; and

a second interconnect connector for input/output signals electrical connection to the next circuit assembly connected below said lower sensor circuit assembly; and

(h) a sixth means for releasably connecting said sensor circuit assemblies by mechanical connection to each other, to permit bending of said sensor circuit assemblies at or near said mechanical connection without breakage of component parts;

said float member moving up and down with the liquid level of the container in which said sensor device is immersed, and interacting magnetically with said reed switches to activate them;

said first microcomputer, on said top sensor circuit assembly, initializing itself upon powering up, then reading its configuration data and scanning top sensor circuit reed switch and other sensor data, then polling each of the lower sensor circuit microcomputers in turn and receiving lower sensor circuit reed switch data, then communicating said reed switch data indicating a liquid level and any other sensor data obtained from all assemblies to an external computer over an RS-485 serial interface.

View all claims

2 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A liquid level sensor device, particularly adapted for use with corrosive and hazardous liquids such as oil, for measuring the liquid level in a storage tank or vessel. A tubular device is placed vertically in a liquid storage tank and senses the liquid level by having a float embedded with magnets move vertically along the axis of reed switches encased in the tubular device. The device contains temperature sensors to measure the temperature of the tank fluid, and microprocessors that scan the reed switches, transmitting data through a connector in the device top to a nearby computer for recording and transmission to a control and monitoring location. The electrical data system inside the device utilizes only two conductive trace runs throughout the device length to maximize reliability while minimizing the copper used. Special mechanical and electrical assembly connectors inside the device permit the device to flex safely in turbulent liquid conditions, without breakage.

59 Citations

View as Search Results

16 Claims

1. A liquid level sensor device comprising in combination:
- (a) a tube, said tube being sealed at its bottom end and having an exterior threaded portion at its top end;
  
  (b) a cap member having an interior threaded portion sized to screw tightly over the top threaded portion of said tube;
  
  (c) a first means fop gripping wires, said first means being attached externally to near the top end of said tube;
  
  (d) a float member, having a substantially annular, cylindrical form and sized to fit slidingly over the outside diameter axis of said tube;
  
  said float member including a multiplicity of permanent magnets embedded in its periphery;
  
  (e) a second means for electrical conduction disposed inside said tube for providing electrical signal connection to a top sensor circuit assembly inside said tube and to externally located equipments through said first means;
  
  (f) a top sensor circuit assembly located inside said tube near said top end, comprising;
  
  an RS-485 serial communication bus;
  
  an interface connector for connecting said communication bus to said second means;
  
  a multiplicity of reed switches that are arranged in two lines along the length of said top sensor circuit assembly, said reed switches being staggered along the length of said lines so that the center-to-center distance between reed switches is approximately 0.5 inches;
  
  a third means for master control of said top sensor circuit assembly and all lower sensor circuit assemblies and for communication with an external computer, said third means including &
  
  first microcomputer following a predetermined program which includes procedures for detection of faulty reed switches as well as reed switch status data collection, said reed switches having their output signals connected input to said first microcomputer; and
  
  a fourth means for a power supply for all electrical circuits that are mounted on said top sensor circuit assembly; and
  
  an interconnect connector for transmitting and receiving signals to and from lower sensor circuit assemblies, said interconnect connector being connected to said third means for master control;
  
  (g) a multiplicity of lower sensor circuit assemblies located inside said tube below said top sensor circuit assembly, each lower sensor circuit assembly comprising;
  
  a first interconnect connector for input/output signal electrical connection to the next circuit assembly that is connected above said lower sensor circuit, assembly;
  
  a multiplicity of reed switches that are arranged in two lines along the length of said lower sensor circuit assembly, said reed switches being staggered along the length of said lines so that the center-to-center distance between reed switches is approximately 0.5 inches;
  
  a second microcomputer for reed switch status data collection, following a predetermined program, and being electrically connected to the output signals of said reed switches and to said first interconnect connector for input/output signals; and
  
  a fifth means for a power supply for all electrical circuits that are mounted on said lower sensor circuit assembly; and
  
  a second interconnect connector for input/output signals electrical connection to the next circuit assembly connected below said lower sensor circuit assembly; and
  
  (h) a sixth means for releasably connecting said sensor circuit assemblies by mechanical connection to each other, to permit bending of said sensor circuit assemblies at or near said mechanical connection without breakage of component parts;
  
  said float member moving up and down with the liquid level of the container in which said sensor device is immersed, and interacting magnetically with said reed switches to activate them;
  
  said first microcomputer, on said top sensor circuit assembly, initializing itself upon powering up, then reading its configuration data and scanning top sensor circuit reed switch and other sensor data, then polling each of the lower sensor circuit microcomputers in turn and receiving lower sensor circuit reed switch data, then communicating said reed switch data indicating a liquid level and any other sensor data obtained from all assemblies to an external computer over an RS-485 serial interface.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The liquid level sensor device according to claim 1 wherein said tube and said cap member are made of a fiberglass material, resistant to corrosive fluid environments.
  - 3. The liquid level sensor device according to claim 1 wherein said float member is made of Nitrile rubber material which is resistant to corrosive fluid environments.
  - 4. The liquid level sensor device according to claim 1 wherein said top sensor circuit assembly includes a thermal sensor and a temperature signal conditioning circuit;
    - said thermal sensor being configured to make thermal conductive contact with the inside wall of said tube and to thereby conduct the temperature of the surrounding fluid to said temperature signal conditioning circuit, said temperature signal conditioning circuit having its output signal connected to said first microcomputer.
  - 5. The liquid level sensor device according to claim 1 wherein said lower sensor circuit assembly includes a thermal sensor and a temperature signal conditioning circuit;
    - said thermal sensor being configured to make thermal conductive contact with the inside wall of said tube and to thereby conduct the temperature of the surrounding fluid to said temperature signal conditioning circuit, said temperature signal conditioning circuit having its output signal connected to said second microcomputer.
  - 6. The liquid level sensor device according to claim 1 wherein said sixth means for releasably connecting said sensor circuit assemblies by mechanics connection to each other, includes three sets of screw fasteners and insulator spacers for each end of a sensor circuit assembly, said screw fasteners and spacers being located near an end of a first sensor circuit assembly and arranged in an "L" configuration with two fasteners and spacers located across the width of said first sensor circuit assembly and nearest to the assembly end, and a single fastener and spacer being located at a short distance along the assembly length, away from the assembly end;
    - each said screw fastener comprising a threaded screw and a threaded insert;
      
      each said threaded screw being inserted through a hole in said first sensor circuit assembly, through a spacer and through said threaded insert which is located in a hole in a second sensor circuit assembly which has its end overlapping the end of said first sensor circuit assembly;
      
      said spacers serving to keep said first and second sensor circuit assemblies rigidly separated by fixed space, so that;
      
      the fastened ends of said assemblies can not bend, and any bending will occur only just beyond the location of said single fastener and spacer; and
      
      wherein said interconnect connectors are located, one connector inside the assembly area held rigid by said screw fasteners and spacers, protecting said connector from bending forces.

7. A liquid level sensor device comprising in combination:
- (a) a tube, said tube being sealed at its bottom end and having an exterior threaded portion at its top end;
  
  (b) a cap member having an interior threaded portion sized to screw tightly over the top threaded portion of said tube;
  
  (c) a first means for gripping wires, said first means being attached externally to near the top end of said tube;
  
  (d) a float member, having a substantially annular, cylindrical form and sized to fit slidingly over the outside diameter axis of said tube;
  
  said float member including a multiplicity of permanent magnets embedded in its periphery;
  
  (e) a second means for electrical conduction disposed inside said tube for providing electrical signal connection to a top sensor circuit assembly inside said tube and to externally located equipments through said first means; and
  
  (f) a top sensor circuit assembly located inside said tube near said top end, comprisingan RS-485 serial communication bus;
  
  an interface connector for connecting said communication bus to said second means;
  
  a multiplicity of reed switches that are arranged in two lines along the length of said top sensor circuit assembly, said reed switches being staggered along the length of said lines so that the center-to-center distance between reed switches is approximately 0.5 inches;
  
  a third means for master control of said top sensor circuit assembly and any lower sensor circuit assemblies and for communication with an external computer, said third means including a first microcomputer following a predetermined program which includes procedures for detection of faulty reed switches as well as reed switch status data collection, said reed switches having their output signals connected input to said first microcomputer; and
  
  a fourth means for a power supply for all electrical circuits that are mounted on said top sensor circuit assembly;
  
  said float member moving up and down with the liquid level of the container in which said sensor device is immersed, and interacting magnetically with said reed switches to activate them;
  
  said first microcomputer, on said top sensor circuit assembly, initializing itself upon powering up, then reading its configuration data and scanning top sensor circuit reed switch and other sensor data, then communicating said reed switch data indicating a liquid level and any other sensor data obtained to an external computer over an RS-485 serial interface.
- View Dependent Claims (8, 9, 10)
- - 8. The liquid level sensor device according to claim 7 wherein said tube and said cap member are made of a fiberglass material, resistant to corrosive fluid environments.
  - 9. The liquid level sensor device according to claim 7 wherein said float member is made of Nitrile rubber material which is resistant to corrosive fluid environments.
  - 10. The liquid level sensor device according to claim 7 wherein said top sensor circuit assembly includes a thermal sensor and a temperature signal conditioning circuit;
    - said thermal sensor being configured to make thermal conductive contact with the inside wall of said tube and to thereby conduct the temperature of the surrounding fluid to said temperature signal conditioning circuit, said temperature signal conditioning circuit having its output signal connected to said first microcomputer.

11. A liquid level sensor device comprising in combination:
- a tube, said tube being sealed at its bottom end and having an exterior portion at its open top end prepared for sealing;
  
  a cap member and seals to attach to the top end of said tube, sealing it tightly;
  
  a first means for gripping wires, said first means being attached externally near said top end of said tube;
  
  a second means for transmission of electrical signals, connected to said first means and disposed inside said tube;
  
  a top sensor circuit assembly located inside said tube near said top end, comprising;
  
  a first circuit board, a first terminal connected to said second means, an RS-485 serial communication bus connected to said first terminal, a first microprocessor for master control of said top sensor circuit assembly and all lower sensor circuit assemblies, an RS-485 line driver circuit connected to said serial communication bus and to said first microprocessor, a multiplicity of magnetically sensitive switches arranged in two lines along the length of said first circuit board, said switches being located staggered along the length of said lines so that the center-to-center distance between switches is approximately 0.5 inches, said switches being connected to said first, microprocessor, a switch configuration circuit connected to the output signals of said magnetically sensitive switches and to said first microprocessor, a third means for a power supply for all electrical components mounted on said top sensor circuit assembly, and a second input/output terminal connected to said first microprocessor for transmitting and receiving signals from lower sensor circuit assemblies;
  
  a multiplicity of lower sensor circuit assemblies located inside said tube below said top sensor circuit assembly, each lower sensor circuit assembly comprising;
  
  a second circuit board, a third input/output terminal for connection to an input/output terminal on a sensor circuit assembly rotated above, a second microprocessor for control of all circuits on said lower sensor circuit assembly, a multiplicity of magnetically sensitive switches arranged in two lines along the length of said second circuit board, said switches being located staggered along the length of said lines so that the center-to-center distance between switches is approximately 0.5 inches, said switches being connected to said second microprocessor, a fourth means for a power supply for all electrical components that are mounted on said lower sensor circuit assembly, and a fourth input/output terminal connected to said second microprocessor and for connection to any sensor circuit assemblies located below said lower sensor circuit assembly;
  
  a fifth means for releasably connecting said upper and lower sensor circuit assemblies by mechanical connection to each other, holding the joint area rigidly and permitting application of bending forces without incurring component damage; and
  
  a float member, having a substantially annular form and sized to fit slidingly over the circumference of said tube said float member including a multiplicity of permanent magnets embedded in its periphery;
  
  said float member moving up and down with the liquid level of the container in which said sensor device is immersed, and interacting magnetically with said magnetically sensitive switches to activate them;
  
  said first microcomputer, on said top sensor circuit assembly, initializing itself upon powering up, then reading its configuration data and scanning top sensor circuit switch and other sensor data, then polling each of the lower sensor circuit microcomputers in turn and receiving lower sensor circuit switch data, then communicating said switch data indicating a liquid level and any other sensor data obtained from all assemblies to an external computer over an RS-485 serial interface.
- View Dependent Claims (12, 13, 14, 15, 16)
- - 12. The liquid level sensor device according to claim 11 wherein said tube and said cap member are made of a fiberglass material, resistant to corrosive fluid environments.
  - 13. The liquid level sensor device according to claim 11 wherein said float member is made of Nitrile rubber material which is resistant to corrosive fluid environments.
  - 14. The liquid level sensor device according to claim 11 wherein said top sensor circuit assembly includes a thermal sensor and a temperature signal conditioning circuit;
    - said thermal sensor being configured to make thermal conductive contact with the inside wall of said tube and to thereby conduct the temperature of the surrounding fluid to said temperature signal conditioning circuit, said temperature signal conditioning circuit having its output signal connected to said first microcomputer.
  - 15. The liquid level sensor device according to claim 11 wherein said lower sensor circuit assembly includes a thermal sensor and a temperature signal conditioning circuit;
    - said thermal sensor being configured to make thermal conductive contact with the inside wall of said tube and to thereby conduct the temperature of the surrounding fluid to said temperature signal conditioning circuit, said temperature signal conditioning circuit having its output, signal connected to said second microcomputer.
  - 16. The liquid level sensor device according to claim 11wherein said fifth means for releasably connecting said sensor circuit assemblies by mechanical connection to each other, includes three sets of screw fasteners and insulator spacers for each end of a sensor circuit assembly, said screw fasteners and spacers being located near an end of a first sensor circuit assembly and arranged in an "L" configuration with two fasteners and spacers located across the width of said first sensor circuit assembly and nearest to the assembly end, and s single fastener and spacer being located at a short distance along the assembly length, away from the assembly end;
    - each said screw fastener comprising a threaded screw and a threaded insert;
      
      each said threaded screw being inserted through a hole in said first sensor circuit assembly, through a spacer and through said threaded insert which is located in a hole in a second sensor circuit assembly which has its end overlapping the end of said first sensor circuit assembly;
      
      said spacers serving to keep said first and second sensor circuit assemblies rigidly separated by a fixed space, so that the fastened ends of said assemblies can not bend, and any bending will occur only just beyond the location of said single fastener and spacer; and
      
      wherein said interconnect connectors are located, one connector inside the assembly area held rigid by said screw fasteners and spacers, protecting said connector from bending forces.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Power Paragon, Inc. (L3Harris Technologies, Inc.)
Original Assignee
Power Paragon, Inc. (L3Harris Technologies, Inc.)
Inventors
Besprozvanny, Leonid R., Ball, Alan R.
Primary Examiner(s)
Mullen, Thomas
Assistant Examiner(s)
GOINS, DAVETTA WOODS

Application Number

US08/657,369
Time in Patent Office

337 Days
Field of Search

340/623, 340/618, 340/624, 340/612, 73/290 R, 73/305, 73/304, 73/306, 73/307, 73/308, 73/313, 116/109, 116/110
US Class Current

340/623
CPC Class Codes

G01F 23/72 using magnetically actuated...

G01F 23/74 for sensing changes in leve...

Liquid level sensor device

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

59 Citations

16 Claims

Specification

Use Cases

Quick Links

Others

Liquid level sensor device

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

59 Citations

16 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others