Intelligent temperature and pressure gauge assembly

US 10,352,801 B2
Filed: 05/10/2017
Issued: 07/16/2019
Est. Priority Date: 05/10/2016
Status: Active Grant

First Claim

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1. A hazard suppression system, comprising:

a vessel adapted to contain hazard suppression material under pressure, and a selectively openable outlet;

apparatus operably coupled with said outlet for delivery of said hazard suppression material to an area to be protected against hazard; and

a gauge assembly operable to monitor temperature and pressure of said hazard suppression material within said vessel over time,said gauge assembly including structure operable to repeatedly sense the temperature and pressure of said hazard suppression material within said vessel, a digital processor configured to access a library of empirical data including normalized linear pressure curves for the hazard suppression material at different temperatures and nonlinear pressure curves representative of pressures experienced during rapid temperature changes of the hazard suppression material, the digital processor being configured to compare sensed temperature and pressure values with said library of empirical data for said hazard suppression material to determine if the sensed temperature and pressure values are consistent with said library of empirical data, and provide an output in conformity with the comparison.

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Abstract

Intelligent temperature and pressure gauge assemblies (52) for use with vessels (24) having pressurized hazard suppression materials therein include temperature and pressure sensors (136, 138) coupled with a digital processor (72) with associated memory for storing empirical temperature and pressure data. The data includes normalized linear temperature-pressure curves consistent with static or slowly changing temperature conditions experienced by the vessels (24), as well as nonlinear temperature-pressure curves consistent with rapidly changing temperature conditions. In use, the assemblies (52) repeatedly sense temperature and pressure conditions of the hazard suppression material and compare sensed values with stored values, and generate an output in conformance with the comparison. In this fashion, the assemblies (52) compensate for rapidly changing temperatures without generating false failure signals.

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34 Claims

1. A hazard suppression system, comprising:
- a vessel adapted to contain hazard suppression material under pressure, and a selectively openable outlet;
  
  apparatus operably coupled with said outlet for delivery of said hazard suppression material to an area to be protected against hazard; and
  
  a gauge assembly operable to monitor temperature and pressure of said hazard suppression material within said vessel over time,said gauge assembly including structure operable to repeatedly sense the temperature and pressure of said hazard suppression material within said vessel, a digital processor configured to access a library of empirical data including normalized linear pressure curves for the hazard suppression material at different temperatures and nonlinear pressure curves representative of pressures experienced during rapid temperature changes of the hazard suppression material, the digital processor being configured to compare sensed temperature and pressure values with said library of empirical data for said hazard suppression material to determine if the sensed temperature and pressure values are consistent with said library of empirical data, and provide an output in conformity with the comparison.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The system of claim 1, said vessel adapted to hold material selected from the group consisting of HFC-125, HFC-227ea, FK-5-1-12, HFO-1233zd (E), IG-55, IG-541, IG-100, and IG-01, and mixtures thereof.
  - 3. The system of claim 1, said gauge assembly comprising a strain gauge pressure-sensing component.
  - 4. The system of claim 1, said gauge assembly having memory which stores said library of empirical data for said material.
  - 5. The system of claim 4, said memory resident on a circuit board including said digital processor.
  - 6. The system of claim 1, said gauge assembly further including structure operable to generate said output as a wireless signal.
  - 7. The system of claim 1, said gauge assembly including a visual screen operable to display said output.

8. A combination comprising:
- a vessel adapted to contain hazard suppression material under pressure, and a selectively openable outlet for delivery of said material from the vessel; and
  
  a gauge assembly operable to monitor temperature and pressure of said hazard suppression material within said vessel over time,said gauge assembly including structure operable to repeatedly sense the temperature and pressure of said hazard suppression material within said vessel, a digital processor configured to access a library of empirical data including normalized linear pressure curves for the hazard suppression material at different temperatures and nonlinear pressure curves representative of pressures experienced during rapid temperature changes of the hazard suppression material, the digital processor being configured to compare sensed temperature and pressure values with said library of empirical data for said material to determine if the sensed temperature and pressure values are consistent with said library of empirical data, and provide an output in conformity with the comparison.
- View Dependent Claims (9, 10, 11, 12, 13, 14)
- - 9. The combination of claim 8, said vessel adapted to hold material selected from the group consisting of HFC-125, HFC-227ea, FK-5-1-12, HFO-1233zd (E), IG-55, IG-541, IG-100, and IG-01, and mixtures thereof.
  - 10. The combination of claim 8, said gauge assembly comprising a strain gauge pressure-sensing component.
  - 11. The combination of claim 8, said gauge assembly having memory which stores said library of empirical data for said material.
  - 12. The combination of claim 11, said memory resident on a circuit board including said digital processor.
  - 13. The combination of claim 8, said gauge assembly further including structure operable to generate said output as a wireless signal.
  - 14. The combination of claim 8, said gauge assembly including a visual screen operable to display said output.

15. A gauge assembly adapted for coupling with a vessel designed to contain hazard suppression material under pressure, said gauge assembly including structure operable to repeatedly sense temperature and pressure of the material within said vessel, a digital processor configured to access a library of empirical data including normalized linear pressure curves for the hazard suppression material at different temperatures and nonlinear pressure curves representative of pressures experienced during rapid temperature changes of the hazard suppression material, the digital processor being configured to compare sensed temperature and pressure values with said library of empirical data to determine if the sensed temperature and pressure values are consistent with said library of empirical data, and provide an output in conformity with the comparison.
- View Dependent Claims (16, 17, 18, 19, 20, 21)
- - 16. The assembly of claim 15, said vessel adapted to hold material selected from the group consisting of HFC-125, HFC-227ea, FK-5-1-12, HFO-1233zd (E), IG-55, IG-541, IG-100, and IG-01, and mixtures thereof.
  - 17. The assembly of claim 15, said gauge assembly comprising a strain gauge pressure-sensing component.
  - 18. The assembly of claim 15, said gauge assembly having memory which stores said library of empirical data for said material and a time at which the temperature and pressure values were taken.
  - 19. The assembly of claim 18, said memory resident on said circuit board including a digital processor.
  - 20. The assembly of claim 15, said gauge assembly further including structure operable to generate said output as a wireless signal.
  - 21. The assembly of claim 15, said gauge assembly including a visual screen operable to display said output.

22. A method of monitoring a vessel containing hazard suppression material under pressure, said method comprising steps of:
- repeatedly sensing temperature and pressure of the material within said vessel;
  
  comparing sensed temperature and pressure values of the material within said vessel with a library of empirical data including normalized linear pressure curves for the hazard suppression material at different temperatures and nonlinear pressure curves representative of pressures experienced during rapid temperature changes of the hazard suppression material, and determining if said sensed temperature and pressure values are consistent with said library of empirical data; and
  
  providing an output in conformity with said comparison.
- View Dependent Claims (23, 24, 25, 26)
- - 23. The method of claim 22, including the step of measuring the pressure of said material within said vessel using a strain gauge pressure-sensing component.
  - 24. The method of claim 22, including steps of storing said library of empirical data in memory, storing said sensed temperature and pressure values in memory along with a time at which said sensed temperature and pressure values were taken, and comparing said library of empirical data with said sensed values.
  - 25. The method of claim 22, including the step of generating a wireless signal of said output.
  - 26. The method of claim 22, including the step of generating a visual display of said output.

27. A hazard suppression system, comprising:
- a vessel adapted to contain a liquid hazard suppression material including a gaseous propellant under pressure, and a selectively openable outlet;
  
  apparatus operably coupled with said outlet for delivery of said hazard suppression material to an area to be protected against hazard; and
  
  a gauge assembly operable to monitor temperature and pressure of said hazard suppression material within said vessel over time,said gauge assembly including structure operable to repeatedly sense the temperature and pressure of said hazard suppression material within said vessel, compare sensed temperature and pressure values with previously determined temperature and pressure values for said hazard suppression material to determine if the sensed temperature and pressure values are consistent with the previously determined values, and provide an output in conformity with the comparison,at least certain of the previously determined values representing pressure conditions resulting from the sorption of the gaseous propellant into the liquid hazard suppression material or desorption of the gaseous propellant from the liquid hazard suppression material due to a rapid change in temperature of the liquid hazard suppression material.

28. A combination comprising:
- a vessel adapted to contain a liquid hazard suppression material including a gaseous propellant under pressure, and a selectively openable outlet for delivery of said material from the vessel; and
  
  a gauge assembly operable to monitor temperature and pressure of said hazard suppression material within said vessel over time,said gauge assembly including structure operable to repeatedly sense the temperature and pressure of said hazard suppression material within said vessel, compare sensed temperature and pressure values with previously determined temperature and pressure values for said material to determine if the sensed temperature and pressure values are consistent with the previously determined values, and provide an output in conformity with the comparison,at least certain of the previously determined values representing pressure conditions resulting from the sorption of the gaseous propellant into the liquid hazard suppression material or desorption of the gaseous propellant from the liquid hazard suppression material due to a rapid change in temperature of the liquid hazard suppression material.

29. A gauge assembly adapted for coupling with a vessel designed to contain a liquid hazard suppression material including a gaseous propellant under pressure, said gauge assembly including structure operable to repeatedly sense temperature and pressure of the material within said vessel, compare sensed temperature and pressure values with previously determined temperature and pressure values for the material to determine if the sensed temperature and pressure values are consistent with the previously determined values, and provide an output in conformity with the comparison, at least certain of the previously determined values representing pressure conditions resulting from the sorption of the gaseous propellant into the liquid hazard suppression material or desorption of the gaseous propellant from the liquid hazard suppression material due to a rapid change in temperature of the liquid hazard suppression material.

30. A method of monitoring a vessel containing liquid hazard suppression material including a gaseous propellant under pressure, said method comprising steps of:
- repeatedly sensing temperature and pressure of the material within said vessel;
  
  comparing sensed temperature and pressure values of the material within said vessel with previously determined expected temperature and pressure values for said material, and determining if said sensed temperature and pressure values are consistent with said expected values, at least certain of the expected values representing pressure conditions resulting from the sorption of the gaseous propellant into the liquid hazard suppression material or desorption of the gaseous propellant from the liquid hazard suppression material due to a rapid change in temperature of the liquid hazard suppression material; and
  
  providing an output in conformity with said comparison.

31. A hazard suppression system, comprising:
- a vessel adapted to contain hazard suppression material under pressure, and a selectively openable outlet;
  
  apparatus operably coupled with said outlet for delivery of said hazard suppression material to an area to be protected against hazard; and
  
  a gauge assembly operable to monitor temperature and pressure of said hazard suppression material within said vessel over time,said gauge assembly including structure operable to repeatedly sense the temperature and pressure of said hazard suppression material within said vessel, compare sensed temperature and pressure values with previously determined temperature and pressure values for said hazard suppression material to determine if the sensed temperature and pressure values are consistent with the previously determined values, and provide an output in conformity with the comparison, said gauge assembly having memory operable to store information about a true internal volume of said vessel.

32. A combination comprising:
- a vessel adapted to contain hazard suppression material under pressure, and a selectively openable outlet for delivery of said material from the vessel; and
  
  a gauge assembly operable to monitor temperature and pressure of said hazard suppression material within said vessel over time,said gauge assembly including structure operable to repeatedly sense the temperature and pressure of said hazard suppression material within said vessel, compare sensed temperature and pressure values with previously determined temperature and pressure values for said material to determine if the sensed temperature and pressure values are consistent with the previously determined values, and provide an output in conformity with the comparison, said gauge assembly having memory operable to store information about a true internal volume of said vessel.

33. A gauge assembly adapted for coupling with a vessel designed to contain hazard suppression material under pressure, said gauge assembly including structure operable to repeatedly sense temperature and pressure of the material within said vessel, compare sensed temperature and pressure values with previously determined temperature and pressure values for the material to determine if the sensed temperature and pressure values are consistent with the previously determined values, and provide an output in conformity with the comparison, said gauge assembly having memory operable to store information about a true internal volume of said vessel.

34. A method of monitoring a vessel containing hazard suppression material under pressure, said method comprising steps of:
- repeatedly sensing temperature and pressure of the material within said vessel;
  
  comparing sensed temperature and pressure values of the material within said vessel with previously determined expected temperature and pressure values for said material, and determining if said sensed temperature and pressure values are consistent with said expected values;
  
  providing an output in conformity with said comparison; and
  
  storing information about a true internal volume of said vessel in said memory.

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Current Assignee
Fike Corporation
Original Assignee
Fike Corporation
Inventors
Stilwell, Bradford T., Shaw, Bon F., Abraham, Skaria, Patel, Devang, Kendall, Mark, Leap, Amos, Tesfaye, Yilak
Primary Examiner(s)
Ha, Nguyen Q.

Application Number

US15/591,349
Publication Number

US 20170328799A1
Time in Patent Office

797 Days
Field of Search
US Class Current
CPC Class Codes

A62C 35/023   the extinguishing material ...

A62C 35/13   with a finite supply of ext...

A62C 35/68   Details, e.g. of pipes or v...

A62C 37/50   Testing or indicating devic...

A62C 99/0018   using gases or vapours that...

F17C 13/025   having the pressure as the ...

F17C 13/026   having the temperature as t...

F17C 2201/058   portable (<30 l)

F17C 2250/032   using computers

F17C 2250/034   using wireless transmissions

F17C 2250/036   using alarms

F17C 2250/0434   Pressure difference

F17C 2250/0439   Temperature

F17C 2270/0754   Fire extinguishers

G01L 19/0092   Pressure sensor associated ...

G01L 9/0051   using variations in ohmic r...

G01L 9/006   of metallic strain gauges f...

G01L 9/045   with electric temperature c...

Intelligent temperature and pressure gauge assembly

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

24 Citations

34 Claims

Specification

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Intelligent temperature and pressure gauge assembly

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

24 Citations

34 Claims

Specification

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Solutions

Use Cases

Quick Links