Rate of rise detector for use with explosion detection suppression equipment

US 6,031,462 A
Filed: 11/03/1998
Issued: 02/29/2000
Est. Priority Date: 11/03/1998
Status: Expired due to Fees

First Claim

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1. A method of calculating the rate at which a parameter rises in an enclosed area, the method comprising the steps of:

a. measuring the parameter with a sensor to generate a sensor signal representative of the parameter;

b. periodically sampling the sensor signal to obtain a number of successive sampled measurements;

c. successively storing the sampled measurements in a memory;

d. averaging the stored measurements at a pre-determined time interval to obtain a mean value;

e. storing the mean value in the memory;

f. repeating steps (b)-(e) to obtain and store a number of successive mean values in the memory; and

g. calculating the rate at which the parameter rises in the enclosed area by comparing at least two of the mean values.

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Abstract

A rate of rise detector assembly (16) for use with explosion suppression equipment (14,18). The detector assembly includes a pressure sensor or transducer (20) and a controller (22). The pressure transducer continuously measures the pressure in a protected area and sends signals representative of the pressure to the controller. The controller samples the transducer every 200 μSec to obtain a series of successive pressure measurements. The sampled pressure measurements are then stored in a memory table (28) having five positions. Each time the table is filled, the five pressure measurements are averaged to obtain an integrated mean pressure value having a sample time of 1 mSec and then erased from the table so that it can be filled with subsequent measurements. This results in the calculation of a series of mean pressure values each having a sample time of 1 mSec. The mean pressure values are each stored in a line of an ROR (rate of rise) table (34) having between 5 and 25 positions each corresponding to a 1 mSec time period. The mean pressure values are stored in the table starting at the top until the table overflows, at which time the mean pressure values beginning at the top of the table are overwritten with new mean pressure values. When the table has been filled, the latest value written in the table is always the mean pressure value for the most current mSec period and the value below it in the table is always the mean pressure value that was measured "dt" times before (5-25 mSec before, depending on the length of the table). The controller calculates a dP/dt validation value every mSec by taking the most recent mean pressure value in the table and subtracting the mean pressure value that is in the next lower line of the table and dividing this difference by the dt value. The controller compares the calculated dP/dt values to a pre-determined threshold dP/dt rate and triggers the explosion suppression equipment if any of the calculated dP/dt validation values exceed the threshold rate.

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20 Claims

1. A method of calculating the rate at which a parameter rises in an enclosed area, the method comprising the steps of:
- a. measuring the parameter with a sensor to generate a sensor signal representative of the parameter;
  
  b. periodically sampling the sensor signal to obtain a number of successive sampled measurements;
  
  c. successively storing the sampled measurements in a memory;
  
  d. averaging the stored measurements at a pre-determined time interval to obtain a mean value;
  
  e. storing the mean value in the memory;
  
  f. repeating steps (b)-(e) to obtain and store a number of successive mean values in the memory; and
  
  g. calculating the rate at which the parameter rises in the enclosed area by comparing at least two of the mean values.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The method as set forth in claim 1, step (g) comprising the step of determining the difference between a mean value that has been in the memory the longest amount of time and a mean value that has been in the memory the shortest amount of time and dividing the difference by the number of mean values in the memory.
  - 3. The method as set forth in claim 2, further including the step of comparing the calculated rate to a pre-determined threshold rate and triggering suppression equipment if the calculated rate exceeds the threshold rate.
  - 4. The method as set forth in claim 1, wherein step (b) comprises sampling the sensor signal approximately every 200 μ
    - Sec.
  - 5. The method as set forth in claim 1, step (c) comprising storing the sampled measurements in a first memory table until five measurements have been stored.
  - 6. The method as set forth in claim 5, step (d) comprising averaging the five stored measurements to obtain the mean measurement.
  - 7. The method as set forth in claim 5, wherein approximately 5-25 of the mean values are stored in a second memory table.
  - 8. The method as set forth in claim 7, further including the step of continuously updating the second memory table after the 5-25 mean values have been stored by successively replacing the mean value that has been in the second memory table the longest with the most current mean value.
  - 9. The method as set forth in claim 1, the parameter being pressure in the enclosed area.
  - 10. The method as set forth in claim 1, the sensor comprising a pressure sensor.

11. A rate of rise detector for detecting when a measured parameter in an enclosed area rises at an unsafe rate, the detector comprising:
- a sensor for measuring the parameter and generating a sensor signal representative of the parameter; and
  
  a controller operably coupled with the sensor and configured to;
  
  periodically sample the sensor signal to obtain a plurality of successive sampled measurements;
  
  store the sampled measurements in a memory;
  
  average the stored measurements at pre-determined time intervals to obtain a series of successive mean values;
  
  store the mean values in the memory; and
  
  calculate the rate at which the parameter rises by comparing at least two of the mean values.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 12. The detector as set forth in claim 11, the controller further being operable to compare the calculated rate to a pre-determined threshold rate and to trigger suppression equipment when the calculated rate exceeds the threshold rate.
  - 13. The detector as set forth in claim 11, the controller being further operable to calculate the rate by determining the difference between the mean value that has been in the memory the longest amount of time and the mean value that has been in the memory the shortest amount of time and dividing the difference by the number of mean values in the memory.
  - 14. The detector as set forth in claim 11, the controller further being operable to sample the sensor signal approximately every 200 μ
    - Sec.
  - 15. The detector as set forth in claim 11, the controller further being operable to store the sampled measurements in a first memory table until five measurements have been stored.
  - 16. The detector as set forth in claim 15, the controller further being operable to average the five stored measurements to obtain the mean values.
  - 17. The detector as set forth in claim 15, the controller further being operable to store approximately 5-25 of the mean values in a second memory table.
  - 18. The detector as set forth in claim 17, the controller further being operable to continuously update the second memory table after the 5-25 mean values have been stored by successively replacing the mean value that has been in the second memory table the longest with the most current mean value.
  - 19. The detector as set forth in claim 11, the parameter being pressure in the enclosed area.
  - 20. The detector as set forth in claim 19, the sensor comprising a pressure sensor.

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Current Assignee
Fike Corporation
Original Assignee
Fike Corporation
Inventors
De Vries, Sven J. R., Van den Schoor, Marc
Primary Examiner(s)
Lefkowitz, Edward

Application Number

US09/185,461
Time in Patent Office

483 Days
Field of Search

340/603, 340/626, 702/98, 702/138, 702/140, 73/1.57, 73/1.71, 73/23.29, 73/31.04
US Class Current

340/626
CPC Class Codes

G08B 21/12 responsive to undesired emi...

G08B 21/16 Combustible gas alarms

Rate of rise detector for use with explosion detection suppression equipment

First Claim

1 Assignment

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Accused Products

Abstract

32 Citations

20 Claims

Specification

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Rate of rise detector for use with explosion detection suppression equipment

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

32 Citations

20 Claims

Specification

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Solutions

Use Cases

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