Sensitivity test system for photoelectric smoke detector

US 5,473,167 A
Filed: 01/21/1994
Issued: 12/05/1995
Est. Priority Date: 01/21/1994
Status: Expired due to Term

First Claim

Patent Images

1. A photoelectric smoke detector comprising;

a source of radiant energy;

a sensor of scattered radiant energy;

control circuitry coupled to said sensor for determining when an output from said sensor indicates an alarm condition wherein said circuitry has a quiescent state associated with a first level of scattered radiant energy and an alarm state; and

a test circuit for increasing a sensitivity parameter of the detector, said test circuit including a manually operable switch with a normal state and a test state in combination with an element from a class including a gain altering circuit and a bias altering circuit wherein said control circuitry enters the alarm state from the quiescent state in the presence of said first level of scattered radiant energy in response to said switch being placed in the test state and enters the quiescent state from the alarm state in response to said switch being placed in the normal state.

View all claims

7 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A photoelectric smoke detector has test circuitry for testing the detector by increasing the sensitivity thereof. The sensitivity is increased by either altering a bias condition of a photosensor or by altering a gain parameter of the detector. The detector returns to a quiescent state when the sensor returns to its original bias condition or when the gain parameter returns to its quiescent value.

18 Citations

View as Search Results

7 Claims

1. A photoelectric smoke detector comprising;
- a source of radiant energy;
  
  a sensor of scattered radiant energy;
  
  control circuitry coupled to said sensor for determining when an output from said sensor indicates an alarm condition wherein said circuitry has a quiescent state associated with a first level of scattered radiant energy and an alarm state; and
  
  a test circuit for increasing a sensitivity parameter of the detector, said test circuit including a manually operable switch with a normal state and a test state in combination with an element from a class including a gain altering circuit and a bias altering circuit wherein said control circuitry enters the alarm state from the quiescent state in the presence of said first level of scattered radiant energy in response to said switch being placed in the test state and enters the quiescent state from the alarm state in response to said switch being placed in the normal state.
- View Dependent Claims (2, 3)
- - 2. A detector as in claim 1 wherein said bias altering circuit increases the sensitivity parameter of the unit thereby creating an alarm condition for test purposes in the absence of a sufficient level of products of combustion to create an alarm condition when said switch is in said test state.
  - 3. A detector as in claim 1 wherein said sensor is biased to said quiescent, non-alarm, state in part by a first, bias establishing, resistor coupled thereto, when said test switch is in said normal state and wherein said sensor is biased to an alarm state by a second, bias altering resistor coupled to said test switch, when said switch is in said test state such that said level of scattered radiant energy which is incident on said sensor, when said switch is in said normal state, and which is insufficient to cause said control circuitry to indicate an alarm condition, will cause said control circuitry to indicate an alarm condition when said switch is in said test state.

4. A method of testing a photoelectric smoke detector comprising:
- generating a beam of radiant energy;
  
  detecting a scattered portion of the beam;
  
  establishing a non-alarm condition based on a first level of detected scattered energy;
  
  establishing an alarm condition based on a second level of detected scattered energy being indicative of a predetermined level of combustion;
  
  testing the detector by manually altering, in the detecting step, a selected condition wherein the detector enters an alarm state in response to the test condition without altering the radiant energy beam and in response to the first level of scattered energy.

5. A photoelectric smoke detector comprising;
- a source of radiant energy;
  
  a sensor of scattered radiant energy;
  
  control circuitry coupled to said sensor for determining when an output from said sensor indicates an alarm condition wherein said circuitry has a quiescent state and alarm state; and
  
  a test circuit for altering a quiescent state, bias condition of said sensor for increasing a sensitivity parameter of the detector, said test circuit including a bias altering circuit and a manually operable switch with a normal state and a test state wherein said switch is coupled to said bias altering circuit, wherein said bias altering circuit is coupled to said sensor and wherein said quiescent state bias condition of said sensor is altered when said switch is in said test state thereby increasing said sensitivity parameter and as a result, said control circuitry enters said alarm state from said quiescent state and wherein said quiescent state bias condition returns, causing said control circuitry to return to said quiescent state from said alarm state, in response to said switch being placed in said normal state.

6. A photoelectric smoke detector comprising:
- a source of radiant energy which emits light;
  
  a sensor of scattered light;
  
  a control circuit coupled to said source and said sensor wherein said circuit establishes a sensitivity parameter value for a normal, non-alarm condition in response to a predetermined non-alarm level of scattered light and wherein said circuit establishes an alarm condition in response to an alarm-indicating level of scattered light which is greater than said non-alarm level of scattered light; and
  
  a test circuit coupled to said control circuit, for intermittently causing said control circuit to enter said alarm condition by increasing said sensitivity parameter value, in response to said non-alarm level of scattered light, wherein said test circuit includes a test switch having a normal state, corresponding to said non-alarm condition and a test state wherein said test state does not alter said non-alarm level of scattered light, and wherein when said switch is in said test state, said value of said parameter sensitivity is increased thereby causing said control circuit to enter said alarm condition in the presence of said non-alarm level of scattered light.

7. A method of testing a photoelectric smoke detector comprising:
- generating a beam of radiant energy;
  
  detecting a scattered portion of the radiant energy beam;
  
  establishing a non-alarm condition based on detecting a first level of scattered radiant energy;
  
  establishing an alarm condition based on detecting a second, higher, level of scattered radiant energy, indicative of a predetermined level of combustion;
  
  testing the detector by manually altering, in the detecting step, a selected parameter used in establishing the non-alarm condition wherein the detector enters an alarm state in response to testing while still detecting the first level of scattered radiant energy.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
BRK Brands Incorporated (Newell Brands Inc.)
Original Assignee
BRK Brands Incorporated (Newell Brands Inc.)
Inventors
Minnis, David A.
Primary Examiner(s)
Allen, Stephone B.

Application Number

US08/184,208
Time in Patent Office

683 Days
Field of Search

250/573, 250/574, 250/575, 340/628, 340/629, 340/630, 356/438
US Class Current

250/573
CPC Class Codes

G08B 29/14 checking the detection circ...

Sensitivity test system for photoelectric smoke detector

First Claim

7 Assignments

0 Petitions

Accused Products

Abstract

18 Citations

7 Claims

Specification

Solutions

Use Cases

Quick Links

Sensitivity test system for photoelectric smoke detector

First Claim

7 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

18 Citations

7 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links