Non-invasive quantitative method for fit testing respirators and corresponding respirator apparatus
First Claim
1. A non-invasive, quantitative method for fit testing a face mask respirator to an end user, comprising:
- (1) donning a face mask respirator forming a respirator cavity of known volume with the face of an end user;
(2) sealing all known inlets into said face mask respirator;
(3) creating a negative pressure within said respirator cavity;
(4) recording the pressure within said respirator cavity with respect to time while a negative pressure exists within said cavity; and
(5) determining a non-dimensional quantitative fit factor based upon the recorded pressure change for the known respirator cavity volume for a specific period of time whereby to indicate the degree of protection provided by the face mask respirator to the end user, said quantitative fit factor being defined by ##EQU7## where P1 =initial pressure in respirator cavity at time t1P2 =pressure in respirator cavity at time t2t1 =initial timet2 =10 to 60 seconds after t1t=total time of negative pressure in respirator cavity (10 to 60 seconds), fixed for all determinations.
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Abstract
A method and apparatus for conducting the method is disclosed for non-invasive, quantitative respirator fit testing. The method includes the step of having the wearer properly position the respirator over his nose and mouth, inhale to create a negative pressure inside the respirator cavity volume, hold his breath and record the pressure differential versus time decay rate between the pressure inside the respirator cavity volume and that of the surrounding environment. The method may also include establishing a leakhole of known dimension, repeating the above steps and determining the volume of the respirator cavity based upon the results of the recorded differential pressure versus time by comparing the result to calibration curves.
The apparatus of the present invention includes modifying a conventional face mask respirator by providing the respirator with a pressure sensor and a leakhole of known dimension. Preferably, the apparatus can also include a calculator to continuously calculate a quantitative factor to indicate the degree of protection, which is based upon the volume of the respirator cavity divided by the volumetric flow rate through the leakhole or holes of unknown dimension and location for a standard unit of time, given an initial negative pressure in the respirator cavity.
95 Citations
10 Claims
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1. A non-invasive, quantitative method for fit testing a face mask respirator to an end user, comprising:
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(1) donning a face mask respirator forming a respirator cavity of known volume with the face of an end user; (2) sealing all known inlets into said face mask respirator; (3) creating a negative pressure within said respirator cavity; (4) recording the pressure within said respirator cavity with respect to time while a negative pressure exists within said cavity; and (5) determining a non-dimensional quantitative fit factor based upon the recorded pressure change for the known respirator cavity volume for a specific period of time whereby to indicate the degree of protection provided by the face mask respirator to the end user, said quantitative fit factor being defined by ##EQU7## where P1 =initial pressure in respirator cavity at time t1 P2 =pressure in respirator cavity at time t2 t1 =initial time t2 =10 to 60 seconds after t1 t=total time of negative pressure in respirator cavity (10 to 60 seconds), fixed for all determinations. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10)
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2. A non-invasive, quantitative method for determining the volume of a respirator cavity formed by a face mask respirator when worn by an end user, comprising:
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(1) donning a face mask respirator forming a respirator cavity of unknown volume with the face of a end user and having a sealable leakhole of known dimensions communicating with said face mask respirator cavity; (2) sealing all known inlets into said face mask respirator; (3) creating a negative pressure within said respirator cavity; (4) opening said leakhole and recording the pressure within said respirator cavity with respect to time while a negative pressure exists within said cavity; and (5) determining the volume of said respirator cavity by plotting a graph of recorded pressure change versus time obtained by the step of recording the pressure with respect to time for said leakhole of known dimensions and comparing the slope of said pressure change to a series of slopes of known volumes on a calibration graph.
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3. A non-invasive, quantitative method for fit testing a face mask respirator to an end user comprising:
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(1) donning a face mask respirator forming a respirator cavity of unknown volume with the face of the end user, said respirator having a sealable leakhole of known dimensions communicating with said respirator cavity; (2) sealing all known inlets into said respirator; (3) creating a negative pressure within said respirator cavity; (4) recording the pressure within said respirator cavity with respect to time while a negative pressure exists within said cavity; (5) plotting a graph of recorded pressure change versus time obtained by the step of recording the pressure within said respirator cavity with respect to time and deetermining the slope of said pressure change; (6) recreating a negative pressure within said respirator cavity; (7) opening said leakhole and recording the pressure within said respirator cavity with respect to time while a negative pressure exists within said cavity and plotting a graph of recorded pressure change versus time; (8) determining the volume of said respirator cavity when unknown leakages are not minor, by comparing the slope of said graph obtained by step (7) minus the slope of said graph obtained by step (5) to a series of slopes of known volume on a calibration graph, and by selecting the volume from said series of slopes which most closely approximate said slope obtained by step (7) minus said slope obtained by step (5); and (9) determining a non-dimensional quantitative fit factor based upon recorded pressure change for the determined respirator cavity volume for a specific period of time whereby to indicate the degree of protection provided by the face mask respirator to the end user, said quantitative fit factor being defined by ##EQU8## where;
P1 =initial pressure in respirator cavity at time t.F2 =pressure in respirator cavity at time t2 t1 =initial time t2 =10 to 60 seconds after t1 t=total time of negative pressure in respirator cavity (10 to 60 seconds), fixed for all determinations.
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Specification