US2300273A - Respirator - Google Patents

Respirator Download PDF

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US2300273A
US2300273A US323640A US32364040A US2300273A US 2300273 A US2300273 A US 2300273A US 323640 A US323640 A US 323640A US 32364040 A US32364040 A US 32364040A US 2300273 A US2300273 A US 2300273A
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capacity
valve
oxygen
reservoir
breathing
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US323640A
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Connell Karl
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Airco Inc
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Air Reduction Co Inc
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    • AHUMAN NECESSITIES
    • A62LIFE-SAVING; FIRE-FIGHTING
    • A62BDEVICES, APPARATUS OR METHODS FOR LIFE-SAVING
    • A62B7/00Respiratory apparatus
    • A62B7/14Respiratory apparatus for high-altitude aircraft
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16KVALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
    • F16K2200/00Details of valves
    • F16K2200/30Spring arrangements
    • F16K2200/302Plurality of biasing means, e.g. springs, for opening or closing single valve member
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/7722Line condition change responsive valves
    • Y10T137/7771Bi-directional flow valves
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/7722Line condition change responsive valves
    • Y10T137/7837Direct response valves [i.e., check valve type]
    • Y10T137/7879Resilient material valve
    • Y10T137/7888With valve member flexing about securement
    • Y10T137/7891Flap or reed
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/7722Line condition change responsive valves
    • Y10T137/7837Direct response valves [i.e., check valve type]
    • Y10T137/7904Reciprocating valves
    • Y10T137/7905Plural biasing means
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/7722Line condition change responsive valves
    • Y10T137/7837Direct response valves [i.e., check valve type]
    • Y10T137/7904Reciprocating valves
    • Y10T137/7922Spring biased
    • Y10T137/7929Spring coaxial with valve
    • Y10T137/7932Valve stem extends through fixed spring abutment

Definitions

  • This invention relates to the administration of gas, and more particularly to respirator systems for use in aviation and in therapy.
  • a further object of the invention is the provision of simple, comfortable, effective, and efficient apparatus for the administration of oxygen as in therapy and in altitudeflying.
  • an enrichment of oxygen in the tidal air from the normal atmosphere content of 20% up to 70% or more is at times useful to adequately oxygenate the patient.
  • an enrichment of oxygen in the tidal air of normal subjects is necessary for, human efliciency.
  • the normal sea-level alveolar content of oxygen which is about 100 to 105 mm. of oxygen pressure, falls to about 60 mm.
  • the oxygen content is usually provided by'delivering pure oxygen from a source of oxygen under pressure, such as a pressure cylinder, thru a partially-closed breathing system; in order to enrich the tidal breathing by maintaining an adequate supply of oxygen in the alveolar air, a certain amount of expiration products being allowed to escape intothe outer atmosphere so as to diminish the building up of carbon dioxide in the air which is breathed.
  • a source of oxygen under pressure such as a pressure cylinder
  • the present invention contemplates the provision of a partially-closed breathing system of such character that delivered oxygen will be disposed in that portion of the tidal air wherein it will most profoundly enrich the'oxygen content of the alveolar air on inspiration and that the portion of the tidal breath mostprofoundly polluted with carbondioxide will be rejected, while the major portion of the tidal air is retained for rebreathing.
  • the invention in certain of its aspects contemplates the provision of a res-.
  • pirator system comprising means such as a mask or other breathing member adapted to coapt the respirator tract, valve means proximal to the coapting means and adapted to admit air to and release gaseous fluid from the respirator system when given differentials in external and internal pressure exist, a variable-capacity reservoir,
  • a gas such as oxygen
  • a gas such as oxygen
  • a gas may be stored for rebreathing between expiratory and inspiratory periods of the breathing cycle so that it will be inspired first, followed by gaseous fluid stored in the reservoir and followed thereafter by air admitted thru the valve means, and'whereby the last portion of an expiration will be released to the outer air by the valve means.
  • variable-capacity reservoir a means for regulating the amount of tidal air which may be stored in the variablecapacity reservoir, so that on expiration a greater proportion of expiration products will be released to the atmosphere to assure that a greater proportion of oxygen will reach the alveolae of the lungs on inspiration.
  • an adjustable means may be provided for limiting the maximum capacity of the variable-capacity reservoir.
  • the invention accordingly comprises the fea tures of construction, combinations of elements and arrangement of parts, and the several steps and the relation and order of one or more of such steps with respect to each of the others thereof, all of which will be exemplified hereinafter and the scope of the application of which will be indicated in the claims.
  • Figure l is a front view of one form of apparatus embodying the invention.
  • Fig. 2 is a side view of a portion thereof
  • Fig. 3 is an enlarged detail front view of the breathing member
  • Fig. 4 is a sectional view along the lines 44 of Fig. 3;
  • Fig. 5 is a view similar to Fig. 3 showing a modified form of valve means
  • Fig. 6 is a sectional view along the lines 8-6 of Fig. 5;
  • Fig. '7 is a view similar to Fig. 1 showing a modified form of apparatus embodying the invention
  • Fig. 8 is a side view of a portion thereof
  • Fig. 9 is a perspective view thereof.
  • a resplra tor or breathing system comprising a breathing member, which may be a mask which fits over both the nose and mouth of the user, or may be a means for breathing either thru the nose or thru the mouth while the other is left free.
  • the exemplified form of breathing member is a type of mask 5 which the user may fit over his nose, but which he may optionally fit over his mouth, and which may be secured in place on his head, as by suitable strips 6.
  • This mask is adapted to coapt the respiratorytract and to receive and deliver the tidal volume of breathing, and, as exemplified, is formed of soft rubber or other pliable material with its edge turned in to provide a smooth pliable coapting surface for comfort and latitude of adjustment.
  • the mask is particularly adapted for aviation use, being so short-above so as to permit goggles to be worn, and so, ovoid in opening as to serve optionally as a mouth mask in subjects where nasal breathing is obstructed. From the mask 5 them extends one or more tubes, two tubes 1 and 8 being exemplified.
  • the tubes 1 and 8 are formed of flexible rubber tubing adapted to extend toward the chin of the user; the tube 1 carrying a metallic fitting 9, and the tube 8 carrying a. metallicT fitting Ill, the two fittings being connected by a:
  • a piece of flexible rubber tubing ll adapted to fit under the chin-of the user and containing, in the present instance, a coil spring i2-to' assure A against its collapse.
  • a gas such as oxygen
  • a source of gas under pressure such as an oxygen tank H, which, desirably is equipped with a main valve [5, a decompression valve l5, and a flow gage l8 which preferably is of a character described in my Patent No. 1,965,333, datedJuly 3, 1934.
  • the tube II is formed with a cut-away portion providing an opening l1, and over this opening there is fitted one end of a variable-capacity accumulator or reservoir consisting in the present instance of a collapsible rubber bag 18 formed with openings l9 and,20 of smaller diameter than the exterior diameter of the tube ll, so as to tightly fit over the tube.
  • the exemplified bag is adapted to collapse substantially completely when air is drawn therefrom and to receive up to 700 c.
  • valve means adapted to communicate with the atmosphere.
  • This valve means is preferably in the form of a two-way seatless valve, and, as exemplified, is formed in the mask 5.
  • an opening 25 surrounded by a rigid ring 6 molded into the body of he mask, and within this ring there is vulcanized a soft rubber disc 26, the central portion of which is separated from the body of the disc thruout the major part of its periphery to provide a flapper valve 21 suspended by an elastic hinge 28 which connects it to the top of the body of the disc.
  • the valve 21 is formed with concentric raised annular portions 29 to assure against warping.
  • the valve 21 is a seatless two-way valve normally obturating an opening 30 in the body of the disc 26. For ease of opening in either direction and to get sufiicient airway, the valve should be not less than 0.75 sq. cm.
  • the valve when correlated with a bag having a resistance to distension of /5 mm., the valve should desirably have a resistance of not less than A mm. at slight opening, nor more than /2 mm. at an opening adapted for the quantitive passage of 25 liters of gas per minute.
  • the obturator valve 21. should be spaced from the body of the disc 26 by not less than 0.002 inch. A spacing up to .015 inch is tolerable without material loss of gas underthe collapsing pressure of the bag 18 exemplified in the time interval of the breathing cycle.
  • the closed capacity of mask 5 and of the tubing 1, 8, and l I connecting the mask with the gas inlet is preferably not less than about 50 c. 0., nor more than about c. c., and,
  • the oxygen continues to flow, a .volume of about 66.7 c. c. entering the fixed-capacity portions of the respirator during this period.
  • the bag I8 being at distension, that portion of the expiration which occupies the 60 c. c. of fixed capacity of the tubes and mask opening adapted to permit the passage of liters of gas per minute.
  • valve arrangement may be. employed without dep'art-' ing from the invention in its broader aspects.
  • Figs. 5 and 6 there is shown an arrangement which may be substituted for the central outer is'displaced outwardly thru valve '21 by the incoming oxygen, and the fixed-capacity portion isthus primed substantially with pure O gen before the next inspiration.
  • the tubes. and mask ' may accordingly be considered as providing an idle-phase accumulator.
  • this stored oxygen becomes, that portion of the tidal volume first inspired, followed by'the contents ofthe bag, plus the oxygen delivered while the bag is being collapsed; substantially as disclosed in 'my aforesaid Patent 2,073,192.
  • valve opens inwardly, and atmose .pheric air (plus some admixture due to con- 'tinued flow of oxygen). is ;.inspired to meet the fullinsplratoryfirequirements. It is to be noted in this connection thatabout every 8th to 16th portion of the mask shown in Figs. '1-4,-simllar parts being designated by similar referencenumerals distinguished bythe subscript a.
  • mask 5a is molded, in the present instance, to
  • clearance between the periphery of the valve 21a and the opening 30a should be provided, figures for preferred clearance being similar to those 'given in connection with'the valve 21, and the springs 35. and 36 should provide a resistance to opening similar to those given in connection with the valve 21 when used in an arrangement l into the mask 5a, and the valve 210. is movable.
  • breath is normally deeper than interi'm breaths in the respiratory actions .of normal persons.
  • the bag I8 On expiration, the bag I8 is distended with I tidal air with which there is mixed that portion of oxygen delivered during the expiration phase,
  • oxygenation is accomplished with greatest economyof gas, and carbon dioxide isexited without building a material excess of CO2 in the retained ex- 'piratory volume and without excess tidal movement thru the atmospheric valve to maintain the desired normal alveolar balance of about 5.6% of CO2 content.
  • Fresh gas such, for example, as oxygen, is
  • Figs. 7, 8, and 9 show an arrangement which may be substituted for the corresponding portions of the respirator system shown in Figs. l-4, similar parts being designated bysimilar reference numerals distinguished by the addition of the subscript b.
  • Fig. '7 themask is shown in its optional position for oral breathing.
  • a modified form of bag and connecting means which may be employed instead of that shown in Figs. 1 and 2.
  • the tubes Ia and 8a In the present form of construction the tubes Ia and 8a.
  • a union 40 carrying an upwardly-opening elbow-shaped gas-introduction tube 4I to which the gas inlet tube l3b is connected. From the union there extends the neck 43 of a bellows-shaped variable-capacity reservoir 18b.
  • This may be formed of rubber similarly to the bag I8, and as exemplified has a similar capacity when expanded. In order, however, that its maximum capacity may be decreased when desirable, as for example, when an airplane climbs to higher altitudes, there is provided adjustable means to limit the amount which the bag l8b can expand.
  • This means consists, in the present instance, of an arcuate metallic extension 44 on a plate 45 securedto one side of the bellows l8b.
  • the arcuate member 44 lies across the end of the bellows, and slid-- ably mounted thereon is a stop member 46 carrying a set-screw 41 which may secure the member 46 on the member 44 at any suitable point as indicated by a scale 48.
  • the member 46 is formed-with an extension 49 adapted to extend over the outer portion of the path of movement of the other side of the bellows to limit its maximum expansion.
  • Apparatus for the administration of gases comprising a breathing member, a seatless twoway valve proximal to the breathing member, a variable-capacity reservoir member connected into said system at a point spaced from said breathing member, and means to supply gas to said system at a point spaced from said breathing member, the resistances of said reservoir member and of said valve being so correlated that said valve will open to release gaseous expiration products when said reservoir reaches a given state of distension on expiration and that said valve will open to admit air to said breathing member when said reservoir member reaches a given state of collapse on inspiration.
  • Apparatus for the administration of gases comprising a breathing member, a seatless twoway valve proximal to the breathing member, a variable-capacity reservoir member connected into said system at a point spaced from said breathing member, and means to continuously supply gas to said system in measured quantity at a point spaced from said breathing member,
  • valve being so correlated that said valve will open to release gaseous expiration products when said reservoir reaches a given state of distension on expiration and that said valve will open to admit air to said breathing member when said reservoir member reaches a given state of collapse -on inspiration.
  • a respirator system comprising means to coapt the respiratory tract, valve means adapted to open to the atmosphere,means for the introduction of gas to saidsystem, variable-capacity reservoir means, and means to adjust the maximum capacity of said variable-capacity reservoir means.
  • a respirator system comprising a mask having an opening to the atmosphere, a seatless twoway valve in said opening, an expansible and collapsible bag connected to said system, and means to supply a gas to said system.
  • Arespiratorsystem comprising a mask having an opening to the atmosphere, a seatless two-way valve in said opening, an expansible and collapsible bag connected to-said system, and means to supply a gas to said system, said valve having a clearance of not less than 0.002 inch and not more than0.015 inch on each of at least three sides.
  • a respirator system comprising means to coapt the respiratory tract, tubing extending from said coapting means and having therewith a capacity of from about 50 cc. to cc., means to continuously supply as directly to said tubing near the end thereof remote from said coapting means, a variable-capacity reservoir connected to said tubing near the end thereof remote from said coapting means, said tubing permitting a two-way flow between said variable-capacity reservoir and said coapting means, valve means proximal to said coapting means and adapted to open to release a gaseous fluid to the atmosphere when said variable-capacity reservoir reaches a high capacity.
  • a respirator system comprising means to coapt the respiratory tract, tubing extending from said coapting means and having therewith a capacity of from about 50 cc. to about 100 cc., means to continuously supply gas directly to said tubing near the end thereof remote from said coapting means, a variable-capacity reservoir connected to said tubing near the end thereof remote from said coapting means, said tubing permitting a two-way flow between said variablecapacity reservoir and said coapting means, valve means proximal to said coapting means and adapted to open to admit air from the atmosphere when said variable-capacity reservoir 2,300,273 reaches a low capacity on inspiration and to release a gaseous fluid to the atmosphere when said variable-capacity reservoir reaches a high capacity.
  • a respirator system comprising means to coapt the respiratory tract, tubing extending from said coapting means and having therewith a capacity of approximately 60 cc. means to continuously supply gas directly to said tubing near the end thereof remote from said coapting means, a variable-capacity reservoir connected to said tubing near the end thereof remote from said coapting means, said tubing permitting a twoway flow between said variable-capacity reservoir and said coapting means, valve means proximal to said coapting means and adapted to open to admit air from the atmosphere when said variable-capacity reservoir reaches a low capacity on inspiration and to release a gaseous iiuid to the atmosphere when said variable-capacity reservoir reaches a high capacity.
  • a respirator system comprising means to coapt the respiratory tract. tubing extending from said coapting means and having therewith 'a capacity or from about 50 cc. to about 100 cc..
  • variable-capacity reservoir connected to said tubing near the end thereof remote from said coapting means, said tubing permittinga two-way now between said variablecapacity reservoir and said coapting means, valve means proximal to said coapting means and adapted to open to admit air from the atmosphere when said variable-capacity.
  • reservoir reaches a low-capacity on inspiration and to release a gaseous fluid to the atmosphere when said variable-capacity reservoir reaches a high capacity, said variable-capacity reservoir having an adjustable maximum capacity.

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  • Health & Medical Sciences (AREA)
  • Pulmonology (AREA)
  • General Health & Medical Sciences (AREA)
  • Business, Economics & Management (AREA)
  • Emergency Management (AREA)
  • Respiratory Apparatuses And Protective Means (AREA)

Description

Oct. 27, 1942. K. CONNELL RESPIRATOR Filed March' 13, 194
2 Sheets-Sheet 1 IN VENT'OR.
m. i w L w m K. CONNELL Oct. 27, 1942.
RESPIRATOR Filed March 13, 1940 2 SheetsSheet 2 iv 5 m INVENTOR. 59,-] an nne BY 7 /M.; Maw,
Patented Oct. 27, 1942 RESPIRATOR.
Karl Connell, Branch, N. Y., assignor to Air Reduction Company, Incorporated, a corporation of New York Application March 13, 1940, Serial No. 323,640
9 Claims.
This invention relates to the administration of gas, and more particularly to respirator systems for use in aviation and in therapy.
An object of the invention-is to provide improved means and methods for the administration of gas, as in the administration of oxygen in therapy and in altitude flying;
More specifically, it is the object of the invention to provide a respirator system for the-efiective and efiicient enrichment of oxygen in the tidal breathing and the rejection of carbon dioxide therefrom in a system of partial rebreath- A further object of the invention is the provision of simple, comfortable, effective, and efficient apparatus for the administration of oxygen as in therapy and in altitudeflying.
Other objects of the invention will in part be obvious and will in part appear hereinafter.
In certain pathological conditions, such as choked airway or lessened alveolar absorptive capacity, as for example in pneumonia, an enrichment of oxygen in the tidal air from the normal atmosphere content of 20% up to 70% or more, is at times useful to adequately oxygenate the patient. In certain environments of low barometric pressure, such, for examp1e,as those commonly encountered in aviation, particularly at altitudes above 12,000 feet, an enrichment of oxygen in the tidal air of normal subjects is necessary for, human efliciency. Ata barometer of 500 mm. of mercury (at about 12,000 feet of elevation), the normal sea-level alveolar content of oxygen, which is about 100 to 105 mm. of oxygen pressure, falls to about 60 mm. and results in a certain degree of anoxemia especially manifest in unaccustomed subjects by a mild degree of dyspnoea and hyperpnoea, lethargy and vomiting known commonly as the mountain sickness complex. At 18,000 feet the alveolar-content of oxygen falls to below 50 mm. of pressure, and mentalaberration of trained air pilots becomes at times serious, and oxygen reinforcement of the tidal breath intake has become customary. The oxygen content is usually provided by'delivering pure oxygen from a source of oxygen under pressure, such as a pressure cylinder, thru a partially-closed breathing system; in order to enrich the tidal breathing by maintaining an adequate supply of oxygen in the alveolar air, a certain amount of expiration products being allowed to escape intothe outer atmosphere so as to diminish the building up of carbon dioxide in the air which is breathed. As set forth in my Patent 2,073,192, dated March 9, 1937 (in which a general discussion of breathing conditions will be found), only the first portion of the air taken in on inspiration actually reaches the alveolar passages, and accordingly it is important that this portion contain a high proportion of the gas.
for example oxygen, being administered. Con versely, on expiration, the last portion of gas expired is the most heavily laden with carbon dioxide, and it is important in spilling gas from the system that this be the portion spilled. likewise important, in many instances, and particularly in aviation, that as simple a form of system as possible be provided.
With the foregoing and other considerations in view, the present invention contemplates the provision of a partially-closed breathing system of such character that delivered oxygen will be disposed in that portion of the tidal air wherein it will most profoundly enrich the'oxygen content of the alveolar air on inspiration and that the portion of the tidal breath mostprofoundly polluted with carbondioxide will be rejected, while the major portion of the tidal air is retained for rebreathing.
More specifically, the invention in certain of its aspects contemplates the provision of a res-.
pirator system comprising means such as a mask or other breathing member adapted to coapt the respirator tract, valve means proximal to the coapting means and adapted to admit air to and release gaseous fluid from the respirator system when given differentials in external and internal pressure exist, a variable-capacity reservoir,
fixedcapacity means for connecting said variable-capacity reservoir with said coapting means,
and means to introduce gas to said system at a point spaced from said valve means and between saidvalve means and said variable-capacity reservoir, the capacity of the variable-capacity reservoir and the resistance of this reservoir to expansion and the resistance of the valve means to opening being suitably correlated, whereby a gas such, for example, as oxygen, may be stored for rebreathing between expiratory and inspiratory periods of the breathing cycle so that it will be inspired first, followed by gaseous fluid stored in the reservoir and followed thereafter by air admitted thru the valve means, and'whereby the last portion of an expiration will be released to the outer air by the valve means.
As above noted, ones oxygen requirements in-f crease with decrease in barometric pressure. In
aviation a ceiling is reached at about 31,000 feet Itis' supported except in an atmosphere of pure oxygen- The higher an airplane climbs toward thisceiling'the greater are the oxygen requirements, I
tain of its more specific aspects, contemplates the provision of means for regulating the amount of tidal air which may be stored in the variablecapacity reservoir, so that on expiration a greater proportion of expiration products will be released to the atmosphere to assure that a greater proportion of oxygen will reach the alveolae of the lungs on inspiration. In accordance with this aspect of the invention, an adjustable means may be provided for limiting the maximum capacity of the variable-capacity reservoir.
The invention accordingly comprises the fea tures of construction, combinations of elements and arrangement of parts, and the several steps and the relation and order of one or more of such steps with respect to each of the others thereof, all of which will be exemplified hereinafter and the scope of the application of which will be indicated in the claims.
For a fuller understanding of the nature and objects of the invention reference should be had to the following detailed description taken in connection with the accompanying drawings, in which:
Figure l is a front view of one form of apparatus embodying the invention;
Fig. 2 is a side view of a portion thereof;
Fig. 3 is an enlarged detail front view of the breathing member;
Fig. 4 is a sectional view along the lines 44 of Fig. 3;
Fig. 5 is a view similar to Fig. 3 showing a modified form of valve means;
Fig. 6 is a sectional view along the lines 8-6 of Fig. 5;
Fig. '7 is a view similar to Fig. 1 showing a modified form of apparatus embodying the invention;
Fig. 8 is a side view of a portion thereof;
Fig. 9 is a perspective view thereof.
In Figs. 1 thru 4, there is illustrated a resplra tor or breathing system comprising a breathing member, which may be a mask which fits over both the nose and mouth of the user, or may be a means for breathing either thru the nose or thru the mouth while the other is left free. The exemplified form of breathing member is a type of mask 5 which the user may fit over his nose, but which he may optionally fit over his mouth, and which may be secured in place on his head, as by suitable strips 6. This mask is adapted to coapt the respiratorytract and to receive and deliver the tidal volume of breathing, and, as exemplified, is formed of soft rubber or other pliable material with its edge turned in to provide a smooth pliable coapting surface for comfort and latitude of adjustment. As shown, the mask is particularly adapted for aviation use, being so short-above so as to permit goggles to be worn, and so, ovoid in opening as to serve optionally as a mouth mask in subjects where nasal breathing is obstructed. From the mask 5 them extends one or more tubes, two tubes 1 and 8 being exemplified. The tubes 1 and 8 are formed of flexible rubber tubing adapted to extend toward the chin of the user; the tube 1 carrying a metallic fitting 9, and the tube 8 carrying a. metallicT fitting Ill, the two fittings being connected by a:
piece of flexible rubber tubing ll adapted to fit under the chin-of the user and containing, in the present instance, a coil spring i2-to' assure A against its collapse. From the stem. of thefitting there extends a flexible rubberrtube i3 thru which a gas, such, for example, as oxygen, may be suppliedto the breathing system. Suitablysuch gas is supplied from a source of gas under pressure, such as an oxygen tank H, which, desirably is equipped with a main valve [5, a decompression valve l5, and a flow gage l8 which preferably is of a character described in my Patent No. 1,965,333, datedJuly 3, 1934. The interior of the mask 5. and of the tubes 1, 8, and I I forms a fixed-capacity accumulator having a capacity, for example, 60 c. c. equal to only a minor part of the tidal volume of average normal breathing (about 800 c. c. to 1,000 c. c.). The tube II is formed with a cut-away portion providing an opening l1, and over this opening there is fitted one end of a variable-capacity accumulator or reservoir consisting in the present instance of a collapsible rubber bag 18 formed with openings l9 and,20 of smaller diameter than the exterior diameter of the tube ll, so as to tightly fit over the tube. The exemplified bag is adapted to collapse substantially completely when air is drawn therefrom and to receive up to 700 c. c. of gas without stretching. The bag is preferably formed of rubber which is thin enough to collapse readily, but thick enough so that it will not tend to stretch substantially under an internal pressure of /2 mm. of mercury, or less; though other material which is collapsible, substantially impervious to gas fiow, and suitably resistant to over-expansive tendencies may be employed in most instances, and, in some cases, a piston-type reservoir may be employed. At the end of the respirator system proximal to the coaptive opening, there is provided, in accordance with the invention, valve means adapted to communicate with the atmosphere. This valve means is preferably in the form of a two-way seatless valve, and, as exemplified, is formed in the mask 5. In the front of the mask there is formed an opening 25 surrounded by a rigid ring 6 molded into the body of he mask, and within this ring there is vulcanized a soft rubber disc 26, the central portion of which is separated from the body of the disc thruout the major part of its periphery to provide a flapper valve 21 suspended by an elastic hinge 28 which connects it to the top of the body of the disc. As exemplified, the valve 21 is formed with concentric raised annular portions 29 to assure against warping. As will be observed, the valve 21 is a seatless two-way valve normally obturating an opening 30 in the body of the disc 26. For ease of opening in either direction and to get sufiicient airway, the valve should be not less than 0.75 sq. cm. in effective area and should open on a pressure in either direction of /2 mm. or less. In the present instance, (when correlated with a bag having a resistance to distension of /5 mm.) the valve should desirably have a resistance of not less than A mm. at slight opening, nor more than /2 mm. at an opening adapted for the quantitive passage of 25 liters of gas per minute. For delicacy of action the obturator valve 21. should be spaced from the body of the disc 26 by not less than 0.002 inch. A spacing up to .015 inch is tolerable without material loss of gas underthe collapsing pressure of the bag 18 exemplified in the time interval of the breathing cycle. The closed capacity of mask 5 and of the tubing 1, 8, and l I connecting the mask with the gas inlet is preferably not less than about 50 c. 0., nor more than about c. c., and,
capacity of 700 c. c.
- air.
as exemplified, in 60 c. c., a desired capacity for the fixed-capacity portion. It'is to be noted that the incoming gasenters this portion, so that durfiation must be substantially less than the opening resistance of the obturator valve 21. A resistance of mm. of mercury to distension of the bag i8 is desirably correlated with a resistance of the valve of not lessthan mm. at slight opening, nor more than /2 mm. at an portion of the expiration therethru. This .terminal'residue is that portion of expiration from which oxygenhas been most depleted, and also that portion containing the highest proportion of carbon dioxide from the alveolae of the lungs.
During the rest period, the oxygen continues to flow, a .volume of about 66.7 c. c. entering the fixed-capacity portions of the respirator during this period. The bag I8 being at distension, that portion of the expiration which occupies the 60 c. c. of fixed capacity of the tubes and mask opening adapted to permit the passage of liters of gas per minute.
As will be appreciated, various forms of valve arrangement may be. employed without dep'art-' ing from the invention in its broader aspects. In Figs. 5 and 6 there is shownan arrangement which may be substituted for the central outer is'displaced outwardly thru valve '21 by the incoming oxygen, and the fixed-capacity portion isthus primed substantially with pure O gen before the next inspiration. The tubes. and mask 'may accordingly be considered as providing an idle-phase accumulator. On inspiration this stored oxygen becomes, that portion of the tidal volume first inspired, followed by'the contents ofthe bag, plus the oxygen delivered while the bag is being collapsed; substantially as disclosed in 'my aforesaid Patent 2,073,192. On furtherinspiration, the valve opens inwardly, and atmose .pheric air (plus some admixture due to con- 'tinued flow of oxygen). is ;.inspired to meet the fullinsplratoryfirequirements. It is to be noted in this connection thatabout every 8th to 16th portion of the mask shown in Figs. '1-4,-simllar parts being designated by similar referencenumerals distinguished bythe subscript a. The
mask 5a is molded, in the present instance, to
provide a taper, as at 3|, toward the edge of an 'opening 30a. across which an obturator. valve 21a slidably mounted on, a guide rod 32 is adapted to extend. Theguide rod 32 .is supported by. brackets 33 and Y34, the ends of which are fixed in either direction against recoil springs 35 and 36, thus providing a seatless two-way valve.- A
. clearance between the periphery of the valve 21a and the opening 30a should be provided, figures for preferred clearance being similar to those 'given in connection with'the valve 21, and the springs 35. and 36 should provide a resistance to opening similar to those given in connection with the valve 21 when used in an arrangement l into the mask 5a, and the valve 210. is movable.
breath is normally deeper than interi'm breaths in the respiratory actions .of normal persons.
Upon expiration, the atmospheric air. (with some.
admixture) which was last inspired and which did not'reach the. alveolae and accordingly was substantially unmodified byv abstractionof oxygen or addition of carbon dioxide, is first expired and is delivered toward-the bag, pushing ahead of it such oxygen and-other gaseous fluid I as remains'lnthe fixed capacity of the tubes and mask, and such oxygen asis entering the fixedcapacity portion of the respirator. Before the bag reaches its maximum capacityin normal breathing, gaseous expiration products from the respiratory tract down to the biturcationof. the
such 'as exemplified. 'Various other forms of v valve means may, of course, be provided,
The normal consumption of an average indi- -'vidual at rest' is about .3 gram of oxygen-per minute abstracted from about 8 liters of. tidal or 2.4 grams per minute of oxygen. At higher levels'inc'reasing amounts may be required. At sea level the displacement of 2.4 grams of oxygen is approximately 1700 c. c. At 18,000 feet, the displacement of 2.4 grams-is approximately. 3,200
c. c Since the average tidal rate of breathing is about 16per minute there will be added to each.
average tidal volume approximately 200 c. c. of
7 .oxygen at a fiow rate of 3,200 c. c. per'minute' ;when fiying at 18,000 feet. Since the respiratory cycle consists of an inspiratory phase, an ex-.
7 .Jpiratory phase, and a. succeeding rest period each approximating one-third of-thecycle, the
net action of the disclosed arrangementjis as follows:
On expiration, the bag I8 is distended with I tidal air with which there is mixed that portion of oxygen delivered during the expiration phase,
In aviation it is common practice when flying at 18,000 feet to reinforce, the tidal air. with about 8 times thebasic oxygen requirements this amount being about 66.7 c, c. Once the bag becomes full, further expiration results in the Y opening of the valve 21, and escape of the last tracheawill have been. expired. This gaseous fluid will be followed by gaseous fluid containing a higher proportion of carbon dioxide. As the -bag. reaches distension, further expiration will open the valve 21 so that the gaseous fluid containing the highest proportion of carbon dioxide will escape therethru. v
It will thus be seen that of the 200 c, c. of oxygen delivered during a normal breathing cycle one-third will be inspired near the beginning of an inspiration, of the next one-thirdpart will be inspired in'admixture with gaseous fluid. y
from the bag and part will remain in the tubes in such admixture, and of theremaining onethird, part will .bedriven into the bag in admixture with gaseous fluid containing a high proportion of atmospheric air during the first part of the expiration and part will be stored in the fixed capacity when the bagis full and the valve opened during the latter part of the expiration.
By this system of placement of oxygen in the fore. part of inspiration, and rejecting carbon dioxide from the hind part of expiration, oxygenation is accomplished with greatest economyof gas, and carbon dioxide isexited without building a material excess of CO2 in the retained ex- 'piratory volume and without excess tidal movement thru the atmospheric valve to maintain the desired normal alveolar balance of about 5.6% of CO2 content.
Fresh gas, such, for example, as oxygen, is
thus delivered at the beginning of the breathing cycle in accordance with my said Patent No.
tude, that a larger proportion of expired gases be released to the atmosphere and to this end there may be provided an arrangement such as shown in Figs. 7, 8, and 9 which show an arrangement which may be substituted for the corresponding portions of the respirator system shown in Figs. l-4, similar parts being designated bysimilar reference numerals distinguished by the addition of the subscript b. In Fig. '7 themask is shown in its optional position for oral breathing. In this form of arrangement there is also shown a modified form of bag and connecting means which may be employed instead of that shown in Figs. 1 and 2. In the present form of construction the tubes Ia and 8a. are made somewhat longer than the tubes I and 8 and are brought together in a union 40 carrying an upwardly-opening elbow-shaped gas-introduction tube 4I to which the gas inlet tube l3b is connected. From the union there extends the neck 43 of a bellows-shaped variable-capacity reservoir 18b. This may be formed of rubber similarly to the bag I8, and as exemplified has a similar capacity when expanded. In order, however, that its maximum capacity may be decreased when desirable, as for example, when an airplane climbs to higher altitudes, there is provided adjustable means to limit the amount which the bag l8b can expand. This means consists, in the present instance, of an arcuate metallic extension 44 on a plate 45 securedto one side of the bellows l8b. The arcuate member 44 lies across the end of the bellows, and slid-- ably mounted thereon is a stop member 46 carrying a set-screw 41 which may secure the member 46 on the member 44 at any suitable point as indicated by a scale 48. The member 46 is formed-with an extension 49 adapted to extend over the outer portion of the path of movement of the other side of the bellows to limit its maximum expansion.
Since certain changes may be made in the constructions set forth and in carrying out the above method, and diilerent embodiments of the invention may be provided without departing from the scope of the invention, it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.
It is also to be understood that the following claims are intended to cover all of the generic and specific features of the invention herein described, and all statements of the scope of the invention which as a matter of language might be said to fall therebetween.
I claim:
1. Apparatus for the administration of gases, comprising a breathing member, a seatless twoway valve proximal to the breathing member, a variable-capacity reservoir member connected into said system at a point spaced from said breathing member, and means to supply gas to said system at a point spaced from said breathing member, the resistances of said reservoir member and of said valve being so correlated that said valve will open to release gaseous expiration products when said reservoir reaches a given state of distension on expiration and that said valve will open to admit air to said breathing member when said reservoir member reaches a given state of collapse on inspiration.
2. Apparatus for the administration of gases, comprising a breathing member, a seatless twoway valve proximal to the breathing member, a variable-capacity reservoir member connected into said system at a point spaced from said breathing member, and means to continuously supply gas to said system in measured quantity at a point spaced from said breathing member,
the resistance .of said reservoir member and of..
said valve being so correlated that said valve will open to release gaseous expiration products when said reservoir reaches a given state of distension on expiration and that said valve will open to admit air to said breathing member when said reservoir member reaches a given state of collapse -on inspiration.
3. A respirator system, comprising means to coapt the respiratory tract, valve means adapted to open to the atmosphere,means for the introduction of gas to saidsystem, variable-capacity reservoir means, and means to adjust the maximum capacity of said variable-capacity reservoir means.
4. A respirator system comprising a mask having an opening to the atmosphere, a seatless twoway valve in said opening, an expansible and collapsible bag connected to said system, and means to supply a gas to said system.
5. Arespiratorsystem comprising a mask having an opening to the atmosphere, a seatless two-way valve in said opening, an expansible and collapsible bag connected to-said system, and means to supply a gas to said system, said valve having a clearance of not less than 0.002 inch and not more than0.015 inch on each of at least three sides.
6. A respirator system comprising means to coapt the respiratory tract, tubing extending from said coapting means and having therewith a capacity of from about 50 cc. to cc., means to continuously supply as directly to said tubing near the end thereof remote from said coapting means, a variable-capacity reservoir connected to said tubing near the end thereof remote from said coapting means, said tubing permitting a two-way flow between said variable-capacity reservoir and said coapting means, valve means proximal to said coapting means and adapted to open to release a gaseous fluid to the atmosphere when said variable-capacity reservoir reaches a high capacity.
7. A respirator system comprising means to coapt the respiratory tract, tubing extending from said coapting means and having therewith a capacity of from about 50 cc. to about 100 cc., means to continuously supply gas directly to said tubing near the end thereof remote from said coapting means, a variable-capacity reservoir connected to said tubing near the end thereof remote from said coapting means, said tubing permitting a two-way flow between said variablecapacity reservoir and said coapting means, valve means proximal to said coapting means and adapted to open to admit air from the atmosphere when said variable-capacity reservoir 2,300,273 reaches a low capacity on inspiration and to release a gaseous fluid to the atmosphere when said variable-capacity reservoir reaches a high capacity.
8. A respirator system comprising means to coapt the respiratory tract, tubing extending from said coapting means and having therewith a capacity of approximately 60 cc. means to continuously supply gas directly to said tubing near the end thereof remote from said coapting means, a variable-capacity reservoir connected to said tubing near the end thereof remote from said coapting means, said tubing permitting a twoway flow between said variable-capacity reservoir and said coapting means, valve means proximal to said coapting means and adapted to open to admit air from the atmosphere when said variable-capacity reservoir reaches a low capacity on inspiration and to release a gaseous iiuid to the atmosphere when said variable-capacity reservoir reaches a high capacity.
9'. a respirator system comprising means to coapt the respiratory tract. tubing extending from said coapting means and having therewith 'a capacity or from about 50 cc. to about 100 cc..
means to continuously supply gas directly to said tubing near the-end thereof remote from said coapting means, a variable-capacity reservoir connected to said tubing near the end thereof remote from said coapting means, said tubing permittinga two-way now between said variablecapacity reservoir and said coapting means, valve means proximal to said coapting means and adapted to open to admit air from the atmosphere when said variable-capacity. reservoir reaches a low-capacity on inspiration and to release a gaseous fluid to the atmosphere when said variable-capacity reservoir reaches a high capacity, said variable-capacity reservoir having an adjustable maximum capacity.
KARL CONNELL.
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Cited By (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2788784A (en) * 1955-08-23 1957-04-16 Herbert M Birch Means for administering medication orally into the respiratory organs
US2842160A (en) * 1952-04-09 1958-07-08 Sun Rubber Co Charging apparatus for vinyl casting machines
US2896616A (en) * 1956-07-03 1959-07-28 Arborelius Mans Mansson Arrangement in breathing apparatus for use under water
US2900977A (en) * 1955-05-31 1959-08-25 De Loss L Marsh Underwater breathing apparatus
US3034503A (en) * 1955-08-05 1962-05-15 Jr Ralph S Mackay Diving equipment
US3235064A (en) * 1963-12-09 1966-02-15 John W Frost Disposer for trash
US3521546A (en) * 1967-03-01 1970-07-21 Vacuum Concrete Overseas Co Es Atmospheric pressure equalizing means
US3620418A (en) * 1969-05-29 1971-11-16 Becton Dickinson Co Retainer valve assembly for syringe
US4510930A (en) * 1983-03-08 1985-04-16 The United States Of America As Represented By The United States Department Of Energy Breathable gas distribution apparatus
US4655213A (en) * 1983-10-06 1987-04-07 New York University Method and apparatus for the treatment of obstructive sleep apnea
US4782832A (en) * 1987-07-30 1988-11-08 Puritan-Bennett Corporation Nasal puff with adjustable sealing means
US4898166A (en) * 1988-04-14 1990-02-06 Physician Engineered Products, Inc. Resuscitation bag control apparatus
US5065756A (en) * 1987-12-22 1991-11-19 New York University Method and apparatus for the treatment of obstructive sleep apnea
US5803074A (en) * 1996-11-25 1998-09-08 Smiths Industries Medical Systems, Inc. Valve for resuscitator apparatus
US20060272644A1 (en) * 2005-06-06 2006-12-07 Halpern Ian L Manual ventilation or resuscitation device
US20060283451A1 (en) * 2003-05-15 2006-12-21 Roberto Albertelli Apparatus for non-invasive mechanical ventilation
US20070169780A1 (en) * 2005-06-06 2007-07-26 Ian Halpern Volume-adjustable manual ventilation device
US8235043B2 (en) 2007-12-06 2012-08-07 Artivent Corporation Volume adjustable manual ventilation device
US9795759B2 (en) * 2015-04-29 2017-10-24 Vyaire Medical Consumables Llc Low flow controller

Cited By (25)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2842160A (en) * 1952-04-09 1958-07-08 Sun Rubber Co Charging apparatus for vinyl casting machines
US2900977A (en) * 1955-05-31 1959-08-25 De Loss L Marsh Underwater breathing apparatus
US3034503A (en) * 1955-08-05 1962-05-15 Jr Ralph S Mackay Diving equipment
US2788784A (en) * 1955-08-23 1957-04-16 Herbert M Birch Means for administering medication orally into the respiratory organs
US2896616A (en) * 1956-07-03 1959-07-28 Arborelius Mans Mansson Arrangement in breathing apparatus for use under water
US3235064A (en) * 1963-12-09 1966-02-15 John W Frost Disposer for trash
US3521546A (en) * 1967-03-01 1970-07-21 Vacuum Concrete Overseas Co Es Atmospheric pressure equalizing means
US3620418A (en) * 1969-05-29 1971-11-16 Becton Dickinson Co Retainer valve assembly for syringe
US4510930A (en) * 1983-03-08 1985-04-16 The United States Of America As Represented By The United States Department Of Energy Breathable gas distribution apparatus
US4655213A (en) * 1983-10-06 1987-04-07 New York University Method and apparatus for the treatment of obstructive sleep apnea
US4782832A (en) * 1987-07-30 1988-11-08 Puritan-Bennett Corporation Nasal puff with adjustable sealing means
US5065756A (en) * 1987-12-22 1991-11-19 New York University Method and apparatus for the treatment of obstructive sleep apnea
US4898166A (en) * 1988-04-14 1990-02-06 Physician Engineered Products, Inc. Resuscitation bag control apparatus
US5803074A (en) * 1996-11-25 1998-09-08 Smiths Industries Medical Systems, Inc. Valve for resuscitator apparatus
US8240307B2 (en) * 2003-05-15 2012-08-14 Azienda Ospedaliera Pisana Apparatus for non-invasive mechanical ventilation
US20060283451A1 (en) * 2003-05-15 2006-12-21 Roberto Albertelli Apparatus for non-invasive mechanical ventilation
US20070169780A1 (en) * 2005-06-06 2007-07-26 Ian Halpern Volume-adjustable manual ventilation device
US7537008B2 (en) 2005-06-06 2009-05-26 Artivent Medical Corporation Manual ventilation or resuscitation device
US20090241959A1 (en) * 2005-06-06 2009-10-01 Artivent Corporation Manual ventliation or resuscitation device
US7658188B2 (en) 2005-06-06 2010-02-09 Artivent Corporation Volume-adjustable manual ventilation device
US20060272644A1 (en) * 2005-06-06 2006-12-07 Halpern Ian L Manual ventilation or resuscitation device
US10682479B2 (en) 2005-06-06 2020-06-16 Artivent Corporation Volume-adjustable manual ventilation device
US12097323B2 (en) 2005-06-06 2024-09-24 Artivent Corporation Volume-adjustable manual ventilation device
US8235043B2 (en) 2007-12-06 2012-08-07 Artivent Corporation Volume adjustable manual ventilation device
US9795759B2 (en) * 2015-04-29 2017-10-24 Vyaire Medical Consumables Llc Low flow controller

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