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Publication numberUS3603313 A
Publication typeGrant
Publication dateSep 7, 1971
Filing dateAug 11, 1969
Priority dateAug 11, 1969
Publication numberUS 3603313 A, US 3603313A, US-A-3603313, US3603313 A, US3603313A
InventorsArblaster Dennis
Original AssigneeArblaster Dennis
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Throwaway condensate collector
US 3603313 A
Abstract  available in
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

United States Patent |72] lmcnlur Dennis Arblaster 239L647 12/l949 Colavita l28/275 34081 La Serena. Dana Point. ('alil. 92629 2,398,908 8/ I959 Sovinsky 128/ I 42.6

[2l 1 Appl. No 849.072 3.099987 8/1963 Bartlett, Jr. 128 146.6 [22) Filed Aug. ll, I969 3,330,271 7/l967 Hozier 128/351 |4l Patented Sept.7. I971 3.3l6,904 i/l967 Wall et al. l28/l46.6


[52] [LS-Cl 128/275, l28/l40 128N466. l28/35l [Sl] lnt.Cl A6lf5/44 [50] FieldofSearch l2S/l36. 139. 140-147 I88. I91, l95-203. 205-2l2. 275. 35]

I 5 6] References Cited UNITED STATES PATENTS 2,248.349 7/1941 Hcidbrink 128/202 Primary Examiner-Charles F. Rosenbaum Armme vSellers and Brace ABSTRACT: A throwaway sanitary collector of condensate carried in exhalant of a patient using an intermittent positive pressure breathing apparatus. The collector safeguards against contamination of clothing and bedding utilizing a plaque of gossamer intimately associated with a mass of absorbent material having substantial capacity for absorbing moisture collected from exhalant as it passes through the gossamer. The collector may be retained in place by friction and is readily replaceable by a fresh one.

PAIENTEI) SEP 1 am 3.603.313

INVENTOR DEA/A05 A254,) 3765 ATTOEAAEVS THROWAWAY CONDENSATE COLLECTOR This invention relates to breathing equipment useful in treating respiratory and pulmonary ailments and more particularly to a simple, inexpensive, throwaway moisture collec tor adapted to be used with such respiratory equipment.

The use of intermittent positive pressure breathing apparatus useful in the treatment of respiratory ailments usually makes use of medicants atomized into the gas stream entering the lungs. Other treatments applied with the aid of such equipment utilize surface active agents beneficial in lifting tenacious secretions from mucosa by their emulsifying action as well as by diluting and liquifying secretions and the like. Accordingly, it is commonplace for the patient to exhale substantial quantities of fluid particles along with portions of the medicant itself. These liquid particles of pus, mucous and the like form droplets of condensate which escape onto the person of the patient, his clothing and the adjacent bedding. Proposals have been made for passing the exhalant through filter devices but this is objectionable and unsatisfactory from several viewpoints because interfering objectionably with exhalation and because imposing an intolerable load on the strength of critically ill patients. Moreover, the filter quickly becomes contaminated and saturated with moisture substantially cutting off exhalation.

To overcome the foregoing and numerous other shortcomings of breathing apparatus of the type referred to there is provided by this invention a simple, inexpensive, easily attached and detached throwaway condensate collector. The principal condensate separator comprises a thin plaque of gossamer supported transversely of the exhalation passage and having its rim edges in intimate contact with a sizeable mass of absorbent material. The gossamer is highly efficient and effective in collecting both large and minute particles of moisture and quickly conducting same into the mass of absorbent material by capillary action. Owing to the thinness of the gossamer, there is no noticeable interference with the exhalation effort and the strong absorbent characteristics of the main body of absorbent material avoids the retention of moisture by the gossamer. In a preferred embodiment, the condensate collector is cup-shaped and sized to have a friction fit over the tapering exhaust end of the exhalation passage. Accordingly, a fresh collector is quickly substituted for a used one with a minimum of effort and without need for manipulating fasteners or tools of any kind.

Accordingly it is a primary object of the present invention to provide a simple, inexpensive, throwaway condensate collector for use with breathing apparatus.

Another object of the invention is the provision of a single use condensate collector employing a film of gossamer having its perimeter in intimate contact with a mass of moisture absorbent material effective to drain the gossamer of moisture and keep it unclogged until the mass of absorbent material is substantially saturated.

Another object of the invention is the provision of a single use throwaway condensate collector designed for temporary use over the outlet of respiratory apparatus and constructed to be frictionally retained thereon.

These and other more specific objects will appear upon reading the following specification and claims and upon considering in connection therewith the attached drawing to which they relate.

Referring now to the drawing in which a preferred embodi' ment of the invention is illustrated:

FIG. 1 is a perspective view showing a preferred embodiment of the invention condensate collector in use over the exhaust outlet of the mouthpiece assembly of conventional intermittent positive pressure breathing apparatus;

FIG. 2 is a fragmentary plan view of a portion of the apparatus shown in FIG. 1;

FIG. 3 is an exploded view ofa blank of gossamer;

FIG. 4 is a generally diagrammatic view showing one mode of assembling the condensate collector; and

FIG. 5 is a fragmentary cross-sectional view on an enlarged scale of the exhalant outlet with the collector in position thereover.

Referring to FIG. I there is shown a typical mouthpiece as sembly, designated generally ll, of an intermittent positive pressure breathing apparatus well known to those skilled in this art and operating to supply pressurized oxygen or a mixture of oxygen and room air to the mouthpiece assembly through hose 12. The air and oxygen supplied through the hose passes through a medicant nebulizer 13 operating in a known manner to supply atomized medicant into the air as it passes through chamber 13 and thence into manifold 14 and thence into mouthpiece 15 supported in the patients mouth.

An extension 16 of manifold 14 houses a highly sensitive valve assembly, designated generally l7, controlled by a flexible diaphragm 18 connected therewith and secured in place across the end of extension I6 by a removable end cap 19. Valve 17 will be understood as opening to the right as viewed in FIG. 2 in response to a very slight breathing effort and with the aid of pressurized gas supplied through hose 20 acting on the outer face of diaphragm 18. This pressurized gas continues to flow through tube 2! into nebulizer 13 where it is utilized to atomize medicant.

Accordingly, it will be understood that valve 17 is held closed during the inhalation cycle at which time the nebulizer is activated to supply finely divided medicant into the air being breathed by the patient. During the other half of the cycle of air pressure in hoses 12, 20 ceases and valve l7 opens allowing exhalant from the lungs to escape therepast to the atmosphere through discharge tube 23.

The exhalant can and usually does contain substantial quantities of condensate including mucous, pus, and highly infectious material in finely divided form. Much of this condensate tends to collect on the interior surfaces of discharge outlet 23 and to drain from the lower outer end of this passage. Other quantities remain suspended in the exhalant and escape into the ambient air.

To prevent this drainage and escape of condensate there is provided by this invention a simple condensate collector, designated generally 10, best shown in FIGS. 3, 4 and 5. Collector 10 includes a relatively thin disc or plaque 25 of fine gossamer. Plaque 25 may be only a few mils thick and comprise a multiplicity of fine absorbent fibers felted together so as to leave voids providing only imperceptible interference with the flow of exhalant. The absorbent character of the fibers together with the capillary action thereof is highly effective in retaining even minute particles of moisture carried in the exhalant.

Plaque 25 is shown in freshly blanked condition in FIG. 3, the central area 26 being circular and of sufficient size to bridge the entire width of passage 23. Outwardly of this central area, plaque 25 may be formed with slits 27 to facilitate fabrication of the completed collector. Thus, the outer rim portion of the plaque is folded upwardly and sandwiched between a mass of highly absorbent material 28 such as a tape of absorbent gauze with a portion of its convolutions formed inwardly of the upturned edges of plaque 25 and additional convolutions encircling the exterior of the gossamer. FIG. 4 il- Iustrates the strip of absorbent material 28 in the process of starting the initial convolution about the upturned edges of the gossamer. If desired the exposed surfaces of the completed absorbent assembly 28 may be coated with an impervious film in the interests of sanitation.

Desirably the sidewalls of the cup-shape condensate collector l0 flare outwardly at a slight angle corresponding to the flare on the outer surface of the discharge tube 23, the collector being sized to have a firm frictional fit as it is telescoped into assembled position over this outlet.

The respirator is used in conventional manner, the escape of condensate being safeguarded against by the presence of collector 10 over exhalant outlet 23. Major portions of the con densate collecting on the interior sidewalls of tube 23 drain toward the bottom thereof, and thence through port 30 directly into absorbent material 28. Other portions coalesce on gossamer 25 and are conducted by capillary action into the upturned sidewalls of the plaque and thence into the mass of absorbent 28. As soon as the collector approaches a saturation condition it is quickly and easily replaced by a fresh one without in any way interfering with the operation of the respirator. Either the patient or an attendant withdraws a used collector and telescopes a fresh one into a friction fit with tapered surface of tube 23.

While the particular condensate collector herein shown and disclosed in detail is fully capable of attaining the objects and providing the advantages hereinbefore stated, it is to be understood that it is merely illustrative of the presently preferred embodiments of the invention.

I claim:

I. An article of manufacture comprising a throwaway collector of breathe-laden moisture discharging from breathing apparatus used in the treatment of pulmonary and respiratory ailments, said collector being detachably mountable in the path of exhalant from the patient and including a plaque of absorbent gossamer extending transversely of the exhalant with its rim edges in intimate contact with a mass of absorbent material adequate to absorb substantial quantities of moisture and foreign matter suspended therein.

2. An article of manufacture as defined in claim 1 charae terized in that said collector is formed in one unitary assembly and with said absorbent material in contact with substantially the entire peripheral rim portion of said plaque of gossamer.

3. An article of manufacture as defined in claim I characterized in that said mass of absorbent material is located exteriorly of the stream of exhalant bridged by said plaque of gossamer.

4. An article of manufacture as defined in claim I charac' terized in that the rim edges of said plaque of gossamer are sandwiched between portions of said mass of moisture absorbent material.

5. An article of manufacture as defined in claim 3 characterized in that said collector is cup-shaped with said mass of absorbent located in the sidewall portion thereof and with said plaque of gossamer forming the bottom of said cup.

6. An article of manufacture as defined in claim 5 characterized in that said sidewall is sized and shaped to telescope over and seat against the discharge end of a complementally shaped discharge end ofan exhalant member.

7. An article of manufacture as defined in claim 6 charac terized in that said sidewall is sizedto have a frictional fit with the discharge end of an exhalant member.

8. An article of manufacture as defined in claim 5 characterized in the sidewall of said cup-shaped mass of absorbent flares slightly from the interior bottom end thereof.

9. An article of manufacture as defined in claim 1 characterized in that said plaque of gossamer is sufficiently thin and large in area as not to cause any sensible interference with the free escape of exhalant.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2248349 *Dec 14, 1939Jul 8, 1941Air ReductionInhalation device for use in aviation at high altitudes
US2491647 *Nov 12, 1948Dec 20, 1949Theodore ColavitaTracheal appliance
US2898908 *Apr 6, 1954Aug 11, 1959Sovinsky EugeneField protective mask
US3099987 *Mar 7, 1961Aug 6, 1963Bartlett Jr Roscoe GRespiratory apparatus
US3316904 *Jul 31, 1961May 2, 1967Minnesota Mining & MfgFiltering web for face masks and face masks made therefrom
US3330271 *Jul 30, 1964Jul 11, 1967Vincent C Hozier JrStoma button and filter
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US4417574 *May 3, 1982Nov 29, 1983Sherwood Medical CompanyLiquid drain for patient breathing apparatus
US4583246 *Dec 19, 1983Apr 22, 1986United Technologies CorporationScavenging apparatus for life support suit helmet
US5722393 *Oct 20, 1993Mar 3, 1998Methodist Hospital Of Indiana, Inc.Exhaled gas cooling device
US6460539Sep 21, 2000Oct 8, 20023M Innovative Properties CompanyRespirator that includes an integral filter element, an exhalation valve, and impactor element
US6516798 *Mar 7, 2000Feb 11, 2003Timothy A. DaviesMethod of breathing tracheally
US6516803Nov 26, 1998Feb 11, 2003Alfred EnzingerDevice for removing sputum from a tracheal catheter
US6584976Jul 24, 1998Jul 1, 20033M Innovative Properties CompanyFace mask that has a filtered exhalation valve
US6606994 *Apr 24, 2000Aug 19, 2003Bradley R. ClarkAutomatic ventilator water trap evacuator
US6805124Aug 12, 2002Oct 19, 20043M Innovative Properties CompanyFace mask that has a filtered exhalation valve
US20090283094 *Jun 29, 2007Nov 19, 2009Canon Kabushiki KaishaMedicine ejection device
US20130269686 *Jan 25, 2013Oct 17, 2013Thomas Jefferson University Hospitals, Inc.Nebulizer assemblies
EP0338234A2 *Mar 8, 1989Oct 25, 1989Danzaburo TakataA humidification face mask
WO1991014476A1 *Mar 19, 1991Oct 3, 1991Methodist Hospital IndianaExhaled gas cooling device
WO2000000246A1 *Nov 26, 1998Jan 6, 2000Alfred EnzingerDevice for removing sputum from a tracheal catheter
U.S. Classification604/317, 128/205.12, 128/206.22
International ClassificationA61M16/00, A61M16/08
Cooperative ClassificationA61M16/009, A61M16/08
European ClassificationA61M16/08