US3067425A - Flying suit helmet with penetrable sealing closure structure - Google Patents

Description

Dec. 11, 1962 R. s. COLLEY FLYING SUIT HELMET WITH PENETRABLE SEALING CLOSURE STRUCTURE 2 sheets-sheet 1 Filed Nov. 9, 1959 IN VEN TOR.

lizgszu COLLEY Dec. 11, 1962 R. s. COLLEY 3,067,425

FLYING SUIT HELMET WITH PENETRABLE SEALING CLOSURE STRUCTURE Filed Nov. 9, 1959 2 Sheets-Sheet 2 INVENTOR. RU SELL S. COLLE'Y BY Z.

.1 ATTK United States Patent 3367,425 FLYTNG SUKT HELMET WETH PENETRABLE SEALENG CLGdURE EiTRUQTURE Russell S. Qolley, Cnyahoga Falls, Ulric, assign'or to The B. F. Goodrich 'Company, New York, N-.Y., a corporatien of New Yuri;

Filed Nov. 9, 1959, Ser. No. 851,813 13 Claims. (Cl. 2-6) This invention relates to a flying suit helmet including penetrable sealing closure means permitting the temporary insertion of a tube into the pressurized interior space of the helmet, especially a tube for enabling the wearer to receive food and liquid, or to smoke under high altitude flight conditions.

Heretofore, flying suit helmets provided with an internal fluid i.e. gaseous pressure exceeding that of the ambient atmosphere during high altitude flight, have not permitted the wearer or aviator to receive food and water, or to smoke a cigarette or a cigar, for example, while the said fluid pressure is maintained. When such helmets had a transparent visor or eye-piece permanently secured to the remainder of the helmet, it was necessary to remove the entire helmet from the wearers head whenever the wearer desired to seat and drink or to smoke. When the visor or eye-piece was pivotally mounted on the helmet, the visor or eye-piece was swung upwardly from in front of the wearers face before the wearer could eat and drink or smoke. However, in both cases it was necessary for the wearer to be at a safe, relatively low altitude such, for example, as about 10,600 feet, where an internal fluid pres sure was not required to be maintained within the helmet.

Accordingly, it is the principal object of the invention to provide a flying suit helmet in which an internal fluid pressure can be maintained, while at the same time permitting the wearer to receive food and water and/or to smoke a cigarette or a cigar.

Other objects of the invention are to provide for the temporary insertion of a tube through an access opening in a wall portion of an internally pressurized helmet by operatien wholly external of the helmet without loss of its internal pressure; to provide for such insertion and subsequent withdrawal of the tube at a location convenient to the wearers mouth; to provide a penetrable sealing cloture means for an access opening in a flying suit helmet capable of sealing the opening and withstanding the internal fluid pressure and capable of sealing against a tube insertable through the said closing means; to provide for convenient replacement of a penetrable sealing wall member of the closing means; to provide for resilient deformation and conformance of the sealing portions of said wall member to the inserted tube together with the resilient return of the sealing portions to their non-deformed condition upon withdrawal of the tube; to provide for means adapted to conduct water and/or liquid food through the closure means to the wearer; to provide means for holding a cigarette or a cigar and for conducting smoke through the closure means to the wearer; and to provide for simplicity of construction, convenience of manufacture, installation and servicing and for effectiveness of operation.

These and other advantages will be apparent from the following description.

In the accompanying drawings which constitute a part of this specification and in which like numerals are em-. ployed throughout to designate like parts:

FIG. 1 is a side elevational view of a helmet inc uding a penetrable sealing closure means or structure renovably attached to an inflatable flying suit, and constructed in accordance with and embodying the invention, parts being broken away;

PEG. 2 is a view like FIG. 1 but showing a fluid-conducting tube of a food container extending through the closure structure, parts being broken away; I

PEG. 3 is a plan view on an enlarged scale of the penetrable sealing closure structure as viewed from the external side of the same before mounting in the helmet and with sealing members of the said structure in an undeformed condition;

FIG. 4 is a plan view like FlG. 3 but showing the unmounted closure structure as viewed from the internal side of the same with the sealing members in sealing contact with and resiliently deformed in conformance with the fluid-conducting tube;

FIG. 5 is a cross-sectional view taken along the vertical center line of FIG. 3 showing the unmounted closure structure with the sealing members in their normal undeform'ed condition;

FIG. 6 is a cross-sectional view on an enlarged scale and taken along line 66 in FIG. 2 showing the said fluid-conducting tube extending through openings in the resiliently deformed sealing members, parts being broken away;

FIG. 7 is a view like FIG. 3 but showing a modification having a pair of vertically spaced circular openings in the sealing members of the closure structure;

FIG. 8 is a view like FIG. 3 but showing another modification having a pair of vertically spaced openings of horizontal slit configuration in the sealing members of the closure structure;

FIG. 9 is a view like FIG. 2 but showing a tubular cigarette holder extending through the closure structure in the helmet, parts being broken away; and

FIG. 10 is a cross-sectional view on an enlarged scale taken along line ltl1ll in FIG. 9 showing the tubular cigarette holder and the resilient deformation and sealing contact of the sealing members with the tube of the said holder, parts being broken away.

The embodiment of the invention shown in FIGS. 1 to 6, inclusive, includes ahelmet 15 of generally domed configuration, that is approximately hemispherical configuration, with a visor or eye-piece portion 16 of rigid transparent material and a penetrable sealing closure means 17 mounted in an access aperture preferably through the lower region of the visor portion so as to be positioned in front of the wearers face adjacent the mouth of the wearer as shown especially in FIGS. 1 and 2. The particular helmet shown in the drawings entirely encloses the wearers head and has preferably a rigid reinforced plastic wall of known construction and the rigidtransparent visor portion 16 may be fixedly secured as shown in known manner, or if desired, pivotally mounted in known manner, in fluid-tight sealing relation to the adjacent non-transparent plastic wall of the helmet to protect the wearers face.

Thehelmet 15 is detachably secured by suitable connector ring means 18 in fluid-tight sealing relation to the impervious flexible wall of aninflatable flying suit 19. With the flying suit inflated as shown in FIGS. 1 and 2, the internal fluid i.e. gaseous pressure within thehelmet 15 exceeds that of the ambient atmosphere and may be in the order of approximately 3.5 to 5.0 pounds gage. The penetrable sealing closure means 17 of the invention prevents elfectively loss of internal pressure within thehelmet 15 even when a rigid tube 2% including itsopen end portion 20a extends through the closure means to the mouth of the wearer as shown especially in FIG. 2.

The preferred construction of the penetrable sealing closure means 17 or structure comprises a rigid tubular housing 2 1 of aluminum alloy, or magnesium alloy, or stainless steel, or brass, or other metal suitable for the intended purpose. esirably thehousing 21 is made of aluminum alloy which is anodized by a known process to provide a protective coating for resisting corrosion of the housing. Thehousing 21 may be of uniform outside diameter along its major axial extent but desirably terminates at one end (its inner end) in a radiallyoutwardextending flange portion 22. This provides an annularexternal shoulder 23 adapted to seat against the inner surface of thevisor portion 16 at the margin of the access opening therein as shown especially in FIG. 6, where by the tubular housing cannot be forced through the access opening under the influence of the internal fluid pressure within the helmet. The cylindrical outer surface of thehousing 21 may be smooth but is desirably circumferentially grooved as indicated at 24 to receive an adhesive in the shallow grooves and thus facilitate adhesively securing the housing to the material of thevisor portion 16. Such adhesive attachment together with theannular shoulder 23 absolutely prevent accidental dislodgement of thehousing 21 from its position within the access opening of the visor portion, and also provides a positive seal against fluid leakage and loss of internal pressure.

Theoutward flange portion 22 of the housing has in its radially inner surface a continuousannular recess 25 adapted to receive therein a radially dividedretaining ring 26 of the spring type as shown especially in FIGS. 4, and 6, the functioning of which retainingring 26 will be described more fully hereinafter.

Thetubular housing 21 has preferably at its opposite end (i.e. outer end) a continuous annularinternal flange portion 27 of substantially uniform radial width having an annular bead-receiving recess 28 therein at the radially outer region of the axiallyinner surface 29 of the flange, the bead-receiving recess being of substantially semi-circular configuration in cross section, while the radially inner remainder of the axiallyinner surface 29 is substantially planar. This planar annular portion of theinner surface 29 has suflicient width radially to constitute a supporting surface of theflange 27. The radiallyinner margin 30 of the flange may be flared axially outward as shown to constitute a guide for guiding the entrance of thetube 20 into the closure means 17.

Theclosure structure 17 includes a transverse substantially planar sealing Wall member which may consist of a pair ofindividual sealing members 31, 32, of highly stretchable, deformable, elastomeric i.e. resilient rubbery material and substantially planar circular i.e. flat disk configuration in superimposed face-to-face contact within the bore of'thetubular housing 21. The elastomeric or rubbery material of the sealing members is preferably a suitable highly resilient, stretchable, deformable natural rubber composition, although not necessarily limited thereto,

since synthetic rubber compositions may be utilized providing they have the required high stretchability, resiliency, and deformability characteristics.

Each of the sealing members (31, 32) may be molded and has a smooth planar surface at one side of the member throughout its entire area, whereby these planar surfaces are in face-to-face relationship and continuous contact with one another, when the sealing members are mounted within the housing and in normal position as shown especially in FIG. 5. Each sealing member (31, 32) has a smooth planar surface at its other side except at the periphery or circumference thereof, where an integral bead portion (33, 34) projects axially and extends continuously about the circumference of the member and desirably has a semi-circular configuration in cross-section. In the preferred construction, therespective sealing members 31, 32 are of the same uniform thickness throughout their area radially inward of thebead portions 33, 34, which thickness is substantially less than the diameter of the sealing member yet provides suflicient strength to prevent bursting, when the sealing member is subjected to the internal gaseous pressure in thehelmet 15. For example, when the outside diameter of the sealing member is approximately 0.742 inch, the said uniform thickness of said area is 0.050 inch with the maximum overall thickness at the bead portion being 0.081 inch, whereby the sealing member snugly fits within an 0.752 inch diameter bore in thetubular housing 21 which has an outside diameter of 0.812 inch.

When the sealingmembers 31, 32 are disposed trans-- verse-1y of the bore in their normal position with their adjacent planar surfaces contacting one another, thebead portion 33 of the sealingmember 31 projects axially in one direction and is seated in and contacts the wall of theannular recess 28 in theend flange portion 27. Thebead portion 34 of the other sealingmember 32 projects in the opposite axial direction in axial alignment with thebead portion 33 and is accommodated within an annular bead-receivingrecess 35 provided by a continuousannular retaining washer 36 of stainless steel or other suitable metal. Theretaining washer 36 at its radially outer region is offset axially toward the adjacent inner end of the housing in the manner shown in REG. 5 to provide the bead-receivingrecess 35. The remainder of the retaining washer radially inward of the integral offset portion thereof is of planar configuration and radially coextensive with the annular planarinner surface 29 of theflange portion 27, that is, it is in overlying, overlapping, substantially parallel relation to thesurface 29, and seats against the adjacent planar surface of the sealingmember 32.

When the continuousannular retaining washer 36 is removably secured within thehousing 21 by means of thespring retaining ring 26 of steel seated in theannular recess 25 and in contact with the said offset portion of the retaining washer as shown in FIG. 5, theannular bead portions 33, 34 of the sealing members are maintained seated in the respective annular bead-receivingrecesses 28, 35 to thereby securely hold thesealing members 31, 32 against being blown out of thetubular housing 21 under the influence of the internal fluid or gaseous pressure and in addition function as an effective resilient O-ring seal against leakage of the pressurized gas through theclosure structure 17. A further advantage of thebead portions 33, 34 is that they prevent effectively pulling the sealing member-s from within thehousing 21, when the sealing members are being highly stretched and resiliently deformed during the insertion and withdrawal of thetube 20.

The pair of sealingmembers 31, 32 may, if desired, be adhesively united one to the other as by a suitable rubber cement at the radially outer region of their contacting adjacent planar surfaces throughout the radial width of thebead portions 33, 34 without objectionably hindering the high stretchability and the resilient deformability of the sealingmembers 31, 32, especially at their central areas bounded by the radially inner annular margin of the internalend flange portion 27 and of theretaining washer 36. When the sealingmembers 31, 32 are adhesively united in this manner they, in effect, constitute a single, unitary, substantially planar sealing wall member divided intermediate its thickness throughout at least the central area thereof spaced from the periphery thereof, thereby providing throughout said central area a pair of superimposed substantially planar sealing portions in face-to-face contact. These sealing portions are adapted to stretch and deform independently of one another, while at the same time co-acting with one another to maintain the seal with or Without thetube 20 through theclosure structure 17.

The sealingmembers 31, 32 includeopenings 37, 33 extending through the respective exposed central or planar sealing portions of the members as shown in FIG. 5. The opening 37 in the particular construction shown in F168. 1-6, inclusive, is circular and is spaced from one side of a diametral center line, indicated by the letter A, of the sealingmember 31. The opening 3'7 is closed and sealed by the adjacent abutting continuous wall part of the sealingmember 32. when the sealingmembers 31, 32 are in their normal undeformcd condition as shown in F168. 3 and 5. The opening 38 in the other sealingmember 32 is provided by a straight slit extending substantially parallel to the said diametral center line A at a position spaced therefrom and to the other side thereof. Theopening 38 is closed and sealed by the adjacent abutting continuous wall part of the sealingmember 31 when the sealing members are in their normal undeformed condition as shown in FIGS. 3 and 5.

The center of thecircular opening 37 is located on the diametral center line, indicated by the letter B, of the sealingmember 31 normal i.e. perpendicular to theslitted opening 38 and to the first said diametral center line A. It will be noted that thecircular opening 37 is spaced radially inward from the circular margin 3% of theend flange portion 27, and theslitted opening 38 is also spaced radially inward from themargin 30 and terminates short of themargin 30. Thus, bothopenings 37, 38 are located within the exposed central area of the sealing members, hence the said planar sealing portions of the members are free to stretch and resiliently deform, whereby bothopenings 37, 38 can be transversely shifted into alignment with theirmarginal portions 37a, 38a flexed axially in sealing contact with therigid tube 26*, when the tube is inserted through the closure structure from the outside of the helmet as shown especially in FIG. 6.

The sealingmember 31 with the relativelysmall diameter opening 37 through its substantially planar central sealing portion which is bounded by the radiallyinner margin 39 of theend flange portion 27, is resiliently stretched and deformed and flexed axially at said sealing portion in the direction toward the interior of the helmet in the manner shown especially in FIG. 6 during the insertion of thetube 20. This produces the temporary engagement and the seating of thatpart 37a of the sealing portion of themember 31 immediately adjacent theopening 37 continuously about and in conforming contact with the tube since the diameter or" thetube 28 is substantially larger than the initial diameter of theopening 37.

The axial movement of thetube 21 during the insertion thereof also produces sufficient resilient stretching and deforming and axial flexure of the sealingmember 32 to bring the straightslitted opening 38 into axial alignment with theopening 37 and at the same time compels the configuration of the slit to change to an approximately circular configuration. This permits the tube to penetrate and extend through theopening 38 in the sealing member as shown especially in FIG. 6.

It will be noted that the resiliently stretched, deformed and axially flexed annularmarginal portions 37a and 38a defining the axially alignedopenings 37 and 3%, respectively, are in radially superimposed, contacting, sealing relation one to the other. Also, the entire annular marginal portion 37:: is in sealing, contacting relation continuously about the tube 26', but only approximately onehalf of the peripheral extent of the annularmarginal portion 38a is in sealing contact with thetube 28, while the remainder of said peripheral extent of the annularmarginal portion 38a contacts and conforms to the axially inward flexed annularmarginal portion 37a as shown especially in FIGS. 4 and '6. The stretched, axially flexed marginal portion 33a radially backs and resiliently presses the stretched, axially flexedmarginal portion 37a against thetube 28, while the fluid pressure within the helmet further increases the radially inward pressing force exerted by themarginal portion 38a against themarginal portion 37a. This assures continuity of the seal between themarginal portion 37a and thetube 20, and also the continuity of the seal between themarginal portion 38a and the saidportion 37a andtube 20.

The tube 2% may have, for example, an outside diameter of A inch when the sealing members have the dimensions given hereinabove, and when the circular central sealing portions of the sealing members bounded by the margin 3i) of theend flange portion 27 and the radially inner margin of the retainingwasher 36 have a diameter of .437 inch. Also, when thecircular opening 37 has a inch diameter and is spaced of an inch from one side of a diametral center line A which is parallel to theslitted opening 38 as shown in FIG. 3, which slittedopening 38 has a length .281 inch and is spaced inch from the other side of said diametral center line .A. Thus, the tube 2th has a diameter which is four times that of thecircular opening 37, but is slightly less than the length of the slit providing theopening 38; consequently, the resilient stretching and deformation and axial flexing of the sealingmembers 31, 32 are of considerable magnitude in order to accommodate the tube and to bring the transversely spacedopenings 37 and 38 into axial alignment and at the same time efifect the seal about the wall of thetube 20. The tube is preferably of rigid metal or plastic material and desirably has itsfree end 20a of generally rounded configuration in cross-section.

Thehelmet 15 attached to theinflatable flying suit 19 as shown in FIG. 1 entirely encloses the wearers head and has an internal gaseous pressure or" approximately 3.5 pounds gauge pressure under high altitude (for example, 25,000= to 50,600 feet) flight conditions. This internal pressure causes the sealingmember 32 to press outwardly, uniformly and tightly against thesealingmember 31 when theclosure structure 17 is in its normal closed condition as shown in FIG. 1. Under the influence of this internal pressure, the sealingmembers 31, 32 at their central sealing portions with the spacedopenings 37, 38 may be bowed slightly in the direction toward the exterior of the helmet so that they no longer have their normal planar configuration shown in FIG. 5. However, this bowing has no effect upon the seal since theopening 38 is closed by the adjacent continuous wall of the sealingmember 31 and theopening 37 by the adjacent continuous wall of the sealingmember 32, while the remainder of the adjacent contacting initially planar surfaces of the sealingmembers 31, 32 further assure maintenance of the seal. Thus, no leakage can occur through theopenings 37, 38.

Theannular bead portions 33, 34 securely hold the sealingmembers 31, 32 against being forced out of their position between theend flange portion 27 and the retainingwasher 36, and also produce an effective Q-ring seal against thetubular housing 21 including theend flange portion 27 thereof and against the retaining washer as, all by virtue of their being held tightly between theend flange portion 27 and the retainingwasher 36 and their being seated within bead-receivingrecesses 23 and 35, respectively.

When the wearer wishes to eat or drink while the helmet is under the said internal gaseous pressure during flight at high altitude, the wearer holds acollapsible container 39 with liquid food or water therein in his hand, and then inserts therigid tube 26 which is attached to thecontainer 39, through theclosure structure 17 until the free end portion Ztla is in his mouth as shown in FIG. 2, after which insertion the container is manually collapsed to compel the contained liquid or liquid food to flow through the tube to the mouth. The insertion is accomplshed by forcing the rounded end portion Ztla of thetube 20 initially through thecircular opening 37 in the sealingmember 31. This simultaneously stretches and deforms and axially inwardly flexes both sealingmembers 31, 32 so as to bring the spaced-apartopenings 37, 38 into axial alignment and enlarge the diameter of theopening 37 and change the straightslitted opening 38 to an approximately circular configuration. The axially inward force exerted by the wearer compels the tube to pass entirely through both sealingmembers 31, 32 and project beyond the same, whereby the annular marginal portions 370: and 38a of theopenings 37 and 38 are resiliently srtetched and flexed axially inward of the closure in continuous contacting sealing relation with one another and with thetube 20 in the manner shown especially in FIG. 6.

The tube 2b of thecontainer 39 can be conveniently withdrawn from theclosure 17 by simply exerting rnanually an axial force in the direction towards the exterior of the helmet. Upon removal of thetube 20 the sealingmembers 31, 32 immediately retract and resiliently resume their normal undeformed substantially planar disposition With thecircular opening 37 and the straightslitted opening 38 closed against leakage by the coaction of the contacting central sealing portions of said members.

The modifiedclosure structure 40 shown in FIG. 7 is constructed and arranged like the closure structure 1'7 shown in FIGS. 3 and except that both openings at, 42 in the transvesre sealing members are circular and of the same diameter and equally spaced to opposite sides of a diametral center line A of the members with the centers of bothopenings 41, 42 located on the diametral center line B perpendicular to the first said diametral center line. The sealing members of theclosure structure 40 function substanially like the sealingmembers 31, 32 whereby the spaced-apartopenings 41, 42 are brought into axial alignment and their marginal portions seal against the tube by virtue of the resilient stretching, deformation and axial inward flexing of the sealing members, when thetube 20 is inserted forceably through the closure in the manner described hereinabove for theclosure structure 17. The closure structure also provides an effetcive seal when the tube 2%) does not extend through the structure.

The modified construction 45 shown in FIG. 8 is substantially like that of theclosure structure 17 except each of the transverse sealing members has a straightslitted opening 46 and 47. Theseopenings 46, 47 are of equal length and equally spaced from a diametral center line A of the sealing members and extend in parallel relation to such center line and to one another. The closure structure 45 including the said transverse sealing members thereof functions in substantially the same manner as theclosure structure 17 to effect a seal at the marginal portions defining theopenings 46, 47, when therigid tube 20 is forced through theopenings 46, 47 in the sealing members into the interior of the helmet. The closure structure 45 also provides an effective seal when thetube 20 does not extend through the structure.

The helmet with theclosure structure 17, for example, mounted in thevisor portion 16 as shown in FIGS. 9 and it), makes possible the smoking of acigarette 48 or a cigar during flight at high altitude. To this end, thetube 20 constitutes an element ofmeans 52 for engaging and holding a cigarette or cigar and for conducting the smoke from the burning cigarette or cigar. The means 52 comprises a rigid tube 2% of metal or plastic material having a bore therein extending from the openmonth end portion 20a through an intermediate portion 20b and terminating in acounterbore 20c in an opposite enlarged open end portion 280' of thetube 20. This provides an internal annular shoulder we at the juncture of the enlarged end portion Mid and the intermediate portion 20b. Theenlarged end portion 20d receives and holds an end portion of the cigarette orcigar 48.

A rigid centrallyapertured partition member 49 of hard rubber or other rigid plastic material is disposed transversely of the counterbore 2-30 at the shoulder Ziie and secured as by a suitable adhesive to the enlarged open end portion Zild. Theapertured partition member 49 provides anannular seating surface 49a at its axially inner face. A second rigid apertured member 50 of hard rubber, for example, is disposed in the uniform bore of the intermediate portion Zfib and secured to the wall thereof as by a suitable adhesive so that the members 4-9 and 5b are in axially spaced-apart fixed relation.

A movablerigid sphere 51 of suitable corrosion-resistant metal, for example, is disposed in the uniform bore in the intermediate portion 20b and adapted to abut and seal against theseating surface 49a of the member 4-9. A coiledcompression spring 53 of suitable metal extends between thesphere 51 and the member 5%) and resiliently urges the sphere 5]; against the seating surface 4%. This arrangement prevents the release of the internal fluid pressure and the outward flow of gaseous fluid from within thehelmet 15 through themeans 52 when the open end portion 25a is not within the wearers mouth; but permits the flow of smoke to the wearer when the latter applies suction to the open end portion Ztla of thetube 20. When the smoke is exhaled by the wearer into the space within the helmet, the smoke is exhausted into the flying suit and thence to the outside of the suit, but the means for elfecting such functions constitutes no part of the invention and accordingly is not shown.

The construction and arrangement of themeans 52 permits the cigarette or cigar to be lighted, if desired, before the tube 24} is inserted through the closure structure l7 and then into the mouth of the wearer, and avoids an outward rush of gaseous fluid under pressure which would burn the tobacco before the cigarette or cigar could be smoked. Thetube 20 ofmeans 52 is inserted and withdrawn in the manner described hereinabove, and when inserted, the sealingmembers 31, 32 effect the required seal against the tube as shown in FIGS. 9 and 10.

Variations such, for example, as provision of an access opening and its associated closure structure in a location other than the visor for temporarily admitting a rigid tube or other element through the wall of the helmet for purposes other than feeding, drinking and smoking, e.g., the provision of a further air supply in case of emergency, may be made Without departing from the scope of the invention as it is defined in the following claims.

I claim:

1. A helmet of generally domed configuration for attachment to a flying suit so as to entirely enclose the wearers head and adapted to be maintained at an internal fluid pressure exceeding that of the ambient atmosphere, said helmet including at its front a visor portion of rigid transparent material with an access aperture therethrough at its lower region for positioning in front of the wearers face with said aperture adjacent the mouth of the wearer, and penetrable sealing closure means mounted in said aperture in united sealing relation to said visor portion, said closure means including a transverse substantially planar sealing wall member of highly resilient elastomeric material divided intermediate its thickness throughout at least a central area thereof spaced from the periphery thereof providing a pair of superimposed substantially planar sealing portions of said elastomeric material, said sealing portions having adjacent substantially flat surfaces in continuous contact, when said wall member is in normal position, one of said sealing portions having an opening therethrough covered by the said flat surface of the other sealing portion and spaced from one side of a center line extending transversely of said wall member and the other sealing portion having an opening therethrough covered by the said flat surface of the first-mentioned sealing portion and spaced from the other side of the said transverse center line when said wall member is in said normal position, both said openings being brought temporarily into alignment and both marginal portions defining said openings being flexed in sealing contact with one another and with a rigid tube by virtue of resilient stretching and deformation of said sealing portions of the sealing wall member when the rigid tube is inserted through both said openings from the outside of the helmet and thereby penetrating said closure means.

2. A helmet of generally domed configuration for attachrnent to a flying suit so as to entirely enclose the wearers head and adapted to be maintained at an internal fluid pressure exceeding that of the ambient atmosphere, said helmet including a rigid wall portion with an access aperture therethrough, and a penetrable sealing closure structure closing said aperture in said Wall portion, said closure structure comprising a rigid tubular housing having a bore thereth-r-ough and a continuous annular wall disposed within said access aperture and secured in contacting sealing relation to the helmet wall portion, said housing having a continuousannular internal radial flange spaced from an'end thereof with an annular bead-receiving recess in the radially outer region of the axially inner surface of said flange, holding means within said bore in overlapping spaced relation .to said flange and detachably engaging said wall of the housing, said holding means including a continuous annular element providing in its axially inner surface a continuous annular bead-receiving recess opposite the said recess in said flange, and a substantially 'planar sealing wall member of highly resilient elastomeric material disposed transversely of said bore in the space between said flange and said holding means with peripherally-extending continuous bead portions of said sealing wall member seated in said recesses in contacting sealing relation to the Walls thereof thereby holding said sealing wall member within said housing to close said bore therein, said sealing wall member being divided substantially midway its thickness and throughout at least the major part of its area providing a pair of superimposed substantially planar sealing portions of said elastomeric material, said sealing portions having adjacent substantially flat surfaces in continuous contact when said wall member is in normal position, one of said sealing portions having an opening therethrough covered by the said flat surface of the other sealing portion and spaced from one side of a center line extending transversely of said sealing wall member and of said bore in the housing and the other sealing portion having an opening therethrough covered by the said flat surface of the first-mentioned sealing portion and spaced from the other side of the said transverse center line when said wall member is in said normal position, both said openings being brought transversely into axial alignent and both marginal portions defining said openings being flexed in sealing contact with one another and with a rigid tube by virtue of resilient stretching and deformation of said sealing portions of the sealing wall member when the rigid tube is inserted through both said openings from the exterior of the helmet and thereby penetrating said closure structure.

3. A helmet of generally domed configuration for attachment to a flying suit so as to entirely enclose the wearers head and adapted to be maintained at an internal fluid pressure exceeding that of the ambient atmosphere, said helmet including at its front a visor portion of rigid transparent material with an access aperture therethrough at its lower region for positioning in front of the wearers face with said aperture adjacent the mouth of the wearer, and a pentrable sealing closure-structure closing said aperture in said visor portion, said closure structure comprising a rigid tubular housing having a bore therethrough and a continuous annular wall disposed Within said access aperture and secured in contacting sealing relation to said visor portion, said annular wall having an annular internal radial flange in said bore at one end of said housing with a continuous annular bead-receiving recess in the axially inner surface and radially outer region of said flange, a continuous annular retaining Washer in said bore in overlapping spaced relation to said flange and having a continuous annular bead-receiving recess in its axially inner surface and radially outer region and in axial alignment with said recess in the flange, a pair of superimposed sealing members of highly resilient rubbery material and substantially planar disk configuration with superimposed substantially flat surfaces in continuous contact when said members are in normal position, said members being disposed transversely of said bore in the space between said flange and said retaining washer, and means detachably engaging said housing and said Washer to hold the latter and said sealing members in the housing, each sealing member including an integral bead portion of said resilient rubbery material extending continuously about its entire periphery and seating in the adjacent recess in contacting sealing relation to the wall thereof, one sealing member having an opening therethrough covered by the said flat surface of the other member and spaced from one side of a diametral center line of the member and the other sealing member having an opening therethrough covered by the said flat surface of the first-mentioned member and spaced from the other side of the said diametral center line when the members are in said normal position, both said openings being brought into axial alignment and both marginal portions defining said openings being flexed in sealing contact with one another and with a rigid tube by virtue of resilient stretching and deformation of said members when the rigid tube is inserted through both said openings from the exterior of the said helmet and thereby penetrating the said closure structure.

4. A helmet of generally domed configuration for attachment to a flying suit so as to entirely enclose the wearers head and adapted tobe maintained at an internal fluid pressure exceeding that of the ambient atmosphere, said helmet including at its firont a visor portion of rigid transparent material with an access aperture therethrough at its lower region for positioning in front of the wearers face with said aperture adjacent the wearers mouth, penetrable sealing closure means mounted in said aperture in sealing relation to said visor portion and including a trans verse deformable sealing wall member of highly resilient rubbery material having a pair of normally spaced openings in temporary alignment, and means including a rigid tube insertable through said openings in the wall member and adapted for engaging a source of fluid located adjacent and exterior of the helmet, said tube when inserted through the wall member, being in removable relation thereto extending from the exterior of the helmet through the temporarily aligned openings in said sealing wall member with marginal portions defining said openings resiliently stretched and deformed and flexed in sealing contact with one another and with the tube and said tube terminating within the interior of the helmet in an open end portion adapted to be disposed in the wearers mouth, said transverse sealing wall member in its normal position and non-deformed conditi n being generally planar and divided intermediate its thickness throughout at least a central area thereof spaced from the periphery thereof providing generally planar sealing portions of said rubbery material having adjacent substantially flat surfaces thereof in superimposed contact with one of said openings extending through one of said sealing portions and closed by said flat surfaces of the other sealing portion and arranged in transversely spaced relation to the other of said openings extending through the other sealing portion and closed by said flat surface of said one sealing portion, said sealing portions being resiliently stretchable and deformable to permit the temporary alignment of said openings when said tube is inserted from the helmet exterior through said sealing wall member of the closure means.

5. A helmet defined in claim 4 in which said means for engaging a source of fluid comprises said rigid tube having a bore therein extending from said open end portion through an intermediate portion of the tube and terminating in a counterbore in an opposite enlarged open end portion of said tube to provide an internal annular shoulder at the juncture of said enlarged end portion and said intermediate portion, a rigid centrally apertured partition member disposed transversely of said counterbore at said shoulder and united with the wall of the tube and providing an annular seating surface at the axially inner face of said member, a second rigid apertured member in said bore secured to said intermediate portion in spaced relation to the said partition member, a movable rigid sphere in said bore adapted to abut said seating surface, and a coiled compression spring extending between said sphere against said seating surface thereby preventing the release of the fluid pressure and outward flow of fluid from within said helmet, but permitting flow of fluid to the wearer when the latter applies suction to said tube.

6. A penetrable sealing closure structure for an access opening in a rigid wall of a flying suit helmet adapted to permit a tube to be temporarily inserted through and withdrawn from the said closure structure by operation externally of the helmet and adapted to seal against the insorted tube when the helmet is under an internal fluid pressure greater than that externally of the helmet, said closure structure comprising a tubular housing having a bore therethrough providing a continuous annular wall with an annular internal radial flange in said bore at one end of the housing, said internal radial flange having a continuous annular bead-receiving recess in its axially inner surface and radially outer region, a sealing member of highly stretchable resilient rubbery material and planar disk configuration with a thickness substantially less than its diameter disposed transversely of said bore in contact with said internal flange, said sealing member having at one planar face thereof an integral bead portion projecting axially and extending continuously about the circumference of the member and seated in and contacting the Wall of said recess, a separate second sealing member of highly stretchable resilient rubbery material and planar disk configuration with a thickness substantially less than its diameter disposed transversely of said bore with one planar face thereof in superimposed continuous contacting relation to the adjacent planar face of the first said sealing member throughout the area thereof when the members are in normal position, said second sealing member having at the other planar face thereof an integral bead portion projecting axially and extending continuously about the circumference of said second member, the first said sealing member having a circular tube-receiving opening therethrough closed by the adjacent planar face of said second member and spaced from one side of a diametr-al center line of the member and the said second sealing member having a tube-receiving opening of straight slit configuration therethrough closed by the adjacent planar face of said first member and spaced from the opposite side of and parallel with the said diamet-ral center line and spaced from said circular tube-receiving opening when the members are in normal position, said circular opening and said slitted opening being adapted to be brought into temporary axial alignment with both marginal portions defining the said openings axially flexed in sealing contacting relation to one another and to a rigid tube by virtue of resiliency, stretchability and deformability of the members when the said tube is temporarily inserted through both openings in said sealing members thereby penetrating the closure structure, a continuous annular retaining washer with a central opening therethrough superimposed upon and contacting said second sealing member, said retaining washer at its radially outer region having a continuous annular portion con :structed and arranged to receive and contact said h ad portion of said second sealing member, and means detachably engaging said housing and said retaining washer thereby holding said sealing members including said bead portions in sealing contact with said housing and said re- .taining washer.

7. A penetrable sealing closure stlucture for an access opening in the Wall of a flying suit helmet, said closure structure comprising a rigid tubular housing with an axial 'ibore therethrough and an annular flange extending radizally inward in said botre at one end of the housing providing a continuous annular recess at the radially outer region of the axially inner surface of the flange, an annular retaining washer in said bore in overlapping spaced relation to said flange with the radially outer portion of the washer axially offset relative to the radially inner portion thereof thereby providing a continuous annular 12 recess in axial alignment with and opposite said recess in the flange, a pair of superimposed sealing members of highly resilient rubbery material and planar disk configuration with superimposed adjacent substantially flat surfaces in continuous contact when the members are in normal position, said members being disposed transversely of said bore in the space between said flange and said retaining washer, and means detachably engaging said housing and said retaining Washer to hold the latter and said sealing members in the housing, each sealing member including an integral head portion of said resilient rubbery material extending continuously about its entire periphery and seating in the adjacent recess in contacting sealing relation to the wall thereof, one sealing member having an opening therethrough closed by the said fiat surface of the other member and spaced from one side of a diametral center line of the member and the other sealing member having an opening therethrough closed by the said flat surface of said one member and spaced from the opposite side of said diametral center line when said members are in normal position, both said openings being brought into axial alignment and both marginal portions defining said openings being axially flexed in sealing contact with one another and with a rigid tube by virtue of resilient stretching and deformation of said sealing members when the rigid tube is inserted through both said openings and thereby penetrating said closure structure.

8. A helmet of generally domed configuration for attachment to a flying suit so as to entirely enclose the wearers head and adapted to be maintained at an internal fluid pressure exceeding that of the ambient atmosphere, said helmet including a rigid wall portion with an access aperture therethrough, and a penetrable sealing closure structure closing said aperture in said wall portion, said sealing closure structure comprising a pair of resilient, elastomeric, superimposed sealing members with superimposed substantially flat surfaces in contact one to the other and with a separate opening in each member and with said openings out of alignment, when the members are in normal position, so that the closure structure is rendered air-tight by contact of said flat surfaces on the members, said sealing members being elastically deformed by sequential insertion of an element through the openings in said members from the exterior of said helmet to bring the openings into alignment to permit the said element to be pushed through said openings, thereby penetrating the closure.

9. A penetrable sealing closure structure comprising a pair of similarly resilient elastomeric superimposed sealing members each including a flat surface disposed transversely of the closure structure with the flat surfaces of the sealing members in superposed contact one to the other and with a separate opening through each member in a portion thereof having said flat surface and with said openings out of alignment, when the members are in normal position, so that the closure structure is rendered airtight by contact of said flat surfaces on the members, the thickness of each of said sealing members being less than the least transverse dimension of the closure structure so that both members are elastically deformed by sequential insertion of an element through the openings in said members to bring the openings into alignment to permit the said element to be pushed through said openings, thereby penetrating the closure.

10. A penetrable sealing closure structure as defined in claim 9 in which one of said openings is spaced from and located wholly to one side of a line which extends transversely of the closure structure, and the opening in the other sealing member is spaced from and located Wholly to the opposite side of said line.

11. A penetrable sealing closure structure as defined in claim 9 in which one of said openings is circular and is spaced from and located wholly to one side of a line which extends transversely and centrally of the closure structure, and the opening in the other sealing member is a straight slit which is spaced from and located wholly to the opposite side of said line.

12. A penetrable sealing closure structure comprising a rigid tubular housing provided with axially spaced facing annular recesses, and a pair of resilient elastomeric superimposed sealing members of flat disk shape each including a flat surface disposed within and transversely of said tubular housing with the flat surfaces of the sealing members in superposed contact one to the other and with a separate opening through each member in a portion thereof having said fiat surface and with said openings out of alignment, when the members are in normal position, so that the closure structure is rendered airtight by contact of said flat surfaces on the members, each of said sealing members being provided with a peripherally extending annular bead in the non-contacting surface of the member, each annular bead being seated in one of said annular recesses in said tubular housing, and the thickness of each of said sealing members being less than the least transverse dimension of the closure structure so that the members are elastically deformed by sequential insertion of an element through the openings in said members to bring the openings into alignment to permit the said element to be pushed through said openings, thereby penetrating the closure.

13. A penetrable sealing closure structure comprising a pair of resilient elastomeric superimposed sealing members each including a flat surface disposed transversely of the closure structure with the flat surfaces of the sealing members in superposed contact one to the other and with a separate opening through each member in a por- 14 tion thereof having said flat surface and with said openings out of alignment, when the members are in normal position, so that the closure structure is rendered airtight by contact of said flat surfaces on the members, the thickness of each of said sealing members being less than the least transverse dimension of the closure structure so that the sealing members are elastically deformed by sequential insertion of an element through the openings in said members to bring the openings into alignment to permit the said element to be pushed through said openings, thereby penetrating the closure, and a rigid tubular housing including means detachably mounting the sealing members within and transversely of the tubular housing, said housing including guide means for guiding said element into the said opening in one of said sealing members.

References Cited in the file of this patent UNITED STATES PATENTS 183,521 Weck Oct. 24, 1876 1,366,437 Wagenhorst Jan. 25, 1921 2,011,562 Crowley Aug. 20, 1935 2,151,466 Eken Mar. 21, 1939 2,183,900 Voit et al Dec. 19, 1939 2,589,716 Marsh Mar. 18, 1952 2,667,986 Perelson Feb. 2, 1954 2,689,564 Adams et a1 Sept. 21, 954 2,755,060 Twyman July 17, 1956 2,757,843 Smith Aug. 7, 1956 2,761,593 Spiess et a1 Sept. 4, 1956 2,857,911 Bennett Oct. 28, 1958

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