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Publication numberUS3111134 A
Publication typeGrant
Publication dateNov 19, 1963
Filing dateAug 4, 1961
Priority dateAug 4, 1961
Publication numberUS 3111134 A, US 3111134A, US-A-3111134, US3111134 A, US3111134A
InventorsRufus H Musser
Original AssigneeRufus H Musser
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Supply and exhaust valve for a pressure chamber
US 3111134 A
Abstract  available in
Images(2)
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Claims  available in
Description  (OCR text may contain errors)

3,11 1,134 SUPPLY AND EXHAUST VALVE FOR A PRESSURE CHAMBER Filed Aug. 4; 1961 R. H. MUSSER Nov. 19, 1963 2 Sheets-Sheet 1 INVENTOR Rufus H. Musser ATTORNEYS SUPPLY AND EXHAUST VALVE FOR A PRESSURE CHAMBER Filed Aug. 4, 1961 R. H. MUSSER Nov. 19, 1963 2 Sheets-Sheet 2 Fly 6 INVENTOR Rufus H. Musser 6 BY fi 7 m F a; w a m F ATTORNEYS United States Patent Olhce 3 ,lll,l3 i Patented Nov. 19, 1963 3.111,134 SUPPLY AND EXHAUST VALVE EUR A PRESSURE CI-EAMEER Rufus H. Musser, PM). Box 899, Graham, Tex. Filed Aug. 4, 1963, Ser. No. 129,343 2 Claims. (Cl. 137-1ll2) This invention relates to new and useful improvements in wringers for Chamois, wiping colths and the like.

One object of the invention is to provide an improved wringer for chamois and wiping cloths after wash ing and/or rinsing thereof having means actuated by air or other fluid under pressure to squeeze excess moisture from the chamois and cloths whereby the wringer may be employed conveniently by service stations and garages or any place having a supply of compressed air or other fluid under pressure.

Another object of the invention is to provide an improved chamois Wringer of the type having an open top bag of flexible material for receivim the chamois to be wrung and surrounded by a chamber adapted to receive air or other fluid under pressure for collapsing the bag to squeeze water or liquid from the chamois, wherein said bag has a drain opening in its bottom and means between its side walls for preventing complete flattening of said bag and for conducting the water or liquid to the bottom thereof.

A particular object of the invention is to provide an improved wringer, of the character described, wherein the collapsible bag has upright grooves extending longitudinally of its side walls for conducting water or liquid squeezed from the chamois to the bottom of said bag and a porous member for preventing complete flattening of said bag as well as for coacting with the grooves.

A further object of the invention is to provide an improved wringer, of the character described, wherein the porous member has a tubular portion extending transversely of the bag adjacent its drain opening to prevent collapsing of the bottom of said bag and to direct water or liquid into the opening.

An important object of the invention is to provide an improved charnois wri-nger, of the character described, having a novel valve for controlling the admission of air or other fluid under pressure to the chamber thereof and for venting air or fluid from said chamber when it exceeds a predetermined pressure.

A construction designed to carry out the invention will be hereinafter described, together with other features of the invention.

The invention will be more readily understood from a reading of the following specification and by reference to the accompanying drawings, wherein examples of the invention are shown, and wherein:

FIG. 1 isa side elevational view of a chamois wringer constructed in accordance with the invention,

KG. 2 is an enlarged, transverse, vertical, sectional view, taken on the line 2-2 of FIG. 1,

FIG. 3 is a transverse, vertical, sectional view, taken on the line 33 of FIG. 2,

FIG. 4 is a horizontal, cross-sectional view, taken on the line 3- 5 of FIG. 2,

FIG. 5 is a transverse, vertical, sectional view of a valve for controlling the admission of air or other fluid under pressure to the compression chamber of the wringer,

FIG. 6 is a view, similar to FIG. 5, of the valve in its closed position,

FIG. 7 is a view, similar to FIG. 5 of the valve in its venting position, and

P16. 8 .is an enlarged, horizontal, cross-sectional View, taken on the line 8-8 or" FIG. 7.

in the drawings, the numeral 1'!) designates the upright casing or housing of 1a wringer for chamois, wiping cloths and the like which has a cylindrical side wall 11, a flat, horizontal bottom wall 12 and an open, upper end 13 (FIG. 2). An angular bracket or hook 14 is mounted on the side wall it to permit hanging of the housing within a tub or container (not shown) of water and/or cleansing solution. The upper end 13 of the housing to is surrounded by an external, radial flange or lip 15 for supporting a top plate or cap 16 which may be angular in cross-section so as to have an annular lip or skirt 1? depending in spaced, concentric relation to the side wall. A plurality of screws lltl fasten the cap 16 to the flange 15', and said cap has a large, rectangular opening 19 therein to permit access to the interior of the housing.

An open-top bag or tubular membrane 2d, of rubber, plastics or other suitable flexible, impervious material, is suspended within the housing it) by an external, radial flange or lip 21 at its upper end clamped between the flange 15 of said housing and the overlying cap to by the screws 18 so as to close and seal the upper end of said housing and -rovide a compartment or chamber 22 therein. The bag 21? is of elongate, rectangular crosssection, complementary to the cap opening 1%, and has substantialy flat, upright end and side walls 23 and spaced from the housing side wall .11 (FIG. 4). As shown by the numeral 25 in FIG. 3, a reduced sump is form d in the bottom of the bag by reducing the width or" the lower end portions of its end walls 23 and by the lower end portions of its side Walls 24 being curved inwardly and converging to form a rounded bottom wall 26 for said bag and its sump. The bottom wall 26 is adjacent the bottom wall 12 of the housing and a pair of outlet fittings 27 extend through said walls to permit draining of the bag 2%? and its sump 25. To further facilitate draining of the bag as well as prevent complete flattening upon collapsing thereof, a plurality of internal, spaced projections or ribs 28 and 29 extend longitudinally of the side and end walls so as to provide flow channels or grooves 3d and 3t therebetween. Preferably, the ribs are parallel and the side wall ribs 23 are of greater length and depend below the end wall ribs 2) into the upper portion of the sump 25.

As shown in 163. 2 and 3, the sump is substantially cylindrical and is reinforced by a porous, tubular member 32, of wire or plastics mesh or other suitable foraminous or reticulated material, which is complementary to and of substantially the same length as said sump. A coextensive, rectangular extension 33, of the same material, upstands from the member 3.2 between and in spaced relation to the lower portions of the side wall ribs 23 and below the end wall ribs 25" for preventing complete collapsing of the lower portion of the bag 29 immediately above its sump 25. If desired, the tubular member may have several concentric layers and the extension 33 may be made integral with the outer layer thereof. Accidental displacement of the member 33 from the sump is prevented by overlying projections or enlargements 34 at the lower ends or the ribs 28; however, insertion and removal of said member is permitted by the flexibility of the bag.

The chamois or wiping cloth to be wrong is dropped into the bag 26 through its open top and excess water or moisture is squeezed therefrom by collapsing and flattening of said bag. Due to the tubular member 32, the chamois or cloth is prevented from falling into the sump 25 and blocking the drain openings provided by the outlet fittings 27. Also, the member prevents collapsing of the sump. The ribs 28 as veil as the ribs 29 and the extension 33 of the member prevent complete fiattening of the bag and the water squeezed from the Chamois or cloth is directed to the sump by the channels 3% and 31 between said ribsas well as by said extension. For collapsing the bag, the chamber 22 is adapted to be filled with air or other fluid under pressure. It is noted that the material of the bag is relatively thick and has sufiicient elasticity or resiliency to cause said bag to resume its original shape when the pressure in the chamber is released.

For controlling the admission and exhaust of air or other iluid to and from the chamber 22, a manual control valve 35 is provided. and includes an elongate body 35 having a cylindrical bore or passage 37 extending longitudinally therethrough (FIGS. -8). The medial portion of the bore 37 communicates with the upper portion of the chamber through a lateral nipple or pipe 38. An inlet fitting 39 is screwthreaded in the lower or one end of the bore for connecting thereto a hose 4% which leads from a source of air or fluid supply (not shown). Preferably, a portion of an angular bracket 41, mounted on-the housing side wall lll, is confined between the fitting 39 and the lower end of the valve body 36 for supporting said body in an upright position. The opposite or upper end of the bore 37 is enlarged to provide a counterbore 42 which has an end cap 43 screwthreaded thereinto and which communicates with radial outlet ports 44 in the valve body 35 (FIG. 8). An axial recess or socket 45 is formed in the cap 43 to receive a helical spring 46 and communicates with an axial, reduced opening 47 in the outer extremity of said cap. The upstanding, axial collar 48 of an annular valve element or plate 4h, complementary to the bore 37 and reciprocable between said bore and the counterbore 42, is confined in or surrounded by the inner end of the spring 45. An O-ring or other annular packing Si is carried by the periphery of the valve element 49 for sealing engagement with the counterbore to control flow therefrom through the outlet ports 44.

As shown by the numeral 5'1, bore of the body 36 is reduced in diameter between its connection to nipple 38 and inlet fitting 39 for coacting with a circular valve member or disk 52 having an O-ring or other annular packing 53 on its perpihery for sealing engagement with the reduced bore to control flow from said fitting to said nipple. An elongate rod or stem 54 extends axially upward from the valve member 52 through the valve element 49, its collar 4%, spring 46 and opening 47 so as to project from the upper end of the valve body above its cap 43 for supporting an overlying, enlarged head or knob 55. As shown in FIG. 5, the valve member is positioned below the reduced bore 51 when the rod 54 is depressed to engage its knob 55 with the cap. A circular enlargement or disk 56 is provided on the intermediate portion of the rod for engaging within an annular recess 57, formed in the underside of the valve element 4-9 concentrically of its bore, and has an overlying O-ring or other packing 58 thereon for engaging the bottom of the recess so as to seal off between said rod and element.

When air or other fluid under pressure is supplied to the valve 35 through the hose iii, the valve member 52 is lifted into the reduced bore El of the valve body 36 to prevent flow to the nipple 38 and the chamber 22 of the housing (FIG. 6). Due to this upward movement, the disk 56 of the rod 54 engages in the recess 57 of the valve element 49 and raises said element into engagement with the inner end of the cap 43 so as to compress the spring 46 and prevent additional upward travel. The outlet ports 44 communicate with the housing chamber through the bore 37 to permit the escape of any pressure therein, and the knob 55 of the rod is spaced above the cap. By depressing the rod 54, the valve member 52 is lowered out of the reduced bore 51 to permit the flow of air or fluid therethrough into the Lad medial portion of the bore 37 and through the nipple 38 into the housing chamber 22 (FIG. 5) so as to collapse the bag it The disk 55 moves downwardly with the rod to permit the compression of the spring to force the valve element 49- downwardly from the counterbore 4-2 into sealing engagement with the bore so as to prevent the escape of the air or fluid through the outlet ports.

When the pressure in the housing chamber exceeds the force of the compressed spring 46, the valve element 49 is forced upwardly out of the bore 37 into the counterbore so as to compress said spring and permit the venting of the excess pressure through the outlet ports 44 (PEG. 7). This relief. of the pressure prevents the collapsible bag 2% from being exposed to excessive pressure which might rupture or otherwise damage said bag in the event that the knob 55 of the rod 54 is held down so as to keep the valve member 52 open, the fluid merely flowing through the bore of the valve body and holding the valve element in the counterbore 42. Upon release of the knob 55, the valve member 52 is lifted into sealing engagement with the reduced bore 51 to stop the admission of air or fluid to the housing chamber 22. The valve element 49 rises, with the valve member, out of sealing engagement with the bore 37 into the counterbore 42 so as to compress the spring 46 and permit the escape of air or iluid from the chamber through the outlet ports dd (FIG. 6) whereby the bag 2% returns the the position shown in FIGS. 24. Ma-nifestly, the use of air is preferred since it may be exhausted safely to the atmosphere.

T he foregoing description of the invention is explanatory thereof and various changes in the size, shape and materials, as well as in the details of the illustrated construction may be made, within the scope of the appended claims, without departing from the spirit of the invention. What I claim and desire to secure by Letters Patent is:

l. A valve for controlling the flow of fluid under pressure into and out of a pressure chamber including a body having a bore, the bore having a pressure fluid inlet at one end portion and an outlet at its opposite end portion and comunicating with the chamber therebetween, a valve member freely reciprocable in said bore inwardly of the inlet for controlling the flow of pressure fluid to the chamber and movable to closed position solely by the pressure fluid, a valve element reciprocable in said bore adjacent the outlet for controlling communication therebetween, the valve member having a portion extending slidably through the valve element to the exterior of the body to permit manual movement of said valve member to opened position and engageable with said valve element to hold the same in opened position when said valve member is closed, and spring means for holding said valve element in closed position when said valve member is opened and assisting in holding said valve member opened due to the aforesaid engagement, the spring means permitting opening movement of said valve element by the pressure fiuid whenever the fluid in said bore exceeds a predetermined pressure due to manual holding of said valve member in its opened position, the opening movement of said valve element disengaging said valve element from said valve member to permit closing movement of said valve member by the pressure fluid and reengagement of said valve member with said valve element to move said valve element to opened position when said valve member is released.

2. A valve as set forth in claim 1 wherein the valve member is spaced from the valve element and wherein the slidably extending portion of said valve member includes a rod having an enlargement for engagement and disengagement with said valve element.

1 eferences on followin a e References Cited in the file of this patent UNITED STATES PATENTS Randall et a1. Feb. 7, 1922 Vail et a1 Mar. 25, 1924 Alward Oct. 31, 1939 Smith May 5, 1942 Fraser July 4, 1950 Bilde et a1. May 1, 1956 6 Schuky Sept. 17, 1957 Parr Dec. 16, 1958 FOREIGN PATENTS France Sept. 2, 1957 France Dec. 16, 1946 France Nov. 29, 1948 Austria Apr. 10, 1961

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US1405440 *Jul 26, 1919Feb 7, 1922Goodyear S Metallic Rubber ShoProcess for solidifying pulverulent material
US1488414 *Apr 17, 1923Mar 25, 1924Stuber Charles EClothes-washing device
US2178385 *Jan 14, 1939Oct 31, 1939Francis AlwardClothes wringer and rinser
US2281605 *Feb 7, 1939May 5, 1942Albert Leslie GordonFluid pressure control device
US2513304 *Feb 19, 1945Jul 4, 1950Fraser Lloyd FHydraulic pump unloading valve
US2743599 *Aug 21, 1951May 1, 1956Electrolux AbApparatus for washing clothes
US2806484 *Dec 27, 1951Sep 17, 1957Charles SchultzAutomatic safety flow control valve
US2864395 *Feb 14, 1955Dec 16, 1958Keith ParrPressure control apparatus
AT214394B * Title not available
FR67273E * Title not available
FR920000A * Title not available
FR945598A * Title not available
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3209872 *Apr 19, 1962Oct 5, 1965Int Harvester CoIndependent power take-off with clutch and anti-creep brake
US3269157 *Jul 16, 1964Aug 30, 1966Aqua Air IncWringer
US5257640 *Oct 18, 1991Nov 2, 1993Delajoud Pierre RFine pressure control system for high pressure gas
Classifications
U.S. Classification137/102, 68/242, 137/596.2, 68/42, 137/625.27
International ClassificationF16L29/00, D06F47/00
Cooperative ClassificationF16L29/00, D06F47/00
European ClassificationD06F47/00, F16L29/00