US2994892A - Automatic outboard motor guard - Google Patents

Description

` l1g- 8, 1961 J. B. o. PARADIS 2,994,892

AUTOMATIC OUTBOARD MOTOR GUARD Filed 001'.. 2, 1959 2 Sheets-Sheet 1 Aug. 8, 1961 1. B. o. PARADIS AUTOMATIC OUTBOARD MOTOR GUARD 2 Sheets-Sheet 2 Filed OOC. 2, 1959 /40 /72 /38 /oge' INVENTOR.

United States Patent 2,994,892 AUTGMATIC GU'I'BOARD MOTGR GUARD Jean B. 0. Paradis, 434 Linnet Court, Corpus Christl, Tex. Filed Oct. 2, 1959, Ser. No. 844,051 6 Claims. (Cl. 9-9) This invention relates to devices for oating otherwise sinkable objects in water by means of automatic inflation by gas of bladder-like floats attached to the objects arranged to be caused by submersion of such objects in water, as when such objects fall from boats.

The primary object of the invention is to provide a more eiiicient, eiective, and reliable device of the character indicated, which includes means for automatically avoiding unnecessary and potentially dangerous overination of the bladder iloat, and for automatically reinating the oat, upon leaking or loss of pressure of gas from the oat due to such as drops in temperature, and for automatically venting excess gas pressure in the oat due to such as rises in temperature.

Another object of the invention is to provide, in a device of the character indicated above a more stable and mechanically and hydraulically eiicient gas cartridge puncturing and gas ilow control valve means, for producing and controlling inflation of the bladder oat, which obtains the desirable ination results outlined above, in conjunction with improved water-withholding automatic gas valving means connected to the float, which operate `also as a safety valve.

A further object of the invention is to provide a more conveniently installable device of the character indicated above which is composed of a gas cartridge carrying and valving unit, and -a separate bladder oat containing unit, which are devised for installation at adjacent but different locations on a sinkable object to be guarded, so as to make possible and feasible the installation of the device on an object, such `as an outboard motor, without hannfully or inconveniently increasing the bulk or interfering with the operation of components of the object, and so that greater compactness and conformance of the device to an object is obtained than would be available in a single unit device.

A still further object of the invention is to provide a device of the character indicated above wherein Freon gas, which is safer to use than CO2 gas, can be used instead of CO2 gas.

Yet another object of the invention is to provide a device of the character indicated above which is uncomplex in construction, is composed of a small number of simple and easily assembled and easily serviced and long life parts, and which can be made in Well-finished and rugged forms at relatively low cost.

Other important objects and advantageous features of the invention will be apparent from the following description and the accompanying drawings, wherein for purposes of illustration only, a specific form of the invention is set forth in detail.

In the drawings:

FIGURE 1 is a rear elevation showing a device of the invention installed on an outboard motor mounted on the transom of a boat;

FIGURE 2 is a horizontal section taken on the line 2-2 of FIGURE l; k

FIGURE 3 is an enlarged central vertical section taken through the valving unit, showing the bellows expanded and the cartridge piercing pin in elevated relation to a gas cartridge mounted to the unit;

FIGURE 4 is a view like FIGURE 3, showing the bellows partially collapsed and the pin depressed to an intermediate position;

FIGURE 5 is a fragmentary view like FIGURE 4,

Patented Aug. 8, 1961 showing the bellows fully collapsed and the pin piercing the gas cartridge, and the valve closing the discharge Port;

FIGURE 6 is Ia fragmentary view like FIGURE 5, showing the pin elevated out of the gas cartridge and the valve elevated to uncover the discharge port;

FIGURE 7 is a horizontal section taken on the line 7-7 of FIGURE 3;

FIGURE 8 is an enlarged vertical central section taken through the oat unit, showing the iioat bladder conined in an uninated collapsed condition;

FIGURE 9 is a fragmentary schematic side elevation showing the float out of the oat unit and in partially inated condition and floating the outboard motor below the surface of water;

FIGURE l0 is a view like FIGURE 9 showing the oat fully inated and floating the outboard motor at the surface of the water;

FIGURE l1 is a vertical section taken through the oat relief and safety valve, showing the same in open position, in contrast to the closed position thereof shown in FIGURE 8;

FIGURE lla is a vertical section taken at right angles to FIGURE ll; and

FIGURE 12 is 4a view like FIGURE 3 taken through another form of valving unit of the invention, for use with a Freon gas cartridge, the valve being in closed position.

Referring in detail to the drawings, wherein like and related numerals designate like and related parts throughout the several views, and lirst to FIGURES 1 to 12, thereof, the device illustrated therein comprises agas valving unit 16, and a bladderiloat containing unit 18.

Thevalving unit 16 comprises a rigid hollowcylindrical container 20, of suitable non-corrosive material, having an imperforatetop wall 22, aside wall 24, `and abottom wall 26.lThe side wall 24 is formed with upper circumferentially spaced, suitably screened,water entrance holes 28, and with lower screenedwater entrance holes 30 which are spaced from thebottom wall 26. Thebottom Wall 26 is imperforate except for acentral opening 32, which is surrounded by a dependingcollar 34, andvent holes 36 located close to thecentral opening 32.

Extending upwardly through, and suitably fixed to and in thecentral opening 32 and thecollar 34, is a verticaltubular housing 38, which has acompound bore 40 extending therethrough which is composed of a threadedsocket 42 in the lower end of the housing, opening into a smooth walled lower bore portion orcylinder 44, which has a shoulder 46 at its upper end. At its upper end thecylinder 44 opens into an upper smallerdiameter bore portion 48.

Working vertically in thecylinder 44 is a component piston 50 which comprises a at lowerrigid disc 52 having on its underside a fixedcentral piercing point 54, an upper iiatrigid disc 56, and a exible and compressible sealing disc 58 located between thediscs 52 and 56. The exible disc 58 comprises a relatively largecross section rim 60 and a relatively thin, easily exiblecentral portion 62. As shown in FIGURE 3, theupper piston disc 56 has an elevated starting position in stop engagement with the shoulder 46. The enlargedrim 60 of the flexible disc 58 is seated in an annular groove 64 formed in the wall of thecylinder 44 at a location near to and spaced from the shoulder 46.

kTheupper piston disc 56 has anaxial opening 66 through which works the lower part of aplunger 68 which extends slidably through a vertical axial tubularfixed extension 69 on and rising from theupper disc 56 around the opening 66, and having an upper end 70 l on a level with theupper end 72 of the tubular housing A. -n www i V 2,994,892 V' 38. Theplunger 68 extends above thehousing 38 and has fixed on its upper end, as by means of astud 74, threaded through the center of a supportingplate 76, and into the center of arigid top plate 78, thetop plate 78 being smaller in diameter than thecontainer 20 and having aperipheral edge 80 which is close to and concentrically spaced from thecontainer side wall 24.

Thetop plate 78 is the top wall of acylindrical bellows 82, which comprises a flexible impervious cover 84 which has a top portion 86 overlying and secured upon thetop plate 78, aside wall portion 88 depending from the top vportion 86 around theedge 80 of thetop plate 78,

and an annular internal ange portion 90 on the lower end of theside wall portion 88. Upper andlower stilfening rings 92 and 94, respectively, are engaged with opposite sides of the flange portion 90, and are secured thereto and together bystuds 96. Thelower ring 94 is wider than theupper ring 92, and itsopening 98 is dimensione/d to slidably receive the relatively large diameter lower part of thetubular housing 38. Thebellows 82 is closed except for circumferentially spacedair transfer holes 100 which are provided in thelower ring 94 and which are registered with theholes 36 in thecontainer bottom wall 26.

At a point `below thecollar 34 the side wall of thehousing cylinder 44 is traversed by a threadedhole 102 into which is threaded anipple 104 on the related end of agas pipe 106 which leads tothev oat unit 18. Threaded up into thesocket 42 in the lower end of thehousing 38 is theneck 108 of aCO2 gas cartridge 110, with alead washer 112 interposed between the upper end of the neck V108 and thetop 114 o f the socket. The opening 116 in thewasher 112 exposes a relatively thinpuncturable disc 118 which closes and seals thecartridge 110. Suitable bracket means 120, secured to and preferably clamped around thecartridge 110, is provided for mounting thevalviug unit 16 on the object to be floated, such as anoutboard motor 122, the bracket means .,120 being preferably secured to one side of the verticalpropeller shaft column 124 of the moto-r.

Whenever either through sinking of aboat 126, on which themotor 122 is mounted, or detachment of the motor therefrom and sinking `of the motor in water, water enters thecontainer 20, through the screenedside wall holes 28 and 30, thebellows 82 is compressed by the water so that the bellows is` collapsed downwardly as shown in FIGURE 4, so that theside wall 88 is pushed inwardly `and thetop plate 78 moves downwardly, so as to depresstheplunger 68. Theplunger 68 has a reduceddiameter tip 128 on its lower endwhich, when g theplunger 68 reaches an intermediate'depressed position, as shown in FGURE 4, indents the llexiblecentral portion 62 of the llexible disc 58, pulls the disc 58 out of the groove 64, and starts the piston 50 downwardly in thehousing 38. As the collapsing water pressure increases, on thebellows 82, theplunger 68 moves further downwardly, accompanied by the piston 50, until thepoint 54 engages and distorts the flexibledisc 58 downwardly and pushes thepiercing point 54 through theclosure disc 118 of thegas cartridge 110, as shown in FIGURE 5.

The pressure of the gas emerging from thecartridge 110 through the rupturedclosure disc 118, acts upon the lower end of thelower piston disc 52 so as to force the piston upwardly until thelower disc 52 clears above thebore 102, so that gas flows from the cartridge to theunit 18 throughthepipe 106. Providing controlled resistance to upward displacement of the piston 50 by gas issuing from thecartridge 110, is ahelical spring 130 which is circumposed on theextension 69 and theplunger 68 and is compressed between thetop plate 78 and theupper piston disk 56. Thelower stiifening ring 94 at the bottom of the bellows has compressible spacing pads 132on its underside, to engage the upper surface of thebottom wall 26 of thecontainer 20, so as to maintain Y 4 communication, via the openings and 36, between thebellows 82 and the interior of thecontainer 20, and between thecontainer 20 and the air or water outside of the container, which would be interrupted by direct engagement of the bellows bottom with thecontainer bottom wall 26. It is to be noted that when inactive the spring is not loaded, and is, therefore, not subject to loss of tension incidental to springs which are constantly under tension.

The alternative form of valving unit shown in FIG- URE 12, and generally designated 16a, is devised to be made in larger sizes than the above describedunit 16, and to accommodate the use of a Freon gasV cartridge l10n, which enhances `the safety of the device. The container 20a and bellows 82a are the same as in theunit 16, but the tubular housing 38a differs from thehousing 38.

The housing 38a has a single bore 40a which opens at its lower end in a threadedsocket 132 in the lower end of the housing, into which the verticaltubular arm 134 of an adapter 136 is threaded. The adapter y136 comprises a verticaltubular body 138 having a threaded socket 42a in its lower end, into which is threaded the neck 108:1 of a -Freon gas cartridge 110er. A first lateraltubular arm 140 on the adapter 136 is plugged by anaccess plug 142. A second lateraltubular arm 144 on the adapter 136 on the side opposite thefirst arm 140 and upwardly offset relative thereto, is substantially closed by a restrictedaperture 146. Acoupling ange 148 on the outer end of thearm 144 retains acoupling nut 150, engaged on the arm `144, which can be coupled to thegas pipe 106 of theunit 18.

Working in the bore 40a o-f the housing 38a is a plunger 68a which is secured at its upper end, as indicated at 74a, to the bellows top plate 78a. A helical spring 130a is circumpotsed on the upper part of the housing 38a, and is compressed between the bellows top plate and ashoulder 152 provided on the housing 38a within the bellows 82a. The plunger 68a has a squared lower end 128a arranged upon collapse of the bellows 82a to engage the upper end of and depress a portion 50a which works freely in the bore 154 of theadapter arm 134 and is surrounded by a packing ring 156 which is removably seated in a groove 158 in the bore 154.` The piston 50a has a stern 160 depending from its lower end which has alower end 162 which is normally spaced above adisc 164 on the upper end of the stem 166 of a tappet valve 168. A bevelled valve head on the lower end of the valve stem 166 is located beneath a bevelled valve seat 172 which is provided at the upper end of the socket 42a. Ahelical valve spring 174 is circumposed on the valve stern 166 and is compressed between thedisc 164 and aspider 176 through which the valve stem 166 works. Downward collapse of the bellows 82a upon entrance of water tinto the container 20a., incidentalV to sinking in water of the object to which the container 20a is attached, depresses the piston 68a, so that the piston 50a is depressed, and thevalve head 170 isk depressed out of engagement with the seat 172, so that gas can flow from the cartridge 110:1, to thecoupling arm 144 of the adapter, and flow to the float unit'v18, through the-gas pipe 106.

Theoat containing unit 18 as shown in FIGURES 8 to 10, comprises a nigid vertically elongated and preferably rectangularimpervious container 174, having anopen bottom 176,side walls 178, atop wall 180, and anend wall 182, the other end of thecontainer 174 being open and being closed by adoor 184 which has a hingedbottom section 185 whichis hinged at `186 to the lower end of theend wall 182. Thedoor 184 has on its upper end anexternal detent 188,' over which is releasably engaged `a spring keeper secured upon the upper side of thetop wall 192. Bar magnets and 196 are xed to the inward sides ofY thedoor 184 and containertop wall 192, respectively, and are disposed to engage in the closed position of the-door, the attraction of the magnets and retentive'force of the keeper I190 anddetent 188 being suicient to keep. the door closed unless and until thebladder float 194 thecontainer 174 is iniiated with gas from theunit 16 or 16a.

Secured rigidly through thetop wall 192 of thecontainer 174 and disposed at an acute angle thereto, is agas pipe section 196 and avalved safety pipe 198 which are in parallel spaced relation to each other, and have open lower ends 200 and 202, respectively, xed through ablock 204 which is suitably secured to the underside of thetop Wall 192. Theblock 204 is in the form of a plug for the reducedopen end 206 of the elongated bladder :oat 194. Theloat 194 is enclosed within aprotective net 197 and when uniniiated, can be folded back and forth between its ends, as shown in FIGURE 8, and confined within the -container 174, between theend wall 182 and thedoor 184, so that when the oat expands as it is inated, it initially pushes thedoor 184 to open position, as shown in FIGURE 9, and emerges partly from thecontainer 174 through its open end, and then expands further to inal full contour, as shown in FIGURE 10, whereby the sinkable object, such as theoutboard motor 122, is tilted and is oated up in the water W, until thefloat 194 rides at the surface of the Water W, with themotor 122 near the surface.

Thesafety pipe 198 has anopen endV 208 outside of thecontainer 174, which is provided with a water and debris excluding exhaust orrelief valve 210, of the platypus type, involving a exible and resilient tubular body 212 having an openinner end 214 clamped on thepipe 198 and an outer end on which is formed a atportion 216 having normally engaged `andopposed side walls 218 which are connected together `at their outer ends, as indicated at 220, and are disconnected at their side edges, so as to provide normally closeddischarge slots 222 which open up, as shown in Y1FIGURE l1, upon development of excess gas pressure within theoat 194 and relieve such excess pressure.

Therelief valve 210 acts in conjunction with the pis- 4tons 50 and 50a of thevalving units 16 and 16a, respectively, for producing balanced ination of theoat 194, whereby sinking of theunit 18 in water from a prior established level, asvfrom reduction of ambient temperature of the water and accompanying reduction of gas pressure in gtheoat 194, causes corresponding inflation of thefloat 194 and a rise of the object in the water; and arise in temperature of the water which increases the gas pressure within theoat 194, is compensated for by exhaust of gas from theoat 194 through thevalve 210. In the rst case, thesprings 130 and 130a of theunits 16 and 16a, respectively, let the related pistons be elevated in their housings by the `gas coming out of the cartridges so that these pistons uncover more of theports 102, whereby more gas is passed through thegas pipe 106 to theunit 18.Suitable brackets 224 on the closed end of thecontainer 174 are provided for mounting theunit 18 on the side of theoutboard motor column 124 opposite theunit 16.

While there have been shown and described herein preferred forms of the invention, it is to be understood that the invention is not necessarily confined thereto, and that any change `or changes in the structure of and in the relative arrangements of components thereof are contemplated as being within the scope of the invention as defined by the claims appended hereto.

What is claimed is:

l. A guard for a sinkable object, said guard comprising a iirst gas supplying and valving unit mountable on the object, a second bladder tioat containing unit mountable on the object, and a gas pipe leading from the first u-nit to the second unit, said second -unit comprising a container having an open end and an open bottom, said container having side walls, a top wall, and an end wall having a lower end, a hinged section door having a first bottom section hinged to the lower end of said end wall for closing the open bottom of the container and a main section for closing the open end .of the container, and detent means comprising a keeper on the top wall and a detent on the main door section, an elongated flexible bladder float folded within the container and having an open end, a plug in the open end of the bladder and secured to the container top wall, a gas pipe section extending through the plug and connected to said gas pipe and having an end opening into the bladder float, and a valved pressure relief pipe extending through the plug and having a rst end outside of the container and a second end opening into the bladder float.

Q. A guard for a sinkable object, said guard comprising a iirst gas supplying and valving unit mountable on the object, a second bladder iloat containing unit mountable on the object, and a gas pipe leading from the first unit to the second unit, said second unit comprising a container having an open end and an open bottom, said container having side walls, a top wall, and an end wall having a lower end, a hinged section door having a first bottom section hinged to the lower end of said end' wall for closing the open bottom of the container and a main section for closing the open end of the container, and detent means comprising a keeper on the top wall and a detent on the main door section, an elongated flexible bladder oat folded Within the container and having an open end, a plug in the open end of the bladder and secured to the container top wall, a gas pipe section extending through the plug and connected to said gas pipe and having an end opening into the bladder float, and a valved pressure relief pipe extending through the plug and -having a tirst end outside of the container and a second end opening into the bladder float, a normally closed relief valve on the first end of the pressure relief pipe comprising a ilexible and resilient tubular body having an inner end secured on the irst end of the relief pipe and an outer end, spaced and connecting at walls on said second end defining gas discharge slots at opposite sides, the walls being normally engaged with each other to close the slots.

.3. A guard for a sinkable object, comprising irst and second units mountable on an object, said iirst unit comprising a rigid closed container having iirst and second ends, a collapsible bellows mounted within said container at said second end, said bellows having lirst and second ends, Water admitting means on the container for collapsing the. bellows by water pressure, spring means resisting collapse of the bellows, an assembly secured through said second end of the container and extending out of the container, said assembly comprising a tubular housing having a first open end within the bellows and a second open end outside of the container, a gas cartridge outside of said container having a neck secured to the second end of said housing, a gas outlet port on said housing between said container and said neck, said second unit comprising an iniiatable bladder float and a pipe connected to said port, and gas release mechanism within said assembly housing, said mechanism comprising a puncturable disc closing the gas cartridge neck, a piston having a piercing point extending toward said disc, a plunger aligned with said piston and secured to the first end of the bellows, said first end of the bellows being otherwise unconnected to the container.

4. A guard for a sinkable object, comprising iirst and second units mountable on an object, said rst unit comprising a rigid closed container having first and second ends, a collapsible bellows mounted within said container at said second end, said bellows having iirst and second ends, Water admitting means on the container for co1- lapsing the bellows by Water pressure, spring means resisting collapse of the bellows, a valve assembly secured through said second end of the container vand extending out of the container, said valve assembly comprising a tubular housing having a lirst open end within the bellows and a second open end outside of the container, agas 7 cartridge outside of said container having a neck secured to the second end of said housing, a gas outlet port on said housing between said container and said neck, said second unit comprising an inatable bladder oat and a pipe connected to said port, and gas valve mechanism within said assembly housing, said mechanism comprising free end of the piston only in a collapsed condition of the bellows for producing an open condition of said valve means. Y

5. A guard for a sinkable object, comprising rst and second units mountable on `an object, said first unit comprising a rigid closed container having first and second ends, a collapsible bellows mounted within said container at said second end, said bellows having rst and second ends, Water admitting means on the container for collapsing the bellowsV by water pressure, spring means resisting collapse of the bellows, an assembly secured through said second end of the container and extending out of the container, said assembly comprising a tubular housing having a first open end within the bellowsand a second open end outside of the container, a gas cartridge outside of said container having a neck secured to the second end of said housing, a gas outlet port on said housing between said container and said neck, said second unit comprising an inatable bladder iioat 4and a pipe connected to said port, and gas release mechanism within said assembly housing, a plunger having a first end secured to the lirst end ofthe bellows and'working through the rst end of said housing, said plunger having a free second end, a piston working in said housing between said plunger and the second end of the housing, means in the housing normally blocking communication between the gas cartridge and said port, and' engageable by the free end of the piston only in a collapsed condition of the bellows for producing an open condition of said blocking means, said blocking means comprising a puncturable disc closing the cartridge neck, and a piercing point on the free end of the piston for piercing said disc.

6. A guard for a sinkable object, comprising irst and second units mountable on an object, said rst unit comprising a rigid closed container having rst and second ends, a collapsible bellows mounted within said container at said second end, said bellows having iirst and second ends, water admitting means on the container for collapsing the bellows by water pressure, spring means resisting collapse of the bellows, a valve assembly secured through said second end of the container `and extending out of the container, said valve assembly comprising a tubular housing having a first open end within the bellows and a second open end outside of the container, a gas cartridge outside of said container having a neck secured to the second end of said housing, a gas outlet port on said housing between said container and said neck, said second unit comprising an inatable bladder float and a pipe connected to said port, and gas valve mechanism within said assembly housing, said mechanism comprising a tubular member having a iirst end unsecured to the iirst end of the container and a second end secured to the iirst end of the housing, a plunger having a first end secured to the first end ofthe bellows and working through the irst end of said member, said plunger having a free second end, a piston working in said housing between said plunger and the second end of the housing, valve means in the housing normally blocking communication between the gas cartridge and said port, and engageable by the free end of the piston only in a collapsed condition of the bellows for producing an open condition of said valve means, said valve means comprising a valve seat formed in the bore of said housing and facing the second end of the housing, a spring-closed valve working in the housing between the valve seat and the second end of the housing, with which the free end of the piston is adapted to engage.

References Cited in the file of this patent UNITED STATES PATENTS Canada Apr. 5, i1955

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