GB2335954A - Valve for pressurised dispensing container - Google Patents

Abstract

An actuator unit 1 is located in a pressurised container 2 by a stopper 4 and secured by a cover 3. Within the actuator unit 1 is a chamber 13, and leading from the chamber 13 is dip tube 14 which extends into the container 2 and an outlet passage 5 with a needle vent 6 which extends through a rubber ring 7 through the stopper 4, past an actuating rod 9 and out through an outlet 8. A valve 11 is urged towards the rubber ring 7 by a spring 12, preventing flow from the chamber 13 to the outlet passage 5 and vent 6. In operation, nut 10 is screwed down, causing the rod 9 to unseat the valve 11 from its sealing position on the rubber ring 7 against the force of the spring 12, allowing the contents of the container 2 to flow under pressure from the chamber 13 to the outlet 8. Alternatively, a button jet 15 may be used instead of the nut arrangement. Also disclosed are camwheel arrangements (figures 3 and 4) for regulating the flow of fluid dispensed.

Description

VAPORUMOMS 02 FW1W OR LIQUID STATúS 2335954 The present invention relates

to the arts of the vaporizationB of the fluids or liquid fuels and gases or combustible gases even extending to tiie liquefied substances or solids.

This invention employs the combustiole, cliemical, meaical, c-Le, painting, coating, greasing, polisaing, volatilizing, adhering, corroding, air fresning.ana the like i:.LuicLs or liquids and cejta-,Lt gases, mixtures or gas produced daring the ve;roleum or otner liquid fuel refining process or chemical reactions or combustiole gases a,.Ld eve'. liquefied substances or solids to complete tue fluid sprayer, liquid fuel sprayer, spraying lighter liquid fuel spraying stove, tri-way spraying stove, kerosene or liquid fuel spar&lin6 ejector, comoustiDle gas snotter, combustible gas snorting s-.ove, cumi)ustible gas sparkling ejector, oxygen snorter, hydrogen snorter, caroon dioxide s,,or-ker, exo-therral snorter, gas fuel snorting engine, steam, eLigine or zu--Dii-ie transmiAing system, spraying or snorting steam engine or turoine, liquid fuel spraying engine, liquefied substance sprayer, track, canw,ueel, side track camwiieel, rotary multi-s-,vittlcn and the like. These will be broadly employed in the kitenens, restaurancs, snops, nospitals, offices nouses, notels, works, gardens, farms, fire or:lgacLes, puoliLcplaces, camps picnics, transportations and the like ueiri6 ttie uailj iiving requisites and exteridiLig to ine transportin6, elec,r.Le, elec,;ronic, meenanical and industrial requirements and automations.

kne principal ooject of the present invention is to provide a clean, practical, convenient, safe, reliable, nice ana ideal effective apparatus or device and means to vaporize and control the fluids, liquid siateo, gaa or liquid fuels and certain gases for tne safe rees-ia-,-'ve combustions, sprayers, snorters and transporting or requ.Lrements.

To this end, there is provided that a vapour device is formed by the certain adequate size of a tough, unbreakable, hard or stiff container or bottle or can made of metal, alloy, steel, plastics, glass, china, pottery, porcelain, earthenware, mixture and the like employed to contain a required compressive outfit and to fill with a certain percentage of the required fluid or liquid or liquid fuel without any dreg, deposit, solidification or sediment to avoid the possible block of the tiny ventage and an adequate volume of the high compressible air, oxygen or certain gas full of this remained capacity of the container sealed and secured with a leakless cover and a stopper, ttirough which the outlet, of tne passage or thin tube of the compressive outfit leads to join with a button jet, in which a tiny needle ventage is arranged for spraying. At the middle of the passage, a space or room is existed or this room separates the passage into two parts as outlet passage and in-flowing passage. One end of the latter is interconnected with the base of the compressive outfit and the other end is extending to the bottom of the container for the compressible fluid to flow into the room, within whicti a spring is set for the fitting joint interconnected with one end of the outlet passage which passes through a rubber ring, a sealing stopper or plastic cushion and a secured cover to join the button 2U jet for the spraying moistvapou-rs to be a sprayer, for the control of which, a ventage arranged at the lower side of the outlet passage adjacent to the fitting joint is tightly controlled and regulated the open and close by the rubber ring just fitted to secure and seal the fluid within the roor, of the compressive outfit or device in cooperation witn the compressure or a stress and slackor elasticity of the spring caused by a force or stress or press exerted on the button jet. For the control of the vapour device is a control of the compressive outfit constituted by a rubber ring, ventage and action of force transmitted by a passage and joint to a spring or to seal the compressive cutf it tigntly and effectively without leakage and heat.

During operation, the compressible fluid with gas or air splashes to the interior arrangement of a Dutton jet from the compressive room through the outlet passage to become tne ziny moist vapours to spurt out fror. tne needle ventage as a light press is made to a button press or jet by one,s finger tip. A press ray cause a compressure or stress to exert on a spring T.ransmitted from the outlet passage and the spring fitting joint direct in order to release the rubber ring to seal the ventage arranged at the side within the room and to let the fluid of the compressive cutfit spray from tne outlet or button jet to be a sprayer. Concur-rently, the fluid of the container may flow into the comipressive rocr, of the outfit through the inflowing passage to fill up ine space or volume to have beeit spraying. 1W way of this mean, a--raziger.ent or theory of the air pressure, -une spraying action will carry on continuously until the fluid or gas or air of a device or container is getting least or none of existence unless the stress or one,s press to the button jet is released. once the finger tip leaves tne button, tne rubuer ring will tignmly seal the tiny needle ventage as the spring is slack and all will restore to the norrial concui-rently.

rhe compressive cutfit, fluid and air or gas are the three matters filled or contained in tne container or botile or can of this vapour device. Phe features of the first have been aescriDed in ine foregoing paragraphs of tnis complete specification. Ihe second one is the fluid or liquid state to exist a very wide range classified by way of the examples as hereinafter shown.. - kl). Liquid fuel Or cOr.Dustiole fluid employed for tne con-oustions oit Ttie sprayer, spraying stove, lignter, sparkling ejector and manua-l or automatic compressor spaxklinE ejector comprises tiLe petrol or refined petroleum or petroleur. or gasoline, mineral oil, kerosene, tiner water, metnyl spirit or alcohol, oil, volatile oil,and the like. 2). Chemical fluid employed for the detergent or cleaning sprayer, hair dressing sprayer, corroding sprayer comprises the substance, mixture, solvent, solution, compound, element and the like. 0). Physical fluid employed for the greasing sprayer, perfuming sprajer, air freshing sprayer, adhering sprayee comprises the lubricant, oil, glue, gum, vaseline, perfume, cream, ointment, --ubrer, ice and the like. 0). Polishing or coating fluid or liquid state employed for the painting sprayer, tinting sprayer, liquefying sprayer comprises the paints, colours, wood oil, wax, plastics, resin, crystal, quartz, glass, metal, alloy, steel, mercury, element, substance and the like. k5). 1;,.edical fluid employed for the certain medicine sprayer, anti-septic sprayer, anti-skin trouble sprayer, insect killing sprayer, swollen and pain abolishing sprayer, stop bleeding sprayer comprises tne natural and chemical medicine, dose or drug, solution, solvent, mixture, compr-und, disinfecting and bactericide and the like.

For vaporizations of the liquefied substances or solids as the molten wax, plastics, metals, alloys, steels, glass, crystal, quartz and the like, a certain neat power is required during the period of the liquefying and vaporizing processes in the polishing or coating or sealing the required products or materials. xhis mean is similar to or in lieu of tile electroplate or nercury in the process of the suolimation. For this requirement, a heater nr electric oven or heating element witn the certain required power may be cemoined witn or installel under the device. .ehe designed power of a heater must follow the melting peint of a substance and purpose.

In case of zhe substance contained in the container is a solid as wax or plastics or ice which needs a very low heat in the process of liquefaction to enable this forr, of liquid state to be spraying out from the vapour j device, the parts of which rust be made of the high intense heat materials or the melting point rust be higher than the contained substance, wherein the metal, alloy or steel may need the ruch higher intense heat materials to rake the required parts of the vapour device for the polishing, coating or other purposes. At least, the original appearance of any product or inaterial or thing made of a china, porcelain, pottery, eartnenware, gypsum, plastics, wood, bone, glass, stone, rock, slate, brick, mud, wax, compound, mixture, metal and the like way be coated or renewed to becolne the fresh alterant with the required nice and pretty material for the embellishment, exhibition, ornament or others to sweep the huran vision or attract one,s attention or gaze.

2he third one is the air or a certain gas which ray be adequately selected to fit for the requirement of the application with the contained fluid, in case of which is sealed in the container with a secured cover or refilled to the container through the outlet passage, the gas or air' maj be compressed to the container through the outlet and the passage from the compressor until the remained volume of the device or container is filled up with the required one, the compressibility of which is very large. ene cubic centimetre required ir.,ore than one thousand kilogrars of compressure or compressed force. Irhe heavier specific gravity of liquid a-q mercury or liquid state needs ruch greater air pressure or compressure to enable such fluid to be compressed to the compressive room of the outfit from the containerthreu,c,.h the in-flowing passage and will be sprayed out from the jet or outlet through the outlet passage as the sealing ventage is released. en the other hand, the lighter specific gravity requires lower pressure or the compressed force or compressure to enable the fluid to become the ideal vaporization without heat. rhe air or gas ray be any certain Gas and this irust be reminded that the hydrogen is the dangerous one for the liquid fuel sprayer and rust be omitted to prevent tne explosion in the air. rhe other poisonous, stink, noxious chemical gas, carbon dioxide, helium and the like should also be avoided to use with the liquid fuel to be a coripressible gas for the combustion on this vapour device. For the requirement of quicker or higher heating power, the oxygen which can assist the combustion way be the good selection to be employed in the liquid fuel sprayer and will be one of the air refreshing or freshing substance.

according to the invention, the container of a vapour device employed to fill with the liquid fuel for the combustion m the stove in the kitchen rust be the better secured one and the control with the outlet is different with the other sprayer, the button jet of which being the control is now arranged or altered. to be a screw control with a nut to secure the outlet and regulate the seal of the moist vapours for outflowing without leakage unless released. In the outlet of a device or container, a secured plastic tube is employed to be a path, way or passage for the moist vapours of the coLpressible liquid fuel led to flow for combustion on a stove which is the circular or plane retal tube with numerous tinyvents arranged along the top surface for vapours to sprav out for combustion through the stopper of the stove to control the glowing flames, for which one or two circular flarting way or tube may be arranged m a stove centrolled by the two side-track or track camwheel, on one surface of which, two ascending slepable tracks or ways are arranged for levers to slide along in order to control the glowing flam.es or intensities of heat of a stove with two ways, for the ignition of which, the incorporating or individual turning control or button may trig the ignitien device which is formed by a flint secured with the thin minispring and a rough wheel linked with a stepper-rod. The friction of a flint and a sriall 57ear may spark for ignition of the meist vapours during flowing to the stove through a tube as required or a nut is screwed for release.

To obtain the better effect of the flame or higher heating intensity of a stove, a manual control may regulate the three ways or lines of the glowing flares. A three track camwheel or worn gearing may be employed to transfer or control the separate ascending slopes of the three circular tracks arranged m the surface or side of it for the glowing flames. In each track, the lowest point with the ascending slopee to the highest point is a control with the stop or release of the moist vapours for the gradual glowing flames froir, the lowest to highest respectively. For the slepe of a track is a mean to regulate the flames of a stove in a circulation or me revolution from the release, gradual glowing to the highest and then stop the flow of the moist vapours, the auantity of which is cortrolled by the sliding lever with the slopable track. Three kinds or more ways of flames from the lowest to highest in a revolution ray follow the a=angement to control the flows of the mnist vapours simultaneously. The three slopable tracks of a canwheel relates to the in-flowing vapours of circular tubes for the combustion on the stove controlled by three separate stoppers with the contacts of the sliding levers. The stops or releases of the three ways of the flames ray be controlled at the same tire or one after another to follow the tracks arranged on the carnwheel for the requirement of the ap plication of the stove. According to the invention, a nuirber of slopable tracks ray be arranged on one surface of a cair.wheel or the side of a cam wheel for the elctric or electronic multi-switches or the mechanical con trols for automation and precision. This is the improvement of the car. wheel used in the Timer - my invention in Sydney during 1965 and a patent appli cation numbered 9624166.6 has been made in the united Kingdora. Fatent Office in the 19th lember, 1996.

This vapour device may be employed for the heating source of the up dated or improved steam engine, steau., generator, steam turbine, steamroller or other stear. machines installed for the requirements of the manufactures, constructions and transportations or transporting tools, f or the speed of whien, an improvement may be made of a smaller gear or wheel installed between the clutch and the flying wheel or flying gear which is transmitted by the crank shaft of a steam engine or internal combustion engine and may be altered. by a bigger one in order to increase the speed and improve the present circumstances. This transmitting syster, must be in match witn one another to fit for the steam engine or the internal combustion engine of the transporting tools, This vapour device or liquid fuel sprayer may also lu be employe(i for the agricultural apparatuses as kerosene sparkling ejector made of the liquid fuel sprayer linked with a tube and a metal controlling jet and/or in co-operation with a. manual or automatic compressor or pump for burning grasses or killing insects or worms in the garden or field or house or any other purpnse. The fuel employed in this ejector may be the water gases, combustible gases, liquid fuels or kerosene and the exothemal actions of the oxy-hydrogen or chlorine-hydrogen and the like.

The vapour device or means of this invention and the arrangement of the ignition may be combined to form a liquid fuel korayinE lighter in lieu of the larpwick ones and matches to be a pocketful daily living thing or a modern requisite. This lighter is constituted by a container, button lever, compressive outfit, rough gear or wheel, mini-spring wittl a secured flint, flame regulator and the combustible gas or air and a certain liouid fuel, for whicn tne cor-bustinn of a device requires and these existences may be superseded by a certain gassy fuel or cembustible gas to be the snorting 'Li",,.nter. The others ray then become the snorting devicesor snorters ccnp-rising engines, machines, stoves, generators, stear, turbines, sparkling ejectors, apparatuses and the like to supersede the sprayers in all respects. j.y reason of the non-existence of a fluid in a vapour device, the in-flow ing passage may be emitted.

According to the properties of the hydrogen which will explode in the air as a flame is applied, only pure hydrogen can be compressed into this vapour device or hydrogen snorter, in which the hydrogen must not be mixed. with the air or others to be a gassy fuel of an internal combustion engine to prevent the dangerous explosion. in this specification, other than the; combustible gas is the fuel of the engines, the pure hydrogen is another one to be described herein. For the security, an individual gassy snorter nay be employed for the fuel of the engines of the transporting tools or an engine exists the power stroke or other machines or apparatuses for the use of construction or manufacture or transportation in co-peration with the ignition systen or timer or auteriatic ignition. xhe weight of this hydrogen snor-ter or vapour device will then be lighter than any one and the internal combustion engine of an transporting tool or engines of the transporting tools without the load of the liquid fuel will be lighter than ever.

According to the invention, the Easseous or liquid fuel vapour device or liquid fuel sprayer or combustible gas snorter or gassy fuel snorter or hydrogen snorter has a general title Vapour Device, the moist vapours or an gas fuel of which may oe led to flow into the cylinder of the engine comp- risinE an internal combustion engine, diesel engine, generator engine, fire 0 engine or machine and the like or the fuel of the steasi enoine or turbine C> or others through the inlet passage or manifold to be the explosive mixture for the explosion of the power stroke in co-operatinn with an ignition sys- tem or automatic iiniticn or tirer. Irhese spraying, snortin- and ig iti C> _5n on systens installed in the sea, land, air and space transperting tools or machines comprising vehicles, ships, boats, trains, aeroplanes, helicopters crafts, spaceshuttl es and the like ray be in lieu of the fuel syster. of engine of the transporting tools comprising fuel tank, pump, filter, carburetter and air cleaner; or th-fuel of a stear- engine.

The control of this transporting vapour device or sprayer or snorter must be made for the intemissive regulation in match with the ignition system of the four or two strokes of the engine. The contact to release the gassy or liquid fuel of a device must fit for the time for synchronization 5 of the fuel to flow into the cylinder in the intake stroke of the engine. 1Por the security, the in-flowing fuel rmst be ceased earlier than the explosion is made within a cylinder, in which the spraying liquid fuel or the snorting gas fuel may be compressed to become the explosive mixture with the intake air for explosion in the power stroke as the induction coil of the ignition device contacts the electric power for sparkling in the spark plug of a cylinder concurrently. On the other hand, the explosion of the compressed moist vapours of the liquid fuel or combustible gas or hydrogen in the power stroke of the enginemust be adjusted or made as the inflowing fuel is ceased. This synchronous transmission may be derived from the crank shaft of the engine and the fuel mast be compressed with the air or oxygen. Both of a gaseous fuel and liquid fuel even hydrogen of this vapour device may have the save effect to produce the power, work and energies.

The two separate vapour devices contain the hydrogen and oxygen to be the hydrogen snorter and oxygen snorter. Another pair for the same effect is the hydrogen snorter and chlorine snorter. These two pairs are the gases to be used for the exothermal actions for the high temperature or high heat employed to cut the steel in the air or under the water or other purposes. A certain gas snorter ray be employed for the iz,.protant requisites te be an equipment of a daily living requirement. The oxygen snorter may be prepared for the emergency of the rescue to save the living lives. A carbon dioxide snorter or sprayer or whether ttlis is gas or fluid may also be prepared to guard against the fire events in the houses or important public places of the cities or countries and may be employed by the fire-brigades. For these mixtures or compounds of the substances or chemical fluicis, by wnicn the carbon dioxide will be produced may put out the fire or flamies as the fluid is sprayed or spurted on the heat or combustible or cor.ousting materials or things which are then covered by tne wet moist vapours and 'carzoon dioxide to prevent the reach of the oxygen or air, the citizens, properties and lives will be easierly saved and have a further protection,In the places of the dense populations.

1 7.

The embodiments of the present invention will be hereinafter described by way of examples with reference to the accompanying drawings in which: Figure 1 is a sectional elevation of a vapour device. Figure 2 is a sectional elevation of a button jet control of a sprayer. Figure 3 shows a view of a tri-track car.wheel of the flarre control. Figure 4 shows a view of three side-track canwheels of the flame control.

In Figure 1, the compressive outfit 1 of the vapour device is secured in the container 2 by a hard and flexible metal cover 3 with the cushiony metal or plastic stopper 4 to prevent the leakage of the compressible moist vapours or gas or air. rhese sealing cover and stopper are led thrcugh by a thin outlet passage 5, at the side of which, a needle ventage 6 is made to control the inoist vapours or gas for spraying or snorting as released and way be sealed or closed by a rubber ring 7, and the top end of which is inserted to the outer part of the stopper, in which an outlet 8 is arranged for the connection to the stove with a plastic tube or other passage. 2he press control is formed by the small loose rod 9 installed at the top end of the outlet passage in the outer part of the stopper and a nut 10 is the manual contact for the control of the device. As the nut is screwed down to press the controlling rod to exert the action on the top end of the outlet passage, the other end of which is linked with a spring fitting joint 11 to transmit the press to the spring 12 to release the ruboer ring to seal the needle ventage to let the moist vapeurs spurt out of the compressive room 13 of the outfit fror., tne outlet or jet which may be made at the top of the nut. The room is employed to fill with the gas or air and fluid under pressure, as it is spraying tne fluid of a container may flow in to occupy the sprayed space through the in-flowingpassage 14 concurrently. This spraying action will carry m unless the nut is screwed up, then the slack or ela--ticity of a spring will cause the rubber ring to seal the ventage.

As the liquid fuel of the container is compressed by the certain gas or air, the pressure of which will exert on the surface of the liquid to fill up the room throughout the inflowing passage as a needle ventage is sealed. In case of the nut is screwed down or the moist vapours or gas are released, the vapours will flow to the stove for combustion from the outlet throughout the connected plastic tube without heat. This safe arrangement is mainly made to contain the combustible fluid or gas or liquid fuel or gassy fuel; the gas produced during the petroleum refining process is also a gaseous fuel for combustion or flaming. In case of the substance needs heat to change from solid to the liquid state, the materials of the vapour device must be made by the higher intensity of heat. The passages employed in this device may be replaced by the copper or steel tube or the higher melting point materials. Some solids as wax and plastics need a lower heat for the liquefaction, then the device may be combined with a heater under a container. In case of the device is employed to contain the gaseous fuel or combustible gas or other gas entirely, the inflowing passage of compressive outfit or the vapour device may be omitted.

For other liquids or fluids az the medical, chemical, greasing, antiseptic, anti-insect, painting or cleaning dose or solution or mixture or compound, oil, petrol and the like, a smaller container, bottle, tin or can is required for a sprayer, a button jet 15 with a tiny vantage 16 of which is arranged in lieu of the nut and the outer screw part of the stopper of the compressive outfit for the spraying moisture of the fluid in figure 2. Then the outer part of the cushiony stopper with the centrolling rod can be omitted. The outlet passage led through the sealing cover and stopper may be inserted to the smaller button jet from the compressive outfit of the vapour device direct. Then any kind of the moisture, vapoury fluid or gas will be spurted out to be a sprayer without heat.

in Figure 3, three circular slopable tracks A, B and C are arranged on tne plane surface oi a camwheel or wheel 20 which may De turnect by the manual rod or worm gearing or driven by automatim. These three tracks may exist the sarne lowest points 21, 22 and 23 for the stops of the flowing gas or liquid fuel of the device, slopes 24, 25 and 26 for the gradual glowing flaries and tne highest points 27, 28 and 25 for the highest heat or flame of each one respectively. lience the camwheel may have a number of circular slopable tracks with the lowest and highest points for each one and may be employed for the manual or automatic switching control or the power supply arranged on the individual track accordingly.

From the lowest point 21 of the track A, along the first quarter of which, a slope 24 is gradually ascending to the highest point 27 and is arranged for the moist vapours of the fluid or gas to spray out of a device or container from the least to heaviest gradually as the carr.wheel is turned slowly for tne adjustment of the flame. One end of a bend lever is arranged in contact with the slopable surface from tne lowest to highest along this circulax track around the centre 30 of the camwheel, in which a hole 31 is arranged for the turning axis or rod driven by manual or automatic gearing or motor. In the first quarter or slope of the track A, the flame or fire of a stove may glow from dim to bright or from the lowest to the highest.

As a camwheel is continuously tuimed to another or the second ouarter, i. e., - 180 degrees of the wheel, another flame or the riddle circular Track B is set on fire and may gradually glow from the lowest to highest along the slope 25. Then the flare may carry on tne highest combustion as the other end of the bend lever entirely released the close of tne pin nole of the in flowing tube for moist vapours of a combustibleliquid or Eas or liquid or gassy fuel in a stove which may then get the highest flames or intensity on the tracks k and B as rotates on 180 degrees or a half of a camwheel.

In case of the intensity of these two circular flames of a stove is still not satisfied for insufficient heat or -requirement, the third way of flame or track 0 ray be employed to set on fire as the camwheel is turned over 180 degrees along the slope 26 of the track C from the lowest point 23 to the highest point 29 and tlieflames ray gradually glow from dim to light simultaneously. Then me thirds of the intensity of heat is increased and the time for serve will become shorter. At the last quarter of an arranged camwheel, the flares of the stove may glow on the highest combustion. That is to day, three ways of flames of a stove are set fire to cook at the same time. Aa the cooking or boiling is finished, the camwheel may be turned to the ends of the tracks or 360degrees or back to the lowest points. Three pin holes for the control of the flanies of the stove or the control of the moist vapours or gassy fuel will be stopped or closed sirr. ulta--leously. on the other hand, the three contacts on the lo,,,est points or at the ends of the tracks may cause the flar.es of a stove to be entirely put out.

in Figure 4, three combined individual wheels or eccentrics 25, F and G are the different side-track camwheels existing tht. central convex key holes 40, 41 and 42, tne backs of which are concave to fit for one another led through or linked by an axis or gearing rod. respectively and turned by the manual or automation as required for the glowing and controlling flames. According to the fittinE key-holes in direction, these three side-track camwheels may be randomly adjusted or installed by the u_serls ideal willing or intention as designed for the manual controlling rod. The controlling ways or flares commence at the lowest points 43, 44 and 45 of the slopes 46, 47 and 48 to the highest points 49, 50 and 51, along which, the fourth quarters of the tracks ray cause the same effect until the ends 52, 53 and 54 of the control canwheels are reached to fall down to the lowest points respectively. Then the flames of a stove will be entirely put out due to - 1 r 0 - the pin holes of the in-flowing tubes Or the controlling stoppers of the stove are entirely closed concurrently.

As the controlling rod is turned to corinence froir. the lowest point 43 of the slope 46 in the track E in contact with me end of the bend lever to release the close of the pin hole of the in-flowinE tube to let the vapours or gas fflow into the stove in co-operation. witn the ignition device to set on fire simultaneously. The flame may gradually glow from the lowest to the highest as the lever slides on the surface of the slope from the lowest to the highest point 49 of the track, the other two of which are still sliding on the lowest surfaces as the first quarter or slope of track-E is completed Then the flame of this track will have no further change throuEhout the length unless another design is a--ranged in this side-track car.wneel. For tne second quarter, the lever is in contact with the slopable surface 47 of the track F frorn the lowest 44 to the highest point 50 to release the pin hole gradually to let the vapours or gas flow into the stove for combustion The flames may gradually glow from the lowest to highest to increase the intensity of heat. once the contact reaches the highest point of the slope to douDle tile heating power of the stove, the flames will have no further change unless the rod is turned back as the second quarter of the cairwtieel is completed. The track G is still on the lowest position without further change until the lever contacts the ascending sloPe 4b forom the lowest 4i to the highest point 51. Cnce the -,v-riecl is turned over 180 degrees or two quarters, the third way will be set fire to the stove and ggradually glow to the highest to treble the intensity of heat. As the bend lever reaches the highest point of the slope of the track G, the heating power of this stove is the highest due to three ways or tracks being in the highest positions throug-nout these circular lengths. The flames will be no further change in case of no special arrangement is made in the final quarter Of the track G.

For other requirements, a design may be made for the middle circular tube of a stove or in tne final or fourth quarter of the track F, in somewhere of which, an intermissive fall may be arranged to close the spraying roist vapours or snorting gas to flow into the circular tube to cease the combustion m the stove. Irhis fall may cause the lever in contact with the lowest surface of this track to return to the lowest point or to reach the end 53 earlier than the other two. in case of no special design =anEed in any track, the highest flame of the stove ivill be retained until the rod is returned to the ends 52, 53 and 54 of the side-track camwheels E, F and G for the levers are fallen down to contact the lowest points, the stoppers at the other ends of the bend levers are trigged to close the pin holes of the tubes and cease the in-f."LowinE vapours or gas of the liquid or gassy fuel concurrently. The three ways of the flames of this stove are then put out entirely. úhese three tracks or tracks may be made in one canwheel or wheel Which will become a cylinder, the surface of which will be very conplicatedue to a lot of these circular slopable tracks arranged thereon and throughout the lengths.

hat I a aim Is: 1. Vapour Device comprising a fluid sPraYer, liquid fuel sprayer, liquid fuel spraying stove, tri-way spraying stove, sprazring liShter, liquid fuel flaming or sparklinG: ejector, certain gas snorter, combustible gas snorter, liquefied substance sprayer or snorter, liqliid fuel spraying generator or engine or r.achine or stear. turbine, gassy fuel or hydrogen or gas snorting engine or machine or generator or steam turbine, enginegearL'lg transmitting system, track or side-track car. wheel and rotary multi-switches and constituted by a secured container, button jet and compressive outfit, from which a thin in-fl,wL-ig passage is extended to the bottom for the contained fluid to flow in to fill up the room, in which, an outlet passage leads through a secured cover, cushiony stopper and rubber ring from the button jet to link with a joint to fit for the spring, the elasticity of which is employed to control the nee:ile ventage arrangedat the cylindrical side of a passage with an adjacent rubber ring for the se al or release of the moist vapours to spray from the button j2t at the top throughout the length of the outlet passage without heat. 2. A Vapour Device according to clairi 1, wherein liquid fuel spraying stove is a combustible sprayer or 'heating source constituted by a stove, tube and said device, the outlet, of which is made in the outer part of the cushiony stopper and joined with a tube to the stove wade of a eircul--- or flatmetal tube, on the top surface of which, numerous vents are arranged for 'Llames regulated by a lever to slide along the circular slopable track of the side or plane surface of a can7,-.vheel in co-c- peration with the ig-nition device controlled by the rotary coaxial rod. 3. - Vapour Device according to claims 1 and 2, uhereL-. a tri-way spraying stove is a combustible sprw,,er or heat-;n,2 source constituted by a tube,saicl device and stove which is arranged with the three different circular verted - lO - 11 tubes regulated by three separate levers to slide along each slopable track arranged m the plane surf ace of a track camwheel or on the side of a sidetrack camwheel or in co-operation with the ignition device controlled by a rotary coaxial rod. 4. A Vapour Device according to claims 1 to 3, wherein liquid fuel flaming ejector is a heating source or liquid fuel sprayer, the outlet of which is connected with a tube to the metal outlet or metal jet at the other end and regulated the spraying moist vapours or flame by another manual control in co-operation with the ignition device and/Or a manual or automatic pump or air compressor for burning grasses or insects or other purposes. 5. A Vapour Device according to claims 1 to 4, wherein liquid fuel spraying lighter is a small liquid fuel sprayer in co-operation with ignition device formed by a rough wheel or gear and flint with a mini-spring controlled by the manual button lever and a flame regulator. 6. A Vapour Device according to claims 1 to 5, wherein the moist vapours of a liquid fuel sprayer supersede the explosive mixture in the cylinder for the power stroke of the internal combustion engine or other engines. 7. A Vapour Device according to claims 1 to 6, wherein liquid fuel sprayer supersedes the fuel system er -úuel devices of transporting tools comprising a fuel tank, fuel cleaner or filter, fuel pump, carburetter and air cleaner in co-operaticn with the automatic ignition system of the internal combustion engine or other engines. 6. A Vapour Device according to claims 1 to 7, Wherein the combustible gaz or ga-esy fuel snerter is a gas emitter censtituted by a secured container, outlet control and compressive outfit or said vapour device empleyed to fill up and compress with the gassy fuel or caribustible gas or gas produced during the petroleum refining -process for the required combustion and the ir-flowinE paseaEe of the said device or outfit is emitted thereof.

- 2 0 - 9. A Tapour Device according to claims 1 to 6, wherein a gassy fuel snorter supersedes a liquid fuel sprayer for combustion on a stove, lighter, flame ejector, appliance or in the engine, internal combustion engine, generator, turbine, machine or for the requirements of the transporting, manufacturing or constructing tools or engineries.

10. A Vapour Device according to claims 1 and 8, wherein a gas snorter is a gas emitter, to which, a certain gas is compressed. to fill up the secured.

container of device, or within which the liquid or substance is heated or mixed.

11. A Vapour Device according to claims 1, 8 and 10, wherein the hydrogen snorter is a gas snorter or eri-itter, to which, the pure hydrogen is corpreased to fill up the secured container of device, or within which a liquid or substance is heated or mixed. 12. A Vapour Device according to clai-ms 1 and 6 to 11, wherein the mixture of the pure hydrogen of a snorter and the intake air of the cylinder is in lieu of the explosive mixture for the power stroke of the internal combustion engine or engines. 13. A Vapour Device according to claims 1 and 6 to 12, wherein the hydrogen snorter supersedes the gassy snorter or liquid fuel sprayer for the fuel system of the transporting tools or oTher maciiines or engineries iii co- operation with the automacic lgiiitim system in synchronization.

14. A Vapour Device according to claims 1 and 10, wherein an oxygen snorter is a gas emitter or snorter, to which, the pure oxygen is compressed tofill up the container of the device, or within which the liquid or substance is heated or mixe:i. 15. A Vapour Device according to claims 1 and 10, Wherein chlorine snorter is a gas emitter or snorter, to which, the chlorine is compressed to fill up the container, or within which liquid or substance is heated or mixed.

- 21.- 16. A Vapour Device according to claims 1 and 10, wherein a carbon dioxide snorter is a snorting device, to which, a pure carbon dioxide is compressed to fill up a container, or within which, the liquid or substance is heated or inixed f or requirements of f ire-brigades and guarding against the f ire. 5 17. A Vapour Device according to claims 1 and 16, wherein a carbon dioxide sprayer is a liquid sprayer, from which, the vapours of liquid or substance are sprayed and produce the carbon dioxide as heated or in a temperature.

18. A Vapour Device according to claims 1, 11, 14 and 15, wherein a mixture ofthe separate hydrogen and oxygen snorters or hydrogen and chlorine snor ters and the like is employed in the exo-thermal action for steel cutting.

19. A Vapour Device according to claims 1 to 18, wherein gassy fuel snorter or liquid fuel sprayer or flame ejector or combined oxy-hydrogen snorters or chlorine-hydrogen snorters and the like is the heat source of the steam engine or stear. turbine or other stear- engineries.

20. A Vapour Device according to claims 1 and 6 to 9, wherein the engine gearing transmitting system is a smaller gear installed between the clutch and a flying wheel of an engine or steam engine transmitted by the c-rank shaft to increase the speeds of the transporting tools.

21. A Vapour Device according to claims 1 to 5, wherein a liquefied sprayer is a heating liquid sprayer, the container, compressive outfit and parts of which are made of the heat intense materials or steel er alloy or metal to contain the high compressed air and liquefied or solidified substance in co -operation with a heater for liqutfaction to spray for coating of product.

22. A Vapour Dievice according to clains 1 and 21, wherein liquefied sprayer is a heating liquid sprayer to contaln the heavier liquefying solid or substance in co-rperation with a heater and automatic compressor or pump for a high air pressure or compressure to sprav vapours for coating of product. 23. A Japour Device according to claims 1 to 18, wherein an electric heater 2 i 1 or heat source is co-operated with the device to make the contained liquid or suhstance to produce gas or fluid to become a snorter or sprayer.

24. A Vapour uevice according to claims 1 to 5, wherein a liquid sprayer is a spraying device, to which, the medical, chemical, physical, combustible, polishingfluid or oil and the like is filled up with the compressed air or certain gas for tne spraying moist vapours without heat.

25. A Vapour Device according to claims 1 and 4, wherein a kerosene flaming ejector is a sprayer formed by a manual or automatic pump or compressor and container with a tuoe linked to a metal outlet or jet, the control of which is co-operated witn an ignition device for ejecting flame to bum grasses.

2b. A Vapour Device according to claims 1 to 3, wherein a track camwneel is a rotary control formecl by one or a number of separate slopable track ar- ranged on one or both plane surface regulated by tne rotation in coOperahion with the contacting lever for each manual or automatic control.

27. A Vapour Device accord-,:zig to clairas 1 to 3 and 2b, wherein a sidetrack camwheel is a rotary control formed by one or a number of separate slopable track arranged on the cylindrical side regulated by the rotation in co-operation witti a contacting lever for eaen manual or automatic control. 2d. A Vapour Device according to claims 1, 26 and 27, wherein rotary switch is a single or mulli automatic switching control constituted by the single or umlti track camwheel or side-track camwheel or combined single ones in co-operation with tlae contacting lever driven by a gearing rod or motor for the rotations or controls of a number of tne switening circuits. 29. A Vapour Device Substantially as nerein deSCribed witn reference to tne accmpanying drawings.