US1288639A - Carbureter. - Google Patents
Carbureter. Download PDFInfo
- Publication number
- US1288639A US1288639A US19056117A US19056117A US1288639A US 1288639 A US1288639 A US 1288639A US 19056117 A US19056117 A US 19056117A US 19056117 A US19056117 A US 19056117A US 1288639 A US1288639 A US 1288639A
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- fuel
- pipe
- chambers
- air
- outlet
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28C—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA COME INTO DIRECT CONTACT WITHOUT CHEMICAL INTERACTION
- F28C1/00—Direct-contact trickle coolers, e.g. cooling towers
- F28C1/14—Direct-contact trickle coolers, e.g. cooling towers comprising also a non-direct contact heat exchange
Definitions
- My invention relates to improvements in carbureters and more particularly to those which areintended for mixing steam. mixed. with air with the mixture oi fuel and air drawn from tbe device by the suction caused by the engine pistons.
- carbureters have heretofore been devised for carrying out this end, but the object. of the present invention is to provide a device of this class which may be constructed easily and inexpensively and the saine time result in an extremely eiiicient means for producing' the desired result.
- Figure l is a vertical section ci the iinproved carburetei';
- Fiets.4 2, 3 and l are horizontal sections on the planes of the lines 22, 8 3 and 4 4, respectively, of Figc. 1, looking in the directions indicated by the arrows;
- Fig. 5 is a vertical transverse section on the plane indicated by the line 5-5 of Fig. l; and a y Fig. 6 is a detail longitudinal sectionl siini- 'lar to the upper portion of Fig. l, but illus trating a modified form of construction.
- the numerals i and l designate respectively a fuel reservoir and a Water reservoir
- the inlets of the reservoirsl and 1 are provided with any appropriate type of constant level device such as the floaty controlled valves 2 and 2', and in order that either gasolene or kerosene may be fed to the reservoir l, as occasion may demand, a pair of supply tubes 3 and arc provided,
- a three-way valve 6 in inost in stances ,frasolene Will be used as ⁇ the fue? in starting, and until the engine has been heat ed to such a degree as to allow kerosene to be readily employed. ⁇ When this degree of heat is obtained, however, the valve 6 is Aoperated so ⁇ that kerosene, or any other rather heavy; oil, may be supplied to the chamber l.
- Air passages .'Z and 7 lead vertically .through the tvvo reservoirs l and 1 respec tively, suitable nozzles 8 and -8 'being pon sitioned in said. passagesor supplying a spray of liquid thereto'as suction is created through said passages by the action oi: the engine, it being obvious that since said noz .zles communicate respectively with the reservoirs l and l', they will supply the passage 7 with fuel, whereas the passage will be furnished with a spray of Water.
- the upper ends of the passages 7 and 7 de liver into a pair oitubular perforated outlet members 9 and 9 which rest upon a horizontal plate 10 which is secured over and closes the upper ends of the reservoirs, the member 9 being1 preierably of less size than the member 9 since less Water than fuel is to be handled by the device.
- i peripheral wall iiieinber 1l rests on th plate 10 and is suitably secured thereto, said Wall ineinberhaving a transverse parti-tion l2 which divides the space circuniscribed by said ineinber, into a pair of heating cliain-.
- the pipe lli is provided with anv annular series oit preferably tf-shaped lieatradiating' Webs l5 between which and other oblique Webs 15,", on the sides of the pipe 14, the fuel mixture and the mixture of water ⁇ vapor' and air must pass from said outlet members, before traveling to the upper ends of the chambers 13 and lffroin which the mixtures formed dell* .are Withdrawn.
- the upper side of the flat pipe 14 will also in most cases 'be provided with heat radiating Webs 16 which are preferably arranged as depicted in Fig. 2, al-
- A. top plate 17 closes the upper ends of the chambers 13 and 13 and is rigidly secured in place in any preferred manner, said plate ,having an outlet opening 18 leading from thechainber 13, and similar opening 18 which coinmunieatesyw'ith the ⁇ ehainloer 1.
- a suitable dome 19 rests on I and is secured to the plate 17, Said dome ex-- 'tendintr over both openings 18 und 18 ,andiV having a short vertical disehiu-ge pipe 20 which registere with the opening 18 as shown clearly in Fig. l, said pipe being adapted for tering the outlet pipe 20, is whirled arounf to insure thorough mixing thereof with the vvolatile mixture rising through said pipe from the chamber 13.
- a highspeed air inlet 23 is provided iu the dome 19 for supplying an ⁇ auxiliary quantity of air to the passage Q0 when the engine runs faster than pre-determined speed.
- the air from the inlet 23 may be dome ll), by the provision of a eonstruetion .stichs that illuutrated in Fig. (3. or a hori 'onta'l partition 24 may he provided in ,said dome, So that the mixture will be confined beneath thispartition, whereas the air conn ing into the intake will flow between t ⁇ h ⁇ e partition and the top et' the dome, and will enter thopipe 20 through perforations spaced above the perforatious 22 above de serileed. Either construction is highly eilieient and I merely illustrate both to dis- -lose the two ways of obtaining required result.
- the improved efnfbureter is installed hy emmer-ting its outlet pipe 20 ""'th the iu lake i'nanit'old Q1, and eonneeti its euh pipe 'ifi with the exhaust manifold of the engine, as will beelear from Fig. l.
- valve 26 for the passage 7, and a siiwiia; valve 26 for the pasiage 7.
- lt may he necessary to use both of these ehoifes when starting, but in most cases it will only e necessarylto operate the valve 26', in order that Water .may not vhe drawn into the intake manifold and mixed with the gaeolene, since this would cause a low grade fuel he fore heating of 'the exhaust pipe..
- said heating chambers independent passagesthrough said reservoirs to said inlet openings of the heating chambers, the lovver -ends of said passages having valved air 1nlets, nozzles for delivering fuel land water from said fuel and water reservoirs into their respective passages, a Inainoutlet passage leading from the outlet opening of the fuel heatingchamber for attachment to the intake manifold of an internal combustion engine, said main outlet passagehavingperforations in its Wall, andra moistureand air outlet passage extending along the. tops of said heating chambers from the outlet of the perforated part of said main outlet passage-extending thrugh said moisture and air outlet passage to receive a mixture of moisture and air therefrom.
- a 3 In a carbureter,'the combinationof a fuel and a Water reservolr 'havuig constant passages through said reservoirs and discharging at thev upper ends thereof, spray nozzles, ⁇ for supplying fuel from said fuel reservoir into one of said passages and water vapor from said water tion positioned in said dome, 'means in'both of the aforesaid reservoir into the other passage, a pair of independent chambers into which said passages discharge.
- said chambers having outlet openings in pipe leading from the outlet opening of one chamber and adapted for connection with the intake manifold of an engine, afwater vapor passage leading from the outlet opening of the other chamber and discharging into said outlet pipe, and a pipeextending across said chambers and adapted to 'conduct the exhaust gases from the engine.
- a carburetor In a carburetor, the combination of a fuel and a Water reservoir having constant level devices, air passages through said reservoirs and discharging atthe upper ends thereof, spray nozzles for supplying fuel from said fuel reservoir into one ofv said passages and Water vapor fromsaid Water reservoir into theother passage, a wall mem' ber resting on and secured to the top osaid reservoirs, said Wall member having a transverse partition dividing the ⁇ space circumscribed thereby into 4tvvo chambers into which said passages discharge, a top member resting on said Wall member and secured thereto, said top member having a pair of openings forming outlets from said chambers, a dome resting on and secured to said top member, said dome extending over isaid outlet openings and having an outlet ypipe communicating with one oi' said openings, said outlet pipe having a perforated por and heating chambers.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Fuel-Injection Apparatus (AREA)
Description
J. A. MAUCK.
CRBURETER. A APFLrcATIou man `sEPT. lo. rsu. 1,288,639. Patented De.24,191&
2 SHEETS-SHEET l.
1;, f, LLL, E lilly lg G a. A. MAUCK.
CARBURETER.
APILICATMN FILED SEPT. 10. 19|
' Patented Dec. 24,- 19,18.
2 suszrssgfser 2.
viz.
vih/woo CARBURETEE.,
and l. do declare the 'following to be a iull,
clear, and exact description oi the invention, such as will enable others skilled in the art to which it appertains to maire and use the saine.
My invention relates to improvements in carbureters and more particularly to those which areintended for mixing steam. mixed. with air with the mixture oi fuel and air drawn from tbe device by the suction caused by the engine pistons. I am aware that numerous types of carbureters have heretofore been devised for carrying out this end, but the object. of the present invention is to provide a device of this class which may be constructed easily and inexpensively and the saine time result in an extremely eiiicient means for producing' the desired result.
lilith the foregoing general object in view,
the invention resides in the novel features of construction and unique combinations of.
parts to be hereinafter fully described and claimed, the descriptive matter being supplemented by the accompanying' drawings which iorni a part of this specification and in which:
Figure l is a vertical section ci the iinproved carburetei';
Fiets.4 2, 3 and l are horizontal sections on the planes of the lines 22, 8 3 and 4 4, respectively, of Figc. 1, looking in the directions indicated by the arrows;
Fig. 5 is a vertical transverse section on the plane indicated by the line 5-5 of Fig. l; and a y Fig. 6 is a detail longitudinal sectionl siini- 'lar to the upper portion of Fig. l, but illus trating a modified form of construction.
in the drawings above briefly described, the numerals i and l designate respectively a fuel reservoir and a Water reservoir, the
two lbeing preferably, though .not necessarily, cast integrally as shown clearly in Fig. l. The inlets of the reservoirsl and 1 are provided With any appropriate type of constant level device such as the floaty controlled valves 2 and 2', and in order that either gasolene or kerosene may be fed to the reservoir l, as occasion may demand, a pair of supply tubes 3 and arc provided,
peeication bf yLetters nt.
application led September l), 191'?, Serial No. 190,51.
either one of which may be placed in coin-- inunicatiou with the main inlet tube by means oi: a three-way valve 6. in inost in stances ,frasolene Will be used as `the fue? in starting, and until the engine has been heat ed to such a degree as to allow kerosene to be readily employed.` When this degree of heat is obtained, however, the valve 6 is Aoperated so` that kerosene, or any other rather heavy; oil, may be supplied to the chamber l.
Air passages .'Z and 7 lead vertically .through the tvvo reservoirs l and 1 respec tively, suitable nozzles 8 and -8 'being pon sitioned in said. passagesor supplying a spray of liquid thereto'as suction is created through said passages by the action oi: the engine, it being obvious that since said noz .zles communicate respectively with the reservoirs l and l', they will supply the passage 7 with fuel, whereas the passage will be furnished with a spray of Water. The upper ends of the passages 7 and 7 de liver into a pair oitubular perforated outlet members 9 and 9 which rest upon a horizontal plate 10 which is secured over and closes the upper ends of the reservoirs, the member 9 being1 preierably of less size than the member 9 since less Water than fuel is to be handled by the device. i peripheral wall iiieinber 1l rests on th plate 10 and is suitably secured thereto, said Wall ineinberhaving a transverse parti-tion l2 which divides the space circuniscribed by said ineinber, into a pair of heating cliain-.
pipe le extending` through both'chambers' 13 and 13 and having` means at its ends for connecting,l it to the usual or any pre erred type of exhaust manifold, so that the hot gases passing through said pipe will Aperforin the heating function effectively. Around the outlet members 9 and 9, the pipe lli is provided with anv annular series oit preferably tf-shaped lieatradiating' Webs l5 between which and other oblique Webs 15,", on the sides of the pipe 14, the fuel mixture and the mixture of water` vapor' and air must pass from said outlet members, before traveling to the upper ends of the chambers 13 and lffroin which the mixtures formed dell* .are Withdrawn. `The upper side of the flat pipe 14 will also in most cases 'be provided with heat radiating Webs 16 which are preferably arranged as depicted in Fig. 2, al-
though any other suitable disposition couldv well be utilized. A. top plate 17 closes the upper ends of the chambers 13 and 13 and is rigidly secured in place in any preferred manner, said plate ,having an outlet opening 18 leading from thechainber 13, and similar opening 18 which coinmunieatesyw'ith the `ehainloer 1. A suitable dome 19 rests on I and is secured to the plate 17, Said dome ex-- 'tendintr over both openings 18 und 18 ,andiV having a short vertical disehiu-ge pipe 20 which registere with the opening 18 as shown clearly in Fig. l, said pipe being adapted for tering the outlet pipe 20, is whirled arounf to insure thorough mixing thereof with the vvolatile mixture rising through said pipe from the chamber 13.
A highspeed air inlet 23 is provided iu the dome 19 for supplying an `auxiliary quantity of air to the passage Q0 when the engine runs faster than pre-determined speed.
allowed to mingle with the mixture in the,
rThe air from the inlet 23 may be dome ll), by the provision of a eonstruetion .stichs that illuutrated in Fig. (3. or a hori 'onta'l partition 24 may he provided in ,said dome, So that the mixture will be confined beneath thispartition, whereas the air conn ing into the intake will flow between t`h`e partition and the top et' the dome, and will enter thopipe 20 through perforations spaced above the perforatious 22 above de serileed. Either construction is highly eilieient and I merely illustrate both to dis- -lose the two ways of obtaining required result.
The improved efnfbureter is installed hy emmer-ting its outlet pipe 20 ""'th the iu lake i'nanit'old Q1, and eonneeti its euh pipe 'ifi with the exhaust manifold of the engine, as will beelear from Fig. l. Either A,grasolene or oil 'will now he supplied to the reservoir l through the tuhes 3, t and 5. and the valve 6, and the constant level dei vite will. cui; oil' A'the supply at .the valve 2, when it has risen to the required level in the nozzle` 8. Similarly, water is supplied to the reservoir l 'through the inlet pipe 5', and the autmnatie regulating' means oi the valve E2 culs oil the supplu when the water level has risen to the reiuaired extent. En starting Ithe i'notov;4v oler-ie will in most he tedv to the r: e5-voir to ineure easy a vipaaeae thehot pipe 14, so that this mixture is eonverted instantaneously into a mixture oli air and Steam, which passes into the deine lt* and then enters the pipe Q0 through the perfqrations 2:2 provided for this iurposi. Since the mixtures of air and i'uel and ail' and steam enter the pipe 20 at substantially; the saine point, an eii'eetive mixing takes place, particularly in View of the tangential arrangement of the perforation 2:1. and a highly volatilized mixture is thus insured which will operate the motor to irreal, ad. vantage.
Preferably used in connection with the features above described, is the usual ehehe valve 26 for the passage 7, and a siiwiia; valve 26 for the pasiage 7. lt may he necessary to use both of these ehoifes when starting, but in most cases it will only e necessarylto operate the valve 26', in order that Water .may not vhe drawn into the intake manifold and mixed with the gaeolene, since this would cause a low grade fuel he fore heating of 'the exhaust pipe.. Ar this heating takes place, however, the eh 26 may again he opened., together with tl 1 valve 26, if the latter has been eloeed, so that the fuel, Whether the latter he gasolene or oil, will be supplied with a quantity of steam and air mixture for producing the Well known results, :auch as increasing power of the motor and minimizing ear-hen deposits.
From the foregoing, taken in connection with the accompanying drawings, it will oo 'one hat although the improved earhu l'df) ,veter is of comparatively simple and inert-- pensive eonstruetiom it `will hief u cient and durable. Sinee probably results; are obtained :from the r talle shown and described, these 'features are Jy preference employed, but l wish it understood that Within the scope et 'the vention as elaimed,'numereus minor ehanges ,1
may well he made.
l. claim:
l. In combination with a horizontal pipe through which a heatinj medium passes, a pair ot independent neat" chambers through which said pipe ein* a Chambers heilig disposed le hv side and` each having an outlet opening; in ita ton and an inlet opening in itsl hottoin. float controlled irriterend 'fuel reservoirs vthe moisturel heating chamber,
said heating chambers, independent passagesthrough said reservoirs to said inlet openings of the heating chambers, the lovver -ends of said passages having valved air 1nlets, nozzles for delivering fuel land water from said fuel and water reservoirs into their respective passages, a Inainoutlet passage leading from the outlet opening of the fuel heatingchamber for attachment to the intake manifold of an internal combustion engine, said main outlet passagehavingperforations in its Wall, andra moistureand air outlet passage extending along the. tops of said heating chambers from the outlet of the perforated part of said main outlet passage-extending thrugh said moisture and air outlet passage to receive a mixture of moisture and air therefrom.
' 2. In a carbureter, thecombination of a fuel and a Water reservoir having constant level devices, independent air passa es through said reservoirs, sprayvnozzles' or supplying fuel from said fuel reservoir into one of said passages and 4uvater vapor from saidrv water reservoir into" the other passage, independent Water Avaporand fuel heating chambers into which said'passages discharge respectively, abomnlon voutlet passage for said chambers adapted for connection to the intake manifoldof an engine, and heating means disposed in sald chambers.v
' level devices, air
A 3. In a carbureter,'the combinationof a fuel and a Water reservolr 'havuig constant passages through said reservoirs and discharging at thev upper ends thereof, spray nozzles,`for supplying fuel from said fuel reservoir into one of said passages and water vapor from said water tion positioned in said dome, 'means in'both of the aforesaid reservoir into the other passage, a pair of independent chambers into which said passages discharge. said chambers having outlet openings in pipe leading from the outlet opening of one chamber and adapted for connection with the intake manifold of an engine, afwater vapor passage leading from the outlet opening of the other chamber and discharging into said outlet pipe, and a pipeextending across said chambers and adapted to 'conduct the exhaust gases from the engine.
4:. In a carburetor, the combination of a fuel and a Water reservoir having constant level devices, air passages through said reservoirs and discharging atthe upper ends thereof, spray nozzles for supplying fuel from said fuel reservoir into one ofv said passages and Water vapor fromsaid Water reservoir into theother passage, a wall mem' ber resting on and secured to the top osaid reservoirs, said Wall member having a transverse partition dividing the `space circumscribed thereby into 4tvvo chambers into which said passages discharge, a top member resting on said Wall member and secured thereto, said top member having a pair of openings forming outlets from said chambers, a dome resting on and secured to said top member, said dome extending over isaid outlet openings and having an outlet ypipe communicating with one oi' said openings, said outlet pipe having a perforated por and heating chambers.
` In testimony whereof I have hereunto set my hand.
JOHN A.. MAUCK.
their upper ends, an outlet
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US19056117A US1288639A (en) | 1917-09-10 | 1917-09-10 | Carbureter. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US19056117A US1288639A (en) | 1917-09-10 | 1917-09-10 | Carbureter. |
Publications (1)
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US1288639A true US1288639A (en) | 1918-12-24 |
Family
ID=3356205
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US19056117A Expired - Lifetime US1288639A (en) | 1917-09-10 | 1917-09-10 | Carbureter. |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6729609B2 (en) * | 2002-08-19 | 2004-05-04 | Telekinetic Inc. | Carburetor arrangement |
-
1917
- 1917-09-10 US US19056117A patent/US1288639A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6729609B2 (en) * | 2002-08-19 | 2004-05-04 | Telekinetic Inc. | Carburetor arrangement |
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