US1296853A - Carbureter. - Google Patents
Carbureter. Download PDFInfo
- Publication number
- US1296853A US1296853A US25691318A US25691318A US1296853A US 1296853 A US1296853 A US 1296853A US 25691318 A US25691318 A US 25691318A US 25691318 A US25691318 A US 25691318A US 1296853 A US1296853 A US 1296853A
- Authority
- US
- United States
- Prior art keywords
- fan
- casing
- carbureter
- nozzle
- liquid fuel
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M19/00—Details, component parts, or accessories of carburettors, not provided for in, or of interest apart from, the apparatus of groups F02M1/00 - F02M17/00
- F02M19/03—Fuel atomising nozzles; Arrangement of emulsifying air conduits
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S261/00—Gas and liquid contact apparatus
- Y10S261/51—Carburetors with supercharging blowers
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S55/00—Gas separation
- Y10S55/28—Carburetor attached
Definitions
- This invention relates to a new or improved carbureter.
- Incarburetors as hitherto constructed when employed with internal combustion engines, particularly those of the four stroke cycle, the suction of the working piston is employed to create a vacuum in the carbureter to cause the flow of the liquid fuel through the jet.
- This accentuates what is in itself a bad feature of present construction inasmuch as in most engines of this type the valves are too small and throttle the inlet. of mixture, while the choke tube of the carburetor provided to cause the necessary vacuum to feed the liquid fuel, causes further throttling.
- the existence of a vacuum at any time in the inlet pipe at all is disadvantageous, tending to cause a low efficiency of the engine and a high consumption of fuel. It is oneobject of this invention to roduce a lenum or sli ht pressure in the inlet pipe and to create the required vacuum for the flow of liquid fuel by other means.
- the carbureter is constructed with a fan or blower as an integral part thereof, and the vacuum is produced by the said fan or blower to cause the flow of liquid fuel from the jet, the said jet being placed immediately next the means 1 causing the vacuum and advantageously also serving to atomize the liquid.
- Figure 1' is a sectional elevation in the plane of the fan spindle.
- I" Fig. 2 is a section through'the fan transversely to that shown in Fig. 1.
- i Fig. 3 is a section throughthe choke tube which is also the eye of the fan, the float feed and fan casing being in elevation.
- A is the casing of the carbureting chamber of the carbureter in which is mounted the fan B.
- the fan B is formed as a centrifugal fan having four main arms or blades B4 B and
- the end coverplate D of the fan and carbureter casing A is made detachable and is secured by bolts or screws to the casing A.
- the coverplate D is cone shaped and is formed as a hollow casting having provided at its center the ball bearings D D? in which the fan spindle C is adapted to rotate.
- a sprocket wheelE which is connected by a chain (not shown) to another driving sprocket wheel (not shown) mounted on either the crank shaft or the half speed shaft of the engine.
- a sprocket wheelE which is connected by a chain (not shown) to another driving sprocket wheel (not shown) mounted on either the crank shaft or the half speed shaft of the engine.
- the sprocket wheel on the crank shaft will therefore require to have twice (or more) as many teeth as the fan sprocket. If fitted to the half speed shaft, the sprocket will require at least four times' as many teeth as the fan sprocket.
- Thecasing A is provided with the jacket A for the exhaust gases, A being the inlet for same, and A the outlet. 7
- the fan is shown of the centrifugal type, it is possible to employ a fan of the usual type, by modifying the construction, but it would not be so eifective,
- the fan shown provides an extremely convenient and effective constructional arrangement, because not only is the fan detachable with the coverplate and bearlng, but it provides the cone form of fan. 1 Although it is essential that the fan shall be power driven, it may be driven in any suitable manner as for example by skew gear from the half speed shaft.
- the choke tube F is also the eye of the fan, it converges to the jet or liquid fuel nozzle G, and then diverges or widens therefrom.
- the lower vertical channel for 1i uid fuel H is fed by the conduit I from the. oat feed chamber J which is of usual construction.
- the nozzle G has two 'ets G G the upper one of which is controlled by a screw down needle valve K fitted in the center of the closing nut L.
- the outlet from the orifice Gr may be therefore regulated.
- the air inlet M may be fitted with a piece of gauze or with an iris diaphragm or with other means for regulating the area of the air inlet such as two disks of thin sheet.
- metal M M provided with two or three holes, more or less of which may be left open for the passage of air.
- N is the delivery pipe for mixture to the engine and N is a throttle valve of ordinary construction mounted therein.
- the rotation of the fan causes a suction or tends to create a vacuum in the choke tube, F.
- the suction created causes a flow of liquid fuel from one or both of the orifices therein, and to assist this first flow the carbureter may in some cases be first flooded or filled with liquid fuel.
- the liquid fuel is churned up by the rotated fan producing a mixture ready for the engine.
- the fan also increases in speed and the issuing liquid is directed upon the cone center of the fan causing its completemixture and the delivery of the mixture to the engine b the delivery outlet N at a pressure.
- Tie mixture is thereby fed to the cylinders at a ressure instead of at a vacuum, each cylin er becomes more nearly filled with explosive charge and the efficiency, power, and economy of the engine are greatly increased.
- a carbureter including a fan casing, a power driven centrifugal fan in the casing, the casing having a central inlet opening at one slde thereof and the walls of the casing ad] olmng said opening diverging outwardly, an inwardly tapering air intake adjoining the said inlet opening of the casing, a fuel nozzle n the air intake tube, and means for supplying liquid fuel to the nozzle, the fan caslng constituting a carbureter chamber.
- a carbureter including a centrifugal fan, the fan being provided with a plurality of small peripheral blades, a choke tube forming the eye of the fan, a jet or nozzle in the choke. tube, and a float feed device supplying liquid fuel to the nozzle, the casing of the fan constituting a carbureter chamber.
- a carbureter including a fan casing, a power driven centrifugal fan in the casing, the casing having a central inlet opening at from the jets orone side thereof and the walls of the casing adjoining said opening diverging outwardly, an inwardly tapering air intake adjoinin the said inlet opening of the casing, a fue nozzle in the air intake tube at the juncture of said tube with the fan casing, and ineans for supplying liquid fuel to the nozzle, the fan casing constituting a carbureter chamber.
- a carburetor including a fan casing constituting a carburetor chamber and having an outwardly diverging substantially cone-shaped front wall provided with a cen tralopening, and a substantially cone-shaped rear wall spaced from and in substantial parallelism with the front wall of the easing, a fan in the casing, an inwardly tapered air intake tube connected with the central passage of the front wall of the casin and constituting the eye of the fan, a fue passage communicating with the casing and a float feed supply.
- a carburetor including a fan casing constituting a carbureter chamber and having an outwardly diverging substantially coneshaped front wall provided with a central opening, and a substantially cone-shaped rear wall spaced from and in substantial parallelism with the front wall of the easing, a substantially cone-shaped fan in the 06 casing having blades extending between the cone-shaped walls of the casing and converging toward the central opening of the front wall thereof, the blades being set at an angle, and peripheral blades tween the first mentioned blades.
- a carbureter including a centrifugal fan casing constituting a carbureter chamber and having an outwardly diverging substantially cone-shaped front wall provided 1 with a central opening, and a substantially cone-shaped rear wall spaced from and in substantial parallelism with the front wall,
- an intake tube connected with the casing at saidopening, a fuel nozzle in the intake 110 tube, a fan 1n the casing carried by the rear wall, said rear wall being detachably secured in place and having the bearings for the fan spindle located at its interior, the
- a carbureter includin a fan casing, a power driven centrifugal f anin the casing, the casing having a central inlet opening at one side thereodf d adjoining sai opening iver ing outwardly, an air intake tube adjoinigg the said inlet opening of the casing, said casing also having a cone shaped part, the apex of the cone disposed opposite to the central inlet 12 opening, a nozzle in the intake tube, and means for supplying liquid fuel to the nozzle.
- a carbureter including a fan casing, a ower driven fan in the casing, the Casing nd fan being substantially cone shaped in form and the casing having a central inlet opening at one side at the apex thereof, an air intake adjoining the said inlet opening of the casing, a nozzle in the intake tube, 15
Description
J. D. ROOTS. CARBURETER. APPLICATION FILED nEc.14, m2. RENEWED oc T. 4, 1919.
1,299,853. Patented Ma r. 11,1919.
UNITED STATES PATENT OFFICE.
JAMES DENNIS ROOTS, OF WEST KENSINGTOH, LONDON, ENGLAND.
CARBURETER.
Patented Mar. 11, 1919.
Application filed December 14, 1912, Serial No. 736,831. Renewed October 4, 1918. Serial No. 256,913.
To all whom it may concern:
Be it known that 1, JAMES DENNIS ROOTS, a Subject of the-King of Great Britain, and aresident of 58 Avonmore road, West Kensington, London, W., England, have invented a Carbureter, of which the following is the specification. I
This invention relates to a new or improved carbureter.
Incarburetors as hitherto constructed when employed with internal combustion engines, particularly those of the four stroke cycle, the suction of the working piston is employed to create a vacuum in the carbureter to cause the flow of the liquid fuel through the jet. This accentuates what is in itself a bad feature of present construction inasmuch as in most engines of this type the valves are too small and throttle the inlet. of mixture, while the choke tube of the carburetor provided to cause the necessary vacuum to feed the liquid fuel, causes further throttling. The existence of a vacuum at any time in the inlet pipe at all is disadvantageous, tending to cause a low efficiency of the engine and a high consumption of fuel. It is oneobject of this invention to roduce a lenum or sli ht pressure in the inlet pipe and to create the required vacuum for the flow of liquid fuel by other means.
According to this invention the carbureter is constructed with a fan or blower as an integral part thereof, and the vacuum is produced by the said fan or blower to cause the flow of liquid fuel from the jet, the said jet being placed immediately next the means 1 causing the vacuum and advantageously also serving to atomize the liquid.
In order that my invention may be completely understood, reference should be a made to the'accompanying sheet of drawingswhich illustrate some examples of my invention. Y
Figure 1' is a sectional elevation in the plane of the fan spindle. I" Fig. 2 is a section through'the fan transversely to that shown in Fig. 1.
i Fig. 3 is a section throughthe choke tube which is also the eye of the fan, the float feed and fan casing being in elevation.
Referring to Figs. 1, 2, and 3, A is the casing of the carbureting chamber of the carbureter in which is mounted the fan B. The fan B is formed as a centrifugal fan having four main arms or blades B4 B and The end coverplate D of the fan and carbureter casing A is made detachable and is secured by bolts or screws to the casing A. The coverplate D is cone shaped and is formed as a hollow casting having provided at its center the ball bearings D D? in which the fan spindle C is adapted to rotate. On the outer end of the spindle C is secured a sprocket wheelE which is connected by a chain (not shown) to another driving sprocket wheel (not shown) mounted on either the crank shaft or the half speed shaft of the engine. As it is usually desirable to run the fan by the engine at twice the crank shaft speed or rather more,
the sprocket wheel on the crank shaft will therefore require to have twice (or more) as many teeth as the fan sprocket. If fitted to the half speed shaft, the sprocket will require at least four times' as many teeth as the fan sprocket.
Thecasing A is provided with the jacket A for the exhaust gases, A being the inlet for same, and A the outlet. 7
Although the fan is shown of the centrifugal type, it is possible to employ a fan of the usual type, by modifying the construction, but it would not be so eifective,
and the centrifugal fan is preferred. The fan shown provides an extremely convenient and effective constructional arrangement, because not only is the fan detachable with the coverplate and bearlng, but it provides the cone form of fan. 1 Although it is essential that the fan shall be power driven, it may be driven in any suitable manner as for example by skew gear from the half speed shaft.
The choke tube F is also the eye of the fan, it converges to the jet or liquid fuel nozzle G, and then diverges or widens therefrom.
The lower vertical channel for 1i uid fuel H is fed by the conduit I from the. oat feed chamber J which is of usual construction. The nozzle G has two 'ets G G the upper one of which is controlled by a screw down needle valve K fitted in the center of the closing nut L. The outlet from the orifice Gr may be therefore regulated.
It will be observed that the inner face of the nozzle G forms an inclined plane so that any liquid issuin either of them before t e fan is rotated is directed toward the fan casing. The air inlet M may be fitted with a piece of gauze or with an iris diaphragm or with other means for regulating the area of the air inlet such as two disks of thin sheet. metal M M provided with two or three holes, more or less of which may be left open for the passage of air. N is the delivery pipe for mixture to the engine and N is a throttle valve of ordinary construction mounted therein.
When starting the engine, the fan being positively rotated thereby, the rotation of the fan causes a suction or tends to create a vacuum in the choke tube, F. The suction created causes a flow of liquid fuel from one or both of the orifices therein, and to assist this first flow the carbureter may in some cases be first flooded or filled with liquid fuel. The liquid fuel is churned up by the rotated fan producing a mixture ready for the engine. As the engine gains in speed the fan also increases in speed and the issuing liquid is directed upon the cone center of the fan causing its completemixture and the delivery of the mixture to the engine b the delivery outlet N at a pressure. Tie mixture is thereby fed to the cylinders at a ressure instead of at a vacuum, each cylin er becomes more nearly filled with explosive charge and the efficiency, power, and economy of the engine are greatly increased.
What I do claim as my invention and desire to secure by Letters Patent is 1. A carbureter including a fan casing, a power driven centrifugal fan in the casing, the casing having a central inlet opening at one slde thereof and the walls of the casing ad] olmng said opening diverging outwardly, an inwardly tapering air intake adjoining the said inlet opening of the casing, a fuel nozzle n the air intake tube, and means for supplying liquid fuel to the nozzle, the fan caslng constituting a carbureter chamber.
2. A carbureter including a centrifugal fan, the fan being provided with a plurality of small peripheral blades, a choke tube forming the eye of the fan, a jet or nozzle in the choke. tube, and a float feed device supplying liquid fuel to the nozzle, the casing of the fan constituting a carbureter chamber.
3. A carbureter including a fan casing, a power driven centrifugal fan in the casing, the casing having a central inlet opening at from the jets orone side thereof and the walls of the casing adjoining said opening diverging outwardly, an inwardly tapering air intake adjoinin the said inlet opening of the casing, a fue nozzle in the air intake tube at the juncture of said tube with the fan casing, and ineans for supplying liquid fuel to the nozzle, the fan casing constituting a carbureter chamber.
4. A carburetor including a fan casing constituting a carburetor chamber and having an outwardly diverging substantially cone-shaped front wall provided with a cen tralopening, and a substantially cone-shaped rear wall spaced from and in substantial parallelism with the front wall of the easing, a fan in the casing, an inwardly tapered air intake tube connected with the central passage of the front wall of the casin and constituting the eye of the fan, a fue passage communicating with the casing and a float feed supply.
5. A carburetor including a fan casing constituting a carbureter chamber and having an outwardly diverging substantially coneshaped front wall provided with a central opening, and a substantially cone-shaped rear wall spaced from and in substantial parallelism with the front wall of the easing, a substantially cone-shaped fan in the 06 casing having blades extending between the cone-shaped walls of the casing and converging toward the central opening of the front wall thereof, the blades being set at an angle, and peripheral blades tween the first mentioned blades.
6. A carbureter including a centrifugal fan casing constituting a carbureter chamber and having an outwardly diverging substantially cone-shaped front wall provided 1 with a central opening, and a substantially cone-shaped rear wall spaced from and in substantial parallelism with the front wall,
. an intake tube connected with the casing at saidopening, a fuel nozzle in the intake 110 tube, a fan 1n the casing carried by the rear wall, said rear wall being detachably secured in place and having the bearings for the fan spindle located at its interior, the
fan shaft terminating short of the central 115 opening of the casing.
7. A carbureter includin a fan casing, a power driven centrifugal f anin the casing, the casing having a central inlet opening at one side thereodf d adjoining sai opening iver ing outwardly, an air intake tube adjoinigg the said inlet opening of the casing, said casing also having a cone shaped part, the apex of the cone disposed opposite to the central inlet 12 opening, a nozzle in the intake tube, and means for supplying liquid fuel to the nozzle.
8. In a carbureterincluding a fan casing,
a power driven centrifugal fan in the casing, 180
located beand the walls of the casing .e easing having a central inlet opening at ie side thereof and the walls of the casing ljoining said opening diverging outardly, an air intake tube adjoining said ilet opening of the casing, a fuel nozzle in 1e air intake tube; and means for supplying quid fuel to the nozzle, the fan casing con- ;ituting acarbureter chamber.
9. A carbureter including a fan casing, a ower driven fan in the casing, the Casing nd fan being substantially cone shaped in form and the casing having a central inlet opening at one side at the apex thereof, an air intake adjoining the said inlet opening of the casing, a nozzle in the intake tube, 15
' and means for supplying liquid fuel to the EST AVAlLABLE CCW
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US25691318A US1296853A (en) | 1918-10-04 | 1918-10-04 | Carbureter. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US25691318A US1296853A (en) | 1918-10-04 | 1918-10-04 | Carbureter. |
Publications (1)
Publication Number | Publication Date |
---|---|
US1296853A true US1296853A (en) | 1919-03-11 |
Family
ID=3364402
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US25691318A Expired - Lifetime US1296853A (en) | 1918-10-04 | 1918-10-04 | Carbureter. |
Country Status (1)
Country | Link |
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US (1) | US1296853A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3224174A (en) * | 1962-11-29 | 1965-12-21 | Stevens Lehrer & Stevens | Air-feed device for carburetors |
-
1918
- 1918-10-04 US US25691318A patent/US1296853A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3224174A (en) * | 1962-11-29 | 1965-12-21 | Stevens Lehrer & Stevens | Air-feed device for carburetors |
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