US1394536A

US1394536A - Carbureter

Info

Publication number: US1394536A
Application number: US98317A
Authority: US
Inventors: Wilfred O Chase
Original assignee: Individual
Current assignee: Individual
Priority date: 1916-05-18
Filing date: 1916-05-18
Publication date: 1921-10-25
Anticipated expiration: 1938-10-25

Description

W. 0. CHASE.

CARBURETER.

APPLICATION FILED MAY 18, 1916 Patented oet, 25, w21.,

f W vv n@ ber B, preferably of spherical form,

by the s Parent esencia;

WILFRED 0, CHASE, 0F DETROIT, MICHIGAN.

CARBURETER.

l Application led May 18, 1916. Serial No.

T 0 all 'whom t may concern:

Be-it known that I, WILFRED O. CHASE, a citizen of the United States of America, residin vat Detroit, Ain the county of'Wayne and tate of Michigan, have invented certain new and useful Improvements in Carp views showing positions of adjustment.

e casing containing a mixing chamwith the throttle valve C located thereabove. D is an automatic air valve located in a portion E of the casing below the mixing chamber and adapted to be lifted from its seat opening F. The valve D is hollow and is sleeved upon a guide member G, which also l forms an aspirating tube', vhav-ingthe laterall :fuel discharge nozzle,

. L with a liquid fuel reservoir of ther fuel in said reservoir l the discharge end of the nozzle nozzle K upon the initial suction stroke of' the valve with the (inning opening H at its'lower `end communicating with the air inlet F. At its vupper end the member G hasa flared opening I, while the valve is provided at its upper end with a bushing member J flared I at its opposite ends, as shown at J and J 2. H .is a liquid which extends downward centrally of the casing A in alinement with the valve member D and Iguide member G. 'This nozzle is connected b va passage il, the level being maintained in substantially lthe Same Vplane as With the parts as thus far described, the

normal positlon when not inoperation is as shown in Fig. 1,-where the nozzle K is in4 of the bushing J, leav1 the flaring .mouth J ing Aa conical air passage surrounding said nozzle,'connecting .the hollow space lwithin chamber, through 1n when the engine velocity of air passing through the valve Dfand about the tapering which air maybe rawn is started. Thus t e the engine will operate as anejector to draw liquid fuel from the reservoir M and 'dis-o Specication of Letters Patent.

pressure of air entering through theV vthrough this Y lessened,-as the opening of the throttlel Patenten oet. 25, rea-i.

charge it downwardly in the air current. The opposition of the downward discharge of the liquid and the upwardly-moving air current will cause a thorough commingling,

and as the air passage surrounding the nozzle is comparatively free from relatively large volume of initially drawn, operating as restriction a oil will be an automatic primer. As soon as the suction -is established the air pressure operating upon thevalve D Willj raise it from its seat, lifting it to a point where the nozzle K is in the restricted portion J 3 intermediate the flaring portions J and J 2 of the bushing J. When the va1veisin this psition it4 win be lifted from its seat to a point where a portion of smaller diameter is opposite the seat, thereby opening a peripheral air passage and admitting auxiha-ry air into the chamber B. This in turn will' lessen the upward pressure upon the valve, so that'it will oat in this position as long as the throttle C is in closed or idling position,with a consequence that the air passage through the' valve and hollow guide G will be restricted Vto the minimum.- vThe parts will remain in Vthis position until the throttle is opened, whereupon the increased suction will lift the valve D still'higher to a point where the nozzle K is below the point of greatest restriction and is an enlarged chamber N therebeneath.

passage. is not, however, produces a greater demand, so that the effect is to increase the discharge of the liquid and to proportionately increase the volume of air passing through the mixing chamber.`v

Furthermore, the air which passes through the hollow guide will be opposite'ly-flaring walls J shape of the nozzle K deflected by the andl J 2, while the which tapers oppo- The velocity of the airv sitely ,from its point of greatest diameter will also deflect the air. This will produce a thorough commingling of the liquid'with the air passing through the valve, while the air passmg around the valve into the spherical chamber B will be deliected and commingled with the rich mixture from within the valve, making a mixture `of the proper 'ichness for entering the explosion cham- 1 It has been stated that the level of the liquid within the chamber'N is maintained .will increase the stem P and through the port Pz'therein will substantially constant. This may be accomplished by an ordinary float-valve, but preferably as shown the liquid is periodically drawn into the chamber by suction and the level is maintained by'controlling the suction. As specifically shown, O is a float within the chamber N, whichhas an upwardly extending tubular stem P fitting within a tubular casing Q. R is a suction conduit, preferably connected to the casing A above the throttle valve C and coupled at its opposite end to the casing Q, as by means of the 'coupling R. The casing Q and tubular stem P are provided with ports Q and P adapted to come into registration in one position of adjustment of the float O, and when thus registered an external air vent is opened to the interior of the tubular stem o f Sullicient area to neutralize the suction produced by the conduit R. On the other hand, if the oat O is lowered by the dropping of the liquid level in the chamber N, this will throw the ports Q and P out of registration, which vacuum within the hollow communicate the suction to the chamber N. As a consequence additional liquid will be drawn up into said chamber through the supply conduit S which is connected to a supply tank (not shown) located at a lower level. A check-valve T, preferably arranged valve in said conduit beneath said nozzle centrally within the float O, serves `to close the -passage S to prevent `return of the liquid when the suction is relieved.

From the description just given, it will be understood that a substantially constant level of liquid is maintained in the chamber N, while at the same time the supply tank is located at a. lower level. Thus the one device, which takes the place of the ordinary float valve, performs the double function of maintaining a constant level of the liquid and of periodically renewing the liquid from a source of supply at a lower level.

In order to adjust the restriction of the registering ports Q and P a ported sleeve U may be placed around the casing Q and adjustably secured by a set-screw V. Thus by shifting the position of this sleeve a greaterl or lesser restriction of the air vent passage is obtained.

What I claim as my invention is 1. In a carbureter, the combination with an air suction conduit, of a downturned liquid fuel discharge nozzle therein, and a hollow air valve'below said nozzle adapted to be lifted by the air pressure and coacting with the nozzle to vary the restriction of the air passage about said nozzle.

2. In a carbureter, the combination with an air suction conduit, of a downturned liquid fuel discharge nozzle therein, an air adapted to be lifted by the air pressure, said valve being hollow and having a variable open cross section at different points to vary the restriction of` air passing around said nozzle according to the lifting of the valve.

3. In a carbureter, the combination with an air suction conduit, of a downturned nozzle therein for discharging the liquid fuel, a hollow air valve beneath said nozzle having an enlarged chamber therein with a point of restriction between the same and the open upper end, said valve being adapted to be lifted byV air pressure to first register said nozzle with the point of greatest restriction and upon further lifting to insert the nozzle within said enlarged chamber.

4. In a carbureter, the combination with an air suction conduit, of a liquid fuel discharge nozzle arranged to extend downward in said conduit, a hollow air valve having a passage therethrough enlarged at one point and restricted adjacent to its upper end, said valve being adapted to be lifted by air pressure to first register the nozzle with the restricted portion and upon further lifting Y 5. In a carbureter,.the combination with an air suction conduit having a bulbular enlargement therein and a throttle valve above said enlargement, of a liquid fuel discharge nozzle extending centrally downward in said conduit with itsv discharge end arranged centrally of said bulbular enlargement, an airvalve seated at the lower end of said bulbular enlargement and controlling the entrance of air thereto, said valve having a passage therethrough forming an enlarged chamber at one point and restricted adjacent to its mouth, the valve when seated being below said liquid discharge nozzle and being adapted to be lifted by air pressure to register said nozzle with t-he restricted portion of the passage when said engine is idling 'and to insert the nozzle within the enlarged chamber when the throttle is opened. x,

6. In a carbureter, the combination with an air suction conduithaving a bulbular enlargement, of a throttle valvein said conduit above said enlargement, a liquid discharge nozzle extending centrally downward in said conduit with its discharge end cen- A 7. In a carbureter, the combination withl the inlet thereof, a valve Vseated in said conduit having a passage therethrough into which said nozzle discharges, said valve coacting with its seat to control a flow of air around said valve and with said nozzle to Variably restrict the passage therein, and a guide member for the valve formed with a passage having an opening thereinto from the air conduit and having communication with the passage through said valve.

" 9. In a carbureter, the combination with an air suction conduit, of a liquid fuel nozzle discharging within said conduit toward the inlet thereof, a valve seated in said conduit having a passageA therethrough into which said nozzle discharges and a guide member for the valve formed with a passage having an opening thereinto from said air conduit and having communication with the passage through said valve, said valve coacting with its seat to control a flow' of air around said valve and coacting With said nozzle to variably restrict a passage through the valve and coacting with the vguide member to restrict the inlet thereinto in a certain position of the valve. I

10. In a carbureter, the combination'with an air -suction c onduit,rof a liquid fuel nozzle discharging within said conduit toward the inlet thereof, a member displaceable axially of said nozzle by air pressure, said member having an air 'passage therethrough, a guide member for the displaceable member having an air passage continuous with that in the displaceable member and having -an airinlet, said displaceable member coacting with the nozzle to variably restrict the passage thereinto and coactin with the guide Vmember in one of its positions to restrict the air inlet of the same.. I

11. In a carbureter, the combination With an airsuction conduit, of a liquid' fuel nozzle discharging thereinto toward the inlet thereof, said nozzle having an exterior enlargement, an air valve seated intsaid con- @0 duit having a passage therethrough into 4which the nozzle discharges, said passage having a point of restriction, the valve being adapted to be displaced by air pressure to first register the 'enlargement of the nozzle with the point of restriction of said passage and a valve seated in said having a and to subsequently shift the point of restriction beyond the enlargement of the nozzle.

l2. In a carbureter, the combination with an air suction conduit, of a liquid fuel nozzle discharging withinv said conduit, a valve seated in said conduit having a passage therethrough co-axial with said nozzle, and a guide member for the valve formed with a passage communicating with Athe .passage in the valve and having an inlet thereto from said air conduit, said valve having a portion controlling said inlet: l

13. In a carbureter, bthe combination with an air suction conduit having a bulbular-enlargement, of a throttle Valve in said conduit above said enlargement, a liquid discharge nozzle extending centrally downward in -said conduit with its discharge end centrally arranged in said bulbular enlargement, an air valve seated at the lower end of said enlargement, an air tube below said nozzle communicating with an enlarged chamber in said valve, said valve having also a restriction above said enlarged chamber and being adapted to 4be lifted by air pressure to register said nozzle with said restriction when lthe engine is idling and to insert the nozzle within'the enlarged chamber when the throttle is further opened.

14. In a carbureter, the combination with an air suction conduit, of a liquid fuel nozzle discharging within said conduit toward the inlet thereof, a valve seated in said conduit vhaving a passage therethrough into which said nozzle discharges, said valve coacting with its seat to control a flow of air around said valve andwith said nozzle to variably restrict the passage therein, and an air tube below the nozzle having an opening thereinto from the air conduit and having communication with the passage` through said valve.

15. In a carbureter, the combination with an air suction conduit, of a liquid fuel nozzle discharging within'said conduit toward the inlet thereof, a valve seated in said conduit passage therethrough into which .said nozzle discharges, and an air tube having an opening lthereinto from said air con- 16. In a carbureter, the combination withv an air suction conduit, of a liquid fuel nozzle discharging within said conduit toward the inlet thereof.. a member displaceable axially.

of said nozzle by `air pressure, .said member having an air passage therethrough, an air tube disposed axially of the nozzle havin its interior passage continuous with that in said displaceable member and having an air coacting with the air tube to restrict inlet, said displaceable member coacting with the nozzle to Variably restrict the passage around said nozzle, and coacting with said air tube in one of its positions to restrict the air inlet of the same.

17. In a carbureter, the combination With an air suction conduit and a nozzle discharging liquid fuel in said conduit, of an auto-` matic valve, adapted to be unseated by air pressure, said valve having a passage therelrhrough providing for a flow of air to the suction conduit directly counter to the discharge of liquid fuel, and admitting a further supply of air to said conduit, when unseated, ad-

WILFRED O. CHASE Witnesses:

HENRIETTA E. BOWMAN, JAMES I. BARRY.