US652544A - Gas-engine. - Google Patents

Description

No. 652,544. Patented lune 26, I900. C. A. MILLER.

' GAS ENGINE.

(Application filad Feb. 13, 1897.) (No Model.) 3 Sheets-Sheet I.

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, Patented lune 26,1900. c. A. MILLER.

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(Application filed Feb. 18, 1897.)

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Patented ,luna 26, I900! C. A. MILLER.

GAS ENGINE.

(Application filed Feb. 18, 1897.) ,7 3 Sheets-Shut 3.

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NITED STATES CHARLES A. MILLER, OF SPRINGFIELD, OHIO.

GAS-1E; NG IN E.

SPECIFICATION forming part of rettei-srate'm No. 652,544, dated June 26, 1906. Application filed February 13, 1897. Serial No. 623,264. (No model.)

To all tuhmn it may concern:

Be it known that I, OHARLEsA. MILLER, a citizen of the United States,residin g at Springfield, in the county of Clark 'and State of Ohio, have invented certain new and useful Improvements in Gas-Engines, of which the following is a specification, reference being had therein to the accompanying drawings.

This invention relates to certain new and useful improvements inga's-engines.

That part of this my present invention which relates to the pneumatic governor for controlling the admission of the explosive agent to the cylinder is designed as afurther improvement upon the same general feature embraced in my application for Letters Patent of the United States filed January 6, 1896, Serial No. 574,491, for improvements in gasengines.

My present improvements have reference to the construction and arrangement of the airgovernor, admission-valve, and adjunctive features.

My invention also relates to details of construction and arrangement hereinafter appearing, and particularly pointed out in the claims.

I11 the accompanying drawings, on which like reference letters and numerals indicate corresponding parts, Figure 1 is a plan view of a double-oylindered engine with my said improvements applied theretogFig. 2, a vertical sectional view, on a largerscale, on the line a: a; of Fig. 1 looking in the direct-ion of the arrows; Fig. 3, a detail enlarged view of the centrifugal governor and its adjacent parts; Fig. 4, a partial rear View and transverse sectional view of what is shown in Fig. 1; Fig. 5, an enlarged detail vertical sectional view of the parts composing the antipoundin g device for the check-valve; and Fig. 6, an on larged detail elevation of the admission-valve, showing its arrangement of orifices.

The letter A designates the bed of the engine, which is in two parts, one for either cylinder B C, said parts of the bed being interconnected by one or more of the crossbeams D, one being shown. Each engine has a piston connected by a pitnian through a cross-head F with the crank-shaft G,n1ounted on the bed, and geared through miter-gears H I with an operating-shaft J, itself geared through miter-pinions K and L with another operating-shaft M, mounted in bearings O, secured to the piece D.

The shaft J operates the centrifugal gov ernor and the air-pump, while the shaft M operates the movable electrode, (in a manner not shown, because no part of the present invention.) It also operates the arms P through cams Q, by which the rock-shafts R are rocked with their arms S, the latter lifting on'the exhaust-valves T, which are springseated by springs U in the igniting-chamber V. Each cylinder is provided with this chamber, exhaust-valve,and rock-shaft equipment, as shown more clearly in Fig. 4. V

The upper ends'of the igniting-chambers are provided with antipoundingchambers W, which form a part of the antipounding device for the check-valve X, seated in the upper end of the igniting-chamber V. The stem Y of the valve X has a piston Z, fitted to reciprocate in the chamber W as the valve seats and unseats. A spider Ct guides the valvestem and supports a spring Z), which seats the valve X after a charge is drawn or sucked in by the engine-piston. Ordinarily the reseating of these check-valves causes a clatter or pounding, making a disagreeable noise, as well as acting to wear the valve and seat. To prevent this is the object of this part of my invention. The upper part of the chamber W is in the form of a removable cap c, and this cap forms a chamber in Which'the air acts as a cushion against the piston Z and counteracts the spring I) enough to prevent the spring from pounding the valve X against the seat. These igniting-chambers are secured one to each cylinder, as seen particularly in Fig. 1, and each has an exhaust-pipe d, as shown in Fig. 4. The chambers W are connected by pipes e to the air-governor casing f, so that the charge which passes through this governor casing is conveyed past the check-valves X and thence into the ignitingchambers V. This air-governor casing is sup ported on a bracket 9, as seen in Fig. 2, which bracket is secured to the cross-beam D. The interior of such casing is divided into an airchamber h, fed by a pipe i, a mixing-chamber j, a discharge-chamber 7c,and an air-pressure chamber Z, which latter is fed by a pipe m with air under pressure supplied by an airpump or pressure-creating device to be presently referred to.

Extending across the chamber h is a passage 0, fed with gas by a gas-pipe p, controlled bya cock q. A gas-valve orifice r leads from the gas-passage 0 and is controlled by a tapering stem 8, actuated in a manner presently to appear, in such wise that as it moves in and out of the orifice r it cuts off or admits more or less of the gas into the mixingchamber j as the valve t is raised by the suction of the engine-pistons, as suggested by the dotted lines. The air passing through the pipe '6 into the chamber h and past the valve 15 mixes with the gas passing through the passage 0, orifice r, and by the valve 3 when such air and gas meet in the chamberj. This charge or mixture thence passes through the orifices in the admission-valve u and into the chamber and thence through the pipes c. This admission-valve has a spiral row of perforations 'v. The spiral position of the perforations opens a gradually-increasing proportion of each orifice, so that the graduation of increase or decrease of the area of these perforations is very finely adjusted and increases or decreases but a little at a time as the mixing-valve u reciprocates under the varying pressure of air in the chamber Zof this air-governor, said valve 16 being shown in its highest position in Figs. 2 and 4:. A stem w connects the admission-valve u with a piston go, which is lifted by a spring y, resting on a disk y, supported by a gland ,2, held by screws 2', as shown in Fig. 2, or otherwise. When the spring y lifts on the admission-valve u, the amount of charge admitted to the chamber 70 and thence to the pipes e is increased; but when the piston presses down on this valve u the amount of charge admitted is decreased. Therefore the action of the spring y in lifting the valve to is controlled by the degree of pressure of air in the chamber 1, and this degree of pressure is in turn varied by the speed of the engine and the load it is carrying. A thumbscrew 2 controls a let-off orifice 3, which may or may not be used, according to circumstances; but the automatic control of the airpressure in the air-governor is accomplished by a centrifugal governor of any approved type arranged to control a let-off orifice at some suitable point relatively to the pump or air-pressure-creating device and the air-governor. I have selected one location, as shown in the accompanying drawings, in which a branch pipe t from the pipe on enters a bracket 5, secured to the bed, and provided with a let-off orifice 6, controlled by a tapering valve 7, supported by a spring 8, and adjusted by a spring 9 and a thumb-screw 1-0, fixed by a jamnut 11, said spring S) and thumb-screw being carried by the bracket 5. It is now clear that if t'he valve 7 is withdrawn more or less out therefore the position of the piston ac and the consequent position of the orifices o in the admission-valve a will be varied relatively to the cut-01f flange u, and so the amount of charge admitted he thus controlled and va-' ried. Now the position of the valve 7 is de pendent upon the action of the governor. The spring 9 tends to force the valve 7 out of the orifice 6, so that the maximum escape is the normal condition. The centrifugal governor overcomes this tendency or yields to it, according as the engine is running slow or fast or has a heavy load or a light load imposed upon it. For instance, if the engine is running fast with a light load the governor will move the valve 7 farther in and decrease the amount of escape, and this in turn will increase the pressure of air in the air-governor and cut off more and more of the orifices 1) above a flange u and decrease the quantity of the charge. On the other hand, if the engine is running slow, as with a heavy load, the valve 7 will move outward and increase the let-off of the air and so decrease the airpressure in the air-governor, and thus permit the spring y to lift the admission-valve w to expose more of the area of the orifices 4; above the flange u and so increase the quantity of the charge. Thus alight load and high speed decrease the let-off of air and increase the air-pressure in the air-governor, while slow speed and a heavy load increase the let=off of air and decrease the air-pressure in the airgovernor. This automatic balancing of the proper relation of air-pressure and amount of charge admission takes place in all of the intermediate conditions from the extremes of high speed and light load to low speed and heavy load. What is here described is based upon the actual operation of a full-sized equipment, and the results are found to be highlysatisfactory and practical.

Referring now to one form of suitable governor, it will be seen that a shaft 12 is mounted in the bracket 5 and carries a head 13, in which are pivoted governor-arms 14E,with balls 15 at one end and studs 16, which press upon a sleeve 17, slidable on the shaft 12 and adapted to press inward on the spring 8 as the governor-balls fly outward and to move in the other direction as the balls return inward. The shaft 12 has a pulley 18, driven by a belt 19, itself driven by a pulley 20 on the operating-shaft J. A revoluble collar 21 on the sleeve '17 relieves friction between the sleeve and the balls 15 whenthe governor is revolving slowly.

Referring now to the pump or air-pressurecreat-ing device, it will be understood that any kind of air-pump will answer the purpose.

At 22 an air-pump is designated andact'uated by a pitman 23, connected with an eccentric 24 on the operating-shaft J. This pump supplies air to the pipe m.

WVhile I have shown and described my improvements in connection with a double-cylinder engine, they will be understood to be applicable to engines with one cylinder. In fact, I have so applied them.

Having thus fully described my invention, what I claim as new, and desire to secure by Letters Patent, is-

1. In a gas-engine, the combination with an air-governor, a reciprocating admissionvalve, a piston in the governorto actuate such valve in one direction and a spring to actuate it in the other, an air-pump connected to the air-governor, a governor-controlled airlet-o'ff valve, between said pump and said airgovernor, and means connecting an operating part of the engine with the valve-governor, for the purpose described.

2. In a gas-engine, the, combination with an air-governor including a piston, a perforated reciprocating admission-valve connected to the piston, a spring lifting said valve, an air-chamber above the piston to depress the piston and valve by air-pressure, a pump connected with said chamber, a branch in the connection havingalet-ofii orifice, a governorcontrolled valve for said orifice, and means connecting the latter governor with an operating part of the engine.

3. In a gas-engine, an air-governor consist ing of a casing having a gas passage and ori-' fice, an air-inlet chamber, a mixing-chamber,- a discharge-chamber, and an air-pressure chamber, a web between the mixing and discharge chambers, an admission-valve working in said web and controlling communica tion between said latter chambers, a piston in the pressure-chamber to move the valve in one direction and a spring to move it in the other, an air-valve between the mixing-cham ber and air-inlet chamber and a tapering gasvalve in the gas-orifice connected with the admission-valve.

4. In a gasengine, the combination with an air pipe or conduit having a let-off orifice, a valve therefor supplied with a spring arm, an adjusting screw and spring acting on the arm to unseat the valves, and a governor act ing on the arm oppositely to seat the valve, and means connecting the said governor with an operating part of the engine In testimony whereof I affix my signature 5c in presence of two witnesses.

CHARLES A. MILLER.

\Vitnesses:

OLIVER H. MILLER, W. M. MONAIR.

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