US1034513A - Valve-gear. - Google Patents

Valve-gear. Download PDF

Info

Publication number
US1034513A
US1034513A US66992312A US1912669923A US1034513A US 1034513 A US1034513 A US 1034513A US 66992312 A US66992312 A US 66992312A US 1912669923 A US1912669923 A US 1912669923A US 1034513 A US1034513 A US 1034513A
Authority
US
United States
Prior art keywords
shaft
valve
sheave
axis
strap
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
Application number
US66992312A
Inventor
Arthur John Rowledge
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
WOLSELEY TOOL AND MOTOR CAR COMPANY Ltd
WOLSELEY TOOL AND MOTOR CAR Co Ltd
Original Assignee
WOLSELEY TOOL AND MOTOR CAR Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by WOLSELEY TOOL AND MOTOR CAR Co Ltd filed Critical WOLSELEY TOOL AND MOTOR CAR Co Ltd
Priority to US66992312A priority Critical patent/US1034513A/en
Application granted granted Critical
Publication of US1034513A publication Critical patent/US1034513A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01LCYCLICALLY OPERATING VALVES FOR MACHINES OR ENGINES
    • F01L3/00Lift-valve, i.e. cut-off apparatus with closure members having at least a component of their opening and closing motion perpendicular to the closing faces; Parts or accessories thereof
    • F01L3/10Connecting springs to valve members

Definitions

  • This invention relates to the type of valve gear for operating a slide valve, sleeve valve, or piston valve, used in an internal combustion engine in controlling the inlet of combustible mixture to a cylinder and the discharge of exhaust gases therefrom in a manner which insures that between the closing of the inlet and the opening of the exhaust there will be a period during which the valve is maintained substantially in its midposition, thus completely sealing the inlet and exhaust ports during compression and explosion within the cylinder.
  • a member is rotated directly from the half-speed shaft and is mounted in relation thereto in a manner which allows its center to move in relation to the center of the shaft, the movement of this member being transmitted to a rod which operates the valve, and another member turns about a fixed center which is eccentric to the shaft and is rotated by the first-mentioned member and controls the movement of the axis of such first-mentioned member in relation to the axis of the shaft.
  • Describing more specifically mechanism by which the invention is carried out it comprises an eccentric which is rotated by the half-speed shaft and is movable in relation thereto in a manner which allows its axis to move in relation to the axis of the shaft, and a fixed eccentric, the movements of the rotating eccentric being governed by the fixed eccentric in a manner which insures a continual variation in the eccentricity of the rotating eccentric, the movements being imparted to the valve through the rotating eccentric.
  • a fixed sheave is eccentric to the axis of the half-speed shaft and a strap passes around this sheave.
  • a turning sheave rotated by the half-speed shaft is slidingly mounted in relation thereto in a manner which allows its axis to move in relation to the axis of the shaft, and this sheave is pivotally connected with the strap of the fixed sheave and turns such strap as it is itself turned by the shaft, thereby insuring that the axis of the turning sheave will be constantlyvarying its position in relation to the axis of the shaft.
  • a strap which has a turning fit around the turning sheave has a lug by which it is pivotally connected with the valve rod, and this rod is suitably guided.
  • Figure 1 is a front elevation of the valve gear.
  • Fig. 2 is a vertical section, taken substantially in vertical planes within which, respectively, lie the axis of the halfspeed shaft and the axis of the valve rod.
  • Fig. 3 is a diagram, illustrating the path of the center of the moving sheave; and, Fig. A is an enlargement of a portion of the diagram shown by Fig. 8.
  • A is the half-speed shaft
  • B is a sheave which is eccentric to the shaft A and is itself fixed, and consequently remains stationary while the shaft revolves.
  • B is a strap which has a turning fit around the sheave B.
  • C is an annular sheave which is rotated by the shaft A. It is slidingly mounted on a bar I) which is rigid with the shaft A and at ri htangles thereto, whereby the sheave 6 is rotated by the shaft through the medium of the bar, and is capable of sliding endwise of the bar;
  • the axis of the bar passes at rightangles through the axis of the sheave C.
  • a strap C has a turning fit around thesheave C.
  • the strap B has an arm I) with the outer end of which the sheave, C is pivotally connected, so that the sheave C turns .the strap B as it is itself turned.
  • the strap G 5 the direction of the arrow, Fig. 1, it will fixed sheave B will cause the sheave G to be constantly moving along the bar JD, a nd therefore constantly varying the POSltlO-IL turn the bar D, and consequently the sheave C, in the same direction, and the sheaveC will turn the strap B in the same direction.
  • the fixed sheave B is shown by Fig. 2 to be held within a double-sided boss F of the engine casing G, being formed with a portion 6 of reduced diameter which fits within such boss, and the sheave acts as one of the bearings of the shaft A.
  • the intersection of the Vertical and horizontal lines 1 and 2 indicates the center of the shaft A
  • the full strong line 3 indicates the distance between the center of the revolving sheave and the point of the connection of the strap C with the valve rod
  • the strong full line 4 indicates the distance between the center of the fixed sheave B and the .point of connection between the revolving sheave O and the strap B of the fixed sheave
  • the curvedline 5 indicates the path of the center of the revolving sheave B.
  • Lines 3 and 4 are marked in the positions due to the piston being at the commencement of the explosion stroke, and the broken lines marked 30, 60, 90, etc.,
  • Line 8 indicates the line of movement of the valve.
  • Line'9 indicates the position of the upper end of the line 3 when the induction port is fully open
  • line 10' indicates its position when the induction port opens or closes
  • line 11 indicates its position'whenthe exhaust port opens or closes
  • line 12 indicates its position when the exhaust port is fully open.
  • valve mechanism for operating a valve of the sliding type used with an internal combustion engine, the combination of a member which is' rotated directly from the half speed shaft and is mounted in relation thereto in a manner which allows its center to move in relation to the center of the shaft, a suitable connection between this member and the valve, and a member which is rotatably mounted about a fixed center which is eccentric to the shaft, said latter member controlling the movements of the axis of the first-mentioned member in relation to the axis of the shaft.
  • valve mechanism for operating a valve of the sliding type used with an internal combustion engine, the combination of a member which is rotated directly from the half speed shaft and is mounted in relation thereto in a manner which allows its center to move in relation to the center of the shaft, a suitable connection between this member and the valve, and a member which is rotatably mounted about a fixed center which is eccentric to the shaft, said. latter member'being rotated by the-first-mentioned member and controlling the movements of the axis of such first-mentioned member in relation to the axis of the shaft.
  • valve mechanism for operating a valve of the sliding type used with an internal combustion enginaan eccentric which is rotated'by the ha'l'fspeed shaft and is movable in relation thereto in-a manner which allows its axis to move in relation to the axis-of such shaft
  • a 'fixed eccentric which governs the movementsof the rotating eccentric in a manner which insures a continual variation 1n the eccentrlcity-o'f the rotating eccentric, and a suitable connection between :the rotating eccentric and the valve.
  • valve mechanism for operating a valve of the sliding type used withan internal combustion engine, a rotating-eccentrlc slldable upon a transverse guide which 1 s rigld wlth the half speedv shaft, a strap surrounding such eccentric, a suitable 0011- my name this 21st day of December 1911, in nection between such strap and the Valve, a the presence of two subscribing witnesses.
  • fixed eccentric and a strap which surrounds such fixed eccentric and is pivotally c0nI1ect- ARTHUR J ROWLEDGE' ed with the rotating eccentric, substantially Witnesses: as described for the purpose set forth.
  • ALExIs JACOB

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanically-Actuated Valves (AREA)

Description

A. J. ROWLEDGE. VALVE GEAR.
APPLIUATION FILED JAN. 8, 1912.
1,034,513. Patented Aug. 6,1912.
nnrrnn srxrns PATENT canton.
ARTHUR JOHN ROWLEDGE, OF BIRMINGHAM, ENGLAND, ASSIGNOR TO THE WOLSELEY TOOL AND MOTOR CAR COMPANY, LIMITED, OF BIRMINGHAM, ENGLAND.
VALVE-GEAR.
Specification of Letters Patent.
. Patented Aug. 6, 1912.
To all whom it may concern:
Be it known that I, ARTHUR JOHN Row- LEDGE, a subject of the King of Great Britain, and residing at Birmingham, in the county of Warwick, England, chief draftsman, have invented certain new and useful Improvements in Valve-Gear, of which the following is a specification.
This invention relates to the type of valve gear for operating a slide valve, sleeve valve, or piston valve, used in an internal combustion engine in controlling the inlet of combustible mixture to a cylinder and the discharge of exhaust gases therefrom in a manner which insures that between the closing of the inlet and the opening of the exhaust there will be a period during which the valve is maintained substantially in its midposition, thus completely sealing the inlet and exhaust ports during compression and explosion within the cylinder.
Describing broadly the main features of this invention :A member is rotated directly from the half-speed shaft and is mounted in relation thereto in a manner which allows its center to move in relation to the center of the shaft, the movement of this member being transmitted to a rod which operates the valve, and another member turns about a fixed center which is eccentric to the shaft and is rotated by the first-mentioned member and controls the movement of the axis of such first-mentioned member in relation to the axis of the shaft.
Describing more specifically mechanism by which the invention is carried out, it comprises an eccentric which is rotated by the half-speed shaft and is movable in relation thereto in a manner which allows its axis to move in relation to the axis of the shaft, and a fixed eccentric, the movements of the rotating eccentric being governed by the fixed eccentric in a manner which insures a continual variation in the eccentricity of the rotating eccentric, the movements being imparted to the valve through the rotating eccentric.
According to a convenient form of this mechanism, a fixed sheave is eccentric to the axis of the half-speed shaft and a strap passes around this sheave. A turning sheave rotated by the half-speed shaft is slidingly mounted in relation thereto in a manner which allows its axis to move in relation to the axis of the shaft, and this sheave is pivotally connected with the strap of the fixed sheave and turns such strap as it is itself turned by the shaft, thereby insuring that the axis of the turning sheave will be constantlyvarying its position in relation to the axis of the shaft.v A strap which has a turning fit around the turning sheave has a lug by which it is pivotally connected with the valve rod, and this rod is suitably guided.
In order that the invention may be clearly understood, and readily carried out, I will now describe a convenient practical form thereof which is illustrated, by way of example, by the drawings herewith, of which Figure 1 is a front elevation of the valve gear. Fig. 2 is a vertical section, taken substantially in vertical planes within which, respectively, lie the axis of the halfspeed shaft and the axis of the valve rod. Fig. 3 is a diagram, illustrating the path of the center of the moving sheave; and, Fig. A is an enlargement of a portion of the diagram shown by Fig. 8.
Referring first to Figs. 1 and 2; A is the half-speed shaft, B is a sheave which is eccentric to the shaft A and is itself fixed, and consequently remains stationary while the shaft revolves. B is a strap which has a turning fit around the sheave B. C is an annular sheave which is rotated by the shaft A. It is slidingly mounted on a bar I) which is rigid with the shaft A and at ri htangles thereto, whereby the sheave 6 is rotated by the shaft through the medium of the bar, and is capable of sliding endwise of the bar; The axis of the bar passes at rightangles through the axis of the sheave C. A strap C has a turning fit around thesheave C. The strap B has an arm I) with the outer end of which the sheave, C is pivotally connected, so that the sheave C turns .the strap B as it is itself turned. The strap G 5 the direction of the arrow, Fig. 1, it will fixed sheave B will cause the sheave G to be constantly moving along the bar JD, a nd therefore constantly varying the POSltlO-IL turn the bar D, and consequently the sheave C, in the same direction, and the sheaveC will turn the strap B in the same direction. The turning of the strap B around the of its own axis in relation to that of the shaft A, with the result that movements willbe imparted to the valve rod E, by the strap C, which are compounded of the movement of rotatlon of the sheave G around the axis of the shaft A and of the movementof rotation of the strap B which is imparted thereto by the rotation of the sheave C.
The fixed sheave B is shown by Fig. 2 to be held within a double-sided boss F of the engine casing G, being formed with a portion 6 of reduced diameter which fits within such boss, and the sheave acts as one of the bearings of the shaft A.
Referring to the diagram shown by Fig. 3, and to the portion thereof shown to an enlarged scale by Fig. 4., the intersection of the Vertical and horizontal lines 1 and 2 indicates the center of the shaft A, the full strong line 3 indicates the distance between the center of the revolving sheave and the point of the connection of the strap C with the valve rod, the strong full line 4 indicates the distance between the center of the fixed sheave B and the .point of connection between the revolving sheave O and the strap B of the fixed sheave, and the curvedline 5 indicates the path of the center of the revolving sheave B. Lines 3 and 4 are marked in the positions due to the piston being at the commencement of the explosion stroke, and the broken lines marked 30, 60, 90, etc.,
which radiate from the center of the shaft A, indicate the angles through which the shaft A turns for thirty, sixty, ninety, etc.,
degrees, respectively, of the turning of the crank-axle, the crank-axle turning three hundred and sixty degrees while the shaft A turns only 180 degrees. The round dots, marked upon the curve 5 at the points where such curve crosses the broken lines which radiate from the center of the shaft A, indicate the positions into which the lower end ofthe line?) will be brought when the-crank. shaft has turned through the angles, respectively, which are'marked against the respective radiating lines. The curved lines 6 and 7 indicate curvesstruck with the radius of the "line 3 when the valve is just closing the induction and 1s justcpening the exhaust,
respectively, so that, when the lower end of the line 3 is anywhere in position between these lines, the valve ports are closed. Line 8 indicates the line of movement of the valve.
2Line'9 indicates the position of the upper end of the line 3 when the induction port is fully open, line 10' indicates its position when the induction port opens or closes, line 11 indicates its position'whenthe exhaust port opens or closes, and line 12 indicates its position when the exhaust port is fully open.
It will be seen that,as the valve moves from its position closing the induction port to its position opening the exhaust port, the center ofthe revolving sheave passes through a portion of its path at a greatly reduced speed, such portion of the path forming in the particular example given a loop 13.
Having fully described my invention, what I claim and desire to secure by Letters Patent, is
1. In valve mechanism for operating a valve of the sliding type used with an internal combustion engine, the combination of a member which is' rotated directly from the half speed shaft and is mounted in relation thereto in a manner which allows its center to move in relation to the center of the shaft, a suitable connection between this member and the valve, and a member which is rotatably mounted about a fixed center which is eccentric to the shaft, said latter member controlling the movements of the axis of the first-mentioned member in relation to the axis of the shaft.
2. In valve mechanism for operating a valve of the sliding type used with an internal combustion engine, the combination of a member which is rotated directly from the half speed shaft and is mounted in relation thereto in a manner which allows its center to move in relation to the center of the shaft,a suitable connection between this member and the valve, and a member which is rotatably mounted about a fixed center which is eccentric to the shaft, said. latter member'being rotated by the-first-mentioned member and controlling the movements of the axis of such first-mentioned member in relation to the axis of the shaft.
3. In valve mechanism for operating a valve of the sliding type used with an internal combustion enginaan eccentric which is rotated'by the ha'l'fspeed shaft and is movable in relation thereto in-a manner which allows its axis to move in relation to the axis-of such shaft, a 'fixed eccentric which governs the movementsof the rotating eccentric in a manner which insures a continual variation 1n the eccentrlcity-o'f the rotating eccentric, and a suitable connection between :the rotating eccentric and the valve.
4. In valve mechanism for operating a valve of the sliding type used withan internal combustion engine, a rotating-eccentrlc slldable upon a transverse guide which 1 s rigld wlth the half speedv shaft, a strap surrounding such eccentric, a suitable 0011- my name this 21st day of December 1911, in nection between such strap and the Valve, a the presence of two subscribing witnesses. fixed eccentric, and a strap which surrounds such fixed eccentric and is pivotally c0nI1ect- ARTHUR J ROWLEDGE' ed with the rotating eccentric, substantially Witnesses: as described for the purpose set forth. ALExIs JACOB,
In witness whereof I have hereunto signed ROBERT G. GROVES.
Copies of this patent may be obtained for five cents each, by addressing the Commissioner of Patents,
Washington. D. C.
US66992312A 1912-01-08 1912-01-08 Valve-gear. Expired - Lifetime US1034513A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US66992312A US1034513A (en) 1912-01-08 1912-01-08 Valve-gear.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US66992312A US1034513A (en) 1912-01-08 1912-01-08 Valve-gear.

Publications (1)

Publication Number Publication Date
US1034513A true US1034513A (en) 1912-08-06

Family

ID=3102794

Family Applications (1)

Application Number Title Priority Date Filing Date
US66992312A Expired - Lifetime US1034513A (en) 1912-01-08 1912-01-08 Valve-gear.

Country Status (1)

Country Link
US (1) US1034513A (en)

Similar Documents

Publication Publication Date Title
US1034513A (en) Valve-gear.
US1609292A (en) Extra air valve for internal-combustion engines
US1294077A (en) Operation of fuel spraying or injections valve for internal-combustion engines.
US627887A (en) Valve-gear and governing mechanism for steam-engines.
US1227452A (en) Rotating-cylinder gas-engine.
US213261A (en) Improvement in valve-gears
US506438A (en) Peter meer
US1155794A (en) Rotary gas-engine.
US910680A (en) Valve-gearing for explosion-engines.
GB191103239A (en) Improvements in Valve Operating Mechanism.
US1061308A (en) Explosive-engine.
US1306238A (en) Rotary engine
US1090500A (en) Governor.
US294650A (en) Cut-off-valve gear
US1012034A (en) Explosive-gas engine.
US603788A (en) Engine
US372666A (en) giles
US1120240A (en) Valve-gear of internal-combustion engines.
US582630A (en) Alfred d
US884677A (en) Valve-gear for gas-engines.
US610682A (en) Gas-engine
US1359500A (en) Arrangement of reversing-gear for motors with valve-gear worked by cams
US495357A (en) William henry murch
US1249933A (en) Gas-engine.
US1526531A (en) Internal-combustion engine