US1732995A - Rotary engine - Google Patents

Description

Oct. 22, 1929. -r. TSCHUDI ROTARY BIGIIB v Filed June 28. 1928 3 Sheets-Sheet 1 INVENTOR I 2 11115011 730/: ad: BY

ATTORNEY Patented Oct. 22, 1929 UNITED STATES TBAUGOTT TSCHUDI, OF'PATERSON, NEW JERSEY ROTARY ENGINE Application filed June 28,

This invention'relates to rotary internal combustion motors, and is in the nature of an improvement over my prior United States Letters Patent No. 1,641,911, granted September 6,1927. The present invention comprehends an im-' proved means for intermittently coupling the rotors with the drive shaft respectively for movement of said shaft byone rotor-while the other rotor is at rest, and for movement of the other rotor by and in unison with the first mentioned rotor.

More specifically, the invention contemplates a rotor and shaft coupling means for a motor of the character set forth, including mutilated gearing on the rotors and motor drive shaft and including eccentric locking means provided respectively on the motor shaft and rotors which function to setup the intermittent coupling and driving of the shaft by the rotors without undue friction and wear on the parts.

The invention further contemplates in a,

rotary internal combustion'motor, a stator having a toroidal cylinder with an eccentrically arranged drive shaft extending axially throughthe stator and in which a pair of axially spaced rotors, each provided with a pair of diametrically disposed arcuate pistons arranged in the cylinder for sub-dividing the same into a plurality of chambers, are adapted upon relative movement of the pistons to vary the size of the chambers for successively effecting the intake, compression, ignition and exhaust of fuel.

The invention further'aims to provide in a motor of' the character described an improved intermittent coupling between the rotors and drive shaft which admits of the operation of the motor in either a clockwise or counter clockwise direction by employing ignition devices at two points.

Other objects reside in the comparative simplicity of construction of the motor, the

1928. Serial No. 288,948.

Figure 2 is a transverse sectional view taken approximately on the line 2-2 of Figure 1.

Figure 3 is a detail fragmentary sectional view taken approximately on the line 3'3 of Figure 1 and illustrating the construction of the exhaust or intake ports.

Figures 4 to 7, inclusive, are diagrammatic views'illustrating the va'rious working posit'ions of the pistons and rotors.

. Referring to the drawings by characters of reference, the motor includes a casing comprising mating sections 10 and 11 of substantially identical construction and each including an annular wall 12of substantially semi-cylindrical configuration in cross section formed with an outwardly projecting annular flange 13, Which fianges'are designed to be fastened together by bolts 14 for holding the sections'in mated relation. The walls 12 of the sections when mated define an annular or toroidal chamber 15. The annular walls support side plates 16 which are formed with suitable bearings 17 disposed eccentrically to the axis of the annular chamber and, receiving axially therethrough a' drive shaft 18. A pair of annular rotors 19 and 20 are arranged within the casing in axially disposed side by side relation. The rotors are respectively provided with laterally projecting annular bearing flanges 21 and 22 mounted on suitable bearings 23 and 24 within the casing for rotation. The rotor, 19 is provided with diamet- 'rically disposed arcuate pistons 25 and 26 which are arranged within the chamber 15 while the rotor 20 is provided with diametrically disposed arcuate pistons 27 and 28 arranged within the chamber 15. The casing section 11 isprovided with circumferentially spaced intake and exhaust ports 29 and 30, between which an ignition device 31 is arranged to communicate with the chamber 15; Obviously, this arrangement subdivides the chamber into a plurality of compartments, one being disposed between each pair of pistons. i

' As illustrated in Figures 4 to 7, inclusive, thecompartment a in Figure 4 is the compression compartment, the compartment 6 the ignition compartment,the compartment 0 the exhaust compartment, and the compartment d the intake compartment. When the i nition occurs, the pistons 27 and 28 in igure 4 are driven in a clockwise direction to the position illustrated in Figure 5, while the pistons 25 and 26 are stationary. Obviously, this compresses the charge of fuel in the compartment (1, forces out the perviously ignited charge in the compartment 0 and draws in a fresh charge of fuel in the compartment d, while the expansive forces of the gases or fuel in the compartment 6 have performed their function. The momentum now carries the pistons 25 and 26 with the pistons 27 and 28 to the position illustrated in Figure 6 so that the compressed charge in the chamber a is now in registry with the ignition device while the burned charge in the compartment 6 is in registry with the exhaust port 30. The scavenged compartment 0 is in registry with theintake port 29 while the previously in taken charge in the compartment cl is moved around and trapped ready for compression when the next ignition occurs. Obviously, when the next ignition occurs, the pistons 27 and 28 remain stationary, while the pistons 25 and 26 are moved in a clockwise direction to the position illustrated in Figure 7, due to-the fact that explosion of the fuel in the compartment adraws the pistons 25 and 26 in a clockwise direction, causing the trapped fuel charge in compartment cl to be drawn into the compart- Lment 0, while the previously expanded and exploded charge in compartment 7) is exhausted.

The present invention relates to an im- -yproved means for exerting a continuous torque upon the drive shaft 18 from the particular piston which is being moved by the explosion of the'fuel while at the same time employing on said shaft means cooperating with the inactive rotor and pistons for locking the same against movement so that one of the pistons acts as an abutment for the piston-which is receiving the force of the explosion. The improved means consiststof diametrically disposed circumferentially and axially spaced arcuate series of gear teeth 35 a and 36 provided respectively on the drive shaft 18 and diametrically disposed circum-' ferentially spaced arcuate series of gear teeth 37 and 38 and 39 and 40 formed on the rotors 19' and 20 respectively; This means further includes axially spaced arcuate ribs 41 and 42 formed on'the drive shaft, which ribs are disposed at 180 with respectfto each other and diametrically opposite to the respective arcuate series of gear teeth on the drive shaft. The arcuate ribs are in turn designed to cooperate with circumferentially spaced sets 18 is eccentric.

,is repeated as long of rollers 43 and 44 provided on the rotors 19 and 20, it being obvious that the rollers turn on independent axes to which the drive shaft The arrangement of the mutilated gearing and ribs and rollers is such that when the piston 27 in Figure 4 is receiving the force of the explosion, the drive'shaft 18 is being turnedtherewith through the engagement of the gear teeth 39 of the rotor 19 with the gear teeth 35 of the ,drive shaft while the arcuate rib 42 of the driveshaftis locked between the rollers 4401. the rotor 20 to hold said rotor 20 and its pistons 25 and 26 stationary. When the rotors and pistons reach the position illustrated in Figure 5, the gear ure 5 to the position illustrated in Figure 6.:

The gear teeth 37 are thenmoved out of mesh with the gear teeth 35 on the drive shaft while the arcuate rib 41 moves between an adjacent pair of rollers 43 to lock the rotor 19 and its pistons 27 and 28 in their'positions illustrated in Figures 6 and 7, while the rotor 20, together with its pistons 25 and 26, is driven by the force of explosionto the position illustrated in Figure 7. This cycle \of operation ation;

Byproviding an additional ignition device 31, as illustrated in dotted lines in Figure 5, and reversing the intake and ex; haust ports, it is obvious that the motor may be driven in a counter clockwise direction in the same manner. 1

What is claimed is: 1.' In a rotary internal combustion motor including an annular cylinder and a pair of rotors each having a pair' of dlametrlcally disposed pistons movable in the cylinder, an eccentrically arranged drive shaft extending axially through the motor and means for intermittently coupling the rotors with the drive shaft respectively for movement of said shaft" by one of the rotors while the other rotor is at rest and for movement of the other rotor by and with the drive shaft and in unison with the first mentioned rotor.

as the motor is in oper- 2. In "a rotary internal combustion motor including an annular cylinder and a pair of rotors each havlng a pair ofdiametrically disposed pistons movable in the cylinder, an

eocentrically arranged drive shaft-extending f axially through. the motor and means for intermittently coupling the rotors with the drive shaft respectively for movement of said shaft by one of the rotors while the other rotor is at rest ;and for movement of the other rotor by and, with the drive shaft and in unimsaeee I including mutilated gearing on the drive shaft and rotors. 3. In a rotary internal combustion motor including an annular cylinder and a pair of rotors each having a air of diametrically disposed pistons movab r in the cylinder, an eccentrically arranged (if! we shaftextendingaxiallythrough the motor andmeans for intermittently coupling the rotors with the n drive shaft respectively formovement of said shaft by one of the rotors while the other rotor is at rest and for movement ofthe other motor by and with the drive shaft and in unison with the first mentioned rotor, said means including mutilated gearing on the a drive shaft and rotors, and saidmeans further including rotor locking means consisting of arcuate ribs on the eccentric drive shaft and concentric rollers on the rotors.

4. In arotaryinternal combustion motor including an annular-cylinder and a pair of rotors each having a pair of diametrically disposed pistons movable in the cylindr an eccentrically arranged drive shaft extending axially through the motor and means for intermittently coupling the rotors with the 7 drive shaft respectively for movement'bof said shaft by one of the rotors while, the, other rotor is at rest and for movement-of the other so rotor by and with the drive shaft and in unison with the first mentioned rotor, said means comprising diametrically disposedcir cumferentially and axially spaced-arcuate series of gear teeth on the drive shaft and diametrically disposed circumferentially spaced arcuate series of gear teeth on each rotor, axially spaced arcuate ribs on the drive shaft and circumferentially'spaced sets of rollers on each rotor adapted to coact with one of the arcuate ribs to arrest movement of one rotor while the other is in motion,

5. In a rotary internal combustion motor, a stator having a toroidal cylinder, an eccentrically arranged drive shaft extending axially through the stator, apair of axially spaced rotors each having a pair of diametrically dis osed arcuate pistons arranged within the cylinder for subdividing the same into a plurality of chambers adapted upon relative movementpf the pistons to vary in size, said cylinder having circumferentially spaced fuel intake and exhaust ports, an ignitween the intake and exhaust ports, and means for intermittently coupling the rotors with the drive shaft respectively for relative movement thereof and for movement of the same in unison: y l

6. In a rotary internal combustion motor,

03 a stator having a toroidal cylinder, an eccen- 'trically arranged drive shaft extending axially through the stator, a pair of axially spaced rotors each having a pair of diametr1- cally within the cylinder for subdividing the same.-

disposed arcuate pistons warranged" I into a plurality of chambers adapted 'upon relative movement of the pistons to vary in size,

tion device communicating therewith between the intake and exhaust ports,-and means for intermittently coupling the rotors with the said cylinder having circumferentially spaced fuel intake and exhaust ports, an ignidrive shaft respectively for relative movement thereof and for movement of the same in unison, said means comprising diametrically disposed circumferentially spaced arcuate series of gear teeth on the drive shaft and on each rotor, axially spaced arcuate ribs on the drive shaft and circumferentially spaced sets of concentric rollers on each rotor adapted to coact with one of the arcuate ribs to arrest the movement of one roller while the other is in motion.

7. In a rotary internal combustion motor including an annular cylinder and a pair of rotors each having a pair of diametri ally disposed pistonsmovable in the cylinde an eccentrically arranged drive shaft extending axially through the motor and means for intermittently coupling'the rotors with the drive shaft respectively for movement of ,said shaft by' one of the rotors while the other rotor is at rest and for movement of the other rotor by and with the drive shaft and in unison with the first mention d'rotorflsaid means comprising diametrica 1y disposed axially and circumferentially spaced series of gear teeth on the drive shaft, diametrically disposed circumferentially spaced series of time that the gear teeth of' the other rotor are in mesh with the gear teeth of the drive shaft for exerting a torque thereon. 1 a

8. In a rotary internal combustion engine of rthecharacter set forth having a pairof axially disposed annular rotors and an eccentrically arranged drive shaft extending axially through the rotors, mutilated gearing means for intermittently connecting the rotors with the drive shaft respectively for .e movmntf hro i n'otion device communicating therewith be 8 e o t 6 0t rs In] 18 wrth each other and withv the drive,- shaft for movement of one of said rotors with the drive shaft- 1 while the other rotor is at rest, eccentric TRAU I orr' rscnom. l

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