US1629580A - Rotary engine - Google Patents
Rotary engine Download PDFInfo
- Publication number
- US1629580A US1629580A US748150A US74815024A US1629580A US 1629580 A US1629580 A US 1629580A US 748150 A US748150 A US 748150A US 74815024 A US74815024 A US 74815024A US 1629580 A US1629580 A US 1629580A
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- 238000004880 explosion Methods 0.000 description 11
- 238000002485 combustion reaction Methods 0.000 description 4
- 238000010304 firing Methods 0.000 description 4
- 230000006835 compression Effects 0.000 description 3
- 238000007906 compression Methods 0.000 description 3
- 239000000203 mixture Substances 0.000 description 3
- 239000007789 gas Substances 0.000 description 2
- 238000010276 construction Methods 0.000 description 1
- 239000011810 insulating material Substances 0.000 description 1
- 238000009413 insulation Methods 0.000 description 1
- 239000007788 liquid Substances 0.000 description 1
- 239000003129 oil well Substances 0.000 description 1
- SYOKIDBDQMKNDQ-XWTIBIIYSA-N vildagliptin Chemical compound C1C(O)(C2)CC(C3)CC1CC32NCC(=O)N1CCC[C@H]1C#N SYOKIDBDQMKNDQ-XWTIBIIYSA-N 0.000 description 1
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02B—INTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
- F02B53/00—Internal-combustion aspects of rotary-piston or oscillating-piston engines
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02B—INTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
- F02B2730/00—Internal-combustion engines with pistons rotating or oscillating with relation to the housing
- F02B2730/01—Internal-combustion engines with pistons rotating or oscillating with relation to the housing with one or more pistons in the form of a disk or rotor rotating with relation to the housing; with annular working chamber
- F02B2730/015—Internal-combustion engines with pistons rotating or oscillating with relation to the housing with one or more pistons in the form of a disk or rotor rotating with relation to the housing; with annular working chamber with vanes hinged to the housing
-
- 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/10—Internal combustion engine [ICE] based vehicles
- Y02T10/12—Improving ICE efficiencies
Definitions
- Fig. 4 is an enlarged detailed vertical sectional view at 4-4 Figure 2.
- Fig. 5 is a vertical sectional view at 5-5 Fig. 1.
- the invention relates to improvements in irotary internal combustion engines, and an object of provide an , smooth running, economical en ine of the above type and arranged such t at there is almost a continuous explosion of previously compressed charges and such that there are explosions simultaneously occurring at diametrically opposite points to balance the engine and increase its power.
- 'A further object of.the invention is to provide an engine having few mechanically engine having mostly duplicate parts, which permits of standardizing and of quick and cheap assembly.
- a further object is to construct an engine of the above type which can be effectively oiled, and also which has the transfer chainbers thereof arranged so that they can be eectively air cooled.
- a further object* is to construct an enine which can be readily converted into a igh or low speed engine such as occasion demands.
- Fig. 2 is an end view thereof.
- Fig. 3 is a vertical sectional view at 3-3"
- Fig. 6 is a sectional view at 6--6 Figure 5.
- Fig..7 is a perspective view showing the arrangement of the commutator.
- a pair of supports or end standards ⁇ 1 and 2 are provi ed,v these being suitably mounted on a fixed base depending on where the'engine is to be used.
- the standard 1 is provided at the upper lend with a bearing 3 andwith an outstanding bracket 4 adjoining the bearing.
- the standard is supplied also with a bearing 5 axially in line with the bearin 3 and it isequipped also with three equa ly spaced outstanding stub shafts 6 utilized for supporting similar bevel pinions later described.
- the main shaft 7 of they engine is rotatably mounted in the bearings 3 and 5 and it 1s provided at one pulley 8 keyed thereto.
- the stub shafts 6 carry rotatably similar bevel pinions 9 which are continuously in 'meshwith an outer bevel gear' 10 keyed to the shaft as indicated at 11 and with an inner.
- bevel gear 12 rotatably'mounted on the shaft adjacent'the inner' side of the bearing 5.
- the bevel pinions are held in place b a washer. 13 and pin 14, the pin passing t rough the outer end of the stub shaft in each instance.
- the bevel gear 12 is fastened to suitably positioned screws 20.
- the rotor 16 is carried by a disc-like web 21 extending from the hub 15 and the outer edge of the web terminates in a comparatively Wide rim 22 which is fitted at the edges with an outstanding similar continuous flanges 2.3 and 24 in locations 90 degrees apart.
- the rim' is provided with similar outstanding ribs 25, the ends of which merge vinto the flanges. These ribs are more or less semicircular in cross Section and theyare of the same height as the flanges.
- 'llhe hub 17 carries a web 26, the outer part of which is angularly deflected as best shown in Figure 14.
- the web carries the rim 27, presenting inturned flanges 28 and 29.
- the flange 28, rwhich in reality is a connecting element between the rim 27 and the webs 26, is provided on the inner side with a continuous groove' or channel 28 which is adapted to receive the iian'geA 23 of the rim 22.
- the rim 24 is positioned within the rim 29 andin this Way the 'rims Aand flanges of the rotors enclose an annular interior chamber 30.
- the ribs 25 of the roter 16" are designed so that their outer faces make sliding Acontact with the inner face of the rim 27 with the result that the annular chamber aforesaid is dividedinto four similar working chambers 21, 32,'A 33 and 34 which corresponds to the cylinders of end with a driving l the-hub 15 by,
- the customary internally combustion engine Obviously the ribs form the ends of these working chambers and suitable f means, indicated at 35, is provided to prevent the escape of gases from one chamber to another.
- the rotor 18 is provided with four similar equal spaced housings 3,6, 37, 38 and 39, 1n which I mount four similar rocker members 40, 41, 42 and 43.
- the rocker members each forman open ended transfer chamber 44.
- Each rocker member is substantially rectangular in cross section, as best shown 1n Figure 4, and the inner and outer walls thereof are formed concentric to the Shaft 6.
- the ends ofthe rocker members are arranged to make sliding contact with the ends of the housings and the housings are fitted at their opposite ends with air outlet openings 45 and 46 which permitair to sweep through the housings. when the rotor 18 is rotating and accordingly cool the rocker members.
- rocker members aresupported by aligned, comparatively short. end spindles 47 and 48 rotatably mounted in the flanges 2 8 and 29 of the rotor 18 and the spindle 48 1s extended beyond the fiange 29 to carry in each instance, the crank 49 fitted at one end with a roller 50 and at. the other end with a spring 51 att-ached to the housing and adapted to press the lower end of the crank in continuously.
- the ends of the rocker members are fitted with outstanding wings 52 and 53, which form with the sides of the said rocker members, inlet and outlet valves adapted in the f rocking of the rocker members to open and close at fixed times the inlet and exhaust ports 54 and 55.
- These ports are formed in each instance in one side of the respective housings 36, 37, 38 and 39 and they communicate in each instance with radially disposed inlet and exhaust pipes 56 and 57 carried by the rotor 18.
- the inner ends of the exhaust pipes 57 communicate through suitable openings 58 formed in the hub 17 and the shaft 7 with a common exhaust passage 59 provided in the shaft 7, the exhaust passage being actually made by centrally boring'said shaft.
- the inner ends of the inlet pipes 56 communicate in each instance through suitable holes 6() formed in the hub 17 and the shaft 7, with an inlet passage 61 provided in the shaft "7, this latter passage being actually formed by boring a hole in the opposite end of the shaft.
- the inlet andvexliaust passages are separated by retainin an unbored of the said passages.
- a carburetor 63 of any approved design is provided and it is connected with the outer end of the inlet passage 61, the carburetor being mounted on the bracket 4 of the edestal 1.
- insulation sleeve 65 carries a commutator which is formed from two metallic rings 68 and 69 which are embedded in the sleeve so that their outer faces are flush with the outer face of the sleeve.
- Each ring carries four arms 70, the arms of each ring being positioned 90 degrees apart and those of one ring beingv spaced interiiiediately between the arms of the other ring.
- the lever 67 carries a horizontally extending short arm 78 which is fitted with a brush 79 adapted to ride the face of the sleeve and sweep over the arms in the rotation of the sleeve with the shaft 7.
- the lever 'm fitted also with a hand latch 80 and detent 81. the detent operating over a suitable quad; rant 82 carried by the bearing 3.
- a feed wire 83 connects with the lever and here it will be understood that one of the points of each of the spark plugs is grounded to the engine as is customary practice.
- An oil well 84 is cast integrally with the we b and hub of the inner rotor 16. the well being provided with a filling cap 84. web orv the latter rotor is also supplied with radiating oil holes 85 which pass inwardly to theshaftf 7 and outwardly to the ribs 25. lhe ribs are fitted with lengthwise'extending holes 85 communicating with those 85 and narrow slots 85x are cut inthe rib and communicate rwith the' holes 85', the slots acting to lubricatethe inner wall of the'- rotor 18 as the webs sweepA over-'the same. In the well I locate similar radially extending tubes 86, the inner ends of which communicate with the oiling holes 85 andthe outer ends of which are just nicely clear of the outer wall of the well.
- rollers 50 hereinbcfore referred to,
- the cam ring presents two diametrically opposing comparatively 88', two diametrically opposing comparatively wide. portions 89 and 89', and four intervening portions 90, 90', 91, 91. portions 90, 90 are comparatively 'short and those 91, 91 are comparatively long and the cam ring controls the rocker Ifrembers 40, 41, 42 and 43, rocking them at the proper times in the rotation of rotors.
- rihev cam ring obviously can be in the nature of a continuous channel receiving the rollers, in which instance the spring would be unnecessary as the rollers could not escape from the channel and would follow the shape thereof during the rotation of the rotors.
- a firing charge has been compressed into the transfer chambers of the rocker members 40 and 42 and has been exploded therein by the spark plugs' associated therewith, andthe force of this explosion has caused the inner ⁇ rotor 16 to rotate in and the outer rotor 18 to rotate in a clock-wise direction.' .Assuming this rotatioji established, it is narrow portions 88 and ⁇ The A the rotor 18 driving therotor,
- the engine will bea particularly smooth running one and very powerfu
- the force of the explosion in each instance is in the.l direction of travel of the rotors and as the points where those explosions occur are at some distance from the shaft 7 the force of the explosion is considerably amplified by the leverage action provide
- the engine as herein shown wouldbe what'I term a slow speed engine. However, if it is desired to have a high speed engine it is only necessary iso/dispense with the differential gears and fasten the rotor 16' so that it becomes stationary.
- inner and outer rotors forming there lietween a plurality'ot' similar separate work ⁇ ing chambers, means causing the rotors to rotate in opposite directions, a plurality of similar separate working chambers, a plurality of rocker members forming transfer' chambers and corresponding in number to the number of Working chambers andfcarried by the outer rotor, and inlet and an outlet port associated With each rocker member and controlled thereb and means lfor rocking each rocker mem er to permit of the entrance through the inlet port of a charge to a Working chamber, the subsequent compression of that charge in the next following transfer chamber and expansion of the said con'ipreesed charge in the said latter transfer chamber and the following working chamber and the exhausting of the spent charge through the-exhaust port of the following transfer chamber, and' timed means for tiring the expanding charges in thel transfer chambers.
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Valve-Gear Or Valve Arrangements (AREA)
Description
May 24, 1927.
N, P. LITHANDr-:R
lxyv'e iyfor' A H F Litbngder BI May 24, 1927.
N. P. LITHANDER ROTARY ENGI NE Filed Nov. 6. 1924 3 Sheets-Sheet 2- lgvexytor N. I". Liflyznyder May 24, 1927.
N. P. LITHANDER ROTARY ENGINE Filed Nov. 6. 1924 3 Sheets-Sheet 3 l the invention is to l operated parts, and also an R5 Figure 1 and looking inwardly.-
4 Fig. 4 is an enlarged detailed vertical sectional view at 4-4 Figure 2.
Fig. 5 is a vertical sectional view at 5-5 Fig. 1.
rotary engines and 'particularly Patented May 24, 1927.
UNITED STATES,l
PATENT oFFicE.
ROTARY ENGINE.
Application led November 6, 1824. ,Serial No. 748,150.
The invention .relates to improvements in irotary internal combustion engines, and an object of provide an eficient, smooth running, economical en ine of the above type and arranged such t at there is almost a continuous explosion of previously compressed charges and such that there are explosions simultaneously occurring at diametrically opposite points to balance the engine and increase its power.
'A further object of.the invention is to provide an engine having few mechanically engine having mostly duplicate parts, which permits of standardizing and of quick and cheap assembly.
A further object is to construct an engine of the above type which can be effectively oiled, and also which has the transfer chainbers thereof arranged so that they can be eectively air cooled.
A further object* is to construct an enine which can be readily converted into a igh or low speed engine such as occasion demands.
With the above more 'important and' other minor objects in view, which become more apparent' as the description. proceeds, the invention consists essentially in the arrangement and construction of parts hereinafter more particularly described, reference being had to the accompanying drawings in Whichz- Fig. 1 is a side view ofthe engine.
Fig. 2 is an end view thereof.
Fig. 3 is a vertical sectional view at 3-3" Fig. 6 is a sectional view at 6--6 Figure 5. l y
Fig..7 isa perspective view showing the arrangement of the commutator.
ln the drawings like characters of reference indicate corresponding parts in the several figures.
A pair of supports or end standards `1 and 2 are provi ed,v these being suitably mounted on a fixed base depending on where the'engine is to be used. The standard 1 is provided at the upper lend with a bearing 3 andwith an outstanding bracket 4 adjoining the bearing. The standard is supplied also with a bearing 5 axially in line with the bearin 3 and it isequipped also with three equa ly spaced outstanding stub shafts 6 utilized for supporting similar bevel pinions later described.
The main shaft 7 of they engine is rotatably mounted in the bearings 3 and 5 and it 1s provided at one pulley 8 keyed thereto. The stub shafts 6 carry rotatably similar bevel pinions 9 which are continuously in 'meshwith an outer bevel gear' 10 keyed to the shaft as indicated at 11 and with an inner. bevel gear 12 rotatably'mounted on the shaft adjacent'the inner' side of the bearing 5. The bevel pinions are held in place b a washer. 13 and pin 14, the pin passing t rough the outer end of the stub shaft in each instance.
Adjoining the bevel gear 12Imount rotatably on term the inner rotor 16, and ad'oinin the hub 15 l mount-the hub 17 of what Ierein term-an outer rotor 18, the hub 17 being fastened to the shaft 7 by a key 19. The bevel gear 12 is fastened to suitably positioned screws 20. The rotor 16 is carried by a disc-like web 21 extending from the hub 15 and the outer edge of the web terminates in a comparatively Wide rim 22 which is fitted at the edges with an outstanding similar continuous flanges 2.3 and 24 in locations 90 degrees apart. The rim' is provided with similar outstanding ribs 25, the ends of which merge vinto the flanges. These ribs are more or less semicircular in cross Section and theyare of the same height as the flanges.
'llhe hub 17 carries a web 26, the outer part of which is angularly deflected as best shown in Figure 14. The web carries the rim 27, presenting inturned flanges 28 and 29. The flange 28, rwhich in reality is a connecting element between the rim 27 and the webs 26, is provided on the inner side with a continuous groove' or channel 28 which is adapted to receive the iian'geA 23 of the rim 22. The rim 24 is positioned within the rim 29 andin this Way the 'rims Aand flanges of the rotors enclose an annular interior chamber 30. The ribs 25 of the roter 16" are designed so that their outer faces make sliding Acontact with the inner face of the rim 27 with the result that the annular chamber aforesaid is dividedinto four similar working chambers 21, 32,'A 33 and 34 which corresponds to the cylinders of end with a driving l the-hub 15 by,
the customary internally combustion engine. Obviously the ribs form the ends of these working chambers and suitable f means, indicated at 35, is provided to prevent the escape of gases from one chamber to another.
The rotor 18 is provided with four similar equal spaced housings 3,6, 37, 38 and 39, 1n which I mount four similar rocker members 40, 41, 42 and 43. The rocker members each forman open ended transfer chamber 44.
Each rocker member is substantially rectangular in cross section, as best shown 1n Figure 4, and the inner and outer walls thereof are formed concentric to the Shaft 6.
The ends ofthe rocker members are arranged to make sliding contact with the ends of the housings and the housings are fitted at their opposite ends with air outlet openings 45 and 46 which permitair to sweep through the housings. when the rotor 18 is rotating and accordingly cool the rocker members.
The rocker members aresupported by aligned, comparatively short. end spindles 47 and 48 rotatably mounted in the flanges 2 8 and 29 of the rotor 18 and the spindle 48 1s extended beyond the fiange 29 to carry in each instance, the crank 49 fitted at one end with a roller 50 and at. the other end with a spring 51 att-ached to the housing and adapted to press the lower end of the crank in continuously.
The ends of the rocker members are fitted with outstanding wings 52 and 53, which form with the sides of the said rocker members, inlet and outlet valves adapted in the f rocking of the rocker members to open and close at fixed times the inlet and exhaust ports 54 and 55. These ports are formed in each instance in one side of the respective housings 36, 37, 38 and 39 and they communicate in each instance with radially disposed inlet and exhaust pipes 56 and 57 carried by the rotor 18. The inner ends of the exhaust pipes 57 communicate through suitable openings 58 formed in the hub 17 and the shaft 7 with a common exhaust passage 59 provided in the shaft 7, the exhaust passage being actually made by centrally boring'said shaft.
The inner ends of the inlet pipes 56 communicate in each instance through suitable holes 6() formed in the hub 17 and the shaft 7, with an inlet passage 61 provided in the shaft "7, this latter passage being actually formed by boring a hole in the opposite end of the shaft. The inlet andvexliaust passages are separated by retainin an unbored of the said passages.
A carburetor 63 of any approved design is provided and it is connected with the outer end of the inlet passage 61, the carburetor being mounted on the bracket 4 of the edestal 1. The feed pipe tor the liquid el,
suchas gasoline, passing to the carburetor is indicated by the reference number 64.
Between the hub 17 and the bearing 3 I locate a. sleeve of insulating material 65 which is fastened to the shaft by the key 19 and between the sleeve 65 and the bearing I insert the head 66 of a lever 67, the head being rotatably mounted on the shaft 7. insulation sleeve 65 carries a commutator which is formed from two metallic rings 68 and 69 which are embedded in the sleeve so that their outer faces are flush with the outer face of the sleeve. Each ring carries four arms 70, the arms of each ring being positioned 90 degrees apart and those of one ring beingv spaced interiiiediately between the arms of the other ring. The outer faces of the arms in all eases are fiush with the outer face of the sleeve and they extend longitudinally of the sleeve.l Two of the diametrically opposing arms of the ring 68 aie fitted without-bent extensions 71 and 72 and the ring 69` is also provided with a pair 0E diametrically opposing out-bent extension arms 73 and 74 and the arms are positioned 90 degrees apart, and they are fitted at their inner ends with binding screws 75. Feed wires 76 lead from the binding screws to similar spark plugs 77 of well known de sign, the spark plugs being screwed into the spindles 47 and having their inner ends, which bear the points,.exposed Within the transfer chambers 44.
The lever 67 carries a horizontally extending short arm 78 which is fitted with a brush 79 adapted to ride the face of the sleeve and sweep over the arms in the rotation of the sleeve with the shaft 7. The lever 'm fitted also with a hand latch 80 and detent 81. the detent operating over a suitable quad; rant 82 carried by the bearing 3. By manip ulating the lever and setting it, one can advance or retard the spark as desired. A feed wire 83 connects with the lever and here it will be understood that one of the points of each of the spark plugs is grounded to the engine as is customary practice.
An oil well 84 is cast integrally with the we b and hub of the inner rotor 16. the well being provided with a filling cap 84. web orv the latter rotor is also supplied with radiating oil holes 85 which pass inwardly to theshaftf 7 and outwardly to the ribs 25. lhe ribs are fitted with lengthwise'extending holes 85 communicating with those 85 and narrow slots 85x are cut inthe rib and communicate rwith the' holes 85', the slots acting to lubricatethe inner wall of the'- rotor 18 as the webs sweepA over-'the same. In the well I locate similar radially extending tubes 86, the inner ends of which communicate with the oiling holes 85 andthe outer ends of which are just nicely clear of the outer wall of the well. According to`the above arrangement when the engine is a counter clock-wise direction running, as later described', the oil in 'the well-will be thrown out by centrifugal force against the outer wall of the well and will be forced by the centrifugal action into the tubes 86-and from the tubes into the fvarious holes connected therewith so that the various l explosion chambers by moving parts of the rotors are lubricated.
The rollers 50, hereinbcfore referred to,
are held by the springs in continuous riding contact with a cam rlng 87 permanently fastened to the rotor 16 by bolts 87. The cam ring presents two diametrically opposing comparatively 88', two diametrically opposing comparatively wide. portions 89 and 89', and four intervening portions 90, 90', 91, 91. portions 90, 90 are comparatively 'short and those 91, 91 are comparatively long and the cam ring controls the rocker Ifrembers 40, 41, 42 and 43, rocking them at the proper times in the rotation of rotors. The
faces of the cam rino' are all concentric to the axis of the shaftq? and the portions 90, 90 and 91, 91 act to maintain the rocker members in their central rocked position suficiently long to permit the ribs to clear the down moving ends of the rocker members.
rihev cam ring obviously can be in the nature of a continuous channel receiving the rollers, in which instance the spring would be unnecessary as the rollers could not escape from the channel and would follow the shape thereof during the rotation of the rotors. i
When this engine is running lthe vrotors turn in opposite directions and they both drive. the shaft 7, shaft directly through the key 19, whilst the rotor 16 drives it through the differential gear arrangement and the key 11. The operation of the engine is as follows: Assuming that the firing mixture is admitted to the passage 61 from the carburetor in the ordinary manner and that the lever 67 has been set to time the sparks as desired.
Referrinfr now particularly to Figure 5 it would be observed that the upper and lower inlet ports are closed by the valves and that the exhaust port-s are open and that the inlet ports associated with the remaining housings 37 and 39 are open, whilst the exhaust ports thereof are closed. Those portions 32 and 34 of the working chambers 32 and 34 4are receiving a charge of firing mixture. The working chambers 31 and- 33 are exhausting. A firing charge has been compressed into the transfer chambers of the rocker members 40 and 42 and has been exploded therein by the spark plugs' associated therewith, andthe force of this explosion has caused the inner `rotor 16 to rotate in and the outer rotor 18 to rotate in a clock-wise direction.' .Assuming this rotatioji established, it is narrow portions 88 and` The A the rotor 18 driving therotor,
maintained by the succession of explosions in the transfer chambers, two explosions simultaneously occurring in diametrically opposing chambers and during 'the interval thatthose explosions are occurring there is a charge being compressed into the other two theadvancing ribs 25. This compression of the charge is taking place in the present instance in the chambers d1 and 43, as it will be observed that as the ribs 25 land the transfer chambers move towards each other the charge previously admitted into the chambers 32 and- 34 will be totally expelled into the transfer chambers and compressed therein. In order that there may bezno misunderstanding in the 'IISy action of the enginel wish to point out l that in each one-eighth of a' revolution of the shaft 7 there are two vcharges being exploded in diametrically opposing transfer chambers, there are two transfer chambers receiving charges which are being compressed thereim-there are two diametrically opposing working chambers exhausting spent gases and there are two diametrically opposing working chambers recevingxthe firing mixture from the intake passa e 61. According to the' aboveit would be o vious that the engine will bea particularly smooth running one and very powerfu Obviously the force of the explosion in each instance is in the.l direction of travel of the rotors and as the points where those explosions occur are at some distance from the shaft 7 the force of the explosion is considerably amplified by the leverage action provide The engine as herein shown wouldbe what'I term a slow speed engine. However, if it is desired to have a high speed engine it is only necessary iso/dispense with the differential gears and fasten the rotor 16' so that it becomes stationary. The action of the engine will be the samegas hereinbefore explained, with the exception that the rotor 18 will rotate twiceas fast as previouslyand therepwill only be eight explosions for each revolution of the shaft'. The power of the engine will, ofcourse, materially decrease in the latter arrangement. Suitable means would be required for forcing the oil through the oil passages provided.
What I claim-A as my invention is:
1. In a rotary internal combustion engine, an inner and an outer 'rotor forming therebetween a plurality of similar separated working chambers, a plurality of rocker HBO members forming` transfer chambers and vcorresponding in number to the number of working chambers and carried by the outer an inlet and an outlet port associated rocker member .and controlled for rocking each rocker`v of the entrance through. the inlet port of a charge to a working chamwith each thereby and means member to permit ber, the Subsequent compression of that charge in the next following transfer chamber and expansion of the said compressed charge in the said latter transfer chamber and the following Working chamber and the exhausting of the spent charge through the 'exhaust port of the following transfer' chamber.
2. In a rotary internal combustion engine inner and outer rotors forming there lietween a plurality'ot' similar separate work` ing chambers, means causing the rotors to rotate in opposite directions, a plurality of similar separate working chambers, a plurality of rocker members forming transfer' chambers and corresponding in number to the number of Working chambers andfcarried by the outer rotor, and inlet and an outlet port associated With each rocker member and controlled thereb and means lfor rocking each rocker mem er to permit of the entrance through the inlet port of a charge to a Working chamber, the subsequent compression of that charge in the next following transfer chamber and expansion of the said con'ipreesed charge in the said latter transfer chamber and the following working chamber and the exhausting of the spent charge through the-exhaust port of the following transfer chamber, and' timed means for tiring the expanding charges in thel transfer chambers. i,
Signed at Brandon, this 28th day of August, 1924. r
NELSON P. LITHANDER.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US748150A US1629580A (en) | 1924-11-06 | 1924-11-06 | Rotary engine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US748150A US1629580A (en) | 1924-11-06 | 1924-11-06 | Rotary engine |
Publications (1)
Publication Number | Publication Date |
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US1629580A true US1629580A (en) | 1927-05-24 |
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ID=25008235
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US748150A Expired - Lifetime US1629580A (en) | 1924-11-06 | 1924-11-06 | Rotary engine |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2827024A (en) * | 1957-08-08 | 1958-03-18 | Arietti Joseph | Combustion cycle turbine engine |
US2904019A (en) * | 1956-03-31 | 1959-09-15 | Shimomura Kenji | Rotary internal combustion engine |
US4200084A (en) * | 1976-12-13 | 1980-04-29 | Alexeev Antonina I | Rotary piston engine |
US6276329B1 (en) * | 1998-01-21 | 2001-08-21 | John Edward Archer | Rotary machine |
US20100050981A1 (en) * | 2008-09-04 | 2010-03-04 | Ivas Richard T | Rotary internal combustion engine |
-
1924
- 1924-11-06 US US748150A patent/US1629580A/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2904019A (en) * | 1956-03-31 | 1959-09-15 | Shimomura Kenji | Rotary internal combustion engine |
US2827024A (en) * | 1957-08-08 | 1958-03-18 | Arietti Joseph | Combustion cycle turbine engine |
US4200084A (en) * | 1976-12-13 | 1980-04-29 | Alexeev Antonina I | Rotary piston engine |
US6276329B1 (en) * | 1998-01-21 | 2001-08-21 | John Edward Archer | Rotary machine |
US20100050981A1 (en) * | 2008-09-04 | 2010-03-04 | Ivas Richard T | Rotary internal combustion engine |
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