US2294805A - Rotary engine construction - Google Patents

Rotary engine construction Download PDF

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US2294805A
US2294805A US436562A US43656242A US2294805A US 2294805 A US2294805 A US 2294805A US 436562 A US436562 A US 436562A US 43656242 A US43656242 A US 43656242A US 2294805 A US2294805 A US 2294805A
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pistons
construction
rotary
rotary engine
engine
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US436562A
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Robert B Robinson
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04CROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT PUMPS
    • F04C2/00Rotary-piston machines or pumps
    • F04C2/08Rotary-piston machines or pumps of intermeshing-engagement type, i.e. with engagement of co-operating members similar to that of toothed gearing
    • F04C2/12Rotary-piston machines or pumps of intermeshing-engagement type, i.e. with engagement of co-operating members similar to that of toothed gearing of other than internal-axis type
    • F04C2/123Rotary-piston machines or pumps of intermeshing-engagement type, i.e. with engagement of co-operating members similar to that of toothed gearing of other than internal-axis type with radially or approximately radially from the rotor body extending tooth-like elements, co-operating with recesses in the other rotor, e.g. one tooth

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  • the present invention relates to rotary engines and particularly to engines or motors of the expansion chamber type and actuated by a uid pressure medium; as well as to motors of a similar type of construction adapted for pumping operations.
  • Figure 2 is a horizontal sectional view, representing .a section taken on the line 2-2 of Figure 1I
  • Figure 3 is a horizontal sectional view, representing a section taken on the line 3-3 of Figure 2;
  • Figure 4 is a transverse sectionalview, representing a section taken on the line 4-4 of Figure 3;
  • Figure 5 is a similar transverse sectional view, representing a section taken on the line 5--5- of Figure 3,-but with the lower portion of the construction broken away.
  • FIG. 1 one example of construction is shown as comprising a base member I0 on which is mounted a housing structure comprised of two telescoping sections II and I 2,-the louter section I2 being formed with bottom flanges I4 for engagement with flanges I5 on a pair of longitudinal guide plates I6 forming part of the housing section II which is secured to said base member I0 by clamping screws Il, as illustrated in Figures 1 and 4.
  • the housing section I2 is not only removably mounted on said base member I0 but may be longitudinally adjusted thereon as may be required.
  • the housing section II is formed with interior chambers I8 of approximately cylindrical shape but intersecting each other-as indicated at 20 in Figures 4 and 5, and also flaring somewhat in the direction of the other or outer housing section I2, as shown in Figures 2 and 3.
  • the outer ends of the housing sections II and I2 are formed with cylindrical openings 22 of the same size and tting the opposite ends of a pair of rotary pistons 24
  • Each of the rotary pistons is provided with lobes or abutments 25 projecting in diametrically opposite directions, and of flared design corresponding to the flaring interior design of the chambers I8 already mentioned; while at right angles to the plane of said lobes 25 each piston is formed with correspondingly shaped grooves 28 in longitudinal position for receiving and accommodating the lobes 25 of the companion piston as vrequired in the operative or rotary movement of the pistons, in an obvious mannen-as represented in Figures 41 and 5.
  • the opposite ends of the rotary pistons are tted with suitable intermeshing gears 30 carried by the reduced end portions 3
  • Spring actuating means is provided for exerting a continuous pressure or thrust against the ends of the pistons at the smaller ends of the chambers I8 and thereby tending to crowd said pistons, together with the outer housing section I2, toward the opposite end of said chambersor toward the left, as viewed in Figure 2.
  • a crosshead member 31 engaging the adjacent reduced ends 3I of the pistons and provided with a recess 38 for seating one end of a coil spring 40, the I opposite end of which is shouldered against an adjusting screw mounted in the bearing stand 34 and terminating in a wrench-head 44 for adjusting purposes.
  • the said adjusting screw 42 is formed with a stem 45 projecting through said spring 4
  • this adjusting means comprises a crosshead member 50 designed for suitable ball-thrust engagement with the adjacent ends of both pistons as indicated at I.
  • the middle portion of this crosshead member 50 is formed with a recess 52 for accommodating the terminal head portion 53 of a screw 54 which is adjustably mounted in a bracket member 55 anchored by screws 56 to the base IIJ.
  • the outer terminal oi the screw 54 is formed as a wrench-head 51 for application of a suitable adjusting wrench, and the head end 53 of said screw is rotatably retained within the recess 52 by means of an appropriate gland nut 58.
  • the pistons 24 are maintained fixed against any longitudinal movement relative to the housingr section I2, inasmuch as the larger ends of the lobes 25 are shouldered against the interior abutment 59 formed in said housing section I2 and serving as an end wall for the piston chambers I8, and the pistons being held in this relation by the gears 30 engaging the outer end of said housing I2. At the same time clearance is provided between the outer end of the housing section I I and the gears 30 at that end of the construction. for permitting the longitudinal adjusting operation which has just been referred to.
  • the improved adjusting means enables the tary pistons having engine to be instantly relieved of any danger of stalling on account of such overheated condition, by compensating for the expansive action resulting from the excess heating effects.
  • suitable lock or clamping nuts 61 may be provided for holding the adjusting screws in any given xed or set position, after completion of any particular adjustment as above explained.
  • the gears 30 and adjacent parts are preferably enclosed by means of apertured hoods or casings 60 and 60', which are secured by suitable screws 6I to the ends of the housing sections II and I2, respectively.
  • a fluid intake connection 62 is provided, having branch passages 63 communicating with the respective chambers I8; and from the latter are provided outlet passages B4 leading to a common outlet or discharge connection 55, as shown in Figures l, 4 and 5.
  • a rotary engine construction comprising telescoping housing sections including an inner housing section formed with twin flaring and intersecting piston chambers, and a pair of ro tary pistons provided with longitudinal lobes or abutments and grooves of correspondingly flared design and adapted for intermeshing relation.
  • a rotary engine construction comprising. telescoping housing sections including an inner housing section formed with twin flaring and intersecting piston chambers, and a pair of rolongitudinal lobes and grooves of correspondingly flared design and adapted for intermeshing relation, said pistons being also mounted for longitudinal adjusting movement along with the outer housing section relative to said inner housing section.
  • a rotary engine comprising telescoping housing sections including an inner housing section formed with twin flaring and intersecting piston chambers. a pair of rotary pistons having longitudinal' lobes and grooves of corresponding flaring design and adapted for intermeshing relation. said pistons being also longitudinally adjustable along with the outer housing section and relative to said inner housing section, and yielding means tending to impart relative separating movement to the housing sections and thereby longitudinally expanding said piston chambers.
  • a rotary engine comprising telescoping housing sections including an inner housing section formed with twin flaring and intersecting piston chambers, a pair of rotary pistons having longitudinal lobes and grooves of corresponding daring design and adapted for intermeshing relation, said pistons being mounted for longitudinal movement in unison with the outer housing section relative to said inner housing section,
  • yielding means tending to produce relative separating movement of the housing sections for thereby longitudinally expanding the piston chambers, and manually controlled means for counteracting said first means and maintaining the housing sections in a given telescoped relation.
  • a rotary engine comprising telescoping housing sections including an inner section formed with twin aring and intersecting piston 10 chambers, a pair of rotary pistons having longitudinal lobes and grooves of corresponding flaring design and adapted for intermeshing rela.- tion, said pistons being movable longitudinally

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Hydraulic Motors (AREA)

Description

Sept. l, 1942.
R. B. RQBINSON 2,294,805
ROTARY ENGINE CONSTRUCTION Filed March 2a, 1942 ATTO RN E Y.
Patented Sept. l, 1942 UNITED' STATES PATENT FFICE ROTARY ENGINE CONSTRUCTION- Robert B. Robinson, Kansas City, Mo. Appuontion Maron 2s, 1942, sensi No. 436,562 s claims. (CL 121-70) The present invention relates to rotary engines and particularly to engines or motors of the expansion chamber type and actuated by a uid pressure medium; as well as to motors of a similar type of construction adapted for pumping operations.
It is a fundamental object of my invention, in recognition of the outstanding advantages of the rotaryvtype of engine over the common reciprocatory design of engine or motor, to render more practical the said rotary engine design by overcoming the present faults or disadvantages which interfere with the uniform operation of the engine, and to accomplish this by an improved form of construction together with an adjusting means which is always available without any interruption of the regular operation of the engine.
A primary object of the invention, therefore, I
is to devise an improved construction of this character having a novel design of housing or casing Y structure in combination with movable piston members or rotors so adapted as to provide for an adjustment of the rotary elements as required for relieving any binding engagement between relatively moving parts, such as may result from excessive speed and resultant heating effects; and, moreover, to provide a construction adapted to facilitate the carrying out of such adjustments during the actual or normal operation of the engine or motor.
In embodying such primary feature of the invention in actual construction, I have found a longitudinally and `correspondingly tapered or flaring construction of both the rotary piston members and the interior housing structure, to- :ether with convenient means for producing the necessary longitudinal shifting movement of the rotors or pistons, affords a practical construction for effecting the desired results, as sought to be attained by my invention.
It is a further object of the invention to devise a construction which may be readily adapted for assembly in combinations suitable for operation either as ordinary pumping apparatus or as englnes or motors of the internal combustion type.
With the foregoing general objects in view, the invention will now be describedby reference to the accompanying drawing illustrating one type of construction deemed practical for the embodiment of my proposed improvements, after which those features and combinations believed to be novel and patentable will be particularly set forth and claimed.
In the drawing- Figure 1 is a side elevation showing a motor embodying the improved features of the present invention; f
Figure 2 is a horizontal sectional view, representing .a section taken on the line 2-2 of Figure 1I Figure 3 is a horizontal sectional view, representing a section taken on the line 3-3 of Figure 2;
Figure 4 is a transverse sectionalview, representing a section taken on the line 4-4 of Figure 3; and
Figure 5 is a similar transverse sectional view, representing a section taken on the line 5--5- of Figure 3,-but with the lower portion of the construction broken away.
Referring now to the drawing in detail, one example of construction is shown as comprising a base member I0 on which is mounted a housing structure comprised of two telescoping sections II and I 2,-the louter section I2 being formed with bottom flanges I4 for engagement with flanges I5 on a pair of longitudinal guide plates I6 forming part of the housing section II which is secured to said base member I0 by clamping screws Il, as illustrated in Figures 1 and 4. By this means the housing section I2 is not only removably mounted on said base member I0 but may be longitudinally adjusted thereon as may be required. y
The housing section II is formed with interior chambers I8 of approximately cylindrical shape but intersecting each other-as indicated at 20 in Figures 4 and 5, and also flaring somewhat in the direction of the other or outer housing section I2, as shown in Figures 2 and 3. The outer ends of the housing sections II and I2 are formed with cylindrical openings 22 of the same size and tting the opposite ends of a pair of rotary pistons 24 Each of the rotary pistons is provided with lobes or abutments 25 projecting in diametrically opposite directions, and of flared design corresponding to the flaring interior design of the chambers I8 already mentioned; while at right angles to the plane of said lobes 25 each piston is formed with correspondingly shaped grooves 28 in longitudinal position for receiving and accommodating the lobes 25 of the companion piston as vrequired in the operative or rotary movement of the pistons, in an obvious mannen-as represented in Figures 41 and 5.
The opposite ends of the rotary pistons are tted with suitable intermeshing gears 30 carried by the reduced end portions 3| of the pistons, one of which piston end portions 3| is provided with an extension 3|' having a splined connection 32 with a power shaft 33 journaled in a bearing stand 34 mounted on one end of the base member I0 and anchored thereto by screws 35.
Spring actuating means is provided for exerting a continuous pressure or thrust against the ends of the pistons at the smaller ends of the chambers I8 and thereby tending to crowd said pistons, together with the outer housing section I2, toward the opposite end of said chambersor toward the left, as viewed in Figure 2. The
structure provided for this purpose comprises a crosshead member 31 engaging the adjacent reduced ends 3I of the pistons and provided with a recess 38 for seating one end of a coil spring 40, the I opposite end of which is shouldered against an adjusting screw mounted in the bearing stand 34 and terminating in a wrench-head 44 for adjusting purposes. Preferably the said adjusting screw 42 is formed with a stem 45 projecting through said spring 4|! and the recess 38 and also a bore 46 alined with said recess in the crosshead 31, and one end of the latter member is formed as a yoke 41 adapted for shouldering engagement (as indicated at 48) with the splined section 32 of the connection with the shaft 33, as clearly outlined in Figures 2 and 3.
At the opposite ends of the rotary pistons 24 a positive adjusting means is provided for counteracting the action of the spring-actuating means just described, and this adjusting means comprises a crosshead member 50 designed for suitable ball-thrust engagement with the adjacent ends of both pistons as indicated at I. The middle portion of this crosshead member 50 is formed with a recess 52 for accommodating the terminal head portion 53 of a screw 54 which is adjustably mounted in a bracket member 55 anchored by screws 56 to the base IIJ. The outer terminal oi the screw 54 is formed as a wrench-head 51 for application of a suitable adjusting wrench, and the head end 53 of said screw is rotatably retained within the recess 52 by means of an appropriate gland nut 58.
In this connection it is to be noted that the pistons 24 are maintained fixed against any longitudinal movement relative to the housingr section I2, inasmuch as the larger ends of the lobes 25 are shouldered against the interior abutment 59 formed in said housing section I2 and serving as an end wall for the piston chambers I8, and the pistons being held in this relation by the gears 30 engaging the outer end of said housing I2. At the same time clearance is provided between the outer end of the housing section I I and the gears 30 at that end of the construction. for permitting the longitudinal adjusting operation which has just been referred to.
Such longitudinal adjustment of the rotary pistons relieves any binding tendency. such as would interrupt the normal operation of the motor, and thus preserves the important advantages of rotary engine operation whileovercomng the defects of such operation which have heretofore retarded the adoption of the rotary engine principle. One of the outstanding features of the present invention is that this important adjustment just referred to can be carried out by the described construction while the motor is in actual operation, since the operator can note the gradually loosening and tightening eiect as he manipulates the adjusting screws. This is of particular value under certain conditions, as where the operation of the engine develops overheating tendencies. since the improved adjusting means enables the tary pistons having engine to be instantly relieved of any danger of stalling on account of such overheated condition, by compensating for the expansive action resulting from the excess heating effects. If desired. suitable lock or clamping nuts 61 may be provided for holding the adjusting screws in any given xed or set position, after completion of any particular adjustment as above explained.
The gears 30 and adjacent parts are preferably enclosed by means of apertured hoods or casings 60 and 60', which are secured by suitable screws 6I to the ends of the housing sections II and I2, respectively.
A fluid intake connection 62 is provided, having branch passages 63 communicating with the respective chambers I8; and from the latter are provided outlet passages B4 leading to a common outlet or discharge connection 55, as shown in Figures l, 4 and 5.
It is of course apparent that the construction shown is merely illustrative of the functional character and relation of the improved features, and that the same are readily adaptable to other conditions of operation, such as in internal combustion engine operation, by simply providing twin or duplicate units for carrying out both the, compression and power phases of such explosive type of power medium.
Therefore, while I have illustrated and described what I now regard as one satisfactory mode of practicing the invention, I desire to be understood as reserving the right to make such changes or modifications as may fairly lfall within the spirit and scope of the appended claims.
Having thus described my invention, what I claim and desire to secure by Letters Patent is:
1. A rotary engine construction comprising telescoping housing sections including an inner housing section formed with twin flaring and intersecting piston chambers, and a pair of ro tary pistons provided with longitudinal lobes or abutments and grooves of correspondingly flared design and adapted for intermeshing relation.
2. A rotary engine construction comprising. telescoping housing sections including an inner housing section formed with twin flaring and intersecting piston chambers, and a pair of rolongitudinal lobes and grooves of correspondingly flared design and adapted for intermeshing relation, said pistons being also mounted for longitudinal adjusting movement along with the outer housing section relative to said inner housing section.
3. A rotary engine comprising telescoping housing sections including an inner housing section formed with twin flaring and intersecting piston chambers. a pair of rotary pistons having longitudinal' lobes and grooves of corresponding flaring design and adapted for intermeshing relation. said pistons being also longitudinally adjustable along with the outer housing section and relative to said inner housing section, and yielding means tending to impart relative separating movement to the housing sections and thereby longitudinally expanding said piston chambers.
4. A rotary engine comprising telescoping housing sections including an inner housing section formed with twin flaring and intersecting piston chambers, a pair of rotary pistons having longitudinal lobes and grooves of corresponding daring design and adapted for intermeshing relation, said pistons being mounted for longitudinal movement in unison with the outer housing section relative to said inner housing section,
yielding means tending to produce relative separating movement of the housing sections for thereby longitudinally expanding the piston chambers, and manually controlled means for counteracting said first means and maintaining the housing sections in a given telescoped relation.
5. A rotary engine comprising telescoping housing sections including an inner section formed with twin aring and intersecting piston 10 chambers, a pair of rotary pistons having longitudinal lobes and grooves of corresponding flaring design and adapted for intermeshing rela.- tion, said pistons being movable longitudinally
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2982221A (en) * 1958-07-02 1961-05-02 Joseph E Whitfield Gear pump
US3112867A (en) * 1961-03-29 1963-12-03 Wade Engineering Ltd Blowers and motors with cooperating rotors
US3179330A (en) * 1960-08-30 1965-04-20 James Howden And Company Ltd Rotary engines and compressors
US3549287A (en) * 1968-05-04 1970-12-22 Hitachi Ltd Vane pump
US3642389A (en) * 1969-10-01 1972-02-15 Black & Decker Mfg Co Air motor rotor assembly

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2982221A (en) * 1958-07-02 1961-05-02 Joseph E Whitfield Gear pump
US3179330A (en) * 1960-08-30 1965-04-20 James Howden And Company Ltd Rotary engines and compressors
US3112867A (en) * 1961-03-29 1963-12-03 Wade Engineering Ltd Blowers and motors with cooperating rotors
US3549287A (en) * 1968-05-04 1970-12-22 Hitachi Ltd Vane pump
US3642389A (en) * 1969-10-01 1972-02-15 Black & Decker Mfg Co Air motor rotor assembly

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