US706077A - Rotary engine. - Google Patents

Rotary engine. Download PDF

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Publication number
US706077A
US706077A US7413501A US1901074135A US706077A US 706077 A US706077 A US 706077A US 7413501 A US7413501 A US 7413501A US 1901074135 A US1901074135 A US 1901074135A US 706077 A US706077 A US 706077A
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Prior art keywords
cylinder
pistons
drum
abutment
steam
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US7413501A
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William J Mason
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CHARLES H WYMAN
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CHARLES H WYMAN
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Priority to US7413501A priority Critical patent/US706077A/en
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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
    • F04C29/00Component parts, details or accessories of pumps or pumping installations, not provided for in groups F04C18/00 - F04C28/00
    • F04C29/0021Systems for the equilibration of forces acting on the pump

Definitions

  • My invention relates to rotary engines, and particularly to such engines having a stationary drum and a revolving cylinder thereon.
  • the primary object of the invention isY to produce a thoroughly-practicable engine of this character with few-and simple parts.
  • a further object concerns the construction of the abutment by the provision of means whereby the steam-pressure in the cylinder will cause a tight bearing without packing.
  • a further object is to improve the piston action of such engine bythe use of steamtight sliding pistons operated by cranks controlled by a camfgroove, together with means to counterbalance the centrifugal tendency of the pistons due to rotation of the cylinder.
  • FIG. 1 is a vertical cross-section of the engine.
  • Fig. 2 is a longitudinal vertical section, partly in perspective, on the line 2 2 of Fig. 1.
  • Fig. 3 is an elevation'of the cylinder-head, showing the piston-cranks and the counterbalance; and
  • Fig. 4. is anv elevation of the face-plate having the cam-groove therein to control the piston-cranks.
  • the bed-plate 6 is provided with standards 7, in which are fixed and supported the stems S of the drum 9.
  • the steamv enters and exhausts through the passages 10, formed in the drum and the stemsthereof.
  • These steam-passages open into the cylinder one on each side of the abutment 11, which acts as an abutment to sustain the pressure of the steam when the cylinder is being driven.
  • the abutment is loosely seated in' a groove or recess 11%., formed in the drum, and suitable packing llbis i interposed to render the joint steam-tight.
  • Theabutment is slightly wedge-shaped, so ythat it is wider at the top 11c than at 'the bottom 11, and the top 11c forms' an arc of a circle concentric with the inner face of the rimleL of the cylinder with which it contacts.
  • the abutment is made wedge-shaped, so that the pressure of the steam tends to lift it and cause it to press tightly against the rim of the cylinder, whereby a steam-tight contact is formed without the use of packing.
  • the use of packing is objectionable, because it is apt to become caught in thepiston-grooves 16 during the It will be understood also that the abutment is wider circumferentially than the grooves.
  • the cylinder formed of two head-plates 12, having axialprojections 13,forming a hub,
  • rim 14 to which the head-plates are se-A cured, as by -bolts 15.
  • the rim is adapted to receive a belt and f orm a pulley to transmit the power.
  • Packing-rings 12a areinterposed between-the rimand head-plates and between the drum ⁇ and head-platesl
  • the rim of the cylinder is provided with grooves 16, containing the radially-slidable pistons 17.
  • Each of v these pistons is operated by an arm 18h, mounted upon the inner end 'of a rock-shaftl 18, ⁇ which extends without the cylinder.
  • Eachf arm works in a recess 17a, which communicates withthe piston-groove and engagesjthe sliding piston toreciprocate the same according-to motiony given the arm by means ofthe cam-groove 19, in'which runs a pin 20, connected by a. rod v21 to the lever 18, secured to the outer end of the rock-shaft 18.' The pin 20/isprovidedwith an antifriction-roller 22. motion of the rod 21.
  • the rod 21 is connected to the lever 18L by a pivot-pin121b, which is adapted to slide in a slot 18C in the lever.
  • a strap 21L serves to guide the headed pin 25, extending through the slot 26 and into the cylinder-head, serves to retain the weight in position while permitting the necessary radial movement thereof.
  • the cam-groove 19 is formed in a face-plate 19, which may be secured lto or made integral with one of the standards '7.
  • the groove is concentric with the axis of the cylinder, except at the point where the pistons are lifted to pass the abutment, as will be understood.
  • the pistons are pressed against the walls of the grooves on three sides by the pressure of the steam, and the arms are set to press the fourth sides tight against the drum during that portion of the revolution when the pistous are in contact with the drum, so that a steam-tight bearing is formed without packing.
  • the steam-passages act either as inlet or exhaust, as the engine may be reversed byY reversing the course of the steam through it.
  • the counterbalance-weights can be so adjusted relative to the weight of the pistons that they will move easily and smoothly and without jar or vibration even when the engine is running at high speed.
  • a rotatable cylinder having pistons, means to operatethe pistons,
  • a rotatable cylinder In a rotary engine, a rotatable cylinder, a stationary drum within the cylinder, inlet and exhaust ports, suitable pistons and means to operate the same, and a Wedgeshaped radiallyslidable abutment loosely seated in a recess in the drum and adapted to be forced by steam-pressure into contact with the cylinder.
  • a rotatable cylinder In a rotary engine, a rotatable cylinder, a stationary drum within the cylinder having a radially-slidable abutment projecting into contact with the cylinder, pistons carried by the cylinder and means to operate the same, and inlet and exhaust passages in the drum.
  • a rotatable cylinder In a rotary engine, a rotatable cylinder, a stationary drum in the same, a radiallymovable abutment carried by the drum, radially-slidable pistons carried by the cylinder and adapted to retreat into recesses therein, arms to operate the pistons having rockshafts extending without the cylinder, levers connected to the shafts and cam mechanism to actuate the levers.
  • a rotatable cylinder a stationary drum within the same, a radiallymovable abutment carried by the drum, radially-slidable pistons carried by the cylinder and adapted to retreat into recesses therein, arms to operate the pistons having rock-shafts extending without the cylinder, levers connected to the shafts, and bowed arms connected to the levers, said arms having weighted ends diametrically opposite the pistons, a face-plate having a cam-groove and pins running therein connected to the levers.

Description

No. 706,077. Pa'nted Aug. 5,1902.
w. .1. MAsoN.
ROTARY ENGINE.
(Application led Sept. 3, 1901.)
7 'lil W/TNESSES UNITED STATES PATENT OFFICE.
IVILLIAM J. MASON, OF CHICAGO, ILLINOIS, ASSIGNOR OF lONE-THIRD TO CHARLES H. WYMAN, OF CHICAGO, ILLINOIS.
ROTARY ENGINE.
SPECIFICATION forming part of Letters Patent .N 0. 706,077, datedV August 5, 1902.
Application filed September 3, 1901. Serial No. 74,135. (No model.)
To @ZZ whom t may concern,.-
Be it known that I, WILLIAM-J. MASON, a citizen of the United States, residing at'Chicago, in the countyzof Cook and State of-Illinois, have inventedvcertain new and useful Improvement-s in Rotary Engines; and I do hereby declare the following tobe a full, clear, and exact description of the invention, such as will enable others skilled in the art to which it appertains to make and use the same, reference being had to the accompanying drawings, and to the gnres of reference marked thereon, which form a part of this specification.
My invention relates to rotary engines, and particularly to such engines having a stationary drum and a revolving cylinder thereon.
The primary object of the invention isY to produce a thoroughly-practicable engine of this character with few-and simple parts.
A further object concerns the construction of the abutment by the provision of means whereby the steam-pressure in the cylinder will cause a tight bearing without packing.
A further object is to improve the piston action of such engine bythe use of steamtight sliding pistons operated by cranks controlled by a camfgroove, together with means to counterbalance the centrifugal tendency of the pistons due to rotation of the cylinder.
With these and other objects in view my invention is hereinafter described, andy is illustrated in the drawings, in which- Figure l is a vertical cross-section of the engine. Fig. 2 is a longitudinal vertical section, partly in perspective, on the line 2 2 of Fig. 1. Fig. 3 is an elevation'of the cylinder-head, showing the piston-cranks and the counterbalance; andFig. 4. is anv elevation of the face-plate having the cam-groove therein to control the piston-cranks.
Referring more specifically to the drawings, the bed-plate 6 is provided with standards 7, in which are fixed and supported the stems S of the drum 9. The steamv enters and exhausts through the passages 10, formed in the drum and the stemsthereof. These steam-passages open into the cylinder one on each side of the abutment 11, which acts as an abutment to sustain the pressure of the steam when the cylinder is being driven.
` revolution of the cylinder.
The abutment is loosely seated in' a groove or recess 11%., formed in the drum, and suitable packing llbis i interposed to render the joint steam-tight. Theabutment is slightly wedge-shaped, so ythat it is wider at the top 11c than at 'the bottom 11, and the top 11c forms' an arc of a circle concentric with the inner face of the rimleL of the cylinder with which it contacts. The abutment is made wedge-shaped, so that the pressure of the steam tends to lift it and cause it to press tightly against the rim of the cylinder, whereby a steam-tight contact is formed without the use of packing. The use of packing is objectionable, because it is apt to become caught in thepiston-grooves 16 during the It will be understood also that the abutment is wider circumferentially than the grooves.
The cylinderis formed of two head-plates 12, having axialprojections 13,forming a hub,
and a rim 14, to which the head-plates are se-A cured, as by -bolts 15. The rim is adapted to receive a belt and f orm a pulley to transmit the power. Packing-rings 12a areinterposed between-the rimand head-plates and between the drum` and head-platesl The rim of the cylinder is provided with grooves 16, containing the radially-slidable pistons 17. Each of v these pistons is operated by an arm 18h, mounted upon the inner end 'of a rock-shaftl 18,` which extends without the cylinder. Eachf arm works in a recess 17a, which communicates withthe piston-groove and engagesjthe sliding piston toreciprocate the same according-to motiony given the arm by means ofthe cam-groove 19, in'which runs a pin 20, connected by a. rod v21 to the lever 18, secured to the outer end of the rock-shaft 18.' The pin 20/isprovidedwith an antifriction-roller 22. motion of the rod 21. The rod 21 is connected to the lever 18L by a pivot-pin121b, which is adapted to slide in a slot 18C in the lever.
The inner end of each rod 21 is provided with a bowed arm 23, which spans the hub of the cylinder and connects with a counter balance-weight 24, which is located diametrically opposite the piston, so that in the revo= lution of the cylinder the centrifugal tendency of the piston is counterbalanced. The
A strap 21L serves to guide the headed pin 25, extending through the slot 26 and into the cylinder-head, serves to retain the weight in position while permitting the necessary radial movement thereof.
The cam-groove 19 is formed in a face-plate 19, which may be secured lto or made integral with one of the standards '7. The groove is concentric with the axis of the cylinder, except at the point where the pistons are lifted to pass the abutment, as will be understood.
The pistons are pressed against the walls of the grooves on three sides by the pressure of the steam, and the arms are set to press the fourth sides tight against the drum during that portion of the revolution when the pistous are in contact with the drum, so that a steam-tight bearing is formed without packing. The steam-passages act either as inlet or exhaust, as the engine may be reversed byY reversing the course of the steam through it. Also the counterbalance-weights can be so adjusted relative to the weight of the pistons that they will move easily and smoothly and without jar or vibration even when the engine is running at high speed.
Having thus described the invention, what I claim as new, and desire to secure by Letters Patent, is-
1. In a rotary engine, a rotatable cylinder having pistons, means to operatethe pistons,
` a stationary drum within the cylinder vhaving inlet and exhaust passages, and a radially-slidable abutment seated in the drum and adapted to be forced by steam-pressure into contact with the cylinder.
2. In a rotary engine, a rotatable cylinder, a stationary drum within the cylinder, inlet and exhaust ports, suitable pistons and means to operate the same, and a Wedgeshaped radiallyslidable abutment loosely seated in a recess in the drum and adapted to be forced by steam-pressure into contact with the cylinder.
3. In a rotary engine, a rotatable cylinder, a stationary drum within the cylinder having a radially-slidable abutment projecting into contact with the cylinder, pistons carried by the cylinder and means to operate the same, and inlet and exhaust passages in the drum.
4. In a rotary engine, in combination with a rotatable cylinder having grooves therein to receive pistons,and a stationary drum within the cylinder having inlet and exhaust passages, of a radially-movable abutment on the drum in contact with the cylinder, the contact-face of the abutment being of greater width, circumferentially, than the said grooves.
5. In a rotary engine, a rotatable cylinder, a stationary drum in the same, a radiallymovable abutment carried by the drum, radially-slidable pistons carried by the cylinder and adapted to retreat into recesses therein, arms to operate the pistons having rockshafts extending without the cylinder, levers connected to the shafts and cam mechanism to actuate the levers.
6. In arotary engine,a rotatable cylinder a stationary drum within the same, a radiallymovable abutment carried by the drum, radially-slidable pistons carried by the cylinder and adapted to retreat into recesses therein, arms to operate the pistons having rock-shafts extending without the cylinder, levers connected to the shafts, and bowed arms connected to the levers, said arms having weighted ends diametrically opposite the pistons, a face-plate having a cam-groove and pins running therein connected to the levers.
In testimony whereof I aflix my signature in presence of two witnesses.
' WILLIAM J. MASON.
Witnesses: NELLIE FEL'rsKoe,
HARRY G. BATCHELOR.
US7413501A 1901-09-03 1901-09-03 Rotary engine. Expired - Lifetime US706077A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3589842A (en) * 1969-10-24 1971-06-29 Alfred E Timperley Centrifugal force energy conserving mechanism

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3589842A (en) * 1969-10-24 1971-06-29 Alfred E Timperley Centrifugal force energy conserving mechanism

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