US1085343A - Power-transmitting mechanism. - Google Patents

Power-transmitting mechanism. Download PDF

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Publication number
US1085343A
US1085343A US63942711A US1911639427A US1085343A US 1085343 A US1085343 A US 1085343A US 63942711 A US63942711 A US 63942711A US 1911639427 A US1911639427 A US 1911639427A US 1085343 A US1085343 A US 1085343A
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receiving cylinder
cylinder
shaft
power
pistons
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US63942711A
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Oscar Keck
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04DNON-POSITIVE-DISPLACEMENT PUMPS
    • F04D29/00Details, component parts, or accessories
    • F04D29/26Rotors specially for elastic fluids
    • F04D29/32Rotors specially for elastic fluids for axial flow pumps
    • F04D29/34Blade mountings
    • F04D29/36Blade mountings adjustable

Definitions

  • This invention relates more particularly to a mechanism adapted to be used for utilizing with little or no loss the power of a motive agent for operating machinery, or for other purposes.
  • My invention has for its object primarily to provide a form of power transmitting mechanism designed to be employed for receiving compressed air, steam, or other m0- tive agent from a suitable source of supply and utilizing the power practically without loss or exhaust for revolving a drive shaft to operate machinery or other appliances with highest efficiency. This is accomplished mainly through the medium of a rotary cylinder for receiving the motive agent under pressure.
  • the receiving cylinder has one or a plurality of auxiliary cylinders in each of which is a piston connected by a crank to the drive shaft.
  • the auxiliary cylinders are positioned at an angle so that the pistons thereof will receive a maximum of pressure of the motive agent when the rotary cylinder is revolved and the resistance thereby created by reason of the pistons tending to be unseated in the auxiliary cylinders by the revolutions of the receiving cylinder will result in sutficient leverage being transmitted upon the crank of each piston to revolve the drive shaft at the same speed as the receiving cylinder is driven.
  • a further object of the invention is to provide a power transmitting mechanism which is simple in construction, which may be made in any desired size, and its parts are so formed as to be readily assembled or repaired in case of damage thereto.
  • Fig. 2 is a section taken on the line IIII of Fig. 1
  • Fig. 3 is a section on the line III-III of Fig. 1.
  • the power transmitting mechanism 10 has a hollow shaft 11 which is journaled in bearings provided in standards, as 12 and 13, or may be rotatably held in any suitable frame.
  • a horizontally disposed cylindrical receiving cylinder 14 of any desired length and diameter, and the interior of said cylinder is in communication with the passage through the hollow shaft by means of one or a plurality of feed openings or intake ports 15.
  • an opening or vent 16 At one endof the receiving cylinder 14 is an opening or vent 16 through which access to the interior of said cylinder may be obtained in case of cleaning or repairing being required, and said opening may be closed by a cap 17.
  • a gear wheel 19 and meshing with said gear wheel is a pinion or smaller gear wheel 20 which is keyed upon the drive shaft of any preferred form of engine, or by an electric motor 21, as shown, which is adapted to revolve the receiving cylinder 14 at a desired speed.
  • auxiliary cylinders 22 In the wall of the receiving cylinder 14 may be one or a plurality of auxiliary cylinders 22, each of which has an annular flange 23 upon its end exteriorly of said receiving cylinder, and upon the annular flange is held a plate 24 whereby a piston seat or head is provided for each of the auxiliary cylinders.
  • the auxiliary cylinders 22 are preferably arranged at equally spaced intervals around the axis of the receiving cylinder 14, and preferably the axes of the auxiliary cylinders are arranged coincident with chords that subtend an angle of ninety degrees with reference to a cross section of the receiving cylinder 14.
  • each of the auxiliary cylinders 22 is a piston 26.
  • To each of the pistons 26 is connected one end of a crank or lever 27, and the opposite end of said crank is rigidly fastened to the hollow shaft 11.
  • the pistons 26 are arranged so as to be normally seated against the heads of the auxiliary cylinders and by this arrangement each of the cranks or levers 27 will receive the great est amount of leverage when the mechanism is operated.
  • a tank 28 wherein may be stored a reserve supply of the motive agent, and leading from said tank is a pipe 29 to which is rotatably connected the hollow shaft 11.
  • the reserve tank may be dispensed with if desired, in which case the shaft 11 may be connected direct with the source of the motive agent supply, such as an air compressing machine, or other power producing apparatus.
  • the motive agent is supplied to the receiving cylinder 14: through the pipe 29 to the hollow shaft 11 and thence through the feed openings 15 thereof into the receiving cylinder which is kept charged with a determined pressure of the motive agent whereby the pistons 26 may be under a constant pressure of the motive agent and which serves to keep said pistons seated against the heads of the auxiliary cylinders 22.
  • the receiving cylinder 1a is then r0- tated by the power from the electric motor 21 and the istons 26 will tend to be unseated from the heads of the auxiliary cylinders 22.
  • the resistance thereby created by reason of the pressure of the motive agent in opposition to the force tending to unseat the pistons 26 will cause sufficient leverage to bear upon the cranks 27 to drive the shaft 11 at the same speed as the receiving cylinder 14.
  • a rotatable container a plurality of cylinders carried by said container, pistons within said cylinders, a shaft, crank arms operatively connecting said pistons with said shaft, means for supplying fluid pressure to said container, and means for revolving said container to drive said shaft.

Description

0. KBOK.
POWER TRANSMITTING MECHANISM.
APPLICATION FILED JULY 19, 1911.
Patented Jan. 27, 1914.
3591b attozumg I COLUMBIA FLANOORAPH 1:0,. WASHINGTON. D. c.
. UNTT TATES ATENT QFFTCE.
OSCAR KECK, OF NEW YORK, N. Y.
POWER-TRANSMITTING MECHANISM.
To all whom it may 60716677 Be it known that I, OSCAR Knox, a citizen of the United States, and a resident of New York, county and State of New York, have invented a certain new and useful Improvement in Power-Transmitting Mechanism, of which the following is a full, clear, and exact specification.
This invention relates more particularly to a mechanism adapted to be used for utilizing with little or no loss the power of a motive agent for operating machinery, or for other purposes.
My invention has for its object primarily to provide a form of power transmitting mechanism designed to be employed for receiving compressed air, steam, or other m0- tive agent from a suitable source of supply and utilizing the power practically without loss or exhaust for revolving a drive shaft to operate machinery or other appliances with highest efficiency. This is accomplished mainly through the medium of a rotary cylinder for receiving the motive agent under pressure. The receiving cylinder has one or a plurality of auxiliary cylinders in each of which is a piston connected by a crank to the drive shaft. The auxiliary cylinders are positioned at an angle so that the pistons thereof will receive a maximum of pressure of the motive agent when the rotary cylinder is revolved and the resistance thereby created by reason of the pistons tending to be unseated in the auxiliary cylinders by the revolutions of the receiving cylinder will result in sutficient leverage being transmitted upon the crank of each piston to revolve the drive shaft at the same speed as the receiving cylinder is driven.
A further object of the invention is to provide a power transmitting mechanism which is simple in construction, which may be made in any desired size, and its parts are so formed as to be readily assembled or repaired in case of damage thereto.
A practical embodiment of the invention is represented in the accompanying drawing forming a part of this specification in which similar characters of reference indicate cor responding parts in all the views, the said invention being more fully described hereinafter and then pointed out in the appended claims.
In the drawing Figure 1, is a side elevation, partly in section, of one form of my Specification of Letters Patent.
Application filed July 19, 1911.
Patented Jan. 27, 1914. Serial No. 639,427.
power transmitting mechanism embodying my invention. Fig. 2 is a section taken on the line IIII of Fig. 1, and Fig. 3 is a section on the line III-III of Fig. 1.
The power transmitting mechanism 10 has a hollow shaft 11 which is journaled in bearings provided in standards, as 12 and 13, or may be rotatably held in any suitable frame. Upon the shaft 11 and between the standards 12 and 13 is loosely held a horizontally disposed cylindrical receiving cylinder 14 of any desired length and diameter, and the interior of said cylinder is in communication with the passage through the hollow shaft by means of one or a plurality of feed openings or intake ports 15. At one endof the receiving cylinder 14 is an opening or vent 16 through which access to the interior of said cylinder may be obtained in case of cleaning or repairing being required, and said opening may be closed by a cap 17. Upon a suitable number of lugs or projections, as 18, provided upon the opposite end of the receiving cylinder 14 is fastened by screw bolts, or the like, a gear wheel 19, and meshing with said gear wheel is a pinion or smaller gear wheel 20 which is keyed upon the drive shaft of any preferred form of engine, or by an electric motor 21, as shown, which is adapted to revolve the receiving cylinder 14 at a desired speed.
In the wall of the receiving cylinder 14 may be one or a plurality of auxiliary cylinders 22, each of which has an annular flange 23 upon its end exteriorly of said receiving cylinder, and upon the annular flange is held a plate 24 whereby a piston seat or head is provided for each of the auxiliary cylinders. The auxiliary cylinders 22 are preferably arranged at equally spaced intervals around the axis of the receiving cylinder 14, and preferably the axes of the auxiliary cylinders are arranged coincident with chords that subtend an angle of ninety degrees with reference to a cross section of the receiving cylinder 14.
As a means to convey the power from the receiving cylinder 14 to the hollow shaft 11, in each of the auxiliary cylinders 22 is a piston 26. To each of the pistons 26 is connected one end of a crank or lever 27, and the opposite end of said crank is rigidly fastened to the hollow shaft 11. The pistons 26 are arranged so as to be normally seated against the heads of the auxiliary cylinders and by this arrangement each of the cranks or levers 27 will receive the great est amount of leverage when the mechanism is operated.
In order to supply the receiving cylinder 1a with a motive agent, such as compressed air, steam, or other power producing gas or fluid, I provide a tank 28 wherein may be stored a reserve supply of the motive agent, and leading from said tank is a pipe 29 to which is rotatably connected the hollow shaft 11. The reserve tank may be dispensed with if desired, in which case the shaft 11 may be connected direct with the source of the motive agent supply, such as an air compressing machine, or other power producing apparatus.
In operating my power transmitting mechanism the motive agent is supplied to the receiving cylinder 14: through the pipe 29 to the hollow shaft 11 and thence through the feed openings 15 thereof into the receiving cylinder which is kept charged with a determined pressure of the motive agent whereby the pistons 26 may be under a constant pressure of the motive agent and which serves to keep said pistons seated against the heads of the auxiliary cylinders 22. The receiving cylinder 1a is then r0- tated by the power from the electric motor 21 and the istons 26 will tend to be unseated from the heads of the auxiliary cylinders 22. The resistance thereby created by reason of the pressure of the motive agent in opposition to the force tending to unseat the pistons 26 will cause sufficient leverage to bear upon the cranks 27 to drive the shaft 11 at the same speed as the receiving cylinder 14.
In the foregoing description I have embodied the preferred form of my invention, but I do not wish to be understood as limiting myself thereto, as I am aware that modifications may be made therein without departing from the principle or sacrificing any of the advantages of this invention, therefore I reserve to myself the right to make such changes as fairly fall within the scope thereof.
Having thus described my invention, I claim as new and desire to secure by Letters Patent 1. In a mechanism of the character described, the cOmbination with a support, of a shaft journaled in the support, a horizontally disposed receiving cylinder, loosely held upon the shaft, said cylinder being provided with an intake for the admission of a fluid under pressure and having a vent in one of its ends, an auxiliary cylinder provided in the wall of the receiving cylinder and arranged on an angle within said receiving cylinder, a piston movable'within the auxiliary cylinder, a crank having one end pivotally connected to the piston and its other end rigidly fastened to the shaft, and
means provided upon the receiving cylinder whereby said cylinder may be rotated by a suitable power.
2. In a mechanism of the character described, the combination with a support, of a hollow shaft journaled in the support, a horizontally disposed receiving cylinder loosely held upon the shaft, means adapted to provide communication between the interior of the receiving cylinder and the passage through the hollow shaft whereby a fluid under pressure may be admitted into the receiving cylinder, an auxiliary cylinder provided in the wall of the receiving cylinder and arranged on an angle within said receiving cylinder, a piston movable within the auxiliary cylinder, a crank having one end connected to the piston and its other end rigidly fastened to the shaft, and means provided upon the receiving cylinder whereby said cylinder may be rotated by a suitable power.
3. In a mechanism of the character described, the combination with a support, of a shaft journaled in the support, a horizontally disposed receiving cylinder loosely held upon the shaft, said cylinder being provided with an intake for the admission of a fluid under pressure and having an opening in one of its ends which is closed by a plate, a plurality of auxiliary cylinders provided at spaced intervals in the wall of the receiving cylinder, each ofsaid auxiliary cylinders being arranged on a similar angle within said receiving cylinder, a plurality of pistons, each movable within one of the auxiliary cylinders, a plurality of cranks, each having one end pivotally connected to one of the pistons and its other end rigidly fastened to the shaft, and means provided upon the receiving cylinder whereby said cylinder may be rotated by a suitable power.
4. In a mechanism of the character described, the combination with a support, of a hollow shaft journaled in the support, a horizontally disposed cylinder loosely held upon the shaft, means adapted to provide communication between the interior of the receiving cylinder and the passage through the hollow shaft whereby a fluid under ressure may be admitted into the receiving cylinder, a plurality of auxiliary cylinders provided at spaced intervals in the wall of the receiving cylinder, each of said auxiliary cylinders being arranged on a similar angle within said receiving cylinder, a plurality of pistons, each movable within one of the auxiliary cylinders, a plurality of cranks, each having one end pivotally connected to one of the pistons and its other end rigidly fastened'to the shaft, and means provided upon the receiving cylinder whereby said cylinder may be rotated by a suitable power.
5. In a mechanism of the character described, the combination with two spaced its standards, of a hollow shaft j ournaled in the standards, said shaft having an opening in its central portion for the passage of a fluid under pressure therethrough, a receiving cylinder loosely held upon the shaft between said standards, an auxiliary cylinder provided in the wall of the receiving cylinder and arranged on an angle of 15 degrees within said receiving cylinder, a piston movable within the auxiliary cylinder, a crank having one end pivotall connected to the piston and. its other enc rigidly fastened to the shaft, and means provided upon ne end of the receiving cylinder whereby said cylinder may be rotated by a suitable power.
6. In a mechanism of the character described, the combination with two spaced standards, of a hollow shaft journaled in the standards, said shaft having a plurality of spaced openings in its central portion for the passage of a fluid under pressure therethrough, a receiving cylinder loosely held upon the shaft between said standards, a vent provided in one end of the receiving cylinder, a plurality of auxiliary cylinders provided at spaced intervals in the wall of the receiving cylinder, each of said auxiliary cylinders being arranged on an angle of 45 degrees within said receiving cylinder, a plurality of pistons, each movable within one of the auxiliary cylinders, a plurality of cranks, each having one end piv ctally connected to one of the pistons and its other end rigidly fastened to the shaft, and a gear Wheel provided upon the end of the receiving cylinder opposite to the vent thereof and which permits said receiving cylinder to be rotated by suitable power.
7. In a device of the character described in combination, a rotatable container, a plurality of cylinders carried by said container, pistons within said cylinders, a shaft, crank arms operatively connecting said pistons with said shaft, means for supplying fluid pressure to said container, and means for revolving said container to drive said shaft.
This specification signed and witnessed this eighteenth day of July A. D. 1911.
OSCAR KE CK.
lVitnesses:
R0151. B. ABBOTT, E. M. JERKE.
Copies of this patent may be obtained for five cents each, by addressing the Commissioner of .Patents, Washington, I). G.
US63942711A 1911-07-19 1911-07-19 Power-transmitting mechanism. Expired - Lifetime US1085343A (en)

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