US670082A - Hydraulic motor. - Google Patents

Hydraulic motor. Download PDF

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US670082A
US670082A US71483299A US1899714832A US670082A US 670082 A US670082 A US 670082A US 71483299 A US71483299 A US 71483299A US 1899714832 A US1899714832 A US 1899714832A US 670082 A US670082 A US 670082A
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chambers
rod
chamber
port
main
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US71483299A
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Jacob Leukart
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01BMACHINES OR ENGINES, IN GENERAL OR OF POSITIVE-DISPLACEMENT TYPE, e.g. STEAM ENGINES
    • F01B17/00Reciprocating-piston machines or engines characterised by use of uniflow principle
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B9/00Piston machines or pumps characterised by the driving or driven means to or from their working members
    • F04B9/08Piston machines or pumps characterised by the driving or driven means to or from their working members the means being fluid
    • F04B9/10Piston machines or pumps characterised by the driving or driven means to or from their working members the means being fluid the fluid being liquid
    • F04B9/103Piston machines or pumps characterised by the driving or driven means to or from their working members the means being fluid the fluid being liquid having only one pumping chamber
    • F04B9/105Piston machines or pumps characterised by the driving or driven means to or from their working members the means being fluid the fluid being liquid having only one pumping chamber reciprocating movement of the pumping member being obtained by a double-acting liquid motor

Definitions

  • My invention relates more particularly to such motors as are operated by the pressure of a city water-inain and designed to work a pump to lift rain-water from cisterns for use in kitchens, bath-rooms, dac.
  • motors As heretofore furnished such motors have been unreliable in operation, requiring ⁇ much attention and frequent repairs.
  • My invention consists of the construction and combination of parts herein describedy and pointed out in the claim.
  • Figure l is a View or side elevation, a part ot' one of the main-valve chambers being broken out to show the location of the exhaust or outlet port.
  • Fig. 2 is a viewin elevation ot' the lefthand end of the motoras seen in Fig. l.
  • Fig. 3 is a central longitudinal sectional View, someot' the interior parts being partially in elevation and some partially in section, the better to show details of construction.
  • Fig. 4 is a top plan view of a fraction of the casing, the upper section being removed.
  • l designates the main cylinder of the motor, in which lits and moves a piston 2 and its pump-rod 2. Formed at the upper side of this cylinder are auxiliary-valve chambers 3 3 and main-valve cham bers 4 4. Fitting to move in the chambers are annularly-recessed valves connected by a rod 6.
  • a convenient way of constructing these valves consists in placing on each end of the rod 6 or upon a stem threading into the end of the rod, two pieces ot' packing material 5 5, hetwecn which is placed a bobbin-like or circumferentially channeled metallic disk or ring (5b, the said disk being held in place by compressing the packing between washers 6, abutting against the end ot' the rod and the head of the stem. Secured to the rod 6 are the shutting 0H of such flow.
  • each ofthe chambers 4 4 is made with a port or opening 4 of smaller diameter than that of the chamber 4, but of larger diameter than the stem or rod 9, and on this stem or rod within the chamber is a shoulder or nut 9, upon which is seated a soft ring 9* and a hard ring 9c of smaller diameter than the soft ring 9b; but the hard ring 9E is of such diameter as to nicely t and close the port 4a and practically cutoff the flow of water through said port at the proper times, the soft ring supplementing andanaking certain
  • the valves are arranged on rod 9 so that. one set of ports will always be open when the other is closed, and thereby prevent the liability of an equilibrium being established in the main 'cylinder and consequent stopping ofthe motor.
  • lO designates what might be termed the induction-chamber, because the water under pressure first enters here. It is made with ports l()a l0, which are opened and closed by valves composed of parts 9a 9b 9c on the rod 9, like those in the chamber 4.
  • the closing of the port 4a in the left-hand chamber 4 is approximately coincident with the closing -ot' the right-hand port l()a in the induction-chamber, and the closing of the port 4 in the right-hand chamber 4 is approximately coincident with the closing of the lefthand port 10a.
  • the induction-chamber l0 communicates with the motor-cylinder through chambers 11, which are d uly inclosed.
  • the induction-chainber also communicates with the cham bers 3 3 through a port l2 and passages l2d l2a 12b 12b, and the chambers 3 3 communicate with eX- haust-passages 13 13 through openings 3.
  • Each ot' the chambers 4 communicates with the exhaust-passages 13 by means ot' a port 4b in its side.
  • the main-valve chambers 4 are of larger diameter than the chambers l1, whereby to afford a larger piston-Surface to be operated upon by the water.
  • ports 14 14 and 14 14 Connecting the chambers 3 3 and 4 4 are ports 14 14 and 14 14, and when the stem or rod 6 is thrown so that the channeled ring 6b coincides with a port 14 communication between the induction chamber and chamber 4 is established through one of the passages 12* ⁇ and said port 14, and when the stem or rod 6 is thrown in the reverse direction or so that the channeled ring 6b coincides with the port 14 communication of the inductionchamber and chamber 4 is ent off and communication established between the chamber 4 and an exhaust-passage 13; but the parts are so constructed and arranged that when one chamber 4 is in communication with the induction-chamber 10 the other chamber 4 is exhausting.
  • the open ends of the cylinder 1 and cham-A bers 3 and 4 4 are closed by screw caps or heads.
  • the rod 6 is passedthrough bushings secured in the openingr below the inductionchamber 10.
  • the soft ring 9b and the end of the hard ring 9 may be beveled.
  • a hydraulic motor In a hydraulic motor, the combination with a main cylinder, its piston and piston-rod, of auxiliary-valve chambers separated from one another and provided with valves, a rod connecting said valves, the latter consisting of a plurality of packing-rings of equal size separated by a grooved or channeled disk or ring, the whole mounted eoneentrically upon a screw, said screw received in the correspondingly-threaded ends of the auxiliaryvalve rod, lugs adjustably and rigidly secured on said rod, ports through which said lugs extend to engage the main piston and thus operate the auxiliary-valve rod, main-valve chambers located in proximity to the auxiliary-valve chambers and provided with a rod and pistons, chambers 11 located adjacent to the main-Valve chambers, the latter being of larger diameter than the chambers 11 whereby to aiiord a larger piston-surface to be operated upon, ports connecting said chambers 11 with the main-Val ve chan1bers,valves for closing said ports

Description

No. 670,082. Patented Mar. I9, i901. .I.LEUKART.
- HYDRAULIC MOTOR.
(Applxctxon Med Apr 28, 1899 (No Mum.)
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JACOB LEUKART, OF COLUMBUS, OHIO.
HYDRAULIC MOTOR.
SPECIFICATION forming part of Letters Patent No. 670,082, dated Maren 19, 1901.
Application tiled April 28. 1899. Serial No. 714,832. (No model.)
To (all whom, t may concern.'
Beit known that I, JACOB LEUKART, a citizen of the United States, residing at Columbus, in the county ot' Franklin and State of Ohio, have invented certain new and useful Improvements in Hydraulic Motors; and I do hereby declare the following to be 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.
My invention relates more particularly to such motors as are operated by the pressure of a city water-inain and designed to work a pump to lift rain-water from cisterns for use in kitchens, bath-rooms, dac. As heretofore furnished such motors have been unreliable in operation, requiring` much attention and frequent repairs. i
My invention consists of the construction and combination of parts herein describedy and pointed out in the claim.
In the accompanying drawings, Figure l is a View or side elevation, a part ot' one of the main-valve chambers being broken out to show the location of the exhaust or outlet port. Fig. 2 is a viewin elevation ot' the lefthand end of the motoras seen in Fig. l. Fig. 3 is a central longitudinal sectional View, someot' the interior parts being partially in elevation and some partially in section, the better to show details of construction. Fig. 4 is a top plan view of a fraction of the casing, the upper section being removed.
Like characters ot' reference in the several views designate corresponding parts.
l designates the main cylinder of the motor, in which lits and moves a piston 2 and its pump-rod 2. Formed at the upper side of this cylinder are auxiliary-valve chambers 3 3 and main-valve cham bers 4 4. Fitting to move in the chambers are annularly-recessed valves connected by a rod 6. A convenient way of constructing these valves consists in placing on each end of the rod 6 or upon a stem threading into the end of the rod, two pieces ot' packing material 5 5, hetwecn which is placed a bobbin-like or circumferentially channeled metallic disk or ring (5b, the said disk being held in place by compressing the packing between washers 6, abutting against the end ot' the rod and the head of the stem. Secured to the rod 6 are the shutting 0H of such flow.
ner wall of each ofthe chambers 4 4 is made with a port or opening 4 of smaller diameter than that of the chamber 4, but of larger diameter than the stem or rod 9, and on this stem or rod within the chamber is a shoulder or nut 9, upon which is seated a soft ring 9* and a hard ring 9c of smaller diameter than the soft ring 9b; but the hard ring 9E is of such diameter as to nicely t and close the port 4a and practically cutoff the flow of water through said port at the proper times, the soft ring supplementing andanaking certain The valves are arranged on rod 9 so that. one set of ports will always be open when the other is closed, and thereby prevent the liability of an equilibrium being established in the main 'cylinder and consequent stopping ofthe motor.
lO designates what might be termed the induction-chamber, because the water under pressure first enters here. It is made with ports l()a l0, which are opened and closed by valves composed of parts 9a 9b 9c on the rod 9, like those in the chamber 4. The closing of the port 4a in the left-hand chamber 4 is approximately coincident with the closing -ot' the right-hand port l()a in the induction-chamber, and the closing of the port 4 in the right-hand chamber 4 is approximately coincident with the closing of the lefthand port 10a.
The induction-chamber l0 communicates with the motor-cylinder through chambers 11, which are d uly inclosed. The induction-chainber also communicates with the cham bers 3 3 through a port l2 and passages l2d l2a 12b 12b, and the chambers 3 3 communicate with eX- haust-passages 13 13 through openings 3. Each ot' the chambers 4 communicates with the exhaust-passages 13 by means ot' a port 4b in its side. The main-valve chambers 4 are of larger diameter than the chambers l1, whereby to afford a larger piston-Surface to be operated upon by the water.
IOO
Connecting the chambers 3 3 and 4 4 are ports 14 14 and 14 14, and when the stem or rod 6 is thrown so that the channeled ring 6b coincides with a port 14 communication between the induction chamber and chamber 4 is established through one of the passages 12*` and said port 14, and when the stem or rod 6 is thrown in the reverse direction or so that the channeled ring 6b coincides with the port 14 communication of the inductionchamber and chamber 4 is ent off and communication established between the chamber 4 and an exhaust-passage 13; but the parts are so constructed and arranged that when one chamber 4 is in communication with the induction-chamber 10 the other chamber 4 is exhausting. Hence the flow or pressure is transferred automatically from one side of the piston 2 to the other, and while the pressure is actingr on one side of said piston it is acting on the corresponding` side of the piston in a chamber 4. The main cylinder exhausts, through chamber 11, port 4f, and port 4b, into exhaust-passage 13. The exhaust-passages 13 are conveniently united at the under side of the motor-cylinder.
In the manufacture of my motor I form the cylinder 1, chambers 3 3, the lower part of the chambers 4 4 and 11 11 and 10, as well as the passages l2 12a and 13 13, of one piece or casting, the proper opening being bored or turned when necessary, while the upper part or halt` of the chambers 4 4 and l1 11 and 10 are formed in another casting to be screwed down upon the-lower part, as clearly shown.
The open ends of the cylinder 1 and cham- A bers 3 and 4 4 are closed by screw caps or heads. The rod 6 is passedthrough bushings secured in the openingr below the inductionchamber 10. The soft ring 9b and the end of the hard ring 9 may be beveled.
lVhat I claim, and desire to secure by Letters Patent, is
In a hydraulic motor, the combination with a main cylinder, its piston and piston-rod, of auxiliary-valve chambers separated from one another and provided with valves, a rod connecting said valves, the latter consisting of a plurality of packing-rings of equal size separated by a grooved or channeled disk or ring, the whole mounted eoneentrically upon a screw, said screw received in the correspondingly-threaded ends of the auxiliaryvalve rod, lugs adjustably and rigidly secured on said rod, ports through which said lugs extend to engage the main piston and thus operate the auxiliary-valve rod, main-valve chambers located in proximity to the auxiliary-valve chambers and provided with a rod and pistons, chambers 11 located adjacent to the main-Valve chambers, the latter being of larger diameter than the chambers 11 whereby to aiiord a larger piston-surface to be operated upon, ports connecting said chambers 11 with the main-Val ve chan1bers,valves for closing said ports, said valves secured on the piston-rod, an induction-chamber located between chambers 11, ports connecting,lr the induction-chamber with chambers l1, saidpiston-rod extending through said inductionchamber and provided with valves thereon for closing said last-named ports, ports affording communication between the induction and auxiliary-valve chambers, an exhaustpassage, exhaust-ports between the auxiliary- Valve chambers and said passage, means ot' communication between the main-valve chambers and said exhaust-passage, ports between said main-valve chambers and the auxiliaryvalve chambers affording communication between the induction-chamber and the mainvalve chambers by means of said channeled disk and communication between the main cylinder and said exhaust-passages, the whole so arranged that the pressure is automatically transferred from one side of the main piston to the other and simultaneously acting upon the corresponding sides of the main-valve pistons.
In testimony whereof I affix my signature in presence of witnesses.
JACOB LEUKART.
Vit/nesses:
GEORGE W. ALFRED, GEORGE M. FINCKEL.
US71483299A 1899-04-28 1899-04-28 Hydraulic motor. Expired - Lifetime US670082A (en)

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