US157956A - Improvement in submerged rotary pumps - Google Patents

Improvement in submerged rotary pumps Download PDF

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US157956A
US157956A US157956DA US157956A US 157956 A US157956 A US 157956A US 157956D A US157956D A US 157956DA US 157956 A US157956 A US 157956A
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forcer
water
port
valve
pump
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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
    • F04C2/082Details specially related to intermeshing engagement type machines or pumps
    • F04C2/084Toothed wheels
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01CROTARY-PISTON OR OSCILLATING-PISTON MACHINES OR ENGINES
    • F01C1/00Rotary-piston machines or engines
    • F01C1/08Rotary-piston machines or engines of intermeshing engagement type, i.e. with engagement of co- operating members similar to that of toothed gearing
    • F01C1/12Rotary-piston machines or engines of intermeshing engagement type, i.e. with engagement of co- operating members similar to that of toothed gearing of other than internal-axis type
    • F01C1/14Rotary-piston machines or engines 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 toothed rotary pistons
    • F01C1/20Rotary-piston machines or engines 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 toothed rotary pistons with dissimilar tooth forms

Definitions

  • the piston or forcer is cylindrical, with an opening or lip extending into its interior, throughout one side from top to bottom, between its cam-shaped heads, one lip projecting to the full extent of the eccentricity ofthe cams, the opposite lip being shorter.
  • the upper end of the forcer is connected with the eduction water-pipe, rotating together within the pump-case, the longest lip working watertight against the circular interior of the case, and the heads against the upper and lower ends of said case.
  • the heads work within sockets within the respective ends of the case or outer cylinder.
  • the diameter of the forcer is suiiciently smaller than that of the latter to give room for a water-chamber between the two.
  • the case has avertical opening from top to bottom into the interior, closed by a valve which is in continual contact with the edges of each of the cam-heads of the rotary forcer, and moves within a recess or extension of the water-port, and is actuated alternately, by the revolution of the cams of the forcer, to force it within its recess, and by springs behind it to keep it in Contact with said cams, or forcing it out of its recess to admit and to cut oif water at the port alternately.
  • A represents the case or receiver, cylindrical in shape, with two heads, A c A c, closing the respective upper and lower ends, and securely bolted or screwed thereto; and a water-port, a a, eX- tending from top to bottom, covered by an angular partition, t, partially, and partially at the outer extremity by a plate, t', which serves as the base of the socket of the valve C, which works in this water-port.
  • Behind the case is a flange or lug, w, by which the pump is fastened to a proper point under the water.
  • B represents the rotary forcer or piston, a hollow cylinder, with each head formed by a cam, L0 w, at top and at bottom, on the outer sides of which, to form the bearings of the forcer, is a hub, each of which works within a corresponding recess in the heads of the case or receiver.
  • the lower end ofthe forcer is stepped upon the bearing z, beneath the lower head A c.
  • Through the upper hub passes a pipe, p, which is at once the spindle by which the forcer is rotated, and also the ednction-passage for water, the power being applied to the pinion q, at the top of the well or cistern, or beneath the water, as desired.
  • a vertical narrow opening extends along the forcer between the points c e of the cams w w, one edge, c, of which is extended entirely to the points of said cams, and sweeps the interior of the case A.
  • the other edge or lip, f does not extend beyond the limits of the general cylindrical form of the forcer. (See plan, Fig. 3.)
  • C O represent the valve, having a prismatic head, G, extending the whole length of the water-port a a, one edge of which is constantly in contact with the edges of the upper and lower cams w w of the forcer B, and the rear edge is alternately brought against the inner angle of the wall t of the water-port in cutting off and supplying water through the port to the chamber la of the pump.
  • the prismshaped head of the valve is connected in the rear to a block or plate, C', which lls and slides, with the head, within the back part of the Water-port a a, in which it is conned by means of the shoulders s s at top and bottom of said valve, which abut against the guides n at, run-v head C closing, ⁇ upon the wall t.
  • this submerged rotary forcepump is as follows: The power is applied to the pinion q, or the shaft p, which is also the discharge-pipe, and is screwed into the hub of the forcer B. By the revolution of the latter in the direction of the hancb7 water is n caught or scooped, on its entrance, by the lip c, the valve C C forming an abutment or stop to prevent its return, by its pressure, by means of the springs against the surface of the forcer, the water bein g forced through the orifice j' of the latter into the chamber g, and thence up the discharge-pipe and shaft or spindle p to any height.
  • the valve C C is thus alternately opened and closed to admit water and to prevent its return from conusement within the chamber k of the case or receiver A., the latter being always full.
  • I also construct this pump with the valve within the body of the forcer so placed as to sweep the circular interior of the pump, and force wat-er through a vertical opening next to it into the interior of the forcer, and thence to the dischargcpipe, each time that the valve passes over a projection or intruding ⁇ portion of the interior surface of the receifer or pump, the water-port being, ⁇ placed on that side of the projection last left by the valve or piston.
  • I also use, in cases where necessary, a check-valve at the origin of the pipe p in the forcer.
  • the rota-ry water-forcer B constructed with cams w w, port f, and lips e f, vertical water-passage g, in combination with the case or receiver A, having, ⁇ a port, a a, and portvalve C, or similar cut-off, which works within the port, or the specified equivalent working within the forcer itself, substantially as and for the purposes set forth.

Description

NITED STATES PATENT OFFICE.
THOMAS O. W'ORKMAN, OF METAMORA, ILLINOIS, ASSIGNOR OF ONE-HALF HIS RIGHT TO MRS. SIDNAH R. WHITMIRE, OF SAME PLAGE.
IMPROVEMENT IN SUBMERGED ROTARY PUMPS.
Specification forming part of Letters Patent No, 157,956, dated December 22,1874; application lled October 20, 1874.
To all whom 4it may concern:
Be it known that I, THOMAS C. WOEKMAN, of Metamora, in the county of Woodford and in the State of Illinois, have invented a Rotary Submerged Force-Pump; and do hereby partly sectional, to show the interior; Fig. 2, a.
vertical section through the center of the pump and the water-port, on line b b, Fig. 3; Fig. 3, a horizontal section through line a, a, a a, Fig. 2; Fig. 4, a vertical section of the inner end of the water-port, with valve, on line c c, c c, Fig. 3; Fig. 5, a horizontal section of pump, having another form of forcer or piston.
The piston or forcer is cylindrical, with an opening or lip extending into its interior, throughout one side from top to bottom, between its cam-shaped heads, one lip projecting to the full extent of the eccentricity ofthe cams, the opposite lip being shorter. The upper end of the forcer is connected with the eduction water-pipe, rotating together within the pump-case, the longest lip working watertight against the circular interior of the case, and the heads against the upper and lower ends of said case. The heads work within sockets within the respective ends of the case or outer cylinder. The diameter of the forcer is suiiciently smaller than that of the latter to give room for a water-chamber between the two. The case has avertical opening from top to bottom into the interior, closed by a valve which is in continual contact with the edges of each of the cam-heads of the rotary forcer, and moves within a recess or extension of the water-port, and is actuated alternately, by the revolution of the cams of the forcer, to force it within its recess, and by springs behind it to keep it in Contact with said cams, or forcing it out of its recess to admit and to cut oif water at the port alternately.
In the drawings,.illnstrating one of the forms of this pump, A represents the case or receiver, cylindrical in shape, with two heads, A c A c, closing the respective upper and lower ends, and securely bolted or screwed thereto; and a water-port, a a, eX- tending from top to bottom, covered by an angular partition, t, partially, and partially at the outer extremity by a plate, t', which serves as the base of the socket of the valve C, which works in this water-port. Behind the case is a flange or lug, w, by which the pump is fastened to a proper point under the water. B represents the rotary forcer or piston, a hollow cylinder, with each head formed by a cam, L0 w, at top and at bottom, on the outer sides of which, to form the bearings of the forcer, is a hub, each of which works within a corresponding recess in the heads of the case or receiver. The lower end ofthe forcer is stepped upon the bearing z, beneath the lower head A c. Through the upper hub passes a pipe, p, which is at once the spindle by which the forcer is rotated, and also the ednction-passage for water, the power being applied to the pinion q, at the top of the well or cistern, or beneath the water, as desired. A vertical narrow opening extends along the forcer between the points c e of the cams w w, one edge, c, of which is extended entirely to the points of said cams, and sweeps the interior of the case A. The other edge or lip, f", does not extend beyond the limits of the general cylindrical form of the forcer. (See plan, Fig. 3.)
C O represent the valve, having a prismatic head, G, extending the whole length of the water-port a a, one edge of which is constantly in contact with the edges of the upper and lower cams w w of the forcer B, and the rear edge is alternately brought against the inner angle of the wall t of the water-port in cutting off and supplying water through the port to the chamber la of the pump. The prismshaped head of the valve is connected in the rear to a block or plate, C', which lls and slides, with the head, within the back part of the Water-port a a, in which it is conned by means of the shoulders s s at top and bottom of said valve, which abut against the guides n at, run-v head C closing,` upon the wall t.
The operation of this submerged rotary forcepump is as follows: The power is applied to the pinion q, or the shaft p, which is also the discharge-pipe, and is screwed into the hub of the forcer B. By the revolution of the latter in the direction of the hancb7 water is n caught or scooped, on its entrance, by the lip c, the valve C C forming an abutment or stop to prevent its return, by its pressure, by means of the springs against the surface of the forcer, the water bein g forced through the orifice j' of the latter into the chamber g, and thence up the discharge-pipe and shaft or spindle p to any height. The valve C C is thus alternately opened and closed to admit water and to prevent its return from connement within the chamber k of the case or receiver A., the latter being always full.
I also construct this pump with the valve within the body of the forcer so placed as to sweep the circular interior of the pump, and force wat-er through a vertical opening next to it into the interior of the forcer, and thence to the dischargcpipe, each time that the valve passes over a projection or intruding` portion of the interior surface of the receifer or pump, the water-port being,` placed on that side of the projection last left by the valve or piston. I also use, in cases where necessary, a check-valve at the origin of the pipe p in the forcer.
What I claim as my invention isl. The rota-ry water-forcer B, constructed with cams w w, port f, and lips e f, vertical water-passage g, in combination with the case or receiver A, having,` a port, a a, and portvalve C, or similar cut-off, which works within the port, or the specified equivalent working within the forcer itself, substantially as and for the purposes set forth.
2. The combination of the receiver A, water-port a c, valve G G, wall t, guides n, substantially as set forth.
3. The combination of the rotary forcer B with the hollow shaft or pipe p, substantially as and for the purposes set forth.
4. The combination of the Valve C C s s, and guides n n, and wall tof the port a a, substantially as and for the purposes described.
In testimony that VI claim the foregoing submerged rotary force-pump l have hereunto set my hand this 12th day of October, 1874.
THOMAS C. VORKMAN.
Witnesses:
G. H. KETTELLE, ANDREW RUNSTETTER.
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