US645528A - Siphon-elevator. - Google Patents

Siphon-elevator. Download PDF

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US645528A
US645528A US251095A US1895002510A US645528A US 645528 A US645528 A US 645528A US 251095 A US251095 A US 251095A US 1895002510 A US1895002510 A US 1895002510A US 645528 A US645528 A US 645528A
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chamber
water
valve
siphon
pipe
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US251095A
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Jules Lemichel
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B47/00Pumps or pumping installations specially adapted for raising fluids from great depths, e.g. well pumps
    • F04B47/06Pumps or pumping installations specially adapted for raising fluids from great depths, e.g. well pumps having motor-pump units situated at great depth
    • F04B47/08Pumps or pumping installations specially adapted for raising fluids from great depths, e.g. well pumps having motor-pump units situated at great depth the motors being actuated by fluid

Definitions

  • WITNESSES INVENTOR HTTORNEYQ m Noam-Farms co PHOTC-LITHO, wAsmNoTom o. r
  • n1 Nona PETERS co" PHOTO-LITNO WASHINGTON n c.
  • Fig. 4 is a plan view of the puppetvalve chamber.
  • Fig. 5 is a horizontal vertical section of the same apparatus as shown in Fig. 1, showing a dome mounted upon the top of the siphon and a superelevation pipe connected therewith.
  • Fig. 6 is a diagram showing the application of my siphon apparatus to raise water to the surface of the ground from the bottom of a well by the use of two natural water strata at different levels.
  • 1 is the suction-pipe, by
  • Chambers the discharge-chamber and the superelevation chamber, respectively-both having rigid walls.
  • Chamber 6 communicates with the suction-chamber 2 by the throat 5, which is closed by theclack-valve 3, and chamber 11 by the opening 9*, closedby the valve 9.
  • the valve 3 is mounted upon the rocking shaft 17, which protrudes through the Wall of the chamber 2 and is packed or made water-tight therein by a rubber sleeve,
  • Patent No. 479,411 Surrounding the throat 5 is a valve-seat 4, made, preferably, of rubber.
  • the chamber 6 has rigid walls, but has an open top, which is closed by a cover 13, which rests upon a gasket surrounding the opening. The cover is held in placeupon the gasket by a screw '14, passing through a yoke 15.
  • 7 is the discharge-pipe,connected to thedischarge-chamber 6 and carrying off the water drawn into said chamber'through the throat 5.
  • the top and bottom of the chamber 6 were made of elastic or resilient metal and were kept separated by means of a spiral spring placed between them.
  • the function of the resilient chamber was to prevent the tendency to break the vacuum by the sudden discharge of the water inv said chamber into the discharge-pipe during the instant when the clack-valve was closed and to avoid the formation of an excessive vacuum at the moment when the valve controlling the passage from the suction-chamber to the discharge-chamber is to be opened. Such excessive vacuum would tend to prevent the proper operation of the device by preventing the opening of said valve at the proper time. Under atmospheric pressure from the exterior the resilient walls were pressed inward to take up the space left by the receding water. This apparatus, while satisfactory in some respects, is not quite so sensitive as is desirable for the perfect work ing of my apparatus.
  • an elastic bag 8 preferably of rubber, containing air or other gas, which is placed within the chamber 6 and surrounded by water.
  • This bag is partially collapsed at atmospheric pressure. The natural expansion of the air under relief of atmospheric pressure will very quickly and positively take the place of the receding water in the chamber 6 and with equal sensitiveness and quickness yield to compression when the clack-valve is opened and water again flows into the chamber.
  • 9 is apuppet-valve which closes the communicating passage-way between the suction-chamber 2 and the superelevation chamber 11.
  • the valve 9 is mounted upon astem and maintained by a yoke 10, secured to the interior of the chamber 11. This valve is seated on a valve-seat which surrounds the aperture 9.
  • 12 is a discharge-pipe in the side of the chamber 11. the chamber 11, by which the apparatus may be converted intoasuperelevation device.
  • Fig. 2 the parts are there shown and numbered as before mentioned.
  • the chamber 11, however, is removed in Fig. 2, showing its seat and the interior of the chamber 2.
  • 17 is the rock-shaft upon which the clack-valve 3 is mounted.
  • 18 is an arm secured to said rock-shaft, and 19 a weight by which it is balanced.
  • 20 20 are springbuifers which limit the motion of the arm 18 and control the throw of the clack-valve 3. These may be adjusted by suitable nuts to give the valve any desired play.
  • FIG. 3 the chamber 11 is there shown in vertical section, the front wall of the chamber 2 having been removed, and the face against which said wall is ordinarily screwed is shown.
  • This figure shows the throat 5 from chamber 2 into chamber 6 and the valve-seat 4, also the rock-shaft 17 upon which the valve 3 is mounted.
  • Fig. 4 is a plan view of the top of the chamber 11, looking down into it.
  • the top surface of the seat upon which the chamber 11 rests on the top of chamber 2 is shown in dotted lines.
  • Fig. 5 shows the same structure as that shown in Fig. 1, except that a dome 22 has been added to the top of the chamber 11 and a superelevation pipe 28 is connected to the discharge-pipe 12 of the chamber 11.
  • a dome 22 has been added to the top of the chamber 11 and a superelevation pipe 28 is connected to the discharge-pipe 12 of the chamber 11.
  • 23 is a cover secured to the top of thirty meters.
  • Fig. 6 is a diagram showing an application of my invention by which a continual flowing stream of water can be automatically maintained on the surface of ground which is level.
  • water strata are found at varying levels beneath the surface of the ground.
  • a copious stratum is found at a depth .oftwenty or thirty feet, and below this an impervious bed of clay or other similar material
  • a well is sunk into the first wa ter stratum either in the usual Way or by driving a pipe into the ground until the stratum is struck and then a second well is drilled until the second water stratum is struck.
  • These two pipes are connected at their upper ends on the surface of the ground so as to form the siphon, and it will be readily seen that when the siphon is started water may be drawn from the shallow stratum into the deep one and will continuously flow.
  • a siphon device for elevating water, the combination of a suction-pipe and a discharge-pipe, with a suction-chamber and a discharge-chamber into which the two pipes enter, said chambers being separated by a valve, the discharge-chamber containing an elastic sack filled with air or other gas.
  • a suction-pipe and a discharge-pipe with two chambers located between their upper extremities, the suction-pipe emptying into one and the discharging-pipe emptying the other, said chambers being separated by vation-chamber being provided with a supera valve, the discharge-chamber containing an elevation discharge-pipe.

Description

No. 645,528. Patented Mar. l3, I900.
. J. LEMICHEL.
SIPHGN ELEVATOR.
(AppliatiBh filed Oct. 3, 1896. Renewed Jan. 23, 1900.) (No Model'.) 4 Sheets-Sheet I.
WITNESSES INVENTOR HTTORNEYQ m: Noam-Farms co PHOTC-LITHO, wAsmNoTom o. r
No. 645,528. Patented Mar. i3, 19 00.
J. LEMICHEL.
SIPHON ELEVATOR.
(Application filed Oct. 3, 1895. Renewed Jan. 28, 1900.) (No Model.) 4 Sheets$heet 2.
m: NoRms wzrzn$ ca, Pnoraunm, WASNINGTON, n. c.
No. 645,528. Patented Mar. 13. I900. J; LEMICHEL.
SIPHON ELEVATOR.
(Application filed Oct. 3, 1895. Renewed Jan. 23, 1900.)
4 $heafs-Sheaf 3.
(No Model.)
wi/lmmeo m: mums PETERS c0. PHUTO-LH'NQ, WASHINGTON, Q. v
- Patented Mar. 13. I900. J. LEMIGHEL. SIPHON ELEVATOR.
{Application filed-Oct. 3, 1885. Renewed Jan. 23, 1900.)
(No Model.)
4 Sheets$heet 4-.
WITNESSES: v
INVENTOR Hf 4 100 4 4 ATTORNEY.
n1: Nona PETERS co" PHOTO-LITNO WASHINGTON n c.
PATE T" JULES LEMIOHEL, 0F PARIS, FRANCE.
SlPHON-ELEVATOR.
SPECIFICATION forming part of Letters Patent No. 645,528, dated. March 13, 1900.
Application filed October 3, 1895. Renewed January 23, 1960. Serial No. 2,510. (No model.)
To all whom it may concern:
Be it known that I, J ULES LEMIOHEL, a citizen of the Republic of France, and a resident of Paris, France, have invented certain new and'useful Improvements in Siphon-Elevators, of which the following is a specification.
I-Ieretofore Letters Patent No. 47 9,411, dated July 26, 1892, were issued to Eugene Etve and Jules Lernichel, of Paris, France. The present application is an improvement upon the apparatus described in that patent. The particular elements of improvement consist in three essential features-the substitution of an elastic air-containing sack in the chamber, which in the former device had resilient walls, the superelevation device, by means of which water is forced upward above the level of the crown of the siphon, and the application of the invention shown in Fig. 6 of the drawings, by which water is raised from a well by means of a siphon, the 'two legs of which are inserted intwonatural strata of water in the earth at different levels. These inventions will be described by reference to the accompanying drawings, in which- Figure 1 is a vertical longitudinal section.
the same with the superelevation apparatus Fig. 3.
removed from the top of the siphon. is a vertical section through line a: as of Fig. 1, the valves being removed. Fig. 4 is a plan view of the puppetvalve chamber. Fig. 5 is a horizontal vertical section of the same apparatus as shown in Fig. 1, showing a dome mounted upon the top of the siphon and a superelevation pipe connected therewith. Fig. 6 is a diagram showing the application of my siphon apparatus to raise water to the surface of the ground from the bottom of a well by the use of two natural water strata at different levels.
The apparatus described in the patent above referred to has been very successful in practice; but it has some mechanical limitations, and the subject-matter of this application is improvements which have been made in the course of the practical use of that apparatus which have resulted from calculation and experiment.
Referring to Fig. 1, 1 is the suction-pipe, by
which water is drawn from a source of sup-.
chambersthe discharge-chamber and the superelevation chamber, respectively-both having rigid walls. Chamber 6 communicates with the suction-chamber 2 by the throat 5, which is closed by theclack-valve 3, and chamber 11 by the opening 9*, closedby the valve 9. The valve 3 is mounted upon the rocking shaft 17, which protrudes through the Wall of the chamber 2 and is packed or made water-tight therein by a rubber sleeve,
fully described in Patent No. 479,411. Surrounding the throat 5 is a valve-seat 4, made, preferably, of rubber. The chamber 6 has rigid walls, but has an open top, which is closed by a cover 13, which rests upon a gasket surrounding the opening. The cover is held in placeupon the gasket by a screw '14, passing through a yoke 15. 7 is the discharge-pipe,connected to thedischarge-chamber 6 and carrying off the water drawn into said chamber'through the throat 5. In Pat out No. 479,411 the top and bottom of the chamber 6 were made of elastic or resilient metal and were kept separated by means of a spiral spring placed between them. The function of the resilient chamber was to prevent the tendency to break the vacuum by the sudden discharge of the water inv said chamber into the discharge-pipe during the instant when the clack-valve was closed and to avoid the formation of an excessive vacuum at the moment when the valve controlling the passage from the suction-chamber to the discharge-chamber is to be opened. Such excessive vacuum would tend to prevent the proper operation of the device by preventing the opening of said valve at the proper time. Under atmospheric pressure from the exterior the resilient walls were pressed inward to take up the space left by the receding water. This apparatus, while satisfactory in some respects, is not quite so sensitive as is desirable for the perfect work ing of my apparatus. I have therefore substituted for the resilient walls an elastic bag 8, preferably of rubber, containing air or other gas, which is placed within the chamber 6 and surrounded by water. This bag is partially collapsed at atmospheric pressure. The natural expansion of the air under relief of atmospheric pressure will very quickly and positively take the place of the receding water in the chamber 6 and with equal sensitiveness and quickness yield to compression when the clack-valve is opened and water again flows into the chamber. 9 is apuppet-valve which closes the communicating passage-way between the suction-chamber 2 and the superelevation chamber 11. The valve 9 is mounted upon astem and maintained by a yoke 10, secured to the interior of the chamber 11. This valve is seated on a valve-seat which surrounds the aperture 9. It is forced upward and opened by the momentum of the water flowing up the suction-pipe and into the chamber 2 when clack-valve 3 is closed. 12 is a discharge-pipe in the side of the chamber 11. the chamber 11, by which the apparatus may be converted intoasuperelevation device.
Referring to Fig. 2, the parts are there shown and numbered as before mentioned. The chamber 11, however, is removed in Fig. 2, showing its seat and the interior of the chamber 2. 17 is the rock-shaft upon which the clack-valve 3 is mounted. 18 is an arm secured to said rock-shaft, and 19 a weight by which it is balanced. 20 20 are springbuifers which limit the motion of the arm 18 and control the throw of the clack-valve 3. These may be adjusted by suitable nuts to give the valve any desired play.
Referring to Fig. 3, the chamber 11 is there shown in vertical section, the front wall of the chamber 2 having been removed, and the face against which said wall is ordinarily screwed is shown. This figure shows the throat 5 from chamber 2 into chamber 6 and the valve-seat 4, also the rock-shaft 17 upon which the valve 3 is mounted.
Fig. 4 is a plan view of the top of the chamber 11, looking down into it. The top surface of the seat upon which the chamber 11 rests on the top of chamber 2 is shown in dotted lines.
Fig. 5 shows the same structure as that shown in Fig. 1, except that a dome 22 has been added to the top of the chamber 11 and a superelevation pipe 28 is connected to the discharge-pipe 12 of the chamber 11. Experiment demonstrated that the water which was driven through the puppet-valve 9 by the momentum of the rising column in the sucachievement.
23 is a cover secured to the top of thirty meters.
Fig. 6 isa diagram showing an application of my invention by which a continual flowing stream of water can be automatically maintained on the surface of ground which is level. This in itself I believe to be a new I do not know of any apparatus which will accomplish this result, and I do not believe that any apparatus has ever heretofore been devised by which a continuously-flowing stream of water can be maintained in level country by an automaticallyoperated apparatus. I accomplish this result by a simple application of my invention to natural conditions. In many parts of the world water strata are found at varying levels beneath the surface of the ground. In many places a copious stratum is found at a depth .oftwenty or thirty feet, and below this an impervious bed of clay or other similar material,
and below that, some thirty or forty feet farther down, another water stratum. Wherever these conditions exist, my invention may be applied. A well is sunk into the first wa ter stratum either in the usual Way or by driving a pipe into the ground until the stratum is struck and then a second well is drilled until the second water stratum is struck. These two pipes are connected at their upper ends on the surface of the ground so as to form the siphon, and it will be readily seen that when the siphon is started water may be drawn from the shallow stratum into the deep one and will continuously flow.
By mounting my apparatus upon the crown of the siphon about forty per cent. of the water raised from the shallow stratum or well may be delivered at the crown of the siphon above the surface of the ground, the balance of the water flowing down the longer leg of the siphon and into the deep-water stratum.
What I claim, and desire to secure by Letters Patent, is-
1. In a siphon device for elevating water, the combination of a suction-pipe and a discharge-pipe, with a suction-chamber and a discharge-chamber into which the two pipes enter, said chambers being separated by a valve, the discharge-chamber containing an elastic sack filled with air or other gas.
2. In a water-siphon apparatus, the combination of a suction-pipe and a discharge-pipe with two chambers located between their upper extremities, the suction-pipe emptying into one and the discharging-pipe emptying the other, said chambers being separated by vation-chamber being provided with a supera valve, the discharge-chamber containing an elevation discharge-pipe.
elastic sack filled with air or other gas, with Signed at Paris, France, this 1st day of a third superelevation chamber which is March, A. D. 1895.
closed and connected with the suction-cham- J ULES LEMIOHEL. her by means of a valve, said valve adapted to be opened by the momentum of water flowing into the suction-chamber, the superele- Witnesses:
CLYDE SHROPSHIRE, D. T. S. FULLER.
US251095A 1895-10-03 1895-10-03 Siphon-elevator. Expired - Lifetime US645528A (en)

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