US566625A - savorg-nan - Google Patents
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- US566625A US566625A US566625DA US566625A US 566625 A US566625 A US 566625A US 566625D A US566625D A US 566625DA US 566625 A US566625 A US 566625A
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 58
- 238000005192 partition Methods 0.000 description 10
- 238000010276 construction Methods 0.000 description 6
- 230000004048 modification Effects 0.000 description 6
- 238000006011 modification reaction Methods 0.000 description 6
- 235000006696 Catha edulis Nutrition 0.000 description 2
- 240000007681 Catha edulis Species 0.000 description 2
- 101700045840 ECT Proteins 0.000 description 2
- 101700078171 KNTC1 Proteins 0.000 description 2
- 241000495102 Maize mosaic nucleorhabdovirus Species 0.000 description 2
- 230000000875 corresponding Effects 0.000 description 2
- 230000003028 elevating Effects 0.000 description 2
- 239000007788 liquid Substances 0.000 description 2
- 239000000314 lubricant Substances 0.000 description 2
- 230000002035 prolonged Effects 0.000 description 2
- 230000036633 rest Effects 0.000 description 2
- 230000000284 resting Effects 0.000 description 2
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04F—PUMPING OF FLUID BY DIRECT CONTACT OF ANOTHER FLUID OR BY USING INERTIA OF FLUID TO BE PUMPED; SIPHONS
- F04F1/00—Pumps using positively or negatively pressurised fluid medium acting directly on the liquid to be pumped
- F04F1/06—Pumps using positively or negatively pressurised fluid medium acting directly on the liquid to be pumped the fluid medium acting on the surface of the liquid to be pumped
- F04F1/10—Pumps using positively or negatively pressurised fluid medium acting directly on the liquid to be pumped the fluid medium acting on the surface of the liquid to be pumped of multiple type, e.g. with two or more units in parallel
- F04F1/12—Pumps using positively or negatively pressurised fluid medium acting directly on the liquid to be pumped the fluid medium acting on the surface of the liquid to be pumped of multiple type, e.g. with two or more units in parallel in series
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S119/00—Animal husbandry
- Y10S119/01—Milk digest
Definitions
- the object of my invention is to construct a simple and effective device for elevating water and other liquids in large quantities by an air-pressure, the apparatus being particularly designed for use in mines and deep wells where ordinary pumps are objectionable or of little practical value.
- My invention consists in one or more vacuum-chambers provided with valves and valveoperating mechanism and in a pump for al tern ately exhausting the air and removing the water from the vacuum-chambers.
- Figure 1 is a vertical transverse section of my improved water-elevator.
- Fig. 2 is a vertical transverse section of the air and water pump used in the water-elevator.
- Fig. 3 shows a modified form of the elevator.
- Fig. 4: is a plan view of the valve and valve mechanism.
- Fig. 5 shows both valves in a closed position.
- Fig. 6 shows the vacuum valve open.
- Fig. 7 is a detail view of the vacuumvalve.
- Fig. 8 is a detail view of the air-inlet valve, and
- Fig. 9 is a vertical section of another modification.
- the vacuum-chamber A which is preferably of cylindrical form, is made in two diameters, the end portions a I) being smaller in diameter than the middle portion 0.
- the lower part of the vacuum-chamber is provided with a recess (1, having openings 6 f, a valve 9 being provided for closing the opening 9.
- a pipe 13 connects the opening 8 of each vacuumchamber with the opening f of the vacuumchamber next below it, with the exception of the lower vacuum chamber of the series,
- the upper end of the vacuum-chamber A is furnished with a side extension it, having a downwardly-proj ectin g transverse partition 6, forming an air-lockj.
- the top of the side extension h is provided with an opening it, with which is connected the suction-pipe O, and a valve Z is provided which is capable of closing the opening 70.
- the valve 1 is carried by an offset arm m, which projects from and is pivoted to the rod D and extends downwardly under the partition t' and upwardly through a guide projecting from the wall of the extension h.
- the rod D extends through fixed guides in the chamber A and carries a valve 1), whose arm is pivoted to the said rod D and which is capable of closing the opening 0.
- a float E On the rod D is placed a float E, provided with a central opening for receiving the rod, and the said rod D is provided with a short laterally-projecting arm q near its lower end.
- the connections of the valves and valverod will be more fully explained in connection with Figs. 3 to 8, inclusive.
- the pump F connected with the apparatus, comprises a cylinder 4, a piston s, and rod 25, attached thereto, the water-suction valve to and water-discharge valve 20, the air-suction valve 1-, and the air-discharge valve 11.
- the water-suction pipe B communicates with the water-suction valve u
- the air-suction pipe C communicates with the air-suction valve o.
- the water may be discharged through the pipe B (shown in broken lines) when it is not desirable to carry it to the pump F.
- the piston s is moved upwardly, the air is exhausted from the pipe 0 and the lower vacuum-chamber will be filled with water.
- the float E will lift the rod 0, lifting the valves Z and 1), thus closing the opening and establishing communication between the interior of the vacuum-chamber and the external air.
- a vacuum will be formed in the pipe 0 and the vacuum-chambers.
- the water contained by the lower vacuum-chamber will be drawn into the next vacuum-chamber above.
- the water contained in the second chamber from the bottom will be transferred to the third, and the lower one will be filled with water, while the second one remains empty. In this manner the vacu rim-chambers will be alternately filled and emptied until the upper portion of the pump-cylinder receives water from the upper chamber, when the water will be discharged by the pump.
- the float-rod D is provided at its upper end with a double bearing G for the bent valve-levers a b.
- the lever a carries the vacuum-valve Z, and the lever Z) carries the air-valve p.
- the rod D carries a finger c, on which rests the lever Z1 while the valve 1) is being opened and after it is open.
- the rod D also carries a finger d, which engages the lever a as the said rod is made to descend by the weight of the float E.
- the lever a is prolonged beyond its pivot and carries a counterweight e, which tends to hold the valve Z in an elevated position.
- valves Z 19 have convex faces, which are seated in concave valve-seats, so as to admit of a certain amount of movement of the valve-levers while the valves are closed. Then the float E rises,the finger 0 opens the valve 13. When it descends and strikes the arm qat the lower end of the rod D, the valve 29 is closed and the valve Z is opened. On the return of the float to the top of the chamber the valve Z is first closed. Afterward the further movement of the float opens the valve 19. By this construction air is prevented from passing the valve 19 and entering the pipe 0. In other respects the construction and operation are the same as described in connection with Fig. 1.
- the vacuum-chamber A is provided with an upper compartment a which is divided by a transverse partition Z1
- valve-openings c 63 In the bottom of the compartment a on opposite sides of the partition b are formed valve-openings c 63, to which are fitted valves (Z (Z the said valves being attached to the forked end of a rod D the lower end of the said rod being inserted in the guide 6
- the rod D is provided with pins f f and on the said rod, between the pins, is placed a centrally-apertured float E
- a valve-opening c Upon the opposite side of the vacuumchamber A, in the top of the chamber, is formed a valve-opening c, and to the valveopening is fitted a valve (Z The said valve (Z receives the upper end of the rod D the lower end of which is received by the guide e at the bottom of the chamber.
- the part of the rod D extending through the valve d is reduced in diameter, and between the under surface of the valve and a shoulder formed on the rod is placed a spiral spring 9 and upon the threaded upper end of the rod is placed a wing-nut, by means of which the valve is adjusted on the rod.
- the rod D is provided with pins f f between which on the rod is placed the centrally-apertured fioat E
- the floats E E fit loosely their respective rods and are connected by a lever F, which is pivoted at its center to a slide 7L2, fitted to the guide-rods '6 supported in the vacuum-chamber A.
- a lever 7' pivotally connected with the rod D at one end and provided with a weight at the opposite end for counterbalancing the rod and valve attached thereto.
- a single vacuum-chamber may be used, I prefer'to use several such vacuum-chambers containing mechanism as described and arranged in series, connecting them up in the manner illustrated in the drawings, that is to say, the lower compartment a is provided with a suction-pipe G which extends downwardly into the water.
- the bottom of the vacuum-chamber is connected by a pipe C with the compartment a of the next vacuum-chamber, and the bottom of the second chamber is connected with the compartment a of the third, and so on.
- the pipes leading from the bottom of the vacuumchamber are provided with check-valves a and the upper end of the pipe extending from the bottom of the upper vacuum-chamber is connected with the top of a pump-cylinder F, as shown in Fig. 2.
- the pipes O 0 enter the compartments a on the side of the partition b at which is located the valve-opening a
- An air-pipe B is connected with the top of each compartment a at a point above the valve-opening 0 the said pipe B being connected with the lower end of the pump F, as indicated in Fig. 2.
- This form of apparatus can be operated by means of compressed air when provided with a compressed-air pipe communicating with the valve-opening c", as indicated in dotted lines in the upper portion of Fig. 9.
- the floats E E are arranged to move freely up and down upon the rods D D WVhen the floats are down, resting on the pins f f the valves (Z and (Z are open and the valve d is closed.
- a vacuum is formed in the pipe 13, the air is exhausted from all of the vacuumchambers A. Water is drawn through the pipe 0 into the compartment (0 of the lower vacuum-chamber and falls through the valveopening 0 into the chamber, while the air continues to pass out of the valve-opening 0 As the water rises in the lower vacuum-chamber the floats E E are carried upwardly until the valves d d are closed and the valve (Z is opened.
- valves cZ (Z are closed and the valve 0Z is opened there is a balance of pressure in the upper portion of the lower vacuum-chamber, so that water cannot rise in the pipe 0, but as soon as the valve CZ has been opened air enters the upperpart of the vacuum-chamber A and forces CIA the water contained by the chamber through the pipe G into the compartment a of the second vacuum-chamber, when the filling of this chamber takes place in the manner already described in connection with the lower vacuum-chamber. hen the water has been transferred to the second vacuum-chamber, the valves (Z d of that chamber are closed and the valve (1 is opened, admitting air to the chamber, and the water then ascends through the pipe Ciconnected with that chamber, to the third chamber.
- valves d are again opened, and the valve d is closed by the action of the floats, when water again enters the lower vacuum-chamber, and what has been described is repeated with all the chambers in the series in rotation, the pipe 0 0f the upper chamber being connected with the upper portion of the pump, as pre viously described in connection with Fig. 1.
- the pin f projecting from the rod D is lower than the pin f projecting from the rod 1), and the pin f projecting from the rod D is higher than the pin f connected with the rod D so that the floats in their upward movement first close the valves d d and then open the valve 01*, while as they descend the valve d is first closed, and then the valves (1 d are opened.
- the compartment a contains a small reserve of water, which serves to equalize the action of the several vacuum-chambers, and causes them to work in proper time by supplying a quantity of water which may enter through the valve-opening c as soon as the valve (1 is open, thus furnishing enough water to cover the mouth of the pipe 0 and supply any deficiency in the water supply received by the vacuum-cl1amber, which deficiency may result from air in the vacuunrchamber or from a difference in the capacity of the vacuumchambers. It will be observed that the water last received by the compartment ct is re tained until the float descends and closes the valve (1" and opens the valve d at the bottom of the compartment of. To prevent the return of air from the pipe B to any of the compartments a a check-valve (1, is inserted in each branch of the said pipe.
- a vacuum-chamber provided with a portion of reduced diameter at the end, a float adapted to fill the reduced end portion of the chamber, separate and independent air and vacuum valves operated by the float, and connections for causing one valve to operate before the other, substantially as specified.
- the combination with a vacuum-chamber provided with air and vacuum valves, of a fioat and float connections constructed to move one valve before moving the other valve, substantially as specified.
- the combination with a series of vacuum-chambers containing floats and provided with separate and independent float operated vacuum and air valves, of a series of pipes connecting the bottom of one vacuum-chamber with the top of the adjoining vacuum-chamber, and an exhaust-pipe connected with the tops of all of the vacuumchambers in the series, substantially as specified.
- a water-elevator the combination with a series of vacuum-chambers, provided with water-receiving reservoirs in the upper portions thereof, of separate and independent float-operated vacuum and air valves, and a series of pipes connecting the bottom of one vacuum-chamber with the top of the next vacuum-chamber above, and an exhaust-pipe connected with the tops of all of the vacuumchambers in the series, substantially as specified,
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Description
(No Model.)
D. DI B. SAVORGN'AN.
'8 Sheets-Sheet 1.
WATER ELEVATOR.
WITNESSES.
Patented Aug. 25, 1896.
a d Mu/M4 6 7 A 7'TOHNEYS,
\ 6 3 811 t -Sh t 8. D. m B. SAVORGNAN. a
WATER ELEVATOR.
No. 566,625. Patented Aug. 25, 1896.
WITNESSES: INVENTOI? W m KW/ 7m WW MMV K ATTORNEYS.
mr, mums PETERS co, Pnp'rauwu. mswmcn ou, o. c
(No Model.)
7 v3 Sheets-Sheet 3. D. DI B. SAVORGNAN.
WATER ELEVATOR.
Patented Aug. 25, 1896.
UNITED STATES PATENT OFFICE.
DETALMO DI BRAZZA SAVORGNAN, OF ROME, ITALY, ASSIGNOR TO OORA ANN SLOOOMB DI BRAZZA SAVORGNAN, OF MORUZZO, ITALY, AND
NIDV YORK, N. Y.
WATER-ELEVATO R.
SPECIFICATION forming part of Letters Patent No. 566,625, dated August 25, 1896.
Application filed December 5, 1894. Renewed February 5, 1896- Serial No. 578.170, (N model.)
To aZZ whom it may concern.-
Be it known that I, DETALMO n1 BRAZZA SAVORGNAN, of Rome, Italy, have invented a new and Improved ater-Elevator, of which the following is a full, clear, and exact description.
The object of my invention is to construct a simple and effective device for elevating water and other liquids in large quantities by an air-pressure, the apparatus being particularly designed for use in mines and deep wells where ordinary pumps are objectionable or of little practical value.
My invention consists in one or more vacuum-chambers provided with valves and valveoperating mechanism and in a pump for al tern ately exhausting the air and removing the water from the vacuum-chambers.
It also consists in the construction of the vacuum-chamber, whereby the quick opening of the vacuum and air valves is secured, all as will be hereinafter more fully described.
Reference is to be had to the accompanying drawings, forming a part of this specification, in which similar letters of reference indicate corresponding parts in all the views.
Figure 1 is a vertical transverse section of my improved water-elevator. Fig. 2 is a vertical transverse section of the air and water pump used in the water-elevator. Fig. 3 shows a modified form of the elevator. Fig. 4: is a plan view of the valve and valve mechanism. Fig. 5 shows both valves in a closed position. Fig. 6 shows the vacuum valve open. Fig. 7 is a detail view of the vacuumvalve. Fig. 8 is a detail view of the air-inlet valve, and Fig. 9 is a vertical section of another modification.
In the form shown in Figs. 1 and 2 the vacuum-chamber A, which is preferably of cylindrical form, is made in two diameters, the end portions a I) being smaller in diameter than the middle portion 0. The lower part of the vacuum-chamber is provided with a recess (1, having openings 6 f, a valve 9 being provided for closing the opening 9. A pipe 13 connects the opening 8 of each vacuumchamber with the opening f of the vacuumchamber next below it, with the exception of the lower vacuum chamber of the series,
where the pipe B, connected with the openin g e, forms the suction-pipe.
The upper end of the vacuum-chamber A is furnished with a side extension it, having a downwardly-proj ectin g transverse partition 6, forming an air-lockj. The top of the side extension h is provided with an opening it, with which is connected the suction-pipe O, and a valve Z is provided which is capable of closing the opening 70. The valve 1 is carried by an offset arm m, which projects from and is pivoted to the rod D and extends downwardly under the partition t' and upwardly through a guide projecting from the wall of the extension h. The rod D extends through fixed guides in the chamber A and carries a valve 1), whose arm is pivoted to the said rod D and which is capable of closing the opening 0. On the rod D is placed a float E, provided with a central opening for receiving the rod, and the said rod D is provided with a short laterally-projecting arm q near its lower end. The connections of the valves and valverod will be more fully explained in connection with Figs. 3 to 8, inclusive.
The pump F, connected with the apparatus, comprises a cylinder 4, a piston s, and rod 25, attached thereto, the water-suction valve to and water-discharge valve 20, the air-suction valve 1-, and the air-discharge valve 11. The water-suction pipe B communicates with the water-suction valve u, and the air-suction pipe C communicates with the air-suction valve o.
In the upper pipe B is placed a foot-valve n in some cases, and the water may be discharged through the pipe B (shown in broken lines) when it is not desirable to carry it to the pump F.
iVhen the piston s is moved upwardly, the air is exhausted from the pipe 0 and the lower vacuum-chamber will be filled with water. The float E will lift the rod 0, lifting the valves Z and 1), thus closing the opening and establishing communication between the interior of the vacuum-chamber and the external air. On the upward movement of the piston a vacuum will be formed in the pipe 0 and the vacuum-chambers. The water contained by the lower vacuum-chamber will be drawn into the next vacuum-chamber above. On the downward movement of the piston s the water contained in the second chamber from the bottom will be transferred to the third, and the lower one will be filled with water, while the second one remains empty. In this manner the vacu rim-chambers will be alternately filled and emptied until the upper portion of the pump-cylinder receives water from the upper chamber, when the water will be discharged by the pump.
The contraction of the chamber A at its upper and lower ends causes the float E to move quickly at the upper and lower portions of its travel, thus opening the valves quickly and insuring prompt action.
In the modification shown in Figs. 3 to 8, inclusive, the float-rod D is provided at its upper end with a double bearing G for the bent valve-levers a b. The lever a carries the vacuum-valve Z, and the lever Z) carries the air-valve p. The rod D carries a finger c, on which rests the lever Z1 while the valve 1) is being opened and after it is open. The rod D also carries a finger d, which engages the lever a as the said rod is made to descend by the weight of the float E. The lever a is prolonged beyond its pivot and carries a counterweight e, which tends to hold the valve Z in an elevated position. The valves Z 19 have convex faces, which are seated in concave valve-seats, so as to admit of a certain amount of movement of the valve-levers while the valves are closed. Then the float E rises,the finger 0 opens the valve 13. When it descends and strikes the arm qat the lower end of the rod D, the valve 29 is closed and the valve Z is opened. On the return of the float to the top of the chamber the valve Z is first closed. Afterward the further movement of the float opens the valve 19. By this construction air is prevented from passing the valve 19 and entering the pipe 0. In other respects the construction and operation are the same as described in connection with Fig. 1.
In the modification shown in Fig. 9 the vacuum-chamber A is provided with an upper compartment a which is divided by a transverse partition Z1 In the bottom of the compartment a on opposite sides of the partition b are formed valve-openings c 63, to which are fitted valves (Z (Z the said valves being attached to the forked end of a rod D the lower end of the said rod being inserted in the guide 6 The rod D is provided with pins f f and on the said rod, between the pins, is placed a centrally-apertured float E Upon the opposite side of the vacuumchamber A, in the top of the chamber, is formed a valve-opening c, and to the valveopening is fitted a valve (Z The said valve (Z receives the upper end of the rod D the lower end of which is received by the guide e at the bottom of the chamber. The part of the rod D extending through the valve d is reduced in diameter, and between the under surface of the valve and a shoulder formed on the rod is placed a spiral spring 9 and upon the threaded upper end of the rod is placed a wing-nut, by means of which the valve is adjusted on the rod. The rod D is provided with pins f f between which on the rod is placed the centrally-apertured fioat E The floats E E fit loosely their respective rods and are connected by a lever F, which is pivoted at its center to a slide 7L2, fitted to the guide-rods '6 supported in the vacuum-chamber A. On a fixed support in the casing is fulcrumed a lever 7' pivotally connected with the rod D at one end and provided with a weight at the opposite end for counterbalancing the rod and valve attached thereto. Although a single vacuum-chamber may be used, I prefer'to use several such vacuum-chambers containing mechanism as described and arranged in series, connecting them up in the manner illustrated in the drawings, that is to say, the lower compartment a is provided with a suction-pipe G which extends downwardly into the water. The bottom of the vacuum-chamber is connected by a pipe C with the compartment a of the next vacuum-chamber, and the bottom of the second chamber is connected with the compartment a of the third, and so on. The pipes leading from the bottom of the vacuumchamber are provided with check-valves a and the upper end of the pipe extending from the bottom of the upper vacuum-chamber is connected with the top of a pump-cylinder F, as shown in Fig. 2. The pipes O 0 enter the compartments a on the side of the partition b at which is located the valve-opening a An air-pipe B is connected with the top of each compartment a at a point above the valve-opening 0 the said pipe B being connected with the lower end of the pump F, as indicated in Fig. 2. This form of apparatus can be operated by means of compressed air when provided with a compressed-air pipe communicating with the valve-opening c", as indicated in dotted lines in the upper portion of Fig. 9. The floats E E are arranged to move freely up and down upon the rods D D WVhen the floats are down, resting on the pins f f the valves (Z and (Z are open and the valve d is closed.
\Vhen a vacuum is formed in the pipe 13, the air is exhausted from all of the vacuumchambers A. Water is drawn through the pipe 0 into the compartment (0 of the lower vacuum-chamber and falls through the valveopening 0 into the chamber, while the air continues to pass out of the valve-opening 0 As the water rises in the lower vacuum-chamber the floats E E are carried upwardly until the valves d d are closed and the valve (Z is opened. Before the valves cZ (Z are closed and the valve 0Z is opened there is a balance of pressure in the upper portion of the lower vacuum-chamber, so that water cannot rise in the pipe 0, but as soon as the valve CZ has been opened air enters the upperpart of the vacuum-chamber A and forces CIA the water contained by the chamber through the pipe G into the compartment a of the second vacuum-chamber, when the filling of this chamber takes place in the manner already described in connection with the lower vacuum-chamber. hen the water has been transferred to the second vacuum-chamber, the valves (Z d of that chamber are closed and the valve (1 is opened, admitting air to the chamber, and the water then ascends through the pipe Ciconnected with that chamber, to the third chamber. When the lower chamber has been emptied of water, the valves d are again opened, and the valve d is closed by the action of the floats, when water again enters the lower vacuum-chamber, and what has been described is repeated with all the chambers in the series in rotation, the pipe 0 0f the upper chamber being connected with the upper portion of the pump, as pre viously described in connection with Fig. 1. It will be observed that the pin f projecting from the rod D is lower than the pin f projecting from the rod 1), and the pin f projecting from the rod D is higher than the pin f connected with the rod D so that the floats in their upward movement first close the valves d d and then open the valve 01*, while as they descend the valve d is first closed, and then the valves (1 d are opened. The compartment a contains a small reserve of water, which serves to equalize the action of the several vacuum-chambers, and causes them to work in proper time by supplying a quantity of water which may enter through the valve-opening c as soon as the valve (1 is open, thus furnishing enough water to cover the mouth of the pipe 0 and supply any deficiency in the water supply received by the vacuum-cl1amber, which deficiency may result from air in the vacuunrchamber or from a difference in the capacity of the vacuumchambers. It will be observed that the water last received by the compartment ct is re tained until the float descends and closes the valve (1" and opens the valve d at the bottom of the compartment of. To prevent the return of air from the pipe B to any of the compartments a a check-valve (1, is inserted in each branch of the said pipe.
It is obvious that the pump for operating the vacuum-chambers may be placed in any convenient locality without reference to the level or position of the vacuum-chambers Having thus described my invention, I claim as new and desire to secure by Letters Patent 1. In a water-elevator, a vacuum-chamber provided with a portion of reduced diameter at the end, a float adapted to fill the reduced end portion of the chamber, separate and independent air and vacuum valves operated by the float, and connections for causing one valve to operate before the other, substantially as specified.
2. In a water-elevator, the combination, with a vacuum-chamber provided with air and vacuum valves, of a fioat and float connections constructed to move one valve before moving the other valve, substantially as specified.
3. In a water-elevator, the combination, with a series of vacuum-chambers containing floats and provided with separate and independent float operated vacuum and air valves, of a series of pipes connecting the bottom of one vacuum-chamber with the top of the adjoining vacuum-chamber, and an exhaust-pipe connected with the tops of all of the vacuumchambers in the series, substantially as specified.
a. The combination, with a series of vacuum-chambers and pipes connected there with, of a double-acting pump connected at one end with the water-suction pipe, and connected at the opposite end with the vacuum pipe and adapted to receive water from the vacuum-chambers on one side of the piston, and air from the vacuum-chambers on the other side of the piston, the water contained by the pump-cylinder forming a lubricant and packing for the piston substantially as specified.
5. In a water-elevator, the combination with a series of vacuum-chambers, provided with water-receiving reservoirs in the upper portions thereof, of separate and independent float-operated vacuum and air valves, and a series of pipes connecting the bottom of one vacuum-chamber with the top of the next vacuum-chamber above, and an exhaust-pipe connected with the tops of all of the vacuumchambers in the series, substantially as specified,
Dli'lALiilO DI BRAZZA SAVORGNAN.
Witnesses GEO. M. HOPKINS, O. SEnewIcK.
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US566625A true US566625A (en) | 1896-08-25 |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2433408A (en) * | 1946-08-30 | 1947-12-30 | George R Tollefsen | Sludge pumping apparatus |
US2733667A (en) * | 1956-02-07 | Breather pump for cleansing and sterilizing milking lines | ||
US2749847A (en) * | 1951-05-03 | 1956-06-12 | Gen Electric | Apparatus for coating tubular fluorescent lamps |
US2829657A (en) * | 1953-10-09 | 1958-04-08 | Lloyd F Bender | Dairy equipment cleaner |
US2889846A (en) * | 1957-03-26 | 1959-06-09 | J P Glasby Mfg Co Inc | Apparatus for moving fluid material by suction and collecting the same |
US3008450A (en) * | 1958-04-17 | 1961-11-14 | Werner Machinery Company | Vacuum operating mechanism for a pumping and releasing system |
-
0
- US US566625D patent/US566625A/en not_active Expired - Lifetime
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2733667A (en) * | 1956-02-07 | Breather pump for cleansing and sterilizing milking lines | ||
US2433408A (en) * | 1946-08-30 | 1947-12-30 | George R Tollefsen | Sludge pumping apparatus |
US2749847A (en) * | 1951-05-03 | 1956-06-12 | Gen Electric | Apparatus for coating tubular fluorescent lamps |
US2829657A (en) * | 1953-10-09 | 1958-04-08 | Lloyd F Bender | Dairy equipment cleaner |
US2889846A (en) * | 1957-03-26 | 1959-06-09 | J P Glasby Mfg Co Inc | Apparatus for moving fluid material by suction and collecting the same |
US3008450A (en) * | 1958-04-17 | 1961-11-14 | Werner Machinery Company | Vacuum operating mechanism for a pumping and releasing system |
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