US2497179A - Pump - Google Patents
Pump Download PDFInfo
- Publication number
- US2497179A US2497179A US862048A US2497179A US 2497179 A US2497179 A US 2497179A US 862048 A US862048 A US 862048A US 2497179 A US2497179 A US 2497179A
- Authority
- US
- United States
- Prior art keywords
- pump
- well
- water
- pressure
- shaft
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D13/00—Pumping installations or systems
- F04D13/16—Pumping installations or systems with storage reservoirs
-
- 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
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T137/00—Fluid handling
- Y10T137/5327—Hydrant type
- Y10T137/5497—Protection against freezing
Definitions
- My invention relates to pumps and more particularly to a non-freezing automatic electrically driven centrifugal water pump and supply system.
- pumps were either located outside to freeze in cold weather or it has been necessary to locate them in non-freezing places such as a waterproof pit protected against freezing from outside cold weather; in cellars or basements, or to provide a heated building to house same.
- An object of the invention is to provide a water supply system having an electrically driven centrifugal water pump, a pressure storage tank receiving the water raised and delivered under pressure by the pump through the suction pipe extending down into the water in the well and having a discharge pipe leading to the tank for storing and placing water therein under pressure to lift the water to various outlets or faucets and to distant points as needed, and toa hydrant at the well, said parts extending down into the well so that the pump and connections are located below the frost line or low enough so that the water will not freeze therein.
- Another object is to provide a pressure actuated switch in communication with the air pressure in the top of the tank to start an electric motor for driving the pump when the air pressure is low and for stopping the motor and pump when a predetermined high pressure of air pressure in the tank is reached, thus economizing on the use of electrical current, the device being supported bya base resting on the well platform over a manhole therein to permit the pump, tank and connections therebetween to be lowered into the well, and to permit underground connection of the discharge side of the pump to an underground pipe to carry the water to distant points as needed.
- a further object is to provide means to prevent the water from draining back into the pump and well from the tank, hydrant or distributing pipe connected to the pump discharge; to control the discharge into and from the hydrant by means positioned near the bottom of the hydrant adjacent the connection thereof to the pump discharge but operable near the top or spout of the hydrant, and means to prevent water from standing and freezing in the hydrant in cold weather by permitting such water to-drain back into the well.
- a still further object is to provide an air valve connection between the compressed air space at the top of the tank and the suction pipe or suction side of the pump or impeller housing to provide and maintain air pressure in the tank.
- Figure l is a. side elevation of the water supply system and pump constituting my invention
- Figure 2 is an enlarged vertical sectional elevation of the device as shown in Figure 1,
- Figure 3 is a horizontal section of the pump taken on the line 3-3 of Figure 2;
- Figure 4 is a horizontal section taken on the line 4-4 of Figure 1.
- ill indicates a well platform or cover over a well ll, having a hole l2 for lowering the pump assembly into the well or to lift the pump out for repairs or replacements, and a covered manhole [2a to allow a man to get into the well to connect or disc0nnect underground pipes and repair pump parts, connections or packing glands, to be later explained.
- a base 13 is supported on and secured to the well platform In over the hole H or otherwise, to support the entire weight of the pump including a vertical pipe or tubular housing 14 extending through and slightly above the base l3 and down into the well ll above the water therein.
- Housing ll may be supported or hung in any suitable way, as by a flange or collar i5 thereon and resting on the base IS.
- a ball bearing I6 is secured in or on the upper end of the housing ll to receive a central vertical shaft I! supported for rotation at the bearing l6 as by a collar l8 fixed to the shaft and resting on the rotating part or ring of the bearing I 6 which latter takes care of lateral as well as vertical or end thrust.
- the shaft I! may be driven in any suitable manner, as by a vertical or horizontal motor as is common in the art, but as shown, the upper end of shaft ll bears a V-pulley l9 fixed to the shaft by its hub or collar 20.
- a horizontal type electric motor .2I is supported by its base 22 on the platform l0 and its shaft 23 has a V-pulley 2
- housing I4 carries any suitable number of legs or braces 26 which support the pump 21 comprising a circular impeller housing or casing 28 in which an impeller 29 preferably of bronze fixed to the lower end of shaft ll rotates.
- the pump II' may be of any suitable type, it is shown and described as of the centrifugal type, with the legs 26 secured to the removable topplate ll thereof.
- Shaft il passes through a packing gland 3
- Packing gland 8i may have a felt grease seal to prevent moisture entering the shaft housing and upper bearing it.
- the legs 28 provide large openings to allow easy access to the packing gland II for renewing the packing or adjusting the nut.
- Shaft il may be in two sections, the long upper section being preferably of steel and terminating adJacent the lower end .of the housing I where it is coupled at 32 in any suitable manner to a lower short shaft section 33 which may be of brass or stainless steel below the coupling 32 and through the packing gland to prevent rust from roughing the shaft and leakage.
- the pump casing It has a central nippier It to which a suction pipe 35 is connected to extend down into the water in the well with the usual foot valve or check valve in the suction pipe above the strainer, inlet or nozzle, to maintain the pressure in the system, including pipe 3!, pump 21 and all other parts thereabove and with or without a jet as is customary, depending on the distance from the impeller to the water.
- the impeller 25 is of the well known centrifugal type having a central inlet nipple at extending down into the casing nipple 1
- Outlet 38 has several discharge connections through which water may be diverted as needed, including one or more underground pipes 40 to carry water to distant points as needed, such as to a barn, watering trough or otherwise, and controlled by a valve H at the bottom to cut of! the supply in cold weather or when freezing thereabove is possible, but avoided by draining back into the pump and well when pressure is off, and a valve a at the top above ground where the water is drawn off when freezing is not likely to occur and valve ll is open.
- Outlet 38 is also provided with an upwardly extending branch outlet 42 connected by an offset fltting or nipple 43 to the lower end of a hydrant 4
- a valve seat 4 is provided in the connection of the hydrant M with the fitting at the lower end of the hydrant, with which an upwardly seating valve 41 carried by the lower end of a valve rod ll in the stand pipe of the hydrant ll cooperates.
- the valve rod ll extends through a packing gland l! at the top of the hydrant and is provided with a suitable operating handle or knob I at its upper end between which and the packing gland 4!
- a spring Il may be interposed on the valve rod to normally hold the latter raised and the valve 41 closed against its seat 46, so that water may be drawn from the hydrant when needed.
- a small drain hole I! is provided in the lower end portion of the hydrant M to allow water therein to drain back into the well to prevent freezing thereof in cold weather.
- a pipe connection It extends up from the out- 4 letlltoapressurestoragetanklldlsposed below the frost line in the well and suitably sus pended or supportod and held in place as by means of brackets II to the shaft housing ll. Air is forced into the tank I with .the water and is compressed in the top of the tank to maintain the water under pressure for discharge to the various outlets or faucets.
- An air inlet valve It is provided near the upper end of the tank and is' connected by a tube ll to the suction side of the pump 21 below the impeller ll as at connection or nipple II to provide air as needed in the tank for compression above the water therein.
- an air pressure conduit or tube ll leads from the top of the tank to a pressure actuated switch ll of well known type, the pressure in which is indicated by a gage II.
- the switch it is connected by conductor wires ti and l! to the motor 2i and when the pressure is low and the water supply short, I
- the switch 5! is closed to-close the supply circuit to the motor to start and cause operation thereof to drive the pump and replenish the water in the tank and raise the pressure.
- the switch ll may have an operating pressure range as desired, such as to close at a pressure of from 5 to 20 lbs. and to open the circuit at a pressure of 40 lbs. or otherwise, according to the needs of the particular pump or water supply system so as to maintain the desired pressure automatically at all times.
- the electrical connections are simple and all above the well platform II and all pump parts that contain and maintain water therein are below the frost line in the well with all parts therein conveniently accessible for repair or replacement after easy installation.
- any desired number of connections may be provided at the discharge side of the pump through which the water may be diverted to a house or other points as needed.
- the connections When the connections are closed such as represented by the hydrant valve 41 and valved pipe ll. the water will be forced up through the pipe 53 to the pressure or storage tank 56 and maintained under the desired pressure controlled by the well known pressure operated switch II which opens and closes the circult to the motor II to stop the motor and pump when the pressure is at a set high and start the motor and drive the pump when the pressure is at a set low according to the pressures or pressure range at which the pressure switch it is 'set to operate. All parts are properly and rigidly supported for operation of the pump without undue strain or vibration.
- a platform over the well having a manhole therein, a base on the platform, an elongated tubular housing depending from said base and extending into the well, a centrifugal pump carried by the lower end of said housing below the frost line in the well and having a suction inlet pipe extending down into the water in the well and a valved outlet, a shaft extending through the housing and iournalled at the upper end thereof.
- said ptunp including a casing and a rotatable impeller therein having a water-tight connection with the lower end of the shaft through the casing, distributing connections leading from the outlet, a vertically disposed cylindrical pressure storage tank communicating with one connection'and supported from said tubular housing below the frost line in the well, a motor for driving the shaft, and means operated by the pressure in the tank to start and stop the motor.
- a platform over the well having a manhole therein, a base on the platform, an elongated tubular housing depending from said base and extending into the well, a centrifugal pump carried by the lower end of said housing below the frost line in the well and having a suction inlet pipe extending down into the water in the well and a valved outlet, a shaft extending through the housing and journalled at the upper end thereof, said pump including a casing and a rotatable impeller therein having a water-tight connection with the lower end of the shaft through the casing, distributing connections leading from the outlet, a vertically disposed cylindrical pressure storage tank communicating with one connection and supported from the housing below the frost line in the well, an electrical motor operatively connected to the upper end of the shaft for driving the latter, and
- a pressure storage tank communicating with one connection and supported from the housing and closely adjacent thereto below the frost line in the well, a motor for driving the shaft, means operated by the pressure in the tank to start and stop the motor, another connection including a hydrant extending up through the platform and base.
- a valve rod extending up through the hydrant and having an upwardly seated valve near the connection of the hydrant to the pum outlet, and means on the upper end of the rod for seating and unseating the valve.
- a platform over the well having a manhole therein, a base on the platform, an elongated tubular housing depending from said base and extending into the well, a centrifugal pump carried by the lower end of said housing below the frost line in the well and having a suction inlet pipe extending down into the water in the well and a valved outlet,- a shaft extending through the housing and journalled at the upper end thereof, said pump including a casing and a rotatable impeller therein having a water-tight connection with the lower end of the shaft through the casing, distributing connections leading from the outlet, a vertically disposed cylindrical pressure storage tank communicating with one connection and disposed adjacent to said housing below the frost line in the well, means'supporting said tank on said housing, an electrical motor operatively connected to the upper end of the shaft for driving the latter, a pressure actuated switch operatively connected to the tank and in circuit with the motor to open and close the circuit to the motor between predetermined high
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Structures Of Non-Positive Displacement Pumps (AREA)
Description
Feb. 14, 1950 E. MEISNER 2,497,179
PUMP
Filed Feb. 16, 1948 2 Sheets-Sheet l LeoEZMk 5572a?" Fg-b. 14, 1950 L. E. MEISNER 2,497,179
PUMP
Filed Feb. 16, 1948 2 Sheets-Sheet 2 M MM 35 fiiya.
Patented Feb. 14, 1950 UNI-TED STATES PATENT ornci:
PUMP
Leo E. Meisner, Raymond, Ill.
Application February 16, 1948, Serial No. 8,620
Claims. 1
My invention relates to pumps and more particularly to a non-freezing automatic electrically driven centrifugal water pump and supply system.
Heretofore, pumps were either located outside to freeze in cold weather or it has been necessary to locate them in non-freezing places such as a waterproof pit protected against freezing from outside cold weather; in cellars or basements, or to provide a heated building to house same.
An object of the invention is to provide a water supply system having an electrically driven centrifugal water pump, a pressure storage tank receiving the water raised and delivered under pressure by the pump through the suction pipe extending down into the water in the well and having a discharge pipe leading to the tank for storing and placing water therein under pressure to lift the water to various outlets or faucets and to distant points as needed, and toa hydrant at the well, said parts extending down into the well so that the pump and connections are located below the frost line or low enough so that the water will not freeze therein.
Another object is to provide a pressure actuated switch in communication with the air pressure in the top of the tank to start an electric motor for driving the pump when the air pressure is low and for stopping the motor and pump when a predetermined high pressure of air pressure in the tank is reached, thus economizing on the use of electrical current, the device being supported bya base resting on the well platform over a manhole therein to permit the pump, tank and connections therebetween to be lowered into the well, and to permit underground connection of the discharge side of the pump to an underground pipe to carry the water to distant points as needed.
A further object is to provide means to prevent the water from draining back into the pump and well from the tank, hydrant or distributing pipe connected to the pump discharge; to control the discharge into and from the hydrant by means positioned near the bottom of the hydrant adjacent the connection thereof to the pump discharge but operable near the top or spout of the hydrant, and means to prevent water from standing and freezing in the hydrant in cold weather by permitting such water to-drain back into the well.
A still further object is to provide an air valve connection between the compressed air space at the top of the tank and the suction pipe or suction side of the pump or impeller housing to provide and maintain air pressure in the tank.
With the above and other objects in view, my invention consists in the arrangement, combination and details of constructiondisclosed in the drawing and specification, and then more particularly pointed out in the appended claims.
In the drawings,
Figure l is a. side elevation of the water supply system and pump constituting my invention,
Figure 2 is an enlarged vertical sectional elevation of the device as shown in Figure 1,
Figure 3 is a horizontal section of the pump taken on the line 3-3 of Figure 2; and
Figure 4 is a horizontal section taken on the line 4-4 of Figure 1.
Referring to the drawings, ill indicates a well platform or cover over a well ll, having a hole l2 for lowering the pump assembly into the well or to lift the pump out for repairs or replacements, and a covered manhole [2a to allow a man to get into the well to connect or disc0nnect underground pipes and repair pump parts, connections or packing glands, to be later explained. A base 13 is supported on and secured to the well platform In over the hole H or otherwise, to support the entire weight of the pump including a vertical pipe or tubular housing 14 extending through and slightly above the base l3 and down into the well ll above the water therein. Housing ll may be supported or hung in any suitable way, as by a flange or collar i5 thereon and resting on the base IS.
A ball bearing I6 is secured in or on the upper end of the housing ll to receive a central vertical shaft I! supported for rotation at the bearing l6 as by a collar l8 fixed to the shaft and resting on the rotating part or ring of the bearing I 6 which latter takes care of lateral as well as vertical or end thrust. The shaft I! may be driven in any suitable manner, as by a vertical or horizontal motor as is common in the art, but as shown, the upper end of shaft ll bears a V-pulley l9 fixed to the shaft by its hub or collar 20. A horizontal type electric motor .2I is supported by its base 22 on the platform l0 and its shaft 23 has a V-pulley 2| fixed thereon and an endless drive-belt 25 is trained around pulleys l9 and 24 to drive shaft l1.
At its lower end, housing I4 carries any suitable number of legs or braces 26 which support the pump 21 comprising a circular impeller housing or casing 28 in which an impeller 29 preferably of bronze fixed to the lower end of shaft ll rotates. While the pump II'may be of any suitable type, it is shown and described as of the centrifugal type, with the legs 26 secured to the removable topplate ll thereof. Shaft il passes through a packing gland 3| at the top plate above the impeller and forming a lower bear ing for the shaft as well as preventing water passing out of the pump at this point. Packing gland 8i may have a felt grease seal to prevent moisture entering the shaft housing and upper bearing it. The legs 28 provide large openings to allow easy access to the packing gland II for renewing the packing or adjusting the nut. Shaft il may be in two sections, the long upper section being preferably of steel and terminating adJacent the lower end .of the housing I where it is coupled at 32 in any suitable manner to a lower short shaft section 33 which may be of brass or stainless steel below the coupling 32 and through the packing gland to prevent rust from roughing the shaft and leakage.
The pump casing It has a central nippier It to which a suction pipe 35 is connected to extend down into the water in the well with the usual foot valve or check valve in the suction pipe above the strainer, inlet or nozzle, to maintain the pressure in the system, including pipe 3!, pump 21 and all other parts thereabove and with or without a jet as is customary, depending on the distance from the impeller to the water. The impeller 25 is of the well known centrifugal type having a central inlet nipple at extending down into the casing nipple 1| with an interposed packing ring 31. Water is raised in the suction pipe 35 by rotation of the impeller 29 and forced out by centrifugal pressure through a reduced radial outlet 3! with or without a small plu pet-cock or check valve 39 in the top of the impeller housing 28 to let air out and to permit back-flow or draining of the water for priming the pump for automatic operation when the pressure drops as will be later explained, or when initially starting the pump and well. Outlet 38 has several discharge connections through which water may be diverted as needed, including one or more underground pipes 40 to carry water to distant points as needed, such as to a barn, watering trough or otherwise, and controlled by a valve H at the bottom to cut of! the supply in cold weather or when freezing thereabove is possible, but avoided by draining back into the pump and well when pressure is off, and a valve a at the top above ground where the water is drawn off when freezing is not likely to occur and valve ll is open.
A pipe connection It extends up from the out- 4 letlltoapressurestoragetanklldlsposed below the frost line in the well and suitably sus pended or supportod and held in place as by means of brackets II to the shaft housing ll. Air is forced into the tank I with .the water and is compressed in the top of the tank to maintain the water under pressure for discharge to the various outlets or faucets.- An air inlet valve It is provided near the upper end of the tank and is' connected by a tube ll to the suction side of the pump 21 below the impeller ll as at connection or nipple II to provide air as needed in the tank for compression above the water therein.
In order to automatically control the operation of the pump 21 to maintain the water supply and air pressure in the tank 84, an air pressure conduit or tube ll leads from the top of the tank to a pressure actuated switch ll of well known type, the pressure in which is indicated by a gage II. The switch it is connected by conductor wires ti and l! to the motor 2i and when the pressure is low and the water supply short, I
the switch 5! is closed to-close the supply circuit to the motor to start and cause operation thereof to drive the pump and replenish the water in the tank and raise the pressure. The switch ll may have an operating pressure range as desired, such as to close at a pressure of from 5 to 20 lbs. and to open the circuit at a pressure of 40 lbs. or otherwise, according to the needs of the particular pump or water supply system so as to maintain the desired pressure automatically at all times. The electrical connections are simple and all above the well platform II and all pump parts that contain and maintain water therein are below the frost line in the well with all parts therein conveniently accessible for repair or replacement after easy installation.
From the foregoing description. it is thought that the operation of the pump will be readily understood, but it may be pointed out that any desired number of connections may be provided at the discharge side of the pump through which the water may be diverted to a house or other points as needed. When the connections are closed such as represented by the hydrant valve 41 and valved pipe ll. the water will be forced up through the pipe 53 to the pressure or storage tank 56 and maintained under the desired pressure controlled by the well known pressure operated switch II which opens and closes the circult to the motor II to stop the motor and pump when the pressure is at a set high and start the motor and drive the pump when the pressure is at a set low according to the pressures or pressure range at which the pressure switch it is 'set to operate. All parts are properly and rigidly supported for operation of the pump without undue strain or vibration.
I do not mean to confine myself to the exact details of construction herein disclosed but claim all variations falling within the purview of the appended claims.
What I claim is:
1. In a water supply system for wells, a platform over the well having a manhole therein, a base on the platform, an elongated tubular housing depending from said base and extending into the well, a centrifugal pump carried by the lower end of said housing below the frost line in the well and having a suction inlet pipe extending down into the water in the well and a valved outlet, a shaft extending through the housing and iournalled at the upper end thereof. said ptunp including a casing and a rotatable impeller therein having a water-tight connection with the lower end of the shaft through the casing, distributing connections leading from the outlet, a vertically disposed cylindrical pressure storage tank communicating with one connection'and supported from said tubular housing below the frost line in the well, a motor for driving the shaft, and means operated by the pressure in the tank to start and stop the motor.
2. In a water supply system for wells, a platform over the well having a manhole therein, a base on the platform, an elongated tubular housing depending from said base and extending into the well, a centrifugal pump carried by the lower end of said housing below the frost line in the well and having a suction inlet pipe extending down into the water in the well and a valved outlet, a shaft extending through the housing and journalled at the upper end thereof, said pump including a casing and a rotatable impeller therein having a water-tight connection with the lower end of the shaft through the casing, distributing connections leading from the outlet, a vertically disposed cylindrical pressure storage tank communicating with one connection and supported from the housing below the frost line in the well, an electrical motor operatively connected to the upper end of the shaft for driving the latter, and
3. In a water.supply system for wells, a plat-.
form over the well having a manhole therein, a base on the platform, an elongated tubular housing depending from said base and extending into the well, a centrifugal pump carried by the lower end of said housing below the frost line in the well and having a suction inlet pipe extending down into the water in the well and a valved outlet, a shaft extending through the housing and Journalled at the upper end thereof, said pump including a casing and a rotatable impeller therein having a vertically disposed cylindrical watertight connection with the lower end of the shaft through the casing. distributing connections leading from the outlet, a pressure storage tank communicating with one connection and supported from the housing and closely adjacent thereto below the frost line in the well, a motor for driving the shaft, means operated by the pressure in the tank to start and stop the motor, another connection including a hydrant extending up through the platform and base. a valve rod extending up through the hydrant and having an upwardly seated valve near the connection of the hydrant to the pum outlet, and means on the upper end of the rod for seating and unseating the valve. 4. In a water supply system for wells. a platform over the wall having a manhole therein, a
base on the platform, an elongated tubular housing depending from said base and extending into the well, a centrifugal pump carried by the lower end of said'housing below the frost line in the municating with one connection and bracket means supported from the housing below the frost line in the well and engaging above said tank, an electrical motor operatively connected to the upper end of the shaft for driving the latter, a pressure actuated switch operatively connected to the tank and in circuit with the motor to open and close the circuit to the motor between predetermined high and low pressures respectively, and air supply means connecting the tank to the suction side of the pump.
5. In a water supply system for wells, a platform over the well having a manhole therein, a base on the platform, an elongated tubular housing depending from said base and extending into the well, a centrifugal pump carried by the lower end of said housing below the frost line in the well and having a suction inlet pipe extending down into the water in the well and a valved outlet,- a shaft extending through the housing and journalled at the upper end thereof, said pump including a casing and a rotatable impeller therein having a water-tight connection with the lower end of the shaft through the casing, distributing connections leading from the outlet, a vertically disposed cylindrical pressure storage tank communicating with one connection and disposed adjacent to said housing below the frost line in the well, means'supporting said tank on said housing, an electrical motor operatively connected to the upper end of the shaft for driving the latter, a pressure actuated switch operatively connected to the tank and in circuit with the motor to open and close the circuit to the motor between predetermined high and low pressures respectively, an air inlet valve connected to the tank near the top and a tube connecting the latter valve to the suction pipe.
" LEO E. MJEISNER.
REFERENCES The following references are of record in the file of this ifpatent:
m rrnn s'rs'ras PATENTS
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US862048 US2497179A (en) | 1948-02-16 | 1948-02-16 | Pump |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US862048 US2497179A (en) | 1948-02-16 | 1948-02-16 | Pump |
Publications (1)
Publication Number | Publication Date |
---|---|
US2497179A true US2497179A (en) | 1950-02-14 |
Family
ID=21732652
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US862048 Expired - Lifetime US2497179A (en) | 1948-02-16 | 1948-02-16 | Pump |
Country Status (1)
Country | Link |
---|---|
US (1) | US2497179A (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2714354A (en) * | 1952-09-08 | 1955-08-02 | Orrin E Farrand | Pump |
US2829597A (en) * | 1953-06-03 | 1958-04-08 | Red Jacket Mfg Co | Well pumping system |
US2877849A (en) * | 1957-06-17 | 1959-03-17 | Morrison Company | Well system |
US3094073A (en) * | 1958-09-10 | 1963-06-18 | Duplex Mfg Company | Pump control pressure switch with automatic air supply system |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US381808A (en) * | 1888-04-24 | peters | ||
US617848A (en) * | 1899-01-17 | Hydrant | ||
US1585378A (en) * | 1923-01-31 | 1926-05-18 | Julian F Denison | Centrifugal well pump |
-
1948
- 1948-02-16 US US862048 patent/US2497179A/en not_active Expired - Lifetime
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US381808A (en) * | 1888-04-24 | peters | ||
US617848A (en) * | 1899-01-17 | Hydrant | ||
US1585378A (en) * | 1923-01-31 | 1926-05-18 | Julian F Denison | Centrifugal well pump |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2714354A (en) * | 1952-09-08 | 1955-08-02 | Orrin E Farrand | Pump |
US2829597A (en) * | 1953-06-03 | 1958-04-08 | Red Jacket Mfg Co | Well pumping system |
US2877849A (en) * | 1957-06-17 | 1959-03-17 | Morrison Company | Well system |
US3094073A (en) * | 1958-09-10 | 1963-06-18 | Duplex Mfg Company | Pump control pressure switch with automatic air supply system |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
KR100254331B1 (en) | Readily installed universal sewage grinder pump | |
US5901744A (en) | Water supply system for a water source with limited flow capability | |
US2829597A (en) | Well pumping system | |
US5553794A (en) | Sewage handling system | |
US2149602A (en) | Pump | |
US2787220A (en) | Pumping system | |
US2812111A (en) | Dispensing apparatus for liquid fuel | |
US2280626A (en) | High-low pressure pumping system | |
US2512765A (en) | Rotary pump | |
US2497179A (en) | Pump | |
US3653395A (en) | Package pneumatic air-gap pump station | |
US10190307B1 (en) | Basement sewer drain recovery and discharge device | |
US2807214A (en) | Pumping system | |
US5803111A (en) | Device for purging water supply line | |
US3261201A (en) | Gasoline leak detector | |
US4909312A (en) | Interface equipment between a heat pump and a buried heat exchanger | |
US3584640A (en) | Package pneumatic pump station | |
KR101439362B1 (en) | aquatic pressing pump device for Integrated type | |
US3081915A (en) | Gasoline pumping system | |
US3875698A (en) | Hidden water system | |
US3037669A (en) | Pumping apparatus | |
US2917113A (en) | Air unloader for submergible pumps | |
US3093083A (en) | Switch and pump control unit for sump, riser and the like | |
US3094073A (en) | Pump control pressure switch with automatic air supply system | |
US2835200A (en) | Air charging system for submersible pumps |