US1666873A - Duplex pumping apparatus - Google Patents

Duplex pumping apparatus Download PDF

Info

Publication number
US1666873A
US1666873A US187008A US18700827A US1666873A US 1666873 A US1666873 A US 1666873A US 187008 A US187008 A US 187008A US 18700827 A US18700827 A US 18700827A US 1666873 A US1666873 A US 1666873A
Authority
US
United States
Prior art keywords
receptacle
pumps
pump
starting
switch
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
Application number
US187008A
Inventor
Jr Augustus C Durdin
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Chicago Pump Co
Original Assignee
Chicago Pump Co
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Family has litigation
First worldwide family litigation filed litigation Critical https://patents.darts-ip.com/?family=22687231&utm_source=google_patent&utm_medium=platform_link&utm_campaign=public_patent_search&patent=US1666873(A) "Global patent litigation dataset” by Darts-ip is licensed under a Creative Commons Attribution 4.0 International License.
Application filed by Chicago Pump Co filed Critical Chicago Pump Co
Priority to US187008A priority Critical patent/US1666873A/en
Application granted granted Critical
Publication of US1666873A publication Critical patent/US1666873A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04DNON-POSITIVE-DISPLACEMENT PUMPS
    • F04D15/00Control, e.g. regulation, of pumps, pumping installations or systems
    • F04D15/02Stopping of pumps, or operating valves, on occurrence of unwanted conditions
    • F04D15/029Stopping of pumps, or operating valves, on occurrence of unwanted conditions for pumps operating in parallel

Definitions

  • This invention relates to duplex pumping apparatus and its principal object is to pro'- vide automatically controlled companion pumps that operate alternately or in regular sequence, but are capable ot being automatically set into action so as to operate in unison.
  • Another object ot' this invention is to provide automatic means, controlled by thel rise of liquid in the receptacle, for starting the pumps alternately under normal conditions, and acting to start both pumps in case the inflow to the receptacle exceeds the capacity of one pump.
  • this invention consists in pumping apparatus' embodying a pair of pumps operating to eject liquids from a well, cistern, tank or other receptacle and having automatic means controlled by the rise and tall ot' water in the well, cistern, tank or other receptacle for alternately starting one of the pumps to thereby eject the liquid and then stopping the pump, and for starting both pumps in the event that abnormal conditions arise and then stopping both pumps when the receptacle has been emptied.
  • the invention ⁇ further consists in the several novel features hereinafter fully set forth and claimed.
  • Fig. 1 is a" side elevation partly broken out of duplex pumping apparatus embodying a simple form of the present invention
  • Fifr. 2 is a View partly in vertical section an partly in side elevation of a control device employed for alternating the action of the pumps
  • Fig. 3 is a view partly in vertical section and side elevation of the device seen in Fig. 2 looking in the direction of the arrow 3
  • Fig. 4 is a side elevation of a float rod and switch, which may be used as a substitute for one of the float rods shown in Fig. 1.
  • the receptacle may be in the form of a tank, well, cistern or other reservoir, having an inlet opening 6 through which liquids empty into the receptacle.
  • the receptacle is shown as provided with a cover 7 on its upper end, and on said cover are mounted two electric pump motors 8, 9, to each ot which is connected a centrifugal pump 10, 11, connected to or contained in the receptacle 5 near the bottom thereof.
  • the pumps have their inlet ends 12 opening into the interior of the receptacle and their discharge ends 13 are connected with discharge pipes 14 which may extend up through the top or cover 'i'A of the receptacle and are provided with littings 15 on their upper ends which may be connected to suitable conduits or discharge pipes (not shown) for conveying away the liquid which is pumped out of the receptacle 5.
  • Each electric pump motor is controlled by an electric switch 16, 17 which may be mounted upon standards or other supports 18 mounted on the cover 7.
  • the electric conductor wires 19 from the source ot' supply lead to the switches 16, 17 and conductor Wires 20, 21 run from the switches to the pump motors 8, 9.
  • the electric switches 16, 17 are automatically operated and the level of the liquid, which accumulates in the receptacle, controls the operation of the switches.
  • the but- -tons 26 are arranged to engage the ⁇ switch sidered and the simple one illustrated has been shown for the purpose of illustration only.
  • each control device illustrated comprises a cylindrical member 30 (see Figs. 2 and 3) having a continuous guide ,way or groove 31 formed in its annular wall and containing long sections 32 and short sections 33 in which travel pins or lugs 34.
  • Each ioat rod is made of two sections 24, 24b and the cylindrical grooved member 30 is secured upon one end of the float rod sec-A tion 24".
  • the float rod section 24' extends into the hollow of the cylindrical grooved member 30 and has the pins 34 secured upon its lower end.
  • a sleeve 35 is preferably provided around the grooved cylindrical member30 so as to completely enclose the same.
  • both floats and their float rods descend, and during the downward movement of the lower section of the float rod which is being described, the pin 34 enters the short section 33 of the continuous groove, and when the upper end of the groove engages with the pin 34 the upper section of the float rod is carried down, thereby opening the switch again when the low level is reached in the receptacle.
  • the long section 32 of the continuous groove receives the pin 34 and the upper ioat rod section remains unaffected by the upper'movement or" the lower float rod section until the lower end of the long section of the groove engages the pin 34 whereupon the upper float rod section is raised if the float rod continues to move upward as it will if the inow to the receptacle is greater than the capacity of the other pump which is now ejecting the liquid therel from.
  • the two control devices 29 are set so that when both float rods are at the lower ends of their strokes, the pin 34 of one control device enters the short section of the continuous groove when the iioat rods are lifted, whereas the pin 340i1 the other 'float rod enters the long section of thegroove.
  • the automatic, alternate operation of the pump motors, and their operation in unison may be obtained with the use of a control device 29 on one iioat rod only, the other iioat rod 24 (see Fig. 4) being unprovided with a control device.
  • the button or collar 27X on the loat rod 24x is placed at a position on said float rod slightly higher than the corresponding button 27 011 the float rod containing the control device.
  • the apparatus is useful for pumping liquid into a tank in place of ejecting it therefrom.
  • the inlets to the pumps are connected with the source of supply, and the discharge ends are connected with the tank', and the iioats and float rods placed in the tank. rlhe switches are merely inverted so that upward iiiovement of the fioat rods acts to open the switches ywhen the tank is filled, and downward movement of the float rods acts to close the switches when the tank is empty.
  • the apparatus is entirely automatic in operation and requires no attention except the usual care for the motors and other mechanism. It dispenses with the necessity of an attendant manually setting any control devices for alternately operating the pumps.
  • the apparatus is very efficient in operation and because of the alternate operation of the pumps the wear and tear thereon is not so great and one pump is always sure of operation in case a high water level is reached and under extraordinary circumstances both pumps are automatically set into operation. While the invention has been shown and described in connection with two centrifugal pumps it is to be understood that the invention is not limited to centrifugal pumps, neither is it limited to pumps contained in the receptacle.
  • means for closing the switches has been shown and described as comprising float operated mechanism, other equivalent switch operating means may be substituted which will operate Linder the influence of the pressui'e or vacuum in a closed tank, receptacle or chamber to open and close the switches.
  • a duplex pumping apparatus the combination of a receptacle and a pair of automatically ⁇ controlled, alternately operating, motor driven pumps for ejecting liquids from said receptacle, the control means for said pumps being governed by the rise and.
  • duplex pumping apparatus the combination of a receptacle and a pair of automatically controlled, alternately operating, motor driven pumps for ejecting liquids from said receptacle, the control means for said. pumpsl being governed by the rise of liquids to a predetermined level to start the pumps alternately, and being governed by a rise of the liquids above said predetei'iuined level to start both pumps.
  • duplex pumping apparatus the combination oli' a receptacle, a pair of alternately operating, electric motor driven pumps for ejecting liquids fron'rsaid receptacle, and starting and stopping mechanism for each pump motor, controlled by the level of the liquids in the receptacle, said starting and stopping mechanisms operating to start the motors in alternate sequence at succeeding predetermined high water levels in the receptacle.
  • duplex pumping apparatus the combination of a receptacle, a pair of alternately operating, electric motor driven pumps for ejecting liquids from said receptacle, and starting and stopping i'nechanism foi ⁇ each pump motor, controlledby thc level of the liquids in the receptacle, said starting and stopping mechanisms operating to start the motors in alternate sequence at succeeding predetermined high water levels in the receptacle and to start an idle pump motor at a predetermined higher water level in the receptacle.
  • duplex pumping apparatus the conibination of a receptacle, a pair of electric fifi motor driven pumps for ejecting liquids from said receptacle, electric switches, one switch for each motor, and float controlled switch actuating mechanism for each switch, each including a lost motion device, and operating, under the rise of liquids in said receptacle, to start the pump motors in alternate sequence at succeeding predetermined high Water levels in the receptacle.
  • duplex pumping apparatus the combination of a receptacle, a pair of electric motor driven pumps for ejecting liquids from said receptacle, electric switches, oneI switch for each motor, and float controlled switch actuating mechanism for each switch. each including a lost motion device, and operating, under the rise of liquids in said receptacle, to start the pump motors in alternate sequence at succeeding predetermined high water levels in the receptacle and to ⁇ start an idle pump motor at a. higher water level than said predetermined one.
  • duplex pumping apparatus the combination of a receptacle, a pair of electric motor driven pumps, having their pumping velements contained in said receptacle, and
  • each pump motor comprising an electric switch, and a float controlled and operated switch actuating mechanism, including .an alternately operating lost motion device, whereby said switch actuating mechanisms operate to start the pump motors in alternate sequence at succeeding predetermined high water levels in the receptacle.
  • duplex pumping apparatus the combination of a receptacle, a pair of electric motor driven pumps, having their pumping elements contained in said receptacle, and adapted to eject liquids therefrom, and automatic starting and stopping mechanism for each pump motor, comprising an electric switch, and a float controlled and operated switch actuating mechanism, including an alternately operating lost motion device, whereby said switch actuating mechanisms operate to start-the pump motors in alternate sequence at succeeding predetermined high water levels in the receptacle and to start an idle pump at a higher water level than said predetermined one.
  • duplex pumping apparatus the coinbination of a liquid receiving receptacle and a pair of automatically controlled, alternately operating, motor driven pumps operating to pump the liquid entering said receptacle, and motor controlling means for starting Y and stopping said pumps alternately, said motor controlling means being governed by the rise and fall of liquid in said receptacle.
  • duplex pumping apparatus the combination of a receptacle, a pair of alternately operating, electric motor driven pumps for operating in conjunction with said receptacle, and starting and stopping mechanism for each pump motor, controlled by the level of the liquid in the receptacle, said starting and stopping mechanisms operating to start the motors in alternate sequence at succeeding predetermined water levels in the receptacle.
  • duplex pumping apparatus the combination of a, receptacle, a pair of electric motor driven pumps operating in conjunction therewith, and automatic starting and stopping mechanism for each pump motor, comprising an electric switch, and a ioat controlled and operated switch actuating mechanism, including an alternately operating lost motion device in at least one of said switch actuating mechanism, whereby said switch actuating mechanisms operato to start the pump motors in alternate sequence at succeeding predetermined water levels in the receptacle.
  • automatic pump starting and stopping mechanism therefor, and automatic sequence control means associated with said pump starting and stopping mechanism and having an element whereby iirst one pump is started while another is quiescent and whereby ⁇ said other pump is started while the first mentioned one is quiescent.
  • pumps each having one end opening to saidreceptacle, automatic pump starting and stopping mechanism for said pumps, and automatic sequence control means whereby the pumps are started in alternate sequence.
  • a combination of several pumps opening to the same source of supply said pumps being operable in sequence, automatic pump starting and stopping mechanism therefor, and automatically operating sequence con- IUI) means associated with said pump startand stopping mechanism for starting pumps in sequence under normal consaid pump starting and strapping nisni includingf automatic means for the sequence of operation under nal conditions.
  • the combination of several pumps opening to the same source of supply said pumps being,r operable in sequence, automatic pump starting and stoppin?
  • each pump startingand stopping mechanism having an active and an inactive position, the pump starting mechanism for one of the pumps only being in active position at any given time to thereby start and stop its associated pump under normal conditions in the system, and the pump starting and stopping; mechanism beingarranged to start and stop the several pumps in a predetermined sequence under normal conditions 2l.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Control Of Positive-Displacement Pumps (AREA)

Description

April 17, 1928 A. C. DURDIN, JR
DUPLEX PUMPING APPARATUS 27. 1927 9M Flled Aprll y A, yr a Y Q 2 w Lf i WEL Patented Apr. 17, 1928.
UNITED STATES 1,666,813 PATENT l.OFI-ICE .AUGUSTUS C. DURDIN, AJ'R., OF CHICAGO, ILLINOIS, ASSIGNOR TO CHICAGO EUMP' COM- PANY, OF CHICAGO, ILLINOIS, A CORPORATION OF ILLINOIS.
DUPLEX PUMPING APPARATUS.
Application led April 27, 1927.
This invention relates to duplex pumping apparatus and its principal object is to pro'- vide automatically controlled companion pumps that operate alternately or in regular sequence, but are capable ot being automatically set into action so as to operate in unison. In many situations it is desirable to have two pumps for ejecting liquids from a well, cistern, tank or other receptacle, one ot the` pumps operating at a time and in alternate manner, but capable ot being set into action so as to operate in unison in case the capacity ot' one pump is not sulicieut to discharge the liquid as rapidly as it accumulates. Another object ot' this invention is to provide automatic means, controlled by thel rise of liquid in the receptacle, for starting the pumps alternately under normal conditions, and acting to start both pumps in case the inflow to the receptacle exceeds the capacity of one pump.
With these and other objects and advantages in View, this invention consists in pumping apparatus' embodying a pair of pumps operating to eject liquids from a well, cistern, tank or other receptacle and having automatic means controlled by the rise and tall ot' water in the well, cistern, tank or other receptacle for alternately starting one of the pumps to thereby eject the liquid and then stopping the pump, and for starting both pumps in the event that abnormal conditions arise and then stopping both pumps when the receptacle has been emptied. The invention `further consists in the several novel features hereinafter fully set forth and claimed.
The invention is clearl drawing accompanying tli which:
Fig. 1 is a" side elevation partly broken out of duplex pumping apparatus embodying a simple form of the present invention; Fifr. 2 is a View partly in vertical section an partly in side elevation of a control device employed for alternating the action of the pumps; Fig. 3 is a view partly in vertical section and side elevation of the device seen in Fig. 2 looking in the direction of the arrow 3, and Fig. 4 is a side elevation of a float rod and switch, which may be used as a substitute for one of the float rods shown in Fig. 1.
Referring to said drawing, the reference illustrated in the is specification, in
' character 5 designates a receptacle which Serial No. 187,008.
may be in the form of a tank, well, cistern or other reservoir, having an inlet opening 6 through which liquids empty into the receptacle. The receptacle is shown as provided with a cover 7 on its upper end, and on said cover are mounted two electric pump motors 8, 9, to each ot which is connected a centrifugal pump 10, 11, connected to or contained in the receptacle 5 near the bottom thereof. The pumps have their inlet ends 12 opening into the interior of the receptacle and their discharge ends 13 are connected with discharge pipes 14 which may extend up through the top or cover 'i'A of the receptacle and are provided with littings 15 on their upper ends which may be connected to suitable conduits or discharge pipes (not shown) for conveying away the liquid which is pumped out of the receptacle 5.
Each electric pump motor is controlled by an electric switch 16, 17 which may be mounted upon standards or other supports 18 mounted on the cover 7. The electric conductor wires 19 from the source ot' supply lead to the switches 16, 17 and conductor Wires 20, 21 run from the switches to the pump motors 8, 9. The electric switches 16, 17 are automatically operated and the level of the liquid, which accumulates in the receptacle, controls the operation of the switches. In accordance with the present form of the invention, I use floats 22, 23 one for each electric switch, which floats are mounted on iioat rods 24 that extend up through guide ways 25 supported from the cover and the upper ends of said float rods have buttons or collars 26, 27, secured thereon and arranged to engage with the switch levers 28 of the electric switches 16, 17 one of the buttons 27 at a time being arranged to engage its associated switch lever when the liquid in the receptacle reaches a predetermined high level and thereby close the switch for the associated motor. The but- -tons 26 are arranged to engage the` switch sidered and the simple one illustrated has been shown for the purpose of illustration only. A complete description of the construction and operation of the control devices is found in my co-pending application for patent on means for operating electric switches and other mechanism, filed December 29, 1926, under Serial No. 157 ,856. Briefly, each control device illustrated, comprises a cylindrical member 30 (see Figs. 2 and 3) having a continuous guide ,way or groove 31 formed in its annular wall and containing long sections 32 and short sections 33 in which travel pins or lugs 34. Each ioat rod is made of two sections 24, 24b and the cylindrical grooved member 30 is secured upon one end of the float rod sec-A tion 24". The float rod section 24'extends into the hollow of the cylindrical grooved member 30 and has the pins 34 secured upon its lower end. During the reciprocation o t a float rod the pins travel alternately through the short and long sections of the groove. A sleeve 35 is preferably provided around the grooved cylindrical member30 so as to completely enclose the same.
In the operation of the apparatus, and assuming the grooved member 30 of one control device be in the position seen in Fig. 2 with the float rods at the lower limit of their stroke. At this time the grooved inember 30 of the other control device is in the,
position seen in Fig. 3. During the upward movement of the lower oat rod section 24b (Fig. 2) and cylindrical grooved member 30, the short section 33 of the groove passes up along the pin 34 without alfecting the upper float rod section 24a until the lower end of the short section 33 of the groove is reached whereupon the pin 34 vis engaged by the lower end of the groove and the upper float rod section isl thereupon moved upward sufliciently to'cause the button or collar 27 to engage its associated switch lever 28 when the level of the liquid in the receptacle. reaches a predetermined high level, and the pump controlled by the associated control device, is thereby set into operation. At the same time the other float rod is also lifted but remains ineiiective for the purpose of closing its switch. As the liquid is being discharged from the receptacle, both floats and their float rods descend, and during the downward movement of the lower section of the float rod which is being described, the pin 34 enters the short section 33 of the continuous groove, and when the upper end of the groove engages with the pin 34 the upper section of the float rod is carried down, thereby opening the switch again when the low level is reached in the receptacle. On the next upstroke of the same iioat rod, the long section 32 of the continuous groove receives the pin 34 and the upper ioat rod section remains unaffected by the upper'movement or" the lower float rod section until the lower end of the long section of the groove engages the pin 34 whereupon the upper float rod section is raised if the float rod continues to move upward as it will if the inow to the receptacle is greater than the capacity of the other pump which is now ejecting the liquid therel from. The two control devices 29 are set so that when both float rods are at the lower ends of their strokes, the pin 34 of one control device enters the short section of the continuous groove when the iioat rods are lifted, whereas the pin 340i1 the other 'float rod enters the long section of thegroove. rlhe result is that the float rod (of which the pin enters the short section of the continuous groove) lifts thc upper section of the loat rod suiiciently, at the high level of the liquid, to close the switch to one motor, thereby starting the associated pump, whereas the other fioat rod (of which the pin enters the long section of the groove) does not move the upper section thereof sufficiently at the high level to close the switch to the other motor, so that the associated pump remains idle during the operation of the irst mentioned pump. If, however, the liquid continues to rise above the high level, faster than it can be discharged by the one pump, then the inactive float rod is lifted far enough to close the switch of the idle pump motor, thereby starting it and causing both pumps to operate in unison, and as the liquid is discharged both float rods and their floats descend until the low level is reached, whereupon both switches are opened and pump motors are stopped.
The automatic, alternate operation of the pump motors, and their operation in unison may be obtained with the use of a control device 29 on one iioat rod only, the other iioat rod 24 (see Fig. 4) being unprovided with a control device. In such case the button or collar 27X on the loat rod 24x is placed at a position on said float rod slightly higher than the corresponding button 27 011 the float rod containing the control device. It
should be placed a distance above the button 27 on the other fioat rod equal to approximately half the distance between the lower ends of the short and long sections of the cylindrical slotted member 29. )Vith this arrangement the operation of the apparatus is precisely the same as that accomplished with lou the two control devices. When the pin'34 rides in the short section 33 of the groove 3l, the button 27 on the float rod 24 engages the switch lever and trips the switch before the button 27X reaches its associated switch lever. On the other hand when the pin 34 rides in the long section of the groove, the button 27x on the iloat rod 24X engages its associated switch lever and trips that switch before the button 27 on the other float rod engages its associated switch lever. Vhen the water level rises above the predetermined one for tripping one switch, both buttons act as before and trip both switches.
The apparatus is useful for pumping liquid into a tank in place of ejecting it therefrom. In such cases the inlets to the pumps are connected with the source of supply, and the discharge ends are connected with the tank', and the iioats and float rods placed in the tank. rlhe switches are merely inverted so that upward iiiovement of the fioat rods acts to open the switches ywhen the tank is filled, and downward movement of the float rods acts to close the switches when the tank is empty.
From the above it is evident that the apparatus is entirely automatic in operation and requires no attention except the usual care for the motors and other mechanism. It dispenses with the necessity of an attendant manually setting any control devices for alternately operating the pumps. The apparatus is very efficient in operation and because of the alternate operation of the pumps the wear and tear thereon is not so great and one pump is always sure of operation in case a high water level is reached and under extraordinary circumstances both pumps are automatically set into operation. While the invention has been shown and described in connection with two centrifugal pumps it is to be understood that the invention is not limited to centrifugal pumps, neither is it limited to pumps contained in the receptacle. Furthermore, although the means for closing the switches has been shown and described as comprising float operated mechanism, other equivalent switch operating means may be substituted which will operate Linder the influence of the pressui'e or vacuum in a closed tank, receptacle or chamber to open and close the switches.
More or less variation of the exact details of construction is possible without departing from the spirit of this invention; I desire, therefore, not to limit myself to the exact form of the construction shown and described, but intend, in the following claims, to point out all of the invention disclosed herein.
I claim as new, and desire to secure by Letters Patent:
l. A duplex pumping apparatus the combination of a receptacle and a pair of automatically` controlled, alternately operating, motor driven pumps for ejecting liquids from said receptacle, the control means for said pumps being governed by the rise and.
fall of liquid in said receptacle.
2. In duplex pumping apparatus, the combination of a receptacle and a pair of automatically controlled, alternately operating, motor driven pumps for ejecting liquids from said receptacle, the control means for said. pumpsl being governed by the rise of liquids to a predetermined level to start the pumps alternately, and being governed by a rise of the liquids above said predetei'iuined level to start both pumps.
`3. In duplex pumping apparatus, the combination oli' a receptacle, a pair of alternately operating, electric motor driven pumps for ejecting liquids fron'rsaid receptacle, and starting and stopping mechanism for each pump motor, controlled by the level of the liquids in the receptacle, said starting and stopping mechanisms operating to start the motors in alternate sequence at succeeding predetermined high water levels in the receptacle.
4. In duplex pumping apparatus, the combination of a receptacle, a pair of alternately operating, electric motor driven pumps for ejecting liquids from said receptacle, and starting and stopping i'nechanism foi` each pump motor, controlledby thc level of the liquids in the receptacle, said starting and stopping mechanisms operating to start the motors in alternate sequence at succeeding predetermined high water levels in the receptacle and to start an idle pump motor at a predetermined higher water level in the receptacle.
5. In duplex pumping apparatus, the conibination of a receptacle, a pair of electric fifi motor driven pumps for ejecting liquids from said receptacle, electric switches, one switch for each motor, and float controlled switch actuating mechanism for each switch, each including a lost motion device, and operating, under the rise of liquids in said receptacle, to start the pump motors in alternate sequence at succeeding predetermined high Water levels in the receptacle.
6. In duplex pumping apparatus, the combination of a receptacle, a pair of electric motor driven pumps for ejecting liquids from said receptacle, electric switches, oneI switch for each motor, and float controlled switch actuating mechanism for each switch. each including a lost motion device, and operating, under the rise of liquids in said receptacle, to start the pump motors in alternate sequence at succeeding predetermined high water levels in the receptacle and to `start an idle pump motor at a. higher water level than said predetermined one.
7. In duplex pumping apparatus, the combination of a receptacle, a pair of electric motor driven pumps, having their pumping velements contained in said receptacle, and
adapted to eject liquids therefrom, and automatic starting and stopping mechanism for each pump motor, comprising an electric switch, and a float controlled and operated switch actuating mechanism, including .an alternately operating lost motion device, whereby said switch actuating mechanisms operate to start the pump motors in alternate sequence at succeeding predetermined high water levels in the receptacle.
8. In duplex pumping apparatus, the combination of a receptacle, a pair of electric motor driven pumps, having their pumping elements contained in said receptacle, and adapted to eject liquids therefrom, and automatic starting and stopping mechanism for each pump motor, comprising an electric switch, and a float controlled and operated switch actuating mechanism, including an alternately operating lost motion device, whereby said switch actuating mechanisms operate to start-the pump motors in alternate sequence at succeeding predetermined high water levels in the receptacle and to start an idle pump at a higher water level than said predetermined one.
9. In duplex pumping apparatus, the coinbination of a liquid receiving receptacle and a pair of automatically controlled, alternately operating, motor driven pumps operating to pump the liquid entering said receptacle, and motor controlling means for starting Y and stopping said pumps alternately, said motor controlling means being governed by the rise and fall of liquid in said receptacle.
10. In duplex pumping apparatus, the combination of a receptacle, a pair of alternately operating, electric motor driven pumps for operating in conjunction with said receptacle, and starting and stopping mechanism for each pump motor, controlled by the level of the liquid in the receptacle, said starting and stopping mechanisms operating to start the motors in alternate sequence at succeeding predetermined water levels in the receptacle.
11. In duplex pumping apparatus, the combination of a, receptacle, a pair of electric motor driven pumps operating in conjunction therewith, and automatic starting and stopping mechanism for each pump motor, comprising an electric switch, and a ioat controlled and operated switch actuating mechanism, including an alternately operating lost motion device in at least one of said switch actuating mechanism, whereby said switch actuating mechanisms operato to start the pump motors in alternate sequence at succeeding predetermined water levels in the receptacle.
12. The combination of several pumps, opening in the same source of supply and capable of operating in' a regular sequence,
automatic pump starting and stopping mechanism therefor, and automatic sequence control means associated with said pump starting and stopping mechanism and having an element whereby iirst one pump is started while another is quiescent and whereby `said other pump is started while the first mentioned one is quiescent.
13. lThe combination of a receptacle, two alternately operable pumps, each opening to said receptacle, automatic pump starting and stopping mechanism for said pumps, and automatic sequence control means associated with said pump starting and stopping mechanism, and having an element whereby tirst one pump is started while the other pump is quiescent and whereby said other pump is started when the first mentioned one is quiescent.
14. The combination of a receptacle, several pumps opening to said receptacle and capable ot' operating in a regular sequence, automatic pump starting and stopping mechanisms for said pumps, and automatic sequence control means associated with said pumpv starting and stopping mechanisms and having an element whereby first one pump is started while another is quiescent and whereby said other pump is started while the first mentioned one is quiescent.
15. The combination of a receptacle, two
pumps, each having one end opening to saidreceptacle, automatic pump starting and stopping mechanism for said pumps, and automatic sequence control means whereby the pumps are started in alternate sequence.
16. The combination of a receptacle, two pumps, each having one end opening to said receptacle, automatic pump starting and stopping mechanism for said pumps, and automatic sequence control means whereby the pumps are started in alternate sequence, said sequence control means having an element whereby the alternate sequence of operation of the pumps is changed under abnormal conditions.
17. The combination of several pumps opening to the same source of supply and operable in sequence and automatic pump starting and stopping mechanism therefor, including automatic sequence control means, operated by said pump starting and stopping mechanism.
18. The combination of two alternating operable pumps, opening to the same source of supply, automatic pump starting and stopping mechanism therefor, and automatically operating control means i'or starting said pumps alternately in a regular sequence and stopping the operating pump.
19. A combination of several pumps opening to the same source of supply, said pumps being operable in sequence, automatic pump starting and stopping mechanism therefor, and automatically operating sequence con- IUI) means associated with said pump startand stopping mechanism for starting pumps in sequence under normal consaid pump starting and strapping nisni includingf automatic means for the sequence of operation under nal conditions. In a pumping system, the combination of several pumps opening to the same source of supply, said pumps being,r operable in sequence, automatic pump starting and stoppin? mechanism Yfor each pump, each pump startingand stopping mechanism having an active and an inactive position, the pump starting mechanism for one of the pumps only being in active position at any given time to thereby start and stop its associated pump under normal conditions in the system, and the pump starting and stopping; mechanism beingarranged to start and stop the several pumps in a predetermined sequence under normal conditions 2l. The combination of several automatically controlled mechanisms operating on the same source and capable of operating in a reguiar sequence, automatic starting and stopping mechanism therefor, and automatic sequence control means associated With said starting and stopping mechanisms and having van element whereby first one mechanism u AUGUSTUS C., DURDIN, JR.
US187008A 1927-04-27 1927-04-27 Duplex pumping apparatus Expired - Lifetime US1666873A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US187008A US1666873A (en) 1927-04-27 1927-04-27 Duplex pumping apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US187008A US1666873A (en) 1927-04-27 1927-04-27 Duplex pumping apparatus

Publications (1)

Publication Number Publication Date
US1666873A true US1666873A (en) 1928-04-17

Family

ID=22687231

Family Applications (1)

Application Number Title Priority Date Filing Date
US187008A Expired - Lifetime US1666873A (en) 1927-04-27 1927-04-27 Duplex pumping apparatus

Country Status (1)

Country Link
US (1) US1666873A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2471778A (en) * 1943-05-03 1949-05-31 Nineteen Hundred Corp Fluid responsive control apparatus
US2498885A (en) * 1944-02-21 1950-02-28 Nineteen Hundred Corp Automatic clothes cleansing apparatus
US4484449A (en) * 1983-02-15 1984-11-27 Ernest Muench Low temperature fail-safe cascade cooling apparatus

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2471778A (en) * 1943-05-03 1949-05-31 Nineteen Hundred Corp Fluid responsive control apparatus
US2498885A (en) * 1944-02-21 1950-02-28 Nineteen Hundred Corp Automatic clothes cleansing apparatus
US4484449A (en) * 1983-02-15 1984-11-27 Ernest Muench Low temperature fail-safe cascade cooling apparatus

Similar Documents

Publication Publication Date Title
US4309157A (en) Protection device and sump pump
US1666873A (en) Duplex pumping apparatus
US2260312A (en) Float actuated electrical control system
US1732577A (en) Means for operating electric switches and other mechanism
US2180274A (en) Pneumatic ejector plant
US2121324A (en) Liquid level control apparatus
US1695846A (en) Liquid-level control
US2250271A (en) Sump pump priming device
US2739608A (en) Gas producing apparatus
US3352246A (en) Automatic submersible pump
US2280930A (en) Pumping equipment
US1488237A (en) Float-actuated electric switch-operating mechanism
US1698427A (en) Means for operating electric switches and other mechanism
US3592560A (en) Air-operated eductor control
US1628608A (en) Fluid-pressure-actuated pump
US3630637A (en) Sewage-pumping station
DE708625C (en) Liquid separators, especially oil separators for compression refrigeration machines
US1690254A (en) Fluid-handling, suction and pressure creating apparatus
US3090525A (en) Metering system for electrically conductive flowable materials
US1766156A (en) Pumping system
US2275501A (en) Priming system for centrifugal pumps
US2445437A (en) Fluid pressure system
US763741A (en) Pump-controlling apparatus.
US161680A (en) Improvement in regulators for electrical water-raising apparatus
US3072060A (en) Apparatus for controlling a fluid level