US1734567A - Primer for vacuum pumps - Google Patents

Primer for vacuum pumps Download PDF

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US1734567A
US1734567A US206546A US20654627A US1734567A US 1734567 A US1734567 A US 1734567A US 206546 A US206546 A US 206546A US 20654627 A US20654627 A US 20654627A US 1734567 A US1734567 A US 1734567A
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valve
pipe
cut
pumping system
outlet
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US206546A
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Clayton A Dunham
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C A DUNHAM Co
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C A DUNHAM CO
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    • 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
    • F04D15/0209Stopping of pumps, or operating valves, on occurrence of unwanted conditions responsive to a condition of the working fluid
    • F04D15/0218Stopping of pumps, or operating valves, on occurrence of unwanted conditions responsive to a condition of the working fluid the condition being a liquid level or a lack of liquid supply

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  • This invention relates to a priming pipe connection for pumps, and more particularly to a pipe connection for returning to the low-- pressure side of the pump and thence into the pumping system, the liquids which may leak past the closed cut-off valve in the Outlet or discharge connection frohi the pumping system.
  • This invention is particularly designed and adapted for use in connection with the pumping mechanism used to maintain the sub-atmospheric pressures in a vacuum steam heating system, such for example as the one shown and described n detail in my copending application Serial No. 171,616, filed Feb.
  • the pumping system comprises an inlet with which communicates the return pipe p from the and an outlet through which water is boiler or generator of the heating system.
  • the pumping system maintains ,a relatively low pressure or vacuum in the return pipe so that air and condensate will, be drawn into the pumping system, and a relatively high pressure is maintained in the discharge pipe so that water can be forced out against the boiler pressure.
  • a cut-ofi valve in this discharge ipe is normally closed, but is opened by a float-controlled mechanism when a certain water has (accumulated in the pumping'system so that the excess water will be forced back to the boiler. Sometimes this cut-off valve will leak, due to foreign matter lodging on the valve seat, or other failure of heating system,
  • a relatively small conduit or pipe connection is provided between the outlet or drawn back throng turned to forced back to the Under certain conditions the pressure in the outlet. pipe or boiler-feed pipe might fall below that existing in the return or inlet pipe, in which case liquid would be drawn from the pumping .system through the auxiliary or primer pipe connection.
  • a one-way valve opening toward the return pipe may be provided in this primer pipe connection;
  • a cut-0E valve may be provided in the former pipe adapted to prevent flow through the pipe in either direction, this valve being connected with the operating mechanism of the main cut-off valve in such a manner that when one of these valves is closed, the otheris opened, and vice versa. This arrangement of the valves will prevent the return of any ortion ofthe water to the heating system when the main cut-off valve is opened to force water into the boiler.
  • the general object of this invention is to provide improvements in priming connec-.
  • Fig. 1 is an elevation, of thepumping mechanism with the improved primer means embodied therein.
  • Fig. 2 is a plan view of that portion of the apparatus shown in Fig. 1, which embodies the priming means.
  • Fig. 3 is a plan view similar to Fig. 2, but showing a modification.
  • Fig. 4 is an elevation, but showing another modification of the priming connections.
  • Fig. 5 is a plan view oftheform of priming connections shown in Fig. 4.
  • the suction; producing mechanism H as here shown, comprises a tank 16 partially filled with water, from the lower portion of similar to Fig. 1,
  • a pump 17 withdraws water through i intake pipe 18 along withthe water of the hurling circuitand discharged into the tank 16.
  • a one-way check valve 22 in pipe 21 prevents the re turn of these materials to the low pressure through cut-off valve 26, pipe 27, and onecould b is always present in way check valve 28 to the generator of the or other desired point of disheating system, charge.
  • a float 30 in tank 16 operates, when the level of accumulated liquid in the tank 16 has reached a certain height, through the link and lever connections 31 to open the valve 26 and permit the pump 17 to force water out through pipe 27 and check valve 28.
  • valve comprising a casing having an interior web 42 provided with aligned valve openings -which are simultaneously closed by the valves 43 and 14 mounted on a valve stem 45 extending out through stuiiing box 4E6-at the top of the valve casing.
  • Valve stem 45 is pivoted at 47 to an intermediate portion of the valveoperating lever 31, which lever is fulcrumed adjacent its end on a link 48 pivoted to a bracket 49 mounted on the valve casing.
  • the lever connections 31. are operated by float .30 in tank 16, as already described.
  • valve structure is common to all of the modifications here shown. It is to be understood, however, that any other form of cut-0d valve e used at this location, and the improvements of the present invention would be equally applicable for use with such valves.
  • this valve 26 may fail to completely close. This is sometimes caused by foreign matter, which heating systems, on the valve seats. This will permit the releaseor leakage of some water from the hurling circuit into the outlet pipe 27 during periods of operation when little or no condensate is being returned to' tank 16 from the heating system. If the rate of leakage through the valve into the hurling cireuit,'there 16 will be so lowered that the vacuum pump the casingof ejector 19, which;
  • the object of this invention -is to provide means for maintaining the prime in the pump in case of leakage of the cut-off valve 26. This is accomplished by returning such water as may leak through the valve when closed, back into the hurling circuit.
  • a small return pipe connection 50 is provided for returning the leakage from the outlet pipe to the inlet pipe.
  • connection 50 communicates with j the outlet pipe 27 between valve 26 andcheck valve 28, and the other end'communicates with the inlet pipe 21'between check valve 22 and the casing'of the jet exhauster 19.
  • the union indicated at 51 is simply for the purpose of facilitating the installation of the sections of pipe connection 50.
  • the check valve 52 is omitted, bu't theprimer pipe connection 50 is connected into return pipe 21 back of the check valve 22, instead of beaccommodate the maximum leak- 19
  • the check valve 22 will prevent water being drawn out from the 53, a check greater when the cut-ofi valve I prevent the return of any water through primer pipe when the cut-ofi valve 26 is opened to permit water to be forced back to the boiler.
  • the valve 53 comprises a movable valve'member 54 which is normally held a ainst its seat by a spring 55.
  • the stem 56 o valve 54 engages one end of an intermediately pivoted lever 57, which is connected by link 58 with the extended end portion 59 of the main valve operating lever 31,
  • the lever and link connections will cause the lever 57 to press down on the valve stem 56 and hold the valve member 5401i its seat, so that valve 53 will be open tovpermit the return of leakage through pipe Connection 50.
  • lever 57 will be elevated so as to permit the spring to force valve member at ,upward 53, thus preventing the return of any water through pipe connection 50 at this time.
  • the automatically operated valve valve such as shown at 52 in Figs.
  • valves 1 and 2 could be installed in the pipe connection50 to prevent the withdrawal of water from t e hurling circuit through thispipe connection when the boiler pressure falls below that in the return main.
  • Other forms of valves than those here shown could be substituted for either of the cut-ofi valves. 26 or 53, and any equivalent form of valve opcrating connections could be provided whereby one of these valves will be closed when the other is open, and vice versa. lit is also ap parent that the improvements of this present invention could be used in connection with other forms of exhausting apparatus than that here shown and described.
  • lt' is only essential that the outlet end of the primer Open, and will be open 26 is closed. This will pipe connection communicate with an inletportion of the exhaustingapparatus which i normally at a lower pressure than the ressureexisting in the pipe wherein the lea age accumulates.
  • lhe priming pipe 50 might be connected at its inlet end with-the boiler feed pipe 2'? beyond the one-way valve 28, or with any other water pipe or space thatis normally at boiler pressure In this form of the apparatus there would be a substantially continuous How of water from the boiler hack to the low-pressure inlet pipe 21, but since pipe 50 is of small capacity this hack flow would be more 27, and a continual priming of the pumping system would be assured,
  • the return pipe 50 should be of small capacity but adequate to compensate for any possible leakage through cut-off valve 26 when-this valve is closed.
  • fl. llhecombinat on with a pumping systern comprising an outlet pipe, a relatively low pressure inlet pipe, and a normally closed cut-off valve in the outlet pipe, of means for returning to the pumping system liquids that leak past this valve, this means comprising a return pipe shunted around the pumping system and in communication at its inlet end with the outlet pipe beyond the valve, and at its outlet end with thelow pressure inlet p p e 5.
  • the combination with a pumping system comprisingan outlet pipe, a relatively low pressure inlet pipe, and a normally closed cut-oh" valve in the outlet pipe, of means for liquids that a return pipe shunted around the pumping system and in communication at its inlet-end with the outlet pipe beyond the valve, and at its outlet end with the lowpressure inlet pipe, and a one-way valve in this return pipe for preventing passage of liquids from the inlet pipe to the outlet pipe.
  • a puniping system comprising an outlet pipe, a relatively low pressure inlet pipe, and a cut-0d valve in the putlet pipe, of means for returning to the pumping system liquids that leak past this valve, this means comprising a return pipe shunted around the pumping system and in communication at its inlet end with the outlet pipe beyond the valve, and at its outlet end with the low pressure inlet pipe, a valve in the return pipe, and connections for auto-. matically closing this valve when the cut-0d valve is open and opening the-valve when the cut-ofl' valve is closed.
  • a pumping system comprising a tank, a pump, an intake pipe leading from the tank to the pump, a discharge pipe leading from the pump back to the tank, an injector in the discharge pipe, an inlet pipe leading to the injector- Whereby fluids are drawn into the pumping. system, an outlet pipe leading from the pump whereby liquids may be forced from the system, a normally closed cut-off valve in the outlet pipe, and mechanism for opening the cut-oil valve, of means for returning to the pumping system liquids that leak through the cut-off valve, this means comprising a return pipe leading from the outlet pipe beyond the cut-oif valve back to the inlet pipe.
  • a pumping system comprising a vtank, a pump, an intake pipe leading from the tank to the pump, a discharge pipe leading from the pump back to the tank, an injector in the discharge pipe, an
  • this means comprising a return pipe leading from the outlet pipe beyond the cutoff valve back to the inlet pipe, and a one-way valve in this return pipe opening toward the inlet pipe.
  • a pumping sys-, tem comprising a tank, a pump, an intake pipeleading from the tank to the pump, a discharge pipe leading from the'pump back to the tank, an injector in the discharge pipe, an inlet pipe leading to the injector whereby fluids are drawn into the pumping system, an
  • this means comprising a return pipe leading from the outlet pipe beyond the cut-0E valve whereby the latter valve will be held open against the action of the spring while the main cut-otf-valve is closed, but will be permitted to close when the main valve is opened.
  • a pumping system comprising a tank, a pump, an intake pipe leading from-the tank to the pump, a discharge pipe leading from the pump back to the tank, an injector in the discharge pipe, a relatively low pressure inlet pipe leading to the injector, and a relatively high pressure outlet pipe leading from the pump, of means for priming the pumping system comprising a normally open return conduit of small capacity between the high pressure outlet pipeand the low pressure inlet pipe.

Description

Nov. 5, 1929.
C. A. DUNHAM PRIMER FOR VACUUM PUMPS Filed July' 18. 1927 2 Sheets-Sheet 1 I w l h, I :19
I l '1 j J mum:
zgazlu mzm w orngys Nov. 5, 1929. c. A. DUNHAM 1,734,567
PRIMER FOR VACUUM PUMPS Filed July 18, 1927 2 Sheets-Sheet 2 ITufenE; 2/ @2522 A. 2202501 umrs CLAYTON A. nuunm,
on ennuconfnmmors, nssreuoa,
.138 MESNE ASSIGNMENTS,
"1'0 A. DUNHAM COMPANY, OF MARSHALLTOWN, IOWA, A COBLPOBATION OF IOWA .IRIMIER FOR VdCUUM PUMFS 1 Application filed. July 18,1927. Serialfio. 206,546.
This invention relates to a priming pipe connection for pumps, and more particularly to a pipe connection for returning to the low-- pressure side of the pump and thence into the pumping system, the liquids which may leak past the closed cut-off valve in the Outlet or discharge connection frohi the pumping system. This invention is particularly designed and adapted for use in connection with the pumping mechanism used to maintain the sub-atmospheric pressures in a vacuum steam heating system, such for example as the one shown and described n detail in my copending application Serial No. 171,616, filed Feb.
28, 1927, now Patent No. 1,644,114, granted October 4,1927.
' amount of The pumping system comprises an inlet with which communicates the return pipe p from the and an outlet through which water is boiler or generator of the heating system. The pumping system maintains ,a relatively low pressure or vacuum in the return pipe so that air and condensate will, be drawn into the pumping system, and a relatively high pressure is maintained in the discharge pipe so that water can be forced out against the boiler pressure. A cut-ofi valve in this discharge ipe is normally closed, but is opened by a float-controlled mechanism when a certain water has (accumulated in the pumping'system so that the excess water will be forced back to the boiler. Sometimes this cut-off valve will leak, due to foreign matter lodging on the valve seat, or other failure of heating system,
- the valve to properly close, and in case this leakage excee drawn in through the inlet pipeithe pumping ds the amount of condensate system will eventually lose its prime and cease to be operative. According to the present invention, a relatively small conduit or pipe connectionis provided between the outlet or drawn back throng turned to forced back to the Under certain conditions the pressure in the outlet. pipe or boiler-feed pipe might fall below that existing in the return or inlet pipe, in which case liquid would be drawn from the pumping .system through the auxiliary or primer pipe connection. To prevent this, a one-way valve opening toward the return pipe, may be provided in this primer pipe connection; In another form of theinven tion, a cut-0E valve may be provided in the former pipe adapted to prevent flow through the pipe in either direction, this valve being connected with the operating mechanism of the main cut-off valve in such a manner that when one of these valves is closed, the otheris opened, and vice versa. This arrangement of the valves will prevent the return of any ortion ofthe water to the heating system when the main cut-off valve is opened to force water into the boiler.
The general object of this invention is to provide improvements in priming connec-.
tions for pumping systems, as briefly described hereinabove and as disclosed more in detail in the specification which follows.
Other objects and advantages of the invention'will be more apparent-from the followin detailed description of certain approved forms of apparatus designed according to the principles of this invention.
In the accompanying drawings:
Fig. 1 is an elevation, of thepumping mechanism with the improved primer means embodied therein. I
Fig. 2 is a plan view of that portion of the apparatus shown in Fig. 1, which embodies the priming means.
Fig. 3 is a plan view similar to Fig. 2, but showing a modification.
Fig. 4; is an elevation, but showing another modification of the priming connections.
Fig. 5 is a plan view oftheform of priming connections shown in Fig. 4.
vertical section Fig. 6 is an enlarged through the valves taken substantially on the line 6-6 of Fig. 5. T I
. The suction; producing mechanism H, as here shown, comprises a tank 16 partially filled with water, from the lower portion of similar to Fig. 1,
which a pump 17 withdraws water through i intake pipe 18 along withthe water of the hurling circuitand discharged into the tank 16.. A one-way check valve 22 in pipe 21 prevents the re turn of these materials to the low pressure through cut-off valve 26, pipe 27, and onecould b is always present in way check valve 28 to the generator of the or other desired point of disheating system, charge. A float 30 in tank 16 operates, when the level of accumulated liquid in the tank 16 has reached a certain height, through the link and lever connections 31 to open the valve 26 and permit the pump 17 to force water out through pipe 27 and check valve 28.
I will first refer to the form of the invention shown in Figs. 1 and 2, and also briefly to Fig. 6, which shows a cross section of the cut-off valve 26, which valve may be used-in any of the modifications. In the example here valve comprising a casing having an interior web 42 provided with aligned valve openings -which are simultaneously closed by the valves 43 and 14 mounted on a valve stem 45 extending out through stuiiing box 4E6-at the top of the valve casing. Valve stem 45 is pivoted at 47 to an intermediate portion of the valveoperating lever 31, which lever is fulcrumed adjacent its end on a link 48 pivoted to a bracket 49 mounted on the valve casing. The lever connections 31. are operated by float .30 in tank 16, as already described. This valve structure is common to all of the modifications here shown. It is to be understood, however, that any other form of cut-0d valve e used at this location, and the improvements of the present inventionwould be equally applicable for use with such valves. At times, for one reason or another, this valve 26 may fail to completely close. This is sometimes caused by foreign matter, which heating systems, on the valve seats. This will permit the releaseor leakage of some water from the hurling circuit into the outlet pipe 27 during periods of operation when little or no condensate is being returned to' tank 16 from the heating system. If the rate of leakage through the valve into the hurling cireuit,'there 16 will be so lowered that the vacuum pump the casingof ejector 19, which;
The gases discharged into tank 16 shown, this is a semi-balancedv lodging tween this check valve and the jet exhauster 26 should be more than the rate at which cdndensate isbeing returned through pipe 21 -is a possibility that the water level 1n tank and the vacuum-producing apparatus will become inoperative.- The object of this invention-is to provide means for maintaining the prime in the pump in case of leakage of the cut-off valve 26. This is accomplished by returning such water as may leak through the valve when closed, back into the hurling circuit. Referring again to Figs. 1 and 2, a small return pipe connection 50 is provided for returning the leakage from the outlet pipe to the inlet pipe. One
will lose its prime,
end of this connection 50 communicates with j the outlet pipe 27 between valve 26 andcheck valve 28, and the other end'communicates with the inlet pipe 21'between check valve 22 and the casing'of the jet exhauster 19. The union indicated at 51 is simply for the purpose of facilitating the installation of the sections of pipe connection 50.
In heating systems where a vacuum is maintained in the return line only, the apparatus in its' simplest form, as just described, will be sufficient; Since a lower pressure is normally maintained in the return or inlet pipe 21 than exists in the outlet pipe 27, any water which leaks past the cut-ofl valve 26 will be drawn back through the pipe connection 50 into inlet pipe 21 and thence drawn back into the hurling circuit by jet exhauster 19. Of course, at times when outoltvalve 26 is opened and water is being discharged through pipe 27 back to the generator,-some of this water will be returned through pipe 50 to the hurling eircuit,'but this amount will be negligible compared with the amount discharged through pipe 27. The return m rimer pipe 50 need only be of a size sufiicierfi; age that m occur when valve 26 is closed.
In cas e heating system is of such type t hat theboiler pressure may at times fall below the pressurein the return pipe 21, the possibili y would arise of water being drawn out from the-hurling circuit through pipe 21, pipe connection 50, and pipe 27, into the boiler, thus destroying the prime in the pumping system. To prevent this, a; one-way check valve 52 opening toward the inlet pipe .21
iiection 50.
In the modification shown in Fig. 3, the check valve 52 is omitted, bu't theprimer pipe connection 50 is connected into return pipe 21 back of the check valve 22, instead of beaccommodate the maximum leak- 19 By this'arrangement, the check valve 22 will prevent water being drawn out from the 53, a check greater when the cut-ofi valve I prevent the return of any water through primer pipe when the cut-ofi valve 26 is opened to permit water to be forced back to the boiler. As here shown, the valve 53 comprises a movable valve'member 54 which is normally held a ainst its seat by a spring 55. The stem 56 o valve 54: engages one end of an intermediately pivoted lever 57, which is connected by link 58 with the extended end portion 59 of the main valve operating lever 31, When the main cut-ofi valve 26 is closed (as shown in Fig. 6), the lever and link connections will cause the lever 57 to press down on the valve stem 56 and hold the valve member 5401i its seat, so that valve 53 will be open tovpermit the return of leakage through pipe Connection 50. However when lever 31 is raised to open the valve 26, lever 57 will be elevated so as to permit the spring to force valve member at ,upward 53, thus preventing the return of any water through pipe connection 50 at this time. In addition to the automatically operated valve valve, such as shown at 52 in Figs. 1 and 2 could be installed in the pipe connection50 to prevent the withdrawal of water from t e hurling circuit through thispipe connection when the boiler pressure falls below that in the return main. Other forms of valves than those here shown could be substituted for either of the cut-ofi valves. 26 or 53, and any equivalent form of valve opcrating connections could be provided whereby one of these valves will be closed when the other is open, and vice versa. lit is also ap parent that the improvements of this present invention could be used in connection with other forms of exhausting apparatus than that here shown and described. lt'is only essential that the outlet end of the primer Open, and will be open 26 is closed. This will pipe connection communicate with an inletportion of the exhaustingapparatus which i normally at a lower pressure than the ressureexisting in the pipe wherein the lea age accumulates.
lhe priming pipe 50 might be connected at its inlet end with-the boiler feed pipe 2'? beyond the one-way valve 28, or with any other water pipe or space thatis normally at boiler pressure In this form of the apparatus there would be a substantially continuous How of water from the boiler hack to the low-pressure inlet pipe 21, but since pipe 50 is of small capacity this hack flow would be more 27, and a continual priming of the pumping system would be assured, The return pipe 50 should be of small capacity but suficient to compensate for any possible leakage through cut-off valve 26 when-this valve is closed.
I claim: v V
1. The combination with a pumping sysy against its seat and close the valve ,that leak past the valve,
:returningto the pumping system leak past this valve, this'means comprising than offset by the water inter-. mittently forced to the boiler through p pe .tem comprising an inlet, pipe, an outlet pipe and a normally closed cut-ofi valve in the outlet pipe, of means for returning to the pumpingsystem liquids that leak past the valve, comprising a pipe connection extending from the outlet pipe to the inlet pipe around the valve and pumping system.
2. The combination with a pumping system comprising inlet pipe, an outlet pipe and a normally closed cut-oil valve in the outlet pipe, of means for returning to the pumpingsystem liquids that leak past the valve, comprising, a pipe connection extending from the outlet pipe to the inlet pipe around the valve and pumping system and a one-way valve in this pipe opening the inlet pipe.
3. The combination with a pumping system comprising an inlet pipe, an outlet pipe andacut-oif valve in the outlet pipe, of means for returning to the pumping system liquids comprising a pipe connection extending from the outlet pipe to the inlet pipe around the valve and pumping system, a valve in this pipe and connections for automatically closing this valve when the toward cut-0d valve is open and openingwthe valve 3' when the cut-oil valve is closed.
fl. llhecombinat on with a pumping systern comprising an outlet pipe, a relatively low pressure inlet pipe, and a normally closed cut-off valve in the outlet pipe, of means for returning to the pumping system liquids that leak past this valve, this means comprising a return pipe shunted around the pumping system and in communication at its inlet end with the outlet pipe beyond the valve, and at its outlet end with thelow pressure inlet p p e 5. The combination with a pumping system comprisingan outlet pipe, a relatively low pressure inlet pipe, and a normally closed cut-oh" valve in the outlet pipe, of means for liquids that a return pipe shunted around the pumping system and in communication at its inlet-end with the outlet pipe beyond the valve, and at its outlet end with the lowpressure inlet pipe, and a one-way valve in this return pipe for preventing passage of liquids from the inlet pipe to the outlet pipe. 6. The combination with a puniping system comprising an outlet pipe, a relatively low pressure inlet pipe, and a cut-0d valve in the putlet pipe, of means for returning to the pumping system liquids that leak past this valve, this means comprising a return pipe shunted around the pumping system and in communication at its inlet end with the outlet pipe beyond the valve, and at its outlet end with the low pressure inlet pipe, a valve in the return pipe, and connections for auto-. matically closing this valve when the cut-0d valve is open and opening the-valve when the cut-ofl' valve is closed.
7. lThe combination with a pumping system comprising an outlet pipe, a relatively low pressure inlet pipe, a cut-off valve in the outlet pipe, and a one-way valve in the inlet pipe opening toward the pumping system, of means for returning to the'pumping'system liquids that leak through the cut-01f valve, this means comprising a return pipe communicating at its inlet end with theoutlet pipe beyond the cut-off valve, and at its outlet end with the inlet pipeat the inlet side of the one-way valve. U I
8. The combination with the pumping system comprising an outlet pipe, a relatively low pressure inlet pipe, a normallyv closed cut-oil valve in the outlet pipe and a one-way valve in this pipe beyond the cut-off valve andopeningaway from the pumping system, of means for returning to the pumping system. liquids that leak through the cut-off valve, this means comprising a return pipe leading from the outlet pipe between the cutoff valve and the one-way valve to,the inlet pipe.
, 9. The combination with a pumping system comprising a tank, a pump, an intake pipe leading from the tank to the pump, a discharge pipe leading from the pump back to the tank, an injector in the discharge pipe, an inlet pipe leading to the injector- Whereby fluids are drawn into the pumping. system, an outlet pipe leading from the pump whereby liquids may be forced from the system, a normally closed cut-off valve in the outlet pipe, and mechanism for opening the cut-oil valve, of means for returning to the pumping system liquids that leak through the cut-off valve, this means comprising a return pipe leading from the outlet pipe beyond the cut-oif valve back to the inlet pipe. 7 V 10, The combination with a pumping system comprising a vtank, a pump, an intake pipe leading from the tank to the pump, a discharge pipe leading from the pump back to the tank, an injector in the discharge pipe, an
inlet pipe leading to the injector whereby fluids are drawn into the pumping system, an outlet pipe leading from the pump whereby liquids may be forced from the system, a normally closed cut-oil valve in the outlet pipe,
and mechanism for opening the cut-ofi' valve, of means for returning to the pumping system liquids that leak through the, c'ut-ofi valve, this means comprising a return pipe leading from the outlet pipe beyond the cutoff valve back to the inlet pipe, and a one-way valve in this return pipe opening toward the inlet pipe.
11; The combination with a pumping system comprising a tank, a pump, an intake pipe leading to the tank, an injector in the disc arge pipe,
from the tank to the pump, a discharge pipe-leading from the ump back an inlet pipe leading to the injector whereby fluids are drawn into the pumping system, an outlet pipe leading from the pump whereby liquids may be forced fromthe system, a normally closed cut-off valve in the outlet pipe, and mechanism for opening the cut-off valve, of means for returning to the pumping system liquids that'leak through therut-Otf valve, this means comprising a return pipe leading from the outlet pipe beyond the cut-01f valve back to the inlet pipe, a valve in'the return pipe, and connections for closing this valve when the cutoff valve is open and vice versa. 4 12. The combination with a pumping sys-, tem comprising a tank,a pump, an intake pipeleading from the tank to the pump, a discharge pipe leading from the'pump back to the tank, an injector in the discharge pipe, an inlet pipe leading to the injector whereby fluids are drawn into the pumping system, an
routlet pipe leading from the pump whereby liquids-may be forced from the system, a normally closed cut-oil valve in the outlet pipe, and mechanism for opening the. cut-oil valve, of means for returning to the pumping system liquids that leak through the cut-011'- valve, 7
this means comprising a return pipe leading from the outlet pipe beyond the cut-0E valve whereby the latter valve will be held open against the action of the spring while the main cut-otf-valve is closed, but will be permitted to close when the main valve is opened.
13. The combination with a pumping system comprising a tank, a pump, an intake pipe leading from-the tank to the pump, a discharge pipe leading from the pump back to the tank, an injector in the discharge pipe, a relatively low pressure inlet pipe leading to the injector, and a relatively high pressure outlet pipe leading from the pump, of means for priming the pumping system comprising a normally open return conduit of small capacity between the high pressure outlet pipeand the low pressure inlet pipe.
' CLAYTON A. DUNHAM.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2459527A (en) * 1945-12-27 1949-01-18 Oliver United Filters Inc Valve for overflow systems
US2612112A (en) * 1947-11-24 1952-09-30 Cochrane Corp Condensate return system
US2651259A (en) * 1949-05-20 1953-09-08 Alanson P Brush Apparatus for controlling the operation of domestic water systems

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2459527A (en) * 1945-12-27 1949-01-18 Oliver United Filters Inc Valve for overflow systems
US2612112A (en) * 1947-11-24 1952-09-30 Cochrane Corp Condensate return system
US2651259A (en) * 1949-05-20 1953-09-08 Alanson P Brush Apparatus for controlling the operation of domestic water systems

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