US1343574A - Automatic pump-priming device - Google Patents

Automatic pump-priming device Download PDF

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US1343574A
US1343574A US308816A US30881619A US1343574A US 1343574 A US1343574 A US 1343574A US 308816 A US308816 A US 308816A US 30881619 A US30881619 A US 30881619A US 1343574 A US1343574 A US 1343574A
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pump
chamber
pressure
plunger
communication
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US308816A
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Miller Raymond
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B7/00Piston machines or pumps characterised by having positively-driven valving
    • F04B7/04Piston machines or pumps characterised by having positively-driven valving in which the valving is performed by pistons and cylinders coacting to open and close intake or outlet ports
    • F04B7/06Piston machines or pumps characterised by having positively-driven valving in which the valving is performed by pistons and cylinders coacting to open and close intake or outlet ports the pistons and cylinders being relatively reciprocated and rotated

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  • Patented J mm 15, 1920 Patented J mm 15, 1920.
  • Another object is the provision of a pressure actuated device of the above character to be placed in communication with the pump chamber and with a pressure head of the fluid, as, for instance, the discharge outlet ot' the pump, and adapted; to be actuated by a comparatively low pressure in the pump chamber, relative to that of the pressure head for operation by the gases accumulated in the cylinder and compressed by the piston.
  • Figure 1 is a vertical longitudinal section of the pump showing the invention applied thereto.
  • Figs. 2 and 3 are fragmentary views of the same character illustrating the operation of the device and of the pump valves.
  • Fig. 4 is an exterior elevation of the priming device.
  • Fig. 5 is a top plan view of the same.
  • Figs. 6 and 7 are sections on the line 6"'-6 of Fig. 5 illustrating the valve in closed and open position respectively.
  • Fig. 8 is a section on the line 8---8 of Fig. 7 showing the movable part or valve body.
  • Fig. 9 is atop plan view ofthe latter.
  • This invention in the embodiment at present preferred as best illustrating the principles involved, is applied to a common variety of reciprocating type pump, although it is adapted for use with other types of such apparatus, and comprises an automatic, pressure operated valve for controlling communication between the pump chamber and a supply of the fluid under pressure, as for example that in the discharge outlet of a pump, for the purpose of admitting such fluid to the pump chamber to prime the pump, as in starting the latter, to prevent racing or pounding of the apparatus due to trapped gases in the pump chamber, and also for the purpose of permitting the escape of such gases.
  • the device has a pressure responsive surface subjected to the pressure developed in the pump chambers oflarger area than that subjected to the pressure head, so that it is sensitive to quite low pressure in the pump chamber relative to that of the discharge head, for operation by gases compressed in the chamber or cylinder by the piston.
  • the housing of the pump is indicated generally at 15, inelosing valve chambers 16 and 16 communicating by passages 1717 with the ends of the cylinder.
  • the intake pipe is indicated at 18, communicat ing with the intake chamber 19 which is separated from the valve chamber by a partition 20, while a partition 21 separates the valve chamber from the discharge chamber or outlet 22,'which communicates by means ofpipe 23 with the discharge head of the pump.
  • valves 24l-2 l and in the partition 21, valves 25-425 these valves being of the usual or any suitable type for apparatus of thischara'cter, adapted to be operated automatically by the pressures on oppositesides of the partitions or diaphragms, for the admission and discharge of fluid to. and from the valve chamber during the operation of-the pump.
  • the device comprises preferably a plug or sleeve 26 having a tapered and threaded portion 26 securely fitted in a correspondingly threaded opening formed in-the partition 21, one of these devices, of course, being provided for each valve chamber 16 and 16 of the double acting pump.
  • the plugor sleeve has an angular portion 27 to facilitate handling and screwing it into position and is formed with a central.
  • the boreoi' the plug is open at both ends so that the ends oi the plunger are subjected to the pressures at its opposite ends, the plunger having arpressure surface of larger areaon its portion 32 than on its portion 31, the latter being intended to be subjected to the pressure of the pump outlet or discharge head and the former or larger area to the pressure produced in the pump chamber.
  • the plunger is preferably formed centrally thereof: with a channel 2-32; opening through the end 32 thereof, and communicating at its upper end in the portion 31 of the plunger with a transverse channel 3%, Fig. 8, opening laterally oiithe plunger and forming a port 845:? which isopened or closed to external communication depending upon the position of the plunger in the sleeve, the latter operating to close the port, 34 and to clear'the latter of any accumulateddirt or obstruction as the correspondingend of the plungeris; drawn within the sleeve during.
  • the plunger, or the bore of the sleeve may be formed with suitable sealing means to prevent the entrance of water to the space in the bore inside the end 32 of theplunger, and there is shownfor this purpose in the present instance a plurality of annular grooves 4C0 formed in the plunger and in the bore of the sleeve in which moisture or lubricant collects and forms a seal, as is well understood in the art.
  • the areas'of the pressure surfaces of the plunger subjectedto the pressures on opposite sidesofthe partition 21 are different with the larger area on the side of the pump'chamber and the ratio of these areas is intended to be selected or designed with reference to the degree of pressure'of the discharge head against which the pump works, as well as to the character ofcfluid being handled, and other operating conditions, so that a comparatively low vpressure generated by the piston inthe gasesfilling the pump chamberor cylinder, operating on the larger area of the valve or plunger, will raise the latter, during the discharge strokes ofthe pump exposing the port 84: and thereby opening communication between the pump chamber and thedischarge head or outlet of the pump, and permitting fluid to flow down through the plunger into the pump cylinder to prime the latter in a short 1 while, and the spray of fluidthus admitted serves to condense the gases or vapors frequently formed.
  • the combination with a pump, of an automatic priming valve therefor comprising a sleeve communicating with the pump chamber and discharge outlet, and a plunger in said sleeve having a channel therethrough communicating at one end with the pump chamber and opening laterally of the plunger adjacent its other end for communication with said outlet, said plunger having a surface subjected to the pressure of said outlet and a second surface larger than the first subjected to the pressure in said pump chamber, and being movable in the sleeve by said pressures to open communication between said lateral opening and outlet during the discharge stroke of the pump and to close said communication during the intake stroke of the pump.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Details Of Reciprocating Pumps (AREA)

Description

R. MILLER.
AUTOMATIC PUMP PRIMING DEVICE.
APPLICATION FILED JULYS, 1919.
1,343,574. Patented June 15, 1920 UNITED STATES PATENT orrlcs.
RAYMOND MILLER, OF ROCHESTER, NEW YORK.
AUTOMATIC PUMP-PRINTING DEVICE Specification of Letters Patent.
Patented J mm 15, 1920.
Application filed'iruly 5, 1919. Serial No. 308,816.
To all whom it may concern Be it known that I, RAYMOND MILLER, of the city of Rochester, county of Monroe, and State of New York, have invented certain new and useful Improvements in Automatic Pump-Priming Devices; and I do hereby declare the following to be a full, clear, and
exact description of the same, reference be- 1 fluid to the pump chamber.
Another object is the provision of a pressure actuated device of the above character to be placed in communication with the pump chamber and with a pressure head of the fluid, as, for instance, the discharge outlet ot' the pump, and adapted; to be actuated by a comparatively low pressure in the pump chamber, relative to that of the pressure head for operation by the gases accumulated in the cylinder and compressed by the piston. To these and other ends the invention consists in certain improvements and combinations of parts, all as will be hereinafter more fully described,'the novel features being pointed out in the claims at the end of the specification.
In the drawings:
Figure 1 is a vertical longitudinal section of the pump showing the invention applied thereto.
Figs. 2 and 3 are fragmentary views of the same character illustrating the operation of the device and of the pump valves.
Fig. 4 is an exterior elevation of the priming device.
Fig. 5 is a top plan view of the same.
Figs. 6 and 7 are sections on the line 6"'-6 of Fig. 5 illustrating the valve in closed and open position respectively.
Fig. 8 is a section on the line 8---8 of Fig. 7 showing the movable part or valve body.
Fig. 9 is atop plan view ofthe latter.
Similar reference characters throughout the several views indicate the same parts.
This invention, in the embodiment at present preferred as best illustrating the principles involved, is applied to a common variety of reciprocating type pump, although it is adapted for use with other types of such apparatus, and comprises an automatic, pressure operated valve for controlling communication between the pump chamber and a supply of the fluid under pressure, as for example that in the discharge outlet of a pump, for the purpose of admitting such fluid to the pump chamber to prime the pump, as in starting the latter, to prevent racing or pounding of the apparatus due to trapped gases in the pump chamber, and also for the purpose of permitting the escape of such gases. The device has a pressure responsive surface subjected to the pressure developed in the pump chambers oflarger area than that subjected to the pressure head, so that it is sensitive to quite low pressure in the pump chamber relative to that of the discharge head, for operation by gases compressed in the chamber or cylinder by the piston.
Referring to the drawings:
10 denotes one cylinder of a double acting, reciprocating type pump, having a piston 11 actuated by a piston rod 12 working in a packing gland and bearing 13, the apparatus being supported on a pedestal or base 1 1-. The housing of the pump is indicated generally at 15, inelosing valve chambers 16 and 16 communicating by passages 1717 with the ends of the cylinder. The intake pipe is indicated at 18, communicat ing with the intake chamber 19 which is separated from the valve chamber by a partition 20, while a partition 21 separates the valve chamber from the discharge chamber or outlet 22,'which communicates by means ofpipe 23 with the discharge head of the pump. In the partition 20 are valves 24l-2 l and in the partition 21, valves 25-425 these valves being of the usual or any suitable type for apparatus of thischara'cter, adapted to be operated automatically by the pressures on oppositesides of the partitions or diaphragms, for the admission and discharge of fluid to. and from the valve chamber during the operation of-the pump.
The priming device shown as located in the partition between the valve chamber and discharge outlet of the pump, but, of course, could be located so as to afford communication between the pump chamber and some other pressure head of the fluid, the present arrangement being desirable because of its convenience. The device comprises preferably a plug or sleeve 26 having a tapered and threaded portion 26 securely fitted in a correspondingly threaded opening formed in-the partition 21, one of these devices, of course, being provided for each valve chamber 16 and 16 of the double acting pump. The plugor sleeve has an angular portion 27 to facilitate handling and screwing it into position and is formed with a central.
bore in two sections, one of smaller diameter 28and one of relative larger dlameter 29;
.lleciprocating longitudinally in the bore of the plug is'a movable part comprising a valve or'plunger 30 having a portion of smaller diameter 31 slidably ntted in the section 28 of the bore, and a portion 32 of relatively larger diameter similarly fitted in the section 29 of the bore. As apparent irolnthe drawings, the boreoi' the plug is open at both ends so that the ends oi the plunger are subjected to the pressures at its opposite ends, the plunger having arpressure surface of larger areaon its portion 32 than on its portion 31, the latter being intended to be subjected to the pressure of the pump outlet or discharge head and the former or larger area to the pressure produced in the pump chamber. r
The plunger is preferably formed centrally thereof: with a channel 2-32; opening through the end 32 thereof, and communicating at its upper end in the portion 31 of the plunger with a transverse channel 3%, Fig. 8, opening laterally oiithe plunger and forming a port 845:? which isopened or closed to external communication depending upon the position of the plunger in the sleeve, the latter operating to close the port, 34 and to clear'the latter of any accumulateddirt or obstruction as the correspondingend of the plungeris; drawn within the sleeve during.
fits reciprocation as shown in Fig. 6. 'The otherposition oi' the plunger in which communication is established between theends of the sleeve is shown in Fig. 7 The section 29 of the bore of the sleeve isprovided with abutments or stops 35 and 36 for limitingthe reciprocatory movement of the plunger, the latter being iormed preferably in tegral with the sleeve and the fermer on a ring 37 screwed into the end of the bore.
'The'loore is extended beyond the stop; 36,
providing an air chamber 38 in whichany air accumulated, in the bore interiorly of the end 82 of the plunger may be compressed during the movement of the plungerwitlr out obstructing the movement of the latter.
The plunger, or the bore of the sleeve, may be formed with suitable sealing means to prevent the entrance of water to the space in the bore inside the end 32 of theplunger, and there is shownfor this purpose in the present instance a plurality of annular grooves 4C0 formed in the plunger and in the bore of the sleeve in which moisture or lubricant collects and forms a seal, as is well understood in the art.
The operation of the device will'be clear from a brief explanation in connection with the above description of its construction. Vl hen a pump has stood idle for a-time the water frequently escapes from the cylinder so that when it is again started air and gases partiallyor completely fill the cylinder and valve chamber and the pump'races or pounds inelfectively for a period with objectionable noise. and danger to the mechanism until suiiicient fluid'has been drawn into fill these chambers and operate the valves. Various devices have been employed for overcoming this dificulty with various objectionable features attending their use which are overcome by the present invention. 'As explained, the areas'of the pressure surfaces of the plunger subjectedto the pressures on opposite sidesofthe partition 21 are different with the larger area on the side of the pump'chamber and the ratio of these areas is intended to be selected or designed with reference to the degree of pressure'of the discharge head against which the pump works, as well as to the character ofcfluid being handled, and other operating conditions, so that a comparatively low vpressure generated by the piston inthe gasesfilling the pump chamberor cylinder, operating on the larger area of the valve or plunger, will raise the latter, during the discharge strokes ofthe pump exposing the port 84: and thereby opening communication between the pump chamber and thedischarge head or outlet of the pump, and permitting fluid to flow down through the plunger into the pump cylinder to prime the latter in a short 1 while, and the spray of fluidthus admitted serves to condense the gases or vapors frequently formed. in pumping hot:or volatile liquids, thus assisting in the priming action. As soon as the'cyhnder is supplied with a considerable quantity of fluid the latter will reach .on the discl argestroke' of the pump through the discharge valves well. Dur 7 ing the intake strokes of the pump the priming device, of course, closes, preventing the entryof fluid, so that during the operation of the pumplthe efiiciencyot the latteris in no wise reduced by the priming device.
l1l'"t1'1 16 L GVICG 1S BX reme y SlIIlP 8, comprising and the plunger may be manufactured with a considerable range of area ratios so that the device may be supplied to the trade in proper dimensions to accommodate the re-. quirements of any working conditions.
I claim as my invention:
1. The combination with a pump, of an automatic priming device communicating with the pump chamber and the pump discharge outlet and having a movable part operating to establish communication between said chamber and outlet during the discharge stroke of the pump, and to close communication between said chamber and outlet during the intake stroke of the pump.
2. The combination with a pump, of an automatic priming device comr'nunicating with the pump chamber and the pump discharge outlet and comprising a valve adapted to be closed by the pressure in said outlet during the intake stroke of the pump, and to be opened by the pressure in said pump chamber during the discharge stroke of the pump.
3. The combination with a pump, of a pressure operated, priming valve communicating with the pump chamber and,- the pump discharge outlet, comprising a part adapted to be moved by the pressure in the pump discharge outlet during the intake stroke of the pump to close communication between said pump chamber and discharge outlet, and to be moved by the pressure in the pump chamber during the discharge stroke of the pump to open communication between the pump chamber and discharge outlet.
l. The combination with a pump, of a pressure responsive priming valve controlling communication between the pump chamber and discharge outlet and comprising a movable part having surfaces of different areas subjected to the pressures in said chamber and outlet, respectively, and moved by said pressures to open said communication during the discharge stroke of the pump, and to close said communication during the intake stroke of the'pump.
5. The combination with a pump, of a pressure responsivepriming valve controlling communication between the pump chamber and a pressure head, and comprising a movable part having pressure surfaces of differential areas subjected to the pressures in said chamber and of said head, respectively, and movable by said. pressures to open said communication during the discharge stroke of the pump, and to close said communication during the intake stroke of the pump. 1;
6. The combination with a pump, of a pressure responsive priming valve controlling communication between the' pump chamber and discharge outlet and comprising a movable part having a surface subjected to the pressure in said chamber and also a surface of less area than the first men-' tioned surface subjected to the pressure in said outlet, and moved by said pressures to open said communication during the discharge stroke of the pump, and to close said communication during the intake stroke of the pump.
7. The combination with a pump, of an automatic priming valve controlling communication between the pump chamber and a pressure head, comprising a supporting means and a part movable on said means by the pressures in said chamber and of said head and responsive to a less pressure in said chamber than that of said head for opening said communication during the discharge stroke of the pump, and closing said com munication during the intake stroke of the pump. 7
8. The combination with a pump, of an automatic priming valve controlling communication between the pump chamber and a pressure head, comprising a sleeve and a plunger in said sleeve having a surface subjected to said pressure head and a surface larger than the first mentioned surface subjected to the pressure in said pump chamber, said plunger being movable by said pressures to open said communication during the discharge stroke of the pump, and to close said communication during the intake stroke of the pump.
9. The combination with a pump, of an automatic priming valve therefor, comprising a sleeve communicating with the pump chamber and discharge outlet, and a plunger in said sleeve having a channel therethrough communicating at one end with the pump chamber and opening laterally of the plunger adjacent its other end for communication with said outlet, said plunger having a surface subjected to the pressure of said outlet and a second surface larger than the first subjected to the pressure in said pump chamber, and being movable in the sleeve by said pressures to open communication between said lateral opening and outlet during the discharge stroke of the pump and to close said communication during the intake stroke of the pump. 7
10. The combination with a reciprocating type pump, having a discharge outlet and a valve chamber separated by a partition provided with an opening, of a sleeve in said opening, a plunger reciprocating in said sleeve having a bore therethrough communieating at one end With said chamber and opening laterally of said plunger adjacent its other end in position to be covered and uncovered by said sleeve during the reciprocation of said plunger, and pressure surfaces of difiierent areas on said plunger subjected to the pressures in said outlet and chamber, respectively, for reciprocating said plunger 10 and controlling communication between said outlet and chamber.
RAYMOND MILLER.
US308816A 1919-07-05 1919-07-05 Automatic pump-priming device Expired - Lifetime US1343574A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2463341A (en) * 1946-02-25 1949-03-01 Fmc Corp Motor pump with sand trap and piming means
US4422831A (en) * 1981-11-02 1983-12-27 Bender Machine Works, Inc. Pump
US5423229A (en) * 1991-07-30 1995-06-13 Halliburton Company Apparatus and method for draining high pressure fluid samples without mercury

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2463341A (en) * 1946-02-25 1949-03-01 Fmc Corp Motor pump with sand trap and piming means
US4422831A (en) * 1981-11-02 1983-12-27 Bender Machine Works, Inc. Pump
US5423229A (en) * 1991-07-30 1995-06-13 Halliburton Company Apparatus and method for draining high pressure fluid samples without mercury

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