US1380181A

US1380181A - Pump

Info

Publication number: US1380181A
Application number: US337750A
Authority: US
Inventors: Erasmus W Beck
Original assignee: Individual
Current assignee: Individual
Priority date: 1919-11-13
Filing date: 1919-11-13
Publication date: 1921-05-31
Anticipated expiration: 1938-05-31

Description

E. w BECK.

A PUMP'. APPLIQAUON'FILED Nov.13`.f1919.

Patented May 31,?4v

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PUMP.

APELlcATloN FILED Nov. 13. |919.

l, 1,380,181, l Patented May 31,1921.l

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yUNITED STATES Pa'riazNT OFFICE.

i ERASMUS W. BECK, 0F GRIFFIN, GEORGIA..

PUMP.

Specification of Lettersv Patent. y .Patelltd Maly 31, 1921 Application filed November 13, 1919. Serial No. 337,750.

useful Improvements in Pumps, of which the following is a specification.

The object' of the invention is to provide a simple, efficient and relatively inexpensive pneumatically operated pump adapted tobe rsubmerged in the water of a well or other source of supply and dependent for the actuation of its movable elements `entirely upon a supply of air underpressure under the control of means actuated by gravity and the level of the water within the pump changes in form, proportions and details may be resortedto within the' 'scope of the` appended claims without departing from` the yprinciple involved.

In the drawings: y

Figure 1 is a vertical sectional view of the apparatus `with the parts in the positions which they assume when the reservoir or casing is charged and the water therein is exposed to air pressure for the purpose of forcing it to the point of use.

Fig. 2 is a lan view of the same.

Fig. 3 is a orizontal sectionon the plane indicated by the line 3-3 of Fig. 1.

Fig. 4 is a detail vertical section taken on a plane at right angles to that of Fig. 1.

Figs. 5, 6' and 7 are horizontal sectional views on planes indicated by the lines 5 5, 6.-6, and 7-7 .of Fig. 1.

Fig. 8 'is a vertical section of the lowerpart or inlet end of the 'reservoir or casing' Ona4 plane at right angles to that of Fig. 1.

, The apparatus consists essentially of a submersible reservoir or casing 10 preferably yhaving a cylindrical `wall terminally fitted'with upper and lower heads. 11 and 12 held in place by exterior tie rods 13, the wall being-*stepped at its edges in suitable seats orjgrooves 11a and 12a` formed in the inner or facing surfaces of said heads, and means i mountediwithin the said reservoir or casing for controlling the communication `therewith of the feed and exhaust pipes 14 and 15 of which the former is designed to extend to any suitable source of pneumatic pres- Bncx, a y

sure sufiicient when the liquid content of the reservoir or casing is exposed thereto to expel the same through outlet pipes 16 havlng their open lower ends in communication with the interior of the reservoir or casing and their upper ends connected with a cored passage or channel 17 formed in the head 11 in communication with the water outlet or supply pipe 18. Arranged in the water outlet pipe is a check valve 19 to prevent back flow therefrom into the reservoir or casing while in the lower head 12 there is formed a cored inlet passage 2O having lateral inlet ports 21 Vand a valved communi-V cation with the interior of the casing formed, for example, by a removable seat 22 upon which is fitted an inwardly opening inlet valve 23 arranged in a suitable guard or cage 24. This inlet valve is adapted to be unseated to permit of the inflow of water to the casing or reservoir by the pressure of the latter when not held seated by internal pressure in the casing or reservoir Idue to the supply through the pressure feed pipe 14.

The communication between the pressure feed pipe andthe interior of the casing is controlled by aninwardly closing valve 25 having a stem 26 arranged in the path of movement of a valve operating disk or member 27 fittedto slide vupon a guide tube 28 or its equivalent, while communication between the pressure relief or outlet pipe 15 andthe interiorof'the casing or reser,

voir is controlled by an inwardly opening gagement bythe valve operating disk or element 27 said stem 81 preferably having a cushioning spring 32 so that the upward` movement of the disk 27 is communicated yieldingly to the valve 29 in the valve clos-v ing direction.

-Mounted in the casing or reservoir as upon thev guide 28, which as above noted is preferably tubular and is arranged concentri'cally in the casing or reservoir, is a float 33 adapted to be controlled in its posi- Y tion by the depth of the water in the' casing. and designed upon the approach to its up-V permost limit of movement to actuate the valve operating disk 27 to cause, through contact with the valve stems 26 and 31th e the escape of air from the casing or reser- 1 voir through the relief passage afforded by;` f:

the outlet pipe 15 is cut olf while pressure from the feed pipe 14 is admitted to cause the discharge of the liquidV contents of the casing or reservoir through the outlet pipes 16.

As the water in the casing or reservoir is discharged the float 33 follows the surface thereof but it is desired that the adjustment of the

valves

25 and 29 shall be maintained notwithstanding the withdrawal of the float from contact with the valve operating disk 27, to the end that the arrangement of the latter can be preserved until the level of the water in the reservoir shall have been de-V v and an operating rod 37 having a head 38 connected by links 39 with said locking arms and adapted when the operating rod 37 is moved upwardly to'spread said arms into disk holding position.

Connected with the lower end of said operating rod is a buoyant element 40, permanently submerged in the cont-ents of the casing or reservoir and tending to elevate said rod and hence to cause the spreading of thev arms 34 and consequently theholding of the valve actuating disk 27 in its elevated position, while also attached to said operating rod is a stop or tappet 41 arranged in the path of downward movement of the float 33 and adapted to be engaged thereby when the float reaches the limit of its downward movement to depress or downwardly move said operating krod against the influence of the buoyant element 40, to retract the locking arms 3 4 and thus permit the valve actuating disk 27 to' descend and release the stems of the

valves

25 and 29. I

Moreover in order to insure the unseating ofthe valve 29 which obviously might be held in position notwithstanding the withdrawal of the valve actuating disk 27 by the air pressure within the casing or reservoir7 the operating rod 37 is extended upward beyond the locking device and is connected with a valve unseating lever 42 fulcrumed as at 43 upon a suitable support such as an ear upon the cage or guard 30 and intermediately connected with the stem 3l of the valve 29. Therefore when the float reaches the limit of its downward movement'and contacts with the stop or tappet 41 to retract the locking device and release the valve and this relation is maintained until, water" having been admitted through the inlet channel 20, the inlet valve 23 having been unI seated by the pressure of the water outside of the casing or reservoir when the air pressure within the latter is relieved by the unseating of the valve 29, rises. to 'an extent sufficient to engage said disk and elevate it into valve actuating relation with the stems 26 and 31, whereuponV the upward tendency of the buoyant element 40 spreads thefarms of the locking device tosecure the said disk withthe valves in their adjusted positions.

1. A pneumatic pump having water inlet and outlet passages, the former being valved, and pressure supply and exhaust valves con# trolling pressure inlet and relief ports, a float actuatable bythe level of the water in the casing or reservoir, a valve actuating element movable to reverse the positions of said pressure inlet and exhaust valves and arranged inthe path of movement inl one direction of Saidfloat, a buoyantly actuated locking device for maintaining said valve actuating element in position to maintain said inlet and exhaust valves respectively in their open and closed positions,- and means actuatable by said float at the limit of its movement in the opposite direction for actuating the locking device to release said valve actuating element. s

2. A pneumatic pump having a casing or reservoir provided with inlet and exhaust passages of which the lformer is valved, and pressure supply and exhaust valves controlling inlet and outlet portsta lioat for aC-- tuation by the liquid contents of the casing or reservoir, a valve actuating element arranged in the path of movement in one di= rection of said float'for respectively opening and closing said supply and exhaust valves, a locking device for securing said valve actuating element in position to maintain said valves in their adjusted positions, and a buoyantly actuated operating rod for maintaining said locking device in position to engage said valve actuating element and having a tappet arranged in the path of liiotjfement 1n the opposite direction of said 3. A pneumatic pump having Ya casing or reservoir provided with inlet and outlet channels of which the former is valved, and pressure supply and exhaust valves con`` trolling inlet and outlet ports, a float ac= of movement in the opposite direction of said float Jfor movement thereby to disengage the locking device from the valve actuating I element and open said exhaust valve.

4. A pneumatic pump having a casing or reservoir provided with inlet Yand exhaust channels of which the former'is provided With an inwardly opening valve, pressure supply and exhaust ports in communication With said casing, supply and exhaust valves for controlling said ports and movable respectively and simultaneously to open and closed positions, a valve actuating lever in connection With said exhaust valve, a valve actuating element mounted for reciprocatory movement and adapted when moved in one direction to respectively open the supply valve and close the exhaust valve, a float actuatable by the liquid contents of the casing or reservoir and adapted at the limit of its movement in one direction to operate said valve actuating element to respectively unseat the inlet and seat the exhaust valve, a locking means for maintaining said valve actuating element in its adjusted position, and a buoyantly actuated operating rod connected Withsaid locking device and said valve operating lever and provided with a tappet in the path of movement in the opposite direction of said oat for simultaneously retracting said locking device and unseating the exhaust valve.V

5. A pneumatic pump having a casing or reservoir provided with inwardly opening valved inlet and outlet passages, pressure inlet and exhaust valves, a reciprocable valve 'actuating disk in the path of movement of Which are arranged the stems of said supply and exhaust valves, the latter having a cushioned Contact for engagement by said disk, a locking device having pivotally mounted arms for swinging movement to occupy a position in the path of valve releasing movement of said valve actuaing disk, a float actuatable by the liquid contents of the casing or reservoir, said valve actuating disk being arranged in the path of movement in one direction of said float, an operating rod connected with the arms of said locking device for moving the latter into and out of position in engagement With said disk, a permanently submerged buoyant element connected with said operating rod for yieldingly impelling the arms of said locking device into disk engaging positions, and a tappet carried by said operating rod in the path of movement in the opposite direction of said float for communicating disk releasing movement to the arms of said locking device.

In testimony whereof he aiixes his signature.

ERASMUS W. BE CK.