US2276358A - Power saving pump jack - Google Patents

Description

March 17, 1942. H. F. VICKERS POWER SAVING PUIIP JACK Filed Oct. 15, 1938 2 Sheets-Sheet l 3 m .c w E $8 R M H nu NM 1 March 17, 1942. H. F, VICKERS 2,276,353

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" Filed Oct. 15, 1938 I 2 Sheets-Sheet 2 INVENTOR. Hap/r) F Vic/(Em ATTORNEYS.

Patented Mar. 17, 1 942 POWER SAVING PUDIP JACK Harry F. Vickers, Detroit, Mich, assignor to Vickers Incorporated, Detroit, Mich., a corporation of Michigan Application October 15, 1938, Serial No. 235,115

15 Claims.

This invention relates to a hydraulic pump jack unit and mechanism for actuating and controlling the same.

The mechanism contemplated by the present" invention is adapted for use particularly with hydraulic pumping units used for pumping oil wells and the like. In the mechanism now used for these pumping units it is customary to provide a counterbalancing means consisting of an air accumulator or weight accumulator to control the downward motion of the piston in the pump cylinder. Without some such control, the weight of the column of oil and sucker-rods on the pumping piston will accelerate the same downwardly at too rapid a rate and cause damage to the pumping apparatus.

An object of the present invention is to provide a mechanism whereby the potential energy in the pumping system, as the piston reaches its top position, may be transferred to electrical energy through the same mechanism which normally furnishes the pressure liquid for the upstroke.

A further object of the invention is to. provide a controlling and actuating mechanism for a pump jack which needs no counterbalancing means and which permits the recovery of a substantial portion of the electric current used in driving the pump jack during the upstroke. An additional object of the invention is to provide a pump jack which is self-starting and which has a safety deceleration valve to prevent the piston from getting out of control regardless of the condition of the driving motor, the failure of the coupling between pump and motor or an accident to the pipe line connecting the pump unit and the pump jack cylinder.

Another object of the invention has to do with an auxiliary control actuated by the pump jack piston and utilizing a pilot control pressure obtained from the base of the work cylinder to operate control valves in a remotely positioned unit.

Other objects and features of the invention have to do with details of construction and operation and with other safety features as will be set forth in the following specification and claims.

In the drawings:

Fig. 1 is a sectional view of the entire apparatus.

Fig. 2 is a partial section of the control unit of Fig. 1 showing a pilot operated valve in an up position.

Fig. 3 is a view similar to that of Fig. 2 showing the pilot operated valve in down position.

Figs. 4 and 5 are detail views of a deceleration valve for the pump jack.

Fig. 6 is a section taken on the lines 6-6 of Fig. 4.

Referring to Fig. 1, a motor In is shown mounted on top of a tank I l in which is mounted ,a control unit housing generally designated as l2. An upright pump jack cylinder 13 is hydraulically connected to the control unit ii in a manner which will be later referred to. A piston M is slidably mounted in the cylinder l3 and a control valve, to be actuated by the movement of piston I4, is shown at I5.

The motor is either an alternating current induction motor or a direct current motor and is', connected to power lines l6 and ll by lines l8 and it]. Any conventional motor will generate electrical energy when mechanically driven but the two types above mentioned are the more eflicient. The motor I0 is provided with a shaft which is connected at one end to a gear pump 2i. This gear pump 2i is housed in the control unit casing H! as is also a pilot operatedvalve 22. Thevalve 22 is slidably retained in acylindrical recess 23 and consists of threespools 24, 25 and 26, connected by narrowedportions 21 and 28. Aspring 29, mounted at the right end of thevalve 22, urges the valve toward the left. Various passageways and .other details of the control unit I2 will be described in. connection with the operation of the mechanism.

Considering now the cylinder l3, a dome 'is provided at the top thereof and adapted to receive aprojection 3| on the top of the piston I4. At the base of the cylinder I3 is ahousing 32 for deceleration and safety valves which will later be described. In thehousing 32 and the dome 30 arechambers 33 and 34 in which are mounted bell crank levers 35 and 36, respectively. These levers are pivoted respectively at 31 and 38 and the outer ends of each are connected by arod 39. The inner ends of the levers are adapted to project into the cylinder [3. The levers being connected so that one of them may project into the cylinder at one time. Within the valve I5 is a rotating element |5a which is operatively connected to the lever 36, this connection being shown diagrammatically only.

A piston rod is shown at 40 extending from the piston-l4 downwardly into thewell pipe 4|. Apiston 42 is shown at the bottom of the rod 40 and represents diagrammatically the pumping unit for the oil well or other shaft. An outlet about 10 feet and also thepumping unit 42 is located deep in the ground so that above it there is a high column of liquid.

Referring now to the operation: When the motor i6 is started,shaft 26 rotates in the direction as shown by the arrow and liquid from the tank I 1 passes to thepump 2! through a conduit 44, past acheck valve 45, and throughconduits 46 and 41. Pressure fluid passes from the pump throughconduit 48 to the valve recesses and is permitted to flow freely around the narrowed portion 2i of thevalve 22 and to the tank throughdrain line 56.

Assuming now that the piston M in the eviinder it has just reached its lowermost position and has actuated the lever 36 into the position shown in Fig. 1,. the valve member Ida will be rotated into the position shown in Fig. 1 andvalve 22 will be as shown in Fig. 3. With the valve Him in this position, pilot pressure from the base of the cylinder l3 in thehousing 32 causes the liquid to flow through a conduit 46 to the valve housing l5. Here it passes through a transverse opening 50 in the valve member I50; to a conduit, 5! which directs the pilot pressure to the right end of thevalve 22 in thehousing 2. The pilot pressure passes through acheck valve 52 and past aneedle valve 52a, the function of which will later be described. Thevalve 22 is now urged to the left by the pilot pressure and this movement is resisted by reason of an ad justable needle valve 63a which restricts the flow of liquid from thechamber 23 to the left ofvalve 22 thereby controlling the rate of travel of saidvalve. Liquid from the end of thechamber 23 passes around the needle valve 530. to aconduit 54 which leads back to the valve member-lie and through a transverse passageway therein to a conduit 55 which leads to the tank. It will be seen that by reason of theneedle valve 53a, the movement of thevalve 22 to the left will be gradual. The final left-hand position of the valve is shown in Fig. 2.

In Fig. 1 thevalve 22 is shown just as it has started its movement in the direction of the arrow. Liquid has been passing through thelines 48, as previously described, and past thevalve portion 21 to atank conduit 56. As the valve spool 25, with itstapered portion 25a, moves to the left, it gradually closes thepassageway 48 from thepassageway 56. Pressure then builds up inpassageway 48 since arelief valve 51 blocks a tank passageway 58. Pressure alsobuilds up in asupply passageway 59 against a check valve- 60. When this pressure has reached a point such that thecheck valve 66 is overcome, liquid under pressure passes from the pump 2l' through thepassageway 59 to amain conduit 65 leading to thehousing 32 and the lower portion of the cylinder I3. This pressure liquid raises the piston H to the top of the cylinder.

As the piston approaches the top of the cyl-' inder the portion 3lcontacts the lever '35 and actuates therod 39 and therefore the valve rotor l5a. By this action the valve rotor l5a is moved to a position where the conduit 49 is connected to theconduit 54. Pilot pressure now passes from the lower portion of the cylinder l3 to the left end of the pilot operatedvalve 22 through a check valve 53-. Thevalve 22 is moved to the right and the movement will again be gradual by reason of the restrictedflow around theneedle valve 52a. It will be seen that as thevalve 22 moves to the right, thepassageway 48 is again open to thetank line 56 and the pressure-which is moving the piston l4 upwardly is relieved.

Piston M then starts to descend and forces the liquid in the cylinder l3 back into themain conduit 6|. The check valve 60 operates to prevent the liquid from enteringconduit 59 and the liquid enters areturn conduit 62 which leads to thevalve 22. As thevalve 22 is moved to its righthand position, as shown in Fig. 3, theconduit 62 is opened to aconduit 63 which leads to thepump inlet conduit 41, since the fluid is then permitted to flow around the narrowedportion 28 ofvalve 22. Consequently the fluid exhausting from the lower portion of the cylinder l3 passes directly through thepump 2| and tends to drive the same as a motor which in turn drives the electric motor Ill. The electric motor, being connected to the power line, tends to maintain its normal rate of speed and, since the driving actionthereon will tend to-turn it at a rate faster than its normal rate, the current will be reversed and energy will be generated and passed into the power lines.

By using a special electric meter which will run backward as well as forward, only the net current used in the operation of the motor ill will be recorded and the consumer will thereby get credit for the current put back in the line.

When the piston I4 reaches the end of its downward stroke, the lever 36 will be actuated by the piston and the element l5a of the valve'lt' will be again moved to the position shown in Fig. 1. This will restart the cycle which has just been described by again moving thevalve 22 to the left and directing pressure fluid from the pump to the cylinder IS.

The hoist unit is self-starting since spring 2Q moves thecontrol valve 22 to the left to the position shown in Fig. 2 when the system is not in operation; and, when the electric motor I0 is started, pressure is immediately developed inlines 48, 59 and 6|, to cause the piston to move upward. As soon as pressure is developed, the pilot valve l5 becomes operative to control the movement of thecontrol valve 22 and the piston Asafety deceleration valve 65, found in thehousing 32 will now be described. This valve is provided to prevent excessive downward speed of the piston 14 and is always available as a safety device in case electric current which is driving motor I0 is suddenly disconnected or in case of breakage of fluid line 6| or the coupling not shown), between electric motor In and pump 2i. Thevalve 65, which is shown in detail in Figs. 4, 5 and 6, consists of ashuttle 66 which is slidable in acylindrical recess 61. This shuttle consists of a small piston-like member having anaxial opening 68 and circumferentially spaced,longitudinal slots 63. Aspring 18 tends to hold the valve to the right as shown in Fig. 4. Normally theshuttle 66 will-permit liquid to pass to and from the cylinder l3 freely since the liquid may pass through the central opening 68v and also the longitudinal passageways orslots 69. In the event, however, of a failure in any portion of the pressure lines leading from the pump to the work cylinder, or in the event of a failure of the electric current, coupling or fluid line on the upstroke or downstroke of the piston I4, the piston II will immediately start to descend by force of gravity. The flow of liquid from the cylinder will, of course, be

through and around theshuttle 66. When the rate of flow of liquid through this valve increases to a certain velocity the resistance of the spring is overcome and the shuttle will be moved to the position shown in Fig. 5. In this position, an end H of the shuttle seats at I2 in such a manner that liquid may no longer flow through thepassageways 69 butonly through thecentral aperture 68. Thisaperture 68 is proportioned in size for any given application of the apparatus so that the rate of the descent of the piston is reduced to a safe speed. After the piston M has descended to a point where it covers the opening to thevalve 65 there will be a dash-pot action which is regulated by a relief valve I3 open on one side to the lower portion of the cylinder and on the other side to thepipe 61 through a passageway 14. A check valve is provided to admit starting pressure from the pipe 6| to the lowermost portion of the cylinder l3 if the piston H has descended to a point below the deceleration valve port before stopping. The relief valve is so proportioned that it stops the piston with a gradual deceleration and prevents it from striking the bottom of the cylinder with sufiicient velocity as to produce any detrimental stress in the piston rod 40.

What I claim is:

l. A self-reversing power driven' hydraulic pump jack unit comprising a substantially vertical cylinder and pump jack, an electric motor, a pump driven by said motor, and hydraulic control valves for directing pressure to and from said pump and pump jack whereby said pump jack serves, in its downward stroke, to drive said pump and said motor and to effect return of electrical energy to the power lines by which the motor is usually driven.

2. An electric and hydraulic'power apparatus for actuating a hydraulic piston, which comprises a mechanism. operable as a pump and a motor, an electric motor operably connected to said mechanism adapted to drive said mechanism and be driven thereby, and means for controlling flow of fluid to and from said mechanism whereby during one portion of a stroke of said piston, said mechanism acts as a pump, and, during a second portion of the stroke of said piston, said mechanism acts as a motor for driving said electric motor whereby electrical energy may be furnished from said electric motor.

3. A self-reversing hydraulically actuated pump jack unit comprising a substantially vertical cylinder, a piston operable in said cylinder. an electric motor, power lines for furnishing electrical energy to said motor, a pump housing, a hydraulic pump in said housing adapted to be driven as a hydraulic motor and operably connected with said electric motor, and a hydraulic system comprising a series of conduits and valves for directing pressure liquid fromsaid pump to said cylinder during the upstroke of the piston and for directing pressure liquid from said cylinder to said motor during the downstroke of said pump whereby said pump is driven as a motor and said electric motor is actuated by said pump motor to return electrical energy to the power lines.

4. A self-reversing hydraulically actuated pump jack unit comprising a substantially vertical cylinder, a piston operable in said cylinder, an electric motor, power lines for furnishing electrical energy to said motor, a pump hous n a hydraulic pump in said housing adapted to be driven as a hydraulic motor and operably connected withsaid electric motor, and a hydraulic system for directing liquid to and from said pump and cylinder comprising a main conduit between said pump housing and said cylinder having pump end branches to the inlet and outlet of said pump respectively, and valves for 1 opening said main conduit to one or the other of said branches, whereby liquid under pressure may be furnished from said pump to said cylinder during the upstroke of said piston and from said cylinder to the inlet of said pump during the gravity downstroke of said piston.

5. A self-reversing hydraulically actuated pump jack unit comprising a substantially vertical cylinder, a piston operable in said cylinder, an electric motor, power lines for furnishing electrical energy to said motor, a pump housing, a hydraulic pump in said housing adapted to be driven as a hydraulic motor and'operably connected with said electric motor, and a hydraulic system for directing liquid to and from said pump and cylinder comprising a main conduit between said pump housing and said cylinder, said conduit being composed of two branch conduits at the pump end, one branch being a return conduit open to the pump inlet and one branch being a supply conduit open to the pump outlet, whereby pressure liquid may be furnished from said pump to said main conduit and cylinder during the upstroke of said piston, and from said main conduit and cylinder to said pump during a downstroke of said piston.

6. A self-reversing hydraulically actuated pump jack unitcomprising a substantially vertical cylinder, a piston operated in said cylinder, an electric motor, power lines for furnishing electrical energy to said motor, a pump housing, a hydraulic pump in said housing adapted to be driven as a hydraulic motor and operably connected with said electric motor, and a hydraulic system for directing liquid to and from said pump and cylinder comprising a main conduit between said pump housing and said cylinder, said conduit being composed of two branch conduits at the pump end, one branch being a return conduit open to the pump inlet and one branch being a supply conduit open to the pump outlet, a control valve for opening and closing said return branch conduit, and a check valve in said supply branch conduit, whereby pressure liquid may be furnished from said pump to said main conduit and cylinder during the upstroke of said piston, and from said main conduit and cylinder to said pump during a downstroke of said piston.

7. A self-reversing hydraulically actuated pump jack unit comprising a substantially vertical cylinder, a piston operable in said cylinder, an electric motor, power lines for furnishing electrical energy to said motor, a pump housing, a hydraulic pump in said housing adapted to be driven as a hydraulic motor and operably connected with said electric motor, and a hydraulic system for directing liquid to and from said pump and cylinder comprising a main conduit between said pump housing and said cylinder, said conduit being composed of two branch conduits at the pump end, one branch being a supply conduit open to the pump outlet and one branch being a return conduit open to the pump inlet, a control valve for opening and closing said latter branch conduit, and a check valve in said former branch conduit, whereby pressure liquid may be furnished from said pump to said main conduit and cylinder during-the upstroke of said piston, and from said main conduit and cylinder to said pump during a downstroke of said piston, and means responsive to the movement of said piston for actuating said control valve to direct liquid from said cylinder and, main conduit through said return branch to the inlet of said pump.

8. A sell-reversing hydraulically actuated pump jack unit comprising a substantially vertical cyl inder, a piston operable in said cylinder, an electrio motor, power lines for furnishing elcctiical energy to said motor, a pump housing, a hydraulic pump in said. housing adapted to be driven as a hydraulic motor and operably connected with said electric motor, and a hydraulic system for directing liquid to and from said pump and cylinder comprising a main conduit between pump housing and said cylinder, said conduit being composed of two branch conduits at the pump end, one branch being a supply conduit open to the pump outlet and one branch being a return conduit open to the pump inlet, a control valve for opening and closing said latter branch conduit, and a check valve in said former branch conduit, whereby pressure liquid may be furnished from said pump to said main conduit and cylinder during the upstroke of said piston, and from said main conduit and cylinder to said pump during a dcwnstrcke of said piston, and a pilot valve means responsive to the movement of said piston for directing pilot liquid from said cylinder to one end or the other of said control valve to actuate the same.

9. A sell-reversing hydraulically actuated pump jack: unit comprising a substantially vertical cylinder, a piston operable in said cylinder, an electric motor, power lines for furnishing electrical energy to said motor, a pump housing, a hydraulic pump in said housing adapted to be driven as a hydraulic motor and operably connected with said electric motonand a hydraulic system for directing liquid to and from said pump and cylinder comprising a main conduit between the lower end of said cylinder and said pump housing. said conduit being composed of two branch conduits at the pump end, one branch being a supply conduit open to the pump outlet and one branch being a return conduit open to the pump inlet, a tank, a tank opening leading to each of said branches, and a control valve adapted when shifted to open and close said supply branch tank opening and said return branch, whereby pressure liquid may be furnished from said pump to said supply conduit, main conduit and cylinder to effect the upstroke of said piston, and from said cylinder, main conduit and return conduit to said pump during a downstroke of said piston, the latter flow serving to drive said pump as a motor to -eifect rotation of said electric motor and return of energy to power lines.

10. A sell-reversing hydraulically actuated pump jack unit comprising a substantially vertical cylinder, a piston operable in said cylinder, an electric motor, power lines for furnishing electrical energy to said motor, a pump housing, a hydraulic pump in said housing adapted to be driven as a hydraulic motor and operably connected with said electric motor, and a hydraulic system for directing liquid to and from said pump and cylinder comprising a main conduit between the lower end of said cylindei and said pump housing, said conduit being composed of two branch conduits at the pump end, one branch being a supply conduit open to the pump outlet and one branch being a return conduit open to the pump inlet, a tank, a tank opening leading to each of said branches, and a pilot operated control valve adapted when shifted to open and close said supply branch task opening and said return branch, whereby pressure liquid may be furnished from said pump to said supply conduit, main conduit and cylinder to effect the upstroke of said piston, and from said cylinder, main conduit and return. conduit to said pump during a downstroke of said piston, the latter flow serving to drive said pump as a motor to effect rotation of said electric motor and return of energy to power lines, and a pilot valve means responsive to the movement of said piston for directing pilot liquid to said control valve to actu" ate the same.

11. A self-reversing hydraulically actuated pump jack unit comprising a substantially vertical cylinder, a piston operable in said cylinder, an electric motor, power lines for furnishing electrical energy to said motor, a pump housing, a hydraulic pump in said housing adapted to be driven as a hydraulic motor and operably connected with said electric motor, and a hydraulic system for directing liquid to and from said pump and cylinder comprising a main conduit between the lower end of said cylinder and said pump housing, said conduit being composed of two branch conduits at the pump end, one branch being a return conduit open to the pump inlet and one branch being a supply conduit open. to the pump outlet, a tank, a tank opening leading to each of said branches, and a control valve adapted when shifted to open and close said sup ply branch tank opening and said return branch, means cooperating with said control valve to re strict the rate of movement thereof, and a check valve in said return branch tank opening and in said supply branch, whereby pressure may be furnished through said main conduit to effect the upstroke of said piston, and directed from said cylinder to the inlet of said pump during a downstroke of said piston.

12. A self-reversing hydraulically actuated pump jack unit comprising a substantially vertical cylinder, a piston operable in said cylinder, an electric motor, power lines for furnishing electrical energy to said. motor, a pump housing, a hydraulic pump in said housing adapted to be driven as a hydraulic motor and operably connected with said electric motor, and a hydraulic system for directing liquid to and from said pump and cylinder comprising a main conduit between the lower end of said cylinder and said pump housing, said conduit being composed of two branch conduits at the pump end, one branch being a return conduit open to the pump inlet and one branch being a supply conduit open to the pump outlet, a tank, a tank opening leading to each of said branches, and a control valve adapted when shifted to open and close said supply branch tank opening and said return branch, means cooperating with said control valve to restrict the rate of movement thereof, and a check valve in said return branch tank opening and in said supply branch, whereby pressure may be furnished through said main conduit to effect the upstroke of said piston, and directed from said cylinder to the inlet of said pump during a downstroke of said piston, and a pilot valve means responsive to the movement of said piston for directing pilot liquid to said control valve to actuate the same.

13. A self-reversing hydraulically actuated pump jack unit comprising a substantially vertical cylinder, a piston operable in said cylinder,

an electric motor, power lines for furnishing elecfiow from said cylinder to said pump whereby said flow is automatically restricted to a predetermined volume.

14. A self-reversing hydraulically actuated pump jack unit comprising a substantially vertical cylinder, a piston operable in said cylinder, an electric motor, power lines for furnishing electrical energy to said motor, a pump housing, a hydraulic pump in said housing adapted to be driven as a hydraulic motor and operably connected with said electric motor, and a hydraulic system for directing liquid to and from said pump and cylinder comprising a main conduit between said pump housing and said cylinder having pump end branches to the inlet and outlet of said pump respectively, valves for opening said main conduit to one or the other of said branches, and a safety deceleration valve for controlling flow from said cylinder to said pump comprising a spring biased shuttle normally positioned to present a relatively large flow orifice to said main conduit and adapted to be closed to present a smaller flow orifice to said main conduit whereby the flow from said cylinder is limited to a predetermined volume.

15. A self-reversing hydraulically actuated pump jack unit comprising a substantially vertical cylinder, a piston operable in said cylinder, an electric motor, power lines for furnishing .electrical energy to said motor, a pump housing, a

hydraulic pump in said housing adapted to be driven as a hydraulic motor and operably connected with said electric motor, and a hydraulic system for directing liquid to and from said pump and cylinder comprising a main conduit between said pump housing and said cylinder having pump end branches to the inlet and outlet of said pump respectively, a bypass conduit Leading from said outlet branch, a control valve connected to said bypass and inlet branch shiftable to a starting position to close said bypass conduit and block said inlet branch and shiftable to a downstroke position to open said bypass and said inlet branch, a valve in said inlet branch to permit flow only away from said outlet, whereby during starting and upstroke of the piston, pressure liquid may flow from said pump to said main conduit through said outlet branch, and during .the downstroke of said piston, pressure liquid may flow from said main conduit tosaid inlet branch, a pilot valve means responsive to the movement of said piston for directing pilot liquid to one end or the

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