US1621692A - Shut-down device for oil-well-pumping equipment - Google Patents
Shut-down device for oil-well-pumping equipment Download PDFInfo
- Publication number
- US1621692A US1621692A US70952A US7095225A US1621692A US 1621692 A US1621692 A US 1621692A US 70952 A US70952 A US 70952A US 7095225 A US7095225 A US 7095225A US 1621692 A US1621692 A US 1621692A
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- US
- United States
- Prior art keywords
- walking beam
- plunger
- lever
- supporting lever
- string
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04B—POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
- F04B47/00—Pumps or pumping installations specially adapted for raising fluids from great depths, e.g. well pumps
- F04B47/02—Pumps or pumping installations specially adapted for raising fluids from great depths, e.g. well pumps the driving mechanisms being situated at ground level
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T74/00—Machine element or mechanism
- Y10T74/21—Elements
- Y10T74/2142—Pitmans and connecting rods
- Y10T74/2154—Counterbalanced
Definitions
- My invention relates to safety devices and is applicablein use with oil well pumplng equipment.
- oil is pumped from a Well by means of a pump situated at the lower end of a string of well tubing.
- a plunger of the pump is operatively connected to a walking beam situated on the derrick floor by means of a string of sucker rods'which extend up through the pump tubing.
- the walking beam is operated by a walking beam crank which is actuated generally by a steam engine.
- the pump plunger is reciprocated by means of a string of sucker rods and oil is elevated to the surface of the ground.
- the plunger When the pump is in operation there is a considerable load placed on one end of the walking beam by the plunger which supports all of the oil in the pump tubing thereabove. In a deep well it is necessary to counterbalance the walking beam.
- Fig. 1 is a diagrammatic view showingoil well pumping equipment utilizing my invention.
- Fig. 2 is an enlarged fragmentary section showing in detail the trip mechanism of my invention.
- Fi 3 is a plan view of the walking beam showing a supporting lever of my invention.
- Fig. 4 is an enlarged fragmentarydetail of the forward end of the walking beam shown in Figs. 1 and 3.
- Fi 5 is a section showing a supporting member guide of my invention, this section beingtaken on the line 5-5 of Fig.3
- Fig. 6 is an enlarged fragmentary detail of a balance weight member, taken substantially on the line 6-6 of Fig. 3.
- FIG. 1 I show a pump barrel llsecured to the lower end of a pump tubing 12 at. the lower end of a well 13, this tubing 12 extending upwardly operates in the barrel 11 and is connected to a string of sucker rods 16.
- the sucker rods 16 extend up through the pump tubing 12, extending through a stufling box 17 secured to the upper end of the pump tubing 12.
- a temper-screw 19 is attached to the upper end of the string of sucker rods 16.
- a rod 21 at the upper end of the temper-screw 19 extends through a slot 22 formed in an end of a walking beam 23 and through a slot 25 formed in a pivot casting 26 of a supporting lever 27.
- a horizontal T head 29 formed at the upper end of the rod 21 rests in channels 30 formed in arms 31 of the pivot cast-- ing 26.
- the pivot casting 26 is pivotally -supported on a pivot shaft 32 which journals
- a stirru 38- of a pitman 39 extends over arearwar end 40 of the walking beam 23.
- the lower end of the pitman 39 is pivotally connected at 42 to a walking beam crank 43.
- the a k g beam crank 43 1s secured on. a
- An arm 510i the supporting lever 27 extends rearwardly from the pivot casting 26 through a vertically extending slot 52 of a supporting lever guide .53-which is secured on the upper face of the walking beam 23 by bolts 54.
- the extreme rearward end of the arm 51 is bent laterally at 55 so as to extend to one side of the walking beam 23.
- An eye 57 at the end of the arm 51 is positioned almost directly above the pivot 35 of the walking beam 23 as clearly shown in Fig. 1.
- a balance-weight 58 is carried on the end of the arm 51 to the left of the guide 53.
- the balance-weight 58 has a tapered opening 59 through which the arm 51 extends.
- a lug 60 is secured by bolts 61 to the weight 58 at the end of the weight where the opening 59 is widest.
- This lug 60 is adapted to extend into one of a series of slots 63, thus serving as means for locking the balance-weight 58 in a certain position.
- This weight may be adjusted by tilting to disengage the lug 60 from a slot 63, this "allowing the weight to be moved along the .arm 51 in the position desired.
- a cord 64 extends from the eye 57 to an eye 65 formed at the free end of the trip lever 66.
- the trip lever 66 is pivoted at 67 to the Sampson post 36 and has a weight 68 placed at the free end thereof, as clearly shown in Fig. 2.
- a finger 69 of the trip lever 66 engages a hook 70 of a valve lever 71.
- the valve lever 71 is secured to a stem 72 which extends from a valve member .(not shown) of a shut-off valve 73, the shut-off valve 73 being placed in a steam supply line 74 which supplies steam for operating the steam engine 49.
- the valve lever 71 has a weight 76 secured at the free end thereof. purmgthe normal operation of the pumpmg equipment shown in Fig.
- thetrip lever 66 is held in position by the cord 64 so that the finger 69 thereof engages the hook 70 of the valve lever 71 holding it in position shown in full lines in Fig. 1, and in dotted lines 7 8 in Fig..-2.
- the valve lever-71 is in this position the valve 73 is opened and steam is supplied to the steam engine 49.
- the positlon of the trip lever is not changed, due to the fact that the eye 57 of the arm 51 is situated above the pivot 35.
- the eye 57 swings through an are 79 and there is substantially no vertical movement transferred to the trip lever 66 through ,the cord 64.
- the pump plunger 15 becomes disconnected from the" walking beam.
- the pump plunger 15, as shown, is supported by the walking beam 23 by means of the supporting lever 27. Therefore, when this weight is removed from the walking beam, it is also removed from the supporting lever.
- the supporting lever 27 is swung by the balance-weight 58, moving the arm 51v down until it engages the bottom of the slot 52 of the guide 53.
- the trip lever 66 at this time is no longer sup ported in looking position by the cord 64 and it is therefore swung into position shown in full lines in Fig. 2'into engagement with a stop 81 by virtue of the weight 68. This swinging releases engagement between the finger 69 and the hook 70 and the valve lever 71 is swung into the full line position of Fig.
- the weight 58 is adjustable in position so that a balancing of the supporting mernber 27 may be obtained for any depth of well. In shallow wells, the weight may be moved towards the pivot- 32 and in deep wells it may be moved towards the end 55 of the arm 51. It is'desirable to hate a near it will be quick to swing when the plunger 15 is disconnected from the walking beam.
- a pump plunger ; :1 walking beam; means for operating said walking beam,-said means having a constant driving connection with said walking beam; a string of sucker rods extending from said plunger to said walking beam by means of which said plunger is operated;- and means for rendering said means for operating said walking beam inoperative when said plunger is disconnected from said walking beam.
- a pump plunger a walking beam; mechanism for operating said walking beam, said mechanism having a constant driving connection with said walking beam; a strin'g of sucker rods extending from said plunger; a supporting lever pivotally attached to said walking beam, said string of sucker rods being connected thereto so that said plunger will reciprocate with said walking beam, said supporting lever being adapt- T ed to operate when said plunger becomes disconnected from said walking beam; and means for making said mechanisminoperative when said supporting lever operates.
- a pump plunger a walking beam; mechanism for operating said walking beam, said mechanism having a con stant driving connection with said walking beam; a string of sucker rods extending from said plunger; a supporting lever pivotally attached to said walking beam, said string of sucker rods being connected thereto so that said plunger will reciprocate with said Wal ing beam, said supporting lever being adapted to operate when said plunger becomes disconnected from said walking beam; and means operated by said supporting lever for making said mechanism inoperative when said supporting lever operates.
- a pump plunger a walking beam mechanism for operating said walking beam, said mechanism having a constantdriving connection with said walking beam; a string of sucker rods extending from said plunger; a supporting lever pivotally attached to said walking beam, said string of sucker rods being connected thereto so that said plunger will reciprocate with said walking beam; means for actuating said supporting lever when said plunger becomes disconnected from said walking beam; and means for making said mechanism inoperative when.
- a pump plunger a walking beam; mechanism for operating said walking beam, said mechanism having a constant driving connection with said walking beam; a string of sucker rods extending from said plunger; a supporting lever pivotally attached to said walking beam, said string of sucker rods being connected thereto so that said plunger will reciprocate with said walkingbeam; means for actuating said supporting lever when said plunger becomes disconneeted from said walking beam; and means operated by said supporting lever for making said mechanism inoperative when said supporting lever operates.
- a pump plunger a walking beam; mechanism for operating said walking beam, said mechanism having a con-- stant driving connection with said Walking beam; a string of sucker rods extending from said plunger; a supporting lever pivotally attached to said walking beam, said string of sucker rods being connected thereto so that said plunger will reciprocate with said walking beam, said supporting lever being adapted to operate when said plunger becomes disconnected from said walking beam; a guide secured to said walking beam in a position to guide said supporting lever; and means for making said mechanism inoperative when,
- a pump plunger a walking beam; mechanism for operating said walking beam. said mechanism having a constant driving connection with said walking beam; a string of sucker rods extending from said plunger; a supporting lever pivotally attached to said walking beam, said string of sucker rods being connected thereto so that said plunger will reciprocate with said walking beam; a weight carried by said supporting lever for swingably actuating said supporting lever when said plunger becomes disconnected from said walking beam; andmeans for making said mechanism inoperative when said supporting, lever operates.
- a pump plunger a walking beam
- mechanism for operating said walking beam said mechanism having a con stant driving connection with said walking beam
- a string of sucker rods extending from said plunger
- a supporting lever pivotally attached-to said-walking beam,isaid string of sucker rods being connected thereto so that said plunger will reciprocate with said walking beam
- a weight carried by said supporting lever for swingably actuating said supporting lever whensaid plunger becomes disconnected from saidwalking beam
- means operated by said supporting lever for making said mechanism inoperativewhen saidsupporting lever operates.
Description
March 1927.
J. SUTTON SHUT-DOWN DEVICE FOR OIL WELL PUMPING EQUIPMENT Filed-N v. 23. 1925 2 Sheets-Sheet 1 1,621,692 March 22, J. SUTTON SHUT-DOWN DEVICE 'FOR OIL WELL PUMPING EQUIPMENT Filed Nov. 23. 1925 2 Sheets-Sheet 2 Patented Mar. 22, 1927. Y
. 1,621,692 PATENT OFFICE."
Jonn summon, or nr. mourn, cnmimnnm.
snU'r-nown nnvxon FOR OIL-WELL-PUMPING nemrnnn'r.
Application. filed November 23, 1925. serial No. 70,952.
My inventionrelates to safety devices and is applicablein use with oil well pumplng equipment.
' In the oil producing industry oil is pumped from a Well by means of a pump situated at the lower end of a string of well tubing. A plunger of the pump is operatively connected to a walking beam situated on the derrick floor by means of a string of sucker rods'which extend up through the pump tubing. The walking beam is operated by a walking beam crank which is actuated generally by a steam engine. When the walking beam is operated, the pump plunger is reciprocated by means of a string of sucker rods and oil is elevated to the surface of the ground. When the pump is in operation there is a considerable load placed on one end of the walking beam by the plunger which supports all of the oil in the pump tubing thereabove. In a deep well it is necessary to counterbalance the walking beam. In present pumping equipment much damage occurs when the pump plunger .becomes disconnected from the walklng beam, this resulting primarily from a breakage or uncoupling of the string of sucker rods. There is at this time-a preponderance of weight on one end of the walking beam by'virtue ofthe counterbalance which swings the walking beam into one extreme position. The power supplied to the walking beam through the pitman is not strong enough to reciprocate the walking beam and the pitman disconnects from the walking'beam, the engine immediately speeding up because the load thereon is removed. The pitman generally falls into ad jacent machinery and becomes damaged, sometimes causing considerable damage to the machinery. Also the other parts of the pumping mechanism, due to the sudden acceleration, are subjected to great strains and are sometimes damaged.
It is an object of my invention to provide a means for shutting down the driving mechanism of pumping equipment when the pump plunger becomes disconnected from the walking beam.
It is a further object of my invention to provide a means of this character which is quickly responsive to a disconnection of the plunger and immediately shut down the driving mechanism.
It is a still'further object of my invention to provid an arr nge en of this charac er through the well .13. A pump plunger 15.
which may be adjusted to properly operate for any depth of well.
Other' objects and advantages of the invention will be made evident hereinafter.
Referring to the drawings which are for illustrative purposes only:
Fig. 1 is a diagrammatic view showingoil well pumping equipment utilizing my invention.
Fig. 2 is an enlarged fragmentary section showing in detail the trip mechanism of my invention.
Fi 3 is a plan view of the walking beam showing a supporting lever of my invention.
Fig. 4 is an enlarged fragmentarydetail of the forward end of the walking beam shown in Figs. 1 and 3.
Fig. 6 is an enlarged fragmentary detail of a balance weight member, taken substantially on the line 6-6 of Fig. 3.
With reference to Fig. 1, I show a pump barrel llsecured to the lower end of a pump tubing 12 at. the lower end of a well 13, this tubing 12 extending upwardly operates in the barrel 11 and is connected to a string of sucker rods 16. The sucker rods 16 extend up through the pump tubing 12, extending through a stufling box 17 secured to the upper end of the pump tubing 12. A temper-screw 19 is attached to the upper end of the string of sucker rods 16.
'As clearly shown in Figs. 3 and 4, a rod 21 at the upper end of the temper-screw 19 extends through a slot 22 formed in an end of a walking beam 23 and through a slot 25 formed in a pivot casting 26 of a supporting lever 27. A horizontal T head 29 formed at the upper end of the rod 21 rests in channels 30 formed in arms 31 of the pivot cast-- ing 26. The pivot casting 26 is pivotally -supported on a pivot shaft 32 which journals A stirru 38- of a pitman 39 extends over arearwar end 40 of the walking beam 23. The lower end of the pitman 39 is pivotally connected at 42 to a walking beam crank 43. The a k g beam crank 43 1s secured on. a
An arm 510i the supporting lever 27 extends rearwardly from the pivot casting 26 through a vertically extending slot 52 of a supporting lever guide .53-which is secured on the upper face of the walking beam 23 by bolts 54. The extreme rearward end of the arm 51 is bent laterally at 55 so as to extend to one side of the walking beam 23. An eye 57 at the end of the arm 51 is positioned almost directly above the pivot 35 of the walking beam 23 as clearly shown in Fig. 1. A balance-weight 58 is carried on the end of the arm 51 to the left of the guide 53. The balance-weight 58 has a tapered opening 59 through which the arm 51 extends. A lug 60 is secured by bolts 61 to the weight 58 at the end of the weight where the opening 59 is widest. This lug 60 is adapted to extend into one of a series of slots 63, thus serving as means for locking the balance-weight 58 in a certain position. This weight may be adjusted by tilting to disengage the lug 60 from a slot 63, this "allowing the weight to be moved along the .arm 51 in the position desired.
A cord 64 extends from the eye 57 to an eye 65 formed at the free end of the trip lever 66. The trip lever 66 is pivoted at 67 to the Sampson post 36 and has a weight 68 placed at the free end thereof, as clearly shown in Fig. 2. A finger 69 of the trip lever 66 engages a hook 70 of a valve lever 71. The valve lever 71 is secured to a stem 72 which extends from a valve member .(not shown) of a shut-off valve 73, the shut-off valve 73 being placed in a steam supply line 74 which supplies steam for operating the steam engine 49. The valve lever 71 has a weight 76 secured at the free end thereof. purmgthe normal operation of the pumpmg equipment shown in Fig. 1, thetrip lever 66 is held in position by the cord 64 so that the finger 69 thereof engages the hook 70 of the valve lever 71 holding it in position shown in full lines in Fig. 1, and in dotted lines 7 8 in Fig..-2. When the valve lever-71 is in this position the valve 73 is opened and steam is supplied to the steam engine 49. V
As the walking beam oscillates, the positlon of the trip lever is not changed, due to the fact that the eye 57 of the arm 51 is situated above the pivot 35. The eye 57 swings through an are 79 and there is substantially no vertical movement transferred to the trip lever 66 through ,the cord 64. In the event that the pump plunger 15 becomes disconnected from the" walking beam.
23 such as by breakage of the sucker rods 16 or a disconnectionof the joints thereof,
the weight of the forward end of the walking beam is removed. The pump plunger 15, as shown, is supported by the walking beam 23 by means of the supporting lever 27. Therefore, when this weight is removed from the walking beam, it is also removed from the supporting lever. The supporting lever 27 is swung by the balance-weight 58, moving the arm 51v down until it engages the bottom of the slot 52 of the guide 53. The trip lever 66 at this time is no longer sup ported in looking position by the cord 64 and it is therefore swung into position shown in full lines in Fig. 2'into engagement with a stop 81 by virtue of the weight 68. This swinging releases engagement between the finger 69 and the hook 70 and the valve lever 71 is swung into the full line position of Fig. 2 by the weight 7 6.thereof into engagement with a stop 83. This operates the valve member of the valve 73, shutting ofi the supply of steam to the steam engine 49. The action of the parts of my invention is almost simultaneous with the disconnecting of the plunger 15 from the walking beam 23. Therefore, the steam engine is immediately shut down and the pumping mechanism is rendered inoperable.
Without my invention, when the weight of the plunger is removed from the walking beam 23', the rear end 40 would be swung downwardly by the counterweight 37. The walking beam crank 43 would continue to operate and upon its upstroke, the stirrup 38 of the pitman 39 would be removed from the end 40 of the walking beam 23. The pitman would fall from place and be destroyed, at the same time the steam engine 49 and the mechanism connected therewith would speed up, due to the load being re- .moved from the steam engine.
In my invention there would be no damage done to any of the parts due to an mmediate shutting down of the steam eng ne 49. The weight 58 is adjustable in position so that a balancing of the supporting mernber 27 may be obtained for any depth of well. In shallow wells, the weight may be moved towards the pivot- 32 and in deep wells it may be moved towards the end 55 of the arm 51. It is'desirable to hate a near it will be quick to swing when the plunger 15 is disconnected from the walking beam.
I. claim as my invention:
1. In combination: a pump plunger; :1 walking beam; means for operating said walking beam,-said means having a constant driving connection with said walking beam; a string of sucker rods extending from said plunger to said walking beam by means of which said plunger is operated;- and means for rendering said means for operating said walking beam inoperative when said plunger is disconnected from said walking beam.
disconnected from said walking bg-am.
3. In combination: a pump plunger; a walking beam; mechanism for operating said walking beam, said mechanism having a constant driving connection with said walking beam; a strin'g of sucker rods extending from said plunger; a supporting lever pivotally attached to said walking beam, said string of sucker rods being connected thereto so that said plunger will reciprocate with said walking beam, said supporting lever being adapt- T ed to operate when said plunger becomes disconnected from said walking beam; and means for making said mechanisminoperative when said supporting lever operates. a
4. In combination: a pump plunger; a walking beam; mechanism for operating said walking beam, said mechanism having a con stant driving connection with said walking beam; a string of sucker rods extending from said plunger; a supporting lever pivotally attached to said walking beam, said string of sucker rods being connected thereto so that said plunger will reciprocate with said Wal ing beam, said supporting lever being adapted to operate when said plunger becomes disconnected from said walking beam; and means operated by said supporting lever for making said mechanism inoperative when said supporting lever operates.
5. In combination: a pump plunger; a walking beam mechanism for operating said walking beam, said mechanism having a constantdriving connection with said walking beam; a string of sucker rods extending from said plunger; a supporting lever pivotally attached to said walking beam, said string of sucker rods being connected thereto so that said plunger will reciprocate with said walking beam; means for actuating said supporting lever when said plunger becomes disconnected from said walking beam; and means for making said mechanism inoperative when.
said supporting lever operates.
6. In combination: a pump plunger; a walking beam; mechanism for operating said walking beam, said mechanism having a constant driving connection with said walking beam; a string of sucker rods extending from said plunger; a supporting lever pivotally attached to said walking beam, said string of sucker rods being connected thereto so that said plunger will reciprocate with said walkingbeam; means for actuating said supporting lever when said plunger becomes disconneeted from said walking beam; and means operated by said supporting lever for making said mechanism inoperative when said supporting lever operates.
7. in combination: a pump plunger; a walking beam; mechanism for operating said walking beam, said mechanism having a con-- stant driving connection with said Walking beam; a string of sucker rods extending from said plunger; a supporting lever pivotally attached to said walking beam, said string of sucker rods being connected thereto so that said plunger will reciprocate with said walking beam, said supporting lever being adapted to operate when said plunger becomes disconnected from said walking beam; a guide secured to said walking beam in a position to guide said supporting lever; and means for making said mechanism inoperative when,
said supporting lever operates. 1
8. In combination: a pump plunger a walking beam; mechanism for operating said walking beam. said mechanism having a constant driving connection with said walking beam; a string of sucker rods extending from said plunger; a supporting lever pivotally attached to said walking beam, said string of sucker rods being connected thereto so that said plunger will reciprocate with said walking beam; a weight carried by said supporting lever for swingably actuating said supporting lever when said plunger becomes disconnected from said walking beam; andmeans for making said mechanism inoperative when said supporting, lever operates.
9. In combination: a pump plunger, a walking beam; mechanism for operating said walking beam, said mechanism having a con stant driving connection with said walking beam; a string of sucker rods extending from said plunger; a supporting lever pivotally attached-to said-walking beam,isaid string of sucker rods being connected thereto so that said plunger will reciprocate with said walking beam; a weight carried by said supporting lever for swingably actuating said supporting lever whensaid plunger becomes disconnected from saidwalking beam; and means operated by said supporting lever for making said mechanism inoperativewhen saidsupporting lever operates.
In' testimony whereof, I have hereunto set my hand at Los Angeles, California, this 16th day of'November, 1925.
i v JOHN SUTTON.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US70952A US1621692A (en) | 1925-11-23 | 1925-11-23 | Shut-down device for oil-well-pumping equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US70952A US1621692A (en) | 1925-11-23 | 1925-11-23 | Shut-down device for oil-well-pumping equipment |
Publications (1)
Publication Number | Publication Date |
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US1621692A true US1621692A (en) | 1927-03-22 |
Family
ID=22098353
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US70952A Expired - Lifetime US1621692A (en) | 1925-11-23 | 1925-11-23 | Shut-down device for oil-well-pumping equipment |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2572372A (en) * | 1945-09-15 | 1951-10-23 | James T Montgomery | Power control switch for pumping wells |
US2577479A (en) * | 1948-05-24 | 1951-12-04 | George E Owen | Safety device for polish rod mountings of deep well pumps |
US2589395A (en) * | 1949-04-13 | 1952-03-18 | Louis E Kanard | Positive cutout switch |
-
1925
- 1925-11-23 US US70952A patent/US1621692A/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2572372A (en) * | 1945-09-15 | 1951-10-23 | James T Montgomery | Power control switch for pumping wells |
US2577479A (en) * | 1948-05-24 | 1951-12-04 | George E Owen | Safety device for polish rod mountings of deep well pumps |
US2589395A (en) * | 1949-04-13 | 1952-03-18 | Louis E Kanard | Positive cutout switch |
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