CA2114900A1 - Rod pull down tool - Google Patents
Rod pull down toolInfo
- Publication number
- CA2114900A1 CA2114900A1 CA002114900A CA2114900A CA2114900A1 CA 2114900 A1 CA2114900 A1 CA 2114900A1 CA 002114900 A CA002114900 A CA 002114900A CA 2114900 A CA2114900 A CA 2114900A CA 2114900 A1 CA2114900 A1 CA 2114900A1
- Authority
- CA
- Canada
- Prior art keywords
- plunger
- pump
- well
- tubing string
- barrel
- 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.)
- Abandoned
Links
- 239000007788 liquid Substances 0.000 claims description 41
- 230000003068 static effect Effects 0.000 claims description 15
- 238000005086 pumping Methods 0.000 claims description 13
- 238000000034 method Methods 0.000 claims description 7
- 230000008878 coupling Effects 0.000 claims description 4
- 238000010168 coupling process Methods 0.000 claims description 4
- 238000005859 coupling reaction Methods 0.000 claims description 4
- 239000012530 fluid Substances 0.000 claims description 4
- 238000013022 venting Methods 0.000 claims description 3
- 238000004891 communication Methods 0.000 claims description 2
- 238000007789 sealing Methods 0.000 claims 3
- 230000002706 hydrostatic effect Effects 0.000 abstract description 2
- 238000009931 pascalization Methods 0.000 abstract 1
- 239000003921 oil Substances 0.000 description 8
- 238000005452 bending Methods 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 239000000295 fuel oil Substances 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 230000000116 mitigating effect Effects 0.000 description 1
- 239000003129 oil well Substances 0.000 description 1
- 230000000717 retained effect Effects 0.000 description 1
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
-
- E—FIXED CONSTRUCTIONS
- E21—EARTH OR ROCK DRILLING; MINING
- E21B—EARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
- E21B43/00—Methods or apparatus for obtaining oil, gas, water, soluble or meltable materials or a slurry of minerals from wells
- E21B43/12—Methods or apparatus for controlling the flow of the obtained fluid to or in wells
- E21B43/121—Lifting well fluids
- E21B43/126—Adaptations of down-hole pump systems powered by drives outside the borehole, e.g. by a rotary or oscillating drive
- E21B43/127—Adaptations of walking-beam pump systems
Landscapes
- Engineering & Computer Science (AREA)
- Geology (AREA)
- Life Sciences & Earth Sciences (AREA)
- Mining & Mineral Resources (AREA)
- Environmental & Geological Engineering (AREA)
- Fluid Mechanics (AREA)
- Physics & Mathematics (AREA)
- General Life Sciences & Earth Sciences (AREA)
- Geochemistry & Mineralogy (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Reciprocating Pumps (AREA)
- Details Of Reciprocating Pumps (AREA)
Abstract
In a well using a lift pump operated by a tension string from the surface, the down stroke of the pump is accelerated by providing a plunger element secured to the pump operating string. The plunger has an upper end exposed to the high hydrostatic pressure in the tubing string above the pump, and a lower end exposed to the substantially lower hydrostatic pressure in the well outside the tubing string. This produces a net downwards force on the pump operating string allowing a higher pump speed and a higher volume delivery.
Description
ROD PULL DOWN TOOL
The present invention relates to the pumping of liquids from wells, and more particularly to the pumping of liquids from wells using pumps operated by tension elements extending downhole from the surface.
Liquids are commonly drawn from wells using lift pumps. For example, in the case of oil it is common to use a reciprocating pump having a plunger reciprocating in a pump barrel. An inlet check valve admits oil into thebarrel below the plunger on the upstroke and a second check valve allows the liquid to flow past the plunger into a tubing string leading to the surface. Theplunger is pulled up on the upstroke by a tension element, which is usually a rod, but may be some other type of element, sometimes the tubing string itself. This lifts the column of liquid in the tubing string towards the surface, and draws additional liquid into the barrel through the inlet check valve. On the down stroke of the pump, the plunger descends by gravity and oil that is captured in the barrel passes through the second check valve to be lifted by the plunger in the next upstroke.
A major limitation on the delivery flow rate of a pumping system of this sort is the speed at which the plunger and tension element will descend on the down stroke. Down strokes of the tension element can be resisted by viscous drag forces of a significant magnitude. This resistance cannot be overcome by large axial compression forces on the tension element without unacceptable bending. Consequently, the plungers and rods descend slowly, against the resistance of the liquid to be pumped. This resistance can be quite high. With heavy oils, it becomes the limiting factor on the rate of delivery from any given well. --. - 2- - 21 L490Q
The present invention therefore aims at the provision of methods and apparatus for mitigating this problem.
According to one aspect of the present invention there is provided a method of pumping liquid from a well with a pump in the well for lifting a column of liquid along a tubing string and a tension element extending along the well for operating the pump, said method comprising:
raising the tension element along the well to operate the pump and lift the column of liquid in the tubing string and to add further liquid to the column;
providing a pull-down plunger attached to the tension element for movement therewith;
exposing a top end of the pull-down plunger to the static pressure of liquid in the tubing string; and exposing a bottom end of the pull-down plunger to a low static pressure substantially less than the static pressure to which the top of the plunger is exposed, whereby the pressure differential on the plunger will urge the tension element downwardly in the well.
The pressure differential across the plunger may be very high, depending on the height of the liquid column in the tubing string. This forces the plunger down, pulling the tension element down to start a new stroke.
This method produces a considerable reduction in down stroke time and consequently allows a higher overall pump speed and a higher delivery rate.
"- 21149Q~
According to another aspect of the present invention there is provided a pumping system for pumping liquid from a well, said system comprising:
a tubing string extending down the well;
pump means for lifting a column of liquid in the tubing string;
tension means extending down the well and movable therealong for operating the pump means; and pull down means including plunger means engaged with the tension means, the plunger means having an upper end exposed to the static pressure of the column of liquid in the tubing string and a lower end exposed to a pressure substantially equal to ambient static pressure in the well outsideof the well tubing, whereby the differential pressure on the plunger means forces the plunger means and the tension means downwardly in the well.
The pull down may be incorporated in the design of the pump.
Thus, according to another aspect of the present invention there is provided a pump for pumping liquid from a well through a tubing string, said pump comprising:
a pump barrel coupled to the tubing string;
a plunger reciprocable in the pump barrel;
tension means extending along the tubing string to the plunger for pulling the plunger upwardly in the pump barrel;
inlet check valve means for allowing liquid flow from the well into the pump barrel below the plunger;
outlet check valve means for allowing liquid to flow from below the plunger to above the plunger, to pass into the tubing string;
- 21i490~
liquid passage means between the inlet and outlet check valves for confining the flow of liquid therebetween; and means for maintaining a portion of the barrel be10w the plunger at substantially the ambient static pressure in the well outside of the pump.
According to a further aspect of the present invention there is provided a pull down tool for use in a well pumping system having a lift pump, a tension element for operating the pump, and a tubing string for receiving liquid pumped by the pump, the pull down tool comprising:
housing means engageable in the tubing string for defining a chamber above the pump, in fluid communication with the tubing string;
plunger means reciprocable in the chamber;
plunger mounting means for mounting the plunger means on the tension element for movement therewith; and means for maintaining a portion of the chamber below the plunger substantially at the ambient pressure outside of the tubing string.
In the accompanying drawings, which illustrate exemplary embodiments of the present invention:
Figure 1 is a longitudinal section of a well bore showing a system according to the present invention;
Fi~ure 2 is an axial section through a pump incorporating the present invention;
Figure 3 is a side elevation of the pump, partially in section;
Figure 4 is a section of a pull down device;
Figure 5 is a view along line 5-5 of Figure 4; and Figure 6 is a view along line 6-6 of Figure 4.
21 ~49~)~
Referring to the accompanying drawings, Figure 1 is a longitudinal section of an oil well. The well has a bore 10 lined with the usual casing 12 extending into the earth to a level below the top of a reservoir of oil 14.
Within the casing is a tubing string 16 for leading oil from the reservoir to the surface. The bottom end of the tubing is connected to a pump 18 that lifts the column of oil in the tubing string. At the surface is a pump jack 20 that operates the pump through a rod string.
The configuration of the pump 18 is illustrated most particularly in Figures 2 and 3. The pump includes an outer barrel 22 that, in this embodiment, includes an upper barrel section 24 and a lower barrel section 26 coupled by a collar 28 (see Figure 1). At its bottom end, the barrel 22 is screwed onto a sleeve 30 using threads 32. Within the sleeve is an inlet check valve 34 including a valve seat 36 and ball 38. The seat is retained in the sleeve by an end cap 40 threaded onto the bottom of the sleeve 30.
Just above the bottom end of the barrel 22 is an end plate 42 with a central bore 44. A tubular prong 46 is secured to the end plate 42 and extends upwardly from the bore 44 in the centre of the barrel 22. A soft pack plunger 48 is fixed on the top end of the prong 46. Surrounding the plunger 48 and sealed to it is an inner barrel 50 connected at its upper end to another soft pack plunger 52. The combination of inner barrel 50 and plunger 52 travels along the barrel 22. At the top of the travelling plunger 52 is a check valve 54 including a seat 56 and a ball 58. The ball is held captive by a cage 60 on the top of the plunger. The cage is in turn connected to the bottom end of a sucker rod string 62 extending to the well head for connection to the pump jack.
- 21i4900 Near the bottom of the barrel 22 is a series of ports 64, venting the interior of the barrel below the plunger 52 to the well outside the pump barrel. The ports are of sufficient in size and number that the pressure inside the chamber 66 between the barrel 22, inner barrel 50 and prong 46 remains substantially at the ambient pressure of the well outside the barrel.
In operation of this pump, the rod string 62 will pull up on the assembly of the plunger 52 and inner barrel 50. This will seat the ball 58 of check valve 54 and lift the column of liquid in the tubing string towards the surface. At the same time, the suction inside the inner barrel 50 and the prong 46 will draw oil through the inlet check valve 34 to maintain the prong and inner barrel full of oil. When the tension on the rod string 62 is released,the rod string 62, the plunger 52 and inner barrel 50 will descend in the tubingstring and outer barrel 22. The inlet check valve 34 will close, while the checkvalve 54 will open to allow liquid to pass from the inner barrel 50 into the outer barrel and tubing string above the plunger 54. During this down stroke, the static pressure of the liquid column in the tubing string will be exerted onthe top of the travelling plunger 52, while the bottom of the plunger, outside the inner barrel, is exposed to the much lower ambient pressure within the well around the pump barrel. This produces a large downward force on the plunger 52 pushing the plunger down and pulling with it the rod string 62.
Once the plunger 52 and the associated components of the pump have returned to their bottom position, they may be lifted again by the pump through tension on the sucker rod string.
Figures 4, 5 and 6 of the drawings illustrate an alternative embodiment of the invention in which the same effect is achieved using a pull 2114gOO
down tool separate from the pump. In this embodiment, the pull down tool 68 has a housing 70 with tubing couplings 72 and 74 at its top and bottom ends respectively. The housing is connected into the tubing string, preferably near the pump. Along the centre of the housin~q 70 is a rod section 76 with couplings 78 and 80 connecting the rod section in the rod string. Within the housing is a cylindrical inner wall 82. This projects upwardly from the bottom of the housing to provide an open-topped annular chamber 84 around the inside of the housing wall. The chamber 84 accommodates a plunger in the form of a travelling sleeve 86. The sleeve is sealed to the inside of the housing wall by annular seals 88 and to the outside of the inner wall 82 by annular seals 90.
The travelling sleeve is connected to the rod 76 by a set of radial arms 92 so that the rod and the travelling sleeve will reciprocate together.
At the bottom of the chamber 84 is a series of ports 94 that vent the chamber below the travelling sleeve 86 to the ambient conditions outside of the tubing string. The ports to maintain the pressure within the chamber at a level substantially equal to the outside ambient pressure.
In use of the pull down tool of Figures 4, 5 and 6, the top of the travelling sleeve 86 is exposed to the large hydrostatic head within the tubing string. The bottom of the travelling tube is, on the other hand, exposed to the considerably lower ambient pressure outside of the tubing string.
Consequently, there will be a net differential pressure exerted on the sleeve urging it downwardly. Through its connection to the rod 76 and thence to the complete rod string, this will accelerate the down stroke of the rod and providefor a rnuch faster pump operation.
The present invention relates to the pumping of liquids from wells, and more particularly to the pumping of liquids from wells using pumps operated by tension elements extending downhole from the surface.
Liquids are commonly drawn from wells using lift pumps. For example, in the case of oil it is common to use a reciprocating pump having a plunger reciprocating in a pump barrel. An inlet check valve admits oil into thebarrel below the plunger on the upstroke and a second check valve allows the liquid to flow past the plunger into a tubing string leading to the surface. Theplunger is pulled up on the upstroke by a tension element, which is usually a rod, but may be some other type of element, sometimes the tubing string itself. This lifts the column of liquid in the tubing string towards the surface, and draws additional liquid into the barrel through the inlet check valve. On the down stroke of the pump, the plunger descends by gravity and oil that is captured in the barrel passes through the second check valve to be lifted by the plunger in the next upstroke.
A major limitation on the delivery flow rate of a pumping system of this sort is the speed at which the plunger and tension element will descend on the down stroke. Down strokes of the tension element can be resisted by viscous drag forces of a significant magnitude. This resistance cannot be overcome by large axial compression forces on the tension element without unacceptable bending. Consequently, the plungers and rods descend slowly, against the resistance of the liquid to be pumped. This resistance can be quite high. With heavy oils, it becomes the limiting factor on the rate of delivery from any given well. --. - 2- - 21 L490Q
The present invention therefore aims at the provision of methods and apparatus for mitigating this problem.
According to one aspect of the present invention there is provided a method of pumping liquid from a well with a pump in the well for lifting a column of liquid along a tubing string and a tension element extending along the well for operating the pump, said method comprising:
raising the tension element along the well to operate the pump and lift the column of liquid in the tubing string and to add further liquid to the column;
providing a pull-down plunger attached to the tension element for movement therewith;
exposing a top end of the pull-down plunger to the static pressure of liquid in the tubing string; and exposing a bottom end of the pull-down plunger to a low static pressure substantially less than the static pressure to which the top of the plunger is exposed, whereby the pressure differential on the plunger will urge the tension element downwardly in the well.
The pressure differential across the plunger may be very high, depending on the height of the liquid column in the tubing string. This forces the plunger down, pulling the tension element down to start a new stroke.
This method produces a considerable reduction in down stroke time and consequently allows a higher overall pump speed and a higher delivery rate.
"- 21149Q~
According to another aspect of the present invention there is provided a pumping system for pumping liquid from a well, said system comprising:
a tubing string extending down the well;
pump means for lifting a column of liquid in the tubing string;
tension means extending down the well and movable therealong for operating the pump means; and pull down means including plunger means engaged with the tension means, the plunger means having an upper end exposed to the static pressure of the column of liquid in the tubing string and a lower end exposed to a pressure substantially equal to ambient static pressure in the well outsideof the well tubing, whereby the differential pressure on the plunger means forces the plunger means and the tension means downwardly in the well.
The pull down may be incorporated in the design of the pump.
Thus, according to another aspect of the present invention there is provided a pump for pumping liquid from a well through a tubing string, said pump comprising:
a pump barrel coupled to the tubing string;
a plunger reciprocable in the pump barrel;
tension means extending along the tubing string to the plunger for pulling the plunger upwardly in the pump barrel;
inlet check valve means for allowing liquid flow from the well into the pump barrel below the plunger;
outlet check valve means for allowing liquid to flow from below the plunger to above the plunger, to pass into the tubing string;
- 21i490~
liquid passage means between the inlet and outlet check valves for confining the flow of liquid therebetween; and means for maintaining a portion of the barrel be10w the plunger at substantially the ambient static pressure in the well outside of the pump.
According to a further aspect of the present invention there is provided a pull down tool for use in a well pumping system having a lift pump, a tension element for operating the pump, and a tubing string for receiving liquid pumped by the pump, the pull down tool comprising:
housing means engageable in the tubing string for defining a chamber above the pump, in fluid communication with the tubing string;
plunger means reciprocable in the chamber;
plunger mounting means for mounting the plunger means on the tension element for movement therewith; and means for maintaining a portion of the chamber below the plunger substantially at the ambient pressure outside of the tubing string.
In the accompanying drawings, which illustrate exemplary embodiments of the present invention:
Figure 1 is a longitudinal section of a well bore showing a system according to the present invention;
Fi~ure 2 is an axial section through a pump incorporating the present invention;
Figure 3 is a side elevation of the pump, partially in section;
Figure 4 is a section of a pull down device;
Figure 5 is a view along line 5-5 of Figure 4; and Figure 6 is a view along line 6-6 of Figure 4.
21 ~49~)~
Referring to the accompanying drawings, Figure 1 is a longitudinal section of an oil well. The well has a bore 10 lined with the usual casing 12 extending into the earth to a level below the top of a reservoir of oil 14.
Within the casing is a tubing string 16 for leading oil from the reservoir to the surface. The bottom end of the tubing is connected to a pump 18 that lifts the column of oil in the tubing string. At the surface is a pump jack 20 that operates the pump through a rod string.
The configuration of the pump 18 is illustrated most particularly in Figures 2 and 3. The pump includes an outer barrel 22 that, in this embodiment, includes an upper barrel section 24 and a lower barrel section 26 coupled by a collar 28 (see Figure 1). At its bottom end, the barrel 22 is screwed onto a sleeve 30 using threads 32. Within the sleeve is an inlet check valve 34 including a valve seat 36 and ball 38. The seat is retained in the sleeve by an end cap 40 threaded onto the bottom of the sleeve 30.
Just above the bottom end of the barrel 22 is an end plate 42 with a central bore 44. A tubular prong 46 is secured to the end plate 42 and extends upwardly from the bore 44 in the centre of the barrel 22. A soft pack plunger 48 is fixed on the top end of the prong 46. Surrounding the plunger 48 and sealed to it is an inner barrel 50 connected at its upper end to another soft pack plunger 52. The combination of inner barrel 50 and plunger 52 travels along the barrel 22. At the top of the travelling plunger 52 is a check valve 54 including a seat 56 and a ball 58. The ball is held captive by a cage 60 on the top of the plunger. The cage is in turn connected to the bottom end of a sucker rod string 62 extending to the well head for connection to the pump jack.
- 21i4900 Near the bottom of the barrel 22 is a series of ports 64, venting the interior of the barrel below the plunger 52 to the well outside the pump barrel. The ports are of sufficient in size and number that the pressure inside the chamber 66 between the barrel 22, inner barrel 50 and prong 46 remains substantially at the ambient pressure of the well outside the barrel.
In operation of this pump, the rod string 62 will pull up on the assembly of the plunger 52 and inner barrel 50. This will seat the ball 58 of check valve 54 and lift the column of liquid in the tubing string towards the surface. At the same time, the suction inside the inner barrel 50 and the prong 46 will draw oil through the inlet check valve 34 to maintain the prong and inner barrel full of oil. When the tension on the rod string 62 is released,the rod string 62, the plunger 52 and inner barrel 50 will descend in the tubingstring and outer barrel 22. The inlet check valve 34 will close, while the checkvalve 54 will open to allow liquid to pass from the inner barrel 50 into the outer barrel and tubing string above the plunger 54. During this down stroke, the static pressure of the liquid column in the tubing string will be exerted onthe top of the travelling plunger 52, while the bottom of the plunger, outside the inner barrel, is exposed to the much lower ambient pressure within the well around the pump barrel. This produces a large downward force on the plunger 52 pushing the plunger down and pulling with it the rod string 62.
Once the plunger 52 and the associated components of the pump have returned to their bottom position, they may be lifted again by the pump through tension on the sucker rod string.
Figures 4, 5 and 6 of the drawings illustrate an alternative embodiment of the invention in which the same effect is achieved using a pull 2114gOO
down tool separate from the pump. In this embodiment, the pull down tool 68 has a housing 70 with tubing couplings 72 and 74 at its top and bottom ends respectively. The housing is connected into the tubing string, preferably near the pump. Along the centre of the housin~q 70 is a rod section 76 with couplings 78 and 80 connecting the rod section in the rod string. Within the housing is a cylindrical inner wall 82. This projects upwardly from the bottom of the housing to provide an open-topped annular chamber 84 around the inside of the housing wall. The chamber 84 accommodates a plunger in the form of a travelling sleeve 86. The sleeve is sealed to the inside of the housing wall by annular seals 88 and to the outside of the inner wall 82 by annular seals 90.
The travelling sleeve is connected to the rod 76 by a set of radial arms 92 so that the rod and the travelling sleeve will reciprocate together.
At the bottom of the chamber 84 is a series of ports 94 that vent the chamber below the travelling sleeve 86 to the ambient conditions outside of the tubing string. The ports to maintain the pressure within the chamber at a level substantially equal to the outside ambient pressure.
In use of the pull down tool of Figures 4, 5 and 6, the top of the travelling sleeve 86 is exposed to the large hydrostatic head within the tubing string. The bottom of the travelling tube is, on the other hand, exposed to the considerably lower ambient pressure outside of the tubing string.
Consequently, there will be a net differential pressure exerted on the sleeve urging it downwardly. Through its connection to the rod 76 and thence to the complete rod string, this will accelerate the down stroke of the rod and providefor a rnuch faster pump operation.
2~.1Qg~O
While certain embodiments of the invention have been described in the fore~oing, it is to be understood that the invention is not limited to those embodiments but may be expressed in numerous other embodiments that will occur to others skilled in this technology. The invention is to be considered limited solely by the scope of the appended claims.
While certain embodiments of the invention have been described in the fore~oing, it is to be understood that the invention is not limited to those embodiments but may be expressed in numerous other embodiments that will occur to others skilled in this technology. The invention is to be considered limited solely by the scope of the appended claims.
Claims (15)
1. A method of pumping liquid from a well with a pump in the well for lifting a column of liquid along a tubing string and a tension element extending along the well for operating the pump, said method comprising:
raising the tension element along the well to operate the pump and lift the column of liquid in the tubing string and to add further liquid to the column;
providing a pull-down plunger attached to the tension element for movement therewith;
exposing a top end of the pull-down plunger to the static pressure of liquid in the tubing string; and exposing a bottom end of the pull-down plunger to a low static pressure substantially less than the static pressure to which the top of the plunger is exposed, whereby the pressure differential on the plunger will urge the tension element downwardly in the well.
raising the tension element along the well to operate the pump and lift the column of liquid in the tubing string and to add further liquid to the column;
providing a pull-down plunger attached to the tension element for movement therewith;
exposing a top end of the pull-down plunger to the static pressure of liquid in the tubing string; and exposing a bottom end of the pull-down plunger to a low static pressure substantially less than the static pressure to which the top of the plunger is exposed, whereby the pressure differential on the plunger will urge the tension element downwardly in the well.
2. A method according to Claim 1 wherein the low static pressure is substantially equal to an ambient static pressure in the well and outside of thetubing string.
3. A pumping system for pumping liquid from a well, said system comprising:
a tubing string extending down the well;
pump means for lifting a column of liquid in the tubing string;
tension means extending down the well and movable therealong for operating the pump means; and pull down means including plunger means engaged with the tension means, the plunger means having an upper end exposed to the static pressure of the column of liquid in the tubing string and a lower end exposed to a pressure substantially equal to ambient static pressure in the well outsideof the well tubing, whereby the differential pressure on the plunger means forces the plunger means and the tension means downwardly in the well.
a tubing string extending down the well;
pump means for lifting a column of liquid in the tubing string;
tension means extending down the well and movable therealong for operating the pump means; and pull down means including plunger means engaged with the tension means, the plunger means having an upper end exposed to the static pressure of the column of liquid in the tubing string and a lower end exposed to a pressure substantially equal to ambient static pressure in the well outsideof the well tubing, whereby the differential pressure on the plunger means forces the plunger means and the tension means downwardly in the well.
4. A system according to Claim 3 including an outer pump barrel and an inner pump barrel inside the outer pump barrel, wherein the plunger is an annular plunger secured to the inner pump barrel for reciprocation in the outer pump barrel, and including means for venting the space between the outer and inner barrels and below the plunger to the well outside of the well tubing.
5. A system according to Claim 4 wherein the pump means comprise means for delivering liquid from the well to the inside of the inner barrel.
6. A system according to Claim 5 wherein the pump means comprise an annular inner plunger secured to a tubular prong extending along the inner barrel, the inner pump barrel being reciprocable along and sealed to the inner plunger, and check valve means for allowing fluid to pass from the well through the prong and the inner plunger to the inner barrel.
7. A system according to Claim 6 wherein the pump means comprise check valve means for allowing fluid to pass from the inner barrel, through the outer annular plunger into the outer pump barrel.
8. A system according to Claim 3 wherein the well tubing comprises an annular pull down chamber, the plunger being an annular plunger reciprocable in the pull down chamber, and means for venting a lower part of the pull down chamber to the well outside the well tubing.
9. A system according to Claim 8 wherein the chamber comprises inner and outer walls and including seal means for sealing the plunger to the inner and outer walls of the pull down chamber.
10. A pump for pumping liquid from a well through a tubing string, said pump comprising:
a pump barrel coupled to the tubing string;
a plunger reciprocable in the pump barrel;
tension means extending along the tubing string to the plunger for pulling the plunger upwardly in the pump barrel;
inlet check valve means for allowing liquid flow from the well into the pump barrel below the plunger;
outlet check valve means for allowing liquid to flow from below the plunger to above the plunger, to pass into the tubing string;
liquid passage means between the inlet and outlet check valves for confining the flow of liquid therebetween; and means for maintaining a portion of the barrel below the plunger at substantially the ambient static pressure in the well outside of the pump.
a pump barrel coupled to the tubing string;
a plunger reciprocable in the pump barrel;
tension means extending along the tubing string to the plunger for pulling the plunger upwardly in the pump barrel;
inlet check valve means for allowing liquid flow from the well into the pump barrel below the plunger;
outlet check valve means for allowing liquid to flow from below the plunger to above the plunger, to pass into the tubing string;
liquid passage means between the inlet and outlet check valves for confining the flow of liquid therebetween; and means for maintaining a portion of the barrel below the plunger at substantially the ambient static pressure in the well outside of the pump.
11. A pump according to Claim 10 wherein the liquid passage means comprise an inner barrel extending downwardly from the plunger within the pump barrel, a tubular prong extending upwardly from the inlet valve inside the inner barrel, and an inner plunger sealing the prong to the inside of the inner barrel.
12. A pull down tool for use in a well pumping system having a lift pump, a tension element for operating the pump, and a tubing string for receiving liquid pumped by the pump, the pull down tool comprising:
housing means engageable in the tubing string for defining a chamber above the pump, in fluid communication with the tubing string;
plunger means reciprocable in the chamber;
plunger mounting means for mounting the plunger means on the tension element for movement therewith; and means for maintaining a portion of the chamber below the plunger substantially at the ambient pressure outside of the tubing string.
housing means engageable in the tubing string for defining a chamber above the pump, in fluid communication with the tubing string;
plunger means reciprocable in the chamber;
plunger mounting means for mounting the plunger means on the tension element for movement therewith; and means for maintaining a portion of the chamber below the plunger substantially at the ambient pressure outside of the tubing string.
13. A tool according to Claim 12 wherein the chamber means comprise inner and outer walls defining an annular pull down chamber therebetween and the plunger means comprise an annular plunger reciprocable in the annular chamber.
14. A tool according to Claim 13 including seal means for sealing the plunger to the inner and outer walls of the pull down chamber.
15. A tool according to Claim 14 wherein the outer wall comprises coupling means for coupling the outer wall into the tubing string.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA002114900A CA2114900A1 (en) | 1994-02-03 | 1994-02-03 | Rod pull down tool |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA002114900A CA2114900A1 (en) | 1994-02-03 | 1994-02-03 | Rod pull down tool |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA2114900A1 true CA2114900A1 (en) | 1995-08-04 |
Family
ID=4152850
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA002114900A Abandoned CA2114900A1 (en) | 1994-02-03 | 1994-02-03 | Rod pull down tool |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA2114900A1 (en) |
-
1994
- 1994-02-03 CA CA002114900A patent/CA2114900A1/en not_active Abandoned
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| EEER | Examination request | ||
| FZDE | Discontinued |