CA2587958C - Polish rod clamp apparatus - Google Patents
Polish rod clamp apparatus Download PDFInfo
- Publication number
- CA2587958C CA2587958C CA2587958A CA2587958A CA2587958C CA 2587958 C CA2587958 C CA 2587958C CA 2587958 A CA2587958 A CA 2587958A CA 2587958 A CA2587958 A CA 2587958A CA 2587958 C CA2587958 C CA 2587958C
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- polish rod
- gripper
- tapered
- cap
- dies
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- 230000007246 mechanism Effects 0.000 claims description 10
- 230000015572 biosynthetic process Effects 0.000 description 2
- 238000005755 formation reaction Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 101100328463 Mus musculus Cmya5 gene Proteins 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 231100001261 hazardous Toxicity 0.000 description 1
- 239000003129 oil well Substances 0.000 description 1
Classifications
-
- 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
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- Life Sciences & Earth Sciences (AREA)
- Engineering & Computer Science (AREA)
- Geology (AREA)
- Mining & Mineral Resources (AREA)
- Physics & Mathematics (AREA)
- Environmental & Geological Engineering (AREA)
- Fluid Mechanics (AREA)
- General Life Sciences & Earth Sciences (AREA)
- Geochemistry & Mineralogy (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
- Grinding And Polishing Of Tertiary Curved Surfaces And Surfaces With Complex Shapes (AREA)
Abstract
A polish rod clamp apparatus has a body defining a lower rod aperture and a tapered body recess. A cap defines an upper rod aperture and a tapered cap recess. Tapered gripper dies have upper and lower outer surfaces sloping inward from a central portion and inner surfaces configured to bear against the polish rod. The dies are installed in the body recess such that inner surfaces bear against a polish rod and the lower outer surfaces bear against walls of the body recess. The dies are movable with respect to the body and are prevented from rotating. The cap is threaded onto the body such that the upper outer surfaces of the gripper dies bear against the walls of the tapered cap recess. Threading the cap onto the body forces the gripper dies against the outer surface of the polish rod passing through the body.
Description
POLISH ROD CLAMP APPAR,&TUS
This invention relates to oilfield equipment and in particular to a polish rod clamp for downhole oil well pumps.
BACKGROUND
It is knowii in the oil production industry to bring oil from underground formations to the surface using a rotary pump located downhole in the oil bearing formation and driven by a rotating rod string extending from a drive mechanism on the surface down through the well casing to the pump. Reciprocating pumps are also known where the rod string moved up and down by the drive instead of rotating.
Generally a polish rod clamp is elamped to a polish rod and a rotating or reciprocating drive is connected to the polish rod clamp such that the drive drives the polish rod clamp and thus the polish rod. The polish rod is essentially the top end of the rod string extending down to the pump such that driving the polish rod drives the pump.
Rotary drive mechanisms are disclosed for example in United States Patent Numbers 6,241,016 to Dedels and 4,716,961 to Makins, Jr. et al. The conventional polish rod clamp as illustrated in the mechanisms of Dedels and Makins, Jr. et al_ typically comprises a pair of clamping members that clamp together by bolts cxtending lateral to the polish rod to clamp the polish rod between the clamping members.
United States Patent Number 4,372,379 to Kulhanek et al. discloses a rotary drive mechanism supported above a wel] casing on a framc. The polish rod extends vertically upward through the middle of a rotating drive member and then a conventional rectangular polish rod clamp is clamped to the polish rod above the drive member. The bottom end of the polish rod clamp is engaged in the top of the drive member such that rotating the drive member rotates the polish rod clamp, the polish rod, the rod string, and the downhole ptunp. The weight of the rod string is supported on the drive member and frame.
Depending upon the length of the rod string from the surface to the pump, and the diameter of the rod string, and like factors with a rotary drive the top end of the rod string will typically rotate many times before the bottom end of the rod string, and thus the pump, begins to rotate. Rotary tension or torsion is thus present in the rod string during use. After stopping the rotary drive for service or like reasons, this torsion may be released by reversing the drive, or controiled by a brake or the like, however it is difficult to ensure that there is no torsion force being exerted between the polish rod and the drive through the polish rod clamp. Releasing the clamping bolts on the polish rod thus can be hazardous.
SLTMMIARY OF TI-IE INVENTION
It is an object of the present invention to provide a polish rod clamp apparatus that overcomes problems in the prior art.
In a fust embodiment the present invention provides a polish rod clarnp apparatus for attachment to a polish rod. The apparatus comprises a body defining a lower rod aperture in a bottom end thereof, and defining a tapered body recess with walls sloping inward toward the bottom end thereof. A cap defines an upper rod aperture in a top end themf and defines a tapered cap recess with walls sloping inward toward the top end thereof.
Threads are defmed on lower inner walls of the cap and are configured to engage corresponding threads on an outer surface of the body. A plurality of tapered gripper dies, each has lower outer surfaces sloping inward from a central portion thereof and upper outer surfaces sloping inward from the central portion thereof, and has inner surfaces configured to bear against the polish rod. The tapered gripper dies are configured to be installed in the tapered body recess such that the inner surfaces of the gripper dies bear against an outer surface of a polish rod passing through the body, and the lower outer surfaces of the gripper dies bear against the walls of the tapcred body recess. The gripper dies engage the body such that the gripper dies are movable up and down with respect to the body and such that the gripper dies are prevented from rotating with respect to the body. The cap can be thrcadcd onto the body such that the upper outer surfaces of the gripper dies bear against the walls of the tapered cap recess.
Threading the cap onto the body forces the gripper dies against the outer surface of the polish rod passing through the body.
In a second embodiment the present invention provides a polish rod drive apparatus far rotating a polish rod extending upward from a welt. The apparatus comprises a rotating drive rnechanism supported above the welt such that the polish rod extends upward through a rotating drive member and upward through a polish rod clamp above the rotating drive member. The polish rod clamp comprises a body defining a lower rod aperture in a bottom end thcrcof, and defu-utg a tapered body recess with walls sloping inward toward the bottom end thereof. A cap has threads defined on lower inner walls thereof engaging corresponding threads on an outer surface of the body. The cap defines an upper rod aperture in a top end thereof and defines a tapered cap recess with walls sloping inward toward the top end thcrcof. A plurality of tapered gripper dies each has lower outer surfaces bearing against the walls of the tapered body recess and has upper outer surfaces bearing against the walls of the tapered cap recess, and inner surfaces bearing against the polish rod. The gripper dies engage the body such that the gripper dies are movable up and down with respcct to the body and such that the gripper dies are prevented from rotating with respect to the body. The body is engaged in the rotating drive member, such that the polish rod clamp and polish rod rotate with the rotating drive member.
The polish rod of the present invention is installed by sliding the body over the end of the polish rod, installing the gripper dies in the tapered reccss around the polish rod, and then sliding the cap over the end of the polish rod and threading the cap onto the body and as ttie cap and the body move toward each other the gripper dies are forced inward and the inner faccs thcrcof are forced against the outer surface of tlw polisti rtnY
anti grip -ir securely. With tapered recesses and sloping walis at each end of the gripper dies, the dies are forced against the polish rod along substantially their entire length, improving grip on the polish rod. The gripper dies can conveniently be prevented from rotating with respect to the body by a no-tuin pin extending inward from the body and engaging a corresponding groove in an outer surface of a gripper die.
The cap can be removed readily by unt.hreading it from the body, and raising the polish rod will release the gripper dies.
DESCRIPTION OF THE DRAWINGS:
While the invention is claimed in the conclud'uig portions hereof, preferred embodiments are provided in the accompanying dctailed description which may be best understood in conjunction with the accompanying diagrams where like parts in each of the several diagralns are labeled with like numbers, and where:
Fig. 1 is a top view of the body of an embodimcnt of the clamp apparatns of the invention;
Fig. 2 is a bottom view of the body of Fig. 1;
Fig. 3 is a schematic exploded side sectional view of the embodiment of the clamp apparatus;
Fig. 4 is a top view of the gripper dies of the embodiment of Fig. 3;
Fig. 5 is a schematic side sectional view of the emhodiment of Fig. 3 installed on a polish rod;
Fig. 6 is a schematic side view of the embodiment of Fig. 3 installed on a polish rod and incorporated into a rotating drive mechanism for rotating the polish rod.
DETAILED DESCRIPTIOI\ OF THE ILLUSTRATED EMBODIMlN;NTS:
Figs. 1- 5 illustrate a polish rod clamp apparatus 1 of the uivention for attachment to a polish rod 3. The apparatus 1 comprises a body 5 defining a lower rod aperture 7 in a bottom end thereof, and defining a tapered body recess 9 with walls 11 sloping inward toward the bottom end thereof. In the illustrated embodiment the body recess 9 is conical, and the conical walls 11 slope downward and inward generally from an upper portion of the body 5 to intersect the lower rod aperturc 7 as shown. The conical shapc is economical to provide, and serves the purpose well.
A cap 13 has an open bottom end ] S and defiues an upper rod aperture 17 in a top end thereof and a tapered cap rcccss 14 with walls 16 sloping inward toward the top end thereof. In the illustrated embodiment the cap recess 14 is also conical, and the conical walls 16 slope inward generally from a lower portion of the cap 13 to intersect the upper rod aperture 17 as shown. The cap 13 defines threads 19 on lower inner walls thereof configured to cngage corresponding threads 21 on an outer surface of the body 5.
A pair of tapered gripper dies 25 each has lower outer surfaces 29 sloping inward from a central portion thereof and upper outer surfaces 30 sloping inward from the central portion thereof, and inner surfaces 27 configured to bear against the polish rod The gripper dies 25 are configured to be installed in the tapered body recess 9 such that lower outer surfaces 29 of the gripper dies 25 bear against the walls 11 of the tapered body recess 9 and inner surfaccs 27 of the gripper dies 25 bear against an outer surface of a polish rod 3 passing through the body as illustrated in Fig. 5. The cap 13 is threaded onto the body 5 such that the upper outer surfaces 30 of the gripper dies 25 bear against the walls 16 of the tapered cap recess 14. Threading the cap 13 onto the body 5 forces the gripper dies 25 against the outer surfacc of the polish rod 3 passing through the apparatus 1.
Although it is contemplated that other sbapes would serve the required purpose, in the illustrated apparatus 1, the inner surfaces 27 of the gripper dies 25 are radiused the same as the potish rod 3, so as to substantially conform to the outer surface of the polish rod 3.
Also in the illustrated apparatus 1, the uppcr and lower outer surfaces 30, 29 of the gripper dies 25 are tapered and conical such that the outer surfaces 30, 29 are substantially aligned with the sloping walls 16, 11 of the cap and body recesses 14, 9.
The gripper dies 25 engage the body 5 such that the gripper dies 25 arr, movable up and down with respect to the body 5 and such that the gripper dies 25 are prcvcnted from rotating with respect to the body 5. Where the clamp apparatus 1 is used to rotatably drive a polish rod 3, preventing the dies 25 from rotating with respect to the body 5 prevents the dies 25 from slipping in the body 5 when the drive is activated.
In the illustrated apparatus 1, the gripper dies 25 are substantially prevented from rotating with respect to the body 5 by a no-turn pin 31 extending iiiward from an upper portion of the body 5 and engaging a corresponding groove 33 in an outer surface of an installed gripper die 25. A no-turn pin 31 is installed on each side of the body 5 to engage a gmnve 33 in eacli of the gripper dies 25.
The illustrated apparatus I uses a pair of gripper dies 25 howcvcr it is contemplated that a larger number of smaller gripper dies could be used as well. With a no-turn pin 31 engaged in each gripper die 25, each is secured with respect to the body 5, however it is contemplated that securing one die 25 would also prevent rotation of the gripper dies 25 with respect to the body 5 and could provide satisfactory operation in some applications.
The cap 13 is threaded onto the body 5 such that the upper outer surfaces 30 of the gripper dies 25 bear against the walls 16 of the tapered cap recess 14.
Threading the cap 13 onto the body 5 forces the upper and lower outer surfaces 30, 29 of the gripper dies 25 along sloping walls 16 and 11 and tims the gripper dies 25 are forced inward.
The whole length of the gripper dies 25 is forced against the outer surface of the polish rod 3 passing through the apparatus 1.
The clamp apparatus 1 can be used for a rotating ur reciprocating pump drive, or like purposes. For example Fig. 6 schematically illustrates the polish rod clamp apparatus 1 used in a polish rod drive mechanism for rotating a polish rod 3 extending upward from a well 41.
In the system of Fig. 6, an outer portion of the body 5 is engaged in a rotating drive member illustrated as a sprocket 43 that is rotated by a drive motor 45 and drive chain 47.
The drive niechanisrn comprising sprocket 43 and motor 45 is supported on a stand 53 above the well 41. In the illustrated clamp apparatas I the bottom face of the body 5 defines a groove 49 configured to engage a lug 51 cxtending upward from the sprocket 43. Thus the polish rod clamp apparatus I and polish rod 3 rotate with the sprocket 43, and the stand 53 supports the drive mechanism and also the weight of the polish rod 3.
In the illustrated apparatm' l, the inner surfaces 27 of the gripper dies 25 define right and left helical threads 35 oriented to bear against the outer surface of the polish rod 3. Thus if the polish rod 3 turns with respect to the gripper dies 27, one of the dies will be drawn up and the o[her down, and thus will tend to lock against the polish rod 3.
The foregoing is considered as illustrative only of the principles of the invention.
Further, since numerous changes and modifications will readily occur to those skilled in the art, it is not desired to lirnit the invention to the exact construction and operation shown and described, and accordingly, all such suitable changes or modifications in structure or operation which rnay be resorted to are intended to fall within the scope of the claimed invention.
This invention relates to oilfield equipment and in particular to a polish rod clamp for downhole oil well pumps.
BACKGROUND
It is knowii in the oil production industry to bring oil from underground formations to the surface using a rotary pump located downhole in the oil bearing formation and driven by a rotating rod string extending from a drive mechanism on the surface down through the well casing to the pump. Reciprocating pumps are also known where the rod string moved up and down by the drive instead of rotating.
Generally a polish rod clamp is elamped to a polish rod and a rotating or reciprocating drive is connected to the polish rod clamp such that the drive drives the polish rod clamp and thus the polish rod. The polish rod is essentially the top end of the rod string extending down to the pump such that driving the polish rod drives the pump.
Rotary drive mechanisms are disclosed for example in United States Patent Numbers 6,241,016 to Dedels and 4,716,961 to Makins, Jr. et al. The conventional polish rod clamp as illustrated in the mechanisms of Dedels and Makins, Jr. et al_ typically comprises a pair of clamping members that clamp together by bolts cxtending lateral to the polish rod to clamp the polish rod between the clamping members.
United States Patent Number 4,372,379 to Kulhanek et al. discloses a rotary drive mechanism supported above a wel] casing on a framc. The polish rod extends vertically upward through the middle of a rotating drive member and then a conventional rectangular polish rod clamp is clamped to the polish rod above the drive member. The bottom end of the polish rod clamp is engaged in the top of the drive member such that rotating the drive member rotates the polish rod clamp, the polish rod, the rod string, and the downhole ptunp. The weight of the rod string is supported on the drive member and frame.
Depending upon the length of the rod string from the surface to the pump, and the diameter of the rod string, and like factors with a rotary drive the top end of the rod string will typically rotate many times before the bottom end of the rod string, and thus the pump, begins to rotate. Rotary tension or torsion is thus present in the rod string during use. After stopping the rotary drive for service or like reasons, this torsion may be released by reversing the drive, or controiled by a brake or the like, however it is difficult to ensure that there is no torsion force being exerted between the polish rod and the drive through the polish rod clamp. Releasing the clamping bolts on the polish rod thus can be hazardous.
SLTMMIARY OF TI-IE INVENTION
It is an object of the present invention to provide a polish rod clamp apparatus that overcomes problems in the prior art.
In a fust embodiment the present invention provides a polish rod clarnp apparatus for attachment to a polish rod. The apparatus comprises a body defining a lower rod aperture in a bottom end thereof, and defining a tapered body recess with walls sloping inward toward the bottom end thereof. A cap defines an upper rod aperture in a top end themf and defines a tapered cap recess with walls sloping inward toward the top end thereof.
Threads are defmed on lower inner walls of the cap and are configured to engage corresponding threads on an outer surface of the body. A plurality of tapered gripper dies, each has lower outer surfaces sloping inward from a central portion thereof and upper outer surfaces sloping inward from the central portion thereof, and has inner surfaces configured to bear against the polish rod. The tapered gripper dies are configured to be installed in the tapered body recess such that the inner surfaces of the gripper dies bear against an outer surface of a polish rod passing through the body, and the lower outer surfaces of the gripper dies bear against the walls of the tapcred body recess. The gripper dies engage the body such that the gripper dies are movable up and down with respect to the body and such that the gripper dies are prevented from rotating with respect to the body. The cap can be thrcadcd onto the body such that the upper outer surfaces of the gripper dies bear against the walls of the tapered cap recess.
Threading the cap onto the body forces the gripper dies against the outer surface of the polish rod passing through the body.
In a second embodiment the present invention provides a polish rod drive apparatus far rotating a polish rod extending upward from a welt. The apparatus comprises a rotating drive rnechanism supported above the welt such that the polish rod extends upward through a rotating drive member and upward through a polish rod clamp above the rotating drive member. The polish rod clamp comprises a body defining a lower rod aperture in a bottom end thcrcof, and defu-utg a tapered body recess with walls sloping inward toward the bottom end thereof. A cap has threads defined on lower inner walls thereof engaging corresponding threads on an outer surface of the body. The cap defines an upper rod aperture in a top end thereof and defines a tapered cap recess with walls sloping inward toward the top end thcrcof. A plurality of tapered gripper dies each has lower outer surfaces bearing against the walls of the tapered body recess and has upper outer surfaces bearing against the walls of the tapered cap recess, and inner surfaces bearing against the polish rod. The gripper dies engage the body such that the gripper dies are movable up and down with respcct to the body and such that the gripper dies are prevented from rotating with respect to the body. The body is engaged in the rotating drive member, such that the polish rod clamp and polish rod rotate with the rotating drive member.
The polish rod of the present invention is installed by sliding the body over the end of the polish rod, installing the gripper dies in the tapered reccss around the polish rod, and then sliding the cap over the end of the polish rod and threading the cap onto the body and as ttie cap and the body move toward each other the gripper dies are forced inward and the inner faccs thcrcof are forced against the outer surface of tlw polisti rtnY
anti grip -ir securely. With tapered recesses and sloping walis at each end of the gripper dies, the dies are forced against the polish rod along substantially their entire length, improving grip on the polish rod. The gripper dies can conveniently be prevented from rotating with respect to the body by a no-tuin pin extending inward from the body and engaging a corresponding groove in an outer surface of a gripper die.
The cap can be removed readily by unt.hreading it from the body, and raising the polish rod will release the gripper dies.
DESCRIPTION OF THE DRAWINGS:
While the invention is claimed in the conclud'uig portions hereof, preferred embodiments are provided in the accompanying dctailed description which may be best understood in conjunction with the accompanying diagrams where like parts in each of the several diagralns are labeled with like numbers, and where:
Fig. 1 is a top view of the body of an embodimcnt of the clamp apparatns of the invention;
Fig. 2 is a bottom view of the body of Fig. 1;
Fig. 3 is a schematic exploded side sectional view of the embodiment of the clamp apparatus;
Fig. 4 is a top view of the gripper dies of the embodiment of Fig. 3;
Fig. 5 is a schematic side sectional view of the emhodiment of Fig. 3 installed on a polish rod;
Fig. 6 is a schematic side view of the embodiment of Fig. 3 installed on a polish rod and incorporated into a rotating drive mechanism for rotating the polish rod.
DETAILED DESCRIPTIOI\ OF THE ILLUSTRATED EMBODIMlN;NTS:
Figs. 1- 5 illustrate a polish rod clamp apparatus 1 of the uivention for attachment to a polish rod 3. The apparatus 1 comprises a body 5 defining a lower rod aperture 7 in a bottom end thereof, and defining a tapered body recess 9 with walls 11 sloping inward toward the bottom end thereof. In the illustrated embodiment the body recess 9 is conical, and the conical walls 11 slope downward and inward generally from an upper portion of the body 5 to intersect the lower rod aperturc 7 as shown. The conical shapc is economical to provide, and serves the purpose well.
A cap 13 has an open bottom end ] S and defiues an upper rod aperture 17 in a top end thereof and a tapered cap rcccss 14 with walls 16 sloping inward toward the top end thereof. In the illustrated embodiment the cap recess 14 is also conical, and the conical walls 16 slope inward generally from a lower portion of the cap 13 to intersect the upper rod aperture 17 as shown. The cap 13 defines threads 19 on lower inner walls thereof configured to cngage corresponding threads 21 on an outer surface of the body 5.
A pair of tapered gripper dies 25 each has lower outer surfaces 29 sloping inward from a central portion thereof and upper outer surfaces 30 sloping inward from the central portion thereof, and inner surfaces 27 configured to bear against the polish rod The gripper dies 25 are configured to be installed in the tapered body recess 9 such that lower outer surfaces 29 of the gripper dies 25 bear against the walls 11 of the tapered body recess 9 and inner surfaccs 27 of the gripper dies 25 bear against an outer surface of a polish rod 3 passing through the body as illustrated in Fig. 5. The cap 13 is threaded onto the body 5 such that the upper outer surfaces 30 of the gripper dies 25 bear against the walls 16 of the tapered cap recess 14. Threading the cap 13 onto the body 5 forces the gripper dies 25 against the outer surfacc of the polish rod 3 passing through the apparatus 1.
Although it is contemplated that other sbapes would serve the required purpose, in the illustrated apparatus 1, the inner surfaces 27 of the gripper dies 25 are radiused the same as the potish rod 3, so as to substantially conform to the outer surface of the polish rod 3.
Also in the illustrated apparatus 1, the uppcr and lower outer surfaces 30, 29 of the gripper dies 25 are tapered and conical such that the outer surfaces 30, 29 are substantially aligned with the sloping walls 16, 11 of the cap and body recesses 14, 9.
The gripper dies 25 engage the body 5 such that the gripper dies 25 arr, movable up and down with respect to the body 5 and such that the gripper dies 25 are prcvcnted from rotating with respect to the body 5. Where the clamp apparatus 1 is used to rotatably drive a polish rod 3, preventing the dies 25 from rotating with respect to the body 5 prevents the dies 25 from slipping in the body 5 when the drive is activated.
In the illustrated apparatus 1, the gripper dies 25 are substantially prevented from rotating with respect to the body 5 by a no-turn pin 31 extending iiiward from an upper portion of the body 5 and engaging a corresponding groove 33 in an outer surface of an installed gripper die 25. A no-turn pin 31 is installed on each side of the body 5 to engage a gmnve 33 in eacli of the gripper dies 25.
The illustrated apparatus I uses a pair of gripper dies 25 howcvcr it is contemplated that a larger number of smaller gripper dies could be used as well. With a no-turn pin 31 engaged in each gripper die 25, each is secured with respect to the body 5, however it is contemplated that securing one die 25 would also prevent rotation of the gripper dies 25 with respect to the body 5 and could provide satisfactory operation in some applications.
The cap 13 is threaded onto the body 5 such that the upper outer surfaces 30 of the gripper dies 25 bear against the walls 16 of the tapered cap recess 14.
Threading the cap 13 onto the body 5 forces the upper and lower outer surfaces 30, 29 of the gripper dies 25 along sloping walls 16 and 11 and tims the gripper dies 25 are forced inward.
The whole length of the gripper dies 25 is forced against the outer surface of the polish rod 3 passing through the apparatus 1.
The clamp apparatus 1 can be used for a rotating ur reciprocating pump drive, or like purposes. For example Fig. 6 schematically illustrates the polish rod clamp apparatus 1 used in a polish rod drive mechanism for rotating a polish rod 3 extending upward from a well 41.
In the system of Fig. 6, an outer portion of the body 5 is engaged in a rotating drive member illustrated as a sprocket 43 that is rotated by a drive motor 45 and drive chain 47.
The drive niechanisrn comprising sprocket 43 and motor 45 is supported on a stand 53 above the well 41. In the illustrated clamp apparatas I the bottom face of the body 5 defines a groove 49 configured to engage a lug 51 cxtending upward from the sprocket 43. Thus the polish rod clamp apparatus I and polish rod 3 rotate with the sprocket 43, and the stand 53 supports the drive mechanism and also the weight of the polish rod 3.
In the illustrated apparatm' l, the inner surfaces 27 of the gripper dies 25 define right and left helical threads 35 oriented to bear against the outer surface of the polish rod 3. Thus if the polish rod 3 turns with respect to the gripper dies 27, one of the dies will be drawn up and the o[her down, and thus will tend to lock against the polish rod 3.
The foregoing is considered as illustrative only of the principles of the invention.
Further, since numerous changes and modifications will readily occur to those skilled in the art, it is not desired to lirnit the invention to the exact construction and operation shown and described, and accordingly, all such suitable changes or modifications in structure or operation which rnay be resorted to are intended to fall within the scope of the claimed invention.
Claims (17)
1. A polish rod clamp apparatus for attachment to a polish rod, the apparatus comprising:
a body defining a lower rod aperture in a bottom end thereof, and defining a tapered body recess with walls sloping inward toward the bottom end thereof;
a cap defining an upper rod aperture in a top end thereof and defining a tapered cap recess with walls sloping inward toward the top end thereof;
threads defined on lower inner walls of the cap configured to engage corresponding threads on an outer surface of the body; and a plurality of tapered gripper dies, each die having lower outer surfaces sloping inward from a central portion thereof and upper outer surfaces sloping inward from the central portion thereof, and inner surfaces configured to bear against the polish rod;
wherein the tapered gripper dies are configured to be installed in the tapered body recess such that the inner surfaces of the gripper dies bear against an outer surface of a polish rod passing through the body, and the lower outer surfaces of the gripper dies bear against the walls of the tapered body recess;
wherein the gripper dies engage the body such that the gripper dies are movable up and down with respect to the body and such that the gripper dies are prevented from rotating with respect to the body;
wherein the cap can be threaded onto the body such that the upper outer surfaces of the gripper dies bear against the walls of the tapered cap recess; and wherein threading the cap onto the body forces the gripper dies against the outer surface of the polish rod passing through the body.
a body defining a lower rod aperture in a bottom end thereof, and defining a tapered body recess with walls sloping inward toward the bottom end thereof;
a cap defining an upper rod aperture in a top end thereof and defining a tapered cap recess with walls sloping inward toward the top end thereof;
threads defined on lower inner walls of the cap configured to engage corresponding threads on an outer surface of the body; and a plurality of tapered gripper dies, each die having lower outer surfaces sloping inward from a central portion thereof and upper outer surfaces sloping inward from the central portion thereof, and inner surfaces configured to bear against the polish rod;
wherein the tapered gripper dies are configured to be installed in the tapered body recess such that the inner surfaces of the gripper dies bear against an outer surface of a polish rod passing through the body, and the lower outer surfaces of the gripper dies bear against the walls of the tapered body recess;
wherein the gripper dies engage the body such that the gripper dies are movable up and down with respect to the body and such that the gripper dies are prevented from rotating with respect to the body;
wherein the cap can be threaded onto the body such that the upper outer surfaces of the gripper dies bear against the walls of the tapered cap recess; and wherein threading the cap onto the body forces the gripper dies against the outer surface of the polish rod passing through the body.
2. The apparatus of Claim I wherein a slope of the upper and lower outer surfaces of the gripper dies is substantially the same as a slope of the walls of the corresponding tapered body and cap recesses.
3. The apparatus of any one of Claims 1 and 2 wherein the inner surfaces of the gripper dies substantially conform to the outer surface of the polish rod passing through the body.
4. The apparatus of any one of Claims 1 - 3 wherein at least one of the tapered body and cap recesses is conical.
5. The apparatus of any one of Claims 1 - 4 wherein the body is adapted at an outer portion thereof to engage a rotating drive mechanism.
6. The apparatus of Claim 5 wherein a bottom face of the body defines a recess configured to engage the rotating drive mechanism.
7. The apparatus of any one of Claims 5 and 6 wherein the inner surfaces of the gripper dies define helical threads oriented to bear against the outer surface of the polish rod passing through the body and prevent the polish rod from rotating with respect to the gripper dies.
8. The apparatus of Claim 7 wherein the helical threads on the inner surface of at least one gripper die are right hand and the helical threads on the inner surface of at least one other gripper die are left hand.
9. The apparatus of any one of Claims 1 - 8 wherein the gripper dies are prevented from rotating with respect to the body by a no-turn pin extending inward from the body and engaging a corresponding groove in an outer surface of an installed gripper die.
10. A polish rod drive apparatus for rotating a polish rod extending upward from a well, the apparatus comprising:
a rotating drive mechanism supported above the well such that the polish rod extends upward through a rotating drive member and upward through a polish rod clamp above the rotating drive member;
the polish rod clamp comprising:
a body defining a lower rod aperture in a bottom end thereof, and defining a tapered body recess with walls sloping inward toward the bottom end thereof;
a cap with threads defined on lower inner walls thereof engaging corresponding threads on an outer surface of the body, the cap defining an upper rod aperture in a top end thereof and defining a tapered cap recess with walls sloping inward toward the top end thereof; and a plurality of tapered gripper dies, each die having lower outer surfaces bearing against the walls of the tapered body recess and having upper outer surfaces bearing against the walls of the tapered cap recess, and inner surfaces bearing against the polish rod;
wherein the gripper dies engage the body such that the gripper dies are movable up and down with respect to the body and such that the gripper dies are prevented from rotating with respect to the body;
wherein the body is engaged in the rotating drive member, such that the polish rod clamp and polish rod rotate with the rotating drive member.
a rotating drive mechanism supported above the well such that the polish rod extends upward through a rotating drive member and upward through a polish rod clamp above the rotating drive member;
the polish rod clamp comprising:
a body defining a lower rod aperture in a bottom end thereof, and defining a tapered body recess with walls sloping inward toward the bottom end thereof;
a cap with threads defined on lower inner walls thereof engaging corresponding threads on an outer surface of the body, the cap defining an upper rod aperture in a top end thereof and defining a tapered cap recess with walls sloping inward toward the top end thereof; and a plurality of tapered gripper dies, each die having lower outer surfaces bearing against the walls of the tapered body recess and having upper outer surfaces bearing against the walls of the tapered cap recess, and inner surfaces bearing against the polish rod;
wherein the gripper dies engage the body such that the gripper dies are movable up and down with respect to the body and such that the gripper dies are prevented from rotating with respect to the body;
wherein the body is engaged in the rotating drive member, such that the polish rod clamp and polish rod rotate with the rotating drive member.
11. The apparatus of Claim 10 wherein a slope of the upper and lower outer surfaces of the gripper dies is substantially the same as a slope of the walls of the corresponding tapered body and cap recesses
12. The apparatus of any one of Claims 10 and 11 wherein the inner surfaces of the gripper dies substantially conform to the outer surface of the polish rod.
13. The apparatus of any one of Claims 10 - 12 wherein at least one of the tapered body and cap recesses is conical.
14. The apparatus of any one of Claims 10 - 13 wherein a bottom face of the body defines a recess configured to engage a ridge extending upward from the rotating drive member.
15. The apparatus of any one of Claim 10 - 14 wherein the inner surfaces of the gripper dies define helical threads oriented to bear against the outer surface of the polish rod and prevent the polish rod from rotating with respect to the gripper dies.
16. The apparatus of Claim 15 wherein the helical threads on the inner surface of at least one gripper die are right hand and the helical threads on the inner surface of at least one other gripper die are left hand.
17. The apparatus of any one of Claims 10 - 16 wherein the gripper dies are prevented from rotating with respect to the body by a no-turn pin extending inward from the body and engaging a corresponding groove in an outer surface of a gripper die.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA2587958A CA2587958C (en) | 2006-05-10 | 2007-05-08 | Polish rod clamp apparatus |
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA002546208A CA2546208A1 (en) | 2006-05-10 | 2006-05-10 | Polished rod clamp apparatus |
| CA2,546,208 | 2006-05-10 | ||
| CA2587958A CA2587958C (en) | 2006-05-10 | 2007-05-08 | Polish rod clamp apparatus |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CA2587958A1 CA2587958A1 (en) | 2007-11-10 |
| CA2587958C true CA2587958C (en) | 2011-01-04 |
Family
ID=38663506
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA2587958A Active CA2587958C (en) | 2006-05-10 | 2007-05-08 | Polish rod clamp apparatus |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA2587958C (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CA2922274C (en) * | 2013-10-07 | 2017-10-24 | Halliburton Energy Services, Inc. | Quick connect for wellbore tubulars |
-
2007
- 2007-05-08 CA CA2587958A patent/CA2587958C/en active Active
Also Published As
| Publication number | Publication date |
|---|---|
| CA2587958A1 (en) | 2007-11-10 |
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