JP2021032077A - Double hook and double spear structure wire line feeding and pull-up device - Google Patents

Abstract

To provide a double hook and double spear structure wire line feeding and pull-up device which perform the difference operation of a double pipe type core ring device by a connecting method of double hook and double spear control.SOLUTION: A double hook and double spear structure wire line feeding and pull-up device comprises a feeding device part, a pull-up device part and a pulled-up part. The feeding device part includes a first wire line 21, a slide hammer 225, a connecting rod 227, a separation control ring 228, two sets of pulling-up hooks 229 for the feeding device and a guide cup 2210 for the feeding device. The pull-up device part includes a second wire line, a pull-up device rod body, two sets of pull-up hooks for the pull-up device and a guide cup for the pull-up device. The pulled-up part includes a first pull-up spear 231, two sets of hooks 232 for a core ring device, a second pull-up spear 241, a release ring tube connector 233 and a release ring tube 234.SELECTED DRAWING: Figure 1

Description

The present invention relates to the technical field of wire line coring, and more particularly to a wire line feeding and pulling device having a double hook / double spear structure.

General double-tube coring equipment using coring technology is also used in the field of wire line coring. Wireline coring requires opening the ball or plate valve at the front end of the coring device to allow the rock core barrel to pass through the ball or plate valve.

A conventional double tube coring device collects the rock core barrel above the ball valve or plate valve at the front end of the coring device to close the ball valve or plate valve after completing the reciprocating coring. There is a need.
Under these circumstances, the wire line coring device of the present invention is required to provide a convenient method in which the double tube of the coring device performs different operations with high reliability under different working conditions. Has been done.
Therefore, the present invention has been made in view of the above technical problems, and the double hook / double spear that operates differently in the double tube type coring device by the connection method of the double hook / double spear control. It is an object of the present invention to provide a wire line feeding and pulling device of a structure.

The wire line feeding and pulling device having a double hook / double spear structure according to the present invention includes a feeding device section, a pulling device section and a pulled-up section, and the feeding device section includes a first wire line, a first wire line ring, and the like. A first bearing, a first nut, a first bearing sleeve, a slide hammer, a limit joint, and a connecting rod are provided, and one end of the first wire line and the first wire line ring are connected and fixed, and the first bearing is the first. Attached and fixed to the bearing sleeve, the first wire line ring is inserted into the first bearing sleeve, and the lower half of the first wire line ring passes through the first bearing and is fixed to its inner wall, the first nut. Is screwed into the bottom of the first wire line ring, the upper end of the slide hammer is fixedly installed at the bottom of the bearing sleeve, the slide hammer is provided with an internal cavity, and the side wall of the slide hammer is provided with a plurality of sets of through holes. The upper end of the connecting rod is inserted into the internal cavity, the limit joint is attached to the lower half of the internal cavity, and the feeding device unit is a separation control ring, two sets of pulling device pulling hooks, a first spring, and a first spring. A single mandrel and a guide cup for the feeding device are also provided, the separation control ring is attached to the lower end of the connecting rod, and the central portion of the two sets of pulling hooks for the feeding device is rotatably connected via the first mandrel. , The left end and the right end of the first spring are connected to the upper half of each of the two sets of feed device pull-up hooks, and the lower half of the two sets of feed device pull-up hooks are in the feed device guide cup.
The pulling device section includes a second wire line, a second wire line ring, a second bearing sleeve, a second bearing, a second nut, a pulling device rod body, two sets of pulling device pulling hooks, a second spring, and a second. A mandrel and a guide cup for a pulling device are provided, one end of the second wire line and the second wire line ring are connected and fixed, the second bearing is attached and fixed to the second bearing sleeve, and the second wire line ring is attached. Is inserted into the second bearing sleeve, and the lower half of the second wire line ring passes through the second bearing and is fixed to its inner wall, and the second nut is screwed to the bottom of the second wire line ring and pulled up. The upper end of the device rod body and the lower end of the second bearing sleeve are connected, the central portion of the two sets of pulling device pulling hooks is rotatably connected via the second mandrel, and the left and right ends of the second spring are connected. Each is connected to the upper half of two sets of pull-up hooks, and the pull-up guide cup is under two sets of pull-up hooks.
The lifted portion includes a first pulling spear, a pulling hook for a coring device, a third spring, a third mandrel, a second pulling spear, a release ring pipe connector and a release ring pipe, and the upper end of the first pulling spear It is inserted into the guide cup for the feeding device or the guide cup for the pulling device, and is between the pulling hook for the feeding device or the pulling hook for the pulling device, and the central portion of the pulling hook for the coring device rotates via the third mandrel. Possible connection, the left and right ends of the third spring are connected to the upper half of the coring device pull-up hook, respectively, the release ring pipe connector is attached to the top of the release ring pipe, and the second pull-up spear is released. It is inside the ring pipe, and the upper end of the second pull-up spear is between the pull-up hooks for the coring device, and the first long slide groove, the diagonal cross section of the long slide groove, and the release ring pipe pin eye are on the inner wall of the release ring pipe. Also equipped with elastic pins, base frame couplings, support clip pipes, adapter couplings, couplings, lift pipes, suspension rings, seat rings, long slide holes are provided in the support clip pipes, and elastic pins are released. It is attached and fixed to the release ring pipe pin eye at the lower end of the ring pipe, the lift pipe is provided with a pin eye, the elastic pin passes through the pin eye of the lift pipe and extends into the long slide hole of the support clip pipe, and the lift pipe is the support clip. It is inserted into the pipe, the support clip pipe and the base frame coupling are inserted into the release ring pipe, the base frame coupling and the support clip pipe are in contact with each other and fixed, and the lower end of the second pull-up spear is in contact with the base frame coupling. It is fixed, the suspension ring is attached to the bottom of the support clip pipe, and the suspension ring is hung on the seat ring of the outer pipe, the coupling is attached to the internal cavity of the base frame coupling, and the release ring. Elasticly extends outward from the first long slide groove of the pipe, placed on the base fastener at the bottom of the well, the coupling and adapter coupling contact, perform reciprocating coring, pull up the release ring overshoot, release ring The pipe is lifted until the diagonal cross section of the long slide groove contacts the coupling, the coupling closes and no longer contacts the adapter coupling.

Compared with the prior art, the beneficial effects of the present invention are as follows.
1. The feeding mechanism and the pulling mechanism of the coring device can be sequentially operated by different connection / separation methods between the pulling hook of the feeding device or the pulling device and the first and second pulling spears of the coring device.
2. The entire device is placed at the bottom of the well, a second pulling spear is installed in the first pulling spear of the coring device, and the feeding device feeds the coring device to the bottom of the hole. The weight under the coring device can be transferred from the base frame coupling to the second pull-up spear, the second pull-up hook, the first pull-up spear, the feeding device section, and the wire line in this order.
3. Place the entire device on the base fastener at the bottom of the well, feed the coring device to the bottom of the hole, and the telescopic slide hammer of the feeding device for the coring device will lower and contract to hit the release ring overshoot ring. Separate the pull-up hook for the feed device and the first pull-up spear of the coring device, further separate the feed device and the coring device, collect the feed device to the wellhead with a wire line, and then attach the drill pipe. This makes it possible to perform reciprocating coring.
4. After performing reciprocating coring, insert the pulling device, and the pulling hook for the pulling device and the first pulling spear of the coring device are connected by the guidance by the guide cup for the pulling device, and at the same time, the guide cup for the pulling device. Presses on the coring device pull-up hook and removes the coring device pull-up hook from the coring device second pull-up spear. By lifting the wire line, the pulling device can lift the first pulling spear of the coring device and at the same time move the release ring pipe up.

It is a structural schematic diagram of the connection between the feeding device part and the pull-up part of this invention. It is sectional drawing of AA and BB of FIG. It is a structural schematic diagram of the connection between the pulling device part and the pulling part of this invention. It is a schematic diagram when it is placed on the bottom of a well at the time of use of this invention. FIG. 6 is a schematic representation of a slide hammer contraction when placed on a base fastener at the bottom of a well during use of the present invention. It is the schematic when the slide hammer hits the separation control ring at the time of use of this invention, and removes it from a 1st pull-up spear. It is a schematic diagram of the separation and pulling device recovery at the time of use of this invention. It is a schematic diagram in the case where the reciprocating coring is completed at the time of use of the present invention, and the pulling device is inserted and pulled up. It is a schematic diagram in the case where the reciprocating coring is performed at the time of use of this invention, the pulling device is inserted, and the release ring overshoot is pulled up.

21 1st wire line 221 1st wire line ring 222 1st bearing 223 1st nut 224 1st bearing sleeve 225 Slide hammer 226 Limit joint 227 Connecting rod 228 Separation control ring 229 Pull-up hook for feed device 2291 1st spring 2292 1st Mandrel 2210 Guide cup for feed device 231 First pull-up spear 232 Pull-up hook for coring device 2321 Third spring 2322 Third mandrel 233 Release ring pipe connector 234 Release ring pipe 2341 First long slide groove 2342 Diagonal cross section of long slide groove 2343 Release Ring Pipe Pin Eye 235 Elastic Pin 241 Second Pull Spear 242 Base Frame Coupling 243 Support Clip Pipe 2431 Long Slide Hole 251 Adapter Coupling 252 Coupling 261 Lift Pipe 2611 Pin Eye 271 Suspension Ring 272 Seat Ring 31 Second Wire Line 321 Second wire line ring 322 Second bearing sleeve 323 Second bearing 324 Second nut 325 Pulling device rod body 326 Pulling device pulling hook 327 Pulling device guide cup 328 Second spring 329 Second mandrel

Hereinafter, embodiments of the present invention will be further described with reference to the accompanying drawings.

The following embodiments are used to illustrate the invention, but do not limit the scope of the invention.
As shown in FIGS. 1 to 9, the wire line feeding and pulling device having a double hook / double spear structure according to the present invention includes a feeding device section, a pulling device section, and a pulling section. The feeding device unit includes a first wire line 21, a first wire line ring 221 and a first bearing 222, a first nut 223, a first bearing sleeve 224, a slide hammer 225, a limit joint 226, and a connecting rod 227. One end of the wire line 21 and the first wire line ring 221 are connected and fixed, the first bearing 222 is attached and fixed to the first bearing sleeve 224, and the first wire line ring 221 is inserted into the first bearing sleeve 224. The lower half of the first wire line ring 221 passes through the first bearing 222 and is fixed to the inner wall thereof, the first nut 223 is screwed to the bottom of the first wire line ring 221 and the upper end of the slide hammer 225 is a bearing. Fixedly installed at the bottom of the sleeve, the slide hammer 225 is provided with an internal cavity, the side wall of the slide hammer 225 is provided with multiple sets of through holes, the upper end of the connecting rod 227 is inserted into the internal cavity, and the limit joint 226 is inside. The separation control ring is attached to the lower half of the cavity, and the feeding device section is also equipped with a separation control ring 228, two sets of pull-up hooks for feeding devices 229, a first spring 2291, a first connecting rod 2292, and a guide cup 2210 for feeding devices. 228 is attached to the lower end of the connecting rod 227, the central part of the two sets of feed device pull-up hooks 229 is rotatably connected via the first mandrel 2292, and the left and right ends of the first spring 2291 are two sets each. Connected to the upper half of the feed device pull-up hook 229, the lower half of the two sets of feed device pull-up hooks 229 is in the feed device guide cup 2210.

The pulling device section includes a second wire line 31, a second wire line ring 321, a second bearing sleeve 322, a second bearing 323, a second nut 324, a pulling device rod body 325, and two sets of pulling device pulling hooks 326. A second spring 328, a second mandrel 329, and a guide cup 327 for a pulling device are provided, one end of the second wire line 31 and the second wire line ring 321 are connected and fixed, and the second bearing 323 is attached to the second bearing sleeve 322. Attached and fixed, the second wire line ring 321 is inserted into the second bearing sleeve 322, and the lower half of the second wire line ring 321 passes through the second bearing 323 and is fixed to its inner wall, the second nut 324. Is screwed to the bottom of the second wire line ring 321 to connect the upper end of the pulling device rod body 325 to the lower end of the second bearing sleeve 322, and the central part of the two sets of pulling device pulling hooks 326 is the second mandrel 329. The left and right ends of the second spring 328 are connected to the upper half of two sets of pulling device pulling hooks 326, respectively, and the pulling device guide cup 327 is connected to two sets of pulling device pulling hooks. It is below 326.

The lifted portion includes a first pulling spear 231, a pulling hook 232 for a coring device, a third spring 2321, a third mandrel 2322, a second pulling spear 241 and a release ring pipe connector 233 and a release ring pipe 234. The upper end of the pulling spear 231 is inserted into the guide cup 2210 for the feeding device or the guide cup 327 for the pulling device, and is between the pulling hook 229 for the feeding device or the pulling hook 326 for the pulling device, and the pulling hook 232 for the coring device. The central part is rotatably connected via the third mandrel 2322, the left and right ends of the third spring 2321 are connected to the upper half of the coring device pull-up hook 232, respectively, and the release ring pipe connector 233 is connected to the release ring pipe 234. The second pull-up spear 241 is inside the release ring pipe 234, and the upper end of the second pull-up spear 241 is between the pull-up hooks 232 for the coring device, and is attached to the inner wall of the release ring pipe 234. One long slide groove 2341, an oblique cross section 2342 of the long slide groove and a release ring pipe pin eye 2343 are provided, and an elastic pin 235, a base frame coupling 242, a support clip pipe 243, an adapter coupling 251 and a coupling 252, and a lift pipe 261 are provided. , Suspension ring 271 and seat ring 272 are also provided, the support clip pipe 243 is provided with a long slide hole 2431, and the elastic pin 235 is attached and fixed to the release ring pipe pin eye 2343 at the lower end of the release ring pipe 234, and the lift pipe 261 The pin eye 2611 is provided in the above, the elastic pin 235 passes through the pin eye 2611 of the lift pipe 261 and extends into the long slide hole 2431 of the support clip pipe 243, and the lift pipe 261 is inserted into the support clip pipe 243 to form a support clip pipe 243. The base frame coupling 242 is inserted into the release ring pipe 234, the base frame coupling 242 and the support clip pipe 243 are contacted and fixed, the lower end of the second pull-up spear 241 and the base frame coupling 242 are contacted and fixed, and the suspension. The ring 271 is attached to the bottom of the support clip pipe 243, and the suspension ring 271 is the outer pipe. The coupling 252 is mounted in the internal cavity of the base frame coupling 242 and elastically extends outward from the first long slide groove 2341 of the release ring pipe 234 and is at the bottom of the well. Placed on the base fastener, the coupling 252 and the adapter coupling 251 contact, perform reciprocating coring and pull up the release ring overshoot, the release ring pipe 234, and the diagonal cross section 2342 of the long slide groove contact the coupling 252. The coupling 252 closes and no longer contacts the adapter coupling.

The wire line feed and pull-up device having a double-hook / double-spear structure according to the present invention has a different connection / separation method between the pull-up hook of the feed device or the pull-up device and the first and second pull-up spears of the coring device at the time of use. The feeding mechanism and pulling mechanism of the coring device are operated in sequence.

The entire device is placed at the bottom of the well, a second pulling spear is erected within the first pulling spear of the coring device, and the feeding device feeds the coring device to the bottom of the hole. The weight under the coring device is transmitted from the base frame coupling to the second pull-up spear, the second pull-up hook, the first pull-up spear, the feeding device section, and the wire line in this order.

The entire device is placed on the base fastener at the bottom of the well, the coring device is fed to the bottom of the hole, and the telescopic slide hammer of the feeding device for the coring device is lowered and contracted to hit the release ring overshoot ring. Separate the pull-up hook and the first pull-up spear of the coring device, separate the feed device and the coring device, collect the feed device to the wellhead with a wire line, and then attach the drill pipe to reciprocate. Perform coring.

After performing reciprocating coring, insert the pulling device, and the guide cup for the pulling device connects the pulling hook for the pulling device and the first pulling spear of the coring device, and at the same time, the guide cup for the pulling device is the core. Press the pull-up hook for the ring device and remove the pull-up hook for the coring device from the second pull-up spear of the coring device. By lifting the wire line, the pulling device lifts the first pulling spear of the coring device and at the same time moves the release ring pipe up.

The above is merely a preferred embodiment of the invention, allowing those skilled in the art to make some improvements and modifications without departing from the technical principles of the invention, and these improvements and modifications also protect the invention. It shall be within the range.

Claims (1)

The feeding device section includes a feeding device section, a pulling device section, and a pulling device section, and the feeding device section includes a first wire line (21), a first wire line ring (221), a first bearing (222), and a first nut (223). , First bearing sleeve (224), slide hammer (225), limit joint (226), connecting rod (227), and one end of the first wire line (21) and the first wire line ring (221) are connected. And fixed, the first bearing (222) is attached and fixed to the first bearing sleeve (224), the first wire line ring (221) is inserted into the first bearing sleeve (224), and the first. The lower half of the wire line ring (221) passes through the first bearing (222) and is fixed to its inner wall, the first nut (223) is screwed to the bottom of the first wire line ring (221), and the slide. The upper end of the hammer (225) is fixedly installed at the bottom of the bearing sleeve, the slide hammer (225) is provided with an internal cavity, the side wall of the slide hammer (225) is provided with a plurality of sets of through holes, and the connecting rod (225) is provided with a plurality of sets of through holes. The upper end of 227) is inserted into the internal cavity, the limit joint (226) is attached to the lower half of the internal cavity, and the feeding device unit is a separation control ring (228), two sets of pulling hooks for feeding devices (229). A first spring (2291), a first mandrel (2292) and a guide cup (2210) for a feeding device are also provided, and the separation control ring (228) is attached to the lower end of the connecting rod (227) to form the two sets. The central portion of the feed device pull-up hook (229) is rotatably connected via the first mandrel (2292), and the left end and the right end of the first spring (2291) are each set of two sets of feed device pull-up hooks (2291). Connected to the upper half of the feed device, the lower half of the two sets of feed device pull-up hooks (229) are in the feed device guide cup (2210).
The pulling device section includes a second wire line (31), a second wire line ring (321), a second bearing sleeve (322), a second bearing (323), a second nut (324), and a pulling device rod body ( 325), provided with two sets of pulling device pulling hooks (326), a second spring (328), a second mandrel (329) and a pulling device guide cup (327), one end of the second wire line (31). And the second wire line ring (321) are connected and fixed, the second bearing (323) is attached and fixed to the second bearing sleeve (322), and the second wire line ring (321) is attached to the second bearing sleeve. It is inserted into (322), and the lower half of the second wire line ring (321) passes through the second bearing (323) and is fixed to the inner wall thereof, and the second nut (324) is fixed to the second wire line ring (324). It is screwed to the bottom of 321), the upper end of the pulling device rod body (325) and the lower end of the second bearing sleeve (322) are connected, and the central part of the two sets of pulling device pulling hooks (326) is the second. It is rotatably connected via a mandrel (329), and the left end and the right end of the second spring (328) are connected to the upper halves of two sets of pulling device pulling hooks (326), respectively, and the pulling device guide cup. (327) is under the two sets of lifting hooks (326) for the lifting device.
The lifted portion includes a first pulling spear (231), a pulling hook for a coring device (232), a third spring (2321), a third mandrel (2322), a second pulling spear (241), and a release ring pipe connector. (233) and a release ring pipe (234), the upper end of the first pull-up spear (231) is inserted into the feed device guide cup (2210) or the pull-up device guide cup (327), and is for the feed device. It is located between the pull-up hook (229) or the pull-up hook (326) for the pull-up device, and the central portion of the pull-up hook (232) for the coring device is rotatably connected via a third mandrel (2322). The left and right ends of the spring (2321) are connected to the upper half of the coring device pull-up hook (232), respectively, and the release ring pipe connector (233) is attached to the upper part of the release ring pipe (234). The pull-up spear (241) is in the release ring pipe (234), and the upper end of the second pull-up spear (241) is between the pull-up hooks (232) for the coring device, and the release ring pipe (234). The inner wall is provided with a first long slide groove (2341), an oblique cross section (2342) of the long slide groove and a release ring pipe pin eye (2343), an elastic pin (235), a base frame coupling (242), and a support clip pipe (2343). 243), adapter coupling (251), coupling (252), lift pipe (261), suspension ring (271), seat ring (272) are also provided, and the support clip pipe (243) has a long slide hole (2431). Is provided, the elastic pin (235) is attached and fixed to the release ring pipe pin eye (2343) at the lower end of the release ring pipe (234), the lift pipe (261) is provided with the pin eye (2611), and the elastic pin (2641) is provided. 235) passes through the pin eye (2611) of the lift pipe (261) and extends into the long slide hole (2431) of the support clip pipe (243), and the lift pipe (261) is inserted into the support clip pipe (243). The support clip pipe (243) and the base frame coupling (242) are inserted into the release ring pipe (234), and the base frame coupling (242) and the support The top clip pipe (243) is in contact and fixed, the lower end of the second pull-up spear (241) and the base frame coupling (242) are in contact and fixed, and the suspension ring (271) is attached to the support clip pipe (243). Attached to the bottom, the suspension ring (271) is hung on the seat ring (272) of the outer pipe, the coupling (252) is attached to the internal cavity of the base frame coupling (242), and the release ring. It elastically extends outward from the first long slide groove (2341) of the pipe (234) and is placed on the base fastener at the bottom of the well where the coupling (252) and adapter coupling (251) come into contact and the reciprocating core. Ring and pull up the release ring overshoot, the release ring pipe (234) is lifted until the diagonal cross section (2342) of the long slide groove contacts the coupling (252), the coupling (252) closes and the adapter cup A double-hook, double-spear-structured wireline feed and pull-up device that is characterized by no contact with the ring.