CN212249926U - Latch jack of claw formula rope coring drilling tool suitable for geological exploration - Google Patents

Abstract

The utility model discloses a jack of jack catch formula rope coring drilling tool suitable for geological exploration, catch cover, support, release including ejector pin, jack catch and collude, lead just cover, trigger the sliding sleeve, carry axle, spring gland and connect. The upper end of the lifting shaft is connected with the joint; the lower end of the lifting shaft is positioned in the bracket, and the top of the bracket is provided with a spring gland; a release hook is hinged in the key groove of the bracket; the lower part of the bracket is connected with a clamping jaw capture cover, the ejector rod and the guide sleeve are positioned in the bracket, and an ejector rod release spring is arranged between the guide sleeve and the bracket; the upper part of the bracket is provided with a spring gland, and the lifting shaft is arranged in the bracket through a central hole of the spring gland; the joint and the lifting shaft pin are connected with the upper part of the spring gland, the lower part of the joint is connected with the trigger sliding sleeve, and the tail part of the release hook is arranged in the trigger sliding sleeve. The utility model discloses at the in-process of retrieving the claw formula rope coring drilling tool, when the drilling tool meets unusual jamming the utility model discloses have and take off the card function certainly, can realize the safety separation with the drilling tool jack catch.

Description

Latch jack of claw formula rope coring drilling tool suitable for geological exploration

Technical Field

The utility model relates to a jack catch formula rope coring drilling tool fisher suitable for geological exploration.

Background

The rope coring drilling technology has the advantages of high drilling efficiency, small disturbance degree on samples and the like, and is widely applied to the field of geological exploration. At present, the top of the conventional wire line core drill adopts a spearhead structure form, and the spearhead is caught by a clamp in a fisher and the recovery and lifting of the drill are completed. If the lifting process meets the abnormal blocking condition under the working condition of vertical drilling, the releasing pipe is manually thrown in the orifice, the tail part of the fisher clamping clip is sleeved by the releasing pipe under the action of impact force, so that the clamping clip is opened to realize the separation of the fisher and the inner pipe assembly, and the drilling accident is avoided from being enlarged. However, in the lifting of the inner pipe assembly of the vertical deep hole and the horizontal hole, the releasing pipe is influenced by factors such as the buoyancy of flushing liquid in the hole and the incapability of descending by self weight in the delivery process, so that the impact force is insufficient when the releasing pipe is delivered, and the releasing and the separating of the fisher and the inner pipe assembly cannot be completed.

Compared with a wireline core drill in the form of a top spearhead, the jaw-type wireline core drill has the following advantages: 1. compared with a concentrated stress form of a spearhead in the lifting process, the stress of the jaw type structure is commonly borne by a plurality of jaw structures in the lifting process, and the reliability is high in the lifting of a large-caliber heavy-weight drilling tool; 2. when the drilling tool is delivered for operation, the elastic clamping plate of the conventional drilling tool is propped against the inner surface of the drill rod to slide downwards under the action of spring force, the abnormal abrasion is serious, and the spring force of each clamping jaw of the clamping jaw type drilling tool is small, so that the abrasion in the delivery process is favorably slowed down; 3. the positioning reliability during normal drilling is improved by the aid of the multiple clamping claws, and drilling accidents can be avoided. When a claw type rope drilling tool is adopted, the current fishing mode is to use a bell jar type fisher to catch a plurality of claws. However, when the lifting is blocked, the mode cannot carry out effective, quick and reliable releasing operation, so that the wide application and popularization of the jaw type rope core drill in a complex stratum are limited, and the working reliability and the stability of the jaw type rope core drill are reduced.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a simple structure, high fisher of the jack catch formula rope coring drilling tool that is applicable to geological exploration of reliability, it can make the drilling tool realize automatic the operation of taking off the card when meetting the card and hinder, reduces the accident loss.

The utility model adopts the technical proposal that: a latch type fisher of a rope core drill suitable for geological exploration comprises a push rod, a latch catching cover, a support, a release hook, a guide sleeve, a trigger sliding sleeve, a lifting shaft, a spring gland, a connector and a lifting assembly, wherein the lifting assembly is connected with the connector, the connector is of a tubular structure, and the upper end of the lifting shaft is connected with the connector; the lower end of the lifting shaft is positioned in the bracket, the lower end of the lifting shaft is provided with a flange, the top of the bracket is provided with a spring gland, and a spring is arranged between the spring gland and the flange; the support is of a tubular structure, a plurality of key grooves are formed in the side wall of the support, a release hook is hinged in each key groove, the middle of each release hook is hinged with the support, a hook is arranged on the lower portion of each release hook and can extend into a central hole of the support, a clamping groove is formed in the outer side wall of the upper portion of each release hook, an inclined surface matched with the inclined surface of the bottom of the trigger sliding sleeve is arranged on the upper portion of each clamping groove, and a spring is arranged between the top of each release hook; the trigger sliding sleeve is positioned outside the bracket, the bottom of the trigger sliding sleeve is arranged in the clamping groove, and the upper end of the trigger sliding sleeve is connected with the joint; the ejector rod is fixedly installed in a center hole at the lower end of the guide sleeve, a hook groove is formed in the side wall of the guide sleeve, the guide sleeve is inserted into the center hole at the lower end of the support, the hook groove is hooked and fixed through a hook at the lower end of the release hook, an ejector rod release spring is arranged between the guide sleeve and the support, and the clamping jaw capture cover is installed at the lower end of the support.

In the latch jack of the claw type wire line core drill suitable for geological exploration, the lifting assembly is connected with the joint through the joint gland, the upper end of the joint gland is in threaded connection with the lifting assembly, and the lower end of the joint gland is in threaded connection with the joint; the upper end of the lifting shaft is connected with the joint through a cylindrical pin.

In the latch jack of the claw type rope core drill suitable for geological exploration, the lower end of the central hole of the joint is provided with the bushing, the bushing is internally provided with the steel ball, and the joint gland compresses the steel ball.

In the latch jack of the claw type rope core drill suitable for geological exploration, the spring gland is provided with a plurality of water passing grooves which are axially arranged; the spring gland lateral wall on be equipped with a plurality of through-holes I, the corresponding water groove of crossing of through-hole I inner intercommunication is equipped with a plurality of through-holes II on the trigger sliding sleeve, through-hole II and through-hole I realize crossing the intercommunication of water groove and external world.

In the latch jack of the claw type rope core drill suitable for geological exploration, the jack catch catching cover is internally provided with the ejector rod stroke limiting step, the ejector rod stroke limiting step is perpendicular to the axis of the ejector rod, and the bottom of the jack catch catching cover can be meshed with the top of the jack catch.

Compared with the prior art, the beneficial effects of the utility model are that:

1) the utility model discloses possess when going on salvage process and meet unusual jamming and separate the function from oneself, can realize the safe separation of fisher and inner tube assembly when retrieving the promotion anomaly at jack catch type rope core drill to avoid the further expansion of probing accident. Just the utility model discloses an application under vertical drilling and horizontal drilling operating mode is satisfied simultaneously to the fisher, has stronger operating mode compatibility.

2) The utility model discloses a thereby the fisher takes off the card mode forces the release to collude through sliding sleeve axial displacement and takes place to rotate and realize taking off the card action, and the axial displacement stroke of its sliding sleeve can be adjusted according to the spring lectotype, and its moving range's adjustability and operational reliability are superior to the conventional delivery and take off the card tubular form.

3) The utility model discloses in the action of taking off the card, the effort size of taking off the card pole is by direct by holding power spring control, and its adjustable range is big, and can not take place to deliver to take off the card pipe and offset the circumstances that causes the impact force to descend by the effort when delivering, and the success rate of taking off the card is high.

4) The utility model discloses the release collude the afterbody and place in the cover that triggers, can reduce the probability that promotes the in-process spurious triggering, improve operational reliability.

Drawings

Fig. 1 is a sectional view of the present invention.

Fig. 2 is a schematic view of the structure of the guide sleeve.

Fig. 3 is a schematic structural diagram of the bracket of the present invention.

Fig. 4 is a schematic structural view of the release hook of the present invention.

Fig. 5 is a schematic structural view of the triggering sliding sleeve of the present invention.

Fig. 6 is a schematic view of the normal fishing state of the present invention.

Fig. 7 is a schematic view of the safety card-releasing state when encountering a block.

In the figure: 1-a top rod; 2-a clamping jaw catching cover; 3-a scaffold; 4-release hook; 5-cylindrical pin 1; 6-a spring; 7-guiding sleeve; 8-releasing the spring by the ejector rod; 9-lifting the shaft; 10-a spring; 11-a spring gland; 12-triggering the sliding sleeve; 13-cylindrical pin 2; 14-a linker; 15-a bushing; 16-steel balls; 17-a joint gland; 18-rubber ring; 19-a pulling assembly; 20-drilling tool jaws; 201-a stroke limit step of the ejector rod guide sleeve; 301-a keyway; 401-positioning surface; 402-a bevel; 701-a groove; 1101-water passing key groove; 1201-inclined plane; 1202-a via; 2001-drill jaw location face.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1-5, the utility model comprises a top rod 1, a jack catch catching cover 2, a bracket 3, a release hook 4, a guide sleeve 7, a trigger sliding sleeve 12, a lifting shaft 9, a spring gland 11, a joint 14, a joint gland 17 and a lifting component 19. The lifting component 19 is in threaded connection with the upper end of the joint gland 17, and a rubber ring 18 is arranged between the lifting component 19 and the joint gland 17. The lower end of the joint gland 17 is in threaded connection with the upper end of the joint 14, a bushing 15 is arranged at the bottom of a central hole of the joint 14, a steel ball 16 is arranged in the bushing 15, and the joint gland 17 compresses the steel ball 16. The joint 14 is a tubular structure, and a plurality of through holes 1401 are arranged on the side wall of the joint 14, and the through holes 1401 are positioned below the lining 15.

The upper end of the lifting shaft 9 is inserted into a central hole of the joint 14 and is connected with the joint 14 through a cylindrical pin 13; the lower end of the lifting shaft 9 is positioned in the bracket 3, the lower end of the lifting shaft 9 is provided with a flange, the top of the bracket 3 is provided with a spring gland 11, and a spring 10 is arranged between the spring gland 11 and the flange at the lower end of the lifting shaft 9. Support 3 be tubular structure, be equipped with a plurality of keyways on support 3's the lateral wall, it has a release hook 4 to be equipped with in every keyway, release hook 4's middle part is articulated with the support, release hook 4's lower part is equipped with the hook, the hook can stretch into in the support 3 centre bore, be equipped with draw-in groove 402 on the 4 upper portion lateral walls of release hook, draw-in groove 402's upper portion be equipped with trigger sliding sleeve 12 bottom slope looks complex inclined plane to one side, be equipped with spring 6 between 4 tops of release hook and the support 3, spring 6's central line sets up along support 3's radial. The trigger sliding sleeve 12 is located outside the bracket 3, the bottom of the trigger sliding sleeve 12 is arranged in the clamping groove 402, and the upper end of the trigger sliding sleeve 12 is connected with the joint 14. The ejector rod 1 is fixedly installed in a center hole at the lower end of the guide sleeve 7, a hook groove 701 is formed in the side wall of the guide sleeve 7, the guide sleeve 7 is inserted into the center hole at the lower end of the support 3, a hook 401 at the lower end of the release hook 4 hooks the hook groove 701, an ejector rod release spring 8 is arranged between the guide sleeve 7 and the support 3, and the clamping jaw capture cover 2 is installed at the lower end of the support 3.

The spring gland 11 is provided with a plurality of water passing grooves 1101, the water passing grooves 1101 are arranged along the axial direction, and the water passing grooves 1101 are uniformly arranged along the circumferential direction. The side wall of the spring gland 11 is provided with a plurality of through holes I, and the inner ends of the through holes I are communicated with the corresponding water passing grooves 1101. A plurality of through holes II are formed in the trigger sliding sleeve 12, and the through holes II and the through holes I are communicated with the water passing groove 1101 and the outside. The jack catch cover 2 is internally provided with a mandril stroke limiting step 201, the mandril stroke limiting step 201 is perpendicular to the axis of the mandril 1, and the bottom of the jack catch cover 2 can be meshed with the top of the jack catch 20.

The utility model discloses a concrete application method as follows:

before the fisher is thrown, the ejector rod 1 and the guide sleeve 7 are set to be in a pre-excitation state. At this time, the positioning groove 701 of the guide sleeve 7 is matched with the positioning surface 401 of the release hook 4, and the ejector rod release spring 8 is in a compressed state. And then the fisher can be driven by waterpower, gravity or external jacking force to slide in the drill rod to normally catch the jaw type wire line core drilling tool. When normally catching, the utility model discloses a bottom and the multi-disc jack catch 20 interlock each other of drilling tool of jack catch cover 2, as shown in fig. 6. If meet unusual jamming in the recovery process, then compare normal lifting tension, the pulling force value suddenly increases this moment. When the pulling force value exceeds the early warning pressure value set by the spring 10, the pulling shaft 9 connected with the connector 14 is driven by the cylindrical pin 13 to overcome the spring force together to generate axial displacement. The inclined plane 1201 inside the triggering sliding sleeve 12 and the inclined plane 402 at the tail part of the release hook 4 are contacted with each other under the action of axial displacement. With the further increase of the displacement, the triggering sliding sleeve 12 forces the release hook 4 to rotate around the hinge pair, so that the constraint of the release hook 4 on the pilot sleeve 7 is released. The guide sleeve 7 drives the ejector rod 1 to move forwards and impact under the action of the spring force of the ejector rod release spring 8, so that the ejector rod 1 enters the through hole in the top of the drilling tool and impacts the positioning surface 2001 of the plurality of claws 20 on the drilling tool, the plurality of claws 20 of the drilling tool are forced to rotate, the claws 20 of the drilling tool and the claw catching cover 2 of the fisher are not meshed with each other, and the fisher and the drilling tool are safely separated from each other as shown in fig. 7.

Claims (5)

1. The utility model provides a fisher of jack catch formula rope coring drilling tool suitable for geological exploration which characterized by: the device comprises a top rod, a clamping jaw capturing cover, a support, a release hook, a guide sleeve, a trigger sliding sleeve, a lifting shaft, a spring gland, a joint and a lifting assembly, wherein the lifting assembly is connected with the joint, the joint is of a tubular structure, and the upper end of the lifting shaft is connected with the joint; the lower end of the lifting shaft is positioned in the bracket, the lower end of the lifting shaft is provided with a flange, the top of the bracket is provided with a spring gland, and a spring is arranged between the spring gland and the flange; the support is of a tubular structure, a plurality of key grooves are formed in the side wall of the support, a release hook is hinged in each key groove, the middle of each release hook is hinged with the support, a hook is arranged on the lower portion of each release hook and can extend into a central hole of the support, a clamping groove is formed in the outer side wall of the upper portion of each release hook, an inclined surface matched with the inclined surface of the bottom of the trigger sliding sleeve is arranged on the upper portion of each clamping groove, and a spring is arranged between the top of each release hook; the trigger sliding sleeve is positioned outside the bracket, the bottom of the trigger sliding sleeve is arranged in the clamping groove, and the upper end of the trigger sliding sleeve is connected with the joint; the ejector rod is fixedly installed in a center hole at the lower end of the guide sleeve, a hook groove is formed in the side wall of the guide sleeve, the guide sleeve is inserted into the center hole at the lower end of the support, the hook groove is hooked and fixed through a hook at the lower end of the release hook, an ejector rod release spring is arranged between the guide sleeve and the support, and the clamping jaw capture cover is installed at the lower end of the support.

2. The overshot of a jaw-type wireline coring drill suitable for geological exploration, as claimed in claim 1, wherein: the lifting assembly is connected with the joint through the joint gland, the upper end of the joint gland is in threaded connection with the lifting assembly, and the lower end of the joint gland is in threaded connection with the joint; the upper end of the lifting shaft is connected with the joint through a cylindrical pin.

3. The overshot of a jaw-type wireline coring drill suitable for geological exploration, as claimed in claim 1, wherein: the lower end of the joint center hole is provided with a lining, a steel ball is arranged in the lining, and the joint gland compresses the steel ball.

4. The overshot of a jaw-type wireline coring drill suitable for geological exploration, as claimed in claim 1, wherein: the spring gland is provided with a plurality of water passing grooves which are arranged along the axial direction; the spring gland lateral wall on be equipped with a plurality of through-holes I, the corresponding water groove of crossing of through-hole I inner intercommunication is equipped with a plurality of through-holes II on the trigger sliding sleeve, through-hole II and through-hole I realize crossing the intercommunication of water groove and external world.

5. The overshot of a jaw-type wireline coring drill suitable for geological exploration, as claimed in claim 1, wherein: the jack catch cover is characterized in that an ejector rod stroke limiting step is arranged inside the jack catch cover, the ejector rod stroke limiting step is perpendicular to the axis of the ejector rod, and the bottom of the jack catch cover can be meshed with the top of the jack catch.

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