RU2489564C1 - Drilling bit with washing unit - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: drilling bit comprises a body with attachment thread to a drilling string, rock-cutting tools, channels for supply of washing fluid to the bottomhole, seats at the outlet from the channels to install wear-resistant attachments with sealing and stop elements. The end of the seat for the attachment is made with circular protective deepening of the attachment top. The side cylindrical surface of the seat is made with a circular figure slot for placement of an elastic sealing ring of round section, narrowing towards the output at the sharp angle α=12÷20° to the axis of the seat, at the output of which there is thread for installation of a pressing nut and a stop lock-nut with elements for rotation in the seat and central holes for passage of the washing liquid.

EFFECT: increased reliability and durability of a drilling bit with replaceable washing units.

5 dwg

Description

 The invention relates to the field of drilling equipment, and in particular to a tool for drilling wells in the oil and gas industry.

Known drill bit with a flushing unit [1], adopted for an analogue containing a nozzle made of wear-resistant material, fixed in the hole of the socket on the body of the paw with the direction of the jet of flushing fluid coming from it into the free space of the face between adjacent cones. The nest under the nozzle is connected by a channel to the internal cavity of the bit, from where it first flows into the internal cavity of the nozzle with a profile that forms a jet, and then through the annulus filled with flushing fluid, the flow enters the face, sparges the sludge of the destroyed rock, detaches it from the face and carries it away through the annulus to the top of the well for cleaning and new pumping to the bottom.

A rectangular groove is made on the wall of the nest for the nozzle to install an elastic sealing ring, with an inner diameter smaller than the outer diameter of the nozzle and an outer diameter equal to or slightly larger than the outer diameter of the nest of rectangular cross section. Due to the elastic properties, the ring covers the nozzle when it is pushed through the sealing ring installed in the groove. In order to keep the nozzle from falling out at high pressure of the flushing fluid, an annular half-groove of semicircular section and a corresponding half-groove of semicircular section on the outer surface of the nozzle body are made in its wall before exiting the nest.

When installing the nozzle, two half-spaces are combined on the wall of the nest and on the surface of the nozzle, and a toroidal annular surface is formed. In the body of the tide, a round hole is drilled under the nozzle on the body of the paw, the axis of which coincides with the ring axis of the resulting toroidal annular space. Through a hole in the tide, a rod in the form of a nail made of soft material is introduced into the toroidal space, which is a stopper from the nozzle leaving the socket during drilling. The nozzle can fall out of the nest during drilling only by cutting off half of the profile along the entire length of the nail inserted into the toroidal space. If it is necessary to replace the diameter of the outlet section of the nozzle according to the drilling conditions, the nail is pulled out of the head.

After replacing the size by diameter, a new nozzle is inserted into the removed position, the nail is straightened and hammered around the nozzle again. The elastic rubber ring can be changed if necessary.

This version of a drill bit with a nozzle for a flushing nozzle is widely used by domestic and foreign bit companies for the production of roller cone bits. However, in diamond PDC and matrix steel bits, such a fastening and sealing pattern for flushing nozzles is practically not used. This is due to both structural and technological inconveniences, since numerous flushing holes with carbide nozzles are most often located on convex surfaces of the body with a recess between the blades, with different distances and inclinations relative to the axis of the bit. For hundreds of commercially available diamond bit sizes, it is necessary to develop thousands of individual programs to carry out individual flushing units. This circumstance made us look for other, more convenient options.

Another drill bit with a flushing unit [2] is also known, which is also taken as an analogue, in which a steel spring expansion ring is used as a locking device, installed in an annular groove on the wall of the socket hole under the nozzle, part of the end surface of the ring enters the groove groove, and part protrudes inside the diameter of the nest and prevents the nozzle from flying out during drilling. There are two options for installing the snap ring. The first option - the snap ring is installed in the groove of the slot below the solid nozzle. The second option - the snap ring during installation is installed in the groove on the nozzle itself, is compressed with the help of "antennae" with special pliers with protrusions under the antennae holes. The nozzle together with the compressed ring is inserted into the socket in the paw, and the retaining ring is released from compression when it coincides with the width of the groove under the ring on the wall of the socket for the nozzle. Changing the size of the nozzle hole, necessary for hydraulic calculations, is performed in the reverse order - first, the circlip is compressed, and then the nozzle is pushed out of the socket. The installation scheme of the sealing elastic ring is the same as in the previous analogue. If necessary, this ring can be changed with the nozzle.

The disadvantages of both options are as follows. It is technologically difficult to harden the rings - under-tempered ones do not return to their original position after compression, the overheated ones can be too fragile and break when changing the nozzle. Therefore, the replacement of nozzles in the field, especially in winter, is difficult. In addition, when drilling at high pressures on the riser, the nozzles act on standard thin retaining rings, bend them in diameter, bend them in thickness and gradually push the nozzles into the face along with the retainer rings.

Known for another drill bit with a flushing unit [3], adopted as a prototype. This bit uses solid carbide nozzles, fixed in sockets on the body using threads on their side surface. A turn-key groove is provided at the end of the nozzle, and a groove for installing an elastic o-ring in the upper part.

The advantage of this option is that changing nozzles if necessary is simple - the nozzle is unscrewed from the socket with an ordinary key, and a new one, with a different diameter of the outlet, is wrapped with the same key. The disadvantages include the difficulty of manufacturing, especially the performance of small self-braking carbide threads. Due to the strong vibrations of the drill string, there are frequent cases of arbitrary twisting of nozzles and getting them to the bottom, leading to an accident. There are cases of depressurization and erosion of the walls of the channels in the installation area of the washing nozzles due to the insufficiently tight pressing of the elastic sealing rings to the end of the socket under the nozzle.

The aim of this invention is to provide a reliable version of the drill bit with nozzles for flushing units and simple technologically.

The technical result of the present invention is to increase the reliability and durability of the drill bit with interchangeable flushing units. This result is achieved in that in a chisel with a flushing unit, including a body with a connecting thread to the drill string, rock cutting elements, channels for supplying flushing fluid to the bottom, nests at the outlet of the channels for accommodating wear-resistant nozzles with sealing and locking elements, in which the end face under the nozzle slot is formed with a recessed annular protective top nozzle, its lateral cylindrical surface provided with an annular groove shaped to accommodate the elastic seal to A circular cross-section tapered to the exit at an acute angle α = 12 ÷ 20 ° to the axis of the socket, at the outlet of which a thread is made to install a compression nut and a lock nut with elements for turning and turning nuts in the socket, as well as central holes for flushing liquids.

Since the exit from the supply channel is located below the entrance to the nozzle and the metal of the body, surrounds the top of the nozzle, protecting it, the node resistance from erosion increases. To further slow down the possibility of erosion and departure of the nozzle to the bottom, a figured groove is made on the lateral cylindrical surface of the socket to accommodate an elastic sealing ring, mainly of circular cross section, tapering to a cone with an acute angle α = 12 ÷ 20 ° to the axis of the socket. This provides a higher seal pressure guaranteeing increased sealing. The greater the pressure, the deeper the sealing elastic ring moves into the tapering conical space and the more reliable the seal becomes.

The angle α = 12 ÷ 20 ° is established experimentally. It is within such limits of the angle that additional compaction occurs most effectively.

The locking assembly is presented in the form of a thread, preferably self-locking, at the outlet of the socket and two nuts — a pressing and locking lock nut with central holes for passage of washing liquid. This unit provides a full guarantee of fixing the nozzle in the flushing unit during the entire life of the bit, the reliability and ease of replacement of the nozzle when there is a need for drilling. For the convenience of screwing and unscrewing the nuts one by one (two nuts do not theoretically turn away at once), each of the nuts is equipped with through holes in the body or grooves open on the outside for the protrusions of the socket wrenches. When replacing the nozzle, the upper lock nut is first turned away with an impact load on the socket wrench handle, and then the lower compression nut is also turned away.

List of drawings

1 is a view of a PDC drill bit with nozzles for flushing assemblies.

The figure 2 presents the cross section of the node aa along the axis of the washing unit.

The figure 3 presents the contour of the cross section of the housing along aa.

Figure 4 shows an embodiment of a compression nut.

The figure 5 presents a variant of the lock nut.

In the figure 1, the positions indicated: 1 - the body of the PDC bit, 2 - the blade, 3 - rock cutting teeth, 4 - flushing units on the body 1.

In the figure 2, the positions indicated: 5 - underwater channel for flushing fluid from the internal cavity of the bit to the flushing socket 6; 7 - annular protective recess for the top of the nozzle 8; 9 - an annular shaped groove for an elastic sealing ring 10 on the side wall of the socket 6; 11 - clamping threaded nut, 12 - locking locknut, 13 - thread at the entrance to socket 6 for nuts 11 and 12; 14 is an embodiment of a pinch nut with through holes 15 for the protrusions of the socket wrench and a central hole 16; 17 is a variant of a lock nut with through holes 18 for the socket wrench and a central hole 19.

The results of field tests of samples of the proposed drill bits confirm their significant advantage in durability and simplified replacement of nozzles in the field.

Information sources

1. US patent No. 3084751 C1, 175-340 "drill bit" (analog).

2. Composite - catalog of the company "Varel" (USA), 1995, p. 14 (analogue).

3. Catalog of OJSC Volgaburmash (RF), 2003, p. 34 (prototype).

Claims (1)

A drill bit with a flushing unit, including a body with a connecting thread to the drill string, rock cutting elements, channels for supplying flushing fluid to the bottom, jacks at the outlet of the channels for accommodating wear-resistant nozzles with sealing and locking elements, characterized in that the end face of the socket for the nozzle is made with an annular protective deepening of the nozzle top, its lateral cylindrical surface is made with an annular figured groove for accommodating an elastic O-ring tapering to the exit at an acute angle α = 12 ÷ 20 ° to the axis of the socket, at the outlet of which a thread is made to install a compression nut and a lock nut with elements for turning in the socket and central holes for the passage of flushing fluid.

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