SU981561A1 - Drilling tool - Google Patents

Description

(54) DRILLING TOOL

one

The invention relates to rock formations and can be used primarily for drilling of well drilling in frozen rocks.

Known drilling shock absorber, including the upper and lower telescopic elements placed between the elastic coupling Cl

The disadvantage of this device lies in the incomplete damping of shock loads while drilling the mix on the hardness of rocks.

The closest to the proposed invention in its technical essence and the achieved result is a drilling tool for vibratory drilling, including a drilling stand with an upper and lower telescopic elements mounted on it, a conical ring mounted on the lower telescopic element, extending in the side of the bottom, a shock absorber mounted between telescopic elements, and a device for damping shock loads, made in the form of elastic pyaastin with spacer dies in the lower part, having they have a conical surface supported by a conical ring and fitted with carbide inserts. mi C2.

The disadvantage of this device is the low efficiency of damping shock loads in the first phase of drilling boulder inclusions, when the crown drills hard rock, and the spacer rams of the tire block interact with weak and medium-strength rocks. At the same time, the latter are quickly drilled out and the shock absorber of the tool loads ceases to perform its

20 functions.

Claims (2)

The chain of the invention is an increase in the effectiveness of damping shock loads during grazing deposits. 396 The goal is achieved by the fact that a drilling tool for vibratory drilling, including a drilling rig with an upper and lower telescopic elements mounted on it, mounted on the lower telescopic element, a conical ring extending from the side of the bottom, a shock absorber mounted between the telescopic elements, and a tool for damping shock loads, made in the form of elastic plates with spacer dies in the lower part, and have a conical surface and support on a conical ring snabbkennymi carbide inserts, is provided with a holder, ycTajnovlennoy on the upper telescopic element rotatably and rigidly associated with the upper ends of the elastic plates, and the lower telescopic element is made conical surface with ca suzhak towards Twi slaughtering for interaction with the conical surface of the spacer plates. FIG. 1 shows the proposed drilling tool; in fig. 2 - isometric cage with elastic plates and dies. The drilling tool consists of two telescopic elements of the upper 1 and lower 2, between which a shock absorber 3 is placed. The upper telescopic element 1 is threadedly connected to the drill pipe 4. The lower telescopic element 2 is connected to the crown 5 by threads. Between the lower telescopic element 2 and the crown 5 a conical ring 6 is placed, the conic surface 7 of which expands toward the bottom side. The upper telescopic element 1 has a collar 8, in which the connector is placed on the collar 9, consisting of two symmetrical / rim parts fastened with a bolted joint 10. The groove 8 is connected to the axial purge hole 11 of the tool with thin lubricant channels 12. On the collar 9 rigidly; the upper ends of the elastic plates 13 are fixed, in the lower part of which there are dies 14 resting on the conical surface 7 of the rod 6. The dies 14 are provided with pairs of carbide inserts, the upper 15 of which have cutting pliers parallel to the tool axis the cutting edge and the cutting edges of the lower carbide inserts 16 are perpendicular to the axis of the tool & . On the lower telescopic element 2, a Suzkakhtsi is made with a conical surface with a notch 17 in the direction to the side, the shape of which corresponds to the shape of the top parts of the dies 14. The drilling tool works as follows. When vibrovraschitelnoe drilling of sediments, shock impulses arise, the amplitude of which depends on many factors, the main of which is the strength of the drilled rocks. Under the action of shock pulses, the shock absorber 3 is compressed, the drill rod 4 and the upper telescopic element 1, together with the holder 9 fixed on it, move closer to the lower telescopic element 2 and the crown 5, and the spacer plates 14, resting on the conical surface 7 of the ring 6, move along her down and sideways. In this case, carbide inserts 15 drill out the lateral wells of the well. In this case, the energy of the shock pulses is used to drill the walls of the well. Upon the termination of the shock pulse, the shock absorber 3 expands, the telescopic elements 1 and 2 are consumed, and the plates 14 are returned to their original condition by the action of the elastic plates 13. If the borehole walls in 15 are folded from lightly drilled rocks, then after the first impact pulse, they are drilled and, when a next pulse occurs, the amplitude of the shock absorber 3 decreases and the plates 14 go out of engagement with the grooves 17. At the same time, the plates 14 wedged by carbide inserts 1c in the hole with the elastic plates 13 and the yoke 9, they are stopped in their rotation and the yoke 9 is rotated relative to the rotating upper telescopic element 1 through a certain angle. The energy of the reflected shock pulse is extinguished on the borehole walls through the crown 5, the conical ring 6, the dies 14 and carbide inserts 16. After the impact of the shock pulse ends, the shock absorber 3 is rectified; and dies 14 move up the conical ring 6 until they engage with the grooves 17. P1ei this Tlashka 14 together with the elastic plates 13 and the yoke 9 resume rotation with the upper telescopic element 1. Thus, when using the proposed device, blanking occurs shock loads arising during vibratory drilling. Invention A drilling tool for vibratory drilling, including a drilling stand with upper and lower telescopic elements mounted on it, a conical ring fixed to the lower element, extending to the side of the bottom, a shock absorber mounted between the telescopic elements, and a device for damping shock loads filled in elastic plates with spreading dies in the lower part, having a conical surface, resting on a conical ring and supplied with carbide inserts and. characterized in that, in order to increase the efficiency of roughing or shock loads during the drilling of placer deposits, it is provided with a clip mounted on the upper telescopic element rotatably and rigidly connected to the likely ends of the elastic plates, and on the lower telescopic element a conical surface is made, which narrows with the side of the bottom to interact with the conical surface of the expansion dies. Sources of information taken into account in the examination. 1. USSR author's certificate NS 571577, cl. Е 21 В 17 / О6, 1974. 2. Copyright certificate for the application number 2809675/03, cl. E 21 V 17/06, 1979.