SU781313A1 - Borehole-expanding tool - Google Patents

Description

(54) WELL EXTENSION

Claims (2)

The invention relates to pilot drilling devices and can be used in mining. The well extender is known, which has a tail light as a support-direction of its device and is equipped with hulls of different lengths 1. The disadvantage of it is the impossibility of oval-shaped workings. Closest to the proposed technical essence and the achieved result is a spreader including front and rear lights connected by a body, short and long beams with rock-breaking tools and bearing supports 12. The disadvantage of this expander is that it cannot carry out rising oval formulations. The purpose of the invention is to extend into. round-shaped pilot wells in oval-shaped development. This goal is achieved by the fact that the extender beams are equipped with individual drives, and the bearing supports are located eccentrically relative to the longitudinal axis, while the short beams move along the part: t oats with greater curvature, and the long rays over the part of oval with lesser curvature, while the drive short beams are made in the form of a rack and pinion transmission and a hydraulic cylinder, the rod of which is fixedly mounted on the body, and the drive of long bows is made in the form of hydraulic cylinders, hinged on the body, as well as and turning the spreader in the borehole, the tail light is made oval. Figure 1 shows the expander, a General view; figure 2 is a view of And figure 1; on fig.Z - section bb in figure 1; on figure 4. - view bb in figure 1. The expander of wells consists of short beams 1, which, with their bearing supports 2, made in the form of external gear sectors, are mounted movably on axis 3 with axial displacement 3. Axes 3 of bearing supports 2 rigidly (for example, nuts 4) connect the front 5 and 3 The rear lights are 6 and are located with an eccentricity relative to the longitudinal axis of symmetry of the lights. The toothed sectors of the bearing supports 2 have a kinematic connection with effective rails made on the cylinders 7 of the hydraulic cylinders 8 of two-way action. The rods 9 of these hydraulic cylinders are rigidly fixed on the front lamp 5. On short shells-beams 1, a rock-breaking tool 10 in. view and: aroshek (for example disk), Pa backlight b movably with a possibility of angular movement on axles 11 are installed long cases 12 with bearing support 13, also equipped with cones 10. Axes 1 with bearing supports 13 located with eccentricity relative to the longitudinal axis symmetry of the lanterns. On long bodies-beams 12, fingers 14 pivotally attach the rods of hydraulic cylinders 15 of double-sided action, the cylinders of which are also pivotally connected by fingers 16 to the taillight 6. The working fluid is fed into the hydraulic cylinders 8 and 15 by means of pipelines that are located in the pilot well. (not shown). Front lamp 5 to relieve your 15VOA. the spreader and the lot & bore installation are tapered, and the tail light b is used to exclude the reamer from being turned in an oval shape. In order to create a downhole expansion effort, the front light 5 with bracket 17 and finger 18 is connected to suspension 19 and a pull rope 20. The rope passes through the pilot well from the extender to a winch (not shown) mounted on the ventilation drift. The work of the well extender is carried out as follows. The progressive movement along the pilot well is carried out by a 2p traction cable. For short beams 1, the feed force is transmitted through suspension 19, front lamp 5, axles and bearing supports 2, and for long beams 12 through a rear lamp 6. Beams 1 and 12 of the expander receive return-swinging movement. Short beams 1 are driven in motion. By kinematic connection of the tooth sectors of the bearing supports 2 of the toothed rails of cylinders 7. The reciprocating movement of the cylinder with the gear rack (under the action of the working fluid) is converted into reciprocatingly moving short beams 1 with cones. 10 These rays turn towards each other at an angle of 4 hours, which allows the reactive torque acting on the expander to be balanced. The long beams 12 are set in motion by reciprocating (under the action of the working fluid) the rods of the hydraulic cylinders 15. The long beams move synchronously through an angle. The control of hydraulic cylinders 8 and 15 is carried out by a hydraulic automatic unit mounted on the headlamp in a pilot well (not shown). When reciprocatingly moving the beams 1 and 12, the cone cutters 10 are destroyed, the ledges of the oval excavation when rolling both in the forward and in the reverse direction. To overlap the trajectories of the motion of the cones, which are located at the same stage, the rays 1 and 12 are synchronized — with the average positions of short rays (i.e., on the axis of symmetry of the output cross section), 12 long positions are extreme and vice versa . The proposed device provides for the drilling of round-shaped rising wells in the development of an oval shape, which makes it possible to increase the stability of the raising holes and to obtain a significant economic effect. Claim 1. Dilator wells, including front and rear lights, connected by a body, short and long beams with rock-cutting tools and bearing supports, so that, in order to expand the revolving pilots with a circular section in the development of an oval shape, the rays are provided individually and the bearing plates are located eccentrically relative to the longitudinal axis, with the short rays moving along the oval with a greater curvature, and the long beams - along the oval with a smaller curvature. 2. Expander pop. 1, I distinguish u and I with the fact that the drive of short beams is made in the form of a rack and pinion gear and a hydraulic cylinder, the rod of which is fixedly fixed on the body, and the drive of long beams is made in the form of Guide dTyLindrov. . 3. The extender according to claim 1, in connection with the fact that, in order to avoid turning the expander in the well, the rear light is made oval. Sources of information taken into account in the examination 1. Information leaflet 172-76 of the Kemerovo CNTI. 2. The patent of Germany 1191768; cl. Е 21 В 1/06, 02.11.60. w