SU1714059A1 - Hole-making device - Google Patents

Abstract

The invention relates to mining. The purpose of the invention is to increase the productivity of work in the formation of blind wells. In so doing, it reduces the time spent on removing the device from the well while reducing the power consumption of the penetration. The device comprises a drive shaft 1, on which eccentric bushings (EV) are successively installed. The rollers (K) are rotatably mounted on the corresponding EVs. 2. The outer diameter K 2 successively increases from the head K 3 to the tail K 4. An additional EV is attached to the shaft 1 with a protrusion on its outer surface. The main EV 2 for accommodating the tail K 4 is made with a groove on its inner surface for accommodating the protrusion of an additional EV with the possibility of limited rotation for fitting the K 4 coaxial with shaft 1 when it is reversed. The magnitudes of the excitrites of the EV 2 * and the additional EV 7 are equal, while the transverse dimensions of the device are reduced when the shaft 1 is reversed, which simplifies the process of removing the device from the well. When the shaft 1 rotates. A well is rolled out, which can be fixed by the pipe 10. Remove the device when the shaft 1 is reversed. 4 or.

Description

The invention relates to mining and can be used in the formation by rolling. ,

The purpose of the invention is to increase the productivity of work in the formation of blind wells by reducing the time spent on removing the device from the well while reducing the energy intensity of the penetration.

FIG. 1 shows a device for the formation of wells in the ground; ma fig. 2 - the same, when extracted from the well; in fig. 3 is a section A-A in FIG. I; in fig. 4 is a section BB in FIG. 2..

A device for forming a well in the ground comprises a drive shaft 1, which is kinematically connected with a movable rotator (not shown) providing application of a torque and an axial load. As a rolling rotator, for example, a drilling rig of the type NKR-100 m or a drilling rig BMN-ZA can be used. On the drive shaft 1, eccentric sleeves are successively installed, on each of which rollers 2 are mounted for rotation, the outer diameter of which is successively increased from the head roller 3 to the tail roller 4. The eccentric bushing 5 of the tail roller 4 is made with Naz 6 on its inner surface . The groove 6 may be made in the form of a groove at half the perimeter of the sleeve 5 and is located starting from the point where the eccentricity of the sleeve 5 is maximum (greatest wall thickness), and ends at the point where the eccentricity of sleeve 5 is minimal (the smallest wall thickness). The eccentric bushing 5 is installed with the possibility of limited rotation around the longitudinal axis on an additional eccentric bushing 7, on the outer surface of which there is a protrusion 8 for accommodating the eccentric bushing 5 in the groove 6. for example, using the tongue 9. The protrusion 8 is located at the point where the eccentricity of the sleeve 7 is maximum (the thickness of the wall of the sleeve 7 is greatest). A casing pipe 10 or a casing of a laid pipeline may be installed in a well. A similar construction can be equipped as necessary and adjacent to the tail roller 4 roller 2. Tail roller 4 can be made with a reverse conical part 11.

A device for forming a well in the ground works as follows.

When a horizontal well is formed, for example, a movable rotator is installed in a previously opened working pit (not shown), to

which connect the drive shaft 1 with the working body. After turning on the motor of the rotator, torque and axial load are transmitted to the drive shaft 1. When rotating shaft rollers 3,2 and 4

The 0 rotates on the clamping eccentric sleeves mounted on the shaft 1 and form the walls of the well by rolling. In this case, the rotation is transmitted to the tail roller 4 from the drive shaft 1 via a key

5 9 to the additional sleeve 7, which, with its protrusion 8, transmits rotation to the main sleeve 5; In this case, with a working rotation of the eccentric value; The inserts 5 and 7 are folded and the tail roller 4 performs the same rotation with an eccentricity relative to the longitudinal axis of the drive shaft 1, as well as the rollers 2 and 3. When the required penetration length is reached, which can drain the pipe 11 produced by known ways, rotation and lodan of the drive shaft 1 is stopped, and then the rotator is reversed. When the shaft 1 is rotated in the opposite direction, the additional eccentric sleeve 7 rotates together with the shaft 1, and its protrusion 8 slides 6 into the groove 6 until it touches the other wall of the groove 6.

5 At the same time, since the values of eccentricities of the main 5 and additional 7 sleeves are equal to each other, when rotating 180 ° of the sleeve 7, the sleeve 5 takes a position coaxial with the longitudinal axis of symmetry

0 of the shaft 1. Since the tail roller 4 is placed on the eccentric bushing 5, it also occupies a position symmetrical with respect to the shaft 1, i.e., thus, the eccentricity of the tail roller 4 is reduced to zero and, consequently, the dimensions of the entire device in cross section allows to produce it from the well or through the internal cavity of the casing 10.

Claims (2)

0, the conical part 11 serves to center, neither the entire device relative to the walls of the well and prevent the latter from being destroyed when removing the device. If necessary, if the outer diameter of the rollers 2 and the tail roller 4 does not increase significantly, i.e., less than the eccentricity of said rollers, then the roller 4 adjacent to the tail roller can be equipped with an additional eccentric bushing 7 2. The invention The device for the formation of wells in the ground, including a drive shaft, on which eccentric sleeves are successively installed, and placed on the corresponding eccentric sleeves with the possibility of rotation, rollers with a diameter increasing from head to tail roller the fact that, in order to increase the productivity of work in the formation of deaf wells for the estimates reduce the time spent on removing the device from the well while reducing the energy intensity of penetration. Figg it is equipped with an additional eccentric bushing with a protrusion on the outer surface, and the eccentric bushing of the tail roller is made; with a groove on the inner surface to accommodate the protrusion of an additional eccentric bushing, the latter being mounted on the drive shaft with eccentricity equal to the eccentricity of the eccentric bushing of the tail roller, which is placed on the additional eccentric bushing with a limited rotation for mounting the tail roller to the drive shaft when reversing the latter. at 1. ; -,; 9 Fi.Z