SU109285A1 - Vibratory drilling device - Google Patents

Description

The known devices for high-frequency vibratory drilling of the magnetostriction type have the disadvantage that it is difficult to supply the necessary power to the downhole vibrator with its small dimensions.

The proposed device is characterized in that shocks in it are created under the action of powerful electric discharges.

FIG. 1 shows a structural diagram of a vibration device; in fig. 2 - electric power supply circuit of the device.

At the bottom ring of the drill string / the vibration device is lowered into the well, and power is supplied via cable 2.

The device is made in the form of a housing 3, inside of which a piston 4 is placed, rotating on a bearing 5. The core pipe 6 with a crown 7 is rigidly attached to the piston. flushing fluid.

In the working chamber 9 above the piston electrodes 10 are placed, to which power is supplied from the surface by cable 2.

The hydrodynamic wave resulting from the breakdown of an electric spark is transmitted to the piston connected to the crown through the core tube, while the vertical components of the cyclic forces are transmitted through the piston, the core tube and the bit in the form of stress waves propagating towards slaughter.

To eliminate the transition of the spark discharges into the arc and to achieve the required resonant frequency, two or several discharge gaps are placed in the working chamber. The nebula of these gaps is carried out alternately, and the electrodes are positioned so that the breakdown of a single gap will extinguish the spark on the previously triggered gap.

The labyrinth channels in the housing and in the wall create large hydraulic resistances to the movement of fluid when a hydrodynamic wave occurs, and low resistance to the movement of fluid when pumping the washing fluid.

An electrical circuit is assembled on the surface, consisting of a transformer, a rectifying lamp 12, a resistor 13, an artificial long line (capacitor 14 and chokes ./5) and a pulse thyratron 16.

The energy supply from the artificial long line to the discharge gap / 7 is carried out via the thyratron 16 and cable 18.

 p u m et e 3 o b e te n i

Claims (2)

1. Vibratory drilling device for drilling wells using hydraulic shocks to destroy rock, created by the formation of pulsed electrical discharges between electrodes located in the fluid and the surface to be destroyed, characterized in that in order to create a hydraulic resistance to the movement of the flushing fluid when it leaves from the coloin, the shock pore, rigidly connected to the crown column and located in the liquid chamber, is provided with labyrinth channels. 2. The form of the device according to claim 1, characterized in that, in order to communicate the striking part by means of flushing fluid and also rotation, a turbine is fixed on the end part of the vessel.