SU1485165A1 - Method of seismic prospecting - Google Patents

Description

The invention relates to seismic exploration of minerals, in particular oil and gas. The purpose of the invention is to increase seismic efficiency by conducting multi-wave seismic exploration. To this end, the source located on the main surface. with p <nn; With the help of the incident shock block of the goat \ a. there is an elastic oscillation, and after that it pulls up to a new position and simultaneously excites transverse oscillations. 1 il.

The invention relates to the field of seismic exploration of minerals, in particular oil and gas.

The purpose of the invention is to increase the seismic efficiency due to the multiwave seismic exploration.

The drawing shows a device that implements the proposed method.

On the vehicle 1 are mounted drive 2 and stand 3 e pivotally attached thereto a swivel bracket 4 having a horizontal axis of rotation 5 and an emphasis 6 and equipped with a percussion block 7 with grouser 8. In the percussion block 7 there is a through guide 9 (axial bore) through which is held by the bracket 4. On the bracket 4 a mechanism 10 for moving the shock unit 7 along the bracket 4 is installed. The mechanism 10 for the movement is made in the form of a hydraulic actuator consisting of a double-acting hydraulic cylinder connected Foot via the high speed control valve 11 with remote control 12. Me <.chnnzm 10 displacement includes in οнд ι-cylinder 13,

pivotally mounted on the bracket 4. and the rod piston 14 pivotally connected to the impact unit 7. The hydraulic cylinder 13 and the rod piston 14 form cavities 15 and 16.

The method is as follows.

The device is installed on a given physical point of the seismic profile and produce a force on the ground, as follows. The signal from the remote control 12 controls the actuator 2 expands the bracket 4 with the shock unit 7 around the axis 5 of rotation and sets the bracket 4 in a vertical position (shown by dotted lines). At the same time through the valve 11, the working fluid is fed into the cavity 15, the shock unit 7 is in the position closest to the stop 6. Then the actuator 2 according to a signal from the console 12 turns the bracket 4 with the shock unit 7 in the direction indicated by the arrow. Under the action of gravity, the shock unit 7 with acceleration moves in a vertical plane before impact with the ground surface. The wave excited by this is java "·>

1485165

1485165

. It is sent by a compression-tension wave or a longitudinal wave.

At the time of finding the shock unit 7 on the soil surface, the movement mechanism 10 is activated. In this case, the working fluid is supplied to the cavity 16, a force arises that acts on the shock unit 7 and on the vehicle 1. This force moves the vehicle 1 relative to the shock unit 7, i.e., a unipolar pulse action is carried out. The vehicle 1 is pulled up to the shock unit 7, and its movement along the profile is carried out by an amount limited by the stroke of the impact unit 7 along the bracket 4. The impactor 15 unit 7 radiates shear waves or shear waves at this moment.

Gakn.m way, the source of longitudinal in n; Both longitudinal and transverse waves are excited, which makes it possible to increase the effectiveness of seismic surveys. In this case, there are no additional energy costs for the excitation of transverse waves, since for this purpose the energy expended in moving the vehicle along the seismic profile is used.

Claims (1)

Claim A seismic survey method based on the use of a seismic signal source moving along a profile with a shock unit, including moving the source along a seismic profile, a force produced on the ground when the shock unit moves in a vertical plane before impacting the ground surface, receiving and recording reflected seismic signals, different the fact that, in order to increase seismic efficiency. due to the multi-wave seismic survey, The source is along the profile with unipolar pulse effects at the moment when the impact unit is located on the ground surface.