SU1681290A1 - Seismic signal source - Google Patents

Abstract

The invention relates to the field of geophysical engineering, namely, to sources of seismic signals. The purpose of the invention is to increase the reliability of the source. The source of seismic signals contains a frame, a vibration exciter with a base plate, a mechanism for raising and lowering the vibration exciter, which includes guide racks with guide housings having respectively a cylindrical hole and a conical groove mounted on plates rigidly connected to the frame and having horizontal cylindrical protrusions corresponding to the cylindrical bore and the tapered groove. 1 il.

Description

The invention relates to geophysical engineering, in particular, to sources of excitation of seismic signals in the ground during seismic exploration when searching for oil and gas.

The purpose of the invention is to increase the reliability of the source by ensuring the parallelism of the axes of the guide posts and the guide bodies.

The drawing shows the source of seismic signals.

The source of seismic signals contains a frame 1, a vibration exciter 2 with a support plate 3, a mechanism for raising and lowering the vibration exciter comprising guide racks 5 with guide housings 6 and 7, having a cylindrical bore 8 and a conical groove 9, respectively, mounted on plates 10 and 11 rigidly connected with frame 1, having projections 12 and 13 made in a horizontal plane, respectively, with a cylindrical surface, which are perpendicular or parallel to the supporting surface of plates 10 and 11. Projections Corresponding to the cylindrical bore 8 or the conical groove 9. The protrusions can also be made on the guide bodies 6 and 7, and the corresponding cylindrical bore and the conical groove on the planes 10 and 11. The lifting-lowering synchronization is carried out using the synchronization device 14, made in the form of a rigid beam connected to guide posts 5.

Lifting-lowering is carried out by means of lifting-lowering cylinders 15 pivotally connected with guide bodies 6 and 7 and lifting-lowering synchronization device 14. A vibration assembly 16 is installed between the guide posts 5 and the support plate 3. The power of the hydraulic system 17 is carried out from the pump 18 through the hydroline 19, and the drainage - through

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hydraulic lines 20. The pressure is maintained by a safety valve 21.

The hydraulic system includes a distributor 22 and communication lines 23 and 24.

The source works as follows.

To bring the source from the transport position to the working fluid in the hydroline 19 from the pump 18, it is fed to the distributor 22, which, on command, turns on the lowering of the base plate 3. Hydraulic line 23 supplies the working fluid to the lift-lower cylinders 15. The support plate 3 with vibration exciter 2 is lowered onto the ground and pressed against part of the vehicle mass. The liquid is drained along the hydroline 24. The direction of movement and retention of the base plate 3 relative to the frame 1 is performed by the lifting-lowering mechanism 4, and synchronization by the synchronization device 14. Thereafter, the vibration exciter 2 generates oscillations with a predetermined frequency and amplitude and transmits them through the base plate 3 to the ground. The vibration insulation of frame 1 is carried out by the vibration insulation unit 16. The vibration exciter 2 is powered by hydroline 19, discharged through line 20. Hydraulic system pressure 17 is maintained by safety valve 21. After the sweep session is completed, the lift-down mechanism 4 lifts the support plate 3 with the vibration exciter 2 into the transport position.

In the source, the parallelism of the axes of the guide posts 5 and the guide bodies 6 and 7 is achieved by using and constructing protrusions 12 and 13 with cylindrical surfaces and corresponding cylindrical bore 8 and conical groove 9, thereby improving the performance of the source and increasing reliability . When assembling the source, the plate 10 with a cylindrical protrusion 12 or a cylindrical hole and a plate 11 with a cylindrical protrusion 13 or a tapered groove 9 are rigidly mounted on the frame 1. The guide bodies 6 and 7 having a cylindrical hole 8 or a cylindrical protrusion 12 are mounted on the plates 10 and 11 and a tapered groove 9 or cylindrical protrusion 13.

By rotating the housing 6 around the hinge formed by the cylindrical protrusion 12 and the cylindrical bore 8, the axes of the housings 6 and 7 are parallel to the guide posts 5 in a vertical plane perpendicular to the longitudinal axis of the source, and the body 6 is rigidly fixed in this position. Then, rotating the housing 7 relative to the hinge formed by the cylindrical protrusion 13 and the conical groove 9, achieve parallelism of the axes of the guide housing 6 and 7 and the guide pillars 5 and rigidly fix the housing 7. Parallel arrangement of the cylinder 15

lifting-lowering relative to the guide pillars 5 is accomplished by fastening the cylinder bodies 15 hingedly with the guide bodies 6 and 7, and the rods hingingly with the synchronization device 14.

Claims (1)

The invention The source of seismic signals containing a frame, a vibration exciter with a base plate, a mechanism for raising and lowering a vibration exciter, including guide racks with guide bodies mounted on vertical plates and rigidly connected to the frame plates, device lift-lowering synchronization, made in the form of a rigid beam, lift-lowering cylinders pivotally connected to guide bodies and the beam, and hydraulic power supply system, characterized in that, in order to increase reliability by ensuring parallelism of the axes of the guide bodies, in the central a portion of each plate or guide body there is a protrusion with a cylindrical surface, wherein the forming cylindrical surface of the protrusion of one plate or the guide body is perpendicular to the supporting surface a plate or a guide body, and in the central part of the guide body or plate there is a cylindrical hole corresponding to the protrusion, wherein the forming cylindrical surface of the protrusion of the other plate or guide body is parallel to the supporting surface of the plate or guide body, and in the guide body or plate the conical slot corresponding to the protrusion. / 2 eleven five