SU1039363A1 - Pneumatic source of seismic signals - Google Patents

Abstract

PNEUMATIC SOURCE OF SEISMIC SIGNALS, comprising a housing forming a working chamber with a rod and a first movable element blocking the exhaust window, made in the form of rigidly mounted on a perforated base. an external cylinder and an inner cylinder forming a control chamber with a rod, and an electropneumatic valve, characterized in that, in order to increase efficiency by reducing the time to open the working chamber, the source is provided with a second movable element, similar to the first movable element, while the movable elements are connected by perforated the bases, and their control chambers are connected,

Description

The invention relates to the field of marine seismic exploration, to devices for the excitation of seismic signals in the aquatic environment due to the exhaust of compressed air.

A source of seismic signals is known, comprising a movable hollow piston and a housing, forming a working chamber. The piston has in the upper part of the hole with a saddle, to which in the initial position a spring-loaded valve is pressed.

The disadvantage of this design is the large mass of the cylinder, which negatively affects the speed of opening the working chamber, which reduces the efficiency of the source

A pneumatic source of seismic signals is also known, containing a housing with a rod and a movable element covering the exhaust window,

forming a working chamber, an electropneumatic valve, a control chamber and channels in the housing, connecting both chambers with a source of compressed air. The disadvantage of the air source is low efficiency due to the large mass

O9 rolling element. WITH

The closest technical resampling is a pneumatic source of a seismic channel, containing the housing with a rod forming the working chamber and the first movable element blocking the exhaust window, made in the form of a rigidly mounted perforated base of the concentric outer cylinder and forming the inner chamber with the stem cilidra and electropneumatic valve

The disadvantage of this source is low efficiency due to the low speed of opening the working chamber.

The purpose of the invention is to increase the K11D source by reducing the time to open the working chamber.

The delivered del is achieved by the fact that a pneumatic source of seismic signals, comprising a housing with a rod forming the working chamber and a first movable element covering the exhaust window, made in the form of a concentric outer cylinder rigidly fixed on a perforated base and forming the inner cylinder of the control chamber with a rod The electropneumatic valve is provided with a second movable element, made similar to the first movable element, while the movable elements of the joint are perforated the bases, and their control chambers are interconnected by a channel. Performing the construction of the seismic source by pre-puncture allows opening the working chamber simultaneously with two rings moving in opposite directions, Tobo appears to be able to open a larger area of the working chamber in a shorter period of time. allows you to increase the amplitude of the signal under study and increase the seismic source K1SC The drawing shows the design of the source The pneumatic source of seismic signals consists of Usa 1 with stem 2, the first movable element, made in the form of 3 concentric internal 4 and external 5 cylinders rigidly fixed on a perforated base, and having a channel 6 in the perforated disk, and a second movable element, similarly made: first and consisting from the inner 7 and BHeujero 8 concentric cylinders The base 3 of the outer cylinder 5 and the base 9 of the outer cylinder 8, seals with the seal 10 The inner cylinder 4 has a protrusion 11 and forms with the rod 2 the control chamber 2о I3 projection and forms a rod 2 with a control chamber 14, the working chamber 15, through the grooves 16 and 17, controls the chamber guides 12 and 14 and through passage 18 is connected to the inlet 19, through which the locking member 20, elektropnevmokla-. pan 21 and channel 22 are connected to channel 6 at the base of the first sub-element. The source works as follows: Compressed air, fitting 19 enters the channel 18o. Through the channel 18, the compressed air enters the control chambers 12 and 14, and acts on the projections Pi 13, moves the cylinders 4 and 5 and 7 and 8 towards each other. At the moment of contact of the bases 3 and 9, the grooves 16 and 17 open and the working chamber is filled. 15 with compressed air When the working chamber is filled, squeeze 1m of air to the initial pressure, the source is ready for operation According to the signal from the electrical valve 21, the shut-off member 20 is both; it ensures access to the compressed air to the channels 22 and 5; act the entire area of these bases, abruptly moves the cylinders .4 and 5 and 7 and 8 in different directions, caused to come out, causing a seismic signal in the water. Cylinders 4 and 5 and 7 and 8 brake at this moment, when the projections 11 and 13 are at the extreme points of the control chambers 12 and 14 o After the pressure drops in the working chamber 15, the cylinders 4 and 5 and 7 and, 8 return to the initial state and the cycle of the source operation is repeated, due to the fact that the working chamber is opened simultaneously by two rings (5 and 8 ), moving in different directions, can be obtained for the same time The area of the working chamber is twice as large as that of the prototype. This allows a significant increase in the amplitude of the measured signal and an increase in the signal source

Claims (1)

-, PNEUMATIC SOURCE OF SEISMIC SIGNALS, comprising a housing with a rod forming the working chamber and blocking the exhaust ok2 but the first movable element. * · Valuable in the form of concentric rigidly fixed on a perforated base. external cylinder and forming the control chamber of the inner cylinder with the rod, and an electro-pneumatic valve, characterized in that, in order to increase the efficiency by reducing the opening time of the working chamber, the source is equipped with a second movable element, similar to the first movable element, while the movable elements are connected by perforated bases , and their control cameras are connected by a channel. but