SU748311A1 - Pneumatic source of seismic signals - Google Patents

Description

The invention relates to the field of seismic prospecting, to devices for exciting seismic signals both in aquatic environments and on land due to the use of compressed air. The action of pneumatic sources is based on the airflow in the high pressure chamber, resulting in a RS pressure pulse in the water or an abrupt movement of the porsche, transmitting the impact to the ground. Sources of seismic signals are known based on the pneumatic principle - Terrapak. The source contains a piston with a rod. The piston in the upper extreme position | 1 and. Separates two high-pressure chambers. At the moment of movement of the piston from one chamber, the second one starts to work. The piston movement is sharply accelerated, and the plate hits the ground. I The disadvantages of this device include the fact that it is necessary for the source to have a nitrogen cylinder and an oil injection pump, which greatly complicates the design of the device and increases its weight. Another source is known on the pneumatic principle - Tidrosine 2. The source consists of a cylinder and a piston placed in the ijero. The pressure of the compressed air from the piston, through the rod, is transmitted from the beam, to which the plate, which sharply moves away from the second radiating plate, forms a cavitation cavity, which, collapsed, generates a seismic signal. The disadvantages include the fact that the source equipment, in addition to the compressor, also includes an oil pump for injecting air and hydraulic fluid. A source of seismic signals for marine seismic exploration, Flexy OK 3, is also known. The source contains two lifting round metal plates connected along the edges with a durable cuts, 37 n beyk ring. The compressed air is pumped into the cavity of the device, and under the action of the pressure of the plate, the air flow rate is fixed and fixed in the extreme position - the position for the shot. Then the compressor is transferred to the vacuum, and pumped out of the cylinder into the air. A vacuum is created in the cavity of the device. The electrical impulse sent by the recording device frees the layers, which, when struck on the Other, create a seismic wave in the absence of gas bubbles. A disadvantage of this device is the complexity of the locking mechanism of levers, the duration of each cycle of time and the relatively small power of the source. The technical essence of the invention is closest to the invention: a pneumatic source of seismic signals containing a cylinder with a piston rigidly connected by a rod with a locking device. the valve of which is connected by the axial bore through the rod and the piston to the compressed air main. The device is operational and is widely used. Its main disadvantage is that after ejection of air into the medium a bursting bubble appears, which pulsates, causing additional seismic pulses, deteriorating the quality of seismograms. The aim of the invention is to eliminate the pulsation of the air bubble by draining used air; The goal is achieved by introducing a used air exhaust line into the pneumatic source, the locking member is provided with a first radiating plate with a ring, and a cylinder with a second radiating plate at its end interacting with the piston and an annular protrusion at the opposite end, the ring of the first radiating plate with holes and movably covers the annular protrusion of the cylinder, and the holes drilled in the ring are sealed on the outer side of the ring with a collector connected to the main use pipe nnogo air The drawing shows opisyuaemy source section. The source consists of a cylinder 1 with an internal protrusion 2, Inside the cylinder 1, a piston 3 is placed with a radial branch 4, a groove 5 and a protrusion 6, Through a rod 7 the piston 3 is rigidly connected to the locking member 8, expelled 114 Ny with a radial hole 9 and a control valve consisting of a solenoid 10 connected via a cable 11 to an electric power source, and a disc plate 12 with an opening 13 connected to the compressed air supply line by an axial hole 14, with the Veran and end of the cylinder 1 rigidly connected to the second radiating plate 15 and the lower end of the locking member 8 is rigidly connected to the first radiating plate 16 provided with a ring 17 with openings 18 connected via a collector 19c to a main line 20 of used air removal. The source works as follows. Compressed air enters the axial hole 14 and comes to the disc, plate 12 of the check valve. Through the radial hole 4, the air enters the B cavity, which is formed by the groove 5 and cylinder 1 and, acting on the ledge 2, sends the cylinder 1 to the joint with the locking organ. Further, through the gap formed between the protrusions b and 2, the air sprays the main volume of the chambers & rs formed by the cylinder 1 and the rod 7. In this state, the source is ready to act. Consider the work of the source in the water. When voltage is applied to the solenoid 10 of the trash plate 12, the guards are applied to the solenoid and the air through the opening 13, the radial opening 9 presses on the lower part of the cylinder 1, due to different forces determined by the area of the protrusion 2 and the lower part of the cylinder 1, cylinder 1 with the plate 15, it begins to move abruptly upwards, and the ring 17 with the plate 16 and rigidly connected, with the locking body 8 connected with it, the player 7 and the piston 3 - down. A cavity cavity is formed between the flat ffl 15 and 16. Upon further movement of the piston 3 and cylinder 1, the orifices 18 open relative to each other, the air is sharply vented into the collector 1 and further along the conduit 20 into the atmosphere. At this time there is no gap between the cylinder 1 and the protrusion 6, and therefore the air pressure through the orifice 4 acting on the protrusion 2, lower the cylinder 1 all the way down to the initial state. Then the cycle of operation is repeated. The initial distance between the plates can be constructively chosen by anyone, including zero. When working on land, the source must be elevated above the ground, and the radiating top plate must be a gesture

Claims (1)

Claim Pneumatic source of seismic signals containing a cylinder with a piston rigidly connected by means of a rod c. a locking body, the controlled valve of which is connected by an axial hole through the rod and piston to the compressed air supply line, characterized in that, in order to eliminate the pulse, ²⁵ days of the air bubble, the used air exhaust pipe is introduced into it, the locking body is equipped with the first a radiating plate with a ring, and a cylinder with a second radiating plate at its end interacting with the piston, and an annular protrusion at the opposite end, and the ring of the first radiating plate is made with holes and movably about vatyvaet annular protrusion of the cylinder and openings formed in a ring on the outer side yakryty collector connected to the manifold outlet. used air.