SU1182461A1 - Active unit of electrodynamic source of seismic signals - Google Patents

Abstract

ACTIVE KNOT OF ELECTRODYNAMIC SOURCE OF SEISMIC SIGNALS, containing measles and stator, concentrically located one in another, with the stator equipped with a drive to install it into the working position, and the measles - with lugs of the stator stroke limiter multi-pole windings, sections of which are located in the annular grooves of the respective magnetic core and in the working position are shifted one relative to the other half of the pole division, which is different in that design, improving source speed and expanding functionality by providing a mode of generating unidirectional seismic vibrations, a double-acting spring connecting the stator with the drive and a damper is inserted into it, the winding being (L stator is made with a number of sections equal to the number of sections the windings of the core, and the stops are installed in the case of the core at a distance from each other, exceeding the stator length by the magnitude of the pole division. ftje.1

Description

The invention relates to active nodes of devices for exciting mechanical pulses, in particular to an active node of an electrodynamic source of transverse seismic 5 waves, and can be used in areas of technology that require alternating multidirectional or unidirectional pulse effects on objects, for example, in mouth; solutions to eliminate sticking of drill pipes.

The purpose of the invention is to simplify the design, increase speed. source and expansion of functional capabilities due to the provision of mode-generating unidirectional: seismic oscillations.

FIG. 1 shows the general

 70

TYPE of the active node of the source of seismic vibrations, in the position in FIG. 2 - the same .in the 6V position

The device contains concentrically located bark 1 and stator 2 with magnetic cores 3 and 4 included in them, respectively. In the magnetic cores 3 and 4 of the core 1 and the stator 2 there are sections 5 and 6, the windings 7 of the core and the windings 8 of the stator, respectively, the number of sections 5 and 6 of the winding 30 current 7 and 8 are equal to each other. The stator 2 is connected to the actuator 9 to set it to one of the initial positions a or b via a double-acting spring 10, and with kor 1, with 35 using a damper 11 designed to smoothly return the stator 2 to its original position when excited by a device of unidirectional impacts. The movement of the stator 2 to its initial position is limited by the stops 12 and 13.

In the initial position, sections 5 of the core are shifted relative to sections 6 of the stator by half a pole or T / 2. The windings 7 and 8 of the core and the stator are arranged and interconnected so that the direction of the current of the neighbor of the first windings is opposite, resulting in a cortex of the pole system of alternating polarity on the core 1 and on the 50 stator 2 (power lines 14 and 15).

The device works as follows.55

By means of the actuator 9, the stator 2 is set to the initial position a or b, in which sections 5 and 6

The windings 7 and 8 of the core 1 and the stator 2 are displaced one relative to the other by half the pole division T / 2. When a magnetic field created by the cor 1 current (power lines 14 and 15) interacts with the stator 2 winding current, an electrodynamic force P arises attached to the stator 2 and the force PJ applied to the core 1. The force Rl is equal to R. but directed in the opposite direction

P, -P ,.

In position a (Fig. 1), force Pp is directed to the right and P, P1 to the left. In position b (Fig. 2) P

 R; and p P sent to the opposite

the side.

R; - and P; P,. When the stator 2 is in its initial position (Fig. 1), during the passage of an electric pulse along the windings 7 and 1 of box 1 and stator 2, their electrodynamic interaction occurs, as a result of which the measles 1 moves to the left, affecting the earth's surface with force Pj, Stato 2 moves to the right, taking on a reactive impulse.

When operating in automatic mode with excitation of seismic pulses alternately in opposite directions, the stator 2 moves from the stop 12 to the stop 13, while occupying a new initial position (Fig. 2). In this case, the stator 2 moves by the magnitude of the pole division T relative to the core 1, and their sections are so located one relative to the other, that when a subsequent electric pulse is applied in the same direction as the first pulse, the magnetic field of the core 1 interacts with the electric field of the stator winding 2 (lines of force 14 and 15 in Fig. 1) in the direction opposite to their interaction at the first pulse. At the same time, the bark 1 moves to the right, interacting on the ground with reinforcement, and the stator 2 - to the left against the stop. When the next pulse is applied, the cycle repeats.

For the excitation of unidirectional seismic oscillations, the stator

2 is set to one of the extreme positions, the drive 11 of the stator 6 is fixed in this position and the return mechanism is activated. After the electrical pulse is applied, the measles 1 moves to the left, exciting seismic vibrations of the earth. The stator 2 is moved to the right in an intermediate position under the action of a jet pulse, and then with the help of a damper 11 it returns smoothly to its original initial position. When the next pulse is applied, the cycle is repeated.

In order to initiate a series of seismic vibrations directed in the other direction, the stator 2 moves with the help of the actuator 9 to the right up to the stop 13. In this case, the windings of the core 1 and the stator 2 will occupy such a mutual position that ensures the movement of the core 1 to the right when they interact.

In this case, the stator 2 moves to the left to some intermediate position, and then with the help of a double-acting spring 10 returns to its original position to the stop 13. When the next pulse is applied, the cycle repeats. Thus, it has a series of seismic pulses directed in one direction.

The use of the active node of the electrodynamic source of seismic signals of the proposed design provides automatic excitation of seismic pulses, both alternately in opposite directions, and a series of unidirectional seismic signals, significantly simplifying the magnetic core system and increasing the source speed while reducing its dimensions and weight.

/ Galosh fifuf S

Claims (1)

ACTIVE NODE OF THE ELECTRODYNAMIC SOURCE OF SEISMIC SIGNALS, containing the armature and the stator concentrically located one in another, the stator being equipped with a drive for installing it in the working position, and the armature with stops for restricting the stator travel, while the stator and the armature contain magnetic circuits and multipolar sections in the annular grooves of the corresponding magnetic circuit and in the working position are shifted one relative to the other by half the pole division, the difference is that in order to simplify the design tion, increasing the speed of the source and expanding the functionality by providing a mode of generating unidirectional seismic vibrations, a double-acting spring connecting the stator to the drive and a damper are introduced into it, while the stator winding is made with the number of sections equal to the number of sections of the armature winding, and the stops the anchors are installed in the housing at a distance from each other, I exceeding the length of the stator by the amount of pole division. Fig 1 6 + G