RU2442192C1 - The method of determination of mandrills or bores location in the ground and the installment for the performance of the above method - Google Patents

Abstract

FIELD: construction machinery. ^ SUBSTANCE: invention is designated for locating of mandrills and bores in the ground; the alternating low-frequency magnetic field is induced by the emitter which is rigidly connected with the mandrill or bore; the emitter is executed in the shape of identical, coaxial, phasing-out inductance coils located along the axis of the mandrill; the differential diagram of the aerial directivity is formed cumulatively; the aerials are moved on the surface and define the position wherein the difference signal is equal to null; by orientation of the aerials in these positions they determine the plane position squire with the axis of the mandrill or the bore and the vertical plane coinciding with the direction of mandrill or bore axis; the line of intersection of the vertical plane with the ground surface is to be found; the course is to be determined regarding the direction of the above line; the pitching is determined by the angularity to the ground surface plane squire with the axis of the mandrill or bore; the device contains the emitter of the alternating low-frequency magnetic field, two identically oriented aerials and the receiver having two receiving channels and indicators; the aerials outlets switched to the inputs of the signals sums and differences receiving device and its outlets connected to the inputs of the receiving summarizing and differentiating channels; the outlet of the differentiating channel is switched to the input of the first indicator; the outlet of summarizing channel is switched to the input of the second indicator. ^ EFFECT: enhancement of accuracy of determination of mandrills and bores pitching and the emitter construction simplification. ^ 2 cl, 6 dwg.

Description

The invention relates to construction equipment and is intended to detect percussion devices - punches or drills used for punching or drilling wells.

The prior art method and device for determining the location of the punch (patent RU No. 2132428, IPC 6 E02F 5/18). The method (figure 1) is that they detect the signal of the emitter 2, rigidly connected with the punch 1, using antennas 3, 4 located on the ground surface, a rotating magnetic field is used as the emitter signal, and the magnetic field is rotated so that the plane of rotation of the magnetic moment vector _M P emitter perpendicular to the punch axis, receiving signals in the near field, wherein the field reactive power prevails, find the position of the plane in space by means of directional properties of the antennas 3, 4 and e determine the direction of the orientation axis of the punch, and by at least two samples is determined parameters field gradient vector and the direction of the gradient vector to determine the direction of the emitter, and the modulus of the gradient and the field strength of the cubic dependence on the distance determined by distance to the emitter.

The known device for determining the location of the punch 1 (figure 1) contains a radiator 2 of electromagnetic waves, rigidly connected with the punch, two directional antennas 3, 4, receiver 5, calculator 6 and indicator 7 located on the ground surface, while the outputs of the receiver are connected to the inputs of the computer, the output of which is connected to the indicator, the receiving antennas, the outputs of which are connected to the inputs of the receiver, are fixed on a common base at a distance d so that the planes of the zeros of their radiation patterns coincide, and the base is made with the possibility of transfer. As a radiator, a rotating magnetic field generator is used.

The disadvantage of this method and device should include the relatively low accuracy of determining the direction to the piercer due to the fact that the change in the modulus of the field gradient at small angles of deviation from the true direction to the emitter tends to zero.

Closest to the proposed invention is a method for determining the location of the punch or drill in the soil (patent RU No. 2206906, IPC 6 E02F 5/18), according to which (Fig.2) using a radiator 2 rigidly connected to the punch 1 excite a rotating magnetic field, field rotate so that the plane of rotation of the vector of the magnetic moment P _{m of the} emitter is perpendicular to the axis OO of the punch. A feature of this plane is that the lines of force of a rotating magnetic field with respect to it are always symmetrical and extend tangentially to it. Find the position of this plane in space using the directed properties of the antennas 3, 4 located on the surface of the earth, determine (Fig. 3) at least two planes spaced in space above the punch. Each of the planes is determined by three points at which the relative delays between the signals of identically oriented antennas located at these points are equal to zero. Find the intersection line of these planes, and then find the point M of the intersection of this line with the known plane of rotation of the magnetic moment of the emitter. In this case, the line of intersection of the planes with zero delay of the signals coincides with the axis of the punch, and the point of intersection of this line with the plane of rotation of the magnetic moment vector coincides with the center of the emitter. Thus specify the location, course and pitch of the punch. In the space above the punch 1 (figure 4) determine the vertical plane with zero relative delay of the signals induced by the rotating magnetic field in the antennas 3. 4 located in this plane. A feature of this plane is that the lines of force of the magnetic field do not intersect this plane, i.e. they lie in this plane, and the plane itself coincides with the direction of the axis of the punch or drill 1. When determining this plane, identically oriented antennas 3. 4 are located on the same vertical and, synchronously moving them in space above the punch, find points A and B on surfaces in which the delay of the signal between the antennas is zero. The line drawn through these points is the line of intersection of the found plane with the horizontal surface and coincides with the course of the punch.

In the known closest to the proposed invention device (patent RU No. 2206906, IPC 6 E02F 5/18) (figure 2) for determining the location of the punch 1 containing the emitter of a rotating magnetic field 2, rigidly connected with the punch or drill 1, at least at least two identically oriented antennas 3, 4, two-channel at least receiver 5, calculator 6 and level indicator 7, delay meter 8 and delay indicator 9 located on the surface, the outputs of antennas 3, 4 are connected to the inputs of the channels of receiver 5, outputs which connect are connected to the inputs of the calculator 6 and in parallel to the two inputs of the delay meter 8, and their outputs are connected to the inputs of the indicators 7 and 9.

The disadvantage of the closest to the proposed method and device is the design complexity associated with the need to create a rotating vector of magnetic moment P _{m of} emitter 2 and the inaccuracy of determining the plane of rotation of the magnetic moment P _m The fact is that the position of the rotation plane of the vector P _m in the known method is determined by the orientation of the receiving antennas at which the signal induced in them is equal to zero. In this case, the magnetic field lines pass to them tangentially. But due to the curvature of the magnetic field lines (they are closed), such a state is possible at different points in space with different tilts of the antennas, which leads to inaccurate determination of pitch.

Thus, the problem to be solved is to increase the accuracy of determining the pitch, provided by the uniqueness of determining the position of the plane perpendicular to the axis of the punch or drill, and simplifying the design of the emitter.

The problem is solved in that in a method for determining the location of a punch or drill in the soil, which consists in the fact that using a radiator rigidly connected with a punch or a drill, an alternating low-frequency magnetic field is excited so that the magnetic field lines pass symmetrically and tangentially to the plane passing through the emitter and perpendicular to the axis of the punch or drill, and so that there are lines of force lying in a vertical plane coinciding in direction with the axis of the punch or drill, determine the space in the space of these planes using the directed properties of the antennas located on the soil surface, find the line of intersection of the vertical plane with the soil surface and determine its course in its direction, and the pitch is determined by the angle of inclination to the soil surface of a plane perpendicular to the axis of the punch or drill, according to the invention, the low-frequency magnetic field of the emitter is excited by means of two identical coaxial in-phase inductance coils spaced along the axis of the punch, form the sum but-difference antenna pattern, the antenna is moved on the surface and determining the positions at which the difference signal is zero, the orientation of the antennas at these positions determine the position of a plane perpendicular to the axis of the punch or drill and a vertical plane.

The task (technical result) is also solved by the fact that in the device for determining the location of the punch or drill in the soil, containing an emitter of an alternating low-frequency magnetic field, rigidly connected with the punch or drill and including a generator, at least two identically oriented antennas and a receiver, having at least two receiving channels and indicators located on the surface, according to the invention, the emitter is made in the form of two coaxial, spaced along the axis of the punch or drill, ident egg inductors, and the receiver additionally introduced a device for receiving the sum and difference of signals, the inputs of the emitter inductors are connected to the output of the generator in phase, the antenna outputs are connected to the corresponding inputs of the device for receiving the sum and difference of signals, and its outputs are connected to the corresponding inputs, at least , two receiving channels of the total and differential, the output of the differential channel of the receiver is connected to the input of the first indicator, and the output of the total channel is connected to the input of the second ind ikator.

The invention is illustrated by drawings:

figure 1 shows a device that implements an analogue method;

figure 2 shows a device that implements the prototype method;

figure 3 schematically shows the principle of finding planes of zero delay, determining the axis of the punch and its location in the prototype;

figure 4 shows a method of clarifying the course along the vertical plane of the zero delay of the signals in the prototype;

figure 5 shows a device that implements the proposed method.

figure 6 schematically shows the projection of the field lines on the soil surface and possible situations of the position of the antennas relative to them in the present invention.

Consider the feasibility of the method and device for a specific example.

A device that implements a method for determining the location of a punch or drill 1 (Fig. 5), contains a radiator 2, including two identical inductors 2.1 and an alternating voltage generator 2.2, rigidly connected with a punch or drill 1, two antennas 3, 4, a receiver 5, including differential 5.1 and total 5.2 channels of the receiver, the first and second indicators of differential 7 and total 9 signals and a device for receiving the sum and difference of signals 10 located on the ground surface, the outputs of the generator 2.2 are connected in phase to the inputs are identical x inductors 2.1, the outputs of the antennas 3, 4 are connected to the corresponding inputs of the device for receiving the sum and difference of signals 10, and its outputs are connected to the corresponding inputs of the differential 5.1 and total 5.2 channels of the receiver, the output of the differential 5.1 channel is connected to the input of the indicator of the differential signal 7, and the output of the total channel 5.2 is connected to the input of the indicator of the total signal 9.

A device that implements the claimed method works as follows.

The generator 2.2 included in the emitter 2 generates a low-frequency voltage, which is supplied to the inputs of the inductors 2.1 out of phase. The coils are identical, pine and spaced a distance equal to 3-4 coil diameters. Both coils excite oncoming low-frequency magnetic fields. In this case, at equal distances from the coils, on the plane passing between them and perpendicular to their axis OO, there is a complete compensation of the magnetic field components parallel to the axis OO, but all the lines of force tangent to this plane remain uncompensated. In addition, the magnetic field lines of force are strictly symmetrical with respect to this plane, are closed at opposite ends of the coils, and there are lines of force lying entirely in a vertical plane that coincides in direction with the axis of the OO of the punch or drill 1. A low-frequency magnetic field extends to the soil surface and induces in antennas 3, 4 are electrical signals.

The signals induced in the antennas 3, 4 are fed to the inputs of the device for receiving the sum and difference of signals 10. The difference signal from the output of the device for receiving the sum and difference of signals 10 is fed to the input of the differential channel 5.1 of receiver 5, and from its output the amplified signal is fed to the input of the first indicator 7 differential signal. The sum signal from the output of the total signal of the device 10 is fed to the input of the total channel 5.2 of the receiver 5, and from its output, the amplified signal is fed to the input of the second indicator 9 of the total signal. Thus, the device allows you to simultaneously detect a signal using indicator 9 for the total signal and, controlling the level of the separation signal by indicator 7, find the positions in which the difference signal is zero. The orientation of the d axis connecting the antennas 3, 4 in these positions determines the direction of the vertical plane and the slope to the ground surface of the plane perpendicular to the axis OO, and thus determine the course and pitch according to the proposed method.

In the proposed method, to determine the location, course and pitch of the punch or drill 1, an alternating low-frequency magnetic field created by the emitter 2 is used. This creates a magnetic field that has lines of force symmetrical and tangent to the plane perpendicular to the axis of the punch or drill passing through the emitter 2, and there are lines of force lying in a vertical plane coinciding in direction with the axis of the OO of the punch or drill 1. Signals induced by a low-frequency magnetic field in the same direction ntirovannyh antennas 3, 4 disposed on a common axis d, summed and subtracted, thus obtaining the sum and difference beam pattern. Antennas 3.4 move along the surface of the soil and find the position in which the difference signal is equal to zero. The orientation of the d axis, the coupling antennas 3, 4 determines the direction of the vertical plane and the slope to the ground surface of the plane perpendicular to the OO axis, since in this case the d axis is perpendicular to these planes, and thus determine the course and pitch. On Fig.6 schematically shows the projection of the lines of force of the magnetic field of the emitter 2 on the soil surface. The possible positions of antennas 3, 4 with respect to these power lines are also shown there. For example, in situation “a”, the d axis connecting the antennas 3, 4 is located horizontally, symmetrically and perpendicularly with respect to the lines of force lying in the vertical plane. The signals induced in them will be equal due to the symmetrical position of the lines of force, and the difference signal will be equal to zero. In this case, the d axis connecting the antennas 3, 4 will be perpendicular to the vertical plane coinciding in direction with the OO axis of the punch or drill 1. In the situation “c”, the d axis connecting the antennas 3, 4 is perpendicular to the plane passing through the radiator perpendicular to the axis OO of the punch or drill 1. In this case, the difference signal will also be equal to zero, and the slope of the d axis connecting the antennas 3, 4 relative to the soil surface determines the pitch angle. In positions “g”, “d”, “e” and “and” of antennas 3 and 4, the difference signal will not be zero, except for position “b”, in which both the sum and difference signals are equal to zero. The orientation of the d axis connecting the antennas 3, 4 in the positions where the difference signal is zero determines the direction of the vertical plane and the inclination of the plane perpendicular to the axis OO, and thus determine the course and pitch according to the proposed method. The intersection line of the found planes is perpendicular to the axis of the OO of the punch or drill 1 and passes through the emitter 2.

In practice, finding the vertical plane is facilitated by the fact that the estimated direction of movement of the punch or drill 1 is known initially. Refine it by finding the position in which the difference signal is zero, turn the d axis in the direction of movement of the punch or drill 1, move along this direction and, scanning the d axis in the vertical plane, find the position and slope of the d axis, at which the difference signal is zero. Thus, the course is specified and the pitch is determined.

The simplification of the design in the proposed method is due to the fact that the magnetic field of the emitter 2 is formed using two punch or drill 1 spaced along the OO axis, coaxial and identical inductors 2.2, excited in phase, and the increase in the accuracy of determining the pitch is due to the unambiguous position and inclination to the surface of the d axis axis, connecting antennas 3, 4, in which the difference signal is zero, and the slope to the ground surface of the plane perpendicular to the OO axis is uniquely determined, and therefore the axis of the OO of the punch or drill 1.

Claims (2)

1. A method for determining the location of a punch or drill in soil, according to which using an emitter rigidly connected by a punch or a drill, an alternating low-frequency magnetic field is excited so that the magnetic field lines are symmetrical and tangent to a plane passing through the radiator and perpendicular to the axis of the punch or drill, and so that there are lines of force lying in a vertical plane coinciding in direction with the axis of the punch or drill, determine the position in space of these planes using the directional properties of the antennas located on the soil surface, find the line of intersection of the vertical plane with the soil surface and determine the course in its direction, and the pitch is determined by the angle of inclination to the soil surface of a plane perpendicular to the axis of the punch or drill, characterized in that the low-frequency magnetic field of the emitter excite with the help of two identical coaxial in-phase inductance coils spaced along the axis of the punch, form a total-difference antenna radiation pattern, the antennas move on the surface and determine the positions in which the difference signal is equal to zero, the location of the plane perpendicular to the axis of the punch or drill, and the vertical plane are determined by the orientation of the antennas in these positions. 2. A device for determining the location of a punch or drill in the soil, containing an emitter of an alternating low-frequency magnetic field, rigidly connected with a punch or drill and including a generator, at least two identically oriented antennas and a receiver having at least two receiving channels and indicators located on the ground surface, characterized in that the emitter is made in the form of two coaxial identical inductors spaced along the axis of the punch or drill, the inputs of which are connected to the output the generator is out of phase, an additional device for receiving the sum and difference of signals is introduced, the antenna outputs are connected to the corresponding inputs of the device for receiving the sum and difference of signals, and its outputs are connected to the corresponding inputs of at least two receiving channels, the total and the differential, the output of the receiver’s difference channel connected to the input of the first indicator, and the output of the total channel is connected to the input of the second indicator.

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