WO2018084746A1

WO2018084746A1 - Seismic vibrator with an electromagnetic actuator

Info

Publication number: WO2018084746A1
Application number: PCT/RU2017/000801
Authority: WO
Inventors: Александр Валентинович КОЧНЕВ; Светлана Валентиновна ДРОКИНА; Сергей Николаевич ДЕГИЛЕВИЧ; Георгий Яковлевич Шайдуров; Данил Сергеевич КУДИНОВ; Александр Александрович ЩИТНИКОВ; Константин Александрович АРТЕМЬЕВ
Original assignee: Акционерное Общество Научно-Внедренческий Инжененрный Центр "Радиус"; Общество С Ограниченной Ответственностью Научно-Производственная Фирма "Иридий"
Priority date: 2016-11-01
Filing date: 2017-10-30
Publication date: 2018-05-11

Abstract

The claimed utility model relates to seismic technology, and more particularly to an electromagnetic seismic vibration exciter, and can be used as a source of vibroseis vibrations. The aim of the utility model is to achieve such technical results as an increase in effectiveness, an improvement in the figure of merit and stability of a given working frequency, an increase in smooth operating reliability and an increase in service life. This aim is achieved as follows: a seismic vibrator with an electromagnetic actuator comprises a seismic wave emitter in the form of a rigid base with rigid feet for attachment to a substrate, said base supporting an electromagnetic vibration exciter having an inductor based on a power coil, and an armature, the armature and the inductor being movable in relation to one another; wherein between the armature and the inductor of the electromagnetic exciter there is a gap in which a resilient element made of an elastic material is disposed which is capable of undergoing compression as the armature approaches the inductor, wherein the device additionally comprises a thrust plate disposed between the armature and the base, the armature being mounted on supports which are rigidly attached to the base, and the inductor being fastened to supports which are secured to the additional thrust plate, and wherein the resilient element is in the form of individual conical protuberances which are interconnected by connecting strips. The claimed seismic vibrator is a reliable device for generating adjustable seismic waves in the earth.

Description

Seismic source with electromagnetic drive

Utility Model Description

The inventive utility model relates to seismic engineering, namely to electromagnetic pathogens of seismic vibrations, and can be used as a source of vibroseismic vibrations.

A known seismic source (patent RU 2335001 published September 27, 2008) containing a vehicle emitting a plate, a loading mass, an electromagnetic exciter of oscillations with a power coil, its power supply and control system. The elastic elements, the excitation coil of the electromagnetic exciter of oscillations, the hoisting and pressing mechanism, the elastic isolation from the vehicle, the bridge power commutator of the power coil are introduced into the seismic source, and the electromagnetic exciter of oscillations contains hydraulic cylinders, and the radiating plate connected to the armature of the electromagnetic exciter of oscillations is equipped with this radiating plate by an elastic element, on which the stator of the electromagnetic oscillator is directly laid with two coils (power and excitation), and between this stator and the armature a second elastic element is also laid, and the stator with the posts made on both sides, which are the hydraulic cylinder rods, is connected to the pistons of these hydraulic cylinders, whose bodies in the upper and lower cavities are equipped with fittings and through springs and shock absorbers are connected to a vehicle equipped with the indicated loading mass, rigidly bonded to this vehicle.

The disadvantages of the known solutions are low efficiency, low stability and quality factor of a given operating frequency, high probability of a malfunction, low durability.

Closest to the claimed solution, is an non-explosive seismic source with an electromagnetic drive (patent RU 2242027 published December 10, 2004), containing a rigid base - a seismic wave emitter on which rigid racks are made, a load is supported on the base with the possibility of its movement relative to the racks, it is fixed to the load electromagnet inductor, in the grooves of the inductor magnetic circuit the excitation winding is placed, the power supply circuit is attached to the winding, the electromagnet anchor is separated from the inductor by a gap * Y The anchor is separated from the racks by a gap δ 2, into which an elastic element with a height H is placed, with the possibility of compression when the armature moves in the direction of decreasing the gap ^ 2 .

The main disadvantages of the known technical solutions are also low efficiency, low stability and quality factor of a given operating frequency, high probability of a malfunction, low durability.

The purpose of the claimed utility model is to eliminate these shortcomings in order to achieve such technical results as increasing efficiency, increasing the quality factor and stability of a given operating frequency, increasing the reliability of smooth operation and increasing durability.

The goal is achieved as follows: a seismic source with an electromagnetic drive containing a seismic wave emitter in the form of a rigid base with rigid legs for mounting on a substrate, on which an electromagnetic oscillation exciter with an inductor based on a power coil and an armature is supported, with the possibility of moving the armature and inductor relative to each other ; moreover, there is a gap between the anchor and the inductor of the electromagnetic pathogen, in which an elastic element of elastic material is placed, with the readiness to compress it when the anchor approaches the inductor, while between the anchor and the base it additionally contains a thrust plate, the anchor is mounted on its posts rigidly connected to the base, and the inductor is mounted on its racks, attached to an additional thrust plate, while the configuration of the elastic element is made in the form of separate protrusions in the form of cones connected between themselves th jumpers.

A seismic source with an electromagnetic drive in particular can be characterized in that the elastic element is prefabricated, so that the bridges between the protrusions are made in the form of strips of the same material.

A seismic source with an electromagnetic drive in particular can be characterized in that the cones of the protrusions are truncated. A seismic source with an electromagnetic drive in particular can be characterized in that the protrusions of the elastic material with their bases oriented towards the armature of the electromagnetic pathogen.

A seismic source with an electromagnetic drive in particular can be characterized by the fact that the configuration of the elastic element, made in the form of separate protrusions connected by jumpers, is a recurrent structure in the form of a grid with rectangular cells, in the nodes of which these protrusions are placed, and some of the nodes remain free from protrusions.

A seismic source with an electromagnetic drive in particular can be characterized in that the elastic element in the form of separate protrusions connected by jumpers is provided with loops for attaching it to the posts of the inductor.

A seismic source with an electromagnetic drive in particular can be characterized in that it contains an additional elastic element between the armature and the additional thrust plate, and the additional elastic element may have the same shape as the main elastic element.

In FIG. 1 shows a General view of the inventive utility model, in Fig.2 a side view, in Fig.Z a General view of the elastic element, where the numbers indicate:

1. Hard base

2. Rigid racks for mounting on a substrate

3. The inductor of the electromagnetic pathogen

4. Power coil inductor

5. Anchor of the electromagnetic pathogen

6. The gap between the armature and the inductor

7. The gap between the armature and the additional thrust plate

8. The elastic element of the elastic material of the core

9. Elastic element made of elastic material additional

10. Additional thrust plate

11. The axis of the inductor

12. Axis Anchors

13. The protrusions of the elastic element

s 14. Jumpers of the elastic element

15. Grid nodes with rectangular cells of the elastic element

16. Loops of fastening of an elastic element.

Presented in the figures, a seismic source with an electromagnetic drive is arranged as follows.

To the rigid base 1, rigid struts are mounted for mounting on the substrate 2. The inductor of the electromagnetic exciter 3 with the power coil 4 and the armature 5, through the elastic element of an elastic material an additional 9, is attached to the base 1, while leaving a gap between the armature and the additional thrust plate 7. Anchor 5 is connected to the inductor 3 through an elastic element of elastic material of the main 8, while leaving a gap between the armature and the inductor 6. Anchor 5 is fixed relative to the base 1. Between the armature 5 and the inductor 3 an additional stop plate 10 is located. The inductor 3 contains axes 11 fixed to the stop plate 10. Anchor 5 contains axes 12 fixed to the base 1. The elastic element contains protrusions 13, jumpers 14, loops 16, which can be, for example, under the size of the axis 11 and is formed by grid nodes with rectangular cells.

Presented in the figures, a seismic source with an electromagnetic drive operates as follows.

Before the operation of the seismic source, the power supply and control circuit of the power coil 4 is connected to it (Fig. Not shown).

Rigid struts 2 are tightly fixed in the substrate (for example, in rocks), for example, by clogging them with mechanical impacts into pre-drilled holes. When voltage is applied to the coil 4, the inductor 3, together with the axes 11, mounted on the additional thrust plate 10, begins to move towards the armature 5 and, simultaneously, the base 1. At the moment of approach of the armature and the inductor, the elastic element 8 is compressed and the clearance decreases 6. At the same time, an impact on the plate 10 and a decrease in the gap 7. The plate 10 acts on the base 1, which begins to vibrate (due to the pressure of the plate 10, or its absence), the vibration is transmitted to the posts 2, and then to the substrate. In the claimed device, the inductor 3 with the coil 4 acts, including as a load, which, for example, unlike the prototype, does not require the use of additional weight. Anchor 5 may be, for example, a set of metal plates fixed by axes 12 to the base 1.

The increase in the elastic force on the protrusions 13 of the elastic elements (which can be, for example, prefabricated) occurs gradually over time, and their mechanical parameters are selected so that the increase in force corresponds to the increase in current in the winding of the power coil 4 and, therefore, the force of attraction to the armature 5, which provides increased ride smoothness, and, as a result, determines the quality factor and stability of frequency characteristics. In this case, the protrusions 13 can be oriented towards the armature 5. When the magnetic force is minimal, the stiffness of the elastic element is also minimal (and, conversely, with increasing magnetic force, the elastic force also increases), which allows for the best coordination of magnetic and elastic forces. While, in known devices, compression of elastic elements is not in good agreement with an increase in magnetic forces, compression of a solid rubber substrate does not sufficiently reduce the gap between the armature and inductor (due to the high rigidity and limited deformation of the central parts of the whole elastic element), which significantly reduces its participation in energy storage. In addition, with an increase in the magnetic gap, in order to maintain a constant induction of the magnetic field, it is necessary to increase the current, which increases the spurious heating of the coil, which in turn reduces the efficiency of the device. The monolithic plate is slightly deformed, and therefore poorly involved in energy storage. Therefore, the claimed solution uses elastic elements formed by nodes of the grid 15, consisting of jumpers 14. For reliability of attachment to the inductor, it is equipped with loops 16. In some cases, if it is necessary to reduce elasticity, some places of the elastic element may not contain protrusions.

The conical shape of the protrusions 13 provides a non-linear increase in the elastic force under pressure on them, the magnetic force is also non-linear and depends on the magnitude of the magnetic gap, thereby matching magnetic and elastic forces when the inventive device is operated, which, in particular, reduces the requirements to ensure that the electromagnetic exciter of oscillations of high linearity increases the current characteristics, which allows not to complicate the power supply and control of the claimed device, which in its the turn leads to an increase its reliability. However, in certain cases, the cone may be truncated.

The presence of an additional elastic element 9 between the armature 5 and the additional thrust plate 10 allows you to excite harmonic oscillations, since it looks like a spring pendulum (one elastic element is compressed - another is unclenched and vice versa), which also increases the efficiency of the inventive device. The additional element 9 in size may be comparable with the plate 10.

Regarding the elastic material, it should be noted that the claimed device uses polyurethanes with a maximum rebound coefficient of elasticity, minimal aging and high mechanical strength, such as, for example, SKU-PFL, smooth-on and others.

Thus, the use of a thrust plate, a base and additional elastic elements, with protrusions and configured of rectangular elements, lead to the claimed technical results, namely increasing efficiency, increasing the quality factor and stability of a given operating frequency, increasing reliability of uninterrupted operation and increasing durability.

Industrial applicability.

The inventive seismic source is a reliable device for creating controlled seismic waves in the ground.

Claims

Seismic source with electromagnetic drive

Utility Model Formula

A.1. A seismic source with an electromagnetic drive, containing a seismic wave emitter in the form of a rigid base with rigid legs for mounting on a substrate, on which an electromagnetic oscillation exciter with an inductor based on a power coil and an anchor is supported, with the possibility of moving the armature and inductor relative to each other; moreover, there is a gap between the armature and the inductor of the electromagnetic pathogen, in which an elastic element of elastic material is placed, with the readiness to compress it when the armature approaches the inductor, characterized in that it additionally contains a thrust plate between the armature and the base, the anchor is mounted on its posts rigidly connected to the base, and the inductor is mounted on its racks, attached to an additional thrust plate, while the configuration of the elastic element is made in the form of separate protrusions in the form of cones, connected s interconnected webs.

A.2. A seismic source with an electromagnetic drive according to claim 1, characterized in that the elastic element is prefabricated, so that the jumpers between the protrusions are made in the form of strips of the same material.

P.Z. A seismic source with an electromagnetic drive according to claim 1, characterized in that the cones of the protrusions are truncated.

A.4. A seismic source with an electromagnetic drive according to claim 1, characterized in that the protrusions of the elastic material with the bases oriented to the armature of the electromagnetic pathogen.

A.5. A seismic source with an electromagnetic drive according to claim 1, characterized in that the configuration of the elastic element, made in the form of separate protrusions connected by jumpers, is a recurrent structure in the form of a grid with rectangular cells, in the nodes of which these protrusions are placed, and some of the nodes remain free of protrusions. Π.6. A seismic source with an electromagnetic drive according to claim 1, characterized in that the elastic element in the form of separate protrusions connected by jumpers is equipped with loops for attaching it to the posts of the inductor.

A.7. A seismic source with an electromagnetic drive according to claim 1, characterized in that it contains an additional elastic element between the armature and the additional thrust plate.

A.8. A seismic source with an electromagnetic drive according to Claim 7, characterized in that the additional elastic element has the same shape as the main elastic element.