BG4305U1 - Device for determining the optimal position of seismic sensors when deploying a perimeter security system - Google Patents

Abstract

The device for determining the optimal position of seismic sensors in a deployment of a perimeter security system is applicable to the detection and measurement of the amplitude of surface seismic waves generated by anthropogenic sources. It consists of a piezoelectric accelerometer (1) ending with a hand sonde for integration with different types of soils and is connected by a cable line to a coupling (2), which is the input of the charge amplifier (3). The voltage generated by the charge amplifier (3) is transmitted to the voltage amplifier (4), which has a variable amplification factor, and the appropriate amplification factor is selected via the multi-position switch (5). The acoustic transducer (6) converts the amplified signal into one having a frequency proportional to the amplitude of the input signal, as to the amplifier is mounted a headphone coupling (9) for acoustic evaluation of the detected signal. The integrated mini oscilloscope (7) visualizes the shape and parameters of the detected signal. An overload indicator (8) provides information on cases where the input signal amplitude exceeds the dynamic range of the Device. The power supply unit (10) provides the generated voltage for the operation of the device.

Description

Prior art

The main approach to the location of the seismic sensors is carried out in such a way that the distances between them do not exceed the zones of action set in their specifications, while at the same time the latter fully cover the area intended for protection. The disadvantage of this approach is determined by the non-uniformity of the soil (change in its density and structure, the presence of rock inclusions, root system of vegetation, etc.). This leads to the risk of areas in the guarded area lacking data from the seismic sensors, which impairs the effectiveness of the perimeter security system. To reduce these risks, seismic sensors are often placed at smaller distances from each other, which increases the number of them needed to build the security system, or costly and time-consuming tests are conducted with people and different types of vehicles based on which to a large extent "intuitively" corrects the location and quantity of the used seismic sensors.

It is also possible to select the location of each of the seismic sensors, by evaluating its area of action in the specific conditions, but therefore requires considerable time, people and different types of vehicles to simulate the objects they are supposed to detect the sensors, as well as a large amount of laboratory equipment - measuring amplifiers, oscilloscopes, stands or tables, etc.

Technical nature of the utility model

The technical problem to be solved is to develop a way to determine the permeability of surface seismic waves in soils that is sufficiently accurate and does not use indirect methods.

This technical problem was solved by creating a device for determining the optimal position of seismic sensors when deploying a perimeter security system (hereinafter referred to as "the Device") with the following construction: a wide-range piezoelectric accelerometer that converts mechanical vibrations from the earth's surface in an electric charge, a coupling serving as an input to connect the piezoelectric accelerometer to a charge amplifier which converts the electric charge generated by the accelerometer into a voltage proportional to its magnitude, connected to a voltage amplifier with a variable gain regulated by a multi-position switch, also including an overload indicator which forms a signal in the event that the amplitude of the input signal exceeds the dynamic range, an acoustic converter converting the signal from the output of the voltage amplifier into a signal with a frequency proportional to its amplitude, the output of which h coupling is connected to headphones for acoustic evaluation of the registered signal, as well as connected to a mini oscilloscope for visualizing the shape and parameters of the registered signal and the signal from the overload indicator, a power supply unit and a protective case in which the components of the Device are located.

Determining the permeability of surface seismic waves in soils, through the proposed Device, is reduced to registering and measuring the parameters of surface seismic waves generated by an anthropogenic source (as a result of dropping a weight from a certain height, creating a close to pulse seismic effect, t (ie broad-spectrum seismic oscillations close to those created by various real objects). The measurements are carried out in the directions from which the real sources of anthropogenic seismic waves are expected, and the points where the seismic waves have the best permeability and are most suitable for the placement of the seismic sensors are determined through the Device.

Explanation of the attached figure

Figure 1 shows a block diagram of the Device for determining the optimal position of seismic sensors when deploying a perimeter security system.

Example implementation of the utility model

According to the description and figure 1, the exemplary embodiment of the Device has the following construction:

- wide-range piezoelectric accelerometer 1, constructively ending with a manual probe for connecting to different types of soil, which is connected by a cable to coupling 2, which is the input of the charge amplifier 3;

- the voltage generated by the charge amplifier 3 is fed to the voltage amplifier 4, which has a variable gain factor selected by the multi-position switch 5;

- an acoustic converter converting the voltage from the output of the voltage amplifier into a frequency 6 and connected to the headphone jack 9;

mini oscilloscope 7;

- overload indicator connected to voltage amplifier 8;

- power supply unit 10 with an electrochemical or other source of electromotive voltage.

To reduce external influence, the device is enclosed in a protective casing. Application of the utility model

The device is designed to determine the permeability of surface seismic waves generated by anthropogenic sources. The Device determines the points where the surface seismic waves have maximum permeability, i.e. minimum attenuation, which are most suitable for locating the seismic sensors of the perimeter security system. It can also be used to determine the locations of seismic sensors in studies of the amplitude-frequency characteristics of soils and in the study of seismic oscillations created by different sources.

Claims (1)

The device for determining the optimal position of seismic sensors when deploying a perimeter security system, characterized in that it consists of a piezoelectric accelerometer (1) which is connected to a coupling (2) which is the input of the charge amplifier ( 3), the output of which is connected to a voltage amplifier (4) including a multi-position switch (5) changing its amplification factor, the output of the voltage amplifier (4) being connected on the one hand to an acoustic transducer (6) converting voltage in frequency and whose output is connected to a headphone jack (9) and on the other hand to a mini oscilloscope (7) and to an overload indicator (8), a power supply unit (10) providing electromotive voltage for the operation of the Device