KR101482457B1 - The measurement system of the percentage of water content of the road ground - Google Patents

Abstract

The present invention relates to a system and method for measuring moisture content of a road ground. The system includes an electromagnetic wave transmission/reception unit (10) for transmitting and receiving an electromagnetic wave onto the ground (220); an electromagnetic wave measuring unit (20) for measuring the intensity of the electromagnetic wave reflected from the ground; a ground data analysis unit (30) for analyzing medium data of the ground according to the intensity variation of the electromagnetic wave measured by the electromagnetic wave measuring unit (20); and a moisture content calculation unit (40) for calculating the moisture content of the ground according to the intensity of the electromagnetic wave measured by the electromagnetic wave measuring unit (20) and the medium data analyzed by the ground data analysis unit (30).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water content measurement system,

The present invention relates to a system and method for measuring water content of a road surface in a noncontact manner, and more particularly, to a system and method for measuring moisture content of a road surface by measuring the water content of the soil material constituting the road surface using electromagnetic waves The present invention relates to a water content measurement system and method therefor.

In the road construction, the road ground is compaction process for the stability of the road pavement layer. At this time, soil, compaction degree and water content of the ground are closely related to long-term ground settlement and road stability. Since the water content of the ground has the greatest influence on the subsidence and stability of the ground, it is necessary to analyze the water content of the ground in road construction.

Methods of soil moisture detection include tension meter method, gypsum block method, core sampling method, and electric resistance method.

The tension meter method uses a sensor called a tension meter to measure the water content in the soil. The tension meter is composed of a water column for replenishing water, a ceramic sensor for sensing moisture, and a pressure gauge for indicating water content. The tension meter has a disadvantage that accuracy is lowered and additional supplement is needed to maintain a certain amount of water, and the ceramic sensing part is easily broken.

The method using gypsum block is a method to measure moisture until the water content of gypsum and soil water is equilibrated after inserting it into the soil. This can cause errors in the moisture measurement value due to the corrosion of the gypsum due to moisture in the soil, and it is troublesome to frequently replace the gypsum block.

The core sampling method is performed by drilling a sample and comparing the weight and dry weight at the time of harvesting. It is difficult to determine the error due to the disturbance of the sample at the time of drilling, the relative humidity of the surrounding environment, There is a problem in a large range.

The method using electric resistance also has a disadvantage in that it does not take into account changes in the density of the soil and the temperature of the soil, so that it does not recognize the change in the soil moisture depending on the density of the soil.

Due to the above problems, it is necessary to develop a technique for not only disturbing the soil sample but also measuring the water content of the road surface more easily and accurately without being influenced by the surrounding environment.

Accordingly, it is an object of the present invention to provide a water content measuring system of a road surface which can easily measure the water content of the road surface while minimizing the error in the water content measurement of the road surface.

According to an aspect of the present invention, there is provided an electromagnetic wave transmission and reception unit 10 for transmitting and receiving electromagnetic waves to and from a ground surface of a ground 220, an electromagnetic wave transmitting and receiving unit 10 for measuring the intensity of electromagnetic waves reflected by the electromagnetic wave transmitted and received by the electromagnetic wave transmitting and receiving unit 10, An underground data analysis unit 30 for analyzing the medium data of the ground according to the change in intensity of the electromagnetic wave measured by the electromagnetic wave measuring unit 20 and the electromagnetic wave measuring unit 20, There is provided a system for measuring the moisture content of a road surface comprising a strength calculator 40 for calculating an intensity of an electromagnetic wave and a moisture content of the ground based on the medium data analyzed by the underground data analyzer 30.

The data storage unit 50 further stores the data Dw related to the water content of the ground calculated by the water content calculation unit 40 and the data Dd combined with the coordinate data Dc of the ground . The apparatus further includes a discrimination unit 60 for discriminating the groundwater level or the deterioration related to the ground subsidence by the data Dw relating to the water content of the ground stored by the data storage unit 50 and the coordinate data Dc .

The electromagnetic wave measuring unit 20 preferably measures the intensity of electromagnetic waves reflected by the electromagnetic wave transmitted by the electromagnetic wave transmitting and receiving unit 10 as a function of time.

In addition, it is preferable that the electromagnetic wave reflection medium material is provided at a predetermined depth of the ground.

In addition, the reflective medium material may be formed of a metal plate 230.

The underground data analysis unit 30 analyzes the change in intensity of the electromagnetic wave measured by the electromagnetic wave measuring unit 20 as a function of time and measures the depth and permittivity of the reflected electromagnetic wave through a time change with respect to the extreme intensity of the reflected electromagnetic wave. Analysis is desirable.

The underground data analysis unit 30 analyzes the change in intensity of the electromagnetic wave measured by the electromagnetic wave measuring unit 20 as a function of time and measures the depth and permittivity of the reflected electromagnetic wave through a time change with respect to the extreme intensity of the reflected electromagnetic wave. Analysis is desirable.

로 주어지는 것이 바람직하다. The intensity I of the electromagnetic waves reflected at the interface 220A between the air and the ground 220 and the intensity of the electromagnetic waves reflected at the interface 230A between the ground 220 and the metal plate 230 provided on the bottom surface of the compaction process The difference in detection time between the extreme values of the intensity I ₃ is t, the depth of the ground 220 is d, and the light flux in vacuum is c, the average permittivity

.

The underground data analysis unit 30 may be configured such that when the package layer 210 is formed after the metal plate 230 having a high reflectance is provided for the ground reference floor subject to compaction in the compaction step, The intensity I ₂ of the electromagnetic waves reflected at the interface 220A between the package layer 210 and the ground 220 and the intensity I ₃ of the electromagnetic waves reflected at the interface 230A between the ground 220 and the metal plate 230 It is preferable to analyze the average permittivity of the ground 220 by the detection time difference t between the extreme value of the ground 220. [

로 주어지며, 지반의 함수량

로 주어지는 것이 바람직하다. In addition, electromagnetic waves having an intensity of I _o are incident on the ground 220 where the compaction process of the road ground is performed before forming the pavement layer of the road, and then reflected at the interface between the air and the surface layer of the ground 220, (I) is the intensity of the electromagnetic wave incident on the substrate (10), the dielectric constant

And the soil water content

.

Further, the coefficients A, B, C and D are constants and preferably constants determined by the kind of the ground medium and the relative humidity.

In the case of normal temperature, A, B, C and D are preferably given as -5.3 x 10 ^-2 , 2.92 x 10 ^-2 , -5.5 x 10 ^-4 and 4.3 x 10 ^-6 , respectively.

으로 주어지는 것이 바람직하다. When an electromagnetic wave having an intensity of I _o is incident on the ground 220 in the case where the road pavement layer 210 is formed on the ground 220, I ₁ is a distance between the air and the pavement layer 210 I ₂ is the intensity of the electromagnetic waves reflected at the interface 220A between the package layer 210 and the ground 220 and the dielectric constant of the ground

.

과 함수량 연산부(40)에 의하여 출력된 지반(220)의 유전율

값 사이의 비교에 의하여 지반(220)에 대한 물의 유입 원인을 분석하기 위한 지하수 유입판별부(62)를 더 포함하는 것이 바람직하다. The determination unit 60 determines the average permittivity of the ground 220 analyzed by the ground data analysis unit 30,

And the dielectric constant of the ground 220 output by the water content calculating unit 40

And a groundwater inflow discrimination unit 62 for analyzing the cause of inflow of water to the ground 220 by comparing the values of the groundwater inflow and the groundwater inflow.

The apparatus further includes a water content comparing unit 64 for comparing the data Dw related to the water content of the ground stored by the data storage unit 50 with the water content change of the corresponding coordinates according to the temporal change of the coordinate data Dc .

In addition, it is preferable that the deterioration determining unit 66 further includes a deterioration determining unit 66 for determining the ground subsidence of the coordinates when the variation of the water content compared by the water content comparing unit 64 is abrupt.

일 경우 지반 상부로부터 우수가 침투되거나 포장층의 균열이나 파손으로 인한 지반 표면의 함수량 증가로 판별하며,

일 경우 지하수가 유입되거나 하부층의 함수량 증가로 판별하며,

일 경우 층간 함수량이 균일한 것으로서 지반의 안정성을 판별하는 것이 바람직하다. Further, according to the groundwater inflow determination section 62,

, It is judged that the rainfall penetrates from the upper part of the ground or the moisture content of the ground surface is increased due to the crack or breakage of the pavement layer.

, It is judged that the groundwater flows in or the water content of the lower layer increases,

, It is desirable to determine the stability of the ground with the interlayer moisture content being uniform.

According to another aspect of the present invention, there is provided a method for controlling an electromagnetic wave, comprising the steps of: inputting an electromagnetic wave into a ground by an electromagnetic wave transmitting / receiving unit; converting a strength of an electromagnetic wave received from the ground into an electromagnetic wave incident by the electromagnetic wave transmitting / Calculating a permittivity and an average permittivity of the ground medium in accordance with a variation of an extreme value of the intensity of the electromagnetic wave in the region of time and analyzing the distribution of the water content or the moisture content of the ground by the permittivity or the average permittivity of the ground medium A method for measuring the water content of road pavement is provided.

At this time, it is preferable that a metal medium for inducing the reflection of the electromagnetic wave is embedded in the reference bottom surface of the ground measured by the electromagnetic wave measuring unit 20.

Therefore, according to the present invention, it is possible to easily determine whether the road surface is deteriorated by measuring the water content of the road surface easily while minimizing the error in the measurement of the water content of the road surface, and to manage the road surface.

1 is a block diagram of a water content measuring system of a road surface according to a preferred embodiment of the present invention.
FIG. 2 is a diagram showing a schematic reflection at an interface between air and ground for electromagnetic waves irradiated by a water content measurement system of a road surface according to a preferred embodiment of the present invention. FIG.
3 is a diagram showing a schematic reflection at the interface between the air, the pavement layer and the ground for the electromagnetic waves irradiated by the water content measurement system of road pavement according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a moisture content measuring system for a road surface according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram of a water content measuring system of a road surface according to a preferred embodiment of the present invention. FIG. 2 is a graph showing the relationship between air and ground for electromagnetic waves irradiated by the water content measuring system of road surface according to a preferred embodiment of the present invention. Fig. 3 is a schematic diagram showing schematic reflections at the interface between the air, the pavement layer and the ground for the electromagnetic waves irradiated by the road surface water content measurement system according to the preferred embodiment of the present invention, Fig.

As shown in FIG. 1, the moisture content measuring system of the road surface according to the preferred embodiment of the present invention includes an electromagnetic wave transmitting and receiving unit 10 for transmitting and receiving electromagnetic waves to the ground, an electromagnetic wave transmitted by the electromagnetic wave transmitting and receiving unit 10, An in-ground data analysis unit 30 for analyzing the medium data of the ground by the intensity change of the electromagnetic wave measured by the electromagnetic wave measuring unit 20, an electromagnetic wave measuring unit 20 for measuring the intensity of the electromagnetic wave, A water content calculation unit 40 and a water content calculation unit 40 for calculating the soil water content by the intensity of the electromagnetic wave measured by the measurement unit 20 and the medium data analyzed by the underground data analysis unit 30 A data storage unit 50 for storing the data Dw relating to the water content of the ground to the data Dd combined with the coordinate data Dc of the ground, A discrimination unit 60 for discriminating the groundwater level or the deterioration related to the ground settlement by the coordinate data Dc and the data Dw about the water content of the ground stored by the book 50 and a control unit 70).

Here, the electromagnetic wave transmitting / receiving unit 10 is constituted by an electromagnetic wave transmitting / receiving device for transmitting / receiving an electromagnetic wave oscillated with respect to a ground surface to be measured.

The electromagnetic wave measuring unit 20 is an apparatus for measuring the intensity of an electromagnetic wave reflected by an electromagnetic wave transmitted by the electromagnetic wave transmitting and receiving unit 10. The intensity of the measured value is measured as a function of time.

The underground data analysis unit 30 analyzes the change in the intensity of the electromagnetic wave measured by the electromagnetic wave measurement unit 20 as a function of time, and thereby calculates a difference between the different media, The depth and dielectric constant of the medium layer are analyzed through the intensity change of the electromagnetic wave incident on the interface.

According to the in-ground data analysis unit 30, after the metal plate 230 having high reflectance is provided to the ground reference floor subject to compaction in the compaction step, after the covering and back-filling and compaction steps are performed, The intensity I of the electromagnetic waves reflected at the interface 220A between the air and the ground 220 and the intensity I of the electromagnetic waves reflected at the interface 230A between the ground 220 and the metal plate 230 After the electromagnetic wave measuring section 20 measures the detection time difference t between the extreme value of the intensity I ₃ of the electromagnetic wave, the underground data analyzing section 30 analyzes the average permittivity of the ground.

로 주어진다.The depth of the ground 220 from the metal plate 230 to the air layer is denoted by d and the light flux in vacuum is denoted by c,

.

Similarly, in the case where the packaging layer 210 is formed after the metal plate 230 having a high reflectance is provided for the ground reference floor subject to compaction in the compaction step, and after the backing and back filling and compaction processes are performed, The intensity I ₂ of the electromagnetic waves reflected at the interface 220A between the package layer 210 and the ground 220 and the intensity I ₃ of the electromagnetic waves reflected at the interface 230A between the ground 220 and the metal plate 230 The electromagnetic wave measuring unit 20 measures the detection time difference t between the extreme value of the ground and the ground, and then the ground data analysis unit 30 analyzes the average permittivity of the ground as described above.

The water content calculating unit 40 calculates and outputs the water content of the ground according to the data Di of the intensity of the electromagnetic wave measured by the electromagnetic wave measuring unit 20 and / or the medium data analyzed by the underground data analyzing unit 30 .

For example, as shown in FIG. 2, an electromagnetic wave having an intensity of I _o is incident on a ground 220 on which a compaction process of a road ground is performed before forming a pavement layer of a road, And the intensity of the electromagnetic wave reflected by the interface between the surface layers of the electromagnetic wave transmitting / receiving unit 10 is I,

The water content Θ of the soil is given by

은 지반의 유전율로서

로 주어지며, 상온의 경우에 A, B, C 및 D는 각각 -5.3×10^-2, 2.92×10^-2, -5.5×10^-4 및 4.3×10^-6로 주어진다.Where A, B, C, and D are constants, constants determined by the type of ground media and relative humidity,

Is the permittivity of the ground

A, B, C and D are given as -5.3 × 10 ^-2 , 2.92 × 10 ^-2 , -5.5 × 10 ^-4 and 4.3 × 10 ^-6 , respectively, at room temperature.

으로 주어진다.On the other hand, when the packaging layer 210 is present on the ground

.

Where I ₁ is the intensity of the electromagnetic wave reflected at the interface 210A between the air and the packaging layer 210 and I ₂ is the intensity of the electromagnetic wave reflected at the interface 220A between the packaging layer 210 and the ground 220 Century.

The data storage unit 50 stores the data on the average dielectric constant of the medium and the ground analyzed by the underground data analysis unit 30 and the data Dw on the moisture content of the ground calculated by the water content calculation unit 40, And stores it as data Dd combined with the coordinate data Dc.

과 함수량 연산부(40)에 의하여 출력된 지반(220)의 유전율

값 사이의 비교에 의하여 지반(220)에 대한 물의 유입 원인을 분석하기 위한 지하수 유입판별부(62), 데이터 저장부(50)에 의하여 저장된 지반의 함수량에 관한 데이터(Dw)와 좌표 데이터(Dc)의 시간적 변화에 따른 해당 좌표의 함수량 변화를 비교하기 위한 함수량 비교부(64), 및 함수량 비교부(64)에 의하여 비교된 함수량 변화가 급격할 경우 해당 좌표의 지반 침하를 판별하기 위한 열화 판별부(66)로 이루어진다.The discrimination unit 60 discriminates the average permittivity of the ground 220 analyzed by the underground data analysis unit 30,

And the dielectric constant of the ground 220 output by the water content calculating unit 40

The groundwater inflow discrimination unit 62 for analyzing the cause of the inflow of water to the ground 220 by comparison between the data Dw and the data Dw about the water content of the ground stored by the data storage unit 50, ), And a water content comparing unit (64) for comparing the water content change of the corresponding coordinate with the temporal change of the coordinate of the corresponding coordinate, and a deterioration discriminating unit (66).

일 경우 지반 상부로부터 우수가 침투되거나 포장층의 균열이나 파손으로 인한 지반 표면의 함수량 증가로 판별하며,

일 경우 지하수가 유입되거나 하부층의 함수량 증가로 판별하며,

일 경우 층간 함수량이 균일한 것으로서 지반의 안정성을 판별한다. 여기서,

=±0.1이다.According to the groundwater inflow determining section 62,

, It is judged that the rainfall penetrates from the upper part of the ground or the moisture content of the ground surface is increased due to the crack or breakage of the pavement layer.

, It is judged that the groundwater flows in or the water content of the lower layer increases,

, The stability of the ground is determined by assuming that the interlayer moisture content is uniform. here,

= ± 0.1.

The water content comparing unit 64 compares the data Dw related to the water content of the ground stored by the data storage unit 50 with the change in the water content of the corresponding coordinate according to the temporal change of the coordinate data Dc, The posture stability of the ground 220 can be ensured by monitoring whether or not a rapid change in the water content is caused by the portion 66.

10: Electromagnetic wave transmitting /
20: Electromagnetic wave measuring unit
30: Underground data analysis section
40:
50: Data storage unit
60:
62: Groundwater inflow discrimination unit
64:
66: Deterioration discrimination unit
70:
I _O : intensity of incident electromagnetic wave
I: Strength of electromagnetic waves reflected at the interface between air and ground
I ₁ : Strength of electromagnetic waves reflected at the interface between the pavement layer and the ground

Claims (22)

delete An electromagnetic wave transmitting and receiving unit 10 for transmitting and receiving electromagnetic waves to and from the ground surface 220;
An electromagnetic wave measuring unit 20 for measuring the intensity of an electromagnetic wave reflected by the electromagnetic wave transmitted by the electromagnetic wave transmitting and receiving unit 10;
An underground data analysis unit (30) for analyzing the medium data of the ground according to the intensity change of the electromagnetic wave measured by the electromagnetic wave measurement unit (20); And
And a water content calculating unit 40 for calculating the intensity of the electromagnetic wave measured by the electromagnetic wave measuring unit 20 and the water content of the ground based on the medium data analyzed by the underground data analyzing unit 30,
And a data storage unit 50 for storing the data Dw related to the water content of the ground calculated by the water content calculation unit 40 and the data Dd combined with the coordinate data Dc of the ground. Water content measurement system for roads. The apparatus according to claim 2, further comprising a discrimination unit (60) for discriminating whether the groundwater level or the ground subsidence is deteriorated by the data (Dw) about the water content of the ground stored by the data storage unit (50) and the coordinate data (Dc) Further comprising the step of measuring the moisture content of the road surface. delete The system for measuring the moisture content of a road surface according to claim 2, wherein an electromagnetic wave reflection medium material is provided at a certain depth of the ground (220). The system of claim 5, wherein the reflective medium material comprises a metal plate (230). delete delete The method of claim 2, wherein the intensity I of the electromagnetic waves reflected at the interface (220A) between the air and the ground (220) and the intensity of the electromagnetic wave reflected at the interface (230A) between the ground (220) and the metal plate The difference in detection time between the extreme values of the intensity I ₃ of the reflected electromagnetic wave is t, the depth of the ground 220 is d, and the light flux in vacuum is c, the average permittivity

Wherein the water content of the road surface is determined by the following equation. 3. The method according to claim 2, wherein the underground data analysis unit (30) is configured to perform the soil backfill and compaction processes after the metal plate (230) having high reflectance is provided to the ground reference floor subject to compaction in the compaction step, The intensity I ₂ of the electromagnetic waves reflected at the interface 220A between the package layer 210 and the ground 220 and the intensity I ₂ of the electromagnetic waves reflected at the interface 230A between the ground 220 and the metal plate 230 And the average permittivity of the ground (220) is analyzed by a detection time difference (t) between extreme values of the intensity I ₃ of the road surface. The method of claim 2, wherein, after the intensity with respect to made the road compaction process of the ground prior to the formation of the packing layer of the road foundation 220 a is a I _o electromagnetic wave incidence reflection at the interface between the surface layer of the air and the ground 220 And the intensity of the electromagnetic wave incident on the electromagnetic wave transmitting / receiving unit 10 is I, the dielectric constant of the ground

And the soil water content

Wherein the water content of the road surface is determined by the following equation. 12. The system of claim 11, wherein the coefficients A, B, C, and D are constants and are constants determined by the type and relative humidity of the ground medium. 12. The method according to claim 11, wherein A, B, C and D are given as -5.3 x 10 ^-2 , 2.92 x 10 ^-2 , -5.5 x 10 ^-4 and 4.3 x 10 ^-6 , respectively, Water content measurement system of road surface. The method of claim 2, wherein, when packing layer (210) of the road are formed on the ground 220, in a case where the intensity is a I _o electromagnetic wave incidence with respect to the ground (220), I ₁ is air and the packed layer ( I ₂ is the intensity of the electromagnetic waves reflected at the interface 220A between the packaging layer 210 and the ground 220 and the dielectric constant of the ground

And the water content of the road surface is measured by using the following equation. The apparatus according to claim 11, wherein the determining unit (60) determines the average permittivity of the ground (220) analyzed by the ground data analyzer (30)

And the dielectric constant of the ground 220 output by the water content calculating unit 40

Further comprising a groundwater inflow discrimination unit (62) for analyzing the cause of inflow of water to the ground (220) by comparison between the values of the groundwater inflow and the groundwater inflow. The water content comparing unit (64) for comparing the data Dw relating to the water content of the ground stored by the data storage unit (50) and the water content change of the corresponding coordinates according to the temporal change of the coordinate data (Dc) Further comprising the step of measuring the moisture content of the road surface. 12. The method according to claim 11, further comprising a deterioration discrimination unit (66) for discriminating the subsidence of the coordinate when the variation of the water content compared by the water content comparing unit (64) is abrupt system. delete 16. The groundwater inflow determination unit (62) according to claim 15,

, It is judged that the rainfall penetrates from the upper part of the ground or the moisture content of the ground surface is increased due to the crack or breakage of the pavement layer.

, It is judged that the groundwater flows in or the water content of the lower layer increases,

, The stability of the ground is judged by assuming that the interlayer moisture content is uniform,

= 0.1. ≪ / RTI > 15. The method of claim 14,

, It is judged that the rainfall penetrates from the upper part of the ground or the moisture content of the ground surface is increased due to the crack or breakage of the pavement layer.

, It is judged that the groundwater flows in or the water content of the lower layer increases,

Wherein the stability of the ground is determined by assuming that the interlayer moisture content is uniform. delete Receiving an electromagnetic wave as a ground by the electromagnetic wave transmitting / receiving unit (10);
Measuring the intensity of the electromagnetic wave received from the ground with respect to the electromagnetic wave received by the electromagnetic wave transmitting / receiving unit 10 as a function of time;
Calculating a permittivity and an average permittivity of the ground medium according to a variation of an extreme value of the intensity of electromagnetic waves in a time domain; And
And analyzing the moisture content or moisture content distribution of the ground by the dielectric constant or the average permittivity of the ground medium,
Wherein a metal medium for inducing reflection of electromagnetic waves is buried in a reference bottom surface of the ground measured by the electromagnetic wave measuring unit (20).

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