KR101557339B1 - Apparatus and method for measuring moisture of soil, method for testing sensor of measuring moisture of soil using the same - Google Patents

Abstract

The present invention includes a soil sample (100) having a plurality of insertion member insertion holes (101) formed along a height direction thereof and having a soil sample for measuring moisture content therein; A plurality of cutting member insertion grooves 221 for insertion of the cutting member 300 are formed so as to be inserted into the insertion member insertion hole 101 so as to take a sample of a predetermined volume and at the same time, The present invention relates to an apparatus for measuring moisture content of a soil based on volume and a method for measuring moisture content of a soil using the same, The moisture content of the soil is measured by a weight method based on the moisture content and the volume of the soil, and the moisture content of the soil is compared to verify the performance of the sensor and to improve the accuracy and reliability of the soil moisture measurement value.

Description

TECHNICAL FIELD [0001] The present invention relates to an apparatus for measuring moisture content of a soil based on volume, a method for measuring moisture content of soil using the same, and a method for verifying moisture content of a soil moisture sensor. THE SAME}

The present invention relates to a civil engineering field, and more particularly, to an apparatus for measuring moisture content of a soil based on volume, a method for measuring moisture content of soil using the same, and a method for verifying moisture content of soil.

Generally, a soil moisture analyzer is used to measure the amount of water contained in the soil.

Conventionally used soil moisture measuring apparatus is used in a method of measuring moisture by inserting a measuring device having a plurality of sensors attached in the height direction into the surface layer of the soil in order to measure the moisture of the soil at the depths of the multiple layers.

Figs. 1 and 2 show a conventional soil moisture measurement apparatus 10a, 10b.

However, in a conventional soil moisture measuring apparatus, when the depth of a soil is relatively deep or when a large number of soil moisture having different depths are measured, the accuracy of the sensor may deteriorate.

In addition, the conventional soil moisture measuring apparatus has a problem that the accuracy of the measured value is low due to unevenness of contact area between the measuring apparatus and the soil, disturbance of the soil, and the like.

In spite of the above-mentioned problems, there is no conventional method of verifying the performance of the soil moisture measurement apparatus, that is, a method of confirming the sensor uncertainty for determining whether each of the plurality of sensors attached in the height direction operates properly.

Therefore, there is a problem that the reliability of measured values measured by a conventional measuring apparatus is low.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method of measuring the moisture content of soil, , A device for measuring the moisture content of a soil on the basis of volume which improves the accuracy and reliability of the soil moisture measurement value, a method for measuring the moisture content of the soil using the same, and a method for verifying the moisture content of the soil sensor .

In order to solve the above-mentioned problems, the present invention provides a soil-water treatment apparatus, comprising: a soil tank (100) having a plurality of insertion member insertion holes (101) formed along a height direction thereof with a soil sample for measuring moisture content therein; A plurality of cutting member insertion grooves 221 for insertion of the cutting member 300 are formed so as to be inserted into the insertion member insertion hole 101 to take a sample of a predetermined volume, And an insertion member (200) for measuring the water content of the soil.

The insertion member 200 includes a front end 210 inserted into the insertion member insertion hole 101 to fill the disturbance region of the sample. An intermediate portion 220 coupled to the rear of the front end 210 and formed with the plurality of cutting member insertion grooves 221 to collect a sample of a predetermined volume; And a rear end 230 coupled to the rear of the intermediate portion 220.

The intermediate portion 220 is formed to have a smaller diameter than the diameter of the front end portion 210 and the rear end portion 230 so that the front portion and the rear portion are inserted into the front end portion 210 and the rear end portion 230, respectively, And a protrusion 222 protruding to a predetermined length.

The insertion member 200 is preferably a cylindrical structure.

The cutting member 300 includes a plate member 310; A cutting edge formed on both sides of the plate member 310 so as to be inserted into the cutting member insertion groove 221 and a lower end formed with a blade having a curved structure so as to correspond to the bottom surface of the insertion member 200, The cutting insert insertion groove 221 is formed in the upper portion of the front and rear portions of the intermediate portion 220 so as to correspond to the structure of the blade forming portion 320, .

Preferably, a plurality of insertion stoppers 110 are installed in the housing 100 so as to close the plurality of insertion member insertion holes 101, respectively.

The control unit 100 may further include a support 120 formed at a lower portion thereof to support a measurement sensor 400 inserted in a height direction to measure a moisture content along a height direction of the sample.

The present invention is a method for measuring the moisture content of a soil based on the volume using the apparatus for measuring moisture content of the soil, comprising the steps of: preparing a soil sample; A sample filling step to fill the sample; A sample collecting step of inserting the insertion member 200 into the insertion member insertion hole 101 to fill the sample therein and then removing the insertion member 200 from the insertion member insertion hole 101; Removing the insertion member (200) by inserting the cutting member (300) into the cutting member insertion groove (221) so as to take a sample of a certain volume; A weight measuring step of measuring the weight of the sample filled in the separated insertion member 200; A sample drying step of drying the sample filled in the separated insertion member 200; And measuring a moisture content and a moisture content of the dried sample to measure the mass of the dried sample. The present invention also provides a method for measuring the moisture content of a soil.

The insertion member 200 includes a front end 210 inserted into the insertion member insertion hole 101 and configured to be filled with a disturbance region of the sample; An intermediate portion 220 coupled to the rear of the front end 210 and formed with the plurality of cutting member insertion grooves 221 to collect a sample of a predetermined volume; And a rear end 230 coupled to the rear of the intermediate portion 220.

The step of separating the insertion member 200 includes the steps of inserting the cutting member 300 into the cutting member insertion groove 221; Separating the front end portion 210, the middle portion 220, and the rear end portion 230, respectively; Removing the cutting member (300) from the cutting member insertion groove (221); And inserting the middle portion 220 of the inserted insertion member 200 into the sample container.

The sampling step includes coupling the front end 210, the middle part 220 and the rear end 230; A taping step of attaching the tape 20 to the mating surfaces of the front end portion 210, the middle portion 220 and the rear end portion 230; Inserting the insertion member (200) into the insertion member insertion hole (101); And cutting the tape (20) after the step of inserting the cutting member (300), characterized by further comprising the step of removing the insertion member (200) from the insertion member insertion hole desirable.

In the sample drying step, a sample filled in the separated insertion member 200 is put into a sample container and dried in a drying oven; Removing the sample filled in the separated insertion member (200) from the drying oven and cooling in a desiccator having an active desiccant; Measuring a mass after removing the sample filled in the separated insertion member 200 from the desiccator; Repeating the steps of drying in the drying oven, cooling in a desiccator and measuring the mass; And repeating the steps until the difference between the measured masses is less than 0.1%, and then calculating a water content of the dried sample.

In the sample filling step, it is preferable that the sample is filled in the to-be-measured object 100 and then the upper part of the to-be-measured object 100 is covered with a cover 130 formed of a material capable of moistening.

The present invention is a verification test method of a moisture content sensor of a soil using the method of measuring the moisture content of the soil based on the volume of the soil. The method of the present invention is characterized in that, after the sample filling step and before the sampling step, The moisture content of the sample measured through the measurement sensor 400 and the moisture content of the sample after the measurement of the moisture content of the dried sample are measured using the measurement sensor 400 for measuring the moisture content of the dried sample, And comparing the water content of the soil with the moisture content of the soil.

The measurement sensor 400 includes a bar 410 inserted in a height direction of the toe 100; And a plurality of sensor portions 420 spaced apart from each other along the height direction of the rod portion 410 to measure moisture contents of different layers along the height direction of the sample.

The present invention relates to a method and apparatus for verifying the performance of a sensor by comparing the moisture content of the soil measured by a gravimetric method based on the moisture content and volume of the soil measured by the sensor and improving the accuracy and reliability of the soil moisture measurement value This paper presents an apparatus for measuring the moisture content of soils based on volume, a method for measuring the water content of the soil using the same, and a method for verifying the moisture content of the soil.

1 is a sectional view showing an installation state of a first embodiment of a conventional soil moisture measuring apparatus.
2 is a perspective view of a second embodiment of a conventional soil moisture measurement device.
FIG. 3 to FIG. 6 illustrate an apparatus for measuring the moisture content of a soil based on the volume according to the present invention,
3 is a front view of one embodiment.
4 is an exploded perspective view of the insertion member;
Fig. 5 is a front view showing the engaged state of the cutting member and the insertion member; Fig.
Figure 6 is a front view of one embodiment of a tojo.
FIGS. 7 to 15 illustrate a method for measuring the moisture content of a soil according to the present invention and a method for verifying a moisture content of the soil,
Fig. 7 is a perspective view showing the step of joining the front end portion, the middle portion and the rear end portion, and the taping step. Fig.
8 is a perspective view showing a measurement step using a measurement sensor;
9 is a perspective view showing a step of inserting an insertion member.
10 is a perspective view showing a sample collecting step.
11 is a perspective view showing a step of separating the insertion member.
12 is a perspective view showing a step of cutting a tape.
13 is a perspective view showing a step of separating the insertion member;
14 is a perspective view showing a step of removing a cutting member;
15 is a perspective view showing a step of inserting an intermediate portion into a sample container.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3, the apparatus for measuring the moisture content of soil according to the present invention is characterized in that a soil sample for measuring moisture content is filled in the soil, and a plurality of insertion member insertion holes 101 are formed along the height direction, (100); A plurality of cutting member insertion grooves 221 for insertion of the cutting member 300 are formed so as to be inserted into the insertion member insertion hole 101 so as to take a sample of a predetermined volume and at the same time, And a member (200).

That is, the soil moisture measuring apparatus proposed in the present invention is an apparatus for measuring the water content of a soil according to a volume-based gravimetric method and is proposed to verify the performance of a conventional measuring apparatus for measuring the water content of soil by a sensor .

In other words, since the conventional soil moisture measuring apparatuses 10a and 10b do not have a method for verifying whether or not each of the sensors is operating correctly in measuring a plurality of soil moisture with different depths, The present invention provides a soil moisture measuring apparatus of the present invention.

Therefore, the values measured by the conventional measuring devices 10a and 10b for measuring the moisture of the soil by the sensor and the values measured by the weight measuring method based on the volume of the soil moisture measuring device proposed by the present invention The performance of the sensor can be verified.

Thus, the effect of improving the accuracy and reliability of the soil moisture measurement value can be obtained.

Here, the water content of the soil based on the volume means the ratio of the volume of water evaporated in the soil dried at 105 ° C and the original volume of the soil.

Also, the water content by volume means a value obtained by dividing the volume of water evaporating from the soil by the initial volume of the soil when dried at a constant mass at 105 ° C.

That is, after a soil sample of a certain mass collected using the soil moisture measuring apparatus of the present invention is dried at 100 to 110 ° C, the water content is calculated by measuring the difference in mass before and after drying of the soil sample.

And the volume-based moisture content is calculated using individual measurements of the dry bulk density.

3, the apparatus for measuring the moisture content of soil according to the present invention comprises a soil sample 100 filled with a soil sample for measuring moisture content, an insertion member 100 inserted into the soil sample 100, (200).

The insertion member 200 is horizontally inserted into the soil 100, where disturbance of the soil occurs due to friction between the soil and inhomogeneous grain size.

The soil where pore generation and disturbance occur is mostly concentrated at the front end of the insertion member 200, and when such a soil is included in the measurement range, it causes an error.

Therefore, in the present invention, the cutting member insertion groove 221 is formed in the insertion member 200 to remove the error region and only the soil of the safe region can be taken, and by inserting the cutting member 300 therein, A structure is shown in which a part of the insertion member 200 filled with the soil in the safe area can be cut (FIGS. 4 and 5).

Through this structure, it is possible to improve the accuracy of the water content measurement by removing the disturbance area of the soil and extracting only the soil of the safe area.

In addition, as described above, it is possible to collect a soil sample of a constant volume through the structure in which the cutting member insertion groove 221 is formed in the insertion member 200 beforehand, thereby maximizing the accuracy of the measurement value.

More specifically, the insertion member 200 of the present invention is inserted into the insertion member insertion hole 101 to be coupled to the rear end of the front end 210 and the front end 210 formed to fill the disturbance region of the sample, A middle portion 220 formed to receive a sample of a predetermined volume and a rear end portion 230 coupled to a rear portion of the intermediate portion 220 4).

That is, the disturbance region of the soil described above is concentrated at the front end portion 210 where the insertion member 200 is first inserted into the soil 100 and is in contact with the soil. Therefore, the front end portion 210 and the rear The end portion 230 is cut to collect only the soil of the intermediate portion 220 which is a safe region.

In addition, since the cutter member inserting groove 221 is formed in the intermediate portion 220, it is possible to collect a soil sample of a constant volume at all times, thereby improving the accuracy of measurement results.

It is preferable that the front end portion 210, the intermediate portion 220, and the rear end portion 230 are fitted together to facilitate assembly and disassembly.

A protrusion 222 having a smaller diameter than the diameter of the front end 210 and the rear end 230 is formed so that the front and rear portions of the intermediate portion 220 are inserted into the front end portion 210 and the rear end portion 230, (See Fig. 4).

Further, the insertion member 200 is structurally suitable to be inserted into the to-be-made body 100 having a cylindrical structure.

In order to effectively cut the insertion member 200 having such a cylindrical structure, it is preferable that the cutting member 300 has the following structure.

The cutting member 300 is formed to protrude downward on both sides of the plate member 310 and the plate member 310 so as to be inserted into the cutting member insertion groove 221 and to correspond to the bottom surface of the insertion member 200 And a blade forming portion 320 formed with a blade having a curved structure.

The cutting insert groove 221 is formed in a long and long shape at a predetermined depth in the front and rear portions of the intermediate portion 220 so as to correspond to the structure of the blade forming portion 320 (FIG. 5) .

Through such a structure, a soil sample of a constant volume can be always collected, and the cutting member 300 is brought into close contact with the bottom surface of the insertion member 200 formed in a cylindrical structure, so that the cutting operation is more effectively performed There is an advantage that it can be.

In addition, in the measuring apparatus of the present invention, it is preferable from the structural and economic point of view that the toaster 100 is made of a plastic tube, and a plurality of insertion stoppers 110 are installed so as to close a plurality of insertion member insertion holes 101 (Fig. 6).

It is preferable that the support 120 is formed at the lower part of the substrate 100 so as to support the measurement sensor 400 inserted in the height direction of the substrate 100 in order to measure the moisture content along the height direction of the sample ).

Next, a method of measuring the moisture content of the soil based on the volume using the apparatus for measuring moisture content of the soil of the present invention will be described.

First, the soil samples shall be prepared by preparing the soil samples or the standard yarns of Jumunjin, applying the water, and mixing them.

The prepared sample is filled into the inside of the toasting tank 100 while being divided so as to be maximally consolidated.

Here, the maximum consolidation means consolidation of 50 times manually with a SUS-made cylindrical rod having 24 mm of R, 500 mm of L, and a weight of about 1 kg.

After all the sample is filled in the inner space of the tank 100, the sample is covered with the lid member 130 formed of a material capable of moisture retention and is left in a natural state for a predetermined period of time.

Next, the insertion member 200 is inserted through the insertion member insertion hole 101 formed in the base plate 100 to fill the sample therein, and then the sample is taken out from the insertion member insertion hole 101 (Figs. 9 and 10).

Basically, it is preferable to collect a sample from a sample located at the upper end of the sample tank 100.

The reason for this is that, when the sample is sampled, the sample in the sample tank 100 collapses to eliminate the influence of sampling of the other sample.

It is also preferable to collect the sample rapidly so that the moisture does not change in the sample.

As described above, the present invention provides a structure in which the insertion member 200 is formed of the front end portion 210, the middle portion 220, and the rear end portion 230.

In this structure, the above sampling step is performed as follows (Fig. 7).

The tape 20 is attached to the mating surfaces of the front end portion 210, the middle portion 220 and the rear end portion 230 after the front end portion 210, the middle portion 220 and the rear end portion 230 are coupled to each other. A taping step is performed.

Here, the taping step is performed to prevent separation of the insertion member 200 when pressure is applied thereto.

The tape 20 may be of any type satisfying the above function, but it is preferable from the viewpoint of function to use a camptotape (KAPTON-TAPE).

The length of the tape 20 is preferably longer than the length of the insertion member 200 to be inserted into the tape groove 100.

After the taping step, the insertion member 200 is inserted into the insertion member insertion hole 101, and the insertion member 200 is removed from the insertion member insertion hole 101 when the sample is filled.

After the sampling step, a step of inserting the cutting member 300 into the cutting member insertion groove 221 and separating the insertion member 200 is performed so that a sample of a certain volume can be collected (FIGS. 11, 12, 13,14).

In the step of separating the insertion member 200, first, a step (FIG. 11) of inserting the cutting member 300 into the cutting member insertion groove 221 is performed.

Here, after inserting the cutting member 300, a step of cutting the tape 20 is performed (FIG. 12).

13) of separating the front end portion 210, the intermediate portion 220 and the rear end portion 230 from each other, the step of removing the cutting member 300 from the cutting member insertion groove 221 (Fig. 14) (FIG. 15) of inserting the intermediate portion 220 into the sample container among the separated insertion members 200 is performed.

A weight measurement step of measuring the weight by inserting the sample filled in the insertion member 200 thus separated into a watertight sample container is performed (FIG. 15).

Next, after the sample filled in the separated insertion member 200 is dried, the mass and moisture content of the dried sample for measuring the mass of the dried sample are measured.

The above sample drying step is concretely as follows.

First, the sample filled in the separated insertion member 200 is dried in a drying oven at 100 to 110 ° C for at least 16 hours or more.

Once removed from the drying oven, cool the sample in a desiccator with an active desiccant and measure the mass of the dry sample with a precision scale.

After further drying for another 4 hours, the mass is determined in the same manner and the difference in sample mass is checked.

This procedure is repeated until the difference in sample mass is less than 0.1%, and the dry mass of the sample is checked and the water content of the sample is calculated.

As described above, the method for measuring the water content of the soil of the present invention is a method for verifying the certainty of the method for measuring the water content of the soil by the sensor.

Therefore, the following steps are added to compare the above measured value with the measured value by the sensor.

A measurement step using a measurement sensor 400 for measuring the moisture content of the sample through the measurement sensor 400 is performed before the sample is collected by inserting the insertion member 200 after the sample is filled in the sample tank 100 .

The measurement sensor 400 includes a bar 410 inserted in the height direction of the trough 100 and a tilt sensor 410 for measuring the moisture content of the different layers along the height direction of the sample, And a plurality of sensor portions 420 formed at mutually spaced intervals along the circumferential direction (FIG. 6).

Through this measurement sensor 400, the output value of the sensor of the depth of the sample is measured using the dedicated equipment.

Then, after the mass and moisture content of the dried sample are measured by the measuring device of the present invention, the moisture content of the sample measured through the measurement sensor 400 is compared with the moisture content of the dried sample to prepare a test report, Confirm reproducibility.

In addition, the measurement sensor (400) and the comparative sensor are put in the temperature chamber, and the soil temperature is tested by repeating the test while increasing or decreasing the temperature.

A test report is prepared by comparing the temperature measured by the measuring sensor 400 with the comparative sensor, and the reproducibility is confirmed by repeating the test.

The soil water content can be calculated by substituting the measured value by the above method into the following equation (1).

는 물의 밀도, V는 삽입부재의 부피를 의미한다.That is, Equation 1 is a formula for calculating the water content of the soil based on volume, where ø is the water content by total volume, m1 is the wet soil mass, m2 is the dry soil mass,

Is the density of water, and V is the volume of the insertion member.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

10: conventional soil moisture content measuring apparatus 20: tape
100: Strap 101: Insertion member insertion hole
110: insert ball cap 120:
130: lid member 200: insertion member
210: front end portion 220: middle portion
221: cutting member insertion groove 222: protrusion
230: rear end 300: cutting member
310: plate member 320: blade forming part
400: Measuring sensor 410:
420:

Claims (15)

delete A soil sample 100 filled with a soil sample for measuring the moisture content therein and having a plurality of insertion member insertion holes 101 formed along the height direction thereof;
A plurality of cutting member insertion grooves 221 for insertion of the cutting member 300 are formed so as to be inserted into the insertion member insertion hole 101 to take a sample of a predetermined volume, And an insertion member (200)
The insertion member (200)
A front end 210 inserted into the insertion member insertion hole 101 to fill the disturbance region of the sample;
An intermediate portion 220 coupled to the rear of the front end 210 and formed with the plurality of cutting member insertion grooves 221 to collect a sample of a predetermined volume;
A rear end portion 230 coupled to the rear portion of the intermediate portion 220;
Wherein the volume of the soil is in the range of from about 1 to about 10 times the volume of the soil. 3. The method of claim 2,
The intermediate portion 220
The front end 210 and the rear end 230 are formed with diameters smaller than the diameter of the front end 210 and the rear end 230 so that the front and rear portions are inserted into the front end 210 and the rear end 230, respectively. 222);
Wherein the water content of the soil is measured by the volume of the soil. delete A soil sample 100 filled with a soil sample for measuring the moisture content therein and having a plurality of insertion member insertion holes 101 formed along the height direction thereof;
A plurality of cutting member insertion grooves 221 for insertion of the cutting member 300 are formed so as to be inserted into the insertion member insertion hole 101 to take a sample of a predetermined volume, And an insertion member (200)
The insertion member 200 has a cylindrical structure,
The cutting member (300)
A plate member (310);
A cutting edge formed on both sides of the plate member 310 so as to be inserted into the cutting member insertion groove 221 and a lower end formed with a blade having a curved structure so as to correspond to the bottom surface of the insertion member 200, 320, < / RTI >
The insertion member (200)
A front end 210 inserted into the insertion member insertion hole 101 to fill the disturbance region of the sample;
An intermediate portion 220 coupled to the rear of the front end 210 and formed with the plurality of cutting member insertion grooves 221 to collect a sample of a predetermined volume;
And a rear end 230 coupled to the rear of the intermediate portion 220,
The cutting member insertion groove 221
The apparatus for measuring the moisture content of soil according to claim 1, wherein a depth of the soil is set to a predetermined depth at an upper portion of a front portion and a rear portion of the middle portion (220) so as to correspond to the structure of the blade forming portion (320). delete A soil sample 100 filled with a soil sample for measuring the moisture content therein and having a plurality of insertion member insertion holes 101 formed along the height direction thereof;
A plurality of cutting member insertion grooves 221 for insertion of the cutting member 300 are formed so as to be inserted into the insertion member insertion hole 101 to take a sample of a predetermined volume, And an insertion member (200)
The toaster 100
A support 120 formed below to support the measurement sensor 400 inserted in the height direction to measure the moisture content along the height direction of the sample;
Wherein the water content of the soil is measured by the volume of the soil. A method for measuring the water content of a soil based on volume using the apparatus for measuring moisture content of a soil according to any one of claims 2, 3, 5, and 7,
A sample filling step of preparing a soil sample and filling a sample in the inside of the toast 100 provided with the measurement sensor 400 in the height direction;
A sample collecting step of inserting the insertion member 200 into the insertion member insertion hole 101 to fill the sample therein and then removing the insertion member 200 from the insertion member insertion hole 101;
Removing the insertion member (200) by inserting the cutting member (300) into the cutting member insertion groove (221) so as to take a sample of a certain volume;
A weight measuring step of measuring the weight of the sample filled in the separated insertion member 200;
A sample drying step of drying the sample filled in the separated insertion member 200;
Measuring the mass and moisture content of the dried sample to measure the mass of the dried sample;
Wherein the water content of the soil is in the range of 1 to 10% by weight. 9. The method of claim 8,
The insertion member (200)
A front end 210 inserted into the insertion member insertion hole 101 to be filled with the disturbance region of the sample;
An intermediate portion 220 coupled to the rear of the front end 210 and formed with the plurality of cutting member insertion grooves 221 to collect a sample of a predetermined volume;
A rear end portion 230 coupled to the rear portion of the intermediate portion 220;
≪ / RTI > The method of claim 1, wherein the soil is water. 10. The method of claim 9,
The step of separating the insertion member (200)
Inserting the cutting member (300) into the cutting member insertion groove (221);
Separating the front end portion 210, the middle portion 220, and the rear end portion 230, respectively;
Removing the cutting member (300) from the cutting member insertion groove (221);
Placing the middle part 220 of the inserted insertion member 200 into the sample container;
≪ / RTI > The method of claim 1, wherein the soil is water. 11. The method of claim 10,
The sample collection step
Coupling the front end 210, the middle portion 220 and the rear end 230;
A taping step of attaching the tape 20 to the mating surfaces of the front end portion 210, the middle portion 220 and the rear end portion 230;
Inserting the insertion member (200) into the insertion member insertion hole (101);
Removing the insertion member (200) from the insertion member insertion hole (101);
≪ / RTI &
After the step of inserting the cutting member 300,
Cutting the tape (20);
Wherein the water content of the soil is measured on a volume basis. 10. The method of claim 9,
The sample drying step
Placing the sample filled in the separated insertion member 200 into a sample container, and drying the same in a drying oven;
Removing the sample filled in the separated insertion member (200) from the drying oven and cooling in a desiccator having an active desiccant;
Measuring a mass after removing the sample filled in the separated insertion member 200 from the desiccator;
Repeating the steps of drying in the drying oven, cooling in a desiccator and measuring the mass;
Repeating the steps until the difference in measured masses is less than 0.1%, and then calculating the moisture content of the dried sample;
≪ / RTI > The method of claim 1, wherein the soil is water. 9. The method of claim 8,
The sample filling step
The method according to claim 1, wherein the soil is covered with a lid member (130) made of a material capable of moisturizing the upper part of the soil (100) after the sample is filled in the soil (100). A method for validating a moisture content sensor of a soil using the method for measuring the water content of a soil based on the volume of the soil according to claim 8,
After the sample filling step and before the sampling step,
A measurement step using a measurement sensor 400 for measuring a moisture content of the sample through the measurement sensor 400;
Further,
After the step of measuring the mass and moisture content of the dried sample,
Comparing the moisture content of the sample measured through the measurement sensor 400 with the moisture content of the dried sample;
Wherein the moisture content of the soil is measured by the sensor. 15. The method of claim 14,
The measurement sensor 400
A bar 410 inserted in the height direction of the toe 100;
A plurality of sensor portions 420 spaced from each other along the height direction of the rod portion 410 so as to measure moisture contents of different layers along the height direction of the sample;
Wherein the water content of the soil is measured by the sensor.

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