KR101384984B1 - Sampling apparatus for sediments capable of measuring environment conditions of sampling sites and method for analyzing sediments using thereof - Google Patents

Abstract

The present invention relates to a sampling apparatus for sediment samples that samples sediment samples depth by depth with respect to an ocean sediment layer for a geological survey of the sediment layer. According to the present invention, provided is a sampling apparatus for sediment samples capable of measuring the environment conditions of a sampling site that is configured so that information with respect to the environment conditions of the sampling site such as the temperature and pressure at a sampling position can be measured with respect to each of the sediment samples during the depth-specific sampling of the sediment samples with respect to the sediment layer for the geological survey of the ocean sediment layer. In addition, the sediment samples are acquired at each depth along with the information on the environment conditions such as the temperature and pressure at the position, and then analysis is performed during an analysis operation for the samples such as ultrasonic pulse velocity measurement by using the information on the environment conditions at the sampling site with respect to each of the sediment samples. Accordingly, the post-correction of the related art that is performed after a laboratory condition analysis does not have to be performed, and the analysis can be performed with greater accuracy.

Description

Sampling apparatus for sediments capable of measuring environment conditions of sampling sites and method for analyzing sediments using knowledge}

The present invention relates to a sediment sampling device for collecting sediment samples, and more particularly, to a sediment sample collecting device for collecting sediment samples by depth for the sediment in order to investigate the lipids of the marine sediment.

In addition, the present invention, when collecting the sediment samples by depth for the sediment to investigate the lipids of the marine sediment, as described above, for each sediment sample to the environment of the collecting site, such as the temperature and pressure at the collecting position It also relates to a sediment sample collection device capable of environmental measurement of the collection site configured to measure the information.

In addition, the present invention, as described above, for collecting sediment samples capable of environmental measurement of the collection site configured to be able to measure the information on the environment of the collection site, such as temperature and pressure at the collection location for each sediment sample. By using the device, sediment samples are obtained for each depth along with environmental information such as temperature and pressure at the corresponding location, and then analyzed using the environmental information at the collection site for each sediment sample during the sample analysis work. By performing the analysis under laboratory conditions as in the prior art, it is no longer necessary to carry out post-correction, and relates to a sediment sample analysis method configured to enable more accurate analysis.

In general, in order to analyze the characteristics of the sedimentary terrain, such as the sea floor, the sedimentary samples of the terrain are collected by depth, and each such sample is analyzed by using an ultrasonic velocity measurement or the like. Many methods are used to understand the overall characteristics of the system.

Here, as an example of the conventional sediment sampling device as described above, for example, as shown in Korean Patent Registration No. 10-1056355 (2011.08.05.) "Undeposited sediment collecting device and uncondensed using the same Sediment collection method ".

More specifically, the above-mentioned uncollected sediment collecting device of the Patent No. 10-1056355 and the uncollected sediment collecting method using the same, uncollected sediment collecting device and unused using the same for collecting the sample as it is deposited without damage It relates to a method of collecting solid sediment.

To this end, according to the above Patent No. 10-1056355, the upper support means in the form of a square plate; Lower support means in the form of a square plate; A plurality of gap maintaining members disposed vertically between the upper support means and the lower support means to maintain a gap between the upper support means and the lower support means; A sample fixing means installed at an intermediate portion of the gap maintaining member and fixed in a rectangular shape similar to the upper supporting means and the lower supporting means; A sample collecting tube fixed by the sample fixing means; Sample sealing means that is covered in the sample collection pipe; Hydraulic driving means provided between the upper support means and the sample fixing means to generate a driving force for collecting a sample; And pushing means installed in contact with the lower portion of the hydraulic driving means, pushed downward by the hydraulic driving force of the hydraulic driving means, and inserted into the sample collecting pipe to push out unfixed deposits. There is provided an unsolidified sediment collecting device and a method of collecting unsolidified sediment using the same, characterized in that the unsolidified sediment sample is discharged downward while being sealed by the sample sealing means covered by the sample collection pipe covered outside the sample collection pipe.

In addition, as another example of the conventional sediment sampling device as described above, for example, "unfixed sediment automatic collection device and method" as presented in Korean Patent Registration No. 10-1063249 (2011.09.01.) There is this.

More specifically, the above-mentioned undetermined sediment automatic collection device and method of Patent No. 10-1063249, by further improving the above Patent No. 10-1056355, the sample as it is deposited automatically without damage The present invention relates to an automatic device for collecting undetermined sediments and a method of collecting the collected samples automatically.

To this end, according to the above Patent No. 10-1063249, the upper support means in the form of a square plate; A lower support means in the form of a square plate formed in the center portion and installed on the ground; A base unit which is interviewed with a bottom surface of the lower support means, a protrusion having a through hole at a central portion thereof, and installed on the ground; A gap maintaining means vertically interposed between the upper support means and the lower support means to maintain a gap between the upper support means and the lower support means; A fixing means having a quadrangular shape similar to that of the upper support means and the lower support means and installed at an intermediate portion of the gap maintaining means; A sampling tube installed on the ground after passing through the central portion of the lower support means; Hydraulic driving means is provided between the upper support means and the fixing means for generating a driving force for collecting a sample; And it is installed in contact with the lower portion of the hydraulic drive means, pushed downward by the hydraulic drive force of the hydraulic drive means push the sample collection pipe downwards and comprises a push means for inserting into the ground An apparatus for collecting solid sediment automatically and a method thereof are provided.

In addition, as another example of the conventional sediment sampling device as described above, for example, the "vertical sediment sampler" and the Korea as shown in Korean Patent Registration No. 10-1171745 (2012.08.01.) As described in Korean Patent Registration No. 10-1171745 (Aug. 1, 2012), there is a "surface part Buddhism sample for hitting soil sample sampler and sampling method using the same".

More specifically, the sampler of the above-mentioned Patent Nos. 10-1171745 and 10-1171745 registers a distortion phenomenon such as compression or torsion of the sample due to the impact or rotational force when the sample is collected by the deposit sampler. It is intended to provide a sediment sampler that can be sampled while the ground conditions of the site are maintained by preventing occurrence.

As described above, various sediment sample collection apparatuses for collecting sediment samples have been proposed. However, the conventional sediment sample collection apparatuses as described above are mostly focused on collecting samples without damage or damage. However, environmental conditions such as temperature and pressure at the time of sampling were not considered at all.

That is, conventionally, generally, in order to collect a deposit sample, a barrel for forming a borehole in a direction perpendicular to the sea bottom is inserted, and a deposit sample is collected at predetermined depths through the inside of the barrel.

In addition, the sediment sample collected in this way is transported to a laboratory, and each sample is analyzed for ultrasonic velocity measurement or the like to grasp the characteristics of the entire seabed topography.

In order to measure the ultrasonic velocity as described above, information on environmental conditions such as temperature and pressure at the time of measurement is required for each sample.

To this end, in the past, a continuous water temperature was measured by using a water temperature salt depth recorder (hereinafter referred to as 'CTD') at the time of sampling, but the CTD is very expensive and damaged. In general, due to the possibility of being lowered to a position approximately 100m or more from the bottom of the sea floor and not reaching the bottom of the sea floor where the actual sediment sample is collected, most of the actual environmental information about the sediment sample was not obtained. .

Therefore, in the conventional analysis method using the ultrasonic velocity measurement, the measurement is generally performed based on the temperature and pressure conditions of the laboratory in which the ultrasonic measurement is performed and then corrected afterwards. There were many concerns that it was difficult to obtain accurate analysis results.

As described above, the conventional sediment sample collection apparatus is focused on simply collecting a sample without damage, and the sediment sample having a function of measuring and providing a temperature or pressure at a corresponding position during sampling. No sampling device has been proposed, and, accordingly, the conventional sediment analysis method using ultrasonic velocity measurement has a problem that it is difficult to obtain an accurate analysis result because the analysis is performed based on laboratory conditions.

Therefore, as described above, the analysis is performed based on the conventional sediment sample collection device and the laboratory conditions that only have a function of collecting the sample without damage, and solve the problem of the conventional sediment analysis method, which is difficult to obtain accurate analysis results. To this end, sediment sample collection device and sediment sample analysis method configured to collect sediment samples and simultaneously measure each sediment sample's environmental information such as temperature and pressure at the collecting location, etc. Although it is desirable to provide, an apparatus or method that satisfies all such requirements is not provided yet.

[Prior Art Literature]

1. Korea Registered Patent No. 10-1056355 (2011.08.05.)

2. Korean Patent Registration No. 10-1063249 (2011.09.01.)

3. Korean Registered Patent No. 10-1185762 (2012.09.19.)

4. Korean Patent Registration No. 10-1171745 (2012.08.01.)

The present invention is to solve the problems of the prior art as described above, and therefore the object of the present invention, in order to solve the problems of the conventional sediment sample collection device simply by having a function of collecting the sample without damage, sediment It is to provide a sediment sample collection device configured to simultaneously collect the sample and to measure the environmental information of the collection site, such as the temperature and pressure at the collection location for each sediment sample.

In addition, another object of the present invention is to collect, in order to solve the problems of the conventional sediment sample analysis method, which is difficult to obtain accurate analysis results with a high probability of error due to the analysis based on the laboratory conditions and corrected later. The sediment sample analysis method is configured to enable more accurate analysis by analyzing each sediment sample based on the environmental information of the collection site by using the sediment sample collection device configured to measure the environmental information together. It is to provide.

In order to achieve the object as described above, according to the present invention, by having a function of simply taking a sample, the problem of the conventional sample collection device was difficult to obtain accurate analysis results by analyzing the collected sample based on laboratory conditions In order to solve the problem, in the sediment sample collection apparatus capable of measuring the environment of the collecting site configured to collect the sediment sample and simultaneously measure the environmental information of the collection site for each of the sediment samples, A barrel inserted into the deposition layer for Sampling means for collecting the deposit sample through the inside of the barrel; A temperature sensor spaced apart in the longitudinal direction of the barrel on one side of the barrel to measure a temperature for each depth of the deposit sample when collecting the deposit sample; A pressure sensor spaced apart in the longitudinal direction of the barrel on one side of the barrel to measure pressure for each depth of the deposit sample when collecting the deposit sample; Inserting means for inserting the barrel into the deposition layer; And information processing means for storing measured values measured from each of the temperature sensor and the pressure sensor, whereby the plurality of temperature sensors and the pressure sensors are respectively positioned along the longitudinal direction of the barrel to deposit the sample. Provided is a sediment sample collection device capable of measuring the environmental conditions of the collecting site, characterized in that configured to simultaneously measure the temperature and pressure at the time of collection at the same time with the collection of.

Here, the barrel is characterized in that the temperature sensor and the pressure sensor is installed to each of the plurality of required number according to the depth of the deposit sample to be taken to collect the unit barrel formed in a predetermined length unit, characterized in that configured to use .

In addition, the deposit sample collection device, the temperature sensor and the pressure sensor is installed to each of the plurality of unit barrels are formed in a predetermined length unit formed by a predetermined length connected to the required number according to the depth of the deposit sample, so that the It is characterized in that it is configured to increase the convenience of dismantling and storage after the production of the entire sediment sample collection device, transport and installation to the collection site, sampling after installation and completion of the work.

In addition, the deposit sample collection device, by measuring the temperature and pressure at the same time the depth of the sample at the same time with the collection of the sediment sample, to the temperature sensor and the pressure sensor during the analysis of the deposit sample by ultrasonic speed measurement in the laboratory The sediment sample can be analyzed by substituting the temperature and pressure values measured at the sampling site as it is, and the ultrasonic wave velocity measurement and the sediment are more accurate than the conventional sediment sample analysis, in which ultrasonic velocity was measured based on laboratory conditions. It is characterized in that it is configured to enable analysis of the sample.

Furthermore, according to the present invention, it is possible to solve the problem of the conventional sediment sample analysis method, which is difficult to obtain accurate analysis results by analyzing the sample collected by the sediment sample collection device having a function of simply collecting a sample based on laboratory conditions. A method for analyzing sediment samples, comprising: sediment sample collection step of measuring the temperature and pressure at the same time as the depth of the sample at the same time as the collection of the sediment sample using the sediment sample collection device capable of environmental measurement of the sampling site described above; And sediment sample analysis for analyzing the sediment sample by performing an ultrasonic velocity measurement on the sediment sample collected in the sediment sample collection step based on temperature and pressure values for each depth measured together in the sediment sample collection step. Sediment analysis method is provided, characterized in that it comprises a step.

As described above, according to the present invention, there is provided a sediment sample collection device configured to simultaneously collect sediment samples and simultaneously measure environmental information of a collection site, such as temperature and pressure at a collecting position, for each sediment sample. By doing so, it is possible to solve the problem of the conventional sediment sample collection device, which is difficult to obtain accurate analysis results by analyzing the collected sample based on the laboratory conditions simply by having only the function of collecting the sample without damage.

In addition, according to the present invention, by using the sediment sample collection device configured to measure the environmental information of the collection site as described above, the analysis of each sediment sample based on the environmental information of the collection site The sediment sample analysis method is configured to enable more accurate analysis. Therefore, the analysis of the sediment sample analysis method was performed based on the laboratory conditions, and the correction was carried out later. The problem can be solved.

1 is a view schematically showing the overall configuration of the sediment sample collection apparatus capable of environmental measurement of the collecting site according to an embodiment of the present invention.
FIG. 2 is a view schematically showing a specific configuration of a barrel of a sediment sample collection apparatus capable of environmental measurement of a sampling site according to an embodiment of the present invention shown in FIG. 1.
3 is a flowchart schematically showing the overall configuration of a sediment sample analysis method using a sediment sample collection device according to an embodiment of the present invention as shown in FIG.

Hereinafter, with reference to the accompanying drawings, it will be described a specific embodiment of the sediment sample collection device capable of measuring the environment of the collecting site according to the present invention and a sediment sample analysis method using the same.

Hereinafter, it is to be noted that the following description is only an embodiment for carrying out the present invention, and the present invention is not limited to the contents of the embodiments described below.

In the following description of the embodiments of the present invention, parts that are the same as or similar to those of the prior art, or which can be easily understood and practiced by a person skilled in the art, It is important to bear in mind that we omit.

That is, the present invention solves the problems of conventional sediment sample collection devices, which are difficult to obtain accurate analysis results by analyzing collected samples based on laboratory conditions simply by having a function of simply collecting a sample without damage as described below. To this end, the present invention relates to a sediment sample collection device configured to simultaneously collect sediment samples and simultaneously measure environmental information, such as temperature and pressure at a collecting position, for each sediment sample.

In addition, the present invention, in order to solve the problems of the conventional sediment sample analysis method, which is difficult to obtain accurate analysis results with a high probability of error due to the analysis based on the laboratory conditions and corrected later, as will be described later, Sediment sample analysis configured to enable more accurate analysis by analyzing sediment samples based on the environmental information of the collection site by using the sediment sample collection device configured to measure the environmental information of the collection site. It is about a method.

Subsequently, with reference to the accompanying drawings, it will be described a specific embodiment of the sediment sample collection device capable of environmental measurement of the sampling site as described above and the sediment sample analysis method using the same.

First, referring to FIG. 1, FIG. 1 is a view schematically showing the overall configuration of a sediment sample collection apparatus capable of environmental measurement of a sampling site according to an embodiment of the present invention.

More specifically, as shown in Figure 1, the sediment sample collection device 10 capable of environmental measurement of the collecting site according to an embodiment of the present invention, the barrel 11 is inserted into the sediment layer to collect the sediment sample And sampling means 12 for collecting the sediment sample through the interior of the barrel 11, and for measuring the temperature for each depth of the sediment sample during the collection of the sediment sample. A plurality of temperature sensors 13 are installed at a predetermined distance on one side, and a plurality of temperature sensors 13 are installed at one side of the barrel 11 at a predetermined distance to measure the pressure for each depth of the deposit sample when the deposit sample is collected. Information processing for storing the measured values measured from each of the temperature sensor 13 and the pressure sensor 14 and insertion means for inserting the pressure sensor 14 and the barrel 11 into the deposition layer. It is configured, including the above-ground (15) comprising: a stage.

Here, in the embodiment shown in FIG. 1, the present invention is shown by taking the case where the temperature sensor 13 and the pressure sensor 14 are installed outside the barrel 11, but the present invention is limited only to this configuration. In other words, the present invention, it should be noted that the temperature sensor 13 and the pressure sensor 14 may be variously configured as needed, such as may be installed inside the barrel (11). do.

In addition, the barrel 11 is configured such that a plurality of barrels formed in units of a predetermined length are connected as many as necessary, thereby facilitating installation and transportation of the entire deposit sample collection device 10, The sampling operation may be configured to be easier.

More specifically, referring to FIG. 2, FIG. 2 schematically illustrates a specific configuration of the barrel 11 of the deposit sample collecting device 10 capable of environmental measurement at a sampling site according to the embodiment of the present invention illustrated in FIG. 1. It is a figure which shows.

That is, as shown in FIG. 2, the barrel 11 is provided with a temperature sensor 13 and a pressure sensor 14 in the unit barrel 21 formed in units of a predetermined length, respectively, and the depth of the sample to be collected. It can be configured to connect and use as many unit barrels 21 as needed, thereby facilitating the transport and installation from the production to the collection place for the entire deposit sample collection device 10, and at the same time There is an effect that it is easy to remove and store after collecting and finishing work afterwards.

In addition, when using the deposit sample collection device 10 according to an embodiment of the present invention as shown in Figures 1 and 2, in addition to facilitating the sampling operation of the deposit sample, it is formed in a unit of a predetermined length and the temperature sensor 13 The temperature sensor 13 and the pressure sensor 14 are positioned at predetermined depths by the barrel 11 formed by coupling the plurality of unit barrels 21 provided with the pressure sensor 14 and the pressure sensor 14, respectively. Simultaneously with sample collection, temperature and pressure at the time of collection can be measured together by depth.

Further, by using the sediment sample collection device 10 according to the embodiment of the present invention as shown in Figure 1 and 2, by measuring the temperature and pressure at the same time at the same time with the collection of the sediment sample, ultrasonic in the laboratory When analyzing the sample by speed measurement, it is possible to directly substitute the temperature and pressure value at the sampling site, so that it is more accurate than the existing analysis method that performed the ultrasonic speed measurement based on the laboratory conditions. Analysis is possible.

That is, referring to FIG. 3, FIG. 3 is a flowchart schematically showing the overall configuration of the deposit sample analysis method using the deposit sample collection device 10 according to the embodiment of the present invention as shown in FIGS.

As shown in Figure 3, the sediment sample analysis method according to an embodiment of the present invention, first, by using the sediment sample collection apparatus capable of environmental measurement of the sampling site configured as described above with reference to Figs. At the same time, the temperature and pressure at the time of collection are simultaneously measured together with the collection of the sediment sample (step S31).

Next, by performing an ultrasonic speed measurement on the sediment sample collected in the step, based on the temperature and pressure value for each depth measured at the time of collecting the sediment sample, by analyzing the sediment sample (step S32), Based on the laboratory conditions, more accurate analysis can be performed than the conventional analysis method in which the ultrasonic velocity analysis was performed.

Therefore, as described above, it is possible to implement a sediment sample collection device capable of measuring the environment of the collecting site according to the present invention and a sediment sample analysis method using the same.

In addition, according to the present invention by implementing a sediment sample collection device capable of environmental measurement of the collecting site according to the present invention as described above and a sediment sample analysis method using the same, according to the present invention, each sediment sample is collected at the same time By providing a sediment sample collection device configured to measure together the environmental information of the collecting site, such as temperature and pressure at the sampling location, the sample can be collected by simply collecting the sample without damage. Based on the analysis, it is possible to solve the problems of the conventional sediment sampling apparatus, which has been difficult to obtain accurate analysis results.

In addition, according to the present invention, by using the sediment sample collection device configured to measure the environmental information of the collection site as described above, the analysis of each sediment sample based on the environmental information of the collection site The sediment sample analysis method is configured to enable more accurate analysis. Therefore, the analysis of the sediment sample analysis method was performed based on the laboratory conditions, and the correction was carried out later. The problem can be solved.

As described above, the details of the sediment sample collection device and sediment sample analysis method using the same which can measure the environment of the sampling site according to the present invention as described above have been described, but the present invention has been described above. The present invention is not limited only to the contents described in the following, and therefore, various modifications, changes, combinations, and substitutions may be made by those skilled in the art according to design needs and various other factors. It is natural that it is possible.

10. Sediment Sampler 11. Barrel
12. Sampling means 13. Temperature sensor
14. Pressure sensor 15. Above ground level
21. Unit Barrel

Claims (5)

In the sediment sample collection device capable of measuring the environment of the sampling site configured to collect the sediment sample and simultaneously measure the environmental information of the collection site for each of the sediment samples,
A barrel inserted into the sedimentary layer to collect sediment samples;
Inserting means for inserting the barrel into the deposition layer;
Sampling means for collecting the deposit sample through the inside of the barrel;
A temperature sensor spaced apart in the longitudinal direction of the barrel on one side of the barrel to measure a temperature for each depth of the deposit sample when collecting the deposit sample;
A pressure sensor spaced apart in the longitudinal direction of the barrel on one side of the barrel to measure pressure for each depth of the deposit sample when collecting the deposit sample; And
And information processing means for storing the measured values measured from each of said temperature sensor and said pressure sensor,
The barrel,
The temperature sensor and the pressure sensor are respectively installed and configured to connect a plurality of required number according to the depth of the sediment sample to be collected in a unit barrel formed in a unit of a predetermined length to produce, collect the entire sample collection device It is configured to increase the convenience of dismantling and storage after the completion of the work and the sampling work after transportation and installation to the place,
The sediment sample collection device,
A plurality of the temperature sensor and the pressure sensor is positioned along the longitudinal direction of the barrel, respectively, and configured to measure the temperature and pressure at the time of sampling at the same time as the collection of the sediment sample, by the ultrasonic speed measurement Sediment capable of environmental measurement at the collecting site, characterized in that the analysis of the sediment sample is configured by substituting the temperature and pressure value at the sampling site measured by the temperature sensor and the pressure sensor as it is when analyzing the sediment sample. Sample Collection Device.
delete delete delete In the analysis method of the sediment sample,
A sediment sample collection step of measuring the temperature and pressure at the same time by collecting the sediment sample at the same time by using the sediment sample collection device capable of environmental measurement of the collecting site according to claim 1; And
Sediment sample analysis step of analyzing the sediment sample by performing an ultrasonic velocity measurement on the sediment sample collected in the sediment sample collection step, based on the temperature and pressure value for each depth measured together in the sediment sample collection step Sediment analysis method characterized in that it comprises a.

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