KR100879876B1 - The instrumentation apparatus for the settlement of the reclaimed ground or the measure of soil - Google Patents

Abstract

An instrumentation apparatus for the settlement of the reclaimed ground or the measure of soil is provided to measure settlement amount of waste in reclaimed ground and temperature, humidity, acidity, electric conductivity of waste layer soil. An instrumentation apparatus for the settlement of the reclaimed ground or the measure of soil comprises a base(50) arranged in the lower part(S1) of reclaimed ground; a measuring rod(20) extended along the longitudinal direction of a body not to be buried in waste, erected on the base; a board(10) placed on top of waste whenever waste is layered sequentially, penetrated by the measuring rod; and a measuring weight(40) measuring the depth information of each of waste boards, inserted into the measuring rod.

Description

The instrumentation apparatus for the settlement of the reclaimed ground or the measure of soil}

The present invention relates to a measuring device for collectively measuring the information on the sedimentation amount of the waste sequentially buried in the landfill and the temperature, humidity, acidity, and electrical conductivity of the soil of each waste layer.

In general, when soil is deposited in a landfill for civil engineering work for the construction of a site such as a highway, an airport, a port, or an industrial complex, a settlement of the landfill occurs, and it is essential to measure the level of settlement of the landfill. This is because the measured value actually generated at the construction site shows a different value from the designed value.

In addition, soil analysis is performed to determine whether to install each structure according to the composition of each soil of the landfill or whether to construct the structure on the reinforcement.

However, in the related art, such an analysis has a problem of separately measuring measurement structures and measuring devices.

In order to solve the above problems, the present invention is to provide a measuring device for collectively measuring the information on the temperature, humidity, acidity, electrical conductivity of the sedimentation amount of the waste embedded in the landfill and the soil of each waste layer.

In the apparatus and invention which measure the settlement degree of the conventional landfill,

Republic of Korea Invention Patent No. 10-0793696 "waste layer sedimentation measuring instrument of the landfill" is a base interposed on the landfill or soft ground; A beam installed in the base, the receiving space being formed along the longitudinal direction of the body; A plate member formed to receive the beam on one side of the body to be installed adjacent to the beam; A measuring rod which is installed on the plate and whose end portion is vertically positioned in the receiving space of the beam; And installed on the outside of the soft ground, the level of measuring the height of the end of the beam and the measuring rod; provides a waste layer settlement measurement device of a landfill.

The above-described invention is provided with a needle plate provided with a measuring rod on the top of the conventional soft ground, and a needle plate provided with a measuring rod on the upper surface of the waste every time the waste is sequentially buried over a predetermined time It is installed to extend the measuring rod so as not to be buried and the settlement of the measuring rod is measured by using the level installed outside the soft ground after the completion of the filling of the waste, but the measuring rod is distributed and requires much time and manpower, and the measuring rod is bent or damaged. The problem was solved.

Republic of Korea Utility Model Registration No. 20-0373187 "Measurement device that can measure the settlement of the soft ground" is formed integrally with the settlement plate is installed in the ground of the soft ground, the central portion of the upper surface of the settlement plate, A space portion having a spherical shape is formed therein, and one side of the space portion is seated at an open seat and the seat, and is freely rotated, and a bottom shape of the sphere is rotated corresponding to the space of the spherical shape. It has a piece, and extends to the spherical rotating piece is installed in the rod-shaped sinking rod having a predetermined size in the longitudinal direction and spaced apart at a predetermined distance from the sinking plate, a corrugated protective tube for protecting the sinking rod And, the settlement plate is installed at a predetermined distance apart from the vertical distance, a plurality of fixed installation on the outer surface of the corrugated protective tube, the corrugated protection The support prevents the pipe from sinking to the lower part of the soft ground and allows the corrugated protective tube to be perpendicular to the ground, and is inserted into the corrugated protective tube so that the corrugated protective tube is covered by the external pressure of the cover. Reinforcing bar and the inside of the corrugated protective tube is installed to prevent deformation, the sink rod is positioned in the center of the corrugated protective tube, the sink bar is in contact with the inside of the corrugated protective tube Characterized in that it comprises a space pipe for preventing the thing, according to the measuring device is that the needle plate is not vertically settled at regular intervals, even if irregularly settled, so that the needle rod is located in the center of the corrugated protection tube So that the settlement of the soft ground can be accurately measured, and the settlement plate and needle To form a protective tube of the rod-like folds and a non-metallic material that is on the measuring device with the structure and the effect which can reduce the waste of metal material.

However, the above-described inventions have only a problem of measuring a settlement degree of landfill, and using a separate equipment and manpower to analyze the soil layer in the landfill, there is a problem of collecting a sample through the landfill.

In order to solve the above problems, in the present invention, in the landfill (S1) to be buried sequentially over a certain time, the settlement degree of each landfill layer or waste layer (S2) and the soil components of each waste layer (S2) can be measured. To provide a measuring instrument.

The measuring device provided by the present invention includes a base 50 interposed in the lower portion (S1) of the landfill; A measuring rod 20 installed on the base 50; The measuring rod 20 extends along the longitudinal direction of the measuring rod 20 body; A round circular plate 10 having the measuring rod 20 installed therethrough; A measuring weight 40 that is inserted into the measuring rod 20 to perform measurement; And a measuring instrument 30 having the measuring weight 40. Database connection and graph by receiving the temperature, humidity, acidity, electrical conductivity data of the settlement amount of the waste embedded in the bottom of the landfill (S1) and the soil quality of each waste layer (S2) in connection with the measuring device 30 It is composed of a PC 60 that can be converted.

Settlement amount of each waste layer (S2) and the temperature, humidity, acidity, electrical conductivity of the structure for measuring the soil quality of each waste layer (S2), the configuration for measuring the connection to the instrument 30 and the cable 307 Inside the measuring weight 40 is composed of an RFID transmitting and receiving antenna 403, RFID reader 401, induction power transmission unit 402, the measuring rod 20 is a round circle installed to penetrate the center In the plate 10 of the induction power supply unit 104, the microcomputer 103, the RFID transmitting and receiving antenna 105, RFID module 110, which is powered by the induction power transmission unit 402 of the measuring weight 40 ), The temperature sensor 106, the humidity sensor 107, the acidity (PH) sensor 108, the electrical conductivity sensor 109, RFID tag 111, the instrument 30 is a power supply unit 303 , A cable (3) on which the microcomputer 301, the RFID module 305, the KEY input unit 302, the display unit 304, the PC connection unit 308, the cable meter 306, and the measuring weight 40 are attached to the ends. 07).

The measuring device for settlement and soil measurement of the landfill of the present invention has the above-described configuration for the settling amount of each waste layer sequentially buried in the lower part of the landfill, and the temperature, humidity, acidity, and electrical conductivity of the soil of each waste layer. There is an effect that can measure the information in a batch. In addition, by providing the RFID tag of the plate measuring unit in the plate buried with each waste layer, there is an effect having a discrimination of each plate.

When the PC connection unit and the PC in the instrument are connected, data of temperature, humidity, acidity, and electrical conductivity of sedimentation amount and soil quality of each waste layer sequentially buried in the bottom of the landfill can be transmitted to the PC.

The present invention relates to a measuring device for measuring the temperature, humidity, acidity (PH) and electrical conductivity of the sedimentation amount and soil quality of each waste layer (S2) which is sequentially buried in the lower portion (S1) of the landfill.

In general, when soil or waste is deposited in landfills for the construction of highways, airports, harbors, industrial complexes, etc., subsidence of the foundation ground occurs. Therefore, in order to determine whether each structure can be installed or reinforcement and construct the structure thereon, it is essential to measure the level of settlement of the ground and to examine the composition of each soil.

In general, however, the sedimentation level and each soil component test are usually measured by separate equipment.

In order to solve this problem, the present invention has a base 50 using a material such as concrete at the bottom S1 of the landfill, when the waste is sequentially buried, and the base 50 is disposed on the base 50. The measuring rod 20 is installed vertically, and the plate 10 is interposed through the measuring rod 20 in the center of the waste to be buried in succession. In the settlement measuring instrument having a structure in which the plate member 10 is settled together with the settlement,

The plate 10 to be settled according to the settlement of each waste layer (S2) measures the temperature, humidity, acidity, and electrical conductivity of the soil of each waste layer (S2), and the information is settled to the plate 10. An object of the present invention is to provide a measuring device having a structure that is transmitted to the measuring weight 40 of the measuring device 30 to measure the length of the RFID communication.

In order to achieve the above object, the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the overall configuration of the measurement instrument for measuring the settlement and soil quality of the landfill according to the present invention.

In the lower portion (S1) of the reclaimed land through the base 50 made of concrete, the measuring rod 20 is installed on the base (50). The end of the measuring rod 20 is in the shape of a bolt and a nut, and has a structure capable of continuously extending the end. This structure enables a configuration such that the measuring rod 20 is not buried by the continuous embedding of the waste S2 in the landfill S1. The measuring rod 20 may be made of stainless steel or aluminum.

The base 50 may be located at the surface layer of the lower portion S1 of the landfill or the lower portion S1 of the landfill. This is because the measuring rod 20 is installed in a position to be installed on the base 50 without being buried, because the purpose of the base 50 is.

The measuring device of the present invention has a disc-shaped plate 10 having a measuring rod 20 interposed through the center of the waste S2 whenever the wastes S2 are sequentially buried in a predetermined time period. Whenever the waste S2 is settled, the plate 10 is also structured to be settled as well. In other words, the waste (S2) is buried in sequence, and when the submerged by the pressure of the waste (S2) has a structure in which the buried plate 10, such as the waste (S2) also sinks together. The inside of the plate 10 is a plate 102 having a shape having a hole through which the center measuring rod 20 can be penetrated in the center in a round shape so as to be settled like each waste layer S2; And a plate measuring unit 101 capable of measuring soil components of each waste layer S2. The structure of the said board | plate material 10 is shown in FIG. The plate measuring unit 101 is a cylindrical shape having a smaller size than the plate 102 has a cylindrical space portion in the center so that the measuring rod 20 in the center can penetrate the center. The position of the plate measuring unit 101 in the shape of the plate 10 of FIG. 2 may be located at the center lower portion of the plate 102, although the plate measuring unit 101 is located at the center upper portion of the plate 102. The plate 102 of the plate 10 may be made of aluminum or stainless steel, and the plate measuring unit 101 may be made of stainless steel or aluminum or synthetic resin. The plate measuring unit 101 may internally measure the temperature, humidity, acidity (PH), and electrical conductivity of the soil, and transmit this information to the measuring weight 40. Detailed structure and description of the plate measuring unit 101 for having this function will be described later in detail with reference to FIG.

The measuring weight 40 of the measuring instrument 30 is inserted into the measuring rod 20 by hanging on the cable 307. 3 shows the structure of the measuring instrument 30 on which the measuring weight 40 is suspended. The measuring weight 40 descends along the inner space of the measuring rod 20, and the cable meter 306 in the measuring instrument 30 transmits a signal having a length down by the measuring weight 40 to the microcomputer 301 of the measuring instrument 30. The microcomputer 301 converts the signal into length information and displays it on the display unit 304. If the measuring weight 40 is adjacent to the plate 10 of the waste layer (S2), the measuring weight 40 supplies power to the plate 10, the plate 10 is the plate 10 ) Measures the temperature and humidity, acidity, and electrical conductivity of the soil of the waste layer (S2) which is buried and transmits the RFID to the measuring weight 40. The information is transmitted to the RFID module 305 in the meter 30 through the cable 307, the RFID module 305 transmits the information back to the microcomputer 301 in the meter 30, the microcomputer ( The 301 displays the information on the display unit 304 or transmits the information to the PC 60 connected to the PC connection unit 308. In the PC 60, the information is stored in a database, and if necessary, a numerical value may be expressed by a user.

A structure in which the measuring weight 40 performs power transmission and RFID communication to the plate measuring unit 101 by recognizing the vicinity of the plate 10 will be described later in FIG. 6.

Figure 4 shows the measuring rod 20 and the base 50 of the landfill settlement and the measurement device for soil measurement according to the present invention.

The measuring rod 20 is in the form of a round rod of a predetermined length, the inside is empty, so that both ends can be connected to each other, the end is formed in the form of bolts and the other end in the form of nuts. The base 50 is a cylindrical space in which the measuring rod 20 can be placed in the center in a cylindrical shape on the top in a round disc shape so as to vertically fix the measuring rod 20 at the bottom S1 of the landfill. It has the same shape, the material is made of concrete or stainless steel material is not made of corrosion is located in the lower portion (S1) of the landfill is to support the measuring rod 20 so as not to settle down.

5 is a view showing the internal configuration of the measuring device 30 of the measuring device for measuring the settlement of the landfill and soil measurement according to the present invention.

The measuring device 30 includes a power supply unit 303, a microcomputer 301, an RFID module 305, a KEY input unit 302, a display unit 304, a PC connection unit 308, a cable meter 306, and a measurement weight 40. It consists of a cable 307 that hangs at the end.

The measuring weight 40 of the measuring instrument 30 depends on the cable 307 and has a shape that can be lowered through the inside of the measuring rod 20. When the measuring weight 40 descends the inside of the measuring rod 20, the cable meter 306 inside the measuring device 30 supplies the cable 307 of the measuring weight 40 and at the same time the measuring weight 40 Information on whether or not the meter is lowered is notified to the microcomputer 301 inside the measuring device 30. The microcomputer 301 displays this information to the outside through the display unit 304 inside the measuring device 30. The display unit 304 has a general display configuration such as 7-segment or LCD.

Fig. 6 shows an internal configuration diagram of the measuring weight 40 and the plate 10 of the measuring instrument for measuring the soil level of the landfill of the present invention.

The measurement weight 40 is internally configured by an RFID transmission and reception antenna 403, an RFID reader 401, and an induction power transmission unit 402, and is connected to the measuring device 30 by a cable 307. The cable 307 has an RFID transceiver antenna 403, an RFID reader 401, an induced power transmission unit 402 and a microcomputer 301 and an RFID inside the measuring device 30 inside the measuring weight 40 therein. It includes a signal and power cable that is connected to the module 305.

The plate 10 is largely composed of a plate 102 and the plate measuring unit 101, the plate measuring unit 101 is the induced power supplied by the induction power transmission unit 402 of the measuring weight Supply unit 104, microcomputer 103, RFID transceiver antenna 105, RFID module 110, temperature sensor 106, humidity sensor 107, pH (PH) sensor 108, electrical conductivity sensor 109 And an RFID tag 111.

When the measuring weight 40 connected to the end of the cable 307 receives the cable 307 from the cable meter 306, descends into the measuring rod 20, and is adjacent to the plate 10, the measuring weight is measured. Power transmitted from the induction power transmission unit 402 in the weight 40 is transmitted to the induction power supply unit 104 of the plate measuring unit 101, the plate 10 by the supplied power plate measuring unit ( 101. The soil temperature is measured by the temperature sensor 106, the humidity by the humidity sensor 107, the acidity by the acidity sensor 108, the electrical conductivity is measured by the electrical conductivity sensor 109 and the microcomputer 103 Will be signaled. After the microcomputer 103 converts the signal into a measurement value, the microcomputer 103 transmits the signal to the measurement weight 40 using the RFID module 110 and the RFID transmission / reception antenna 105. The RFID transceiver antenna 403 inside the measuring weight 40 receives the measured value and transmits the measured value to the RFID module 305 inside the measuring instrument 30, and the RFID module 305 measures the information. 30 to the microcomputer 301, the microcomputer 301 displays the information on the display unit 304 together with the cable 307 length information of the cable meter 306, or PC connection unit ( Information transfer to the PC 60 is connected to 308.

As an example of detecting that the measuring weight 40 is adjacent to the plate 10, the measuring weight 40 is in a continuous power supply state to the induced power transmission unit 402 of the measuring weight 40. When 40 slowly descends and is adjacent to the plate measuring unit 101 in the plate 10, power is automatically supplied to the induction power supply unit 104 in the plate measuring unit 101, and the plate is supplied by the supplied power. The microcomputer 103 in the measuring unit 101 operates to read signals of the temperature, humidity, acidity, and conductivity sensors 106, 107, 108, and 109, and converts the signals into information of temperature, humidity, acidity, and conductivity. It can be changed and transmitted to the measuring weight 40 through the RFID module 110 and the RFID transmitting and receiving antenna 105.

In another embodiment, the RFID tag 111 provided in the plate 10 and the measurement weight 40 and the plate 10 adjacent to each other by the RFID reader 401 provided in the measurement weight 40 are provided. There is also detection. The measuring weight 40 finds the plate 10 while gradually lowering the inside of the measuring rod 20. When the measuring weight 40 gradually descends and is adjacent to the RFID tag 111 in the plate measuring part 101 of the plate 10, the RFID reader 401 in the measuring weight 40 is the plate measuring part. The RFID tag 111 in the 101 is read and the signal is transmitted to the microcomputer 301 of the measuring instrument 30. The microcomputer 301 stops the falling of the measuring weight 40 suspended from the cable 307 by the cable meter 306, and supplies power to the power induction transmitting part 402 in the measuring weight 40. . When power is delivered to the power induction transmission unit 402 in the measurement weight 40, the power is transferred to the induction power supply unit 402 in the plate measuring unit 101 as induction power, and by the supplied power The microcomputer 103 in the sheet measuring unit 101 operates to read signals of the temperature, humidity, acidity, and conductivity sensors 106, 107, 108, and 109, and converts the signals into temperature, humidity, acidity, and electrical conductivity information. It can be transferred to the measurement weight 40 via the RFID module 110 and the RFID transmitting and receiving antenna 105. In this measuring method, each plate 10 is embedded with the waste, and each plate 10 is assigned an identification number of each plate 10 to the RFID tag 111 of each plate, so that the measuring weight 40 is adjacent to each plate. Make it possible to have an identification of (10). This discrimination can collectively confirm the timing of the landfill of each waste layer (S2) buried together, the presence or absence of unrecognized plates, the settlement and the temperature, humidity, acidity, and electrical conductivity of the relevant plate (10). There is an advantage.

The RFID tag 111 is a passive RFID tag or passive RFID metal tag generally used for a transportation card, even if there is no constant power, it is operated by the power supplied from the RFID reader, so that the life of the semi-research Guaranteed.

In addition, since the power of the plate measuring unit 101 inside the plate 10 is supplied from the outside, there is an advantage of being free in terms of power supply.

The KEY input unit 302 inside the measuring device 30 is an input configuration of a general measuring device that can receive external user input, such as changing the power supply operation and display mode of the measuring device 30.

By using the database secured by the general operation of the measuring device, the user can know the basic temperature, humidity, acidity, and electrical conductivity measurement values for the settlement degree of each waste layer S2 and the soil quality of each waste layer S2. Will be.

In the conventional landfill or soft ground settlement method, a settlement plate made of iron plate or magnet ring is buried underground, and an aluminum tube is buried in the center of the settlement plate, and a settlement plate detection rod connected by a tape measure is inserted into the tube. When the meta scale of the outing machine is in the center, the detection rod is signaled to the embedding position of the needle plate, so the tape measure is stopped from the tape storage drum, and the method of measuring the depth of the needle plate by reading the scale of the tape connected to the detection rod have. However, if the method has iron or rock having magnetic force or magneticity in the embedded waste, there is no sinking plate, but there is a problem that it is recognized as having a sinking plate.

Recognition of the plate material of each waste layer using the RFID communication of the present invention is characterized in that it solves the problem of the method of measuring the settlement amount of the settlement plate by the conventional magnetic force.

Although the measuring device for settlement and soil measurement of the landfill of the present invention measures the measured values of temperature, humidity, acidity and electrical conductivity of the soil, the temperature, humidity, and acidity of the plate measuring unit 101 inside the plate 10 are measured. If the composition of the soil component measuring sensor corresponding to the electrical conductivity sensors 106, 107, 108, and 109 is changed to a component analyzer that the user or worker desires, for example, an organic substance or an effective phosphoric acid component analyzer is added or At the time of replacement, the measurement of the composition of the soil collected in the plate 10 of the waste layer S2 has the effect and advantage that the measurement such as organic matter or effective phosphoric acid is added or replaced.

1 is a view showing the overall configuration of the measurement instrument for measuring the settlement and soil quality of the landfill according to the present invention.

2 is a view showing the degree of settlement of the landfill and the plate material of the measuring device for soil measurement according to the present invention.

3 is a view showing a measuring instrument of the measuring instrument for measuring the settlement of the landfill and soil quality according to the present invention.

4 is a view showing the settlement of the landfill and the measuring rod and the base of the measuring device for soil measurement according to the present invention.

5 is a view showing the internal configuration of the measuring instrument of the measuring instrument for measuring the settlement and soil quality of the landfill according to the invention.

6 is a diagram showing the internal configuration of the measuring weight and the plate of the measuring device for measuring soil settlement and soil measurement according to the present invention.

Explanation of symbols on the main parts of the drawings

DESCRIPTION OF SYMBOLS 10 Plate 20 Measuring rod 30 Instrument 40 Measuring weight 50 Base 60 PC

S1: Lower part of the landfill S2: Waste layer

101: plate measurement unit 102: plate 103: microcomputer 104: induction power supply unit

105: RFID transmitting and receiving antenna 106: temperature sensor 107: humidity sensor 108: pH (PH) sensor

109: conductivity sensor 110: RFID module 111: RFID tag

301: microcomputer 302: key input unit 303: power supply unit 304: display unit

305: RFID module 306: cable meter 307: cable 308: PC connection

401: RFID reader 402: Inductive power transmission unit 403: RFID transmitting and receiving antenna

Claims (1)

A base 50 interposed in the lower portion S1 of the landfill; A measuring rod 20 installed on the base 50; The measuring rod 20 is installed so as not to be buried in the waste along the longitudinal direction of the measuring rod 20 body; A plate 10 interposed in the upper portion of the waste each time the measuring rod 20 penetrates the center and each waste is buried sequentially; In the measurement instrument of the waste settled with a measuring rod (20), the measuring weight 40 to be able to measure the depth information on the plate 10 of each waste, The measuring weight 40 is an RFID transceiver antenna 403; An RFID reader 401; Induction power transmission unit 402; the internal configuration is connected to the measuring instrument 30 and the cable 307, The round plate 10 is installed in the measuring rod 20 through the center is composed of a plate measuring unit 101; and the plate 102; the inside of the plate measuring unit 101 is induced power An induction power supply unit 104 that is powered by the transfer unit 402; Microcomputer 103; RFID transmit and receive antenna 105; RFID module 111; Temperature sensor 106; Humidity sensor 107; PH (PH) sensor 108; An electrical conductivity sensor 109; RFID tag 110; is composed of, The measuring device 30 includes a power supply unit 303; The microcomputer 301; RFID module 305; A KEY input unit 302; A display unit 304; PC connection 308; Cable meter 306; Measuring instrument 40 is a measurement device for measuring the settlement of the landfill and the soil quality consisting of;

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