KR101435936B1 - a dual sensor and measuring system using dual sensor - Google Patents

Abstract

The present invention is characterized in that a plurality of first and second sensor units, each consisting of a sensor block and a cable connected to the sensor block, are disposed along the circumferential direction on the inside of the housing, and the first and second sensor units are connected to the housing The sensor block is connected to the sensor block through a communication means so as to allow wired or wireless communication with the reader, and when the first sensor unit is disposed on one side of the housing, Two sensor units are arranged in the first and second sensor units, and the first and second sensor units are disposed at different positions in the same or different directions.

Description

[0001] The present invention relates to a dual sensor and a measuring system using the dual sensor,

The present invention is characterized in that a plurality of first and second sensor units, each consisting of a sensor block and a cable connected to the sensor block, are disposed along the circumferential direction on the inside of the housing, and the first and second sensor units are connected to the housing The sensor block is connected to the sensor block through a communication means so as to allow wired or wireless communication with the reader, and when the first sensor unit is disposed on one side of the housing, The present invention relates to a dual sensor capable of measuring a direction and a deformation amount of a deformation in a configuration in which two sensor units are disposed on a same line or in a circumferential direction, will be.

Generally, in excavation of tunnels and other large civil engineering work sites, the composition and soil conditions of the ground and rock are different for each topography of the place where construction is intended. Therefore, The accuracy and accuracy of the measuring instruments used in the project will have a considerable effect on the civil engineering work.

The displacement gauge is formed by forming a housing holder and a displaceable rod holder which can be fixed to the outer surface of the housing and the outer wall surface of the building structure at the end of the displacement rod, And the cracks are measured, and the displacement gauge is transmitted to the vibrating gauge through the displacement rods and measured according to the change of the external environment.

1, the applicant of the present invention has proposed a displacement amount measuring apparatus in Japanese Patent No. 1149817. The structure of the displacement amount measuring apparatus is composed of a cable 100 and a sensor block 200, And the sensor block 200 includes a piston 210 connected to the cable 100 and a sensor unit 250 connected between the piston 210 and the sensor block 200 And the cable 100 is connected to one end via a tension sensing unit 140. [

The piston 210 is further provided with a sealing member 215 around which a connection bar 217 elastically exposed through a spring to one side of the sensor block 200 is integrally connected, The block 200 is connected to an RF transmission / reception unit or a signal cable 350.

However, in the displacement amount measuring sensor as described above, since each displacement meter is separately installed, the structure for connecting the displacement meters is complicated, and measurement is performed only by one displacement meter fixed to the ground, It is impossible to measure the direction of the vehicle.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a method and apparatus for measuring a direction and a deformation amount of a deformation, It is possible to measure the deformation of a desired position at a remote location and to measure the deformation direction of the deformation and other behaviors of a structure or a structure in a dual Sensor and a measurement system using the same.

In order to achieve the above-described object, a first sensor unit and a second sensor unit, each including a sensor block and a cable connected to the sensor block, are separately arranged along the circumferential direction on both sides of the inner surface of the housing, The sensor block and the cable are connected to the housing while cables having different lengths are connected to the sensor block, the communication block is connected to the sensor block so as to perform wired or wireless communication with the reader, The present invention provides a dual sensor in which the second sensor unit is disposed on the other side when the one sensor unit is disposed, and the second sensor unit is continuously disposed on the same horizontal line or in the circumferential direction of the housing.

In addition, the present invention can be applied to a system in which one or more dual sensors are connected through a coupling having coupling means to form one unit measuring instrument, and a plurality of unit measuring instruments are installed at a measuring position, System.

In addition, the sensor block of the present invention is given a unique ID, and the communication means is composed of a combination of a microcomputer and a communication module, and the communication module is a wireless communication module selected from RFID, Bluetooth, And a measurement system using a dual sensor selected from a serial port to be installed.

In addition, the present invention provides a measurement system using a dual sensor that is installed so that the reader can perform the role of the repeater and can be adjusted at a remote site.

As described above, according to the present invention, it is possible to precisely and conveniently measure the position and size of a stress applied, simplify the structure, facilitate installation and fabrication, and deformation and other behaviors of the underground or structure, It measures the deformation of the desired position and has the effect of measuring the direction of the deformation in detail.

1 is a side view showing a conventional displacement amount measuring sensor.
2 is a side view showing an installation state diagram of a measurement system using the displacement amount measurement apparatus of the present invention.
3 is a side view showing a displacement amount measuring apparatus according to the present invention.
4 to 7 are schematic views showing the installed state of the displacement amount measuring apparatus according to the present invention.
8 is a block diagram showing a measuring system using the displacement amount measuring apparatus of the present invention.

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

3 is a side view showing a displacement amount measuring apparatus according to the present invention, and Figs. 4 to 7 are diagrams showing displacement amounts of the displacement amount measuring apparatus according to the present invention, FIG. 8 is a block diagram showing a measurement system using the displacement amount measurement apparatus of the present invention. FIG.

In the dual sensor S of the present invention, the first and second sensor units S1 and S2 are separately arranged in a circumferential direction inside one housing 10, respectively.

In this case, when the first sensor unit S1 is disposed at one end of the housing 10, the second sensor unit S2 is disposed at the other end, and the first and second sensor units S1 and S2 And are disposed at different positions in the same linear or circumferential direction.

The first and second sensor units S1 and S2 are continuously arranged at different positions in the same linear or circumferential direction so as to always correspond to the longitudinal direction deformation of the housing.

The first and second sensor units S1 and S2 include a sensor block 21 and a cable 23 connected thereto.

In this case, when the sensor block 21 and the cable 23 connected to the sensor block 21 are connected to the inside of the housing 10, the cable 23 connected to each sensor block has a different length do.

In addition, the cable 23 may be replaced with a rod having a constant diameter.

The cable 23 may be connected to the sensor block 21 through a damping unit 25 formed of a spring or the like.

Further, the sensor block 21 uses a vibration sensor.

In addition, in the dual sensor S of the present invention, the communication means 30 is integrally provided inside the housing 10.

The housing 10 may be a pipe having a circular or polygonal cross section, a cable having a circular or polygonal shape, or a pipe installed to fill the outside of the sensor block with the filling material, or a tube having a circular or polygonal cross section do.

The communication means 30 is composed of a combination of the microcomputer 31 and the communication module 33 to which a unique ID is assigned for each sensor block.

At this time, the communication module 33 is selected and used from a short-range wireless communication module selected from RFID and Bluetooth or a serial port provided for communication by wireline (L).

On the other hand, the dual sensor S is connected to the reader 50 to transmit signals by wire or wireless.

The dual sensor S may include a plurality of unit sensors connected to each other through a coupling 70 having at least one connecting portion formed of a threaded portion and having a length corresponding to a measuring portion having a predetermined length ).

At this time, the reader 50 is installed so that it can be adjusted at a remote place while performing a role of a repeater.

The reader 50 includes a management server 51 for managing and controlling the dual sensors, a database 53 for storing measurement data, and a wired and wireless communication network 55.

The dual sensor generates various kinds of measurement information through various kinds of monitoring information collected through the sensor block 21, and is provided to generate visual information in the form of a numerical value or a graph.

The management server is installed to generate warning and visual warning information through a speaker and a warning light in the event of a warning or a danger.

The operation of the present invention constructed as described above will be described.

2 to 8, the dual sensor S includes a sensor block 21 fixed along the circumferential direction on both sides of one side of the housing 10, and a cable 23 connected thereto The first and second sensor units S1 and S2 close to the deformed position form a maximum displacement value when the housing 10 is deformed in an arbitrary direction So that the generation direction and the position of the displacement can be known.

When the sensor block 21 and the cable 23 connected to the sensor block 21 are connected to the inside of the housing 10, the first and second sensor units S1 and S2 are connected to the cable 23 Only the first sensor unit or the second sensor unit at the position where the displacement is generated in the dual sensor S having a certain length is operated to operate and determine the direction and position of the displacement at the time of installation in the earth or the structure To detect.

The dual sensor S includes a first sensor unit S1 having a structure in which a cable 23 having a different length along a circumferential direction is connected to a sensor block 21 at one end of the housing 10, A second sensor unit S2 having a cable 23 having a different length along the circumferential direction is connected to the sensor block 21 so as to correspond to the entire length of the housing 10 do.

At this time, the first and second sensor units S1 and S2 are arranged on the same plane or in a circumferential direction of the housing so as to be extended on a plane, and when the deformation occurs at each position, It is possible to measure the position and displacement amount at which the displacement occurs.

In addition, the cable 23 can be replaced with a rod having a predetermined diameter to achieve the same effect.

When the cable 23 is connected to the sensor block 21 through the attenuation unit 25 formed of a spring or the like, the displacement value transmitted to the cable is transmitted to the sensor block through the attenuation unit, .

In addition, the dual sensor S of the present invention is provided with communication means 30 inside the housing 10 to transmit the measured value of the displacement by each sensor block 21 to the external reader 50 do.

At this time, the communication means 30 is composed of a combination of the microcomputer 31 and the communication module 33 to which a unique ID is assigned for each sensor block, so that the respective measured values measured by the sensor block are distinguished from the reader, do.

In addition, the communication module 33 is configured to select a wireless communication module selected from RFID, Bluetooth, or a serial port installed to enable communication by wire (L), and transmits the measured value through a wired or wireless signal to a reader .

In addition, the dual sensor S of the present invention is connected to one or more of the dual sensors S through a coupling 70 having connecting means such as a threaded portion to form one unit measuring device having a predetermined length.

At this time, the reader 50 is installed so that it can be adjusted at a remote place while performing a role of a repeater.

The reader 50 includes a management server 51 for managing and controlling the dual sensors, a database 53 for storing measurement data, and a wired and wireless communication network 55.

The dual sensor generates various kinds of measurement information through various kinds of monitoring information collected through the sensor block 21, and is provided to generate visual information in the form of a numerical value or a graph.

The management server is installed to generate warning and visual warning information through a speaker and a warning light in the event of a warning or a danger.

Each of the signals transmitted from the at least one dual sensor S that generates various types of measurement information according to the signal value received from the sensor block 21 is transmitted to the reader 50 Through the management server 51 of the terminal device.

At this time, the dual sensor S and the reader 50 are connected to each other through a communication means 30 by wire or wirelessly, and the measurement values of the dual sensors S are confirmed through the single reader 50.

The reader 50 stores the measured value through the database 53 of the management server 51 or transmits it to a user located at a remote place via a wired or wireless communication network.

At this time, the user is allowed to supply control signals to the respective dual sensors S at a remote place.

That is, the measured value of the dual sensor S can be verified in real time with the manager of the remote place via the wireless communication network 55 when displayed by the reader 50.

The management server 51 integrally manages units connected through a plurality of dual sensors S and a coupling 70, and simultaneously transmits measurement information and operation control signals.

At this time, the management server 51 stores status information such as whether or not to use a plurality of dual sensors S, and monitored measurement information through the database 53.

When the manager transmits a control signal through the terminal at the remote place, the wired and wireless communication network 55 receives and confirms various measurement information from the dual sensor S selected through the management server 51, S, and includes various types of mobile devices such as a general computer terminal device capable of data input / output and PDAs and cellular phones.

At this time, the wired / wireless communication network 55 provides a variety of communication environments to enable data transmission / reception between the manager 80 and the management server 51, and various known wired / wireless communication networks such as wired / wireless Internet communication network and mobile communication network can be applied have.

In addition, the manager 80 connected from a remote place through the wired / wireless Internet environment can monitor the measurement information of the dual sensor S on the web.

10 ... housing 21 ... sensor block
23 ... cable 25 ... attenuation unit
33 ... communication module 50 ... reader
51 ... management server 70 ... coupling

Claims (10)

A plurality of first and second sensor units including a sensor block and a cable connected to the first and second sensor units are disposed at both side ends of the housing along the circumferential direction from the inside of the housing,
In the first and second sensor units, the sensor blocks and the cables are fixed to different positions of the housing, respectively, and cables having different lengths are connected to the sensor blocks,
A communication means is connected to the sensor block to enable wired or wireless communication with the reader,
Wherein the first sensor unit and the second sensor unit are disposed at different positions on the same line or circumferential direction along the longitudinal direction of the housing. The dual sensor according to claim 1, wherein the first and second sensor units are continuously arranged at different positions in the same line or circumferential direction. The dual sensor according to claim 1, wherein the dual sensor is connected to at least one housing having first and second sensor units through a coupling having connection means. The apparatus of claim 1, wherein the sensor block is assigned a unique ID,
Wherein the communication means comprises a combination of a microcomputer and a communication module,
Wherein the communication module is selected from a wireless communication module selected from RFID, Bluetooth, or a serial port installed to enable communication by wire. The dual sensor according to claim 1, wherein the cable further comprises a spring-formed attenuation unit. [2] The apparatus of claim 1, wherein the housing comprises: a pipe having a circular or polygonal cross section, a cable having a circular or polygonal shape, or a pipe installed to fill the outer side of the sensor block with the filling material, And wherein the sensor is selected. The dual sensor of claim 1, wherein the cable is replaced by a rod. A dual sensor as claimed in any one of the preceding claims, wherein the dual sensor is connected through a coupling having coupling means to form a single unit of measurement,
A plurality of unit measuring instruments are installed at measurement positions and are connected to one reader,
Wherein the reader is installed to enable communication with a local site or a remote site. 9. The system of claim 8, wherein the reader is installed to perform a role of a relay for remote communication,
The reader includes a management server for managing and controlling a dual sensor, a database for storing measurement data, and a wired and wireless communication network for transmitting and receiving data to an administrator, Measurement system using sensors. The system of claim 9, wherein the management server is installed to generate warning information in the form of audible and visual information through a speaker and a warning light when a warning and a danger occur.

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