KR20160002646U

KR20160002646U - Remote automatic measurement device of multi-packer system

Info

Publication number: KR20160002646U
Application number: KR2020150000475U
Authority: KR
Inventors: 권장순; 고용권
Original assignee: 한국원자력연구원
Priority date: 2015-01-21
Filing date: 2015-01-21
Publication date: 2016-07-29

Abstract

The present invention relates to a remote automatic measurement apparatus for a multi-packer system, and more particularly to a data logger (10) for recording sensed data from a plurality of sensors installed in a specific depth zone in an underground rock A remote automatic measurement apparatus for a multi-packer system for monitoring data from a multi-packer system from a remote location in real time, the apparatus comprising: a data logger (10) connected to an output terminal for transmitting data recorded in the data logger (200) for receiving, storing, and managing data recorded in the data logger (10) by the logger connecting means (100), and a data managing means And external communication means (300) for receiving the message and transmitting it to the management server (1) by using a wireless communication network, Data group management unit 200 relates to the data logger (10) stores and manages the remote data acquisition unit of the multi-packer system characterized in that the latest data is transmitted in real time the data received in the recording.

Description

[0001] The present invention relates to a remote automatic measurement device of a multi-packer system,

The present invention relates to a remote automatic measuring apparatus of a multi-packer system, and it relates to a groundwater quality (underground water pressure, atmospheric pressure, quasi-packer pressure, geochemical characteristics, etc.) in an underground rock obtained through a multi-packer system And more particularly, to a remote automatic measuring apparatus of a multi-packer system capable of monitoring in real time from a remote place using a data management unit and a communication unit without using a conventional specific program for monitoring.

Multi-packer system (MP) is installed and operated to monitor groundwater characteristics (underground water pressure, geochemical characteristics, etc.) in underground rock by specific depth sections.

These multiple packer systems consist of a number of groundwater flow isolation packers, pipes for sampling groundwater samples, ports, pumps and metrology sensors, and are installed inside the observer.

Among the multi-packer systems currently operating globally, there is a multi-packer system of Swiss Sol-Experts which is installed and operated for each depth zone of the pressure sensor.

The above-mentioned multi-packer system of Swiss Sol-Experts can measure the ground water pressure, the atmospheric pressure and the isolation packer pressure according to the depth range through the pressure sensor, and a plurality of pressure sensors are installed according to the purpose number .

Measured values measured from a number of pressure sensors are automatically measured and stored through a solowin data logger. However, in order to monitor the data, the user must use Solowin3, a computer program provided by Swiss Sol-Experts Can only be monitored. In addition, there is a disadvantage that the user (manager) must manually perform the operation of the computer program.

The groundwater surveillance system related to the site surveillance should be supplied to the user (administrator). However, when using the multi-packer system of Swiss Sol-Experts, not only the price is worth tens of thousands of dollars but also the annual maintenance cost, There is an unreasonable aspect of import / export operation in Korea due to the compatibility problem of Solowin3.

In the Korean Patent No. 10-1400746 (Registered on Apr. 21, 2014, name: method and apparatus for collecting samples using multiple packers), the sample collector can be fixed at a predetermined depth by using multiple packers, A method and an apparatus for collecting samples outside a borehole using multiple packers can be accurately obtained.

Domestic registered patent No. 10-1400746 (Registered date: 2014.05.22.)

SUMMARY OF THE INVENTION The object of the present invention is to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for measuring groundwater characteristics (underground water pressure, atmospheric pressure, isolating packer pressure, The present invention is to provide a remote automatic measuring apparatus of a multiple packer system capable of monitoring in real time from a remote place by using a data management unit and a communication unit without using a conventional specific program for monitoring the environment,

The remote automatic measurement apparatus of the multiple packer system according to an embodiment of the present invention includes a data logger 10 for recording sensed data from a plurality of sensors installed in a specific depth zone in an underground rock A remote automatic measurement apparatus for a multi-packer system for monitoring data from a multi-packer system from a remote location in real time, the apparatus comprising: an output terminal connected to an output terminal of the data logger so that data recorded in the data logger (200) for receiving, storing, and managing data recorded in the data logger (10) by the logger connecting means (100), and a data managing means And external communication means (300) for receiving and transmitting to the management server (1) using the wireless communication network, Emitter management means (200) is characterized in that it stores and manages the latest data receiving and data recorded in the data logger (10) in real time.

The remote automatic measuring device of the present inventive multi-packer system is designed to monitor the groundwater characteristics (ground water pressure, atmospheric pressure, isolating packer pressure, geochemical characteristics, etc.) in the underground rocks obtained through a multi-packer system There is an effect that monitoring can be performed in real time from a remote place using the data management unit and the communication unit without using a conventional specific program.

Through this, it is possible to observe long and short term groundwater repair parameters in real time in a real distance, and it is possible to drastically reduce the consumption of huge equipment and manpower required.

In addition, the monitoring result can be monitored in real time, and the result can be quickly responded.

In addition, the remote automatic measurement device of the inventive multi-packer system is not limited to the observers of the multi-packer system (surveillance ball, borehole), but can be widely used in work sites where continuous monitoring of the main observation data is required have.

1 is an illustration of a data logger included in a conventional multi-packer system.
FIG. 2 is a block diagram of a remote automatic measuring apparatus of a multiple packer system according to an embodiment of the present invention.
3 is a diagram illustrating a design example of a remote automatic measurement apparatus of a multiple packer system according to an embodiment of the present invention.
FIG. 4 is a schematic view of another embodiment of a remote automatic measuring apparatus of a multiple packer system according to an embodiment of the present invention.
FIG. 5 is a diagram illustrating an example in which a remote automatic measurement device of a multi-packer system according to an embodiment of the present invention is connected to a data logger.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a remote automatic measuring apparatus of a multi-packer system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The following drawings are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention. Accordingly, the present invention is not limited to the following drawings, but may be embodied in other forms. In addition, like reference numerals designate like elements throughout the specification.

In this case, unless otherwise defined in the technical terms and scientific terms used, the meaning of the present invention is to be understood to have the meanings that are normally understood by those skilled in the art to which this invention belongs. A description of known functions and configurations that may unnecessarily obscure the description of the present invention will be omitted.

Hereinafter, the remote automatic measurement apparatus of the multi-packer system according to the present invention is used to monitor the data measured from the sensors of the multi-packer system installed at specific depth zones Which can easily monitor data in real time without using a computer program (Solowin 3) of the multi-packer system.

In addition, when a conventional computer program is used, it is not necessary for a user (manager, operator) to perform the operation of a computer program manually, and the sensed data can be monitored by a specific depth section in the underground rock even at a long distance.

1 is an illustration of a data logger included in a conventional multi-packer system.

The data measured from a number of measurement sensors (pressure sensors, etc.) included in the multi-packer system are automatically measured and stored through a data logger. However, as described above, there is a disadvantage in that a separate computer program is required for the user (manager, operator) to work on data automatically measured and stored in the data logger.

2 is a block diagram showing a configuration of a remote automatic measuring apparatus of a multi-packer system according to an embodiment of the present invention.

In detail, the remote automatic measuring apparatus of the multi-packer system of the present invention includes a data logger 10 for recording sensed data from a plurality of measurement sensors (pressure sensors, etc.) In real time from a remote location.

As shown in FIG. 5, the remote automatic measurement device of the present inventive multi-packer system is designed to have a size of 310 * 180 * 410 mm, and is connected to an existing data logger to transmit data measured in real- .

It is preferable that the remote automatic measuring apparatus of the present inventive multi-packer system monitors a total of 9 data including groundwater pressure, atmospheric pressure, isolating packer pressure, and voltage of the logger battery for each of six divided depth sections, .

Hereinafter, each of the components constituting the remote automatic measuring apparatus of the multi-packer system of the present invention and the operation of each component will be described in detail.

As shown in FIG. 2, the remote automatic measuring apparatus of the present inventive multi-packer system may include a logger connecting means 100, a data managing means 200 and an external communication means 300.

The logger connection means 100 means a cable connector which is connected to the output terminal of the existing data logger 10.

3, the logger connection means 100 is connected to the output terminal of the existing data logger 10, so that the data recorded in the data logger 10 is transferred to the multi-packer system of the present invention And transmitted to the remote automatic measuring apparatus.

The data management means 200 can receive, store, and manage data recorded in the data logger 10 by the logger connection means 100.

At this time, the data management unit 200 preferably receives and updates the data recorded in the data logger 10 in real time, thereby storing and managing the latest data.

The data management unit 200 is preferably composed of three input / output modules as shown in 3, 4 and 5 of FIG. 4, but this is merely an embodiment of the present invention.

Here, it is preferable that one of the three input / output modules is an automatic data transmission module and the remaining two input / output modules comprise a real time data acquisition module.

The automatic data transmission module is formed of ADAM-4501, and the real-time data acquisition module is formed of ADAM-4017 +. However, this is also an embodiment of the present invention.

The real-time data acquisition module of the data management means 200 receives the analog data transmitted from the data logger 10 and is composed of eight channels per one real-time data acquisition module, It is desirable to install two to receive.

Preferably, the automatic data transmission module of the data management means 200 receives, stores, and manages the latest data from the real-time data acquisition module due to a predetermined algorithm.

The external communication means 300 can receive the latest data from the data management means 200 and transmit it to the management server 1 using the wireless communication network.

At this time, it is preferable that the wireless communication network to be used is a wireless communication network widely used conventionally such as CDMA.

The external communication means 300 is a means for requesting an external request, that is, data requested by the management server 1 or recorded in the data logger 10 at predetermined time intervals, that is, And updates the sensed data from a plurality of installed measurement sensors (pressure sensors, etc.) to the latest data and transmits them to the management server 1.

Here, the preset time can be changed by the control of the user (manager, operator).

The management server 1 is connected to at least one output means 2 connected to the management server 1 via a wireless network, By transmitting the data, the output means 2 can monitor the latest data sensed from a plurality of measurement sensors (pressure sensors, etc.) installed for each specific depth section in the underground rock in real time at a remote location.

When the power supply to the remote automatic measuring device of the multi-packer system according to the present invention is not possible at all times, in detail, the data managing means 200 requires 12 V of operating power, If it is assumed that a power source is required, the power can be supplied through the power source at all times if the power source is always available. However, in case the power source can not be supplied at all times, 400). &Lt; / RTI >

The power supply means 400 may supply power to the data management means 200 and the external communication means 300 when power is not always supplied, It is preferably formed as a module. However, this is only one embodiment of the present invention.

That is, in other words, the remote automatic measuring device of the multi-packer system according to the present invention is a conventional one for monitoring the groundwater characteristics (ground water pressure, atmospheric pressure, isolating packer pressure, geochemical characteristics, etc.) There is an advantage that the latest data can be easily monitored in real time from a remote place by using the data management means 200 and the external communication means 300 without using a program.

As described above, the present invention has been described with reference to specific embodiments such as a specific component and a limited number of embodiments. However, the present invention is not limited to the above embodiment, And various modifications and variations may be made thereto without departing from the spirit and scope of the invention as defined by the appended claims.

Accordingly, the idea of the present invention should not be limited to the illustrated embodiment, and all the claims that are equivalent to or equivalent to those of the utility model registration claims, as well as the claims for utility model registration described below, .

10: Data logger
100: Logger connecting means
200: Data management means
300: External communication means
400: power supply means
1: management server
2: output means

Claims

And a data logger (10) for recording sensed data from a plurality of sensors installed in a specific depth zone in an underground rock bed, the system comprising: a multi-packer system A remote automatic measuring apparatus comprising:
Logger connecting means (100) connected to the output terminal of the data logger (10) for transferring data recorded in the data logger (10);
Data management means (200) for receiving, storing, and managing data recorded in the data logger (10) by the logger connection means (100); And
An external communication means (300) for receiving data from the data management means (200) and transmitting the data to the management server (1) using a wireless communication network;
And,
The data management means (200)
Wherein the data stored in the data logger (10) is transmitted in real time to store and manage the latest data.

The method according to claim 1,
The remote automatic measurement apparatus of the multi-patter system
If it is impossible to supply power at all times,
A power supply means 400 for supplying power to the data management means 200 and the external communication means 300;
Further comprising:
The power supply means (400)
And a photovoltaic power generation module for collecting natural light to generate electric energy.

The method according to claim 1,
The external communication means (300)
And transmits the latest data according to an external request or at predetermined time intervals.

The method according to claim 1,
The management server 1
And the data is transmitted to at least one output means (2) connected through a wireless network, so that the data sensed by a specific depth section in the underground rock is monitored in real time from a remote location. .