KR20150042724A - A management system for agricultural pipeline - Google Patents

Abstract

Posted is a water leak management system of an intelligent agricultural pipe line comprising; a pipe line which is connected to a plurality of unit water pipes to transfer agricultural water by being buried under the ground; an outer reinforcing unit which is arranged to surround the outer side of a connection portion of the unit water pipe at the outer side and is formed of a resin material; an inner concrete reinforcing unit which is placed in a space between the outer reinforcing unit and the unit water pipe and is restored; a first water leak detecting sensor which is installed on the connected portion of the unit water pipe; a field detecting device which is installed in a field in which the water pipe is installed and receives a water leak detecting signal of the first water leak detecting sensor; and a management center unit which matches position information in which a water leak is generated from the field detecting device to water leakage information and receives the matched position information and the water leakage information through a network.

Description

{A MANAGEMENT SYSTEM FOR AGRICULTURAL PIPELINE}

The present invention relates to an intelligent agricultural irrigation water leakage management system, and more particularly, to an irrigation water management system for an agricultural irrigation system capable of suppressing damage to agricultural irrigation water and detecting and managing damage locations.

As a method for supplying agricultural water, there is a method in which a water supply channel or an irrigation channel is provided and supplied to supply water from a reservoir or the like to a required site.

Among them, water loss is high due to the exposed structure. Therefore, a method of supplying agricultural water using an irrigation channel having a lower loss rate of water than a water line is preferred.

Generally, irrigation water for supplying agricultural water is provided so that its diameter reaches several meters so as to supply a large amount of water from a reservoir to a necessary place. As such an irrigation water, a metal pipe made of a metal pipe or a resin is generally used. The metal pipe has a problem that its durability is deteriorated due to corrosion, and a resin pipe is difficult to be enlarged.

In addition, there is a problem that water is leaked from a connection portion connecting the large-sized irrigation channel and thus a lot of water is lost. Among the causes of water leakage in the irrigation water, the water leakage occurs due to the breakage or loss at the connection part. Most of the breakage at the connection part is largely responsible for the irregular settlement. Thus, when water leakage occurs due to breakage of irrigation water, loss of water increases, and water resources of about 6% or more are lost due to water leakage nationwide.

Therefore, it is urgent to develop a system capable of not only preventing leakage, but also capable of promptly checking, managing, and managing the occurrence of leakage.

Patent No. 10-1173592

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide an intelligent agricultural irrigation water leakage management system capable of preventing water leakage at the connection portion of irrigation waterway and detecting damage due to damage or loss, There is a purpose.

In order to achieve the above object, an intelligent agricultural irrigation water management system according to the present invention comprises: a irrigation channel buried in a basement and connected to a plurality of unit water pipes for transporting agricultural water; An outer reinforcing portion which is disposed to surround the outer periphery of the connecting portion of the unit water pipe from the outside and is made of a resin material; An inner concrete reinforcing portion disposed in a space between the outer reinforcing portion and the connecting portion of the unit water pipe; A first leak sensor installed at a connecting portion of the unit water pipe; A field sensor installed at a site where the irrigation water is installed to receive a leak detection signal of the first leak sensor; And a management center unit for matching the leakage information and leakage information from the on-site sensor to receive the leakage information through a communication network.

The water leakage sensor may further include a second water leakage sensor installed on an outer surface of the water passage and continuously installed in the longitudinal direction of the water passage.

In addition, the first and second leak detection sensors may be formed of a film made of a synthetic resin having insulation property and waterproof property; And at least one pair of sensing lines provided inside the film.

In addition, the field sensing device may further include: a pulse transmitting / receiving unit connected to the first and second leak detection sensors for transmitting a pulse signal and receiving the reflected pulse signal when the transmitted pulse signal is echoed; And a control unit receiving the information on the reception of the echo pulse signal and determining that the first and second leak detection sensors are disconnected or short-circuited.

The field sensing apparatus may further include a communication unit for transmitting the detected signal to a remote management center unit using a mobile communication system.

According to the intelligent agricultural irrigation watering management system of the present invention, the inner concrete reinforcing portion poured with concrete is provided outside the connecting portion of the unit water pipe constituting the irrigation water for agricultural use, and the durability is excellent so as to surround the outer side of the inner concrete reinforcing portion By providing the outer reinforcing portion formed of a resin material excellent in water tightness, it is possible to suppress leakage of the connection portion of the water pipe and to prevent breakage.

In addition, a first leak detection sensor is provided at the connection portion of the unit water pipes, and a second leak detection sensor is provided at the outer side of the water pipe, so that leakage due to breakage of the agricultural water pipe can be detected.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram showing an intelligent agricultural irrigation water leakage management system according to an embodiment of the present invention; FIG.
2 is a sectional view taken along the line I-I in Fig.
FIG. 3 is a perspective view showing the first and second leakage detection sensors of FIG. 1. FIG.
FIG. 4 is a block diagram showing the field sensing apparatus of FIG. 1. FIG.
5 is a block diagram showing the management center of FIG.
6 is a plan view showing an irrigation channel in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an intelligent agricultural irrigation water management system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 6, an intelligent agricultural irrigation watering management system according to an embodiment of the present invention includes an irrigation water path 10 for supplying agricultural water, a water supply pipe 10 for supplying irrigation water, An outer reinforcing portion 20 made of a resin material and disposed so as to surround the outer periphery of the connecting portion from the outer reinforcing portion 20 and the connecting portion between the outer reinforcing portion 20 and the unit water pipe 11, A first water leakage sensor 41 installed at a connecting portion of the unit water pipe 11 and a second water leakage sensor 42 installed outside the unit water pipe 11, (50) installed at a site where the first leak detection sensor (40) is installed and receiving a leak detection signal of the first leak detection sensor (40), a location information And a management center unit (60) for receiving the information through a communication network, The management center unit 60 provides leak occurrence information to the terminal 71 of the person in charge in the corresponding area or to the competent authority 73 in order to check and repair the leakage occurrence position.

The unit water pipe (11) is buried in the basement and has a certain length and is connected continuously. The unit water pipe 11 has a diameter of several meters and is connected to the use place of the agricultural water supply source such as the reservoir or the agricultural water supply unit to the predetermined branching unit. The unit water pipe 11 may be made of concrete or may be made of a steel pipe or a resin material, but it is preferably a concrete pipe that can be easily enlarged and can solve corrosion problems.

The outer reinforcing portion 20 is installed at a connection portion of the unit water pipe 11 so as to surround a certain length. The outer reinforced portion 20 has a cylindrical shape and includes a small inner diameter portion 21 provided at both ends so as to be in close contact with the outer periphery of the unit water pipe 11, And has a neck portion 22. The large inner diameter portion 22 has an inner diameter sufficiently large so as to have a certain space with respect to the unit water pipe 11. [ The outer reinforcing portion 20 having such a structure is preferably made of a resin material such as plastic having excellent watertightness and corrosion resistance. As shown in FIG. 2, the outer reinforcing portion 20 has a symmetrical two-part structure. Each of the flange portions 23 is fastened by a fastening means such as a bolt and a nut, It can be installed to surround the connection part.

The inner concrete reinforcing portion 30 is installed in the space between the outer reinforcing portion 20 and the unit water pipe 11 by curing the concrete. For this purpose, one or more punched holes for pouring concrete may be formed in the outer reinforced portion 20. The inner concrete reinforcing portion 30 is formed so as to surround the connection portion of the unit water pipe 11 from the outside to a predetermined thickness so as to prevent leakage, breakage, cracking, and shaking at the connection portion, can do.

The first leak detection sensor 41 is installed at a connection portion of the unit water pipe 11 to detect the breakage of the connection portion of the water pipe 11 and to detect a leak.

The second leak detection sensor 42 is installed on the outer periphery of the unit water pipe 11 and is arranged continuously in a zigzag fashion on the upper side near the ground as shown in FIG. 3, the first and second leak detection sensors 42 may include a strip-shaped film 43 and a detection line 44 provided in the film 43 . The sensing line 44 may be coated on at least one pair of films 44 and may be electrically connected to the field sensing device 50 to transmit a pulse signal at the field sensing device 50, And detects a short or a short of the sensing line, it is recognized as a breakage of the water pipe 11 and it can be detected that a leak has occurred. The film 43 is made of a synthetic resin having insulation and waterproofing properties, and the sensing line 44 is made of a conductive material, a conductor or a conductive wire, and the conductive material may be a pair or more than two pairs.

The field sensor 50 includes a pulse transmitting / receiving unit 51 connected to the first and second leak detection sensors 41 and 42 for transmitting a pulse signal and receiving the reflected pulse signal when the transmitted pulse signal is echoed, A controller 52 receiving the information of the reception of the echo pulse signal and determining that the first and second leak sensors 41 and 42 are disconnected or short-circuited, To a remote management center unit 60 using a mobile communication system (communication network).

That is, the pulse transmitting / receiving unit 51 periodically transmits the pulse signal to the first and second leak detection sensors 41 and 42 and receives the reflected pulse signals, so that the first and second leak detection sensors 41 and 42 Detects a broken signal, that is, a leak detection signal, and transmits the detected signal to the control unit 52. The control unit 52 detects the breakage of the detection line. The pulse transmitting / receiving unit 51 repeatedly transmits the pulse signal to the first and second leak detection sensors 41 and 42 in units of a predetermined cycle, records and manages the transmitted time information, and transmits the time information to the control unit 52 do. The pulse signal transmitted from the pulse transmitting / receiving unit 51 is continuously transmitted by the first and second leak detection sensors 41 and 42, which have not been damaged or short-circuited, and are therefore extinguished. However, when the first and second leak detection sensors 41 and 42 are broken, the pulse signal does not advance in the damaged portion and echoes back to the pulse transmitting and receiving unit 51. The pulse transmitting / receiving unit 51 receives the echoed pulse signal, records and manages the received time information, and transmits the time information to the control unit 52.

When receiving the broken signal detected from the pulse transmitting / receiving unit 51, the control unit 52 calculates the distance to the position where the disconnection or short circuit occurs, using the time value and the transmission speed value. Further, the control unit 52 calculates time information received by echoing the time at which the corresponding pulse signal was transmitted, and extracts time information corresponding to the difference value. At this time, the control unit 52 confirms the speed at which the pulse signal is transmitted, and can precisely confirm the position or the distance of the short-circuited part based on the calculated difference value in consideration of the confirmed transmission speed.

The control unit 52 controls the shorting position of the first and second leak detection sensors 41 and 42 based on the detection signals transmitted from the pulse transmitting and receiving unit 51, And the distance from the center to the center is calculated. The information calculated and obtained by the control unit 52 is transmitted to the management center unit 60 through the communication unit 53 as described above.

The management center unit 60 includes a display unit 61, a central control unit 62, a database unit 63, a message unit 64, and an audio signal output unit 65.

The display unit 61 is configured to display information on leakage occurrence locations on a display screen. The display unit 61 can display the positional information of the irrigation waterway 10 on the screen together with the map information, and display the position of the broken information on the map information, that is, the position where the water leakage occurs.

The central control unit 62 controls the operations of the display unit 61, the message unit 64, and the output unit 65.

The database unit 63 stores the collected material information, construction information, pipeline location information, and location information of the connection portion of the pipeline 11 at the time of construction of the water pipe 10. The database unit 63 stores and manages the telephone number of the administrator's terminal of the facility, the telephone number of the jurisdiction agency, and the like.

The message unit 64 provides leaking information to the terminal 71 or the local authority 73 of the person in charge of the area where the leakage has occurred, in characters or the like.

The audio signal output unit 65 outputs the leak occurrence information as an audio signal so that the manager of the management center unit 60 can immediately recognize the leak occurrence information.

According to the above configuration, the concrete pipe is installed at a portion connecting the unit water pipe 11, and the portion poured with the concrete is wrapped and protected by reinforcing the outer reinforcement portion 20 made of a resin material from the outside, Can be firmly connected, and the connection state can be maintained for a long time without being twisted or shifted. In particular, even if sinking occurs due to rainwater, ground water, or the like, it is possible to fundamentally prevent leakage at the connection portion of the water pipe 11. [ Therefore, a large-capacity concrete pipe can be used instead of a steel pipe.

In addition, even if cracks or breakage occur in the irrigation waterway 10 due to an earthquake or settlement, the first and second water leakage sensors 41 and 42 detect it, By transmitting the detection information to the remote management center unit 60, the management center unit 60 accurately confirms the leakage position of the irrigation canal 10 and informs the responsible manager or the competent authority to immediately follow up such as confirmation and repair .

Therefore, stable maintenance of the irrigation water for agricultural use becomes possible, and the cost can be reduced, and the amount of loss of agricultural water can be minimized.

10 .. Waterway 20 .. Outside reinforcement part
30. Inner concrete reinforcement 41, 42 .. First and second leak detection sensors
50. Field sensing device 60. Center management section

Claims (5)

An irrigation channel formed by connecting a plurality of unit water pipes to transport agricultural water buried underground;
An outer reinforcing portion which is disposed to surround the outer periphery of the connecting portion of the unit water pipe from the outside and is made of a resin material;
An inner concrete reinforcing portion disposed in a space between the outer reinforcing portion and the connecting portion of the unit water pipe;
A first leak sensor installed at a connecting portion of the unit water pipe;
A field sensor installed at a site where the irrigation water is installed to receive a leak detection signal of the first leak sensor;
And a management center unit for matching the leakage information and the leakage information from the on-site sensor to receive the leakage information through the communication network. The method according to claim 1,
And a second water leakage sensor installed on an outer surface of the water supply path and continuously installed in the longitudinal direction of the water supply path. 3. The method of claim 2,
Wherein the first and second leak detection sensors comprise:
A film made of synthetic resin having insulating property and waterproof property; And
And at least one pair of sensing lines provided inside the film. The method of claim 3,
The on-
A pulse transmission / reception unit connected to the first and second leak detection sensors to transmit a pulse signal, and receiving the reflected pulse signal when the transmitted pulse signal is echoed; And
And a controller for receiving the information of the reception of the echo pulse signal and determining that the first and second leak detection sensors are disconnected or short-circuited by the pulse transmission / reception unit. 4. The system of claim 3,
And a communication unit for transmitting the detected signal to a remote management center unit using the mobile communication system.

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