KR20160044715A - System for supplying water - Google Patents

Abstract

According to the present invention, a smart system for supplying agricultural water comprises: a water storage tank receiving raw water from a water source such as a river, a lake, etc. and storing the raw water as agricultural water; a pipeline diverging from the water storage tank and supplying the agricultural water to a place including a rice paddy and a field to use the agricultural water; an agricultural water generator producing power by the agricultural water which flows in the pipeline; a leakage sensor installed on the pipeline to sense a leakage; a farm pond installed to control the feed rate of the agricultural water and the real use rate of the agricultural water on the upper side of the pipeline for the place to use the agricultural water; a water level sensor sensing the level of the agricultural water in the farm pond; a valve installed to control the agricultural water supplied to a branch part of the pipeline; and a control center which checks the level of the agricultural water from the water level sensor of the farm pond, supplies the agricultural water by controlling the valve of the pipeline which supplies the agricultural water to the farm pond when the level of the agricultural water falls to a minimum reference value or smaller, and stops the supply of the agricultural water by controlling the valve of the pipeline which supplies the agricultural water to the farm pond when the level of the agricultural water becomes a maximum reference value or greater. Accordingly, a high-efficiency agricultural water supply chain can be established on a wide area by using the water storage tank and the farm pond. Furthermore, the agricultural water can be secured by using various water sources according to the surrounding environment of the place requiring the water. Accordingly, the agricultural water can be secured to the maximum even when the place is deficient in water. In addition, the agricultural water is allowed to be dispersed and carried even when a flood or the like occurs so the flood damage can be inhibited.

Description

Smart rural water supply system {SYSTEM FOR SUPPLYING WATER}

The present invention relates to a smart rural water supply system, and more particularly, to a smart water supply system for rural farms that can supply rural water optimally to rice fields and fields in rural areas.

Where water is used, such as rice fields or fields, adequate water should be supplied to raise crops.

Conventionally, the smart rural water supply system simply pumps raw water from a single source such as river or lake, and supplies raw water as a water source.

In the conventional smart rural water supply system, when one source of water is used, water can be supplied when raw water is exhausted due to a drought or the like, which makes it difficult to effectively overcome a drought.

In addition, it is not possible to accurately quantify how much water is required to use the water. As a result, the water is excessively pumped and supplied, thereby unnecessarily wasting water resources or wasting unnecessary power.

In addition, there is a problem in that there is a limit in supplying water in the optical region because the water has a structural limit to supply water smoothly only in a region close to the water source.

In addition, even if the water is supplied to the optical area, it is necessary to provide a communication network for supplying the water to the receiving place which is distant from the water source. Therefore, it takes a lot of cost to construct the water, there is a problem.

In addition, it is not possible to determine in which region the water is needed more in the central region, and in which region it is not necessary to supply the water, and there are many problems due to inefficient resource distribution by collectively supplying water irrespective of the required amount of water .

In addition, when unexpected pollution occurs in one water source as the water supply source as described above, there may arise a problem in that water can not be supplied to a wide range of water receiving locations dependent on one water source.

In addition, although there are various water resources available in the vicinity of the demand site such as river water, lake water, ground water, and rainwater (excellent), there is a problem that it can not be used, and when one water source is contaminated, Can be highlighted.

In addition, if one of the water sources is depleted due to drought, it may not be able to utilize water sources such as rivers and lakes in a short distance, and water may not be supplied to a wide range of users.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for storing water from various water sources, a palm pond on the upstream side of using the final water, And to provide a smart rural water supply system for distributing and supplying water.

A smart rural water supply system according to a preferred embodiment of the present invention is a smart water supply system comprising: a water tank in which raw water is supplied from a water source such as a river or lake, and is stored as water; A pipeline branching from the water storage tank to supply the water to a water use place including rice fields and fields; A farm pond installed on the upstream side of the pipeline where the water is used to adjust the water flow rate and the actual water flow rate; A water level detecting sensor for detecting the water level of the palm pond; A valve installed to regulate the water supplied to the branch portion of the pipeline; And a control center for checking the water level from the level sensor of the palm pond and controlling the valve of the pipeline supplying the water to the palm fond when the water level falls below a minimum reference value.

By using the water tank and palm pond, it is possible not only to construct a high efficient water supply network in the metropolitan area, but also to utilize various water resources according to the surrounding environment of the water demand site, so that even when water is insufficient, The flood damage can be suppressed by making it possible to distribute the flood water even when the flood water is generated.

The control center also checks the level from the level sensor of the palm pond and controls the valve of the pipeline that supplies the water to the palm fond to interrupt the supply of water when the level becomes the maximum reference value or more desirable.

As a result, it is possible to grasp the level of the palm pond in real time in the control center so that the water is supplied only to the poor palm pond and the water is not supplied to the sufficient palm pond. Therefore, So that it is possible to solve the problem that the water is not wasted or the water can not be supplied to the crops.

The apparatus may further include a leakage sensor installed on the pipeline for detecting leakage.

As a result, it is possible to understand that the water leaks unintentionally due to the breakage of the pipe or the like, minimizing the waste of the water, and promptly perform the maintenance work.

In addition, it is preferable that the leakage detection sensor and the water level detection sensor transmit the sensed measurement value to the control center of the remote place using the 3G / 4G wireless communication network.

Thus, it is possible to accurately measure the state of the pipeline of the wide area and the state of the water level of the palm pond in the remote place, thereby supplying the water to the deficient place more accurately, thereby minimizing the power waste for the overall water supply, .

The apparatus may further include a water generator for generating electric power by the water flowing in the pipeline. And the water leakage sensor and the water level detection sensor are driven by the electric power produced by the water power generation device.

As a result, the ICT (Information Communication Technology) -based sensor and the power for transmitting the sensed sensor value to the remote site can be secured in the local area itself.

In addition, the control center may include a plurality of adjustment pads according to the altitude of the irrigation papers on the downstream side of the palm pond, valves are provided in the branch pipes to the plurality of adjustment papers, So that water is supplied to the adjustment paper.

Accordingly, when the demanded site where the water is finally supplied is different on the downstream side of the pipeline, a plurality of adjustment sheets are provided according to the altitude, and the valve is controlled so that the water is selectively supplied to each adjustment sheet, And the water can be supplied to the adjustment paper.

In other words, when it is necessary to supply water with a high-altitude adjustment paper, the valve of the pipe to the other altitude adjustment paper is shut off to supply the water, and then the valve is controlled to supply water to the adjustment paper as appropriate, It is not necessary to provide a high-capacity pump for supplying water.

According to the preferred embodiments of the present invention as described above, by using the water reservoir and the palm pond, it is possible to construct a highly efficient water supply network in a wide area unit, and it is possible to secure water by utilizing various water sources according to the surrounding environment In addition, when the water is insufficient, not only the maximum amount of water can be secured, but even if a flood occurs, the flood damage can be suppressed by dispersing it.

In addition, since the water level of the palm pond can be grasped at the control center in real time and the water can be supplied only to the poor palm pond and the water can not be supplied to the sufficient palm pond, So that it is possible to solve the problem that the water is not wasted or the water can not be supplied to the crops.

In addition, it is possible not only to minimize the waste of water by grasping the leakage of the water unintentionally due to the breakage of the pipe, but also to perform the repair work quickly.

In addition, by precisely judging the state of the pipeline of the wide area and the level of the water level of the palm pond in a remote place, it is possible to supply the water to the deficient place more accurately, thereby minimizing the power waste for the overall water supply, .

In addition, it is possible to secure power for transmitting ICT (Information Communication Technology) based sensors and sensor values detected from the ICT to a remote site in the local area itself.

In addition, when the demanded place where the water is finally supplied is different on the downstream side of the pipeline, a plurality of adjustment sheets are provided according to the altitude, and the valve is controlled so that the water is selectively supplied to each adjustment sheet, And the water can be supplied to the adjustment paper. In other words, when it is necessary to supply water with a high-altitude adjustment paper, the valve of the pipe to the other altitude adjustment paper is shut off to supply the water, and then the valve is controlled to supply water to the adjustment paper as appropriate, It is not necessary to provide a high-capacity pump for supplying water.

1 is a view for explaining a concept of a smart rural water supply system according to a preferred embodiment of the present invention;
FIG. 2 is a block diagram of the smart rural water supply system shown in FIG. 1;
FIGS. 3A and 3B are views for explaining the adjustment of the smart rural water supply system shown in FIG. 1. FIG.

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

FIG. 1 is a diagram for explaining the concept of a smart rural water supply system according to a preferred embodiment of the present invention, and FIG. 2 is a block diagram of the smart rural water supply system shown in FIG.

1 and 2, a smart rural water supply system 100 according to a preferred embodiment of the present invention includes a water tank 120, a pipeline 115, a farm pond 140, A sensor 150, a valve 160, a flow meter 180, an adjustment valve level sensor 185, an adjustment valve 190 and a control center 110.

The water storage tank 120 is supplied with raw water from a water source S such as a river or a lake and is stored as water. The water storage tank 120 supplies raw water from a plurality of water sources rather than from one water source.

By storing the water from a multi source, if one water source is polluted or drought is depleted, it is not possible to supply the water to the place where water is used, but water can be secured from various water sources that can supply the water Accordingly, such a problem can be solved.

At this time, the place where the water is used may be a rice field or a field, but the present invention is not limited to this, and any other place where various water is used may be included.

In addition, since it is possible to secure the water in the water storage tank 120 in advance, it is possible to minimize the water shortage caused by drought or the like, and to minimize the damage caused by flood.

The pipeline 115 is constructed not only to store the water from the water source into the water storage tank 120 but also to supply the water to the places where the water is ultimately used such as rice fields and fields. ) Is installed so that the water supply amount can be controlled.

The pipeline 115 is provided with a water leakage sensor 155 and a flow meter 180 to detect water leaks unnecessarily in real time and to cope with the water leakage quickly. It is preferable to judge the supply amount of the water and optimally supply the water to the use place of the water.

In addition, it is preferable that the pipeline 115 further includes a water generating device, for example, provided with a fan rotated by the water fluid, and generating electric power by a rotating fan.

That is, if the power generated by the water generator installed in the local area is used to drive the water leakage sensor 155, the flow meter 180, or the water level sensor 150, for example, in the local area, It is possible to secure power effectively without building.

The palm pond 140 is installed on the upstream side of the pipeline 115 where the water is used to regulate the volume of water and the actual quantity of water before the water is finally supplied to the place where the water is used.

In addition to the function of the water reservoir 120, the palm pond 140 also has a function of storing water, so that it is expected to minimize the damage caused by drought or flood.

The water level detection sensor 150 detects the water level of the palm pond 140 and detects the water level of the palm pond 140 and provides information on the detection value to the control center 110 to be described later.

At this time, more preferably, the level sensor 150 transmits the detection value to the control center 110 to the 3G or 4G wireless mobile communication network. As the detection value is transmitted to the remote control center 110 as described above, the control center 110 can grasp the level of each palm pond 140 in real time, and the water is suitably applied to each of the plurality of palm ponds 140 So that the water supply can be effectively managed.

The valve 160 is provided at a branch point on the pipeline 115 to control the supply priority and supply amount of the water. The valve 160 is driven according to a control signal of the remote control center 110. The valve 160 may also be controlled by a 3G or 4G wireless mobile communication network.

The control center 110 controls and controls the above water level detecting sensor 150 and the valve 160 either wirelessly or by wire. The control center 110 determines the water level of each palm pond 140 by the water level detecting sensor 150, When the water level of the palm pond 140 is lower than the minimum reference value, the valve 160 is opened so that the water is introduced into the pipeline 115 that supplies the water to the palm pond 140 in order to fill the water, The valve 160 is closed so that the water does not flow into the pipeline 115 supplying the water to the palm pond 140.

With this configuration, unnecessary waste of water can be drastically reduced by optimally supplying the water, and it is possible to minimize the problem of wasting electric power due to pumping for supplying water unnecessarily.

According to the preferred embodiment of the present invention, it is possible to control the supply of water to each palm pond 140 by determining the level of the palm pond 140, but more reliably, the flow meter 180 It is possible to control and manage the amount of water flowing into the palm pond 140 by detecting the amount of water supplied from the palm pond 140 in real time.

That is, if only the water level of the palm pond 140 is checked, the water supply speed to the palm pond 140 can not be controlled. However, if the flow rate of the flow meter 180 is sensed and used in parallel, It is possible to determine the water level of the palm pond 140 as well as the amount of the water that flows out to manage the supply amount and supply speed of the water to the palm pond 140.

FIGS. 3A and 3B are views for explaining the concept of the smart rural water supply system shown in FIG.

3A and 3B, the level sensor 140 detects the level of the level sensor 140 and detects the level of the level sensor 140 and outputs information about the detected level to the control center 110, .

In the case where there are different altitudes due to the topography of the place where the water is used, the adjustment paper 130 stores water for each of a plurality of water use groups grouped into areas having a certain altitude, The water is stored at a higher position so as to easily supply the water with the difference in height.

The adjustment valve 190 is provided on the pipeline 115 to each adjustment member 130 to selectively adjust the supply amount and the supply speed of the water supplied to the adjustment member 130.

The adjustment level detection sensor 185 detects the level of each adjustment level 130 and detects the level of the adjustment level 130 and provides information on the detection level to the control center 110.

At this time, more preferably, the adjusted water level detecting sensor 185 transmits the detection value to the control center 110 to the 3G or 4G wireless mobile communication network. As the detection value is transmitted to the remote control center 110 as described above, the control center 110 grasps the level of each adjustment paper 130 in real time, and supplies water to each of the plurality of adjustment paper 130 appropriately So that the water supply can be effectively managed.

The adjustment valve 190 is provided on the pipeline 115 entering the adjustment member 130 to control the supply priority and the supply amount of the water. The adjustment valve 190 is connected to the remote control center 110, As shown in FIG. The control valve valve 160 may also be controlled by a 3G or 4G wireless mobile communication network.

The control center 110 controls and controls the above-mentioned control unit level sensor 185 and the control valve unit 190 in a wireless or wired manner. The control center 110 monitors the level of each control unit 130 by the control unit level sensor 185 The adjustment valve 190 is opened so as to allow the water to flow into the pipeline 115 that supplies the water to the adjustment member 130 in order to fill the water, and when the water level of the adjustment member 130 is lower than the minimum reference value, 130 is higher than the maximum reference value, the valve 190 is closed so that the water is not introduced into the pipeline 115 supplying the water to the palm pond 130.

In addition, in order to raise water by collecting all of the adjustment paper 130 all at once, a high-capacity pump must be installed so that an excess capacity pump is installed considering the low reservoir 130. [

Therefore, when it is necessary to raise the water to the adjustment plate 130 at the high altitude via the adjustment valve 190 and the adjustment level sensor 185, the pipeline 115 communicating with the adjustment plate 130 at the low level is closed The control valve 190 can control the supply of water using a relatively low-capacity pump without requiring a high-capacity pump for supplying the water to all the adjustment members 130 at a time.

When the water level is sufficiently raised by the adjustment paper 130 of the high place by the adjustment paper level detection sensor 185, the corresponding valve 190 is controlled so as to close the pipeline 115 leading to the adjustment paper 130 of the high place And control the corresponding valve 190 to open the pipeline 115 leading to the adjustment paper 130 of another low zone to supply the water.

With this configuration, unnecessary waste of water can be drastically reduced by optimally supplying the water, and it is possible to minimize the problem of wasting electric power due to pumping for supplying water unnecessarily.

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the embodiments described above are in all respects illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be interpreted as being included in the scope of the present invention.

100: smart rural water supply system 110: control center
115: Pipeline 120: Reservoir
140: Palm Pond 150: Level sensor
155: Leak detection sensor 160: Valve
170: Water generator S: Water source

Claims (2)

A water tank in which raw water is supplied from a water source such as a river or lake, and is stored as water;
A pipeline branching from the water storage tank to supply the water to a water use place including rice fields and fields;
A water generator for generating electric power by the water flowing in the pipeline;
A leakage detection sensor installed in the pipeline for detecting leakage of water;
A farm pond installed on the upstream side of the pipeline where the water is used to adjust the water flow rate and the actual water flow rate;
A water level detecting sensor for detecting the water level of the palm pond;
A valve installed to regulate the water supplied to the branch portion of the pipeline; And
The water level is checked by the level sensor of the palm pond and when the water level falls below the minimum reference value, the water in the pipeline is controlled by supplying the water to the palm pond to supply the water, And a control center for controlling a valve of a pipeline for supplying water to the palm pond to block water supply. The method according to claim 1,
A water level detecting sensor for detecting a water level of the water,
Wherein the water leakage sensor and the water level detection sensor transmit the sensed measured values to the control center of the remote site using a 3G / 4G wireless communication network.

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