KR101981223B1 - ater level management system of rice paddy - Google Patents

Abstract

The present invention relates to a rice water level management system, and more particularly, to a rice water level management system which is capable of smoothly and efficiently distributing and supplying agricultural water supplied from a reservoir, Level management system to prevent large and small disputes between owners and to improve the harvesting ability of rice by enabling efficient supply of agricultural water in a timely manner by saving agricultural water caused by drought.

Description

A level management system of rice paddy

The present invention relates to a rice water level management system, and more particularly, to a rice water level management system which is capable of smoothly and efficiently distributing and supplying agricultural water supplied from a reservoir, Level management system to prevent large and small disputes between owners and to improve the harvesting ability of rice by enabling efficient supply of agricultural water in a timely manner by saving agricultural water caused by drought.

Generally, agricultural water refers to irrigation water that artificially supplies water to the fields of rice fields and fields for the purpose of producing crops.

Korea is classified as a serious water-scarce country, and systematic management of agricultural water, which accounts for about 50% of water use, is required.

The purpose of the management of agricultural water is to accurately estimate the supply time of irrigation water and the amount of irrigation water in the ground, establish Irrigation Scheduling, and then manage the water according to the irrigation plan in the field, In order to maximize the productivity improvement.

Irrigation systems for agricultural water include reservoirs for storing agricultural water, waterways such as waterways and drainage lines connected to reservoirs, water intake towers for supplying water, and watercourses that control the flow of water into each paddy.

However, since such an irrigation system is not systemized, when the owner of a rice field is short of water, the rice field owner tries to water his rice fields first, and sometimes a quarrel arises between them.

This is because the water is supplied sequentially from the reservoir to the reservoir as the water flows along the connected water pipe from the reservoir. Therefore, in the case of the non-owner located relatively far from the reservoir, the supply of water is too slow, The rice can not be poured into the water, resulting in a problem of poor rice-growing efficiency.

If the drought is severe due to these problems, the irrigation of agricultural water irrigation can not be helped.

In addition, even if the water supply is kept and the aged rural population distribution influences, the rice paddy will not stop and the supply of water will not be stopped. Even though the rice paddies are flooded with iron water, others can not supply water to rice paddies There is also a problem that waste water is wasted due to this.

In recent years, efforts have been made to systematize the management itself. However, it is difficult to assimilate the management system, and it is difficult to control the system itself. And practicality is deteriorating.

On the other hand, in some cases, such as in the absence of a water pipe, water is poured into the rice paddies by digging the paddies around the rice paddies and taking water directly from the paddy fields. It is very inconvenient to control the driving of the pump installed in the pump.

For example, when the pump is operated and goes out, if the water overflows in the rice paddies, the water is wasted and the power consumption due to the pump operation is wasted.

In addition, when considering the rural situation, which is dominated by aged people, it is necessary to refrain from going out in the case of extreme heat, high temperature and humidity, very fine dust, heavy dust, etc. In the past, Even in the environment, you have to go to the rice fields unconditionally to wait for water, which may harm your health.

Korea Registered Patent No. 10-0465930 (Mar. 3, 2005) 'Agricultural Water Management System' Korean Registered Patent No. 10-0813608 (2008.03.07.) 'Water management remote monitoring and control system utilizing PI's technology and method thereof' Korean Registered Patent No. 10-1613054 (Oct. 20, 2016) 'Intelligent Agricultural Water Management System and its Daily Irrigation Water Management Method'

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a method and apparatus for efficiently and efficiently distributing agricultural water supplied from a reservoir, , And thus it is a main object of the present invention to provide an improved water level management system which can prevent large and small disputes between the owners of agricultural water usage and to enable efficient supply of agricultural water in a timely manner, thereby enhancing rice harvesting ability.

A water faucet 110 capable of supplying water flowing through the water channel 100 to the rice paddies 200 is formed between the rice paddy 200 and the water channel 100, A dam 120 serving as a water gate is installed on the waterway 100 corresponding to the boundary between the rice paddy 200 and the paddy 200 and includes a drain 130 formed at one side of the rice paddy 200 A water level management system comprising:
A column (PST) is installed at an arbitrary position of the paddy 200; A part of the length of the PST includes a memory, a keypad for setting, and a wireless LAN for transmitting and receiving a radio control signal including binary CDMA, FDMA, CDMA or TDMA, Bluetooth, IrDA, A level controller 300 on which the module is mounted is fixed; At the top of the column (PST), a solar panel (310) including a solar cell module is disposed obliquely; A capacitor 320 including a lithium ion phosphate, a lithium ion battery, or a lead-acid battery that accumulates electricity collected from the solar panel 310 is fixed on the pillars PST; A water level sensor 330 is installed at a predetermined height unit below the column PST so that the water level controller 300 controls the water level 110 and the dam 120 according to the water level of the water filled in the rice paddies 200. [ And the opening of the drain 130; The posture controller (PST) is further provided with a temperature sensor for measuring the atmospheric temperature, a humidity sensor for measuring the humidity, a carbon dioxide detecting sensor for measuring the carbon dioxide concentration, and a fine dust detecting sensor for measuring the fine dust concentration, And transmitting periodic detection information to a non-owner smart phone; The water level controller 300 is further configured to electrically connect a water pump 510 for pumping water in a well 500 installed around the rice paddle to control the on / off of the water pump 510;
The wedge 110, the dam 120, and the drain 130 may include a sealing plate in the form of a water gate, a shaft that is rotatably fixed to the center of the upper surface of the sealing plate, a worm formed on the shaft, And a worm motor for driving the worm wheel. The worm wheel is rotated in accordance with the rotation direction of the worm motor, and the worm is coupled to the worm to rotate the worm.
The camera (340) is installed in the pillar (PST) and is configured to transmit a captured image or a photograph to a non-owner smart phone under the control of the water level controller (300) after capturing the water level status;
The PST is further provided with a multiplexer 350 for communicating with one of the wireless LAN, the Bluetooth, the IrDA and the HomeRF using one of FDMA, TDMA and CDMA, The management server 400 may further include a management server 400 that can manage the location of the rice field 200 under the control of the level controller 300 when the level of the specific rice field 200 is poor. To the water level management system.

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According to the present invention, it is possible to smoothly and efficiently distribute and supply the agricultural water supplied from the reservoir, and automatically manage the biased phenomenon in which agricultural water is concentrated in a specific rice paddy, thereby preventing large and small conflicts among rice paddyholders , It is possible to supply agricultural water efficiently in a short period of time, and it can save water, which helps to increase rice harvesting ability even in the case of a water shortage state.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary conceptual diagram showing an embodiment of a water level management system according to the present invention. FIG.
2 is an exemplary diagram showing an example in which the concept of FIG. 1 is extended.
3 is an exemplary conceptual diagram showing another example of the water level management system according to the present invention.

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

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

1, a water level management system according to the present invention is applied to a waterway 100 for supplying water from a reservoir and a plurality of paddies 200 connected to the waterway 100 and supplied with water .

At this time, between the rice field 200 and the waterway 100, a water faucet 110 capable of supplying water flowing through the channel 100 to the rice field 200 is formed, and a boundary between the rice field 200 and the rice field 200 A dam 120 serving as a water gate is installed on the waterway 100 corresponding to the point.

A drain 130 is formed on one side of the paddle 200.

Here, the water dam 110, the dam 120, and the drain 130 are known structures capable of adjusting the height by controlling the height through electrical control.

A worm is formed on the shaft, and a worm wheel (a worm gear) is coupled to the worm. The worm gear is coupled to the worm gear, The worm wheel is connected to the worm motor, and the worm wheel is rotated in accordance with the rotation direction of the worm motor, and the worm coupled to the worm wheel is rotated to raise and lower the shaft, thereby adjusting the opening degree of the water.

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However, in the case of the drain 130, it is also possible to adjust the water to be discharged in an overflow manner to keep the water level of the rice 200 constant, It is used when sending out.

In addition, since the water channel 110, the dam 120, and the drain 130 are not only small in size, but also can be opened and closed even with a small capacity drive source (eg, a motor) because a speed reducer is utilized, .

On the other hand, at the arbitrary position of the paddy 200, preferably at the center of the paddy 200, the paddle (PST) is fixed so as to stand vertically.

A level controller 300 is fixed to a part of the length of the strut PST and a solar panel 310 including a solar module is disposed at an upper end of the strut PST. A capacitor 320 for accumulating electricity collected from the solar panel 310 is fixed.

At this time, the storage battery 320 includes lithium iron phosphate, a lithium ion battery, or a lead acid battery.

Further, a water level sensor 330 is installed on the lower part of the pillar (PST), more precisely, in the remaining part excluding the inset which is buried in the bottom of the paddy 200 in units of a predetermined height, and the water level is detected when the water is filled .

Here, only one strut (PST) may be used because the rice 200 is already leveled, so that when the water is filled, the rice 200 maintains a substantially uniform water level.

In addition, although not shown, the level controller 300 includes a memory, a keypad for setting, and a short-range wireless communication module for transmitting and receiving a radio control signal.

In this case, the short-range wireless communication module uses any one of wireless LAN, Bluetooth, IrDA, and HomeRF for transmitting and receiving a radio control signal including binary CDMA, FDMA, CDMA or TDMA.

In addition, a camera 340 is further installed in the pillars PST and can be driven and controlled by the water level controller 300 using the battery 320 as a power source.

This can be relieved by ensuring that the water management is actually well done by receiving the images or photos in real time on their smartphones without having to go directly to the discussions about whether the rice paddy owners were really filled with water at their proper level In order to make it possible.

In particular, given the rural realities that are predominantly elderly people, the geothermal heat is strong in the case of hot days, so sometimes it may collapse, so check the air condition, weather, temperature, humidity, fine dust, It is better to decide whether or not to go to the rice field by receiving it.

To this end, in the present invention, a plurality of sensors including a temperature sensor for measuring the atmospheric temperature, a humidity sensor for measuring humidity, a carbon dioxide detecting sensor for measuring the carbon dioxide concentration, and a fine dust detecting sensor for measuring the fine dust concentration, So that the rice paddy can be immediately checked while the rice paddy is sitting at home, so that the rice paddy management can be very efficiently performed.

It is even better if a dedicated app is implemented to accurately and accurately communicate this situation to the subject.

In addition, the water channel 110, the dam 120, and the drain 130 may be wired to be electrically connected to the storage battery 320, and at this time, a control signal may be transmitted / received by the level controller 300 Control lines can also be wired together.

Of course, if the power supply is separately provided, the water level controller 300 transmits a signal having a specific code through short-range wireless communication. If each of them is equipped with a wireless module and is designed to process only a signal having a specific code, Adjustment can be made easier.

That is, the control of opening of the water channel 110, the dam 120, and the drain 130 can be controlled by radio or wireless.

In addition, the PST may further include a multiple connector 350 using any one of FDMA, TDMA, and CDMA.

The multiple accessor 350 extends the concept as shown in FIG. 2 so that the management server 400 is installed in the management room of the reservoir when the plurality of the papers 200 are managed as a whole, so that the level controller 300 can communicate with the management server 400 The water level controller 300 can control the water level of the corresponding multiple connector 350 when the level of the water level can not be adjusted due to the malfunction of the water faucet 110 or the failure of the dam 120 and the drain 130. [ To the management server 400 so that the administrator can check the coordinate value or can immediately take action by checking the corresponding non-owner through the smart phone.

If it is designed as such, it is expected that the efficiency will be high especially in the case of drought because there is no waste of water because management efficiency is made.

Of course, when the multiple connector 350 including the short-range wireless communication module is not provided, the identification code is assigned to each of the water level controllers 300, and the water level controller 300 transmits a specific signal related to the water level defects to the management server 400 The management server 400 may obtain the same effect as in the case of using the multiple connector by making the DB so that the level controller 300 corresponding to the identification code is located in which field.

In addition, the water level control of the water to be supplied to the rice paddle 200 can be set to a set value through the keypad on the water level controller 300.

In this case, the water level controller 300 opens the water channel 110 to receive the water, and receives the water from the water channel 100. At this time, the water level controller 300 blocks the water to provide smooth water supply, Drainage through the drain 130 is blocked.

2, the plurality of pads 200 connected to the reservoir and the water channel 100 are connected to the management server (not shown) via the water channel 100. In this case, 400 in order.

As another example, in the case where the waterway 100 is not provided as shown in FIG. 3, the water level controller 300 including the column PST can supply water through the water well 500, It can be easily controlled by configuring the level controller 300 to perform the control of the water purifying water pump 510.

In addition, even when the water channel 100 is present, the case 500 can be used in the same manner.

As described above, the water level management system according to the present invention can smoothly supply the water supplied from the reservoir through the water channel 100 without confusion or dispute, so there is no waste of water, and when the water capacity is sufficient, It is expected that it will be effective for next generation agricultural water supply.

100: waterway 200: rice field
300: Level controller 400: Management server
500:

Claims (3)

Between the rice field 200 and the waterway 100 is formed a water channel 110 capable of supplying water to the rice field 200 through the water channel 100, 1. A water level management system comprising a drain (130) provided at one side of the rice paddle (200), wherein a dam (120) serving as a water gate is installed on a waterway (100)
A column (PST) is installed at an arbitrary position of the paddy 200; A part of the length of the PST includes a memory, a keypad for setting, and a wireless LAN for transmitting and receiving a radio control signal including binary CDMA, FDMA, CDMA or TDMA, Bluetooth, IrDA, A level controller 300 on which the module is mounted is fixed; At the top of the column (PST), a solar panel (310) including a solar cell module is disposed obliquely; A capacitor 320 including a lithium ion phosphate, a lithium ion battery, or a lead-acid battery that accumulates electricity collected from the solar panel 310 is fixed on the pillars PST; A water level sensor 330 is installed at a predetermined height unit below the column PST so that the water level controller 300 controls the water level 110 and the dam 120 according to the water level of the water filled in the rice paddies 200. [ And the opening of the drain 130; The posture controller (PST) is further provided with a temperature sensor for measuring the atmospheric temperature, a humidity sensor for measuring the humidity, a carbon dioxide detecting sensor for measuring the carbon dioxide concentration, and a fine dust detecting sensor for measuring the fine dust concentration, And transmitting periodic detection information to a non-owner smart phone; The water level controller 300 is further configured to electrically connect a water pump 510 for pumping water in a well 500 disposed around the rice paddle to control on / off of the water pump 510;
The wedge 110, the dam 120, and the drain 130 may include a sealing plate in the form of a water gate, a shaft that is rotatably fixed to the center of the upper surface of the sealing plate, a worm formed on the shaft, And a worm motor for driving the worm wheel. The worm wheel is rotated in accordance with the rotation direction of the worm motor, and the worm is coupled to the worm to rotate the worm.
The camera (340) is installed in the pillar (PST) and is configured to transmit a captured image or a photograph to a non-owner smart phone under the control of the water level controller (300) after capturing the water level status;
The PST is further provided with a multiplexer 350 for communicating with one of the wireless LAN, the Bluetooth, the IrDA and the HomeRF using one of FDMA, TDMA and CDMA, The management server 400 may further include a management server 400 that can manage the location of the rice field 200 under the control of the level controller 300 when the level of the specific rice field 200 is poor. To the water level management system. delete delete

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