KR20200084663A - Sprinkler system - Google Patents

Abstract

The present invention relates to a sprinkler system including: a sprinkler unit installed in a plant vegetation area and spraying water in the vegetation area; a communication module communicating with an administrator′s terminal through a wireless communication network and receiving an operation signal from the administrator′s terminal with respect to the operation of the sprinkler unit; and a control module controlling the sprinkler unit in accordance with the operation signal received through the communication module. With the sprinkler system according to the present invention, the administrator can remotely operate a sprinkler through the terminal. Accordingly, the administrator can control the sprinkler with greater ease. In addition, the administrator can quickly respond to an emergency situation.

Description

Sprinkler system

The present invention relates to a sprinkler system, and relates to a sprinkler system that can be operated by an administrator remotely.

Sprinklers are often used to supply agricultural water to agricultural crops.

A typical sprinkler is a device that scatters and disperses water supplied from a pump through a hose. Water supplied at high pressure by the pump is supplied to the sprinkler through a water pipe, and water is sprayed through the sprinkler head.

At this time, in order to widen the width of the water sprayed through the sprinkler, the water supplied to the water pipe is pressurized to the highest possible pressure.

However, in the case of a conventional sprinkler, since it is installed in a vegetation area that is vegetation-produced on crops, when a sprinkler is operated, it is difficult for an administrator to visit the vegetation area and operate the sprinkler, so that it is difficult to quickly control sprinklers when troublesome and emergency situations occur There are disadvantages.

Registered Patent Publication No. 10-1730789: Sprinkler for agricultural crops with nozzle clogging prevention function

The present invention was devised to improve the above problems, and an object thereof is to provide a sprinkler system that allows an administrator to operate a sprinkler remotely through a terminal.

The sprinkler system according to the present invention for achieving the above object is installed in a vegetation zone where plants are planted, and sprinkler units for spraying water into the vegetation zone and communicating with a terminal of the manager through a wireless communication network, the manager It has a communication module for receiving an operation signal for the operation of the sprinkler unit from the terminal of the, and a control module for controlling the sprinkler unit according to the operation signal received through the communication module.

On the other hand, the sprinkler system according to the present invention is further provided with a temperature sensor installed in the sprinkler unit to measure the temperature of the vegetation area, the control module is based on the measurement data provided by the temperature sensor temperature of the vegetation area When is below the preset dormant temperature, it is determined that the vegetation in the vegetation zone is in the dormant phase, and the sprinkler unit is controlled to block the supply of water to the vegetation zone.

In addition, the sprinkler system according to the present invention is further provided with a humidity sensor installed in the sprinkler unit to measure the humidity of the vegetation area, the control module is based on the measurement data provided by the humidity sensor the vegetation area When the humidity of is greater than or equal to a preset threshold humidity, the sprinkler unit may be controlled to determine that the vegetation area is a rainy anticipated area and to prevent water from being supplied to the vegetation area.

In addition, the sprinkler system according to the present invention further includes a light amount sensor installed in the sprinkler unit to measure the amount of sunlight incident on the vegetation area, and the control module measures provided by the light amount sensor Based on the data, when the amount of sunlight incident on the vegetation area exceeds a predetermined reference light amount, the sprinkler unit is controlled to increase the irrigation amount of the sprinkler unit by a preset increment than the preset irrigation amount set by the administrator. You may.

In addition, the sprinkler system according to the present invention further includes a vibration detection sensor installed in the sprinkler unit so as to detect vibration transmitted from the sprinkler unit, and the control module measures data provided by the vibration detection sensor. When the vibration transmitted to the sprinkler unit exceeds a predetermined reference vibration value based on the control, it is determined that an earthquake occurs in the vegetation area, and the sprinkler unit is controlled to block the supply of water to the vegetation area. It might be.

In addition, the sprinkler system according to the present invention analyzes a camera installed in the sprinkler unit so as to photograph the vegetation area, and a shooting image captured by the camera, and is green among the vegetation areas included in the shooting image. Further comprising an image analysis unit for analyzing the vegetation range, the control module is a ratio of the area of the vegetation range to the area of the vegetation area included in the photographed image based on the analysis information provided by the image analysis unit is preset If it is less than the reference ratio, it is determined that an abnormality has occurred in the vegetation state of the plant in the vegetation area, and the sprinkler unit is controlled to block water supply to the vegetation area, and notification information is transmitted to the terminal of the manager. It might be.

In addition, the sprinkler system according to the present invention is further provided with a GPS module that is installed on the sprinkler unit to generate location information of the sprinkler unit, and the control module is the location information of the sprinkler unit provided by the GPS module. If the sprinkler unit is moved by a predetermined movement distance from the initial installation position on the basis of, it may be determined that the sprinkler unit is stolen and transmit the stolen information to the terminal of the administrator.

On the other hand, the communication module communicates with the management server of the meteorological observation agency, receives the weather information about the weather in the vegetation area where the sprinkler unit is installed from the management server, provides it to the control module, and the control module If the temperature of the vegetation zone is below a preset dormant temperature or the humidity of the vegetation zone is above a preset threshold humidity based on the weather information provided by the module, the sprinkler unit is prevented from being supplied with water to the vegetation zone. You can also control.

The sprinkler system according to the present invention has an advantage that the administrator can more easily control the sprinkler because the administrator can operate the sprinkler through a terminal from a long distance, and can respond quickly even when an emergency occurs.

1 is a conceptual diagram of a sprinkler system according to the present invention,
Figure 2 is a block diagram of the sprinkler system of Figure 1,
3 is a conceptual diagram of a sprinkler system according to another embodiment of the present invention,
Figure 4 is a block diagram of the sprinkler system of Figure 3,
5 is a conceptual diagram of a sprinkler system according to another embodiment of the present invention,
6 is a block diagram of the sprinkler system of FIG. 5,
7 is a block diagram of a sprinkler system according to another embodiment of the present invention,
8 is a block diagram of a sprinkler system according to another embodiment of the present invention,
9 is a block diagram of a sprinkler system according to another embodiment of the present invention.

Hereinafter, a sprinkler system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The present invention can be applied to various changes and may have various forms, and specific embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to specific disclosure forms, and it should be understood that all modifications, equivalents, and substitutes included in the spirit and scope of the present invention are included. In describing each drawing, similar reference numerals are used for similar components. In the accompanying drawings, the dimensions of the structures are shown to be enlarged than actual in order to clarify the present invention.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from other components. For example, the first component may be referred to as a second component without departing from the scope of the present invention, and similarly, the second component may be referred to as a first component.

Terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprises" or "have" are intended to indicate the presence of features, numbers, steps, actions, elements, parts or combinations thereof described in the specification, one or more other features. It should be understood that the existence or addition possibilities of fields or numbers, steps, actions, components, parts or combinations thereof are not excluded in advance.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person skilled in the art to which the present invention pertains. Terms, such as those defined in a commonly used dictionary, should be interpreted as having meanings consistent with meanings in the context of related technologies, and should not be interpreted as ideal or excessively formal meanings unless explicitly defined in the present application. Does not.

1 and 2 show a sprinkler system 100 according to the present invention.

Referring to the drawings, the sprinkler system 100 is installed in a vegetation area where plants are planted, and sprinkler unit 110 spraying water in the vegetation area and communicating with a manager's terminal 15 through a wireless communication network. , Communication module 120 for receiving an operation signal for the operation of the sprinkler unit 110 from the terminal 15 of the administrator, and a sensor installed in the sprinkler unit 110 to measure information about the environment of the vegetation area A module 130 and a control module 140 for controlling the sprinkler unit 110 according to the operation signal received through the communication module 120 are provided.

The sprinkler unit 110 is provided on the support 111 installed on the vegetation area, the water pipe 112 supported by the support 111, and installed on the top of the water pipe 112 to be supplied through the water pipe 112 It has an injection head 113 for spraying water to the vegetation area, and a water supply unit 114 for supplying water to the water pipe 112.

The support 111 includes a fixed body 115 fixed to the water pipe 112 and a plurality of support legs 116 installed on the fixed body 115 to support the fixed body 115 spaced upward from the ground. To be equipped.

The fixed body 115 is formed in an annular shape with a hollow so that the water pipe 112 is inserted into and fixed to the central portion. On the outer circumferential surface of the fixed body 115, support legs 116 are installed to be spaced apart from each other along the circumferential direction. The support leg 116 is installed on the outer circumferential surface of the fixed body 115, the lower end is supported on the ground of the vegetation area. At this time, the support legs 116 are preferably formed radially around the fixed body 115.

The water pipe 112 extends in the vertical direction, and is formed in a pipe shape in which a flow path through which water passes is provided. The water pipe 112 is bent backward so that it can be easily connected to the water supply unit 114 at the lower end.

The injection head 113 is installed at the upper end of the water pipe 112, and sprays water that has passed through the water pipe 112 to the ground of the vegetation area. Since the spray head 113 is a sprinkler head generally used in the prior art for spraying water, detailed description will be omitted.

The water supply unit 114 includes a storage tank (not shown) in which water is stored, a supply pipe 117 having both ends connected to the lower ends of the storage tank and the water supply pipe 112, and the water supply pipe 112 by pumping water contained in the storage tank. It is provided with a supply pump 118 installed in the supply pipe 117 to be able to supply. At this time, the water supply unit 114 may be applied to the water supply facility of the building instead of the storage tank.

The communication module 120 is for performing communication with the terminal 15 of the manager, and performs data communication with the terminal 15 of the manager through a wireless communication network. The communication module 120 receives a control signal transmitted by the administrator through the terminal 15 and transmits the received control signal to the control module 140.

The sensor module 130 includes a temperature sensor 131 for measuring the temperature in the vegetation area, and a humidity sensor 132 for measuring the humidity in the vegetation area. The temperature sensor 131 and the humidity sensor 132 are respectively installed in the water supply pipe 112 above the fixed body 115. The temperature sensor 131 and the humidity sensor 132 transmits information on the measured temperature and humidity to the control module 140.

The control module 140 operates the sprinkler unit 110 according to the control signal transmitted through the communication module 120. That is, when the administrator sends a control signal for the operation to the communication module 120 through the terminal 15, the communication module 120 receives the control signal and transmits it to the control module 140, and the control module 140 ) Operates the supply pump 118 of the water supply unit 114 so that water is injected into the vegetation area. On the other hand, when the administrator sends a control signal for the stop to the communication module 120 through the terminal 15, the communication module 120 receives the control signal and transmits it to the control module 140, the control module 140 ) Stops the supply pump 118 so that water supply to the vegetation zone is stopped.

The sprinkler system 100 according to the present invention configured as described above allows the administrator to operate the sprinkler remotely through the terminal 15, so that the administrator can more easily control the sprinkler and quickly even when an emergency occurs It has the advantage of being able to respond.

Meanwhile, the control module 140 may control the operation of the sprinkler unit 110 based on measurement data transmitted from the sensor module 130 while the sprinkler unit 110 is operated. That is, when the temperature of the vegetation zone is below a preset dormant temperature based on the measurement data provided by the temperature sensor 131, the control module 140 determines that the vegetation in the vegetation zone is a dormant period and waters the vegetation zone. The sprinkler unit 110 can be controlled so that the supply is blocked. Here, the dormant temperature is applied to 15℃, and if the temperature of the vegetation zone is lower than the dormant temperature, the vegetation in the vegetation zone, that is, the grass corresponds to the dormant period, so even if water is supplied to the vegetation zone, the vegetation of the plant is not affected When the temperature of the vegetation area is below the dormant temperature, the control module 140 stops the operation of the supply pump 118 of the water supply unit 114.

In addition, the control module 140, when the humidity of the vegetation area is greater than a predetermined threshold humidity based on the measurement data provided by the humidity sensor 132, determines the vegetation area as a rainy predicted area and water is supplied to the vegetation area. The sprinkler unit 110 is controlled so that the supply is blocked. Here, 80% of the limit humidity is applied, and when the humidity of the vegetation area is higher than the limit humidity, the probability of rain in the vegetation area increases, so the control module 140 provides a water supply unit when the temperature of the vegetation area is above the limit humidity. The operation of the supply pump 118 of 114 is stopped.

The control module 140 can control the sprinkler unit 110 according to the environment of the vegetation area based on the measurement data of the sensor module 130, so that an administrator can more easily manage the vegetation area.

Meanwhile, FIGS. 3 and 4 illustrate a sprinkler system 210 according to another embodiment of the present invention.

Elements having the same function as in the above-described drawings are denoted by the same reference numerals.

Referring to the drawings, the sprinkler system 210 further includes a light amount sensor 211 installed in the sprinkler unit 110 to measure the amount of sunlight incident on the vegetation area.

The light amount sensor 211 is installed at the upper end of the water pipe 112 to measure the amount of sunlight incident on the vegetation area. On the other hand, the light amount sensor 211 is not limited to the illustrated example, but may be installed on the fixed body 115 or the support 111. The light quantity sensor 211 transmits information on the measured light quantity to the control module 140.

When the amount of sunlight incident on the vegetation region increases, the amount of evaporation increases, so that plants in the vegetation region require more water. Therefore, the control module 140, when the amount of sunlight incident on the vegetation area exceeds the predetermined reference light amount based on the measurement data provided by the light amount sensor, the irrigation amount of the sprinkler unit 110 to the manager The sprinkler unit 110 is controlled to be increased by a preset increment from a preset watering amount set by the sprinkler unit 110.

Here, an increment of 10 to 15% is required. For example, when the irrigation amount of the sprinkler installed in the vegetation region is set to 100 ml per hour by the administrator, when the amount of sunlight incident on the vegetation region exceeds a preset reference amount, the control module 140 increases the irrigation amount of the sprinkler. The supply pump 118 is controlled to be 110 ml per hour. At this time, the control module 140 is provided with a database (not shown) to store information about the amount of irrigation set by the administrator.

As described above, the sprinkler system 210 has an advantage in that sufficient water can be supplied to the vegetation of plants even if water is partially evaporated by sunlight based on information on the amount of light measured through the photometric sensor.

Meanwhile, FIGS. 5 and 6 illustrate a sprinkler system 220 according to another embodiment of the present invention.

Referring to the drawings, the sprinkler system 220 further includes a vibration detection sensor 221 installed in the sprinkler unit 110 to detect vibration transmitted from the sprinkler unit 110.

The vibration detection sensor 221 is for measuring vibration applied to the sprinkler unit 110 in the vegetation area, and is installed on any one of the support legs 116. Meanwhile, the vibration detection sensor 221 is not limited to the illustrated example, but may be installed on the fixed body 115 of the support 111. The vibration sensor 221 transmits the measured vibration information to the control module 140.

When an earthquake occurs in the vegetation area, the sprinkler installed in the vegetation area is stopped, and the control module 140 transmits the sprinkler unit 110 based on the measurement data provided by the vibration sensor 221. When the vibration to be exceeded a predetermined reference vibration value, it is determined that an earthquake occurs in the vegetation area, and the sprinkler unit 110 is controlled so that water is not supplied to the vegetation area.

The sprinkler system 220 of the present invention configured as described above automatically stops the operation of the sprinkler unit 110 when an earthquake occurs in the vegetation area based on information about the vibration detected through the vibration sensor 221 This has the advantage that managers can respond more quickly to earthquakes.

Meanwhile, FIG. 7 shows a sprinkler system 230 according to another embodiment of the present invention.

Referring to the drawings, the sprinkler system 230 is installed on the sprinkler unit 110 further includes a vegetation analysis module 231 that analyzes the vegetation state of plants in the vegetation area.

The vegetation analysis module 231 analyzes a camera 232 installed in the sprinkler unit 110 so as to photograph the vegetation area, and a photographed image taken by the camera 232, included in the photographed image It has an image analysis unit 233 to analyze the green vegetation range of the vegetation area.

Although the camera 232 is not shown in the drawing, it is installed on the fixed body 115 of the support 111 to photograph the vegetation area around the support 111. The camera 232 provides the photographed image to the image analysis unit 233.

The image analysis unit 233 sets a vegetation area where plants are planted from the captured image provided by the camera 232. Here, when the camera 232 is installed by the administrator, the vegetation area from the captured image may be preset in the image analysis unit 233. Next, the image analysis unit 233 analyzes the green vegetation range among the vegetation regions included in the captured image. Here, the image analysis unit 233 transmits information on the vegetation area and vegetation range in the captured image to the control module 140.

The control module 140, when the ratio of the area of the vegetation range to the area of the vegetation area included in the photographed image based on the analysis information provided by the image analysis unit 233 is less than a predetermined reference ratio, the It is judged that an abnormality has occurred in the vegetation state of the plant in the vegetation area. Here, when it is determined that an abnormality has occurred in the vegetation state, the control module 140 controls the sprinkler unit 110 so that the supply of water to the vegetation area is blocked, and the manager through the communication module 120 Notification information may be transmitted to the terminal 15. Here, it is preferable that the reference ratio is 30%.

The sprinkler system 230 configured as described above, if the green vegetation range in the captured image taken by the camera 232 is less than the reference ratio, determines that a disease has occurred in the vegetation area and sends it to the terminal 15 of the manager. Since the notification information is transmitted and the operation of the sprinkler unit 110 is stopped, there is an advantage that the manager can more easily grasp the vegetation state of the vegetation area.

Meanwhile, FIG. 8 illustrates a sprinkler system 240 according to another embodiment of the present invention.

Referring to the drawings, the sprinkler system 240 is further provided with a GPS module 241 that is installed on the sprinkler unit 110 to generate location information of the sprinkler unit 110.

Although the GPS module 241 is not shown in the drawing, it is installed on the fixed body 115 of the support 111. The GPS module 241 calculates the position of the current sprinkler unit 110 according to a triangular method by measuring the exact time and distance based on the location information provided from three or more GPS satellites, and calculating the three different distances according to a triangular method. The transferred location information is transmitted to the control module 140.

At this time, the control module 140 is based on the position information of the sprinkler unit 110 provided by the GPS module 241, when the sprinkler unit 110 is moved by a predetermined movement distance from the initial installation position, the sprinkler It is determined that the unit 110 is stolen and transmits the stolen information to the terminal 15 of the manager. Here, the administrator can set the sprinkler unit 110 in the vegetation area, and then set the location information generated by the GPS module 241 to the control module 140 as the initial installation location of the sprinkler unit 110.

The sprinkler system 240 according to the present invention configured as described above may determine whether the sprinkler is stolen according to the location information of the sprinkler unit 110 generated in the GPS module 241.

Meanwhile, FIG. 9 illustrates a sprinkler system 250 according to another embodiment of the present invention.

Referring to the drawings, the sprinkler system 250, instead of the sensor module 130, the communication module 120 communicates with the management server 251 of the meteorological observation agency. Here, the meteorological observation agency is the agency that observes and forecasts the weather.

The communication module 120 communicates data with the management server 251 of the meteorological observation agency, and receives weather information about the weather in the vegetation area where the sprinkler unit 110 is installed from the management server 251. Here, the weather information includes information on the temperature and humidity of the vegetation area. The communication module 120 transmits the received weather information to the control module 140.

Meanwhile, the control module 140 may control the operation of the sprinkler unit 110 based on the weather information provided by the communication module 120 while the sprinkler unit 110 is operating. That is, when the temperature of the vegetation zone is below a preset dormant temperature based on weather information, the control module 140 determines that the vegetation in the vegetation zone is a dormant period and prevents water supply to the vegetation zone from being blocked. 110 can be controlled. Here, the dormant temperature is 15℃.

In addition, the control module 140, based on the weather information, if the humidity of the vegetation area is greater than a preset threshold humidity, determines the vegetation area as a rainy predicted area so that the water supply to the vegetation area is blocked so that the sprinkler unit ( 110). Here, 80% of the limit humidity is applied.

The sprinkler system 250 according to the present invention described above is provided with weather information from the management server 251 of the meteorological observation agency even if the sensor module 130 is not provided, so that the sprinkler unit 110 can be easily operated according to the weather in the vegetation area. Can be controlled.

The description of the presented embodiments is provided to enable any person of ordinary skill in the art to use or practice the present invention. Various modifications to these embodiments will be apparent to those skilled in the art of the present invention, and the general principles defined herein can be applied to other embodiments without departing from the scope of the present invention. Thus, the present invention should not be limited to the embodiments presented herein, but should be interpreted in the broadest scope consistent with the principles and novel features presented herein.

100: sprinkler system
110: sprinkler unit
111: support
112: water pipe
113: spray head
114: water supply
115: fixed body
116: support leg
117: supply pipe
118: supply pump
120: communication module
130: sensor module
131: temperature sensor
132: humidity sensor
140: control module

Claims (8)

A sprinkler unit installed in a vegetation area where plants are planted to spray water to the vegetation area;
A communication module for communicating with an administrator's terminal through a wireless communication network, receiving an operation signal for the operation of the sprinkler unit from the administrator's terminal; And
The control module controls the sprinkler unit according to the operation signal received through the communication module.
Sprinkler system.
According to claim 1,
The sprinkler unit is installed in the temperature sensor for measuring the temperature of the vegetation zone; further provided,
When the temperature of the vegetation zone is below a preset dormant temperature based on the measurement data provided by the temperature sensor, the control module determines that the vegetation in the vegetation zone is a dormant period and prevents water from being supplied to the vegetation zone. To control the sprinkler unit,
Sprinkler system.
According to claim 1,
The humidity sensor is installed in the sprinkler unit to measure the humidity of the vegetation area; further provided,
The control module determines the vegetation area as a rainy predicted area when the humidity of the vegetation area is higher than a preset threshold humidity based on the measurement data provided by the humidity sensor, so that the water supply to the vegetation area is blocked. To control the clutter unit,
Sprinkler system.
According to claim 1,
It is further provided with; a light quantity detection sensor installed in the sprinkler unit to measure the amount of sunlight incident on the vegetation area;
The control module, when the amount of sunlight incident on the vegetation area exceeds a predetermined reference amount of light based on the measurement data provided by the light amount sensor, the amount of irrigation of the sprinkler unit is greater than the amount of irrigation set by the administrator. Controlling the sprinkler unit to increase by a preset increment,
Sprinkler system.
According to claim 1,
It is further provided with a vibration detection sensor installed in the sprinkler unit to detect the vibration transmitted from the sprinkler unit,
When the vibration transmitted to the sprinkler unit exceeds a predetermined reference vibration value based on the measurement data provided by the vibration sensor, the control module determines that an earthquake occurs in the vegetation area and waters the vegetation area. Controlling the sprinkler unit so that it is blocked from being fed,
Sprinkler system.
According to claim 1,
A camera installed in the sprinkler unit to photograph the vegetation area; And
Further comprising a; image analysis unit for analyzing the green image of the vegetation area included in the captured image, to analyze the captured image taken by the camera;
The control module is based on the analysis information provided by the image analysis unit, when the ratio of the area of the vegetation range to the area of the vegetation area included in the photographed image is less than a predetermined reference ratio, the plant in the vegetation area Determining that an abnormality has occurred in the vegetation state, controlling the sprinkler unit so that the supply of water to the vegetation area is blocked, and transmitting notification information to the terminal of the manager,
Sprinkler system.
According to claim 1,
And a GPS module installed in the sprinkler unit to generate location information of the sprinkler unit;
The control module determines that the sprinkler unit is stolen when the sprinkler unit is moved by a predetermined movement distance from the initial installation position based on the location information of the sprinkler unit provided by the GPS module. Transmitting the stolen information to the terminal,
Sprinkler system.
According to claim 1,
The communication module communicates with the management server of the meteorological observation agency, receives weather information about the weather in the vegetation area where the sprinkler unit is installed from the management server, and provides it to the control module,
The control module blocks the supply of water to the vegetation area when the temperature of the vegetation area is below a preset dormant temperature or the humidity of the vegetation area is above a preset limit humidity based on the weather information provided by the communication module. To control the sprinkler unit as much as possible,
Sprinkler system.

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