KR101135149B1 - Smart monitoring system for saltern using sensor network - Google Patents

Abstract

The present invention relates to a smart natural salt monitoring control system using a sensor network, and more specifically, to monitor the user by measuring the environmental information in the torsion, the user inflow or discharge the seawater stored in each section in the torsion to another section The present invention relates to a smart solar salt monitoring control system using a sensor network that can control the concentration of seawater in a salt field by controlling the control means.

Description

Smart monitoring system for saltern using sensor network

The present invention relates to a smart natural salt monitoring control system using a sensor network, and more specifically, to monitor the user by measuring the environmental information in the torsion, the user inflow or discharge the seawater stored in each section in the torsion to another section The present invention relates to a smart solar salt monitoring control system using a sensor network that can control the concentration of seawater in a salt field by controlling the control means.

In general, salt salt is formed to trap salt water and to collect salt crystals collected by evaporating moisture from sea water with solar energy and wind, and salt crystals produced by salt salt are called sun salts. Salt farms are generally divided into reservoirs where seawater is stored, evaporation ponds to evaporate seawater, and crystallization papers to further evaporate seawater as salt crystals.

The production of natural salts is subject to environmental influences such as climate, soil and topography, and the quality of natural salts depends on various external influences such as the concentration of evaporated seawater, climate suitability such as solar radiation, and wind strength. .

On the other hand, since the production of sun salt is mostly performed by manpower, it is not easy to grasp the environmental factors of sun salt. In particular, environmental factors such as temperature, humidity, roughness, and salinity of seawater inside and outside the saltfield were difficult to measure by manpower, and in most saltfields, these external environments were predicted by the producer's experience.

In addition, the conventional salt farm also has the inconvenience that the seawater trapped in the reservoir by the attraction force to the evaporation, and the seawater evaporated from the evaporation to the crystal. In particular, the manpower had to handle the process of transferring the seawater stored in the reservoir for a certain time to the evaporation place, and then evaporating the seawater for a certain time and then moving the evaporated seawater back to the crystallization.

In addition, when it is necessary to inflow the seawater outside the saltfield into the saltfield, the producer has to open and close the water gate in which the seawater flows for a certain time, and in order to raise the brine in the saltfield, the producer has to operate the pump daily. Occurred.

In addition, if the climate around the salt field suddenly changed, manpower had to be mobilized to cope with the weather situation. In particular, during heavy rains, rainwater flows into the seawater stored in the reservoir and the evaporation pond, thereby changing the concentration of the seawater, thereby degrading the quality of the produced natural salt. In addition, there was also a problem that acts as a risk factor to the producers when the seawater flooded in the salt field due to heavy rain.

However, until now, it has not been presented a system for measuring the environmental conditions inside and outside the saltfield to provide users with precise environmental information and remotely controlling remotely controlled seawater concentrations in the saltfield. .

The present inventors measure and provide a variety of environmental conditions such as temperature, humidity, salinity, wind speed, etc. inside and outside the saltfield, and provide the user with the remote control, so that the remotely located user can conveniently control the concentration of seawater inside the saltfield through the network. As a result of the efforts, the technical configuration of the smart natural salt monitoring control system using the sensor network has been completed to complete the present invention.

Accordingly, an object of the present invention is to provide a smart natural salt monitoring control system using a sensor network that measures the environmental information inside and outside the salt field, and the measured environmental information can be provided to the user.

In addition, another object of the present invention is to provide a smart natural salt monitoring control system using a sensor network that allows a user to provide environmental information inside and outside the torsion using a terminal, regardless of the location.

In addition, another object of the present invention to provide a smart natural salt monitoring control system using a sensor network that allows the user to conveniently adjust the seawater concentration inside the salt field through an external communication network.

In addition, another object of the present invention is to provide a smart natural salt monitoring control system using a sensor network that can provide the environmental information of the salt to the personnel working in the salt field in real time.

In addition, another object of the present invention is to provide a smart natural salt monitoring control system using a sensor network that can transmit and receive environmental information in and out of the salt field at low power, low cost.

In addition, another object of the present invention to provide a smart natural salt monitoring control system using a sensor network that can measure a variety of environmental information inside the salt field.

In addition, another object of the present invention is to provide a smart natural salt monitoring control system using a sensor network that detects the occurrence of rain, and when the rain can remotely flow seawater in the salt field.

In addition, another object of the present invention is to provide a smart natural salt monitoring control system using a sensor network that can measure the water level of the seawater in the saltfield, and prevent the seawater in the saltwater from overflowing during heavy rain.

In order to achieve the above object, the present invention provides a sensor network for measuring environmental information in a salt field, a sensor gateway connected to the sensor network and collecting the environmental information, and an environmental information database for storing the environmental information as environmental information data; It provides a smart solar salt monitoring control system using a sensor network including an environmental information server for transmitting the environmental information data to the outside.

In a preferred embodiment, it further comprises a user terminal connected to the environmental information server using a communication network, and outputs the environmental information data.

In a preferred embodiment, it is provided in the reservoir, evaporation, crystallization, sea basin in the salt field, and includes a concentration control pump for adjusting the concentration of seawater, the environmental information server, the operation information collected by the concentration control pump By transmitting to the user terminal or receiving control information from the user terminal is configured to control the operation of the concentration control pump.

In a preferred embodiment, it further comprises a display means is installed so that the environmental information is output in real time.

In a preferred embodiment, the sensor network is connected with the sensor gateway using Zigbee communication.

In a preferred embodiment, the sensor network comprises a temperature sensor node for measuring the temperature in the salt field, a humidity sensor node for measuring the humidity in the salt field, an illuminance sensor node for measuring the illuminance in the salt field, and A salinity sensor node for measuring salinity, a wind direction sensor node for measuring the wind direction of the torsion, and a wind speed sensor node for measuring the wind speed of the torsion.

In a preferred embodiment, the sensor network further comprises a rain sensor node for detecting the occurrence of rain in the salt field and a water level sensor node for measuring the water level of the seawater stored in the salt field.

The present invention has the following excellent effects.

First, according to the smart natural salt monitoring control system using the sensor network of the present invention, the user can easily receive the environmental information using the sensor network, without measuring the internal and external environmental information of the torsion daily, even in case of sudden climate change The effect is to be able to cope flexibly.

In addition, according to the smart natural salt monitoring and control system using the sensor network of the present invention, the user can be connected to the communication network through a PC or mobile at any time, regardless of the place, so that you can conveniently receive the environmental information inside and outside the torsion The effect can be obtained.

In addition, according to the smart natural salt monitoring and control system using the sensor network of the present invention, the seawater concentration inside the torsion is smoothly controlled without a separate manpower input to the torsion, in particular, when the user is far from the torsion The effect is to make it easier to cope with the surrounding climate change.

In addition, according to the smart natural salt monitoring control system using the sensor network of the present invention, the user working in the salt can obtain the effect that can accurately grasp the situation inside and outside the salt in real time.

In addition, according to the smart natural salt monitoring control system using the sensor network of the present invention, it is possible to obtain the effect that the transmission of environmental information can be easily made without installing a separate wired communication network such as a cable to the salt.

In addition, according to the smart natural salt monitoring control system using the sensor network of the present invention, the user is provided with a variety of environmental information necessary for the management of the salt salt, the user can smoothly manage the salt salt to improve the quality of the natural salt produced The effect can be obtained.

In addition, according to the smart natural salt monitoring control system using the sensor network of the present invention, after detecting the occurrence of rain, by allowing the user to flow seawater remotely to prevent the mixing of seawater and rainwater in the salt field, The effect of being able to produce a quality natural salt can be obtained.

In addition, according to the smart natural salt monitoring and control system using the sensor network of the present invention, by measuring the water level in the salt field during the heavy rain and by allowing the user to flow the sea water, the seawater stored in each section in the salt field will not overflow to another section The effect can be prevented.

1 is a block diagram of a salt monitoring system according to an embodiment of the present invention.
2 is a block diagram showing the configuration of a sensor network according to an embodiment of the present invention.

The terms used in the present invention were selected as general terms as widely used as possible, but in some cases, the terms arbitrarily selected by the applicant are included. In this case, the meanings described or used in the detailed description of the present invention are considered, rather than simply the names of the terms. The meaning should be grasped.

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

However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Like reference numerals designate like elements throughout the specification.

1 is a block diagram of a salt monitoring system according to an embodiment of the present invention, Figure 2 is a block diagram showing the configuration of a sensor network according to an embodiment of the present invention.

1 to 2, a salt monitoring system 100 according to a preferred embodiment of the present invention includes a sensor network 110, a sensor gateway 120, an environmental information database 130, and an environmental information server 140. , The user terminal 150, the concentration control pump 160 and the display means 170 is made.

The sensor network 110 measures the environmental information in the saltfield 10 and transmits the measured environmental information to the outside. The sensor network 110 includes a temperature sensor node 111 and a humidity sensor installed inside and outside the saltfield 10. Node 112, illuminance sensor node 113, salinity sensor node 114, wind direction sensor node 115, wind speed sensor node 116, rain sensor node 117, and water level sensor node 118.

In addition, the sensor network 110 is connected to the sensor gateway 120 to be described below using a communication network, in the present invention is a Zigbee (Zigbee) communication that can transmit and receive environmental information at low power in a large space in the communication network Was used.

In addition, the temperature sensor node 111, for measuring the temperature in the salt field 10, the temperature of the sea water stored in the salt field 10 and the temperature around the salt field 10 by measuring the sensor Transmit and receive to the gateway 120.

In addition, the humidity sensor node 112, to measure the humidity in the salt field 10, by detecting the water vapor in the atmosphere around the salt field 10 to measure the humidity of the salt field 10, this The sensor gateway 120 transmits and receives.

In addition, the illuminance sensor node 113, for measuring the illuminance in the torsion 10, senses the brightness of the sunlight shining on the torsion 10, and transmits and receives it to the sensor gateway 120.

In addition, the salinity sensor node 114, for measuring the salinity in the salt field 10, measures the salinity of the seawater stored in the salt field 10 to transmit and receive to the sensor gateway 120.

In addition, the wind direction sensor node 115, for measuring the wind direction of the torsion 10, measures the direction of the wind around the torsion 10, and transmits and receives it to the sensor gateway 120.

In addition, the wind speed sensor node 116 is for measuring the wind speed of the torsion 10, and measures the strength and speed of the wind around the torsion 10, and transmits and receives it to the sensor gateway 120. .

In addition, the rain sensor node 117, to detect whether the rain is generated, detects the rain water falling to the torsion, and whether or not the rain occurs to the sensor gateway 120. In addition, in order to more accurately detect the occurrence of rain, the rain sensor node 117 detects the fall of the rain water, the brightness sensor node 113 detects the brightness of the sunlight and synthesized it, whether rain or not It is desirable to judge.

 In addition, when the rain sensor node 117 detects the occurrence of the rain, it is more preferable that the sea water stored in the salt field under the control of the user to be transported to a place with a roof, such as Haeju 14. That is, it is possible to improve the quality of the natural salt to be produced by preventing the rain water mixed in the seawater stored in the salt field.

In addition, the water level sensor node 118, for measuring the height of the seawater stored in the salt field, measures the water level of the seawater stored in each section of the salt field, and transmits and receives it to the sensor gateway 120.

That is, the water level sensor node 118 measures the water level of the seawater stored in each section in the torsion and provides the user to adjust the water level in each section. When the weather conditions such as heavy rain are not good It is possible to determine the sea level in each section of the torsion, so that the seawater can cope before flooding to other sections.

The sensor gateway 120 is connected to the sensor network 110 and is configured to collect the environmental information. The sensor gateway 120 transmits data packets to various environmental information in and out of the torsion 10 measured through the sensor network 110. Receive in the form of.

The environmental information database 130 is for storing the environmental information as environmental information data. The environmental information database 130 receives environmental information collected by the sensor gateway 120 and generates and stores environmental information data that can be transmitted to a communication network.

The environmental information server 140 is for transmitting the environmental information data to the outside, and transmits the environmental information data stored in the environmental information database 130 to the outside through a communication network. In this case, the communication network may be an internet network, a radio wave communication network.

The user terminal 150 is connected to the environmental information server 140 using a communication network, receives and outputs the environmental information data, and may be a computing device or a mobile communication device.

Therefore, even if the user is not located inside the torsion 10, the user can be provided with environmental information in and out of the torsion 10.

The concentration control pump 160 is installed in the reservoir 11, the evaporation 12, the crystallization 13, sea basin 14 in the salt field 10, to adjust the concentration of sea water, the reservoir It is provided between 11, the said evaporation paper 12, the said crystal paper 13, and the seam 14, and each section is formed so that it may connect with each other. In this case, the concentration control pump 160 is formed so that the concentration of the seawater is adjusted by allowing the seawater stored in each section to flow into or out of the other section.

On the other hand, the reservoir 11 is a section for storing the sea water, the evaporation pond 12 is a section for increasing the salinity by evaporating sea water, the crystal paper 13 is a section for evaporating the sea water to crystallize, Haeju 14 is a section provided with a roof that can hold the sea water when the weather conditions are not good, such as rainy weather.

In addition, operation state information such as whether the operation state and malfunction of the concentration control pump 160 is collected in the environmental information server 140, the collected operation state information is transmitted to the user terminal 150 and output do. Therefore, the user can immediately determine whether the operation of the concentration control pump and whether or not through the user terminal 150.

In addition, the operation of the concentration control pump 160 is controlled through the user terminal 150, the environmental information server 140 receives the control information from the user terminal 150 of the concentration control pump 160 It is configured to control the operation.

On the other hand, such as the concentration control pump 160, so that the seawater of each section in the salt field can be flowed to the other section, each section may be provided with a barrier wall in the form of a gate that can be opened, closed, or closed, The blocking wall may be provided to be remotely controlled by a remote user such as the concentration control pump 160. For example, the seawater being stored in the evaporation basin 12 and the crystallization basin 13 is provided with a barrier wall so as to be connected to the sea basin 14, and when the barrier wall is opened, Can be introduced.

In addition, while the remote control is controlled by the user, such as the concentration control pump 160, and further comprises a water gate to block the seawater flowing into the salt farm, the user to open or close the water gate, the salt water to the salt water It may be provided to inflow, or to block.

The display means 170 is installed so that the environmental information is output in real time, and is installed at a position that a user can see in the vicinity of the torsion 10. Therefore, a user working in the salt field 10 can also check the environment information inside and outside the salt field 10 without a separate terminal device. In addition, the display means 170 is directly connected to the sensor gateway 130 to output the environmental information. Preferably, the current environment information is output in real time.

The operation process according to a preferred embodiment of the present invention as described above is as follows.

First, the temperature sensor node 111 of the sensor network 110, the humidity sensor node 112, the illuminance sensor node 113, and the salinity of each of the inner and outer sections of the salt field 10. A sensor node 114, the wind direction sensor node 115, the wind speed sensor node 116, the rain sensor node 117 and the water level sensor node 118 is provided, the Measure various environmental information such as temperature, humidity, illuminance, salinity, wind direction, wind speed, rainy weather and sea water level.

Next, the environmental information measured by the sensor network 110 is collected by the sensor gateway 120, the environmental information collected by the sensor gateway 120 is transmitted to the environmental information database 130, or the display Sent to the means 170.

Next, the environmental information transmitted to the environmental information database 130 is extracted as environmental information data, stored in the environmental information database 130, and the environmental information transmitted to the display means 170 is stored in the display means ( 170) is output in real time.

Next, the environment information stored in the environment information database 130 is received from the environment information server 140 and transmitted to an external web server. In this case, the user may access the external web server through the user terminal 150 to receive the environmental information data.

Next, by the user receiving the environmental information data, a control signal for adjusting the seawater concentration in the salt field 10 is input. At this time, the control signal input through the user terminal 150 is transmitted to the environmental information server 140.

Next, the environmental information server 140 controls the concentration control pump 160 to introduce or discharge seawater in the saltfield 10 to another section, thereby adjusting the concentration of seawater.

That is, by measuring the concentration of seawater stored and evaporated in the salt field, and adjusting to a concentration that can produce an optimal sun salt, improve the quality of the sun salt to be produced and the producers conveniently manage the salt field from a distance You can do it.

As described above, the present invention has been illustrated and described with reference to preferred embodiments, but is not limited to the above-described embodiments, and is provided to those skilled in the art without departing from the spirit of the present invention. Various changes and modifications will be possible.

10: saltfield 11: reservoir
12: evaporation place 13: crystal
14: Do it
100: salt monitoring system 110: sensor network
111: temperature sensor node 112: humidity sensor node
113: illuminance sensor node 114: salinity sensor node
115: wind direction sensor node 116: wind speed sensor node
117: rain sensor node 118: water level sensor node
120: sensor gateway 130: environmental information database
140: environmental information server 150: user terminal
160: concentration control pump 170: display means

Claims (7)

A sensor network 110 for measuring environmental information in the salt field 10 producing eaves salt by evaporating seawater in each section consisting of a reservoir 11, an evaporation basin 12, a crystallization basin 13 and a sea basin 14;
A sensor gateway 120 connected to the sensor network 110 and collecting the environmental information;
An environmental information database 130 for storing the environmental information as environmental information data;
An environmental information server 140 for transmitting the environmental information data to the outside;
A user terminal 150 which receives the environmental information data and outputs it to the screen, receives a control signal for adjusting the seawater concentration of each section in the torsion 10 and transmits it to the environmental information server 140;
Between the reservoir 11 and the evaporation basin 12, between the evaporation basin 12 and the crystallization basin 13, between the evaporation basin 13 and the sea basin 14 and with the crystallization basin 13 Includes between the sea 14, the concentration control pump 160 for introducing or discharging the sea water;
The environmental information server 140 controls the operation of the concentration control pump 160 provided in each section in the torsion 10 in accordance with the control signal so that each concentration control pump 160 is stored in each section Seawater flows to another section to adjust the salinity of the seawater stored in the evaporation pond 12, the crystallization 13 or the sea basin 14, the information of the state in which the concentration control pump 160 is operating Smart natural salt monitoring and control system using a sensor network, characterized in that for collecting the operating state information and the changed salinity information of the seawater stored in each section and transmits to the user terminal 150 in real time.
delete delete The method of claim 1,
A display unit (170) installed adjacent to the torsion and connected to the sensor gateway so that a user working on the torsion can be checked, and receiving the current environment information collected at the sensor gateway and outputting the environment information in real time; Smart natural salt monitoring control system using a sensor network, characterized in that it further comprises.
The method of claim 1,
The sensor network 110, the smart gateway salt monitoring control system using a sensor network, characterized in that connected to each other using the sensor gateway 120 using Zigbee (Zigbee) communication.
6. The method of claim 5,
The sensor network 110,
A temperature sensor node (111) for measuring a temperature in the salt field (10);
A humidity sensor node 112 for measuring humidity in the salt field 10;
An illumination sensor node 113 for measuring illumination in the salt field 10;
A salinity sensor node 114 for measuring salinity in the salt field 10;
Wind direction sensor node 115 for measuring the wind direction of the torsion (10); or
Smart natural salt monitoring control system using a sensor network comprising a ;; wind speed sensor node (116) for measuring the wind speed of the torsion (10).
The method of claim 6,
The sensor network 110,
A rain sensor node 117 for detecting whether or not rain has occurred in the torsion 10;
Smart natural salt monitoring and control system using a sensor network further comprises; a water level sensor node (118) for measuring the water level of the seawater stored in the salt field (10).

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