KR20200094586A - Smart farm system and operation method for insect breeding - Google Patents

Abstract

The present invention relates to a smart farm system for insect breeding and an operating method thereof. To this end, the present invention includes: at least one insect breeding apparatus (100); a smart farm system (200) provided in the insect breeding apparatus (100), and providing an environment optimized for insect growth based on a database optimized for growth by sensing an insect growth environment in real time; a server (300) connected with the smart farm system (200) wirelessly and through a wire to transmit and receive data, and including a learning machine and a database; and a terminal (400) externally controlling the smart farm system (200) or the server (300) in real time. According to the present invention constituted as stated above, since the system provides light, water and the like based on a database optimized for growth by sensing a growth environment of edible insects, the system can provide an environment optimized for the growth of edible insects, thus considerably improving the quality and reliability of the smart farm system, which can create a favorable image by satisfying various desires (needs) of consumers, who are users.

Description

Smart farm system and operation method for insect breeding

An embodiment of the present invention relates to a smart farm system and an operating method for insect breeding, and more specifically, edible insects grow by providing light and water based on a database optimized for growth by sensing the growth environment of the edible insects In order to provide an optimized environment, this greatly improves the quality and reliability of the smart farm system, thereby satisfying various needs (needs) of consumers as users, so that a good image can be planted.

As is well known, edible insects are mainly food resources that use insects as food. It is mainly distributed in Japan, the People's Republic of China, Laos, Thailand and Vietnam. However, in Korea, grasshoppers and pupae are mainly used for food, and in 2014, the brown larva and white-spotted larvae were recognized as food ingredients by the Ministry of Food and Drug Safety. These brown and white spotted larvae are called'gosaeae' and'flowers' respectively through nickname contests, and longevity scarab larvae and crickets have also been recognized as temporary food ingredients.

On the other hand, edible insects are recognized for their eco-friendly values, and are emerging as food resources of the future in recognition of their nutritional value in preparation for the fact that greenhouse gas emissions from livestock industry account for 17% of global warming. Famous restaurants in Europe and the United States are also attracting a lot of insect dishes, and some religious countries are avoiding edible insects like beef and pork. Edible insect breeding is attracting attention as a cost-effective solution for developing countries that do not have food safety guarantees.

In addition, restaurants that sell food such as cookies, macarons, and pasta are also being created. Related scientific and technological research is being conducted to reduce the disgust of edible insects and use them as food in everyday life, and recipes are being developed.

According to the United Nations Food and Agriculture Organization (FAO), insects have higher levels of protein, minerals, vitamins and fiber than beef. In addition, it is a food with a higher content of unsaturated fatty acids than saturated fat, and it can be said to have a very great nutritional value. Insects are cold and warm animals that consume less energy to maintain body temperature, so they require less feed, and water footprints and greenhouse gas emissions are significantly lower than conventional livestock. Edible insects show exponential growth and propagation cycles more exponentially than traditional livestock, and the advantage of less land space is also an advantage. In order to make edible insects popularized as food for the future, research on safety is underway. The biggest concern is food allergies, which can be dangerous even if there are crustacean (chitinous) allergies such as shrimp or crab.

The insect breeding device of the prior art is not optimized for the growth of edible insects, and thus a problem that is not suitable for the growth of edible insects has occurred.

In addition, in the prior art, a method of selecting a method having high insect yield and activity based on information collected by artificial intelligence has caused a great problem that the module cannot control water, light, temperature, and the like.

In order to solve the above-mentioned problems, the following prior art documents have been developed in the prior art, but a large problem has arisen that still cannot solve the above-mentioned problems of the prior art.

Republic of Korea Registered Patent Publication No. 1677274 (2016. 11. 11) has been registered. Republic of Korea Registered Patent Publication No. 1856845 (2018. 05. 03) has been registered. Korean Registered Patent Publication No. 1765425 (July 31, 2017) has been registered.

The present invention has been devised to solve the problems of the prior art as described above, and is a first object that a smart farm system, a server, and a terminal are provided in an insect breeding device, and the present invention can be achieved by the above-described technical configuration. The second purpose is to detect the growth environment of edible insects and automatically provide light and water based on the database optimized for growth, so that the edible insect can provide an optimized environment for growth, and the third purpose is to collect it with artificial intelligence. Based on the information obtained, the method of selecting insects' high yield and activity is selected so that the module can control water, light, temperature, etc. in an optimal environment, and the fourth purpose is real-time grasping of the breeding status of edible insects. The fifth purpose is to increase the yield of crickets, and to ensure the smooth breeding of edible insects, because the fifth purpose is to breed edible insects in an optimized environment. Since it can be reared, the time required for a person is reduced and through this, the labor cost can be drastically reduced, and the seventh purpose is to allow the breeder to observe or check the breeding environment through a remote smart farm system for breeding edible insects. The 8th purpose is to make it easy for even a novice beginner to breed an edible insect, and the ninth purpose is to immediately respond to an abnormality of an edible insect. Since it greatly improves the quality and reliability of the farm system, it provides a smart farm system and an operation method for insect breeding that can satisfy a variety of needs (needs) of users, users, and plant a good image.

In order to achieve this object, the present invention provides at least one insect breeding device; A smart farm system provided in an insect breeding device and providing an environment optimized for insect growth based on a database optimized for growth by real-time sensing of an insect growth environment; A server that is connected to the smart farm system via wired or wireless data to exchange data, and includes a learning machine and a database; And a smart farm system or a terminal for controlling the server in real time from the outside; provides a smart farm system for insect breeding comprising a.

In addition, the present invention relates to an operating method that provides an optimized environment for insects to grow based on a database optimized for growth by real-time sensing the insect's growth environment using a smart farm system for insect breeding, and insects in an insect breeding device. Real-time detection of the growth environment of the smart farm using the smart farm system, the control unit collects insect information, and the collected information is stored and built on the server through the communication unit, and the user checks the real-time smart farm system through the terminal. It provides an operation method of a smart farm system for insect breeding, characterized by automatically controlling an insect breeding device with artificial intelligence.

As described in detail above, the present invention is to provide a smart farm system, a server, and a terminal in an insect breeding device.

The present invention by the above-described technical configuration is to provide an environment optimized for edible insects to grow by automatically providing light and water based on a database optimized for growth by sensing the growth environment of edible insects.

In addition, the present invention is to enable the module to control water, light, temperature, etc. in an optimal environment by selecting a method having high insect yield and activity based on information collected by artificial intelligence.

And the present invention is to be able to grasp the breeding state of edible insects in real time.

In addition, the present invention is to make it possible to breed edible insects in an optimized environment, thereby greatly increasing the yield of crickets, and also enabling smooth breeding of edible insects.

In addition, the present invention is to enable humans to automatically breed edible insects, thereby reducing the time required for humans and thereby significantly reducing labor costs.

Particularly, the present invention is to enable a breeder to observe or confirm a breeding environment through a remote smart farm system for breeding edible insects.

In addition, the present invention is to make it easy for a person who breeds edible insects to breed even a beginner.

In addition, the present invention is to enable the immediate response to an abnormality of an edible insect.

The present invention is a very useful invention that enables the planting of a good image by satisfying various needs (needs) of consumers as users because it greatly improves the quality and reliability of the smart farm system due to the above-described effects.

Hereinafter, a preferred embodiment of the present invention for achieving this effect will be described in detail with reference to the accompanying drawings.

1 is a simplified view of a smart farm system block for insect breeding applied to the present invention.
Diagram.
Figure 2 is a detail of a smart farm system block for insect breeding applied to the present invention
Diagram.
Figure 3 is a detailed operation configuration of the control unit and the server applied to the present invention.

The smart farm system and method for operating insects applied to the present invention are configured as shown in FIGS. 1 to 3.

In the following description of the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

In addition, terms to be described later are terms that are set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer, so the definition should be made based on the contents throughout the present specification.

In addition, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to that shown in the drawings.

First, the present invention is provided with at least one insect breeding device 100.

In the insect breeding apparatus 100, edible insects are put and reared. In this case, grasshoppers, crickets, pupae, and longevity scarabs are used.

In particular, the present invention is provided in the insect breeding apparatus 100, and is provided with a smart farm system 200 that provides an environment optimized for insect growth based on a database optimized for growth by real-time sensing of the insect's growth environment.

In addition, the present invention is connected to the smart farm system 200 by wired or wireless data exchange, a learning machine and a server 300 including a database is provided.

In addition, the present invention provides a smart farm system for insect breeding that includes a terminal 400 for controlling the smart farm system 200 or the server 300 in real time from the outside.

On the other hand, the smart farm system 200 applied to the present invention is provided with a technical configuration as shown in FIG.

That is, a control unit 210 for controlling the smart farm system 200 is provided.

In addition, the present invention is connected to the control unit 210, a power supply unit 211 for supplying power to the insect breeding apparatus 100 is provided.

In addition, the present invention is connected to the control unit 210, and is provided with a temperature and humidity sensor 214 for detecting the internal temperature and humidity of the insect breeding device 100.

In addition, the present invention is connected to the control unit 210, and is provided with an illuminance sensor 215 for detecting the internal brightness of the insect breeding device 100.

In addition, the present invention is connected to the control unit 210, and is provided with a ventilation fan 216 that sends and purifies indoor polluted air of the insect breeding apparatus 100 to the outside.

In addition, the present invention is connected to the control unit 210, and is provided with a communication unit 219 that exchanges data with the server 300 through wired or wireless communication.

In addition, the present invention is connected to the control unit 210, and is provided with an LED lighting unit 220 that illuminates light inside the insect breeding apparatus 100.

In addition, the present invention is connected to the control unit 210, and is provided with a CCTV 222 for real-time shooting of the internal movement of the insect breeding apparatus 100.

And the present invention is connected to the control unit 210, the feed and water supply unit 212 for feeding the feed and water in minutes or hours to the insect breeding apparatus 100 is provided.

In addition, the present invention is connected to the control unit 210, is provided with a pump and valve 224 for selectively supplying and blocking the feed and water supply unit 212.

On the other hand, in the control unit 210 applied to the present invention, when the inside of the insect breeding apparatus 100 is dried above a set value, at least one that sprays water into the insect breeding apparatus after the temperature and humidity sensor 214 detects it The above injection nozzle 225 is provided.

In particular, the control unit 210 of the present invention provides heat for exchanging heat to reduce insect stress and reduce energy loss by reducing the difference between the inflow temperature and the outflow temperature during supply of fresh air, and insulates the air required for insect growth. It is preferred that the breeding apparatus 100 is provided with a total heat exchanger 213 that is supplied to the room space and provides clean air to the insect through the filter.

In addition, the LED lighting unit 220 of the control unit 210 of the present invention is a mixture of light of three primary colors of red, green, and blue, which are three primary colors of light that promotes the growth of insects. And of course, the photon density (PPFD) is sufficient to ensure that the nutrient supply to the insect is sufficiently transmitted so that high-quality insects can be bred.

And the CCTV 222 of the control unit 210 of the present invention is provided with a motion detection sensor 223 to detect when the insect does not move for a long time or when the motion of the insect is severely moved, the motion detection sensor 223 Needless to say, an alarm sound can be generated through a speaker when the change of the image is more severe than the existing video image.

In addition, the control unit 210 of the present invention is provided with a weight detecting unit 217 that can check the nutritional status of insects as the weight of the insect is high and low by measuring the weight of the insect in real time.

In addition, the control unit 210 of the present invention allows the insects to eat water little by little while rubbing their bodies on the cotton wool 218 containing water in addition to the water contained in the bucket.

On the other hand, the present invention can be variously modified in taking the above-described components and can take various forms.

And it should be understood that the present invention is not limited to the particular forms mentioned in the detailed description above, but rather includes all modifications, equivalents, and substitutes within the spirit and scope of the invention as defined by the appended claims. It should be understood as.

When explaining the operational effects of the smart farm system and operating method for insect breeding of the present invention configured as described above are as follows.

First, the present invention provides an environment optimized for growing an edible insect by sensing light and water, etc. based on a database optimized for growth by sensing the growth environment of the edible insect.

To this end, FIG. 1 applied to the present invention shows a simplified configuration diagram of a smart farm system block for insect breeding applied to the present invention.

In other words, the present invention relates to an operating method for providing an environment optimized for insect growth based on a database optimized for growth by real-time sensing of the growth environment of insects using a smart farm system for insect breeding. 100) real-time detection of the growth environment of the insects using the smart farm system 200, the control unit 210 collects insect information, and the collected information is stored in the server 300 through the communication unit 219 and In addition, it provides a method of operating a smart farm system for insect breeding, in which the user automatically controls the insect breeding apparatus 100 with artificial intelligence while the user checks the real-time smart farm system 200 through the terminal 400.

2 is a detailed configuration diagram of a smart farm system block for insect breeding applied to the present invention, and provides a method of operating a smart farm system for insect breeding through each of the following steps.

That is, to automatically control the insect breeding apparatus 100 of the present invention by artificial intelligence, the communication unit 219 of the control unit 210 is connected to the server 300 by wire or wireless.

Thereafter, the present invention detects the situation inside the insect breeding apparatus 100 in real time through the temperature and humidity sensor 214, the illuminance sensor 215, the LED lighting unit 220, and the CCTV 222, and stores the accumulated data in the server 300. ).

Subsequently, the present invention is based on the database built on the server 300, the learning machine of the server 300 according to the growth status (eg, date, activity, etc.) of the insect and the internal environment (eg, temperature, humidity, and illuminance). Through the calculation step of operating the smart farm system 200 to create a breeding environment optimized for the growth of insects.

Subsequently, in the present invention, when the control information calculated through the calculation step is transmitted to the control unit 210, the control unit 210 is an environment optimized for insect growth through light, lighting, water, feed, and ventilation in the insect breeding apparatus 100. It provides the operation method of the smart farm system for insect breeding through the steps of providing.

In particular, the present invention provides an environment optimized for growing the insect; Thereafter, the user enters the weight (g) of the insects that have been reared and finally harvested into the server 300, and then undergoes an information storage step of accumulating a result amount according to the breeding conditions.

And the present invention is a smart farm for insect rearing through the step of displaying the environment inside the insect rearing apparatus 100 (eg, temperature/humidity, illuminance, elapsed date, activity, etc.) on the terminal 400 through the web and the app. Provides a method of operating the system.

On the other hand, the illuminance sensor 215 and the LED lighting unit 220 applied to the present invention is to supply light through the LED, characterized in that to supply light when the insect is a larva, and to block light when the insect is an adult. .

In addition, the present invention is to make it possible to check the growth state of the insect through the LED, and it is possible to check the growth state of the insect through the color change of the LED.

And the present invention is to supply the feed and water through the pump and valve 224 connected to the control unit 210, it is possible to supply the appropriate amount of feed and water for each insect breeding device 100 according to the growth state of the insect Of course.

3 is a detailed operation configuration diagram of a control unit and a server applied to the present invention, and the present invention selects a method having high insect yield and activity based on the collected data, so that the control unit 210 controls water, light, and temperature. Of course.

The technical idea of the smart farm system and operating method for insect breeding of the present invention is that the same result can be repeatedly executed. In particular, it is possible to promote technological development by contributing to the invention of the present invention and contribute to industrial development. have.

<Explanation of reference numerals for main parts of drawings>
100: insect breeding device
200: smart farm system
300: server
400: terminal

Claims (6)

At least one insect breeding device 100;
A smart farm system 200 provided in the insect breeding apparatus 100 and providing an environment optimized for insect growth based on a database optimized for growth by real-time sensing of the growth environment of the insect;
Smart farm system 200 and wired and wirelessly connected to exchange data, the server 300 including a learning machine and a database; And
Smart farm system for insect breeding, characterized in that it includes; a terminal 400 for controlling the smart farm system 200 or the server 300 in real time from the outside.
The method according to claim 1,
The smart farm system 200,
Control unit 210 for controlling the smart farm system 200;
A power supply unit 211 connected to the control unit 210 and supplying power to the insect breeding device 100;
It is connected to the control unit 210, temperature and humidity sensor 214 for detecting the internal temperature and humidity of the insect breeding device 100;
It is connected to the control unit 210, an illumination sensor 215 for detecting the internal brightness of the insect breeding apparatus 100;
A ventilation fan 216 which is connected to the control unit 210 and purifies indoor polluted air of the insect breeding apparatus 100 by sending it to the outside;
It is connected to the control unit 210, the server 300 and the communication unit 219 to communicate with the wired and wireless data to send and receive data;
It is connected to the control unit 210, LED lighting unit 220 for illuminating light inside the insect breeding device 100;
It is connected to the control unit 210, CCTV (222) for real-time shooting of the internal movement of the insect breeding device (100);
A feed and water supply unit 212 which is connected to the control unit 210 and supplies the feed and water to the insect breeding device 100 in minutes or hours; And
Smart farm system for insect breeding, characterized in that it is connected to the control unit 210, a pump and a valve 224 for selectively supplying and blocking the feed and water supply unit 212.
The method according to claim 2,
The control unit 210,
If the inside of the insect breeding apparatus 100 is dried above a set value, at least one or more spray nozzles 225 for spraying water inside the insect breeding apparatus after the temperature and humidity sensor 214 senses it are further included. Smart farm system for insect breeding.
It relates to an operating method that provides an environment optimized for insect growth based on a database optimized for growth by real-time sensing the growth environment of insects using a smart farm system for insect breeding of claim 1,
Real-time detection of the growth environment of the insects in the insect breeding device 100 using the smart farm system 200, the control unit 210 collects insect information, and the collected information is transmitted through the communication unit 219 through the server 300 ), and in addition, the smart farm system for insect breeding, characterized in that the user automatically controls the insect breeding apparatus 100 with artificial intelligence while checking the real-time smart farm system 200 through the terminal 400. How to operate.
The method according to claim 4,
To automatically control the insect breeding device 100 with artificial intelligence,
The communication unit 219 of the control unit 210 is connected to the server 300 by wire or wireless;
Transmitting temperature and humidity sensor 214, illuminance sensor 215, LED lighting unit 220 and CCTV 222 to detect the situation inside the insect breeding device 100 in real time and transmit the accumulated data to the server 300 step;
Based on the database built on the server 300, the operation of operating the smart farm system 200 to create a breeding environment optimized for insect growth through the learning machine of the server 300 according to the growth state and internal environment of the insect step; And
When the control information calculated through the calculation step is transmitted to the control unit 210, the control unit 210 provides the insect breeding apparatus 100 with an environment optimized for insect growth through light, lighting, water, feed, and ventilation. The method of operating a smart farm system for insect breeding, characterized in that included.
The method according to claim 5,
Providing an environment optimized for the insect to grow; after,
An information storage step in which the user inputs the weight (g) of the insects that are finally harvested by breeding insects into the server 300 and accumulates a result amount according to the breeding conditions; And
The step of displaying the environment inside the insect breeding device 100 on the terminal 400 through the web and an app; further comprising a method of operating a smart farm system for insect breeding.

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