KR20180059988A - System of service for insect growth management based on IoT - Google Patents

Abstract

The present invention relates to a system for providing a service of insect growth management based on IoT. More specifically, the present invention relates to the system for providing a service of insect growth management based on IoT enabling individual management considering distinct characteristics of insects including growth stages of the insects, species, and purposes of breeding the insects. The system comprises: a sensor unit; a control unit; and a communication unit.

Description

[0001] The present invention relates to insect growth management based on IoT,

The present invention relates to an insect growth management service providing system based on IoT. More particularly, the present invention relates to an insect growth apparatus for inserting a sensor unit capable of measuring temperature, humidity, light amount, and oxygen into an insect growth apparatus and observing the status of insects using a photographing apparatus, And real-time remote control, short-term and long-term automatic control and management are possible by using smart devices, and the growth period is shortened by lowering the occurrence flow of insects that are exposed to stress, And the data of individual users regarding the growth conditions of each insect from the spawning, hatching, foliation, folly, and adult stages and the growth environment of the insects are stored in the server and synchronized for a predetermined period, It is possible to accumulate the cultured data and analyze the accumulated data in the future. To provide individualized and optimized control of growth data to users and to enable individual control and automatic control for each insect breeding device to enable individual control considering the specificity of insects including insect growth stage, To an insect growth management service providing system based on IoT.

In general, insects are sensitively affected by environmental factors including temperature and humidity. Therefore, the growth state varies depending on various variables such as temperature, humidity, oxygen supply amount, and light amount.

In recent years, there has been a growing interest in methods for directly growing insects at home or for growing many and many insects for urban agriculture.

In addition, it is difficult to improve the seeds of rare cultivars because they are left untreated because they are not properly managed in the farms that specialize in production of rare varieties.

However, there are not enough platforms to manage and improve practically excellent varieties and rare varieties of cultivars due to insufficient levels of conditions that can be managed according to the insect species and growth stage of each insect.

Prior Art Document: KR Patent Publication No. 2015-0056926 (published on May 28, 2015)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method for controlling insects, It is an object of the present invention to provide a system for providing insect growth management services based on IoT, which enables individual control for each insect growth apparatus exposed.

In order to achieve the above object, the present invention provides a system for providing an insect growth management service based on IoT, which comprises a temperature sensor for measuring an internal temperature of a space in which insects are growing, an oxygen sensor for measuring oxygen concentration, A sensor unit including a light amount sensor for measuring the light amount, a control unit for receiving the sensor value from the sensor unit and controlling the growth environment according to the insect species and the growth stage, An insect growth device including at least one communicating part and at least one insect so that insects can be accommodated according to the insect species, the growth state, and the purpose of breeding; And a smart device that is linked to the insect growth device and is capable of controlling the growth environment according to the insect's seedling stage and growth stage and monitoring the internal environment of the insect growth device. The smart device includes a long beetle, A selection module for selecting one of the insects selected from among the insect species selected among the insect subspecies including the king stag beetle, the flower ignorance, and the brown dagger, a spawning set based on the insect subspecies selected in the sibling selection module, the first instar larva, A poultry unit, a poultry unit, a poultry unit, a poultry unit, a poultry unit, a poultry unit, a poultry unit, a poultry unit, a poultry unit A breeding selection module, a breeding selection module, a breeding selection module, a breeding destination selection And the unique identification information of the corresponding insect growth apparatus among the plurality of insect growth apparatus databases stored in the server on the basis of the item selected by the module is received and synchronized with the insect growth apparatus so that the control unit of the insect growth apparatus can individually control and monitor the insect growth apparatus Lt; RTI ID = 0.0 > remote control < / RTI >

The control unit includes a light amount control unit for controlling the light amount, an oxygen concentration control unit for controlling the oxygen concentration, a temperature control unit for controlling the temperature, a humidity control unit for controlling the humidity of the humidifier provided in the insect growth apparatus, A ventilation control unit for controlling the operation of the ventilation fan provided at one side of the growth apparatus and a heating panel control unit for controlling the operation and the heat quantity of the heating panel layer provided on the bottom surface of the insect growth apparatus, .

In addition, the smart device records the incubation log of the insects growing in the insect growth apparatus and records the recorded information. When environmental conditions including temperature, humidity, ventilation and light amount are set, the temperature, humidity , The ventilation, and the amount of light, the internal environment of the insect growth apparatus is automatically set according to the set value.

According to the present invention, a sensor unit capable of measuring temperature, humidity, amount of light, and oxygen can be installed inside an insect growth apparatus, and the status of insects can be observed using a video image pickup apparatus. This is because it enables remote control and management in real time by using smart devices. It is possible to reduce the growth period by lowering the occurrence of insects that are exposed to stress, have.

In addition, according to the present invention, data on the growth conditions and growth environment of each insect from scattering, hatching, firing, folly, adult, and growing environments are stored in a server, and the incubation data is accumulated according to insect species to make, and has the effect to provide the screen accumulated data later analysis, through a process such as a manual rework the growth data optimized to the user.

Further, according to the present invention, it is possible to individually control individual insect growth apparatuses, thereby making it possible to individually manage insects in consideration of the specificity of insects such as growth stages of insects, seedlings, and breeding purposes.

FIG. 1 is a block diagram of a system for providing insect growth management services based on IoT according to a preferred embodiment of the present invention.
2 is a view showing an insect growth apparatus of an insect growth management service providing system based on IoT according to a preferred embodiment of the present invention, and Fig.
FIG. 3 to FIG. 8 are diagrams illustrating exemplary screens implemented in a smart device application of the IOT-based insect growth management service providing system according to the preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, the preferred embodiments of the present invention will be described below, but it is needless to say that the technical idea of the present invention is not limited thereto and can be variously modified by those skilled in the art.

FIG. 1 is a block diagram of a system for providing an insect growth management service based on IoT according to a preferred embodiment of the present invention. FIG. 2 is a block diagram of an insect growth management system providing insect growth management service based on IoT according to a preferred embodiment of the present invention. And FIG. 3 to FIG. 8 are diagrams illustrating exemplary screens implemented in a smart device application of the IOT-based insect growth management service providing system according to the preferred embodiment of the present invention.

Referring to FIG. 1, an IoT-based insect growth management service providing system according to a preferred embodiment of the present invention includes an insect growing apparatus 100, a smart device 200, and a server 300.

The insect growth management service provision system based on IoT according to a preferred embodiment of the present invention is constructed by interworking an application of a smart device with an insect growth apparatus and a server.

The insect growth apparatus (100) is a breeding apparatus having an environment in which insects can grow, thereby creating an environment in which a large amount of insects can be grown.

Further, although not shown, a picture photographing apparatus (not shown) may be installed inside the insect growing apparatus 100 to photograph the insects.

The insect growing apparatus 100 is provided with a sensor unit 10 including a temperature sensor 12, an oxygen sensor 14, a humidity sensor 16, a light amount sensor 18, a communication unit 20 ).

2, the insect growth apparatus 100 includes a nutrient layer 110 provided with nutrients including sawdust and wheat bran, a nutrient layer 110 formed under the nutrient layer 110, A secondary fermentation nutrient layer 120 and a heating panel layer 130 provided on the bottom surface to provide a heat supply means for supplying heat to the upper portion so as to control the growth rate of insects.

For example, the nutrient layer 110 has sawdust, grass bugs, brown goose larvae, and the like have a predetermined thickness of bran instead of sawdust, such as slugs (white spotted flowers), stag beetles, .

In addition, a holder (not shown) may be further provided on one side of the insect growth apparatus 100 and detachably coupled thereto.

Here, the form of the holder (not shown) is not limited to a specific form.

The temperature sensor 12 is a sensor for measuring the internal temperature of an insect. If the temperature is not satisfied, it may be exposed to developmental delay, malformation, or disease, so that it is measured in real time whether the temperature is maintained need.

For example, the suitable high temperature of insects is preferably 25 degrees to 28 degrees, and the optimum low temperature is preferably 18 degrees to 20 degrees.

Here, the temperature range may vary depending on the insect species and stage of growth.

For example, the temperature condition of 25 to 28 degrees C is suitable for deer insect adults, and the temperature condition of 18 to 20 degrees C is suitable for larval insect larvae.

The oxygen sensor 14 measures the oxygen concentration at which the proper oxygen is being supplied.

The humidity sensor 16 is a sensor for measuring the internal environment humidity.

For example, the humidity sensor 16 can be selectively activated for insects that do not take humidity into account, such as brown duck adults and brown duck larvae.

For example, a humidity of about 50% is desirable at an appropriate humidity, and exposure to growth and disease may occur if the humidity is not maintained.

The light amount sensor 18 is a sensor for measuring the light amount inside.

For example, since the amount of light does not greatly affect the growth, the light amount sensor 18 can be selectively operated except the selected seeds and the growing step of a pet adult.

The sensor unit 10 is provided for each insect growth apparatus 100 because it can not coexist in the same insect growth apparatus because the temperature and the humidity are different depending on the larvae and adults, It is preferable that they are individually provided for each insect growth apparatus 100 in consideration of the fact that development rates are different and they may be exposed to specific diseases.

The communication unit 20 is for performing communication, and performs wired / wireless communication with the smart device 100 and the server 300.

The control unit 30 receives the sensor value from the sensor unit 10 and controls the growth environment according to the insect species and growth stages.

The control unit 30 receives the sensor value from the sensor unit 10 and compares the sensor value with an appropriate value of the stored growth environment according to the insect species and the growth stage of the insect. If the sensor value exceeds a predetermined error range, And transmits a notification message to the smart device (100).

The control unit 30 displays a measured value from the sensor unit 10 on the display unit 40 after performing a predetermined process.

More specifically, the control unit 30 controls the temperature control unit 31 for controlling the internal temperature of the insect growth apparatus 100 and the humidity control unit 30 for controlling the driving of a humidifier (not shown) provided inside the insect growth apparatus 100 A ventilation control unit 33 for controlling the operation of the ventilation fan provided at one side of the insect growth apparatus 100, a light amount control unit 34 for controlling the light amount, an oxygen concentration control unit 35, and a heating panel control unit 36 for controlling the heating panel layer.

For example, if it is determined from the insect growth apparatus 100 that the nutrient layer 110 provided with sawdust or the like contains moisture above a predetermined value, the communication unit 20 transmits a control signal to the smart device 100, So that the content can be increased.

More specifically, the display unit 40 includes a heater operation display unit 42, a temperature display unit 44, a humidity display unit 46, a humidification operation display unit 48, a water shortage display unit 50, a power failure notification display unit 52, And an illumination operation indicator 54.

The heater operation display section 42 indicates whether or not the heater is operating.

The temperature display unit 44 displays the current temperature measured from the temperature sensor 12. [

The humidity display unit 46 displays the current humidity measured from the humidity sensor 16. [

The humidifying operation display section 48 indicates the operation and stop state of the humidifier (not shown).

The water shortage display unit 50 is displayed in a form such as flashing when it is determined that the content of water in the insect growth apparatus 100 is less than the set value.

The power failure notification display unit 52 displays an alarm notification upon power failure.

The illumination operation display section 54 displays the light amount and the operation and stop state.

A plurality of insect growth apparatuses 100 are provided in accordance with the species of insects, growth conditions, and breeding purposes, and each insect growth apparatus 100 has unique identification information.

And the growth environment of the specific insect growing apparatus 100 can be inquired from the smart device 200 based on the unique identification information.

For example, when any one of the unique identification information is selected using the smart device 200, the information of the insect growth apparatus 100 corresponding to the unique identification information is activated, , Humidity and light amount are activated.

For example, a "brown goat" is housed in the "# 1 insect growth apparatus", the appropriate temperature is 25 to 30 degrees Celsius, the critical lethal temperature is 40 to 45 degrees Celsius, To 10 ° C, and the humidity is set to 65 +/- 10%.

The smart device 200 receives the sensor value from the sensor unit 18 in cooperation with the insect growth apparatus 100 through wireless communication, and controls the sensor unit 18 according to the insect species and growth stage.

Examples of smart devices include tablet PCs, PDAs (Personal Digital Assistants), laptops, cellular phones, PCS (Personal Communication Service) phones, hand-held PCs, GSM (Global System for Mobile) Wideband CDMA) phones, CDMA-2000 phones, and smart phones. You can download applications that provide insect growth management services, or use built-in applications.

The IoT-based insect growth management service providing system according to the preferred embodiment of the present invention includes a satisfaction selection module 210, a growth selection module 220, a breeding goal selection module 230, a remote control module 240, (250), an automatic control module (260), and a breeding recording module (270). The modules are implemented as an application of a smart device.

3 to 8, the application of the smart device 200 provides menus such as satisfaction selection, growth selection, breeding goal selection, remote control, automatic control, breeding record, and the like.

The satisfaction selection module 210 allows selection of insect submissions.

For example, you can choose a beetle, a king stag beetle, a flower blanket, or a brown giant jersey.

The growth selection module 220 allows the selection of the growth stage based on the insect species selected in the seed selection module 210.

For example, you can choose from scattering settings, 1st instar larva, 3rd instar larva, pupa, adults.

The rearing purpose selection module 230 selects the rearing purpose including edible or pets by selecting the rearing step by the rearing selection module 220.

For example, you can choose edible, pet-bulk, pet-individual, and so on.

The smart device 200 can send and receive data from the insect growth apparatus 100 and monitor the corresponding values and synchronize with the insect growth apparatus to remotely control the internal environment of the insect growth apparatus.

The remote control module 240 may be configured to match the plurality of insect growth apparatuses 100 stored in the server 300 on the basis of the item selected by the satisfaction selection module 210, the growth selection module 220, The insect growth apparatus 100 receives the unique identification information of the insect growing apparatus 100 and synchronizes with the insect growing apparatus 100 so that the control unit 30 of the insect growing apparatus 100 can individually control the insect growing apparatus 100. [

The monitoring module 250 is provided with the unique identification information for each insect growing apparatus 100 and stored in the server 300. The monitoring module 250 invokes specific insect growing information according to the unique identification information of the stored insect growing apparatus 100, Can be monitored.

The automatic control module 260 automatically sets the internal environment of the insect growth apparatus according to the set temperature, humidity, ventilation, and light amount when environmental conditions including temperature, humidity, ventilation, and light amount are set.

The breeding recording module 270 can input and store breeding records of each insect breeding device and each farm by each day / month / year / region / user.

The server 300 receives and stores sensor values from the sensor unit 10 of the insect growth apparatus 100 and synchronizes them for a predetermined period of time and analyzes the cultured data according to the insect species, growth stage, and breeding purpose of each insect .

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are intended to illustrate and not to limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings . The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10 - Sensor part 12 - Temperature sensor
14 - Oxygen sensor 16 - Humidity sensor
18 - Light quantity sensor 20 -
30 - Control unit 31 - Temperature control unit
32 - humidity controller 33 - ventilation controller
34 - light amount control unit 35 - oxygen concentration control unit
36 - a heating panel control unit 40 - a display unit
42 - heater operation indicator 44 - temperature indicator
46 - Humidity indicator 48 - Humidification indicator
50 - Water shortage display part 52 - Power failure notification display part
54 - Illumination operation indicator 100 - Insect growth device
110 - nutrient layer 120 - second fermentation nutrient layer
130 - Thermal panel layer 200 - Smart device
210 - Satisfactory selection module 220 - Growth selection module
230 - Rearing purpose selection module 240 - Remote control module
250 - Monitoring module 260 - Automatic control module
270 - Breeding record module 300 - Server

Claims (3)

A sensor unit including a temperature sensor for measuring the internal temperature of the space in which the insect is growing, an oxygen sensor for measuring the oxygen concentration, a humidity sensor for measuring the humidity, a light amount sensor for measuring the light amount,
A control unit for receiving the sensor value from the sensor unit and controlling the growth environment according to the insect species and the growth stage,
A communication unit
Lt; / RTI >
An insect growth device having at least one insect so that insects can be accommodated according to insect species, growth conditions, and breeding purpose;
A smart device that enables interfacing with insect growth apparatus and wireless communication to control the growth environment according to insect species and growth stage and to monitor the internal environment of the insect growth apparatus
Lt; / RTI >
Smart devices
A subspecies selection module that allows the selection of a subspecies of any one of the insect species selected from the group consisting of long beetle, king stag beetle, flower ignorance,
A growth selection module for selecting any one of growth stages including a scattering setting, a first instar larva, a third instar larva, a pupa, and an adult on the basis of the insect subspecies selected in the subspecies selection module;
A breeding selection module for selecting a breeding purpose for any one of breeding purpose including food, pet-bulk unit, and pet-breeding unit by selecting a breeding step by a breeding selection module,
A plurality of insect growth apparatus databases stored in the server on the basis of the items selected by the selection selection module, the growth selection module, and the rearing purpose selection module, receives the unique identification information of the matching insect growth apparatus, synchronizes with the insect growth apparatus, A remote control module for enabling individual control and monitoring of the insect growth apparatus from the control unit of the remote control module
Based insect growth management service providing system. The method according to claim 1,
The control unit
A light amount control unit for controlling the light amount,
An oxygen concentration control section for controlling the oxygen concentration,
A temperature controller for controlling the temperature,
A humidity controller for controlling the humidity of the humidifier provided in the insect growth apparatus,
A ventilation control part for controlling the operation of the ventilation fan provided at one side of the insect growth device, and
A heating panel control unit provided on the bottom surface of the insect growth apparatus for controlling the operation and the heat amount of the heating panel layer for supplying heat to the upper part by the heat supply unit,
The insect growth management service providing system comprising: The method according to claim 1,
Smart devices
A breeding record module for recording a breeding log of insects growing on the insect breeding device and storing the recorded information,
An automatic control module that automatically sets the internal environment of the insect growth apparatus according to the set temperature, humidity, ventilation, and light amount when environmental conditions including temperature, humidity, ventilation,
The insect growth management service providing system comprising:

Images