KR20170133076A - Insect breeding equipment and breeding management system, management methods of rearing management system - Google Patents

Abstract

The present invention relates to a breeding device, a management system, and an operation method of the management system. The present invention provides a proper breeding method to breed organisms whose breeding environments are different from each other; enables a breeding device to be remotely automatically operated by using the breeding method; allows a breeder to remotely monitor or confirm the breeding device; and through automatic operation of a breeding device, enables a small number of breeders to remotely manage breeding by using multiple breeding devices. Specifically, the management system comprises: a breeding device; a breeding management server; and a breeder terminal. The operation method comprises: a breeding method supply step; a breeding method selection step; a breeding method setting step; a breeding method modification step; and a breeding confirmation step.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an insect breeding apparatus and a breeding management system, and more particularly to an insect breeding apparatus and a breeding management system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a breeding device and a management system. More particularly, the present invention relates to a device for breeding animals such as animals, plants, and insects, The present invention relates to a breeding device and a management system for allowing a user to grasp the state of the breeding ground in real time or to store the history and development status related to the breeding through a server that allows the user to manage the breeding ground.

Modern people living in modern life are living various hobbies.

Hobby is not to be professionally done but to do it for enjoyment. Depending on each taste, personality, sex, and area, the hobby life is variously formed. In recent years, hobbies such as insects or reptiles and plants There is an increasing trend of people who have hobbies for raising living things.

It is a hobby that can be seen, heard, touched, and inspired by various people.

However, in order to raise such creatures, the growth environment varies depending on each species, and the growth method also has a large difference depending on each species.

Such a growth environment and a growth method according to each biological species are indispensable elements for enabling an environment in which creatures can grow without dying.

Thus, Korean Patent Laid-Open Publication No. 10-2015-0116001 (published on October 15, 2015) discloses an integrated control system for insect breeding equipment and insect breeding.

Thus, such a prior art disclosure technique has a technical feature that enables insect breeding to be stably performed through monitoring.

However, such a prior disclosure technique simply monitors the breeding person at a remote location through monitoring and controls the breeding device accordingly, but in the breeding method, the temperature, humidity, and environmental information of the breeding device are measured However, even if a wrong growing environment is created, it is merely to maintain it. This means that even if the breeding is carried out through monitoring, the living creatures that have already grown in the wrong growth environment will grow smoothly or live. And since the growth environment thereof does not change, there arises a problem that an environment in which an organism can grow properly can not be achieved.

Korean Patent Laid-Open Publication No. 10-2015-0116001 (published on October 15, 2015)

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the above-mentioned problems of the prior art,

It is an object of the present invention to provide an appropriate growth method for breeding organisms having different growth environments and to automatically drive the breeding device remotely through the growth method and to provide a breeding device And a method of operating the management system of the breeding device and the management system for allowing a plurality of breeding devices to be remotely breeded by a breeding person having a small number of breeding devices.

In order to achieve the above object, there is provided a method for operating a management system of a breeding device and a management system according to the present invention,

A breeding device having a sensor unit, a heat ray unit, a lighting unit, a humidifying unit, a communication unit, a cooling unit, a ventilation unit, a control unit, and a camera;

A breeding management server formed by a breeding information obtaining unit, a breeding management application, a database unit, a breeding method storing unit, and a center breeding information processing unit;

A breeder terminal formed of a breeder setting unit, a breeding device management unit, a display unit, and a breeding history unit;

A breeding method distribution step, a breeding method selection step, a breeding method setting step, a breeding method modification step, and a breeding confirmation step are performed.

As described above, the breeding device and the management system of the present invention allow a small number of people to manage one or more breeding devices, thereby enabling mass production and mass management of breeding organisms. The method of breeding according to the present invention allows smooth breeding to be carried out, and the breeding process can be collected through images or moving images during breeding or can be confirmed in real time. This makes breeding easier even for beginners , At least one or more and a plurality of breeding apparatuses can be easily cultivated by a few breeders, and the breeding environment can be remotely applied in real time, so that it is possible to take immediate action in case of an abnormal situation, In order to save the breeding situation through image or video, , And to find the shortcomings or problems in breeding methods to calibrate the breeding process, providing a very useful expected effects.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an illustration of a breeding device management system according to the present invention; Fig.
2 is a block diagram of the configuration of a breeding device according to the present invention.
3 is a block diagram of a breeding management server according to the present invention.
4 is a block diagram of a breeding management application according to the present invention.
Figure 5 is a flow chart of a breeding management operating method according to the present invention.

Best Mode for Carrying Out the Invention Hereinafter, preferred embodiments of a method of operating a breeding device and a management system management system will be described in detail with reference to the accompanying drawings.

Referring to the accompanying drawings, a schematic configuration of the present invention will be described with reference to the accompanying drawings. It includes a feeding device 100, a feeding management server 200, and a stocker terminal 300.

First, the feeding apparatus 100 provides a space where animals (plants, insects, eggs, larvae, pupa, adults) can be fed, A heating section H, an illumination section L, a humidifying section W, a communication section C, a cooling section HC, a ventilation section A and a camera CA, A control unit B for controlling the above configuration, and a UV blocking unit.

At this time, the sensor unit SS includes an external temperature sensor SS1 formed outside the feeding device 100 for measuring the temperature outside the feeding device 100;

An internal temperature sensor SS2 for measuring the temperature inside the feeding apparatus 100;

A humidity sensor (SS3) for measuring the humidity inside the feeding device (100);

A carbon dioxide sensor (SS4) for measuring the concentration of carbon dioxide in the feeding device (100);

And a water level sensor (SS5) for measuring the water level of the water supplied into the feeding apparatus (100).

The hot wire portion H is provided along the outer surface of the feeding device 100 and includes an outer heating wire H1 for heating according to a control signal, a ceiling heating wire H1 provided on the ceiling, (H2).

The illumination unit L includes an illumination module L1 provided in the feeding apparatus 100 and equipped with full color LEDs having different wavelength intensities according to the organism cultivated by the grower, To form a UV illumination module (L2) that allows plant growth and sunbathing on warm-blooded animals.

Preferably, the humidifying unit W is formed so as to control the humidity inside the humidifying unit 100 by discharging water vapor.

In addition, the communication unit C may include wired / wireless communication, and may be configured to communicate with a breeding management server 200, which will be described later, and may be configured to be capable of applying a WIFI or RS485 protocol.

The RS485 protocol is a standard for a serial communication protocol supporting a home network. The RS485 protocol is adapted to transmit and receive data between a single master device and one or more slave devices. For example, The at least one raising device 100 can be controlled by one master device by forming the raising device 100 in the slave mode by using the raising management server 200 as a master device.

The cooling unit HC is provided on the inner bottom surface of the feeding apparatus 100 and constitutes a bridge circuit including a pepture element so as to be cooled in a positive bias state and a TEM (HC1, THERMO ELECTRIC MODULE), and a heat sink (HC2) formed of an aluminum plate so that heat can be transmitted through the TEM (HCl) and the air can be effectively transferred to organisms and air in the feeding apparatus 100.

In addition, the ventilation part A is preferably formed so as to circulate air by generating an internal convection phenomenon through low-speed rotation of 120RPM at a normal time, and rotate at a high speed when carbon dioxide in the internal air rises.

In addition, it is preferable that the camera CA be capable of photographing or moving picture photographing.

At this time, the camera CA may further include a motion sensor so as to capture an instant when an organism is born or a moment when an adult is born in a spermatozoon.

The external temperature sensor SS1 and the internal temperature sensor SS2 of the sensor unit SS are provided on the inside and outside of the feeding apparatus 100 so as to prevent condensation It is preferable to be formed so as to be able to measure the temperature inside and outside.

The controller B receiving the temperature measurement information of the external temperature sensor SS1 and the internal temperature sensor SS2 transmits a control signal to the hot wire portion H when a set temperature difference occurs , It is preferable that the hot wire is operated.

Second, in the system configuration of the present invention, the breeding management server 200 includes a breeding information obtaining unit 1, a breeding management application 2, a database unit 3, a breeding method storing unit 4), and a central breeding information processing unit (5).

In this case, the central rearing information processing unit 5 is a normal online interface configuration provided for realizing connection between the rearing apparatus 100 and the stocker terminal 300, which will be described later, on the Internet or the mobile terminal, The central rearing information processing unit 5 takes another one or more server configuration and operates the central rearing information processing unit 5 of the server configuration to operate and manage the homepage on the Internet, , Various menu operation services, and other voice, video, image, and various data transmission services. It provides the same configuration and functions that are not different from those applied to general Internet portal server and mobile application.

Also, in the breeding management server 100, the breeding information obtaining unit 1 provides a remote breeding method and a breeding method according to the present invention, The hot line information mode 12, the light information mode 13, and the light source information mode 13. The sensor information mode 11, the hot line information mode 12, the light information mode 13, A cold / heat information mode 14, and a ventilation information mode 15.

At this time, the sensor information mode 11 receives the temperature information to be received from the sensor unit SS provided in the raising device 100, and transmits the temperature information to the database unit 3, The humidity information 112 receiving the humidity information, the carbon dioxide information 113 receiving the carbon dioxide information, and the water level information 114 receiving the water level information.

The hot-wire information mode 12 is configured to receive information such as operation information and driving time of the hot wire portion H provided in the feeding device 100 and to transmit the information to the data base 3 .

The illumination information mode 13 is configured to receive information such as operation information and driving time of the illumination unit L provided in the feeding apparatus 100 and to transmit the information to the data base unit 3 to be described later desirable.

The cooling / heating information mode 14 is configured to receive information on the operation and the driving time of the cooling unit HC provided in the feeding apparatus 100 and to transmit the information to the data base unit 3 .

The ventilation information mode 15 is configured to receive information on the operation information and driving time of the ventilation part A provided in the feeding device 100 and to transmit the information to the data base part 3 to be described later .

The breeding information obtaining unit 1 may be configured to transmit information received from the breeding device 100 to a database unit 3 and a grower's terminal 300 described later.

In addition, in the breeding management server 200, the breeding management application 2 may include a breeding person terminal 300 connected to a mobile terminal through a communication network or a breeding person who accesses a website through an Internet communication network, As shown in FIG. 4, the feeding management application 2 is a sort of a work selection menu structure, and is provided with a setting unit 21 The display unit 23, and the breeding history unit 24 are formed in a divided structure.

In addition, the species setting unit 21 may include a category breeding method storage mode 211 for allowing one or more breeding methods or a batch breeding method to be provided from the type breeding method storage unit 4 described later, And a breeding mode setting mode 212 for selecting a breeding stock according to a breeding breed and connecting the breeding breeding breeding device 100 to the breeding breeding breeder 100.

In addition, the breeding device management unit 22 may be configured to allow the breeding device to remotely set the breeding device 100 to be reset, to confirm the setting, or to identify any abnormality in a certain area ;

A sensor setting mode (221) for transmitting a control signal to the breeding management server (200) to set a sensor part (SS) of the breeding device (100);

A hot line setting mode 222 for enabling a control signal to be transmitted to the breeding management server 200 in order to confirm ON / OFF or degree of condensation of the hot wire portion H of the feeding device 100,

An illumination setting mode 223 for allowing a control signal to be transmitted to the breeding management server 200 so that the illumination unit L of the breeding device 100 can be turned ON / OFF or ultraviolet rays and illumination wavelengths can be set;

 A humidification setting mode (224) for allowing a control signal to be transmitted to the breeding management server (200) in order to turn on / off the humidification unit (W) of the breeding apparatus (100);

A temperature setting mode 225 for allowing a control signal to be transmitted to the breeding management server 200 in order to turn ON / OFF the heating unit HC of the feeding apparatus 100 or to set heating and cooling or a proper temperature;

And a ventilation setting mode 226 for allowing a control signal to be transmitted to the breeding management server 200 in order to turn on / off the ventilation part A of the feeding device 100.

In addition, the display unit 23 is provided with a moving picture mode 231 for receiving a real time moving picture through a camera CA provided in the feeding device 100, And an image mode 232 for receiving an image.

In addition, the breeding history unit 24 can identify the past breeding environment, the changed breeding environment, and the setting information by time, day, month, and year so that optimum breeding environment can be derived, A moving picture storage mode 242 for storing a moving picture received through the display unit 23 by dividing a category such as a category of each breeding device, breeding category, breeding time, etc., a storage mode 241, And an image storage mode (243) for storing an image received through the image mode (232) provided in the unit (23).

In addition, in the breeding management server 200, the database unit 3 may receive setting change information, ON / OFF information, and driving information for transferring a control signal from the grower terminal 300 to the breeding apparatus 100, A breeding device information mode 31 for storing information and receiving information received through the breeding information obtaining section 1 and storing the breeding breeding device information mode 31 and the breeding breeding terminal 300 And a breeding mode information mode 32 for storing moving image and image information to be transmitted to the user.

In the breeding management server 200, the breeding method storing section 4 stores information on breeding methods of mammals and reptiles capable of breeding in the breeding ground, and when the breeding terminal 300 requests breeding , A breeding information mode (41) for letting the breeder terminal (300) deliver the breeding information mode, a breeding information mode for storing breeding information of a plant, flower, And an insect breeding information mode 43 for storing insect breeding method information and transmitting the breeding method when the grower terminal 300 is requested.

At this time, it is preferable that the breeding method storing section (4) is formed so that the breeding method can be updated in real time through a communication network.

Also, breeding methods delivered from the breeder may be included.

Thirdly, in the configuration of the present invention, the grower terminal 300 is capable of real-time online connection, such as a smart terminal, a netbook, a computer, etc., and performs a display function to play or confirm a moving image and an image, Refers to all the grower's terminal 300, for example, an unspecified plurality of growers, which can transmit to and receive the feeder server 200 through the online communication network. In applying the grower's terminal 300 to the present invention, It is preferable to install the dedicated program of the present invention, i.e., the breeding management application 2, provided from the breeding management server 200 described above to the grower terminal 300. [

Therefore, the present invention having a series of system configurations as described above implements another differently-configured method of operating a breeding apparatus management system for operating the constructed system. Accordingly, A preferred embodiment of a breeding apparatus management system operating method having a characteristic configuration will be described in detail with reference to the accompanying drawings.

FIG. 5 is a flow chart of a method of operating a feeding system management system according to the present invention. Referring to FIG. 5, there is shown a series of method configurations including a feeding method (S1), a feeding method selection step (S2) A setting step S3, a breeding method collection step S4, and a breeding confirmation step S5.

Herein, the breeding method distribution step S1 is a step in which the grower terminal 300 is connected to the breeding management server 200 via the communication network or through a terminal capable of communicating with the breeding management server 200, The method may further include a step of providing the breeding information through the breeding method storing mode 211 provided in the breeding breeding method.

In addition, the selecting step S2 of selecting the breeding method may allow the grower's terminal 300 to select the breeding method of the breeder to be breeder among the breeding methods transmitted through the breeding method spreading step S1, To be transmitted to the management server (200).

The breeding method setting step S3 is a step of setting the breeding management server 200 to send the breeding method selected in the breeding method selection step S2 to the breeding apparatus 100 via the communication network, The control unit B provided in the control unit 100 is automatically driven in accordance with the fed method of feeding and when the at least one feeding apparatus 100 is driven, the feeding method selected in the feeding method selection step S2, And the breeding method according to the present invention.

The breeding method collecting step S4 may allow the grower terminal 300 to perform a new setting or a part of the breeding method through the breeding device management unit 22 in accordance with the biological characteristics of the breeding device 100 So that the user can change it.

Finally, in the breeding confirmation step S5, the grower terminal 300 transmits the internal environment raised in breeding through the breeding device 100 to the moving image mode 231 provided in the display unit 23, Or image mode 232, thereby realizing a method of operating a raising device management system. Through such a series of systems and processes, one or more raising devices To be managed by a small number of people so that mass production and mass management of the breeding organisms will be possible and breeding methods according to each species will be provided so that the breeding can be carried out smoothly, It is possible to collect the breeding process or to confirm it in real time, , At least one or more and a plurality of breeding apparatuses can be easily cultivated by a few breeders, and the breeding environment can be remotely applied in real time, so that it is possible to take immediate action in case of an abnormal situation, In the case of breeding professionals, in the case of storing the breeding situation through images or moving images, it is possible to search for disadvantages or problems of breeding methods and correct breeding methods, It can be expected to create.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be appreciated that one embodiment is possible. Accordingly, the true scope of the present invention should be determined by the technical idea of the claims.

100: Breeding device
200: Breeding management server
300: Producer terminal

Claims (9)

1. A feeding device (100) for providing and controlling a space where an organism is fed, comprising:
An external temperature sensor SS1 provided outside the feeding device 100, an internal temperature sensor SS2 provided inside the feeding device 100, a humidity sensor for measuring the humidity inside the feeding device 100 A sensor unit SS including a carbon dioxide sensor SS4 for measuring the carbon dioxide inside the feeding device 100 and a water level sensor SS5 for measuring the level of the water inside the feeding device 100, Wow;
A hot wire portion H including an outer hot wire H1 provided along an outer surface of the feeding device and a ceiling hot wire H2 provided at an upper end of the feeding device;
An illumination unit L provided in the breeding device and including an illumination module L1 for providing illumination of different wavelengths according to a user's purpose and a UV illumination module L2 for generating ultraviolet illumination;
A TEM (HC1) provided at the lower end of the feeding device for cooling or heating the bottom surface according to the set temperature), and a heat sink (HC2) for conducting cold / (HC);
A communication unit (C) for performing communication;
A camera (CA) for photographing the inside of the breeding device;
And a control unit (B) for integrally controlling the feeding device (100) by the communication unit (C) or a manual input by a user.
The method according to claim 1,
The raising device (100) is further provided with a UV cut-off portion on its outer surface so as to block ultraviolet rays.
A breeding device 100 configured to breed insects, animals, and plants;
A breeding information acquisition unit 1 for receiving breeding information through sensors provided in the breeding device 100 and a breeding management application for remotely controlling the breeding device 100 through a mobile terminal or the Internet A data base unit 3 for storing information of the feeding apparatus 100 received through the feeding information acquiring unit 1 and storing information according to breeding species, A breeding management server 200 formed of a breeding method storing section 4 for storing a breeding method and a central breeding information processing section 5 for controlling the storing section 4;
A grower terminal 300 for providing a control signal to the breeding management server 200 through a wired and wireless communication network including a mobile terminal, a smart phone and a PC to remotely control the breeding apparatus 100 Wherein the control unit is configured to control the feeding device.
The method of claim 3,
The feeding information acquiring unit 1 includes a sensor information mode 11 for receiving real-time sensor information through a sensor unit SS provided in the feeding device 100, A hot-wire information mode 12 for receiving real-time hot-wire section operation information through the unit H, an illumination information mode 13 for receiving real-time operation information of the lighting unit L provided in the feeding apparatus 100, And a cold information mode (14) in which heating and cooling information is delivered in real time through a cooling unit (HC) provided in the feeding device (100).
The method of claim 3,
The database unit 3 includes a feeding device information mode 31 for storing the operation information and the operation history information of the feeding device 100, And a breeding-type information mode (32) for storing photographing information that is being photographed.
The method of claim 3,
The breeding management application 2 is divided into a breed setting section 21, a breeding breeding management section 22, a display section 23 and a breeding history section 24;
The breed setting unit 21 is configured to include a breeding method storage mode 211 for allowing the breeding management server 200 to receive breeding method information on the breeding creatures from the breeding management server 200, And a breeding mode setting mode (212) for setting a plurality of breeding methods when the number of breeding methods is more than one;
The feeding device management part 22 is configured to control the feeding device 100 by transmitting a control signal to a center feeding information processing part 5 provided in the feeding management server 200,
A sensor setting mode 221 for turning ON / OFF the sensor or checking the sensor information in real time, and a sensor setting mode for turning on / off the hot wire H provided in the feeding device 100, A light line setting mode 222 for setting the lighting operation time and the UV lighting operation time according to the breeding information, and the real time operation information according to the time can be checked An illumination setting mode 223 for turning on / off the humidifying unit W provided in the raising device 100, checking the internal humidity information in real time, and setting an appropriate humidity to maintain the humidity constant A humidification setting mode 224 for setting the humidification setting mode 224 for controlling the humidifying device 100 and a temperature setting mode for allowing the temperature to be continuously maintained by setting the reference temperature in real time, (225), a breeding A ventilation setting mode 226 for driving the ventilation part A to set the air inside the feeding device 100 when the carbon dioxide sensor SS4 provided in the tooth 100 has exceeded or below carbon dioxide ;
The display unit 23 includes a moving image mode 231 for allowing a grower to check the inside of the feeding apparatus 100 in real time through a camera CA provided in the feeding apparatus 100, An image mode 232 for taking a simple image by taking a time, a time, and a time unit according to time, and receiving a simple image;
The breeding history unit 24 includes a breeding record information storing mode 241 for storing breeding information according to breeding, time, date, month, and year for breeding environment information for each breeding through the breeding device 100, A moving picture storage mode 242 for storing a moving picture of the inside of the kennel received through the display unit 23 and an image storing mode for storing image information of the inside of the kennel delivered through the display unit 23 243). ≪ / RTI >
The method according to claim 6,
The feeding device management unit 22 automatically transmits the feeding method received via the setting unit 21 to the feeding device 100 so as to operate according to the fed feeding method, To the grower terminal (300).
The method according to claim 6,
Wherein the breeding method storage mode (211) can continuously update the breeding method according to plants, insects, and animals.
The grower terminal 300 is installed in the mobile terminal through the communication network to the caring management server 200 or connected via the communication enabled terminal and stores the type breeding method storage mode 211 provided in the setting unit 21 A step (S1) of feeding a breeding method in which breeding information is provided through;
The grower's terminal 300 selects a breeding method of the creature to be breeded by the breeding person among the breeding methods transmitted through the breeding method spreading step S1 and transmits the selected breeding method to the breeding management server 200 (S2);
When the breeding management server 200 delivers the breeding method selected in the breeding method selection step S2 to the breeding apparatus 100 via the communication network, the control unit B provided in the breeding apparatus 100 transmits The method for selecting the feeding method and the method for feeding according to the feeding device 100 may be respectively applied to the feeding device 100 when the at least one feeding device 100 is driven A breeding method setting step (S3);
The grower's terminal 300 may include a breeding method correcting step (S4) for allowing the breeding method to be newly set or partially changed through the breeding device management part (22) according to biological characteristics raised in the breeding device (100);
The grower's terminal 300 displays the internal environment being breeding in breeding through the breeding apparatus 100 through the moving image mode 231 or the image mode 232 provided on the display unit 23 in real time And a breeding confirmation step (S5) for confirming the breeding device management system to be able to identify the breeding device management system.

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