KR102489244B1 - Cubicle type artificial intelligence insect breeding device - Google Patents

Abstract

The present invention relates to a cubicle-type artificial intelligent insect breeding device, and aims to provide an optimal growth environment for insects by managing their growth patterns.
That is, in the insect breeding device of the present invention, a breeding cage body formed in a rectangular box shape and provided to form an insect breeding space therein, and a breeding cage door provided to open and close the breeding space on the front of the breeding cage body, A breeding shelf provided to divide the breeding space in multiple stages up and down inside the breeding cage body, a breeding box seated on the top of the breeding shelf to breed insects, and the weight of the breeding box seated and stored on the breeding shelf. A breeding weight sensor provided to sense the breeding weight, an air circulation pipe formed to circulate air up and down at the rear of the breeding shelf, a humidifier provided to adjust the humidity of the breeding space inside the breeding cage body, One or more humidity sensors provided inside the breeding cage body, a temperature control unit provided inside the breeding cage body to adjust the temperature of the breeding space, provided inside the breeding cage body to detect the temperature of the breeding space temperature sensor, an air purifier provided to purify the air in the breeding space on the upper part of the breeding farm body, a carbon dioxide concentration sensor provided inside the breeding farm body to detect the carbon dioxide concentration in the breeding space, the breeding farm body A lighting unit provided to illuminate the breeding space inside, the data of the breeding weight sensor and the humidity sensor are compared to determine the timing of supplying sawdust, and optimal humidity and sawdust according to the detection of the replacement time of the breeding box according to the completion of breeding A breeding environment deep learning unit provided to calculate and output the supply time, a controller provided inside the breeding farm body to control temperature, humidity and light control according to information provided by the breeding environment deep learning unit and temperature and humidity information , A control unit provided to allow the user to input an operation signal on one side of the front side of the breeding farm body, a display unit provided to display the breeding environment and breeding period of insects, and the supply time of fermented sawdust, and for supplying and humidifying fermented sawdust It is characterized in that it is composed of an alarm unit provided so that the user can be notified of the supply of water.
Therefore, the present invention has an effect of efficient growth by managing the breeding environment of insects separately according to the growth pattern of insects and providing an appropriate environment according to the growth process of insects.

Description

Cubicle type artificial intelligence insect breeding device

The present invention relates to a cubicle-type artificial intelligence insect breeding device, and more particularly, in an insect breeding device, data of a breeding box, a breeding weight sensor, and a humidity sensor provided to breed insects by being seated on the top of a breeding shelf. A breeding environment deep learning unit provided to determine the timing of supplying sawdust by comparing and determining the timing of supplying sawdust and calculating and outputting the optimal humidity and timing of supplying sawdust according to the detection of the replacement time of the breeding box according to the completion of breeding and breeding inside the breeding cage body It consists of a controller equipped to adjust temperature, humidity and light control according to the information provided by the environmental deep learning unit and the temperature and humidity information, so that the optimum growth environment can be provided by managing the growth pattern of insects. is intended for

In general, an insect breeding apparatus is provided to breed insects inside a breeding farm that is isolated from the outside.

The insect breeding apparatus as described above is composed of a breeding shelf provided with a space blocked from the outside inside the breeding farm and a breeding box seated on the breeding shelf and in which insects grow.

Fermented sawdust is stored in the breeding box so that insects can grow.

The insect breeding apparatus as described above maintains the humidity and temperature of the breeding farm in an environment suitable for growing insects and breeds it by supplying fermented sawdust for breeding insects.

However, the conventional insect breeding apparatus as described above has a problem in that management costs increase due to breeding by controlling humidity and temperature in a large breeding farm, and efficient breeding is not achieved because management is not performed for each growth stage of insects.

Korean Publication No. 10-2016-0079414

Therefore, the present invention raises the management cost due to the conventional insect breeding apparatus breeding by controlling the humidity and temperature of the breeding ground with a large space, and the management is not performed for each growth stage of the insect, so that efficient breeding is not achieved. is to solve the problem.

That is, in the insect breeding device of the present invention, a breeding cage body formed in a rectangular box shape and provided to form an insect breeding space therein, and a breeding cage door provided to open and close the breeding space on the front of the breeding cage body, A breeding shelf provided to divide the breeding space in multiple stages up and down inside the breeding cage body, a breeding box seated on the top of the breeding shelf to breed insects, and the weight of the breeding box seated and stored on the breeding shelf. A breeding weight sensor provided to sense the breeding weight, an air circulation pipe formed to circulate air up and down at the rear of the breeding shelf, a humidifier provided to adjust the humidity of the breeding space inside the breeding cage body, One or more humidity sensors provided inside the breeding cage body, a temperature control unit provided inside the breeding cage body to adjust the temperature of the breeding space, provided inside the breeding cage body to detect the temperature of the breeding space temperature sensor, an air purifier provided to purify the air in the breeding space on the upper part of the breeding farm body, a carbon dioxide concentration sensor provided inside the breeding farm body to detect the carbon dioxide concentration in the breeding space, the breeding farm body A lighting unit provided to illuminate the breeding space inside, the data of the breeding weight sensor and the humidity sensor are compared to determine the timing of supplying sawdust, and optimal humidity and sawdust according to the detection of the replacement time of the breeding box according to the completion of breeding A breeding environment deep learning unit provided to calculate and output the supply time, a controller provided inside the breeding farm body to control temperature, humidity and light control according to information provided by the breeding environment deep learning unit and temperature and humidity information , A control unit provided to allow the user to input an operation signal on one side of the front side of the breeding farm body, a display unit provided to display the breeding environment and breeding period of insects, and the supply time of fermented sawdust, and for supplying and humidifying fermented sawdust It is characterized in that it is composed of an alarm unit provided so that the user can be notified of the supply of water.

Therefore, the present invention is a breeding box installed on the upper part of the breeding shelf provided to breed insects and an air circulation pipe formed so that air can circulate vertically at the rear of the breeding shelf, breeding weight sensor Breeding environment deep learning unit and breeding farm body provided to calculate and output the optimal humidity and sawdust supply time according to the comparison between the data of the humidity sensor and the data of the humidity sensor to determine the timing of supplying sawdust and detecting the timing of replacing the breeding box according to the completion of breeding By configuring the inside of the controller to control the temperature, humidity and light control according to the information provided by the breeding environment deep learning unit and the temperature and humidity information, the breeding environment of insects is separated and managed according to the growth pattern of insects. It is to have the effect of efficient growth by providing an appropriate environment according to the growth process of the child.

1 is a perspective view of a cubicle-type artificial intelligence insect breeding apparatus according to an embodiment of the present invention.
2 is a side view of a cubicle-type artificial intelligence insect breeding apparatus according to an embodiment of the present invention.
3 is a perspective view of a cubicle-type artificial intelligence insect breeding apparatus according to an embodiment of the present invention
4 is a block diagram of a cubicle-type artificial intelligence insect breeding apparatus according to an embodiment of the present invention.
5 is a schematic diagram of an alarm unit of a cubicle-type artificial intelligence insect breeding apparatus according to an embodiment of the present invention.
6 is a schematic diagram of a breeding environment deep learning unit of a cubicle-type artificial intelligence insect breeding apparatus according to an embodiment of the present invention.

Hereinafter, it will be described in detail by the accompanying drawings and as follows.

The present invention separates and manages the breeding environment of insects according to the growth pattern of insects and provides an appropriate environment according to the growth process of insects, thereby having an effect of efficient growth.

That is, in the present invention, in the insect breeding device, the breeding farm body 110, the breeding farm door 130, the breeding shelf 140, the breeding box 200, the breeding weight sensor 142, the air circulation pipe 150, humidification unit 300, humidity sensor 310, temperature controller 400, temperature sensor 410, air purifier 500, carbon dioxide concentration sensor 510, lighting unit 600, breeding environment deep learning unit 700 ), a controller 810, a control unit 820, a display unit 830 and an alarm unit 840.

Here, the breeding farm body 110 is formed in a rectangular box shape and is provided to form an insect breeding space therein.

The cage body 110 is provided with a caster wheel 111 to be movable at the bottom.

The upper part of the farm body 110 can be implemented by providing a photovoltaic cell 121 so that it can be operated without supplying external power.

A charging power supply unit 122 for storing power supplied through a solar cell 121 may be provided at the lower part of the breeding farm body 110 to be implemented.

In addition, the breeding farm door 130 is provided on the front of the breeding farm body 110 to open and close the breeding space.

The breeding farm door 130 can be implemented by having a see-through window 131 to look into the inside from the front.

The breeding farm door 130 can be maintained in a normally closed state, so it can be implemented by having a magnetic coupling part 132.

In addition, the breeding shelf 140 is provided inside the breeding farm body 110 to divide the breeding space vertically in multiple stages.

The breeding shelf 140 can be equipped with shelf rails 141 on both sides so that it can appear and descend to the front.

In addition, the breeding box 200 is seated on the top of the breeding shelf 140 and is provided to breed insects.

The breeding box 200 has an open top and is composed of a box body 210 formed of a light transmitting body and a container lid 220 that opens and closes the top of the breeding box 210.

An upper portion of the lid 220 is provided with a hole 211 perforated to circulate moisture and air.

A convection circulation hole 212 is formed on the upper side of the side wall of the breeding cylinder 210 to allow convection circulation to the pores 211 of the cylinder lid 220.

In addition, the breeding weight sensor 142 is provided to detect the weight of the breeding box 200 seated and stored in the breeding shelf 140.

In addition, the air circulation conduit 150 is formed at the rear of the breeding shelf 140 so that air can circulate vertically.

In addition, the humidifier 300 is provided inside the breeding farm body 110 to adjust the humidity of the breeding space.

In addition, one or more humidity sensors 310 are provided inside the breeding farm body 110.

In addition, the humidity sensor 310 is provided inside the breeding farm body 110 to control the temperature of the breeding space.

In addition, the temperature sensor 410 is provided inside the breeding farm body 110 to sense the temperature of the breeding space.

In addition, the air purifying unit 500 is provided on the upper part of the breeding farm body 110 to purify the air in the breeding space.

In addition, the carbon dioxide concentration sensor 510 is provided inside the breeding farm body 110 to detect the carbon dioxide concentration in the breeding space.

In addition, the lighting unit 600 is provided inside the breeding farm body 110 to illuminate the breeding space.

In addition, the breeding environment deep learning unit 700 compares the data of the breeding weight sensor 142 and the humidity sensor 310 to determine the timing of supplying sawdust and detects the replacement time of the breeding box 200 according to the completion of breeding. It is provided to calculate and output the optimal humidity and sawdust supply timing according to the above.

The breeding environment deep learning unit 700 is connected to the outside through a network to store insect breeding information on the Internet, an experience data unit 710 that stores internally calculated information, and humidity data in the breeding process are stored. Humidity data unit 720 and temperature data unit 730 for storing temperature data of the breeding process, weight data unit 740 for storing weight change values of the breeding box 200 during the breeding process, fermentation of the breeding process Sawdust supply data unit 750 for storing sawdust supply cycles, growth data unit 760 for storing growth data from breeding start to breeding completion, and experience data unit 710 for weight data according to the humidity data and temperature data Based on the experience data of the experience data unit 710, based on the experience data of the experience data unit 710, the optimal humidity and temperature are deep-learned by analyzing the experience data of the reference and detecting the change in weight according to the growth of the insect, and the weight data, fermented sawdust supply data, and growth data It is composed of a growth operation unit 770 that calculates and outputs an appropriate supply cycle of fermented sawdust having a minimum growth cycle by deep learning.

In addition, the controller 810 is provided inside the breeding farm body 110 to control temperature, humidity, and light control according to information provided from the breeding environment deep learning unit 700 and temperature and humidity information.

In addition, the control unit 820 is provided on one side of the front side of the farm body 110 so that the user can input an operation signal.

In addition, the display unit 830 is provided to display the breeding environment and breeding period of insects and the supply time of fermented sawdust.

In addition, the alarm unit 840 is provided to notify the user of the supply of fermented sawdust and the supply of water for humidification.

The alarm unit 840 can be configured with an alarm speaker 841 and an alarm lamp 842.

The alarm unit 840 can be implemented by providing a smartphone text transmission unit 843 so that the user can receive a text message notification through a smartphone.

On the other hand, in another embodiment of the present invention, the controller 810 can independently manage the rearing boxes 200 of each breeding shelf 140 at the front and rear of the breeding shelf 140 according to the growth rate of insects. It can be implemented by providing an electric shelf curtain 143 that is raised and lowered by the.

Hereinafter, the operation and effect according to the application of the present invention will be described.

As described above, in the insect breeding apparatus, the breeding cage body 110 is formed in a rectangular box shape and provided to form an insect breeding space therein, and the breeding space can be opened and closed on the front of the breeding cage body 110. A breeding farm door 130 provided, a breeding shelf 140 provided to divide the breeding space in multiple stages up and down inside the breeding farm body 110, and a breeding shelf 140 seated on top of the breeding shelf 140 to breed insects. A breeding box 200 provided to be able to detect the weight of the breeding box 200 seated and housed in the breeding shelf 140, a breeding weight sensor 142 provided to detect the weight, and a rear of the breeding shelf 140. An air circulation conduit 150 formed to circulate air up and down, a humidifier 300 provided inside the breeding farm body 110 to adjust the humidity of the breeding space, and the inside of the breeding farm body 110 One or more humidity sensors 310 provided in the breeding farm body 110, a temperature control unit 400 provided to adjust the temperature of the breeding space inside the breeding farm body 110, the breeding space inside the breeding farm body 110 A temperature sensor 410 provided to detect the temperature, an air purifier 500 provided to purify the air in the breeding space on the upper part of the breeding farm body 110, and the inside of the breeding farm body 110 A carbon dioxide concentration sensor 510 provided to detect the carbon dioxide concentration in the breeding space, a lighting unit 600 provided inside the breeding cage body 110 to dim the breeding space, and the breeding weight sensor 142 A breeding environment provided to calculate and output the optimum humidity and sawdust supply time according to the comparison and judgment of the data of the humidity sensor 310 to determine the timing of supplying sawdust and the detection of the replacement timing of the breeding box 200 according to the completion of breeding. Deep learning unit 700, a controller 810 provided inside the breeding farm body 110 to adjust temperature, humidity and light control according to information provided from the breeding environment deep learning unit 700 and temperature and humidity information , Provided so that the user can input an operation signal to one side of the front of the breeding farm body 110 The control unit 820, the display unit 830 provided to display the breeding environment and breeding period of insects, and the supply timing of fermented sawdust, and supply of fermented sawdust and supply of water for humidification are notified so that the user can be recognized. When the present invention composed of an alarm unit 840 is applied and implemented, efficient growth is achieved by separating and managing the breeding environment of insects according to the growth pattern of insects and providing an appropriate environment according to the growth process of insects. .

On the other hand, in the practice of the present invention, shelf rails 141 are provided on both sides so as to appear and disappear from the front of the breeding shelf 140, and the breeding box 200 has an open top and is formed of a light transmitting body. It consists of a breeding cylinder 210 and a barrel lid 220 that opens and closes the upper part of the breeding cylinder 210, and has a hole 211 perforated to circulate moisture and air in the upper part of the barrel lid 220, When a perforated convection circulation hole 212 is formed on the upper side of the side wall of the breeding cylinder 210 to allow convection circulation to the pores 211 of the cylinder lid 220, the air and humidity are smooth in the breeding cylinder 210. Through the supply of, the insect breeding environment is smoothly maintained.

In addition, in the practice of the present invention, the breeding environment deep learning unit 700 is connected to the outside through a network to store insect breeding information on the Internet and an experience data unit 710 to store internally calculated information. Humidity data unit 720 for storing humidity data of the process, temperature data unit 730 for storing temperature data of the breeding process, and weight data for storing the weight change value of the breeding box 200 during the breeding process unit 740, a sawdust supply data unit 750 that stores the fermented sawdust supply cycle of the breeding process, a growth data unit 760 that stores growth data from the start of breeding to the end of breeding, and according to the humidity data and temperature data The weight data is analyzed based on the experience data of the experience data unit 710, and the optimal humidity and temperature are deep-learned by detecting the change in weight according to the growth of insects, and the weight data, fermented sawdust supply data, and growth data are converted to experience data When configured with a growth calculation unit 770 that calculates based on the experience data of the unit 710 and outputs an appropriate supply cycle of fermented sawdust having a minimum growth cycle through deep learning, the breeding environment and the growth rate of insects can be improved. By creating an optimal breeding environment through deep learning, the growth cycle of insects is shortened and efficient breeding environment management is achieved.

In addition, in the practice of the present invention, when the alarm unit 840 is equipped with a smartphone text transmission unit 843 so that the user can receive a text message notification through a smartphone, the remote manager is provided with an appropriate method for breeding insects. This will enable you to take action quickly.

In addition, in the practice of the present invention, the breeding cages 200 of each breeding shelf 140 at the front and rear of the breeding shelf 140 are moved up and down by the controller 810 so that they can be independently managed according to the growth rate of insects. When the electric shelf curtain 143 is provided and implemented, the growth management of insects is clearly and efficiently performed so that each breeding shelf 140 can be managed separately.

110: kennel body 111: caster wheel
121: solar cell 122: charging power unit
130: breeding door
131: viewing window 132: magnetic binding unit
140: Breeding shelf
141: shelf rail 142: breeding weight sensor
143: motorized shelf curtain
150: air circulation pipe
200: rearing
210: breeding pain
211: pore 212: convection circulation hole
220: barrel lid
300: humidifying unit
310: humidity sensor
400: temperature control unit
410: temperature sensor
500: air purifier
510: carbon dioxide concentration sensor
600: lighting unit
700: breeding environment deep learning department
710: experience data unit 720: humidity data unit
730: temperature data unit 740: weight data unit 750: sawdust supply data unit
760: growth data unit 770: growth calculation unit
810: controller
820: control panel
830: display unit
840: alarm unit
841: alarm speaker 842: alarm lamp
843: smartphone text transmission unit

Claims (6)

In insect breeding apparatus;
A breeding cage body formed in a rectangular box shape and provided to form an insect breeding space inside, a breeding cage door provided to open and close the breeding space on the front of the breeding cage body, and a breeding space inside the breeding cage body vertically A breeding shelf provided to be multi-tiered, a breeding box provided to be seated on the top of the breeding shelf to breed insects, a breeding weight sensor provided to detect the weight of the breeding box seated and stored on the breeding shelf, An air circulation pipe formed at the rear of the breeding shelf to circulate air up and down, a humidifier provided inside the breeding farm body to adjust the humidity of the breeding space, and one or more provided inside the breeding farm body A humidity sensor, a temperature control unit provided inside the breeding cage body to adjust the temperature of the breeding space, a temperature sensor provided inside the breeding cage body to detect the temperature of the breeding space, and a breeding unit on top of the breeding cage body. An air purifier provided to purify the air in the space, a carbon dioxide concentration sensor provided inside the breeding cage body to detect the carbon dioxide concentration in the breeding space, provided inside the breeding cage body to dim the breeding space The lighting unit compares the data of the breeding weight sensor and the humidity sensor to determine the timing of supplying sawdust, and detects the timing of replacing the breeding box according to the completion of breeding to calculate and output the optimal humidity and supply timing of sawdust. Environment deep learning unit, a controller provided inside the breeding environment deep learning unit to adjust temperature, humidity and light control according to the information provided by the breeding environment deep learning unit and the temperature and humidity information, and operated by a user on one side of the front of the breeding farm body A control unit provided to input a signal, a display unit provided to display the breeding environment and breeding period of insects, and a supply time of fermented sawdust, and supply of fermented sawdust and supply of water for humidification to let the user recognize A cubicle-type artificial intelligence insect breeding device, characterized in that composed of an alarm unit provided to notify.
According to claim 1;
The breeding shelf is equipped with shelf rails on both sides so as to be able to appear in the front;
The breeding box has an open top and is composed of a box body formed of a light transmitting body and a container lid that opens and closes the upper part of the breeding box;
Cubicle-type artificial intelligence insect breeding device, characterized in that the upper part of the lid is provided with perforated pores to circulate moisture and air.

According to claim 2;
A cubicle-type artificial intelligence insect breeding device, characterized in that a convection circulation hole perforated to allow convection circulation to the pores of the barrel cover is formed on the upper side of the side wall of the breeding cylinder.
According to claim 1;
The breeding environment deep learning unit is connected to the outside through a network to store insect breeding information on the Internet, an experience data unit for storing internally calculated information, a humidity data unit provided to store humidity data of the breeding process, and a breeding process. Temperature data unit for storing temperature data, weight data unit for storing the weight change value of the breeding box during the breeding process, sawdust supply data unit for storing the fermented sawdust supply cycle during the breeding process, growth data from the start of breeding to the completion of breeding The growth data unit in which is stored and the weight data according to the humidity data and temperature data are analyzed based on the experience data of the experience data unit, and the optimal humidity and temperature are deep-learned through detection of changes in weight according to the growth of insects, and weight data And a growth operation unit that calculates fermented sawdust supply data and growth data based on the experience data of the experience data unit and deep-learns and outputs an appropriate supply cycle of fermented sawdust having a minimum growth cycle Cubicle-type artificial intelligence insect, characterized in that breeding device.
According to claim 1;
The alarm unit consists of an alarm speaker and an alarm lamp;
The alarm unit is a cubicle-type artificial intelligence insect breeding device, characterized in that the smartphone text transmission unit is provided so that the user can be notified of the text message to the smartphone.

According to claim 1;
A cubicle-type artificial intelligence insect breeding device characterized in that an electric shelf curtain that is lifted by a controller is provided at the front and rear of the breeding shelf so that each breeding shelf can be independently managed according to the growth rate of insects.

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