KR102517634B1 - Breeding device and breeding system for dybowski's brown frog - Google Patents

Abstract

The present invention relates to a breeding apparatus and breeding method for breeding wild frogs indoors, an artificial feeding device necessary for breeding wild frogs, temperature and humidity control and insulation treatment, disease prevention monitoring, noise blocking, lighting management, and escape prevention. It is an automatic breeding device suitable for mass breeding that solves problems with natural enemies.
More specifically, it is a device that can be easily reared by city dwellers, elderly people, and women by optimizing the breeding environment of the northern frog with its natural habitat and securing problems in the natural habitat, reducing facility costs and remote Reduce management costs with automated facilities. It is a device and method that can contribute to high income increase by enabling mass farming in a systematic breeding method.

Description

Northern wild frog breeding device and breeding system {BREEDING DEVICE AND BREEDING SYSTEM FOR DYBOWSKI'S BROWN FROG}

The present invention is a device suitable for the breeding process from tadpoles to hibernation after metamorphosis in breeding northern wild frogs, by arranging each breeding box in a multi-layer structure in a dedicated container and remote It relates to an apparatus and method for breeding red frogs.

Its scientific name is Rana dybowskii, and its biological classification is classified into Animal Kingdom/Chorpoda/Amphibians/Antiforma/Frogidae/Frog genus. The boreal frog is distributed all over the land in Korea, but since 2005, it has been designated as an endangered wild animal (class IUCN Red List LC of Interest), and its capture is prohibited. Only bred boreal frogs can be sold for human consumption. The boreal frog is an amphibious animal that lives in water during the tadpole stage and hibernation period, and lives on land after metamorphosis. In particular, boreal frog has excellent medicinal efficacy compared to true frog and other wild frogs, and is sold as a valuable medicinal material not only in Korea but also in many Asian countries such as China, North Korea, Taiwan, and Hong Kong. The body of a male boreal frog is sold as a health food, and in the case of a female boreal frog, the body is sold as a health food, and the dried oil (hapma oil) coming out of the vas deferens is sold separately at a high price. These northern frogs have the effect of energizing, strengthening the body, and lubricating the lungs. In addition, since it has effects such as promoting recovery from fatigue and wounds, it is used as a raw material for pharmaceuticals and cosmetics. However, because breeding is difficult in most farms, many farms are failing to breed red frogs. Therefore, as a high value-added food, the North American frog needs stable supply and mass farming.

Most of the breeding farms for breeding red frogs in Korea are equipped with hatcheries. In general, the hatchery is provided in the form of installing a vinyl house on a general open field, laying soil on the floor, and laying straw on top of it. At this time, the temperature of the hatchery is controlled by introducing water into the sprinkler or vinyl house without a separate cooling or heating device. At this time, as the water used, groundwater, stream water, or the like is used. The aquaculture space is formed as an open house, where Chihuahuas are bred without distinction of sex. In addition, some plants are planted inside the farm and used as soil purification and frog hiding. In this case, plants do not grow well due to low sunlight, so the soil purification effect is insufficient, making it a breeding ground for bacteria and unsuitable as a hiding place. there is

The frog's food is live food, and it is supplied in the form of scattering tropical insects such as mealworms, paired crickets, and blackworms in the farm. Therefore, separate insect breeding grounds are operated to supply live food. In the case of general farms, more effort is put into breeding insects than breeding frogs, but there is a problem that it is not easy to control the size of insects according to the size of frogs.

Hibernating facilities are provided in the form of installing a watering hole inside the frog farm and applying water before winter to provide temperature conditions and oxygen supply. Tadpoles are reared in a general freshwater fish farming method, and if the water temperature, habitat, pH, oxygen supply, and food supply suitable for the habitat of the tadpoles are provided, there is no great difficulty in raising the tadpoles. However, it is difficult to meet the difficult temperature and humidity conditions suitable for habitat in the conventional frog farm, from the young frog (Chihuahua) to the fruit after metamorphosis. In addition, there is a disadvantage in that it is difficult to maintain a clean state for supplying sufficient food and preventing infectious diseases in the conventional frog farm.

Specifically, when the habitat temperature is lower than 15 ° C, the growth and development of the northern frogs are reduced due to reduced food intake and activity. In addition, when the habitat temperature exceeds 28 ℃, the northern mountain frog is affected by metabolism and is easily infected with infectious diseases with reduced immunity. In addition, the boreal frog dies in 4 hours at 40 ° C in normal humidity, and in 8 hours when the ambient temperature is 33 ° C or higher, and then dies within a few hours. The body temperature of the boreal frog is 23℃, and the most suitable habitat temperature is 23℃. When the ambient temperature is low, the boreal frog maintains its body temperature higher than the external temperature through self-regulation, and when the ambient temperature exceeds 23°C, growth slows down to lower the body temperature. These tortoiseshell frogs can maintain life for a short time in a high-temperature environment, but when exposed for a long time, they are susceptible to reduced growth and disease due to reduced immunity. However, since it is impossible to maintain the temperature at 23 ° C by using the sprinkler method used for temperature control in existing greenhouse aquaculture facilities or the method of flowing water in the house, the frogs can be killed when the heat wave comes.

The northern red frog breathes more than 30% of its breath through the skin, and most of the water is taken in through the skin. Therefore, water quality is very important to frogs. The pH of the water should be maintained between 5.5 pH and 7 pH. If normal tap water, contaminated water, or groundwater that is not suitable for pH concentration is used, frogs will get skin diseases, weaken their immunity, and eventually die. In the conventional breeding method, cold groundwater or valley water that is inappropriate for the pH concentration is directly sprayed on the frog body for temperature control and humidity supplementation, so there is a problem that frogs easily develop diseases.

On the other hand, the boreal frog is an animal accustomed to an amphibian life, and its skin moisturizing and warming functions are relatively poor compared to other frogs. Thus, direct sunlight causes dry skin and dehydration in red frogs. A conventional frog farm is provided in the form of covering an agricultural awning over a plastic house. By the way, commercially available awnings for greenhouses have a structure that partially blocks ultraviolet rays and transmits the rest. When using such awnings for greenhouses in farms, the transmitted UV rays touch the skin of frogs, which have no place to hide, and dry the skin. let it Therefore, commercially available sunshades for greenhouses are unsuitable as sunscreens for northern wild frog farms.

On the other hand, since frogs are sensitive to noise, they have a habit of running away and hiding when noise is generated from outside or something larger than their body moves. However, the existing vinyl house structure is not soundproof and is made of a transparent material, so that car lights or street light are exposed from the outside. In this case, there is a problem in that the immunity of the boreal frog is reduced due to stress due to light pollution and noise.

In addition, in the conventional farm, 300 to 400 fish per m 2 of breeding area are appropriate, and breeding is possible from 300 m 2 to 100,000 animals. When breeding more than that, there is a problem that separate land must be secured and breeding facilities must be expanded.

The conventional breeding method is a method of releasing a large amount of red frogs in one space and breeding them through competition for food. In addition, small frogs that are pushed out of competition for food continue to slow down in growth, and differ in weight from other frogs by up to 10 times. Eventually, a problem may arise in the marketability of the frog.

Ovipositors are formed in female boreal frogs when they are 17 months old. Ovipositors of females are used as precious medicines and have high added value. However, when breeding in an open space as in the conventional method, the male and female sex ratio cannot be adjusted, so the efficiency of the breeding space is reduced and feed is wasted.

There is a difference between the food discrimination distance of the northern red frog and that of Chihuahuas. Specifically, Chihuahuas identify prey within 10 cm, and the capture distance is 2 cm to 3 cm. In contrast, sex egrets capture prey from 10 cm to 15 cm. Therefore, when food is sprinkled and supplied, Chihuahuas are pushed out of competition for food with Sungwa due to the difference in food discrimination distance and food capture distance. Accordingly, the growth of the frog pushed by the competition is slowed down, and if it starves for more than 7 days, it will die.

The boreal frog stops feeding when the temperature is below 15℃, and when the temperature drops to 5℃ to 10℃, it descends from the mountain and moves in search of water. . In farms, frogs are collectively collected during the hibernation period by using this habit of frogs. Before the hibernation period, it is difficult to capture frogs due to the concealment of frogs, so it is difficult to release them throughout the year.

On the other hand, the feeding time of the red frog is from 4:00 am to 8:00 am and from 4:00 pm to 6:00 pm, and the red frog feeds twice a day. Also, when the temperature drops, they feed from 11:00 am to 2:00 pm. The optimum habitat temperature for frogs is 23°C. The frog's prey, such as twin crickets, camaraderie, and mealworms, are tropical insects, and when the temperature goes down, their activities become dull and die over time. Therefore, it is not easy to supply an appropriate amount of food during the frog's feeding activity time. Excessive feeding causes the food to die and decay, in which case the boreal frog is infected with bacteria and causes disease.

Habitat humidity of the boreal frog differs according to the state of development. Young frogs in metamorphosis require 85% to 90% humidity, 1 to 2 month old frogs require 80% to 85% humidity, and 3 month old frogs require 70% to 80% humidity. . However, in the rainy season, the climate of high temperature and high humidity continues, and frogs are killed in high temperature and high humidity. Conventional farms have a structure in which the lower part of the house is opened to form, and there is a disadvantage in that humidity control is not possible.

Frogs excrete daily when they consume food. At this time, when excrement is accumulated, decay occurs and pathogenic bacteria proliferate. In a conventional structure in which soil is laid in a frog farm and straw is obtained thereon, frog excrement is not decomposed in time and pathogenic microorganisms are propagated. In this case, when live food steps on the feces, the frog consumes the contaminated food and eventually eats the pathogen. Infected frogs can transmit the pathogen to other frogs through skin contact, infecting the entire enclosure.

The aquaculture method of supplying only live food such as twin crickets and mealworms has a problem in that there is no separate solution for diseases caused by calcium deficiency and vitamin deficiency and deficiency.

In addition, since the tortoiseshell frog has a habit of concealing when a person appears, when a skin disease or disease occurs, it is difficult to detect it early, so there is a problem that the timing of treatment is missed.

The present invention is to solve the above-mentioned problems, and a plurality of multi-layered breeding racks are installed in a container that is easy to move, and a plurality of breeding boxes are placed therein to automatically breed northern frogs. .

In addition, it can purify polluted water and air and block sunlight and noise.

In addition, the habitat environment can be optimized by varying the temperature and humidity through various sensors and control devices of the breeding box according to the developmental state of the frog.

In addition, it is possible to supply food by varying the supply amount, nutrients and size of the food for each breeding box and setting the supply time and capture distance.

In addition, it is possible to maintain cleanliness by automatically washing the inside of the farm through the feces treatment device.

In addition, it is possible to supply an appropriate amount of food and artificial food through an automatic feeding device.

In addition, by attaching various monitoring sensors and cameras, it is possible to check the operating conditions inside the farm and the health status of frogs.

In addition, it is possible to separate and breed individuals in multiple box breeding methods.

The present invention can maximize productivity by optimizing the habitat environment of frogs through an automated device and reduce feed costs through an artificial feed supply device.

In addition, since it is easy to move and install, the initial investment cost is low and labor can be reduced by remote control method.

In addition, it is possible to farm remotely in the city with a PC or smartphone, and the elderly or women in rural and fishing villages can easily farm, creating high income.

In order to achieve the above object, the northern frog breeding apparatus and breeding method according to the embodiment of the present invention can breed northern frogs in a systematic way through an automated device.

In addition, in order to solve the problem of spatial and geographical breeding environment and prevent damage to natural enemies, a convenient container and a movable multi-layered breeding box may be provided.

In addition, in order to maintain the living environment of frogs sensitive to temperature and humidity, a thermal insulation material may be installed inside the box and a cooling and heating device may be provided.

In addition, a soundproofing material for blocking light and noise to prevent skin drying due to direct sunlight and stress caused by external noise may be installed, and an artificial lighting device may be provided.

In addition, the pH of the supplied water can be adjusted and the spraying temperature can be maintained at 23 ° C.

In addition, a water pump and a water tank with a built-in filter may be provided for supplying clean water and spraying chemicals.

In addition, a ventilation system for oxygen supply and odor prevention may be provided.

In addition, in order to prevent food competition between frogs, they are bred separately by size and breed separately from males and females to increase added value.

In addition, since there is a difference between the food identification distance and the catching distance for each age and size, a device for adjusting the food supply distance may be provided.

In addition, the food storage BOX may be provided with a heater for heating the temperature according to the habitat temperature of tropical insects.

In addition, each frog breeding box is equipped with a temperature sensor and a humidity sensor so that temperature and humidity can be controlled according to each box.

In addition, a mesh net spaced at a certain interval from the bottom of the breeding box may be installed in the breeding box to prevent decomposition due to frog feces and food, and a spray device for flushing cleaning may be provided.

In addition, it can be provided in a structure in which the size of the mesh is changed and replaced according to the size of the frog.

In addition, since temperature and humidity sensors and monitoring cameras are attached to each box in the individual box breeding method to control the habitat environment and to grasp the movement of frogs through the camera, a device that can prevent diseases such as skin diseases at an early stage is provided. It can be.

In addition, a device capable of remote monitoring and control through the Internet such as a smartphone or PC may be provided so that a person can breed frogs remotely without entering the breeding farm.

The frog breeding facility according to the present invention has the advantage of being easy to move and install even in poor areas and easy to expand the breeding ground.

In addition, there is no need for a separate natural enemy prevention facility, and there is an effect of reducing production costs by maximizing space utilization with a multi-layer breeding method.

In addition, there is an effect of maximizing energy savings by insulating the breeding farm, minimizing cooling and heating costs through a dense breeding method, and suppressing moisture evaporation.

In addition, it is possible to reduce feed costs through stable and effective food supply, and to increase added value by increasing the breeding ratio of female frogs capable of producing oil (Hapma milk) through breeding of males and females separately.

In addition, since there is no influence of climate compared to natural farming, it is possible to increase profits by increasing the production of frogs by extending the breeding time compared to open field farming or vinyl house farming.

In addition, since it does not require a separate labor force, the elderly or women can easily breed frogs, and urban residents, farmers, and fishermen can increase additional income through remote control by utilizing surplus time.

In addition, since it is easy to collect frogs due to the box breeding method, there is an advantage in that frogs can be shipped year-round and a stable supply of frogs can be provided.

In addition, there is an advantage in that other types of amphibians can be farmed through control of temperature and humidity conditions in addition to the breeding of red frogs.

In addition, since it is possible to breed other types of animals or insects by replacing the breeding box, there is an effect that cost efficiency can be increased.

1 is a block diagram of a remote control system using a frog breeding device according to an embodiment of the present invention.
2 is a view of a container farm in one embodiment of the present invention.
Figure 3 is a schematic view of the breeding rack of the red frog breeding apparatus according to an embodiment of the present invention.
Figure 4 is a view schematically showing a lighting device that can be applied to the breeding rack of Figure 3.
5 is a diagram of an exhaust and water supply system of a red frog breeding apparatus according to an embodiment of the present invention.
Figure 6 is a perspective view of the breeding box as seen from the front.
Figure 7 is a perspective view of the breeding box as viewed from the rear.
8 is a view for explaining capture distance control and feces treatment that can be applied to the breeding rack of FIG. 3.
Figure 9 is a view for explaining a feed supply device that can be applied to the breeding rack of Figure 3.
Figure 10 is a view for explaining a food lifting device that can be applied to the breeding rack of Figure 3.
Figure 11 is a detailed view of the food floating plate of Figure 10;

Hereinafter, a frog breeding apparatus and breeding method according to an embodiment of the present invention will be described in detail with reference to the drawings.

In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description will be omitted.

- Remote control system

1 is a block diagram of a remote control system using a frog breeding device according to an embodiment of the present invention. One or more sensors necessary for automatic control, such as temperature sensor, humidity sensor, water level sensor, camera, pH concentration sensor, and CO2 sensor, are installed inside the frog farm. In addition, a control device for controlling the information collected from each sensor, a video recording device for recording images transmitted from the camera, and a monitoring PC for checking the operation status are provided. At this time, a UPS (Uninterruptible Power Supply) may be installed to prepare for an unstable power state. Various collected information may be automatically controlled by preset values. When operating beyond a preset value and above or below a preset value, a warning message may be transmitted through the smartphone. At this time, the frog state is stored in the recording equipment through the camera attached to the breeding box, and can be provided to be viewed in HOME or remote locations through the Internet in real time. In addition, the user can remotely monitor the information and operation status generated by various sensors, and can directly control it in a manual mode.

- Container farm

2 is a view of a container farm in one embodiment of the present invention. As shown in FIG. 2, container farms may be installed alone or in plurality, and may be provided in a multi-layer structure. At this time, the container skeleton is provided with steel so that the structure can be erected, and the outer wall is provided with a sandwich panel of 100 mm or more so that the inside can be insulated. A low-heating LED lamp can be installed at the top of the center of the interior, and a ventilation device for internal ventilation can be provided. The entrance may be provided in a double opening and closing structure to prevent intrusion of natural enemies and escape of frogs and quarantine. At this time, an air shower facility may be installed at the entrance. In addition, as a common facility, an air compressor as an air supply device and a septic tank as a water purification device are provided. A photovoltaic panel is attached to the top of each container to generate self-generation and can be used as an auxiliary power source. The installation direction of the solar panel may be toward the south so that solar power generation can be easily performed. According to the frog breeding permit regulations, the frog breeding farm must be 300 to 500 m away from private houses, and the land must be restored to its original state. However, since most of the areas far from private houses are mountainous areas, there are many areas where the environment is poor and electricity is not supplied. The container-structured frog farm according to the embodiment of the present invention has the advantage of reducing installation cost and restoration cost because it is easy to move and install. In addition, since it is possible to install a solar panel using a container roof without a separate structure, there is an advantage in that installation costs are reduced and self-generation is possible.

- Breeding Rack

Figure 3 is a schematic view of the breeding rack of the red frog breeding apparatus according to an embodiment of the present invention. As shown in Figure 3, a heat insulating material may be attached to the inside of the breeding rack to keep the temperature warm and block external noise. In addition, the breeding rack can be provided in a multi-layered structure for the efficiency of breeding area and the convenience of management. As a breeding rack material, both metal and wood materials can be used, and it is preferable to use a material that does not corrode. A cooling device and a ventilation device are attached to the front door of the rearing rack. An air filter is attached to the ventilation system. However, if the container farm has a cooling system and ventilation system installed and insulated, additional insulation, cooling system and ventilation system may not be installed in the breeding rack. The height of each layer inside the breeding rack can be more than 30cm, and the width and height can be freely manufactured according to the size of the farm.

- lighting device

FIG. 4 is a diagram schematically illustrating a lighting device that can be applied to the breeding rack of FIG. 3 . As shown in Figure 4, an ultraviolet lamp (lamp) and a general lighting lamp can be installed on each layer of the multi-layered structure of the breeding rack. Here, as a lamp for general lighting, both a fluorescent lamp and an LED lamp can be used, and a product with low heat can be used. At this time, the lamp may be automatically operated by the sterilization time input to the integrated controller of FIG. 1, and the light intensity may be set to 20W or less. The irradiation time may be within 10 minutes once a day. LED lamps for general lighting installed in plurality can be irradiated in the same way as the monthly sunshine hours and sunset hours entered into the integrated controller. At this time, it is possible to inform the constant feeding time through the repetitive learning effect through light, and it is possible to minimize the influence of the northern frog's biorhythm. Illuminance may be set to a brightness at which the frog can identify the prey.

- Drainage water system

5 is a diagram of an exhaust and water supply system of a red frog breeding apparatus according to an embodiment of the present invention. As shown in Figure 5, a drainage system (drainage motor, drainage pipe, oxygen sensor) can be installed inside the breeding rack. In addition, a water supply system (water supply motor, water tank, water supply pipe) can be installed inside the breeding rack. When the oxygen inside the oxygen rack is insufficient, the oxygen sensor can operate, and the ventilation device (see Fig. 3) can be operated through the integrated controller to supply fresh air. The water supply system can be operated by comparing the humidity sensor information attached to each breeding box (see FIG. 6) with the value set in the integrated control device. In addition, the water supply system may be operated manually or automatically to clean the breeding box through a camera attached to the breeding box. The water supply tank is provided with a temperature control device, through which it can be maintained at 23 ° C, which is the same as the frog's body temperature. In addition, pH 5.5 ~ pH 7 can be maintained through a pH control device. An appropriate amount of water can be replenished in the water tank at all times through the water level control device. In the case of disinfection, chemicals for frog diseases can be injected into the water tank. By operating the drainage system at the same time as supplying water to the breeding box, it is possible to automatically or manually drain the frog feces and foreign substances into the septic tank.

- Temperature and humidity control

Figure 6 is a perspective view of the breeding box as seen from the front. Referring to Figure 6, the breeding box is provided with a temperature sensor and humidity sensor and a box control device for controlling them. As a water supply device, a water supply nozzle may be provided, and a heater plate for heating the temperature of the breeding box may be installed at the rear of the box. The material of the frog breeding box may be any material that does not corrode, and the front of the breeding box may be provided with a transparent material that can be identified by the camera and the naked eye. In addition, the top of the breeding box may be provided with a mesh that is easy to transmit light and has good ventilation. As another example, the top of the breeding box is provided with perforated transparent plastic to facilitate ventilation and prevent frogs from escaping. The height of the breeding box can be provided at a convenient height for storage inside the breeding rack, and the width of the breeding box can be calculated considering breeding of 300 to 400 animals per m2 of breeding area.

Convection heaters have the disadvantage of drying out the skin of frogs, which can adversely affect them. In the present invention, the temperature can be increased by directly transferring heat using a heater plater. Temperature control can be controlled in the breeding box control device through a temperature sensor in the breeding box. The temperature may be maintained at 23° C. at normal times. When the tortoiseshell frog wakes up from hibernation, the temperature can be gradually raised from 10 ° C and gradually raised to 23 ° C over 8 hours. Conversely, in the hibernation period, as a first step, the temperature of 18 ° C can be maintained for 48 hours. At this time, the frog will stop feeding and empty its intestines. When the activity of the red frog becomes dull and the feeding activity is stopped, as a second step, the movement of the red frog can be stopped by lowering the temperature to 10 ℃ to 5 ℃. When the immobile species becomes dormant, the boreal frog can be collected and moved to its hibernation habitat.

Depending on the breeding month, the humidity of the breeding box may be set differently. The moisture content can be adjusted by adjusting the opening and closing time of the water supply nozzle. In the case of a metamorphosed Chihuahua, the humidity of the breeding box can be set to 85% to 90%, and in the case of a 1 to 2 month old frog, the humidity of the breeding box can be maintained at 90% to 85%, and for 3 months or more In the case of frogs, the humidity of the breeding box may be maintained at 70% to 80%. At this time, it is preferable to select frogs with poor growth from time to time and breed them together with frogs of the same size.

Since the sexes of northern frogs can be identified with the naked eye within one month after metamorphosis, separate breeding is possible. Female frogs grow faster than males and can produce oil (Hapmayu), so they are sold at a high price. Separate breeding boxes can reduce breeding costs. Males can be sold as pets or health food during the year, and females can extract oil (Hamayu) after 17 months from spawning and sell it with meat, which can generate additional income.

- Capture distance control and feces disposal

Figure 7 is a perspective view of the breeding box as seen from the rear, and Figure 8 is a view for explaining the capture distance control and fecal treatment that can be applied to the breeding rack of Figure 3. Referring to FIGS. 7 and 8 , a cover for a frog to hide may be provided on the capture distance adjusting plate. It is a device equipped with a water control valve and a water supply nozzle that adjusts the spray angle. A mesh net can be installed at the bottom of the frog habitat to allow feces and foreign substances to escape, and a drain can be installed below it. Frogs have different distances to identify and capture prey as they grow. A capture distance control plate can be installed within 5cm to 10cm of the chihuahua breeding box from the center of the food floating plate, and the fruit can be installed within 10cm to 15cm. The catch distance control plate is variable according to the growth of the frog. Frogs are characterized by hiding when an object larger than their body moves or makes a noise. At this time, the stress of the frog can be suppressed by giving the frog a space to hide.

Frogs excrete a certain amount of food in their feces. At this time, if the stool is accumulated and the frog eats food that is rotten or stepped on the stool, the frog may become infected with bacteria and get sick. Feces and remaining food can naturally fall under the mesh through the mesh. Cleaning can be done in a way to wash in a short time by opening and closing the moisture control valve at the top as much as possible. At this time, there is a method of automatically setting the cleaning time and a method of checking with the eyes through a camera and cleaning at any time.

- Feeding device

Figure 9 is a view for explaining a feed supply device that can be applied to the breeding rack of Figure 3. The feeding device may be installed on top of the breeding box (see FIG. 6). A heater device may be provided in a feeding motor, an auto shutter, and a feeding storage box. Depending on the size of the frog, the size of the food can be varied, and the food that moves can be supplied. As food for frogs, twin crickets, mealworms, blackworms, and earthworms can be used. However, since earthworms and mealworms tend to burrow into the ground, twin crickets are mainly used as food. The paired cricket is a tropical insect that lives actively at high temperatures of 30℃. Therefore, at a frog breeding temperature of 23℃, the behavior of twin crickets becomes dull and can stop their activity over time. At this time, the frog does not move, so it does not recognize the twin crickets as food. Also, frogs feed twice a day. Feeding time for frogs is between 4:00 am and 8:00 am and 4:00 pm and 6:00 pm. Different feeding times and large amounts of food can cause frogs to die and rot, and can pass pathogens to other frogs.

Live food is administered to the food storage box, the temperature inside the food storage box can be set to a habitat temperature suitable for each insect, and the survival of insects can be extended by heating the heater in the storage box to minimize loss of food.

The feed supply time is set to the time when the frog is most active in feeding through the control device in the breeding box, and the feed can be supplied twice a day. At this time, the amount of food can be adjusted according to the number or size of frogs in each breeding box by adjusting the number of revolutions of the feeding motor.

- Feed floatation device

Figure 10 is a view for explaining a food lifting device that can be applied to the breeding rack of Figure 3. Referring to FIG. 10, the food lifting device may be provided with a structure in which an air control device is attached to an air valve and a food lifting plate is installed at the bottom of the breeding box (see FIG. 6) to supply air in a blinking manner. If food is fed from the feeding box during feeding time, the air valve is opened. At this time, in order to give movement like a living prey, air supply may be made blinking at intervals of a certain time. That is, the food floatation device is a device that allows the frog to eat the food by mistaking the dead food for fleshy food. Frogs cannot see non-moving objects because their pupils are fixed. In addition, since frogs are color blind, they perceive all objects as gray. Therefore, frogs have a habit of recognizing and capturing objects that they can put in their mouth as food when they move. Most breeding farms are experiencing difficulties due to food procurement. This is because frogs need to be fed live food, and food of different sizes must be supplied according to their growth rate. Also, if only one insect is fed, the frog may suffer from nutritional deficiencies. The frog breeding device according to an embodiment of the present invention provides dead insects and nutritious feed as food through a food floating device, thereby reducing feed costs and promoting growth and development.

Figure 11 is a detailed view of the food floating plate of Figure 10; Referring to FIG. 11 , when air is injected into the food floating plate, food may float. Also, if the air to be injected is stopped, food may fall to the floor. At this time, the food may be separated from the food floating plate according to the direction of the air. Therefore, it may be provided with a original inclined layer structure to prevent separation. In addition, the size of the hole may be smaller than that of the food so that the food does not fall through the air outlet.

- Epidemic prevention

Frogs do not contract respiratory infections. Infectious diseases of frogs are mostly caused by skin-to-skin contact, so in the case of dense breeding, mass extermination may occur if an epidemic occurs. The box breeding method of the present invention can isolate pathogens from other boxes in advance in the event of an epidemic, thereby minimizing infection. In addition, since only the corresponding box can be treated during sterilization and control, the cost of medicines can be reduced, and secondary damage caused by disinfectants can be prevented.

Although the northern frog breeding apparatus and breeding method according to the embodiment of the present invention have been described as specific embodiments, this is only an example, and the present invention is not limited thereto, and the widest scope according to the basic ideas disclosed herein. should be interpreted as having A person skilled in the art may implement a pattern of a shape not indicated by combining or substituting the disclosed embodiments, but this also does not deviate from the scope of the present invention. In addition, those skilled in the art can easily change or modify the disclosed embodiments based on this specification, and it is clear that such changes or modifications also fall within the scope of the present invention.

Claims (24)

As a device for breeding northern frogs,
Breeding Rack;
A breeding box that is seated on each layer of the breeding rack and accommodates the northern frog; and
Including a feed supply device for supplying food to the tortoiseshell frog housed in the breeding box,
The breeding box includes a catching distance adjusting plate and a covering film provided on the catching distance adjusting plate to hide the tortoiseshell frog accommodated in the breeding box. According to claim 1,
The breeding rack,
A northern frog breeding device provided on each layer of the breeding rack and including a lighting device for irradiating the inside of the breeding rack. According to claim 2,
The lighting device,
Lamp for lighting for lighting; and
A northern frog breeding device including an ultraviolet lamp for irradiating ultraviolet rays. According to claim 1,
The breeding rack,
A water supply system for supplying water to the inside of the breeding rack; and
A northern frog breeding device that includes a drainage system for draining the inside of the breeding rack. According to claim 4,
The water supply system,
water supply motor;
a water supply tank for storing liquid to be supplied; and
A frog breeding device comprising a water supply pipe connected to the water supply tank to supply the liquid to the inside of the breeding rack. According to claim 5,
A northern frog breeding device comprising a temperature controller for regulating the temperature of the liquid stored in the water tank. According to claim 5,
A northern frog breeding device comprising a pH control device for adjusting the pH of the liquid stored in the water tank. According to claim 4,
The drainage system,
drainage motor;
drainage piping; and
Northern frog breeding device including an oxygen sensor for measuring oxygen inside the breeding rack According to claim 1,
The breeding rack,
A cooling device for lowering the temperature inside the breeding rack; and
A northern frog breeding device including a ventilation device for ventilating the inside of the breeding rack. According to claim 1,
The breeding rack is a northern frog breeding device provided in a multi-layered structure. According to claim 1,
The breeding box,
temperature Senser;
humidity sensor and
A frog breeding device comprising a box control device for controlling one of the temperature sensor and the humidity sensor. According to claim 1,
The front of the breeding box is provided with a transparent material so that the inside of the breeding box can be observed from the outside. According to claim 1,
The upper part of the breeding box is provided with a material that is easy to transmit light and has good ventilation. delete According to claim 1,
A northern frog breeding device provided with a mesh net on the lower side of the breeding box. According to claim 1,
The feeding device,
A food storage box that can accommodate food inside;
feeding motor;
Auto Shutter; and
A northern frog breeding device including a heater in a food storage box. delete delete A northern frog breeding farm where the frog breeding device according to any one of claims 1 to 13, 15 and 16 is installed;
a sensor for detecting at least one of temperature, humidity, water level, pH concentration, and CO2 concentration inside the frog farm;
A control device for controlling the information collected by the sensor and
A northern frog breeding system including a smartphone capable of receiving the information collected by the sensor. According to claim 19,
a camera installed inside the frog farm;
A video recording device for recording images collected by the camera and
A northern red frog breeding system including a monitoring PC that allows the farmer to check the images collected by the camera. According to claim 19,
The frog farm is a breeding system for frogs provided in a container made of steel. According to claim 19,
The wild frog breeding system provided that the outer wall of the wild frog farm is made of an insulating material. According to claim 19,
A frog breeding system including a ventilation device for internal ventilation of the frog farm. According to claim 19,
A frog breeding system in which a solar panel capable of generating solar power is attached to the outer upper side of the frog farm.

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