KR20200055839A - A big data making system for optimizing livestock growth of pigs - Google Patents

Abstract

The present invention relates to a system for creating and building big data about growth condition information of pigs. According to the present invention, cameras and various types of sensors are installed in a plurality of pigpens installed in a livestock enclosure to precisely collect information about variations in pigs′ growth state when subjected to changes in temperature, humidity and air. A variety of detailed growth condition information is set for each of the plurality of pigpens within the scope of basic pig growth information. Thus, variations in the pig growth state minutely reacting to a set growth condition are compared and analyzed for each of the pigpens to find the optimal pig growth condition data. Temperature for cooling and heating is controlled in a radiational cooling and heating manner for pigpens for sows and piglets raised in the livestock enclosure. When it is time for the piglets to nurse, they are herded into the pigpen with the sows for breast-feeding, and when nursing time is completed, the piglets are separated and returned to the pigpen for the piglets, so the spaces where the piglets and the sows stay are physically isolated. Information about the proper breast-feeding time by growth period of the piglets is collected.

Description

A big data making system for optimizing livestock growth of pigs}

The present invention relates to a system for generating and constructing big data related to pig growth condition information. In more detail, the present invention provides a camera and a plurality of sensors to a plurality of pig cages installed in a house to change temperature, humidity, and air. It is an invention that precisely collects information that changes the growth state of a pig reacting accordingly.

In addition, the present invention compares and analyzes a change in the growth state of a pig that responds finely according to the set growth conditions for each of a plurality of pig cages by setting various and detailed growth condition information for a plurality of pig cages within a range of basic growth information of the pig. Therefore, it is an invention for generating optimal pig growth condition data.

In addition, the present invention is an invention to apply the radiant cooling and heating method by differently supplying the heating and cooling temperatures supplied to a plurality of pig cages in which sows and pigs are raised in a barn.

In addition, the present invention is an invention that precisely collects information about feeding time for piglets of sows for each growth period of piglets.

In the 21st century, when Korea was economically rich compared to the past when it was economically poor, as life grew in many ways, the amount of meat consumed in the diet also increased.

Since Korea has a large population and a small amount of meat production compared to the area, it is currently importing a lot of meat from abroad, but meat imported from abroad has problems such as freshness, quarantine, and hygiene due to long-distance transportation.

Therefore, it is necessary to replace the imported meat as much as possible by increasing the amount of meat produced by domestic livestock farmers in terms of the people's safe and fresh food supply.

On the other hand, domestic livestock farms have a relatively high mortality rate compared to livestock farms in developed countries such as the United States, the Netherlands and Denmark.

In particular, in the case of pigs, MSY (Maximum Sustainable Yield), which is an indicator of pig productivity, is only about 70% of developed countries, so pig production costs are increased by 25% more than developed countries to increase the price competitiveness of domestic livestock farmers. It causes deterioration.

Therefore, in order to increase the proportion of MSY, it is necessary to reduce the mortality rate of pigs by improving the proper growth environment and management method between pig sows and piglets. The following are prior arts related to this.

1. Republic of Korea Patent Publication No. 10-2010-0001012 Stall management method and system using integrated sensor integrated module 2. Korea Patent Publication No. 10-2011-0114166 House and livestock management system using binary CDM (code division multiple access) 3. Korea Registered Utility Model Publication No. 10-1387088 Centralized Controlled Donsa

The present invention is to solve the above problems, the present invention is to install a camera and a plurality of sensors on a plurality of pig cages installed in a barn to change the temperature of the pig, which responds to changes in the growth state of the pig. The purpose is to collect precisely.

In addition, the present invention compares and analyzes a change in the growth state of a pig that responds finely according to the set growth conditions for each of a plurality of pig cages by setting various and detailed growth condition information for a plurality of pig cages within a range of basic growth information of the pig. The objective is to generate optimal pig growth condition data.

In addition, the present invention aims to apply a radiant cooling and heating method by differently supplying and cooling air temperature supplied to a plurality of pig cages in which sows and pigs are raised in a barn.

In addition, the present invention aims to collect information on the feeding time for piglets of sows for each growth period of piglets.

In order to achieve the above object, the present invention is a big data generation and construction system for pig's growth condition information,

A first panel unit 210 for supplying air conditioning to the sow cage 110 in which sow resides in a radiant cooling and heating method, and a second panel unit 220 for supplying air conditioning to the sow inlet 120 in which piglets live, The heating and cooling supply panel unit 200 including a third panel unit 230 that divides the sow cage 110 from the sow cage 120, and sows and piglets in the sow cage 110 and the sow cage 120. Generates image information that captures the growth of the, and grows environment information by detecting the growth environment conditions of sows and piglets such as temperature, humidity, and carbon dioxide in the sows 110 and piglets 120, and sows and piglets. A plurality of pig cages 1000 including a sensing device 300 that senses the body temperature of the body and generates body temperature information of sows and piglets;

A plurality of pig cages 1000 through the heating and cooling supply panel 200 using reference to the image information generated by the detection device 300, growth environment information, and body temperature information and using the stored growth conditions of the pig. Real-time temperature control of heating and cooling for the sows (110) and piglets (120) constituting the control, and the sliding movement of the upper and lower panels of the third panel 230 according to the feeding time, pig piglet growth information Receives and stores, compares and analyzes the growth information of the pigs stored for each pig cage to select the piglet part 1000 having the best growth result, and to obtain the temperature control information performed so far for the selected piglet part 1000. Includes a management control unit (2000) for extracting and updating temperature-related information in the growth condition information by using the extracted temperature control information.

The growth condition information of the pig includes information about temperature, humidity, and illuminance required for growth by breeding of sows and piglets, by state of sows, and by age of piglets.

The growth information is characterized by including information on the mortality rate, weight gain rate, and disease rate.

The big data generation and construction system for the pig's growth condition information of the present invention is equipped with a camera and a plurality of sensors in a plurality of pig cages installed in the house to change the growth state of the pig reacting according to changes in temperature, humidity and air. This is to increase the MSY (Maximum Sustainable Yield) by establishing the optimal growth database for each breed, state, and age of pigs by collecting information accurately.

In addition, the present invention compares and analyzes a change in the growth state of a pig that responds finely according to the set growth conditions for each of a plurality of pig cages by setting various and detailed growth condition information for a plurality of pig cages within a range of basic growth information of the pig. By finding the best pig growth condition data, it is possible to build big data that can help each pig grow, so it can be applied not only to individual livestock farmers, but also to local livestock farmers, thereby strengthening the nation's overall livestock industry competitiveness. have.

In addition, the present invention separately supplies and supplies the heating and cooling temperature supplied to the pig cage in which the sows and piglets are raised in the house, and applies the cooling and heating transmission method supplied to the house as radiant heating, so that the pig receives due to the heating and cooling supply. It reduces the mortality rate of pigs because it reduces the stress, which also contributes to the increase in farm income.

In addition, the present invention can collect the information about the feeding time for piglets of sows for each growth period of piglets, so it can be used to manage the feeding time for piglets.

1 is a conceptual diagram of a system for generating and constructing big data for pig growth condition information of the present invention;
2 is a conceptual diagram of a pig cage and a management control unit of a big data generation and construction system for pig growth condition information of the present invention.
Figure 3 is a block diagram of a big data generation and construction system for pig growth condition information of the present invention
4 is a cross-sectional view of a big data generation and construction system for pig growth condition information of the present invention
5 is an exemplary diagram of a heating and cooling supply panel of a system for generating and constructing big data on growth condition information of a pig of the present invention.
Figure 6 is a detailed configuration diagram of the pig portion of the big data generation and construction system for pig growth conditions information of the present invention
7 is a state diagram after the start of the feeding time and after the feeding time in the big data generation and construction system for the growth condition information of the pig of the present invention
8 is a state diagram of a third panel of a system for generating and constructing big data for pig growth condition information of the present invention.
9 is an exemplary view of a monitoring screen of a system for generating and constructing big data for growth condition information of a pig of the present invention.
Fig. 10 is a state diagram of a second breeding information control window of a system for generating and constructing big data for growth condition information of a pig of the present invention

An embodiment of the present invention as described above will be described in detail with reference to FIGS. 1 to 10.

The big data generation and construction system for the pig's growth condition information of the present invention is equipped with a camera and a plurality of sensors in a plurality of pig cages installed in the house to change the growth state of the pig reacting according to changes in temperature, humidity and air. It is an invention to increase MSY (Maximum Sustainable Yield) by constructing the optimal growth database for each breed, status, and age of pigs by collecting information accurately.

Therefore, an embodiment of a system for generating and constructing a big data related to growth condition information of a pig of the present invention will be described in detail as follows.

1 to 3, the big data generation and construction system (hereinafter referred to as a system) of pig growth condition information of the present invention is composed of a plurality of pig cages 1000 and a management control unit 2000.

Here, each of the plurality of pig cages 1000 basically includes a sow cage 110, a piglet cage 120, an air conditioning supply panel part 200, and a sensing device part 300, and a ventilation device as necessary. 400, a humidifying device 500, a lighting device 600, a motion detection sensor 700 and a piglet oil device 800 may be further included.

Conventional livestock houses supplied the same temperature to piglets sows and piglets with centralized heating and cooling, but piglets, as compared to their mother sows, do not adapt quickly to the surrounding environment and are sensitive to temperature changes. There was a problem in that it was easily died under the stress of the temperature change caused by heating and cooling supplied by the feeding method, or that the piglet was sown and sown.

Therefore, the system 10 of the present invention, in order to protect the piglets from the above problems, the piglet unit 1000 in the sow 20 in which the sow 20 resides and the piglet cage 120 in which the piglet 30 resides 120 It is to separate each of the sows 20 and piglets 30 to grow, and to supply different heating and cooling to the sows (110) and piglets (120).

In addition, the system 10 of the present invention performs different temperature control, humidity control, and illuminance control for each pig cage according to various and finely stored growth condition information, and then provides temperature, humidity, and illuminance provided for each pig cage. According to each pig, because it collects growth information, which is a change in the growth state of pigs responding finely, and uses the collected growth information to compare and analyze the growth status of pigs for each piglet, to find the optimal pig growth condition data. It is an invention that can enhance the competitiveness of the nation's livestock industry as it can be applied not only to individual livestock farmers but also to local livestock farmers because it can build big data that can help growth.

2 and 4, sows (110) and piglets (120) constituting the pig cage (1000) are physically separated and partitioned by the air-conditioning and supply panel (200), and described in more detail When it is divided by the third panel 230 of the heating and cooling supply panel 200.

Here, the air conditioning supply panel unit 200 includes a plurality of first panel units 210, a second panel unit 220, and a third panel unit 230, and the plurality of first panel units ( 210) and the second panel unit 220 are configuration means for individually supplying heating and cooling temperatures suitable for sows 110 and piglets 120, respectively.

That is, the plurality of first panels 210 are installed on the floor and the side to supply air conditioning and heating to the sow 110 in which the sow 20 resides, and the plurality of second panels 220 are installed on the floor and the side, etc. It is to supply air conditioning to the piglet cage 120 where the piglets live.

Particularly, since the first panel part 210 and the second panel part 220 separately supply and heat air conditioning to the sow cage 110 and the sow cage 120, growth of sow 20 or sow 30 is provided. It is possible to individually create a temperature environment suitable for a specific piglet cage 110 and a piglet cage 120, thereby reducing the mortality rate of piglets 30 having weak environmental adaptability and promoting pig growth.

Meanwhile, a third panel portion 230 is formed in a space between the plurality of first panel portions 210 and the second panel portion 220, and the third panel portion 230 is provided with a sow cage 110. The space between the sows 110 and the piglets 120 is physically blocked to divide the piglets 120 into divisions.

 Conventionally, the temperature was controlled by a central supply-type convection method through a central cold air fan or a hot air fan. Since the first and second panels 210 and 220, which are radiant cooling and heating methods, respectively, create a cooling and heating environment suitable for sows and piglets, respectively. Due to the unpleasant sensation caused by piglets, the stress of piglets is reduced and the mortality rate of piglets is lowered.

In addition, the present invention causes the piglets to move to the sow for feeding when the feeding time begins, and when the feeding time has elapsed, induces the piglets to move to the piglets, and physically blocks the space where the sows and piglets live, It also has the advantage of preventing accidents in which piglets are killed by sows, and also reducing the stress experienced when sows and piglets are together in a narrow space.

Referring to FIG. 5, the first panel 210 and the second panel 220 of the heating / cooling supply panel unit 200 are cold / hot water generating unit 201, supply pipe 202, panel interior material 203, panel outer panel ( 204).

The cold / hot water generating unit 201 is configured to supply hot water or cold water to the supply pipe 202 to increase or decrease the temperature of the inner space of the sow cage 110 or the piglet cage 120 under the control of the management control unit 2000. With, it is configured to include a water storage tank (2011), a heating and cooling means (2012), a water supply means (2013), a control valve (2014).

Here, the water storage tank 2011 is a tank in which water to be used as cold water or hot water by heating or cooling is stored, and the heating and cooling means 2012 stores the water stored in the water storage tank 2011 in the management control unit 2000 It is a means of heating or cooling under the control of).

In addition, the water supply means 2013 is a type of pump that supplies the water heated or cooled through the heating and cooling means 2012 to the supply pipe 202, and the inlet and outlet water are controlled through the control valve 2014.

At this time, the control valve 2014 is preferably applied with an electronic valve such as a solenoid valve.

The supply pipe 202 is a pipe filled with hot or cold water supplied through the cold / hot water supply unit 201 for heating and cooling, and is a kind of piping, and the supply pipe 202 is arranged in a zigzag manner to transmit the temperature in the largest area on the panel. do.

The panel interior material 203 is a configuration that fills the rest of the interior space of the panel where the supply pipe 202 is disposed. As a material for protecting the supply pipe 202 and promoting temperature transfer, the material has a high temperature transfer property. This is sufficient in the present invention.

The panel outer plate 204 is a plate material that protects the supply pipe 202 and the panel interior material 203 from the outside.

Therefore, the heating / cooling supply panel unit 200 belongs to the growth control information according to the types of sows and piglets that are pre-stored according to the control in the management control unit 2000, according to the sow status (during pregnancy and lactation), and the age of piglets. It is characterized in that the heating and cooling control is performed to supply different temperature among the temperature corresponding to the temperature information (information having a predetermined range) to each of the sows 110 and the piglets 120.

7 and 8, the third panel unit 230,

A third panel 231 that divides the space between the sow cage 110 and the piglet cage 120 by ascending or descending according to the feeding time,

A sliding unit 232 for slidingly moving the third panel 231 up and down under the control of the management control unit 2000,

In this case, the management control unit 2000,

When the feeding time is reached, so that the piglets living in the piglet cage 120 can move to the sow piglet 110 for feeding, so that the third panel 231 rises to a height sufficient to pass through the piglet cage 232. Control of the sliding part 232 to perform the control and to lower the third panel 231 to prevent the piglet returning to the piglet cage 120 after the feeding time has elapsed from moving back to the sow piglet 110 Characterized in that to perform.

Referring to FIGS. 7 and 8, unlike the first panel unit 210 and the second panel unit 220, the third panel unit 230 does not have a function of supplying heating and cooling temperatures, but instead physically sows 110 ) And the piglet cage 120 are divided into sections, and includes a third panel 231 and a sliding portion 232.

Here, the third panel 231 is a blocker that physically divides the space between the sow cage 110 and the piglet cage 120, and slides up and down by the sliding unit 232 depending on the feeding time. It performs the same function as a kind of gateway.

In addition, the sliding unit 232 is a motion mechanism device for mechanically raising or lowering the third panel 231 inserted in the sliding guide by the power generated by the driving device and the power transmission of the power transmission mechanism, FIG. 8 See.

Referring to the upper figure of FIG. 7, the management control unit 2000 moves the third panel 231 so that the piglets living in the piglet cage 120 can move to the sow pig 110 for feeding when the feeding time is reached. The control of the sliding portion 232 to raise the piglet to a level high enough to pass.

Referring to the lower figure of FIG. 7, the management and control unit 2000 prevents the piglets returning to the piglet cage 120 after the set feeding time has elapsed from being moved back to the sow piglet 110. ) To control the sliding unit 232 to descend.

The reason for separating the piglets 30 from the sow 20 living in the sow 20 in addition to the feeding time through the rise and fall of the third panel 231 is, in the meantime, from the pig farm to sow 20 This is because the accidents in which the piglets 30 are crushed frequently occur, and when the piglets 30 are too concentrated around the sows 20, the stress that is received by each other increases, resulting in a higher mortality rate.

Therefore, in order to prevent this, the third panel 231 is raised or lowered according to the feeding time to separate and raise the sows 20 and the piglets 30 by separating the sows 110 and the piglets 120. Is to do.

On the other hand, the system 10 of the present invention further controls the rise and fall of the third panel 231 to prevent the accident of the piglets 30 being injured by the motion detection sensor 700 and the piglet induction device 800 It may include, and the description thereof will be described later.

Referring to FIGS. 4 and 6, the sensing device 300 generates image information photographing the growth of sows 20 and piglets 30 in the pig cage 1000, and the pig cage 1000 Detects the growth environment conditions of sows 20 and piglets 30, such as temperature, humidity, and carbon dioxide in the inside to generate growth environment information, and senses the body temperature of sows 20 and piglets 30 to sense sows 20 and piglets. As a configuration for generating body temperature information of (30), the temperature sensing sensor unit 310, the humidity sensing sensor unit 320, the carbon dioxide sensing sensor unit 330, the camera 340, the thermal image sensing camera 350 It includes.

Referring to FIG. 6, the temperature sensing sensor unit 310 includes a first temperature sensing sensor 311 sensing the temperature in the sow cage 110 and a second temperature sensing sensor sensing the temperature in the piglet cage 120 ( 312).

Here, the first temperature sensor 311 detects the temperature in the sow cage 110 and the temperature in the sow cage 110, which is the basic data of the management control unit 2000 for controlling the temperature in the sow cage 110. The second temperature sensing sensor 312 detects the temperature in the piglet cage 120 and controls the temperature in the piglet cage 120 to control the temperature in the piglet cage 120, which is the basic data of the piglet cage 110 ).

In addition, the temperature detection sensor unit 310 may further include a third temperature detection sensor 313 for sensing the outside temperature of the house, and detect the outside temperature of the house through the third temperature detection sensor 313 Therefore, it can also be used as a basic data for the internal temperature control of the pig cage (1000).

The humidity sensor 320 includes a first humidity sensor 321 for sensing humidity in the sow cage 110 and a second humidity sensor 322 for sensing humidity in the piglet cage 120. do.

Here, the first humidity sensor 321 detects the humidity in the sow cage 110 and humidity in the sow cage 110, which is the basic data of the management control unit 2000 for controlling the humidity in the sow cage 110. The second humidity detection sensor 322 detects the humidity in the piglet cage 120 and controls the humidity in the piglet cage 120, which is the basic data of the management control unit 2000. It is a configuration to detect humidity within 110).

In addition, it is possible to control the ventilation device 400 or the humidifying device 500 through the management control unit 2000 according to the humidity state sensed by the humidity detection sensor unit 320 sows 20 and piglets 30 ) To maintain a humidity condition suitable for growth.

The carbon dioxide detection sensor unit 330 includes a first carbon dioxide detection sensor 331 for detecting the carbon dioxide concentration in the sow cage 110 and a second carbon dioxide detection sensor 332 for detecting the carbon dioxide concentration in the piglet cage 120. It is configured by.

Here, the first carbon dioxide detection sensor 331 detects the carbon dioxide concentration in the sow cage 110 to control the carbon dioxide concentration in the sow cage 110 in the sow cage 110, which is the basic data of the management control unit 2000. It is a configuration for detecting the carbon dioxide concentration, and the second carbon dioxide detection sensor 332 is the basic data of the management control unit 2000 for detecting the carbon dioxide concentration in the piglet cage 120 and controlling the carbon dioxide concentration in the piglet cage 120 This configuration detects the carbon dioxide concentration in the piglet cage 110.

In addition, it is possible to control the ventilation device 400 through the management control unit 2000 according to the carbon dioxide concentration state detected through the carbon dioxide detection sensor unit 330 to maintain a carbon dioxide concentration state suitable for the growth of sows and piglets. do.

The camera 340 is a configuration that transmits the image information to the management and control unit 2000 by photographing the state of sows and pigs living in the pig cage 1000, and a general digital camera is applied.

Through this, the manager is able to check with the naked eye the actual growth of pigs as well as temperature, humidity, and carbon dioxide concentrations, which are the conditions for growing sows and pigs inhabited in the pig cage 1000.

The thermal image sensing camera 350 is a camera device that detects the body temperature of sows and piglets living in the pig cage 1000, and the manager receives heat provided through the thermal image detection camera 350 as well as the actual appearance of the pig. Body temperature status of sows or piglets can be checked based on the sensing information.

Therefore, if necessary, the manager uses the temperature, humidity, carbon dioxide concentration, image information, body temperature information of sows or piglets in the sow cage 110 and piglet cages 120 provided through the management control unit 2000 to provide cooling and heating supply panel units ( The control of the temperature in the sow cage 110 and the piglet cage 120 through 200, the ventilation device 400, the humidifier 500, and the lighting device 600 may be performed manually.

2, 3, and 5, the system 10 of the present invention may further include a ventilation device 400, a humidifying device 500, and a lighting device 600.

The ventilation device 400 is a configuration means for ventilating the internal air of the pig cage 100, and is driven by the management control unit 2000 according to the carbon dioxide concentration information in the growth environment information generated by the detection device 300. Controlled.

The humidifying device 500 is installed in the sow cage 110 and the piglet cage 120, respectively, to control the humidity inside the sow cage 110 and the piglet cage 120, the first humidifying device 510, It is configured to include a second humidifying device 520, the first humidifying device 510 is individually installed in the sow cage 110, the second humidifying device 520 is each piglet cage (120).

In addition, the image information, growth environment information, and body temperature information generated by the sensing device unit 300 are referenced through a humidifying device 500 separately installed in the sow cage 110 and the piglet cage 120, respectively. Different humidity among the sows corresponding to the humidity information (information with a certain range) in the growth condition information according to the breeding of sows and piglets by type, status of sows (pregnancy, lactation), and age of piglets by each sow ( 110) and the humidity control supplied to the piglet cage 120 is controlled.

The lighting device 600 is a lighting device for adjusting the illuminance inside the pig cage 100, the first lighting device 610 in the sow cage 110, the second lighting device in the piglet cage 120 ( 620) are individually installed.

In this case, various types of lighting devices may be applied to the lighting device applied to the lighting device 600, and LED lamps, halogen lamps, and the like may be applied.

In addition, the management and control unit 2000, the sows (110) and piglets (120) through the individually installed lighting device 600 through the sensing device 300, the image information and the growth environment information and body temperature. Illuminance corresponding to the illumination intensity information (information with a certain range) in the above growth condition information by reference to the information, by pre-stored sow and breed of sows, by sow condition (pregnancy, lactation, normal), and by age of piglets Among them, it controls the illuminance of supplying different illuminances to the respective sows 110 and the piglets 120.

1 to 3, the management and control unit 2000 refers to the image information, growth environment information, and body temperature information generated by the detection unit 300 and uses the pre-stored pig growth condition information to supply air conditioning and heating. It is a configuration means for real-time temperature control of heating and cooling in the sow cage 110 and the piglet cage 120 constituting the plurality of pig cages 1000 through the panel portion 200.

The growth condition information of pigs pre-stored in the management control unit 2000 includes information about temperature, humidity, and illuminance required for growth by sow and pig breeds, by sow condition, and by age of pigs.

Specifically, the temperature control by the management control unit 2000 is the temperature information in the growth condition information according to the types of pre-stored sows and piglets by type, sow status (pregnancy, lactation, normal), and piglet's monthly age ( It is to control the heating and cooling to supply different temperature among the temperatures corresponding to the predetermined range) to each sow 110 and piglet 120 constituting the plurality of pig cages 100.

In addition, as shown in FIGS. 7 and 8, the management control unit 2000 controls the sliding movement of raising the third panel 231 when the feeding time is reached, and the third panel 231 when the set feeding time has elapsed. It controls the sliding movement to descend, at this time, the start and end of the feeding time can be set in the management control unit (2000).

On the other hand, when the ventilation system 400, the humidifying device 500, and the lighting device 600 are further configured in the system 10 of the present invention, the management control unit 2000 generates image information generated by the sensing device unit 300. With reference to the growth environment information and body temperature information, and using the pre-stored growth conditions of the pig, a plurality of pig cages 1000 are provided through the ventilation device 400, the humidifying device 500, and the lighting device 600. It is a configuration means for performing ventilation, humidity control, and illuminance control in real time on each of the sows (110) and piglets (120).

Specifically, the management control unit 2000,

See the image information, growth environment information, and body temperature information generated by the sensing device unit 300 through the humidifying device 500 individually installed in the sow cage 110 and the piglet cage 120, and previously stored sow. Different humidity among the humidity corresponding to the humidity information (information having a certain range) in the growth condition information according to the breeding type of the piglet and the status of the sow (pregnancy, during lactation), and the age of the piglet, each sow cage 110 ) And humidity control to supply to the piglet cage 120, and the image information generated by the sensing device 300 through the lighting device 600 respectively installed in the sow cage 110 and the piglet cage 120, respectively. With reference to the growth environment information and temperature information, and the pre-stored sows and piglets by breed type, by sow condition (pregnancy, during lactation), and by the age of piglets, the illuminance information in the above growth condition information (information with a certain range) It characterized in that the control of the illuminance to supply the different illuminance of each of the sows (110) and piglets (120) of the illuminance corresponding to.

In addition, the management and control unit 2000 receives and stores the growth information of pigs for each pig cage unit 1000 in which temperature control, humidity control, and illuminance control of different conditions are performed, and stores and stores the stored pig growth information for each pig cage. By comparing and analyzing, the piglet part 1000 having the best growth results is selected, and temperature control, humidity control, and illuminance control information performed so far for the selected piglet part 1000 is extracted, and the extracted temperature control information , Temperature-related information, humidity-related information, and illuminance-related information in the growth condition information are updated using humidity control information and illuminance control information.

In other words, the management and control unit 2000 has different temperature control, humidity control, and illuminance for each of a plurality of pig cages 1000 within the range allowed by the growth condition information to generate and construct big data on the growth condition information of the pig. Perform control.

For example, if the recommended growth temperature range for sows in the lactating state is 18 to 22 ° C, the sow cage in the 1st pig cage (the cage with sows in the lactating state) is 18 ° C and the sow cage in the 2nd pig cage ( It is possible to individually control heating and cooling for each pig cage by dividing it more into 20 ℃ in the sow cage of the third pig cage (for cages with sows in the nursing state) and in the sow cage of the third pig cage (for cages with sows in the lactating state). If the recommended humidity range for piglets with a monthly age of 40 months is 40 to 60%, piglets in piglets 1 (cages with piglets with a month of 1 month) are 40%, piglets with pigs 2 months (monthly Humidity control can be individually applied to each pig cage by further dividing it into 45% for pigs with 1 month piglet, and 50% for piglets with pig pig number 3 (we have piglets with 1 month of age). It is.

In addition, temperature control, humidity control, and illuminance control are performed for each of the plurality of pig cages as described above, and growth information of the pigs grown by the performed temperature control, humidity control, and illuminance control for each pig cage is analyzed.

The collection of growth information is performed by an administrator. That is, the manager collects growth information of pigs that are bred for each pig cage for each pig cage, and the growth information includes information on the mortality rate, weight gain rate, and disease rate of pigs.

Therefore, in order to prove the theoretical growth conditions of the pigs that are already stored through the system 10 of the present invention through the actual growth of pigs, to find more accurate and optimized growth conditions of pigs, each pig cage is as described above. The other is to perform control and collect and analyze growth information of pigs growing according to different controls.

At this time, in order to reduce the sample error and increase the reliability of the growth condition data, more sample groups are required in time and space, so the newly extracted optimized growth condition information is extracted using the growth information of the first selected piglet part 1000. It should be applied to other pig cages (1000) and applied continuously if the same result is obtained, otherwise, efforts to find optimized growth condition information must be performed again.

In addition, the growth information records of a plurality of other pig cages 1000 except for the best pig cage 1000 can be stored and stored as a reference for generating and constructing big data on pig growth condition information. .

The management control unit 2000 includes a storage means 2100, a panel temperature control means 2200, a temperature information updating unit 2300, and a humidity and illuminance information updating unit 2400 as shown in FIG. .

The storage means 2100 stores image information, growth environment information, and body temperature information transmitted from the sensing device 300, stores growth condition information of a pig, and stores growth information collected and input by an administrator. It is a storage device.

In particular, the storage means 2100 periodically stores image information, growth environment information, and body temperature information transmitted from the sensing device unit 300 (year, season, month, day, time).

Therefore, the storage means 2100 needs to apply a data storage for a server, and various types of information stored in this way are basic data necessary for generating and constructing big data about optimal pig growth condition information.

At this time, the growth condition information stored in the storage means 2100 is according to the variety of sows 20 and piglets 30 (e.g., Yorkshire, Landrace, native pigs, etc.), and the status of sows (during pregnancy, lactation after childbirth) , Normal), and the temperature, humidity, and illuminance required for growth according to the age of piglets.

That is, the management and control unit 2000 detects the current environment by detecting the growth environment information that is the current environment information inside the sow cage 110 or the piglet cage 120 generated by the sensing device 300, and then grasps the current state, and then the growth environment. If the information does not match the growth condition information stored in the storage means 2100, it is to control the current environment inside the sow or piglet to match the growth condition information.

The panel temperature control means 2200 uses the growth environment information and body temperature information transmitted from the detection unit 300 to determine the current growth environment of the sow cage 110 and the piglet cage 120, and the result of the sowing If the current growth environment of the cage 110 and the piglet cage 120 does not match the growth condition information of the pig stored in the storage means 2100, the current growth environment of the piglet cage 110 and the piglet cage 120 is grown. In order to individually control the heating and cooling temperature of the sow cage 110 and the piglet cage 120 in real time, the first panel 210 and the second panel 220 of the air conditioning supply panel unit 200 are respectively controlled to suit the condition information. do.

The individual control by the panel temperature control means 2200 includes temperature information (a certain range) in the growth condition information according to the types of pre-stored sows and types of piglets, by sow status (during pregnancy, during lactation), and by month of piglet age. It is characterized in that it is a control that supplies different temperature among the corresponding temperature) to each sow cage 110 and piglet cage 120.

The temperature information updating unit 2300 compares and analyzes the growth information collected and stored to select the piglet unit 1000 having the best growth result, and the temperature control information performed so far for the selected piglet unit 1000. It extracts and updates the temperature-related information in the growth condition information stored in the storage means 2100 using the extracted temperature control information.

That is, through the panel temperature control means (2200) and the temperature information update unit (2300), sows 20 and piglets 30 by breed, status of sows (pregnancy, lactation, normal), piglet age Among the temperatures corresponding to the temperature information (information having a certain range) in the growth condition information necessary for the growth of each star, the heating and cooling of each sow cage 110 and the piglet cage 120 are individually controlled in real time with different temperatures. By analyzing the stored growth information indicating the growth status of pigs according to individual control to different temperatures, the best pig cage 1000 is selected, and the growth conditions using temperature control information performed up to the present time performed on the selected pig cage. By updating the temperature-related information in the information, it is to generate and construct big data on optimal pig growth condition information about temperature.

Pigs are sensitive to temperature in their growth, and piglets have a higher mortality rate when exposed to temperatures that are not suitable for each growth age. Therefore, it has been difficult to reduce the pig mortality rate in the conventional method (centralized supply and cooling with uniform temperature).

However, through the system (10) of the present invention, the pig cage is divided into a plurality of pig cages, and each of the divided plurality of pig cages is divided into sows (110) and piglets (120) and sows (110). The temperature of the space and the piglet cage 120 is individually controlled to different temperatures in the temperature range suitable for growing sows 20 and piglets 30, respectively. In other words, by controlling the temperature according to the breeding of sows and piglets, the status of sows (pregnancy, lactation, normal), and the age of piglets, the pig growth rate is higher and the mortality rate can be effectively reduced.

On the other hand, the system 10 of the present invention may be configured to further include a ventilation device 400, a humidifying device 500, and a lighting device 600 in each of the plurality of piglet parts 100, in this case, management The control unit 2000 may further include a humidity and illuminance information update unit 2400 and a humidity and illuminance control means 2700.

In particular, the humidifying device 500 and the lighting device 600 are individually installed in the sow cage 110 and the piglet cage 120 constituting the pig cage 100.

The humidity and illuminance control means 2700 includes image information and growth environment information generated by the sensing device 300 through a humidifying device 500 individually installed in the sow cage 110 and the piglet cage 120, respectively. With reference to the body temperature information, different sows of each sow (110) and piglets (of the humidity according to the above growth condition information for each sow and each breed of sows, by sow condition (pregnancy, during lactation), and by age of piglets each month Humidity control to be supplied to 120), and the image information and growth environment information generated by the sensing unit 300 through the lighting devices 600 respectively installed in the sow cage 110 and the piglet cage 120, respectively. With reference to body temperature information, different sows of the sows according to the above growth condition information for each sow (110) and sows ((pregnancy, lactation), sows per month) 120) is performed.

Humidity and illuminance control by the humidity and illuminance control means 2700 includes humidity and illuminance in the growth condition information according to the types of sows and piglets that are pre-stored, by sow condition (during pregnancy, during lactation), and by age of piglets. It is characterized in that the humidity and illuminance corresponding to the information (information having a certain range) is a control that supplies different humidity and illuminance to each sow 110 and piglet 120.

The humidity and illuminance information updating unit 2400 compares and analyzes the collected and stored growth information to select the piglet part 1000 having the best growth result, and controls the humidity performed so far for the selected piglet part 1000 The information and the illumination control information are extracted, and the humidity-related information and illumination-related information in the growth condition information stored in the storage means 2100 are updated using the extracted humidity control information and the illumination control information.

That is, through the humidity and illuminance control means (2700) and the humidity and illuminance information update unit (2400), according to the type of sows 20 and piglets 30, by the state of sows (pregnancy, lactation, normal), Humidity or humidity corresponding to the humidity or illuminance information (information with a certain range) in the growth condition information required for growth of each piglet age, the humidity of each sow 110 and piglet 120 in different humidity or illuminance Or, by individually controlling the illuminance in real time, analyzing the collected and stored growth information indicating the growth status of pigs according to the different humidity or individual control of the illuminance, selecting the best pig cage 1000 and selecting the selected pig cage It is to generate and build big data on optimal pig growth condition information about humidity or illuminance by updating the humidity-related information and illuminance-related information in the growth condition information using the humidity control information and the low-level control information so far performed. .

Pigs are susceptible to humidity or roughness in growth, and piglet mortality is increased in the conventional way (central supply type that provides uniform humidity or roughness) because piglets are exposed to increased humidity and irradiance that is not suitable for each growth age. It was difficult to reduce.

However, through the system (10) of the present invention, the pig cage is divided into a plurality of pig cages, and each of the divided plurality of pig cages is divided into sows (110) and piglets (120) and sows (110). The humidity and illuminance of the space and the piglet cage 120 are individually controlled with different humidity or illuminance in the range of humidity or illuminance suitable for sows 20 and piglets 30 to grow, respectively. In other words, it is possible to increase the pig growth rate and reduce the mortality rate more effectively because it controls the humidity and illuminance by dividing each breed of sows and piglets, each sow's condition (pregnancy, lactation, normal), and each pig's age.

The management control unit 2000 may further include a communication means 2500 and a monitoring unit 2600, and the functions are as follows.

Referring to Figures 1 to 3, the communication means 2500, the manager to check the pig status inside the barn, image information, growth environment information, body temperature information, panel temperature control information to enable the user to check the growth information, the terminal manager It is a communication device that transmits to (40) and can be transmitted wirelessly or by wire.

At this time, the manager terminal 40 may be a PC or a smart device, and the administrator can check the growth status of the pig from time to time using a web-based livestock management web site.

In addition, by using the communication means 2500, the growth condition information of pigs generated and constructed as big data through the system 10 of the present invention is transmitted to the managers of other farms as well as the managers of other farms, and the regional unit and country. You can also share by scope.

The monitoring unit 2600 is a kind of display device that provides image information, growth environment information, body temperature information, and panel temperature control information to a monitoring screen so that an administrator can check the status of a pig inside the barn and confirm growth information.

At this time, the monitoring unit 2600 is a monitoring screen 2610, and through the monitoring screen 2610, an administrator can view various information about pig growth, and can manually control each configuration according to the situation. .

9 and 10, the monitoring screen 2610 is a screen implemented through the monitoring unit 2600, a main screen 2611, a sub screen 2612, a date information window 2613, and a first breeding information window ( 2614), a second breeding information window 2615, and a breeding result information window 2616.

The main screen 2611 is located in the central portion of the monitoring screen 2610, and is displayed through the thermal image detection camera 350 while enlarging and displaying the sub screen 2612 selected by the administrator among the plurality of sub screens 2612. The body temperature of the pig is also displayed.

The sub-screen 2612 is a screen in which a plurality of small screens in the form of thumbnails is formed, and the video information transmitted by the plurality of cameras 340 installed in the pig cage 1000 is displayed.

The date information window 2613 is an information window that displays current date, season, and time information.

The first breeding information window 2614 is an information window displaying breed information of pigs reared in the pig cage 1000 displayed on the main screen 2611, and status information of sows and piglets.

The second breeding information window 2615 is an information window that allows an administrator to select and display environmental information of the pig cage 1000 displayed on the main screen 2611 and to control the environmental condition.

For example, as illustrated in FIG. 9, when the administrator selects the pig pig No. 6 on the secondary screen 2612, the image information transmitted by the camera 340 installed in the pig No. 6 is displayed on the main screen 2611. , In the first breeding information window 2614, the breeding information of pigs raised in pig cage No. 6, and the status information of sows and piglets are displayed, and in the second breeding information window 2615, our environment information No. 6 is displayed.

At this time, as shown in FIG. 10, when the first temperature is selected (for example, the temperature of our sow 6), an up and down arrow is generated as shown in the lower figure of FIG. The manager can select one of the up and down arrows to adjust the temperature condition of the first temperature (for example, the temperature of our sow No. 6), and the temperature control is performed through the air conditioning supply panel unit 200.

In the manner described above, the administrator can manually control the humidity and carbon dioxide concentration of the pig cage 1000 through the ventilation device 400, the humidifying device 500, and the lighting device 600.

Referring back to FIGS. 7 and 8, the system 10 of the present invention further includes a motion detection sensor 700 and a piglet induction device 800.

Here, the motion detection sensor 700 detects the presence or absence of the remaining piglets 30 in the sow cage 110 after feeding, and when it is detected that there is no remaining piglets 30 except the sow 20, the detection signal Is transmitted to the management control unit 2000.

The motion detection sensor 700 detects the presence or absence of the piglets 30 remaining in the sow cage 110 is to detect whether there are one or more motion objects in the sow cage 110.

Specifically, the only object that can move from the sow cage 110 to the piglet cage 120 is the piglet. This is because the third panel 231 rises to a height high enough for the piglets to pass, so only the piglets can move to the piglet in the state where the third panel 231 is raised.

Therefore, if there are two or more moving objects in the sow cage 110, it means that there is a piglet in the sow 110, and if there is only one moving object, the moving object is sow and all the piglets are moved to the sow pen. In this case, the motion detection sensor 700 transmits the detection signal to the management control unit 2000.

The management control unit 2000 receiving the detection signal from the motion detection sensor 700 controls the sliding unit to lower the third panel 231 to the initial position.

The piglet inducing device 800 is a configuration means for generating sound or music that may cause the interest of piglets to induce the piglets remaining in the piglet 110 to move to the piglets 120.

Therefore, the management control unit 2000 performs the control of the sliding unit 232 so that the third panel 231 rises to a height enough to pass the piglet when the feeding time is reached so that the piglets 30 can feed sows Let go to (110).

Next, when the set feeding time has elapsed, the management control unit 2000 does not immediately lower the third panel 231, but operates the piglet induction device 800 to keep the piglet 30 remaining in the sow 110. Let them naturally move to the piglet cage 120.

Next, when the management control unit 2000 receives a detection signal that there is no remaining piglet 30 through the motion detection sensor 700, the control unit 2000 controls the sliding unit 232 to lower the third panel 231. .

At this time, when the remaining piglets 30 are confirmed through the motion detection sensor 700, the management and control unit 2000 continuously operates the piglet inducing device 800 so that the remaining piglets 30 are transferred to the piglet cage 120. If it is confirmed that the piglet 30 remains in the sow cage 110, an alarm signal is transmitted to the monitoring screen 800 of the monitoring unit 440 to notify the administrator.

As described above, the management control unit 2000 uses the motion detection sensor 700 and the piglet induction device 800 to move the piglets 30 after feeding all move to the piglet cage and lower the third panel 231. To separate and manage sows and piglets safely.

Meanwhile, the sound or music played by the piglet inducing device 800 is set by the management control unit 2000, for example, variously set for each morning, lunch, and evening, or variously for each day of the week and season, In addition to feeding time, animals play sounds or music that they would like to help reduce the mortality rate by reducing the stress of sows 20 and piglets 30 raised in pig houses.

In addition, in the present invention, the management and control unit 2000 counts the time from when the third panel 231 rises to when it descends, and the growth time of the piglets matching the counted time with the current age information of the current piglet. It characterized in that it generates the information for each feeding time, and storing the feeding time information for each growth period of the piglets generated in the storage means (2100).

As described above, when the big data on feeding time for each growth period of piglets is collected and stored, the pig breeding farm can use the stored information to manage the proper feeding time of piglets, and thus, it can be used for efficient piglet management.

Therefore, the system 10 of the present invention sets various and detailed growth condition information for each pig cage based on the basic growth information of the pig, and confirms the change in the growth state of the pig that responds finely according to the growth condition to determine the optimal growth condition. Because it can find, it is possible to build big data that can help each pig grow, so it can be applied not only to individual livestock farmers, but also to local livestock farmers, thereby strengthening the nation's overall livestock industry competitiveness.

In the above, the technical idea of the present invention has been described together with the accompanying drawings, which illustrate the preferred embodiments of the present invention by way of example, and do not limit the present invention. In addition, it is obvious that anyone who has ordinary knowledge in this technical field can make various modifications and imitation without departing from the scope of the technical idea of the present invention.

10: system
20: sow
30: piglet
40: manager terminal
1000: Pig Woori
2000: Management control unit

Claims (9)

In the big data generation and construction system for pig growth conditions information,
A first panel unit 210 for supplying air conditioning to the sow cage 110 in which sow resides in a radiant cooling and heating method, and a second panel unit 220 for supplying air conditioning to the sow inlet 120 in which piglets live, The heating and cooling supply panel unit 200 including a third panel unit 230 that divides the sow cage 110 from the sow cage 120, and sows and piglets in the sow cage 110 and the sow cage 120. Generates image information that captures the growth of the, and grows environment information by detecting the growth environment conditions of sows and piglets such as temperature, humidity, and carbon dioxide in the sows 110 and piglets 120, and sows and piglets. A plurality of pig cages 1000 including a sensing device 300 that senses the body temperature of the body and generates body temperature information of sows and piglets;
A plurality of pig cages 1000 through the heating and cooling supply panel 200 using reference to the image information, growth environment information, and body temperature information generated by the sensing device 300 and using the stored growth conditions of the pig. Real-time temperature control of heating and cooling for the sows (110) and piglets (120) constituting the control, and the sliding movement of the upper and lower panels of the third panel 230 according to the feeding time, pig piglet growth information Receives and stores, compares and analyzes the growth information of the pigs stored for each pig cage to select the piglet part 1000 having the best growth result, and displays the temperature control information performed so far for the selected piglet part 1000. Includes a management control unit (2000) for extracting and updating temperature-related information in the growth condition information by using the extracted temperature control information.
The growth condition information of the pig includes information about temperature, humidity, and illuminance required for growth by breeding of sows and piglets, by state of sows, and by age of piglets.
Big data generation and construction system for pig growth condition information, characterized in that the growth information includes information on mortality, weight gain, and disease rate.
According to claim 1,
Each of the plurality of pig cages (1000),
Ventilation device 400 for ventilating the internal air,
Humidifier 500 for adjusting the humidity,
Further comprising a lighting device 600 for adjusting the illuminance,
The humidifying device 500 and the lighting device 600 are individually installed in sows (110) and piglets (120) constituting the pig cage (1000), respectively.
In this case, the management control unit 2000,
A plurality of pig cages 1000 are configured through the humidifying device 500 by referring to the image information generated by the detection device 300, growth environment information, and body temperature information and using the stored growth condition information of the pig. The piglet compartment with the best growth results by real-time humidity control on the piglet cage 110 and the piglet cage 120, receiving and storing the growth information of pigs in each pig cage, and comparing and analyzing the growth information of pigs in each pig cage. Select (1000), extract the humidity control information that has been performed so far for the selected pig cage (1000), and update the humidity-related information in the growth condition information using the extracted humidity control information,
A plurality of pig cages 1000 are configured through the lighting device 600 by referring to the image information, growth environment information, and body temperature information generated by the detection device 300 and using the stored growth conditions of the pig. The piglet unit with the best growth results by real-time illuminance control on the piglet cage 110 and the piglet cage 120, receiving and storing the growth information of pigs in each pig cage, and comparing and analyzing the growth information of pigs in each pig cage. Selecting (1000), extracting the illumination control information that has been performed so far for the selected pig cage (1000), and using the extracted illumination control information to update the illumination related information in the growth condition information Big data generation and construction system about pig's growth condition information.
According to claim 1,
The air conditioning supply panel unit 200,
A first panel 210 for supplying air conditioning to the sow cage 110 and a second panel 220 to supply air conditioning to the piglet cage 120,
The first panel 210 and the second panel 220 constituting the heating and cooling supply panel unit 200,
Cold and hot water generating unit 201 for supplying hot water or cold water to the supply pipe 202 for raising or lowering the temperature of the inner space of the sow cage 110 or the piglet cage 120 under the control of the management control unit 2000,
A supply pipe 202, which is a conduit filled with hot or cold water supplied through the cold / hot water generating unit 201 for heating and cooling,
A panel interior material 203 filling the interior space of the panel together with the supply pipe 202;
The supply pipe 202 and the panel interior material 203 includes a panel outer plate 204 that is installed inside,
The cold / hot water generating unit 201 heats or cools the water storage tank 2011 in which water to be used as cold water or hot water by heating or cooling is stored, and the water stored in the water storage tank under the control of the management control unit 2000. Big data generation and construction system for pig growth condition information, comprising a heating and cooling means (2012) and a water supply means (2013) for supplying heated or cooled water to the supply pipe (202).
According to claim 1,
The sensing device 300,
A temperature sensing sensor unit 310 including a first temperature sensor 311 for sensing the temperature in the sow cage 110 and a second temperature sensor 312 for sensing the temperature in the piglet cage 120 and ,
A humidity sensing sensor unit 320 including a first humidity sensing sensor 321 for sensing humidity in the sow cage 110 and a second humidity sensing sensor 322 for sensing humidity in the piglet cage 120 and ,
A carbon dioxide detection sensor unit 330 including a first carbon dioxide detection sensor 331 for detecting the carbon dioxide concentration in the sow cage 110 and a second carbon dioxide detection sensor 332 for detecting the carbon dioxide concentration in the piglet cage 120 )Wow,
A camera 340 for photographing the state of sows and piglets living in the pig cage 1000 and generating image information,
Big data generation and construction system for pig growth conditions information, characterized in that it comprises a thermal imaging camera 350 for detecting the body temperature of sows and piglets living in the pig cage (1000).
According to claim 1,
The management control unit 2000,
Storage means (2100) for storing the image information, growth environment information, temperature information transmitted from the detection unit 300, the growth condition information of the pig, and stores the growth information collected and input by the administrator. ,
Using the growth environment information and body temperature information transmitted from the sensing device 300, the current growth environment of each sow 110 and piglet 120 constituting a plurality of pig cages 1000 is grasped. If the current growth environment of each sow cage 110 and piglet cage 120 does not match the growth condition information of the pig stored in the storage means 2100, the sow cage 110 and the piglet cage 120 ) So that the current growth environment is suitable for the growth condition information, the first and second heating panels 110 and second panel 220 of the heating and cooling supply panel 200 of the heating and cooling temperature of each sow cage 110 and the piglet cage 120. Panel temperature control means (2200) for individually controlling in real time through,
The collected and stored growth information is compared and analyzed to select the piglet part 1000 having the best growth results, and so far performed on the sows 110 and piglets 120 constituting the selected piglet part 1000. And a temperature information updating unit (2300) for extracting the temperature control information and updating the temperature-related information in the growth condition information stored in the storage means (2100) using the extracted temperature control information,
The individual control by the panel temperature control means 2200 is the temperature information (with a certain range) in the growth condition information according to the types of sows and piglets that are stored, according to the status of sows (during pregnancy, during lactation), and the age of the piglets. Information) Big data generation and construction system for pig's growth condition information, characterized in that it is a control that supplies different temperature among respective sows (110) and piglets (120).
According to claim 2,
The management control unit 2000,
The management control unit 2000,
Storage means (2100) for storing the image information, growth environment information, temperature information transmitted from the detection unit 300, the growth condition information of the pig, and stores the growth information collected and input by the administrator. ,
Using the growth environment information and body temperature information transmitted from the sensing device 300, the current temperature-related growth environment of each sow 110 and piglet 120 constituting a plurality of pig cages 1000 is used. If the current temperature-related growth environment of each sow cage 110 and piglet cage 120 does not match the growth condition information of the pig stored in the storage means 2100, the sow cage 110 and The first panel 210 of the heating / cooling supply panel unit 200 controls the heating and cooling temperature of each sow cage 110 and the piglet cage 120 so that the current temperature-related growth environment of the piglet cage 120 is suitable for the growth condition information. Panel temperature control means (2200) for individually controlling in real time through the second panel 220,
The collected and stored growth information is compared and analyzed to select the piglet part 1000 having the best growth results, and so far performed on the sows 110 and piglets 120 constituting the selected piglet part 1000. A temperature information updating unit (2300) for extracting the temperature control information and updating temperature-related information in the growth condition information stored in the storage means (2100) using the extracted temperature control information,
Using the growth environment information and body temperature information transmitted from the sensing device 300, the current humidity or illuminance of each sow 110 and piglet 120 constituting a plurality of pig cages 1000 is related. If the growth environment is grasped and the current humidity or illuminance-related growth environment of each sow cage 110 and piglet cage 120 is different from the growth condition information of the pig stored in the storage means 2100, sow cage Humidifier 400 or lighting device to adjust the humidity or illuminance of each sow 110 and piglet cage 120 so that the current humidity or illuminance-related growth environment of 110 and piglet cage 120 is suitable for growth condition information. Humidity and illuminance control means (2700) to individually control in real time through (500),
The collected and stored growth information is compared and analyzed to select the piglet section 1000 with the best growth results, extract the humidity control information and the illuminance control information performed so far for the selected piglet section 1000, and extract And a humidity and illuminance information updating unit 2400 for updating humidity-related information and illuminance-related information in the growth condition information stored in the storage means 2100 using humidity control information and illuminance control information,
The individual control by the panel temperature control means 2200 is the temperature information (with a certain range) in the growth condition information according to the types of sows and piglets that are stored, according to the status of sows (during pregnancy, during lactation), and the age of the piglets. Information) is characterized in that the control for supplying a different temperature of each of the corresponding temperature to each of the sows (110) and piglets (120),
Humidity or illuminance control by the humidity and illuminance control means 2700 includes humidity and illuminance information in the growth condition information according to the types of sows and piglets stored, by sow condition (during pregnancy, during lactation), and by age of piglets. Big about the growth condition information of pigs characterized in that it is a control that supplies different humidity or illuminance among humidity or illuminance corresponding to (information having a certain range) to each sow 110 and piglet 120. Data generation and construction system.
According to claim 1,
The third panel unit 230,
A third panel 231 that divides the space between the sow cage 110 and the piglet cage 120 by ascending or descending according to the feeding time,
A sliding unit 232 for slidingly moving the third panel 231 up and down under the control of the management control unit 2000,
In this case, the management control unit 2000,
When the feeding time is reached, the sliding portion 232 to raise the third panel 231 to a height sufficient to pass only the piglets so that the piglets living in the piglets 120 can move to the sows 110 for feeding. Control, and the third panel 231 is lowered so as to lower the third panel 231 to prevent the piglets returning to the piglet cage 120 after the feeding time has elapsed. Big data generation and construction system for pig growth condition information characterized by performing control.
The method of claim 7,
It further includes a motion detection sensor 700 that detects the presence or absence of piglets remaining in the sow cage 110 and transmits a detection signal to the management control unit 2000 when it is detected that there is no piglet.
In this case, the management control unit 2000,
Big data generation and construction system for pig's growth condition information, characterized in that when receiving the detection signal from the motion detection sensor 700, the third panel 231 descends to control the sliding unit 232.
The method of claim 7,
It further includes a piglet inducing device 800 for reproducing sounds or music that may cause the interest of the piglets in order to induce the piglets remaining in the sows 110 to move to the piglets 120.
In this case, the management control unit 2000,
Big data generation and construction system for pig growth condition information, characterized in that the piglet induction device 800 is operated when the set feeding time has elapsed.

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