KR101784653B1 - Quarantine barn - Google Patents

Abstract

The present invention relates to a poultry farm, which comprises a breeding space for breeding livestock and an isolated temperature control space, and measures the oxygen concentration in the breeding space to heat the outside air to a high temperature, (AI) virus that enters into the temperature control room after the virus that causes respiratory diseases such as avian influenza (AI) virus that flows through the host is killed at a high temperature, and then the temperature is lowered to a temperature suitable for livestock breeding, To prevent disease infections.

Description

Quarantine barn

More particularly, the present invention relates to a method for preventing and treating viruses that cause respiratory diseases such as avian influenza (AI) virus, which is introduced through dusts in the air, The present invention relates to a barnyard that can prevent disease infestation of livestock such as cattle.

Generally, in a farm or a farmhouse, large-sized livestock such as chickens, ducks, pigs, and cattle are raised in a large scale, and a heating system such as a hot air fan or a cooler is installed to create an environment such as temperature and humidity suitable for their growth. The temperature and the humidity are kept at a suitable level.

Particularly in the case of poultry or pigs, temperature of about 20 to 30 ° C, preferably 25 ° C is most suitable for growth. When the temperature becomes higher as in the summer season, the temperature is lowered by using the air conditioner because the temperature is higher by eating the heat. If the temperature is lowered, the activity and the food are inferior and the development and growth are delayed. Therefore, the heating device such as the boiler or the heat fan is operated to increase the temperature.

On the other hand, in recent years, as a result of large-scale enterprise-type housing, livestock has been regularly vaccinated and vaccinated to prevent the occurrence and spread of livestock infectious diseases.

In this regard, it has been proposed in Patent Registration No. 10-1297693 as an example of a barn to prevent the danger of livestock infectious diseases. In order to prevent illness of livestock such as avian influenza and swine influenza, it controls inflow air from outside to prevent infectious pathogens from entering the accommodation space through air. An air shower unit for forming a separate clean room between the entrance and the accommodation space in which the risk manager enters and exits and spraying high pressure air onto the upper surface or side surface of the clean room, And also includes a filter assembly for purifying the air introduced through the openings, because the dust can be transferred by air introduced through the openings for ventilation of the accommodation space.

However, Avian influenza virus (Avian influenza virus), which is the cause of avian influenza, has been rapidly increasing in recent years. There is a characteristic that it is killed only when it is done.

Therefore, in the case of the housing proposed in the above-mentioned patent, it is difficult to prevent the influx of avian influenza virus into the housing of the outside air even though the clean room and the filter assembly are provided in the entrance or the opening where the air can enter and exit.

Patent No. 10-1297693

Accordingly, the present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a virus that induces respiratory diseases such as avian influenza (AI) virus by heating the incoming air to a high temperature in order to maintain a pleasant air- It is an object of the present invention to provide a pest control facility which can prevent infestation of diseases of livestock by injecting air that has been killed at a high temperature into a breeding space.

In particular, the present invention provides a barn house that can maintain a temperature control space independent of the breeding space of the barn, heating the outside air, adjusting the temperature in the temperature control room, and then feeding it into the breeding space to create a comfortable breeding environment There is a purpose.

In order to solve such a technical problem,

A structure in which a breeding space for breeding livestock is formed by the partition wall and a temperature regulation space where the air flowing from the outside stays is formed; A hot air heater for heating the outside air and forcing the outside air into the temperature adjusting space; A blower installed in the partition wall for forcing the air in the temperature control space into the breeding space; An oxygen concentration meter for measuring oxygen concentration in the breeding space; A temperature control space temperature sensor for measuring a temperature of air in the temperature control space; When the oxygen concentration measured by the oxygen concentration measuring device is lower than a minimum reference value, the hot air fan is driven and stopped for a preset time, and when the sensed temperature of the temperature adjusting space temperature sensor reaches a set input safe temperature, And a control box for driving the blower so as to force the blower into the breeding space and stopping the blower when the oxygen concentration measured by the oxygen concentration meter reaches a standard reference value.

In this case, the hot air fan includes a duct for guiding the outside air to the temperature adjusting space, a first blowing fan installed at an inlet of the duct for blowing the outside air into the temperature adjusting space, A heater for heating the air; The blower is composed of a second blowing fan for forcibly blowing air in the temperature regulation space into the breeding space, and a shutter opened to allow air to move when the second blowing fan is driven.

The inlet port of the duct may further include an inlet fan for forcibly introducing the air in the duct heated by the heater into the temperature control space.

Particularly, when the oxygen concentration measured by the oxygen concentration measuring device is less than 18%, which is the lowest reference value, the control box controls the hot air fan to heat the outside air to a temperature of 70 to 80 ° C. for a set time, When the oxygen concentration measured by the oxygen concentration measuring device reaches 20.9% in a state where the air in the temperature regulation space is forcibly supplied to the breeding space by driving the blower when the temperature reaches 20 to 30 ° C, Thereby stopping the operation.

The control box may further include a temperature sensor for the breeding space, wherein when the sensed temperature of the breeding space temperature sensor exceeds 30 ° C., the blower is driven to lower the temperature, and if the temperature is less than 20 ° C., Are simultaneously driven.

The control unit according to the present invention includes a breeding space for breeding livestock and an isolated temperature control space. When the oxygen concentration in the breeding space is determined to be oxygen deficiency, the outside air is heated to a high temperature, (AI) virus, which is caused by respiratory diseases such as avian influenza (AI) virus, is put into a temperature control space at a high temperature, and then the temperature is lowered to a temperature suitable for livestock breeding, a pleasant breeding environment is created by feeding into a breeding space, There is also a preventive effect of infection.

In particular, the present invention provides a cushioning space that is independent of the breeding space of the barn, which is heated to a predetermined killing temperature while forcibly introducing the outside air into the cushioning space, and then naturally cooled until it falls to a temperature suitable for breeding of the livestock. There is also an effect of preventing the stress of livestock caused by temperature rise and the mass death.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
2 is a front view of an anti-vault housing according to the present invention.
3 is a cross-sectional view taken along the line "AA" in Fig.
4 is a view showing a hot air fan according to the present invention.
5 is a view showing a blower according to the present invention.
FIG. 6 is a block diagram of a control system for air control of a protection housing according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

1 to 6, the barnyard house 1 according to the present invention heats the air introduced from the outside at a high temperature so as to maintain a pleasant air quality in the breeding space 12, and is used for a respiratory disease such as avian influenza (AI) virus The virus can be killed in the air at a high temperature and then introduced into the breeding space 12 to prevent disease infestation of livestock.

In this case, the barn 1 is for raising livestock such as chickens, ducks, pigs, cows, etc. The present invention will be described as an example of a barn for breeding chickens, It also includes pens for the breeding of various cattle such as cattle, pigs, and ducks.

The protection housing 1 of the present invention has a structure 10 in which a breeding space 12 for breeding livestock and a temperature regulation space 14 for staying air flowing from the outside are divided by the partition wall 11 )and; (20) for heating the outside air and forcing the outside air into the temperature regulation space (14); A blower (30) installed in the partition wall (11) for forcing the air in the temperature control space (14) into the breeding space (12); An oxygen concentration measuring device (40) for measuring the oxygen concentration in the breeding space (12); A temperature control space temperature sensor 50 for measuring the temperature of air in the temperature control space 14; When the oxygen concentration measured by the oxygen concentration measuring device 40 is lower than the minimum reference value, the temperature of the temperature adjusting space temperature sensor 50 is set to the sensed temperature after driving and stopping the hot air fan 20 for the set time When the safe air temperature is reached, the blower 30 is driven so as to force the air in the temperature control space 14 into the breeding space 12, and the oxygen concentration measured by the oxygen concentration meter 40 is adjusted to a standard reference value And a control box (60) for stopping the blower (30) when the blower (30) is reached.

Hereinafter, the constitution of each part of the present invention will be described in detail.

First of all, the structure 10 of the barn 1 uses a construction material such as a reinforcing bar or concrete to secure a space distinguished from the outside for collectively raising livestock such as chickens, ducks, pigs, cattle, (10b) and the like are formed to form a three-dimensional shape.

In the structure 10, the breeding space 12 for raising livestock and the temperature control space 14 for staying in the air introduced from the outside are separately formed by the partition wall 11. Of course, the temperature control space 14 may further include a disinfecting booth for spraying a disinfectant for preventing disinfection according to a preset time period. The disinfecting booth may be controlled by its own operation or control box 60.

A hot air fan 20 is installed on the outer wall 10a of the barn 1 for heating the air outside the barn 1 and forcing it into the temperature control space 14. [ The fan 20 includes a duct 21 for guiding the outside air to the temperature adjusting space 14 and a fan 21 for blowing the outside air into the temperature adjusting space 14, 1 air blowing fan 22 and a heater 23 for heating the air introduced by the first blowing fan 22.

At this time, the first blowing fan 22 rotates by driving the blades connected to the motor, or the blades may be directly connected to the motor.

And an inlet fan 24 for forcibly introducing the air in the duct 21 heated by the heater 23 into the temperature adjusting space 14 at an outlet of the duct 21.

The blowing fan 24 may have the same structure as the first blowing fan 22 and may not be provided according to the installation environment. The control box 60 may be connected to the first blowing fan 22 and the heater 23 so that the air in the duct 21 may be killed if the air in the duct 21 is kept at 70 to 80 캜 for 3 seconds or more It is preferable to control the driving of the input fan 24 after the setting time of 3 seconds after the driving. Of course, the control box 60 may drive the inlet fan 24 during the set time after stopping the first blowing fan 22 and the heater 23, .

The heater 23 heats the air induced by the first blowing fan 22 to a temperature of 70 to 80 ° C, preferably 70 ° C or more, in order to kill the avian influenza virus. For this purpose, it is natural that a proper combination of the blowing capacity per unit time of the first blowing fan 22 and the heating amount per unit time of the heater 23 should be performed. For example, when the wind speed of the first blowing fan 22 is high, the amount of heat generated by the heater 23 is high, and when the wind speed of the first blowing fan 22 is low, the amount of heat generated by the heater 23 is also low. For example, airborne avian influenza (AI) viruses can be killed by exposure to temperatures of 70 ° C or higher for a minimum of 3 seconds, and the heating temperature can be set for the death of viruses that cause other respiratory diseases. It is preferable to operate the hot air fan 20 in consideration of such a condition.

A vent hole (not shown) is formed in the outer wall to prevent the internal pressure of the temperature adjusting space 14 from rising due to the driving of the fan 20 and the blower 30, (Not shown) in the ceiling of the breeding space 12 to control the air pressure in the breeding space 12.

On the other hand, the partition wall 11 is provided with a blower 30 for forcing the air in the temperature regulation space 14 into the breeding space 12. At this time, the blower 30 includes a second blowing fan 31 for forcing the air in the temperature adjusting space 14 into the breeding space 12, and a second blowing fan 31 for blowing air in the second blowing fan 31 And a shutter 32 opened to be movable.

The shutter 32 is configured to be openable and closable so as to be opened and closed at the side of the discharge port 31a of the second blowing fan 31 by driving the motor 32a. In this case, one side of the shutter 32 is integrally fixed to the rotary shaft of the motor 32a, and the discharge port 31a is opened or closed in accordance with the forward rotation or reverse rotation of the motor 32a. When the shutter 32 is opened and closed by using the motor 32a, the air flow to the shutter 32 can be prevented from being obstructed, and the overload of the second blowing fan 31 can be prevented.

Of course, the blower 30 has a known structure in which the shutter 32 is rotated in the air advancing direction by the wind pressure when the second blowing fan 31 is driven, as in the method proposed in the blower of the registered patent No. 10-1413178 It can also be adopted.

In the temperature control space 14, a temperature control space temperature sensor 50 is provided to measure the temperature of the air in the temperature control space 14. The sensed temperature of the temperature control space temperature sensor 50 is used as monitoring information of the control box 60 for controlling the operation of the fan 20 and the blower 30. [

Meanwhile, the oxygen concentration measuring device 40 is installed in the breeding space 12 to measure the air quality of the breeding space 12, particularly the oxygen concentration. The oxygen concentration detected by the oxygen concentration measuring device 40 is also used as monitoring information of the control box 60 for controlling the operation of the fan 20 and the blower 30.

The breeding space 12 further includes a temperature sensor 70 for the breeding space to measure the temperature of air in the breeding space. This is utilized as monitoring information of the control box 60 for driving and stopping the fan 20 and the blower 30 when the temperature sensed by the temperature sensor 70 for the next breeding space is out of the set breeding temperature range.

The control box 60 receives the detection signals from the oxygen concentration measuring instrument 40, the temperature control space temperature sensor 50 and the breeding space temperature sensor 70, (30) to drive or stop.

In the control box 60, a driving program is installed in the internal memory, and data regarding the safe safety temperature of the temperature control space, the oxygen concentration reference value of the breeding space 12, and the safe temperature range for breeding are stored, (20) and the blower (30).

At this time, the safe safety temperature of the temperature regulation space 14 is set to 20 to 30 ° C, preferably 23 ° C, which is suitable for breeding of a chicken or a pig.

The oxygen concentration standard value of the breeding space 12 is set to a minimum standard value of 18% of the occupational safety and health standard and a standard value of 20.9% of the standard oxygen concentration of the atmosphere. The stable range of the breeding temperature is, for example, It is set at 20 ~ 30 ℃ suitable for breeding.

Hereinafter, an operation example of the anti-virus housing according to the present invention will be described with reference to FIG. 1 to FIG.

The control box 60 drives the hot air fan 20 when the oxygen concentration measured by the oxygen concentration measuring device 40 installed in the breeding space 12 is less than the minimum reference value of 18%.

The first blower fan 22 and the heater 23 are driven to forcibly introduce outside air and then flow into the temperature control space 14 through the duct 21. At this time, by controlling the amount of heat generated by the heater 23 and the air velocity of the first blowing fan 22, the air is heated to 70 to 80 ° C, preferably 70 ° C for a preset time period to generate, for example, avian influenza (AI) Kill. For example, the control box 60 drives the first blowing fan 22 and the heater 23 for a set time of about 30 minutes to 1 hour and then stops. Of course, the set time for driving the first blowing fan 22 and the heater 23 can be set differently depending on the size of the temperature adjusting space 14. [

Meanwhile, the control box 60 continuously measures the temperature of the temperature control space 14 through the temperature control space temperature sensor 50.

The control box 60 controls the temperature of the temperature adjusting space temperature sensor 50 such that the air in the temperature adjusting space 14 is naturally cooled when the hot air fan 20 is stopped, When the temperature reaches the safety temperature of 20 to 30 ° C, preferably 23 ° C or less, the blower 30 is driven to forcefully supply the air in the temperature control space 14 to the breeding space 12. That is, air is cooled in the temperature control space 14 to prevent stress and mass death caused by feeding air heated to the breeding space directly after killing the avian influenza virus (AI).

Meanwhile, the control box 60 continuously measures the oxygen concentration in the breeding space 12 through the oxygen concentration measuring device 40.

The control box 60 stops the blower 30 when the oxygen concentration measured by the oxygen concentration measuring device 40 reaches 20.9% of the standard oxygen concentration in the atmosphere, which is a standard reference value, while the blower 30 is being driven. The oxygen concentration in the breeding space 12 is kept constant for breeding.

Of course, the control box 60 compares whether the temperature of the feeding space 12 is maintained at 20 ~ 30 캜, which is the resting temperature, when the sensing signal is input from the temperature sensor 70 for the feeding space, The temperature of the breeding space 12 is stabilized by driving the blower 30 and driving the blower 30 and the blower 30 at the same time when the temperature of the blower 30 is lower than 20 ° C. It can be operated to maintain the temperature range of 20 ~ 30 ℃. In this case, the control box 60 stops the hot air fan 20 and the blower 30 at the same time when the temperature of the breeding space 12 is within the safe temperature range.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary,

1: housing structure 10: structure
11: compartment wall 12: breeding space
14: Temperature control space 20: Hot air fan
30: blower 40: oxygen concentration meter
50: temperature sensor for temperature control space 60: control box
70: Temperature sensor for breeding space

Claims (5)

A structure 10 in which a breeding space 12 for breeding livestock by the partition wall 11 and a temperature control space 14 for keeping air flowing from the outside are separately formed; A fan (30) installed in the partition wall (11) for forcibly introducing the air in the temperature control space (14) into the breeding space (12), and a fan An oxygen concentration measuring device 40 for measuring the oxygen concentration in the breeding space 12, a temperature control space temperature sensor 50 for measuring the temperature of air in the temperature regulation space 14, The control unit 20 drives and stops the hot air fan 20 for a set time period and then stops the temperature control when the sensed temperature of the temperature control space temperature sensor 50 reaches a set input safe temperature. The air in the space 14 is supplied to the breeding space 12 When the drive of the fan 30 to forcibly put the oxygen concentration is measured by the oxygen concentration meter (40) reaches the standard reference value, and a control box (60) for stopping the blower 30;
The fan 20 includes a duct 21 for guiding the outside air into the temperature control space 14 and a fan 21 installed at the inlet of the duct 21 for forcibly blowing the outside air into the temperature control space 14. [ A blower fan 22 and a heater 23 for heating the air introduced by the first blower fan 22,
The blower 30 includes a second blowing fan 31 for forcibly blowing air in the temperature adjusting space 14 into the breeding space 12 and a second blowing fan 31 for blowing air during driving of the second blowing fan 31 And a shutter (32) that is opened to allow the user to open the door.
The method according to claim 1,
The air conditioner according to any one of claims 1 to 3, further comprising an inlet fan (24) for forcing the air in the duct (21) heated by the heater (23) .
The method according to claim 1,
If the oxygen concentration measured by the oxygen concentration measuring device 40 is less than 18%, which is the minimum reference value, the control box 60 controls the hot air fan 20 to heat the outside air to a temperature of 70 to 80 ° C for a predetermined time, When the sensed temperature of the control space temperature sensor 50 reaches the safe safety temperature of 20 to 30 DEG C, the blower 30 is driven to forcibly supply the air in the temperature control space 14 to the breeding space 12 , And stops the blower (30) when the oxygen concentration measured by the oxygen concentration meter (40) reaches 20.9%.
The method according to claim 1,
The control box 60 is further provided with a temperature sensor 70 for detecting the temperature of the catching space when the temperature of the catching space 12 is 30 ° C. , The blower (30) is driven to lower the temperature, and when the temperature is less than 20 ° C, the fan (20) and the blower (30) are simultaneously driven. delete

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