KR102243047B1 - System for pig management Ventilation control and its control method - Google Patents

Abstract

The present invention relates to a pig house management ventilation control system, and more specifically, pig house management ventilation for maintaining the pig house environment as an optimal environment for pig breeding by preventing excessive ventilation in seasons with large day and night temperature variations such as change of seasons and winter It is to provide a control system and a control method thereof.

Description

System for pig management Ventilation control and its control method}

The present invention relates to a pig house management ventilation control system, and more specifically, pig house management ventilation for maintaining the pig house environment as an optimal environment for pig breeding by preventing excessive ventilation in seasons with large day and night temperature variations such as change of seasons and winter It relates to a control system and a control method thereof.

In general, pig farms made to raise edible pigs are called pig houses. There are several methods in the pig house, which is a pig farm, depending on the size and type of pigs.In particular, when there are hundreds to thousands or more of pigs raised, the most common method of removing the window of the pig house and forcing ventilation is for various reasons. I'm using it. The reason for using this method is that the environment of the pig house, ie temperature, humidity, and air movement, is known to have a significant effect on pig growth.

Instead of having a window, such a muchang pig house maintains the most suitable environment for pig breeding by using an air conditioning system of fans, heaters and air conditioners. In this way, in order to maintain the environment of the Muchang pig house optimally for the breeding of pigs, the use of various facilities to manage the environment inside the pig house is called the ventilation management system of the Muchang pig house.

1 is a diagram showing an example of a conventional ventilation management system for a non-changing pig house.

As shown, the ventilation management system of a muchang pig house that controls ventilation in a pig house using a plurality of intelligent sensor nodes 101, 102, 10n is a sensor node 101, 102, 10n for each compartment, and an information collection device 201, .20n. , Pig house environment information processing device 23, fan control devices 251 and 25n, heater and air conditioner control devices 261 and 26n, display device 24, output device 22, power supply device 21 and fan ( 271,272,27n), heaters 281,28n, and air conditioners 291,29n are each included at least one.

More specifically, a plurality of sensor nodes (101, 102, 10n) installed inside and outside the Muchang pig house to collect environmental state variables of temperature, humidity, and air movement, and connected to the plurality of sensor nodes (101, 102, 10n) A plurality of information collection devices (201, .20n) for collecting information of environmental state variables, and a pig house environment information processing device that transmits a control command by analyzing the information collected through the information collection devices (201, .20n) (23) And, a display device (24), which is a monitor connected to the pig house environment information processing device (23) to display the environmental status of the pig house, and a daily report, weekly report, monthly report, and year report including the collected information, and the user's Includes an output device 22 that outputs a graph of changes in collection information, ventilation information, and environmental management information according to demand, and the plurality of sensor nodes 101, 102, and 10n are installed in each division in the pig house, and the pig house environment information is processed. The device 23 collects information from a plurality of sensor nodes 101, 102, and 10n installed for each division through a plurality of information collection devices 201, 20n that collect information on environmental state variables of temperature, humidity, and air movement. By calculating and operating the heater, fan, and air conditioner through the control devices 261 and 26n, it is characterized in that the optimum environment is maintained.

However, according to the prior art, there is a problem in that excessive ventilation occurs in seasons with large day and night temperature variations such as change of seasons and winter seasons, resulting in respiratory damage to pigs in the pig house.

These prior technologies and the management currently carried out in the same industry require the task manager to control and modify the set temperature determined by taking into account the current external weather, which is always located near the pig house and changes rapidly, and the temperature inside the pig house. However, by doing it during the day, there is a problem that the work manager is fatigued and unable to rest, especially if such management is not correctly implemented, pigs in the pig house suffer from various respiratory diseases or die in large quantities.

However, in the past, excessive ventilation occurs in seasons with large day and night temperature deviations such as hot summer, change of season, winter season, etc., leading to serious problems such as respiratory damage to pigs in the pig house, and such a solution has not been found so far. .

Korean Registered Patent Publication No. 10-0989801 (October 19, 2010)

The present invention is to overcome the problems in the conventional ventilation management system of the non-changing pig house, and the present invention is to prevent excessive ventilation in seasons with large day and night temperature deviations such as changing seasons and winter by adjusting the ventilation amount according to the external temperature deviation. It is to provide a pig house management ventilation control system and a control method to maintain the environment of the pig in the optimal environment for breeding pigs.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention includes a temperature setting unit for setting a temperature deviation; An outdoor temperature sensor that detects an outdoor temperature; An indoor temperature sensor that detects the indoor temperature; A control unit that calculates a temperature deviation between the sensed outdoor temperature and indoor temperature; A primary fan driven when the temperature deviation is a first set temperature; A secondary fan that drives when the temperature deviation is a second set temperature; A third fan that drives when the temperature deviation is a third set temperature, and the control unit selectively drives the first, second and third fans according to the first to third set temperatures set according to the temperature deviation It provides a pig house management ventilation control system, characterized in that.

It is preferable that the first to third set temperatures are "first set temperature <second set temperature <third set temperature", and the number of driven fans increases as the temperature deviation increases.

It is more preferable to operate the fan at a maximum air volume of 100% at a set temperature of each of the temperature deviations, and to operate by reducing the air volume in predetermined steps whenever the temperature deviation decreases.

In order to achieve the above object, the present invention includes the steps of setting a temperature deviation in a temperature setting unit; Sensing the outdoor temperature with an outdoor temperature sensor; Sensing the indoor temperature with the indoor temperature sensor; Calculating, by a controller, a temperature difference between the sensed outdoor temperature and indoor temperature;

Driving a primary fan when the temperature deviation is a first set temperature; Driving a secondary fan when the temperature deviation is a second set temperature; And driving a third fan when the temperature deviation is a third set temperature; It provides a pig house management ventilation control method, characterized in that the control unit selectively drives the primary, secondary, and tertiary fans according to first to third set temperatures set according to the temperature deviation.

It is preferable that the first to third set temperatures are "first set temperature <second set temperature <third set temperature", and the number of driven fans increases as the temperature deviation increases.

It is more preferable to operate the fan at a maximum air volume of 100% at a set temperature of each of the temperature deviations, and to operate by reducing the air volume in predetermined steps whenever the temperature deviation decreases.

Other features and more specific details of the present invention are included in the detailed description and drawings.

The pig house management ventilation control system and its control method according to the present invention configured as described above have to control excessive ventilation by automatically reducing the maximum ventilation amount when it suddenly becomes cold at night after the hot midsummer season, and by adjusting the ventilation amount according to the external temperature deviation. It is effective in preventing excessive ventilation in seasons with large day and night temperature variations such as changing seasons and winter seasons, and in preventing respiratory damage to pigs in pig houses.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

In particular, the present invention improves the problem that the pig house manager has to wait at all times near the pig house by setting the outside temperature of the pig house and the inside temperature of the pig house in advance,

By automatically controlling the amount of ventilation according to the external temperature deviation set by the pig house management ventilation control system and the control method according to the present invention, excessive ventilation is prevented in seasons with large day and night temperature deviations such as change of season and winter, and respiratory damage to pigs in the pig house It has an excellent effect on prevention.

1 is a block diagram showing a conventional ventilation management system of Muchangdonsa,
2 is a view showing a control panel of the pig house management ventilation control system according to an embodiment of the present invention;
3 is a pig house management ventilation control setting panel according to an embodiment of the present invention,
4 is a block diagram showing a pig house management ventilation control method according to an embodiment of the present invention;
5 is an explanatory diagram for calculating the minimum maximum ventilation value according to an embodiment of the present invention;
6 is a graph showing a proportional relationship of a ventilation amount according to a temperature deviation according to an embodiment of the present invention.

In the present invention, various modifications may be made and various embodiments may be provided, and specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to a specific embodiment, it should be understood to include all changes, equivalents, or substitutes included in the spirit and scope of the present invention. In describing each drawing, similar reference numerals have been used for similar elements.

Terms such as first and second may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another component. For example, without departing from the scope of the present invention, a first element may be referred to as a second element, and similarly, a second element may be referred to as a first element. The term and/or includes a combination of a plurality of related listed items or any of a plurality of related listed items.

When a component is referred to as being "connected" or "connected" to another component, it is understood that it may be directly connected or connected to the other component, but other components may exist in the middle. It should be. On the other hand, when a component is referred to as being "directly connected" or "directly connected" to another component, it should be understood that there is no other component in the middle.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, movements, components, parts, or combinations thereof described in the specification, but one or more other features or It is to be understood that the presence or addition of numbers, steps, movements, components, parts, or combinations thereof, does not preclude the possibility in advance.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. Hereinafter, the same reference numerals are used for the same components in the drawings, and duplicate descriptions for the same components are omitted.

Figure 2 is a block diagram showing a pig house management ventilation control system according to an embodiment of the present invention, Figure 3 is a pig house management ventilation control setting panel according to an embodiment of the present invention and Figure 4 is an embodiment of the present invention It is a diagram showing the control panel of the pig house management ventilation control system according to.

As shown, the pig house management ventilation control system according to an embodiment of the present invention includes a temperature setting unit 130, an outdoor temperature sensor 110, an indoor temperature sensor 120, a control unit 140, and a primary fan 150. ), secondary fan 160, and tertiary fan 170.

The temperature setting unit 130 sets a temperature deviation, the outdoor temperature sensor 110 detects the outdoor temperature, and the indoor temperature sensor 120 detects the indoor temperature.

The controller 140 calculates a temperature deviation between the sensed outdoor temperature and indoor temperature.

The primary fan 150 is driven when the temperature difference is at a first set temperature, the secondary fan 160 is driven when the temperature difference is at a second set temperature, and the third fan 170 is driven when the temperature difference is at a third temperature. Operate at the set temperature. In particular, the controller 140 may selectively drive the primary, secondary, and tertiary fans 150 to 170 according to first to third set temperatures set according to the temperature deviation.

In addition, it is preferable that the first to third set temperatures are "first set temperature <second set temperature <third set temperature", and the number of driven fans increases as the temperature deviation increases.

In addition, it is more preferable to operate the fan at a maximum air volume of 100% at a set temperature of each of the temperature deviations, and to operate by reducing the air volume in predetermined steps whenever the temperature deviation decreases.

For example, when setting the external temperature deviation based on the external temperature of 20℃, the primary fan temperature is 25℃, the secondary fan temperature is 27℃, and the third fan temperature is 29℃, and the external temperature deviation is 5℃, It is calculated as 7°C and 9°C.

Therefore, in the third fan, when the external temperature is 29°C, the control unit 140 determines the external temperature deviation as 9°C, and proportionally decelerates in 9 steps until the temperature reaches 20°C, so that the maximum ventilation minimum value is less than 20°C. It is fixed at about 55~60% and automatically controls acceleration/deceleration according to the existing set temperature, temperature deviation, and minimum ventilation setting principle.

In addition, when the external temperature of the secondary fan is 27°C, the control unit 140 determines the external temperature deviation as 7°C, and 20°C is proportionally decelerated in 7 steps, and the maximum ventilation minimum value is about 55 to 60 when the external temperature is less than 20°C. As it is fixed at %, it automatically controls acceleration/deceleration according to the existing set temperature, temperature deviation, and minimum ventilation setting principle.

In addition, when the external temperature of the primary fan is 25°C, the control unit 140 determines the external temperature deviation as 5°C, and proportionally decelerates in 5 steps until the temperature reaches 20°C. When the external temperature is less than 20°C, the maximum ventilation minimum value is approximately It is fixed at 55~60% and automatically controls acceleration/deceleration according to the existing set temperature, temperature deviation, and minimum ventilation setting principle.

Therefore, the sensor automatically detects the amount of ventilation according to the external temperature deviation By controlling it, excessive ventilation is prevented in seasons with large day and night temperature variations such as change of seasons and winter.

Figure 3 is a pig house management ventilation control setting panel according to an embodiment of the present invention, Figure 4 is a block diagram showing a pig house management ventilation control method according to an embodiment of the present invention.

As shown, the pig house management ventilation control method according to an embodiment of the present invention, the step of setting a temperature deviation in the temperature setting unit 130 (S210); Sensing the outdoor temperature with the outdoor temperature sensor 110 (S220); Sensing the indoor temperature with the indoor temperature sensor 120 (S230); Calculating, by the control unit 140, a temperature difference between the sensed outdoor temperature and indoor temperature (S240); Driving the primary fan 150 when the temperature deviation is a first set temperature (S250 to S260); Driving the secondary fan 160 when the temperature deviation is a second set temperature (S270 to S280); And driving the tertiary fan 170 (S290 to S300) when the temperature deviation is a third set temperature; The control unit 140 is configured to selectively drive the primary, secondary, and tertiary fans according to first to third set temperatures set according to the temperature deviation.

The first to third set temperatures are "first set temperature <second set temperature <third set temperature", and as the temperature deviation increases, the number of driven fans and the amount of ventilation increase.

In addition, the fan is operated with a maximum air volume of 100% at a set temperature of each of the temperature deviations, and whenever the temperature deviation decreases, the air volume is reduced in predetermined steps to operate.

5 is an explanatory diagram illustrating calculation of a minimum maximum ventilation value according to an embodiment of the present invention, and FIG. 6 is a graph showing a proportional relationship between a ventilation amount according to a temperature deviation according to an embodiment of the present invention.

As shown, as an example, in the case of a farm set temperature of 25°C, there is no change when the outside weather is 25°C or higher.

On the other hand, if the set temperature is 25℃ and the external temperature deviation is set to 5℃, it means the external weather is 20℃. When the outside weather is 20℃, the maximum ventilation amount is set to 100% when initially setting the room, but in 5 steps of 8%, that is, 25 It means that the step is reduced to 100% at ℃, 92% at 24 ℃, 76% at 22 ℃, 68% at 21 ℃, 60% at 20 ℃. It keeps 60% below 20℃.

In other words, when the external temperature is 25℃ or higher, the maximum air volume 100% operates, and when the external temperature is 25℃ or lower and 20℃ or higher, it operates proportionally in 5 steps from 100% to 60% by 8%, and the external temperature is 20℃. If it is below, it is operated with the minimum value of maximum ventilation of 60%.

According to the pig house management ventilation control system and its control method according to the present invention, by automatically adjusting the amount of ventilation according to the external temperature deviation, during the changing season due to the failure of timing adjustment by the existing manual operation, in the season with large day and night temperature deviations such as winter. It prevents excessive ventilation and has an excellent effect in preventing respiratory damage to pigs in the pig house.

Since the embodiments of the present invention described in the present specification and the configuration shown in the drawings are related to the most preferred embodiment of the present invention and do not cover all the technical ideas of the present invention, various equivalents that can replace them at the time of filing It should be understood that there may be variations and variations. Accordingly, the present invention is not limited to the above-described embodiments, and various modifications can be implemented by anyone of ordinary skill in the art without departing from the gist of the present invention claimed in the claims. And such changes are within the scope of the rights of the claims.

110: outdoor temperature sensor
120: indoor temperature sensor
130: temperature setting unit
140: control unit
150: primary fan
160: secondary fan
170: 3rd fan

Claims (6)

A temperature setting unit for setting a temperature deviation;
An outdoor temperature sensor that detects an outdoor temperature;
An indoor temperature sensor that detects the indoor temperature;
A control unit that calculates a temperature deviation between the sensed outdoor temperature and indoor temperature;
A primary fan driven when the temperature deviation is a first set temperature;
A secondary fan that drives when the temperature deviation is a second set temperature;
Including; a third fan that is driven when the temperature deviation is a third set temperature,
The control unit selectively drives the primary, secondary and tertiary fans according to first to third set temperatures set according to the temperature deviation,
The magnitude of the first to third set temperatures is "first set temperature <second set temperature <third set temperature", and as the temperature deviation increases, the number of driven fans increases,
Operate the fan at a maximum air volume of 100% at a set temperature of each of the temperature deviations, and decrease the maximum ventilation air volume in preset steps whenever the temperature deviation decreases,
When setting the external temperature deviation based on the external temperature of 20℃, the primary fan temperature is 25℃, the secondary fan temperature is 27℃, and the third fan temperature is 29℃, and the external temperature deviation accordingly is 5℃, 7℃, Calculated as 9°C,
In the third fan, when the external temperature is 29°C, the control unit 140 determines the external temperature deviation as 9°C, and proportionally decelerates in 9 steps until the temperature reaches 20°C. When the external temperature is less than 20°C, the maximum ventilation minimum value is approximately It is fixed at 55~60% and automatically controls acceleration/deceleration according to the existing set temperature, temperature deviation, and minimum ventilation setting principle.
When the external temperature of the secondary fan is 27°C, the control unit 140 determines the external temperature deviation as 7°C, and 20°C is proportionally decelerated in 7 steps, and the maximum ventilation minimum value is about 55-60% when the external temperature is less than 20°C. It is fixed to and automatically controls acceleration/deceleration according to the existing set temperature, temperature deviation, and minimum ventilation setting principle.
When the external temperature of the primary fan is 25°C, the control unit 140 determines the external temperature deviation as 5°C, and proportionally decelerates in 5 steps until the temperature reaches 20°C. When the external temperature is less than 20°C, the maximum ventilation minimum value is about 55. As it is fixed at ~60%, it automatically controls acceleration/deceleration according to the existing set temperature, temperature deviation, and minimum ventilation setting principle.
The sensor automatically detects the amount of ventilation according to the external temperature deviation. Pig house management ventilation control system, characterized in that by controlling to prevent excessive ventilation during the change of seasons, winter seasons and seasons with large day and night temperature deviations.
delete delete Setting a temperature deviation in a temperature setting unit;
Sensing the outdoor temperature with an outdoor temperature sensor;
Sensing the indoor temperature with the indoor temperature sensor;
Calculating, by a controller, a temperature difference between the sensed outdoor temperature and indoor temperature;
Driving a primary fan when the temperature deviation is a first set temperature;
Driving a secondary fan when the temperature deviation is a second set temperature;
And driving a third fan when the temperature deviation is a third set temperature;
The control unit selectively drives the primary, secondary and tertiary fans according to first to third set temperatures set according to the temperature deviation,
The magnitude of the first to third set temperatures is "first set temperature <second set temperature <third set temperature", and as the temperature deviation increases, the number of driven fans increases,
Operate the fan at a maximum air volume of 100% at the set temperature of each of the temperature deviations, and decrease the maximum ventilation air volume in preset steps whenever the temperature deviation decreases,
When setting the external temperature deviation based on the external temperature of 20℃, the primary fan temperature is 25℃, the secondary fan temperature is 27℃, and the third fan temperature is 29℃, and the external temperature deviation accordingly is 5℃, 7℃, Calculated as 9°C,
In the third fan, when the external temperature is 29°C, the control unit 140 determines the external temperature deviation as 9°C, and proportionally decelerates in 9 steps until the temperature reaches 20°C. When the external temperature is less than 20°C, the maximum ventilation minimum value is approximately It is fixed at 55~60% and automatically controls acceleration/deceleration according to the existing set temperature, temperature deviation, and minimum ventilation setting principle.
When the external temperature of the secondary fan is 27°C, the control unit 140 determines the external temperature deviation as 7°C, and 20°C is proportionally decelerated in 7 steps, and the maximum ventilation minimum value is about 55-60% when the external temperature is less than 20°C It is fixed to and automatically controls acceleration/deceleration according to the existing set temperature, temperature deviation, and minimum ventilation setting principle.
When the external temperature of the primary fan is 25°C, the control unit 140 determines the external temperature deviation as 5°C, and proportionally decelerates in 5 steps until the temperature reaches 20°C. As it is fixed at ~60%, it automatically controls acceleration/deceleration according to the existing set temperature, temperature deviation, and minimum ventilation setting principle.
The sensor automatically detects the amount of ventilation according to the external temperature deviation. Controlling the pig house management ventilation control method, characterized in that to prevent excessive ventilation in the changing season, winter season and a season with a large temperature difference between day and night.
delete delete

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