KR101433789B1 - Stable environmental management system - Google Patents

Abstract

The present invention relates to a system for managing conditions of a cattle shed which includes: an air measuring part which measures the condition of air inside the cattle shed; a blowing fan which blows the air inside the cattle shed out of the cattle shed; a liquid spraying part which sprays an agent solution or water liquid inside the cattle shed; and a controlling part which controls spraying of the liquid by the liquid spraying part based on data measured by the air measuring part.

Description

{STABLE ENVIRONMENTAL MANAGEMENT SYSTEM}

The present invention relates to a housing environment management system, and more particularly, to a housing environment management system that can perform not only ventilation but also prevention of housing.

Generally, the house has a function to house cattle, pigs, chickens and other livestock in a certain place, to streamline livestock management and to protect livestock from natural weather.

Therefore, the housing should be well ventilated, mined, ventilated, and warmed, and suitable for feeding cycle, cleaning and sanitation.

In other words, since the internal environment of the housing changes dynamically, constant monitoring is required to create an environment suitable for the growth of livestock.

However, since a large number of livestock are present together in a narrow space in a typical house, the livestock is easily affected by changes in the external environment, and thus it is prone to diseases.

In particular, the harmful gas generated from the housing by the breathing and manure of the livestock pollutes the air inside the house, which not only hinders the growth and development of the livestock, but also causes diseases.

Therefore, it is very important to actively check the inside and outside of the house to properly manage the temperature, humidity, and harmful gas inside the house to prevent diseases of the domestic animals and to promote healthy growth and development.

Recently, global warming and migration of migratory birds have caused foot-and-mouth disease and avian flu virus, and this kind of malicious livestock epidemic has infected cattle that were raised in the barn to prevent the spread of infectious diseases. It is happening frequently.

In order to prevent such malignant livestock epidemic disease, although the whole force is given to the prevention of the housing, the antimutagenic effect is insignificant due to the slight response such as intermittent chemical solution injection.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for automatically ventilating and ventilating a barn according to the air condition, temperature and humidity of the inside and outside of the barn, And to provide a housing environment management system.

An object of the present invention is to provide an air conditioner comprising: an air measuring unit for measuring a state of air inside a housing; A blowing fan which rotates so that air inside the housing is ventilated; A liquid spraying part for spraying a liquid medicine or a liquid of water into the housing; And a control unit for controlling the operation of the blowing fan and the liquid injection of the liquid injection unit based on the air data measured by the air measurement unit.

Here, the control unit may control the liquid ejecting unit to eject the liquid in conjunction with the operation of the blowing fan.

The air measuring unit may include a gas sensor for measuring a concentration of at least one of ammonia, hydrogen sulfide, methane, carbon dioxide, and carbon monoxide in the housing.

The air measurement unit may include a dust measurement sensor for measuring dust inside the housing, and the control unit may control the operation of the blowing fan based on the dust data measured by the dust measurement sensor.

The air measuring unit may include: an indoor temperature measuring sensor for measuring a temperature inside the housing; And an outdoor temperature measurement sensor for measuring the temperature of the outside of the housing, wherein the control unit controls the temperature of the indoor air based on the temperature data inside and outside the housing measured by the indoor temperature measurement sensor and the outdoor temperature measurement sensor, The operation can be controlled.

The air measuring unit may include a humidity measuring sensor for measuring the humidity inside the housing, and the controller may control the operation of the blowing fan based on the humidity data inside the housing measured by the humidity measuring sensor.

And a thermal image sensing unit for sensing and sensing the inside of the housing using infrared rays, wherein the controller analyzes the temperature distribution inside the housing based on the thermal image data sensed and sensed by the thermal image sensing unit, And the liquid injection of the liquid injection portion can be controlled.

Wherein the liquid ejection unit includes: a nozzle unit that ejects the liquid toward the airflow so that the liquid is emitted by the airflow generated by the operation of the blowing fan; And a liquid supply unit for supplying the liquid to the nozzle unit.

Wherein the nozzle unit comprises: a nozzle housing located at a center of rotation of the blowing fan, spaced apart from the blowing fan; And a plurality of spray nozzles radially disposed in the nozzle housing.

Wherein the plurality of injection nozzles include: a plurality of first injection nozzles for spraying the liquid along an airflow direction of the blowing fan; And a plurality of second injection nozzles for spraying the liquid in an inclined manner with respect to an air flow direction of the blowing fan.

The control unit may control the liquid supply unit to supply the liquid to at least one of the first injection nozzle and the second injection nozzle.

The first injection nozzle and the second injection nozzle may be alternately arranged in the nozzle housing.

The adjacent pair of the first injection nozzles may be arranged such that the liquid injection regions partially overlap each other.

And an air flow rate measuring sensor for measuring an air flow rate flowing into the housing from the outside of the housing, wherein the controller can control the operation of the blowing fan based on the air flow rate data measured by the air flow rate measuring sensor.

According to the present invention, it is possible to automatically ventilate and prevent the housing according to the air condition, the temperature and humidity of the inside and outside of the housing, and the temperature condition of the periphery of the house, and the growth environment of the domestic animals can be comfortably provided.

1 is a schematic configuration diagram of a housing environment management system according to the present invention;
Figure 2 is a control block diagram of Figure 1,
3 is a view of a blowing fan and a nozzle unit according to an embodiment of the present invention,
Fig. 4 is a side view of the main portion showing the assembled state of the fan housing and the base portion of Fig. 3,
Fig. 5 is a schematic view showing the nozzle arrangement of the nozzle portion of Fig. 3,
FIG. 6 is a schematic view showing the injection form of the first injection nozzle seen from the side of the nozzle unit of FIG. 3;
FIG. 7 is a schematic view showing the injection form of the first injection nozzle seen from the bottom face of the nozzle unit of FIG. 3;
FIG. 8 is a schematic view showing the injection form of the second injection nozzle seen from the side of the nozzle unit of FIG. 3;
FIG. 9 is a schematic view showing the injection form of the second injection nozzle seen from the bottom face of the nozzle unit of FIG. 3;
10 is a schematic diagram showing a state in which the first injection nozzle and the second injection nozzle seen from the bottom face of the nozzle part of FIG. 3 are simultaneously sprayed.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 shows a schematic configuration diagram of a housing environment management system according to the present invention, and FIG. 2 shows a control block diagram of FIG. It is to be noted that the positions of the respective components shown in Fig. 1 are shown as an embodiment and are not limited to the positions shown in Fig.

As shown in these figures, the housing environment management system according to the present invention includes an air measurement unit 11, a blowing fan 21, a liquid injection unit 41, and a control unit 91.

The air measurement unit 11 measures the air condition inside the housing 1 and sends the measured air data to the control unit 91.

The air measurement unit 11 includes a gas sensor 13 for measuring the concentration of at least one of ammonia, hydrogen sulfide, methane, carbon dioxide, and carbon monoxide in the housing 1. At least one or more gas sensors 13 are provided inside the housing 1 to measure the concentration of the gas inside the housing 1. The data of the gas concentration measured by the gas sensor 13 is transmitted to the control unit 91. [ In this embodiment, the concentration of ammonia, hydrogen sulfide, methane, carbon dioxide, carbon monoxide, and the like is measured by using one gas sensor 13, but the present invention is not limited thereto, and characteristics such as ammonia, hydrogen sulfide, methane, carbon dioxide, In order to measure other gases, an ammonia measurement sensor, a hydrogen sulfide measurement sensor, a methane measurement sensor, a carbon dioxide measurement sensor, and a carbon monoxide measurement sensor may be separately provided.

The air measurement unit 11 also includes a dust measurement sensor 15 for measuring dust inside the housing 1. At least one dust measurement sensor 15 is installed inside the housing 1 to measure the concentration of the dust inside the housing 1. The data of the dust concentration measured by the dust measurement sensor 15 is transmitted to the control unit 91. [

At least one blowing fan 21 is installed inside the housing 1 so that the air inside the housing rotates to be ventilated. The air inside the housing 1 can be blown out of the housing 1 by the blowing fan 21. 3, the blowing fan 21 includes a cylindrical fan housing 23 having both open sides and a wing portion 31 accommodated in the fan housing 23 and generating an airflow in accordance with rotation .

The fan housing 23 is rotatably coupled to a ceiling within the housing 1 or a base 25 provided on the wall surface.

4, the fan housing 23 is connected to a housing drive motor 27 provided on the base 25 by a connection shaft 29, and the housing drive motor 27 is connected to the controller 91 ). ≪ / RTI > The rotational force generated by the housing driving motor 27 is transmitted to the fan housing 23 through the connecting shaft 29 so that the fan housing 23 rotates with respect to the base 25. Accordingly, as the fan housing 23 rotates with respect to the base 25, the air blowing direction of the blowing fan 21 is changed, and the region to which the liquid is jetted can be further enlarged.

The wing portion 31 is constituted by a plurality of blades 33. The center of each blade 33 is connected to a blowing motor 35 coupled to the fan housing 23 and each blade 33 is connected to a blowing motor 35 to generate an air flow.

Thus, the blowing fan 21 operates according to the control signal from the control unit 91 as the blowing motor 35 is driven.

The liquid jetting section 41 includes a nozzle section 43 and a liquid supply section 61, and selectively ejects a chemical liquid or a liquid of water. Here, the liquid sprayed by the liquid spraying section 41 may be a chemical solution having a chemical solution component such as an antibiotic, an antibacterial agent, an antiviral agent or the like for prevention, a chemical solution for lowering the harmful gas concentration in the liquid spraying region, The temperature and the humidity of the water.

The nozzle unit 43 injects the liquid toward the airflow so that the liquid is emitted by the airflow generated by the operation of the blowing fan 21. [ The nozzle unit 43 includes a nozzle housing 45 and a plurality of injection nozzles 51.

The nozzle housing 45 has a disk shape and is positioned at the center of rotation of the blowing fan 21 at a certain distance from the blowing fan 21, for example, at the center of each blade 33 of the blowing fan 21.

The plurality of injection nozzles 51 are radially arranged along the periphery of the nozzle housing 45 to spray the liquid in a mist form and a plurality of first injection nozzles 53 and a plurality of second injection nozzles 55 ).

As shown in FIG. 5, the first injection nozzle 53 and the second injection nozzle 55 are provided at four positions, respectively, and are alternately arranged in the nozzle housing 45. Although the number of the first injection nozzles 53 and the number of the second injection nozzles 55 is four in this embodiment, the number of the first injection nozzles 53 and the number of the second injection nozzles 55 is But is not limited thereto.

6 and 7, the first injection nozzle 53 is provided so that a jetting port (not shown) through which the liquid is jetted from the blowing fan 21 to jet the liquid along the airflow direction of the blowing fan 21 For example, parallel to the axial direction of the central portion of the blowing fan 21. [0033] The first injection nozzle 53 forms an injection area of a circular pattern when viewed from the bottom of the nozzle part 43, and serves to inject the liquid intensively in the vicinity and in a predetermined area. Here, it is preferable that the adjoining pair of first injection nozzles 53 are arranged so that the liquid ejection regions overlap each other.

8 and 9, the second injection nozzle 55 is provided with a jet port (not shown) through which the liquid is jetted to the blowing fan 21 so as to jet the liquid obliquely with respect to the airflow direction of the blowing fan 21, As shown in Fig. The second injection nozzle 55 forms an injection area of a triangular pattern when viewed from the bottom of the nozzle part 43, and serves to eject the liquid widely over a long distance. Here, when the jetting port of the second jetting nozzle 55 is directed toward the center of the blowing fan 21, the jetting target area of the liquid is narrowed, and the jetting port of the second jetting nozzle 55 is directed toward the outside of the blowing fan 21 The area to which the liquid is injected is widened.

As shown in FIGS. 7 and 9, the first injection nozzle 53 and the second injection nozzle 55 are selectively provided with the first injection nozzle 53 and the second injection nozzle 55, respectively, according to the characteristics of the first injection nozzle 53 and the second injection nozzle 55. [ The liquid is supplied to the first injection nozzle 53 and the second injection nozzle 55 at the same time as shown in FIG. 10, so that even if a small amount of liquid is supplied, . Although not shown, it is also possible to supply the liquid to the first injection nozzle 53 and the second injection nozzle 55 in an alternate manner, or to spray the liquid sequentially to the first injection nozzle 53 and the second injection nozzle 55 Or by supplying liquid by a combination.

The liquid supply portion 61 is provided on the liquid supply pipe 65 for supplying the liquid to the nozzle portion 43 and connecting the liquid storage tank and the nozzle portion 43 And a liquid supply pump 67 for pumping the liquid to the injection nozzle 51 of the nozzle unit 43. [

The liquid supply pump 67 is activated and deactivated by the control signal of the control unit 91.

One end of the liquid supply pipe 65 is branched so as to be connected to the first injection nozzle 53 and the second injection nozzle 55 of the nozzle unit 43. On the branch liquid supply pipe 65, A valve 69 for interrupting the supply of the liquid to the first injection nozzle 53 and the second injection nozzle 55 is provided.

The control unit 91 controls the operation of the blowing fan 21 and the operation of the liquid spraying unit 41 based on the air data measured by the gas sensor 13 and the dust measurement sensor 15 as the air measurement unit 11. [ Or controls the liquid spraying unit 41 to spray the liquid in conjunction with the operation of the blowing fan 21. [

The air measurement unit 11 of the housing environment management system of the present invention includes an indoor temperature measurement sensor 71 for measuring the temperature inside the housing 1 and an outdoor temperature measurement sensor 71 for measuring the temperature outside the housing 1, (73).

At least one indoor temperature sensor 71 is installed in the housing 1 and at least one outdoor temperature sensor 73 is installed outside the housing 1.

The control unit 91 controls the operation of the blowing fan 21 based on the temperature data inside and outside the housing 1 measured by the room temperature measurement sensor 71 and the outdoor temperature measurement sensor 73. At this time, the control unit 91 may maintain the internal temperature of the barn 1 below the reference value by injecting water through the nozzle unit 43 in conjunction with the operation of the blowing fan 21.

The air measurement unit 11 of the housing environment management system according to the present invention includes at least one or more humidity sensor 75 for measuring the humidity inside the housing 1.

The control unit 91 controls the operation of the blowing fan 21 based on the humidity data inside the housing 1 measured by the humidity measurement sensor 75. [ Here, the humidity management inside the housing 1 can be performed in conjunction with the temperature management inside the housing 1.

In addition, the housing environment management system according to the present invention further includes a thermal image sensing unit 81 that photographs and senses the interior of the housing 1 using infrared rays.

The thermal image sensing unit 81 includes at least one of an infrared camera and a thermal image sensor, and is installed at least one inside the housing 1.

The control unit 91 controls the operation of the blowing fan 21 and the liquid spraying of the liquid spraying unit 41 based on the thermal image data sensed and sensed by the thermal image sensing unit 81. [

For example, the control unit 91 correctly analyzes the temperature distribution inside the housing 1 from the thermal image data photographed and sensed from the thermal image sensing unit 81, operates the blowing fan 21, ) Is ventilated to keep the temperature inside the housing 1 uniformly below the reference value. At this time, the control unit 91 can keep the temperature inside the housing 1 uniformly below the reference value by spraying water through the nozzle unit 43 in conjunction with the operation of the blowing fan 21.

The housing environment management system according to the present invention includes an air flow rate measuring sensor 85 for measuring the amount of air flowing into the housing 1 from the outside of the housing 1.

The control unit 91 controls the operation of the air blowing fan 21 based on the air flow rate data measured by the air flow rate measuring sensor 85. The air flow rate measuring sensor 85 is provided outside the housing 1.

Meanwhile, the control unit 91 according to the present invention is connected to the terminal device 95 of the housing manager through the wired / wireless communication network 93 in real time, and provides the information inside the housing unit 1 to the terminal device 95.

Accordingly, the housing manager can monitor the information in the housing 1 provided in the terminal device 95 without regard to the location, and can control the housing 1 environment remotely according to the result, The environment of the livestock can be maintained in an optimal state through the management of the air pollution caused by the harmful gas and dust of the livestock, and the temperature and humidity control inside the livestock (1).

With this configuration, management of the air inside the housing 1 using the housing environment management system according to the present invention will be described as follows.

First, management of air pollution due to noxious gas, dust, etc. inside the housing 1 will be described.

The control unit 91 operates the air blowing fan 21 to measure the gas inside the housing 1 when the concentration of the gas inside the housing 1 measured by the gas sensor 13 is equal to or higher than the reference value Keep the concentration below the reference value. At this time, the chemical liquid for lowering the concentration of the gas may be supplied to the nozzle unit 43 of the liquid spraying unit 41 in conjunction with the operation of the blowing fan 21.

When the dust concentration inside the housing 1 measured by the dust measurement sensor 15 is equal to or higher than the reference value as the air measurement unit 11, the control unit 91 operates the blowing fan 21, To be less than the reference value.

Next, the temperature and humidity management inside the housing 1 will be described.

The control unit 91 controls the temperature of the housing 1 measured by the room temperature measuring sensor 71 as the air measuring unit 11 to be supplied from the outside of the housing 1 measured by the outdoor temperature sensor The air blowing fan 21 is operated in consideration of the temperature of the air to keep the temperature inside the housing 1 below the reference value. At this time, the control unit 91 may maintain the internal temperature of the barn 1 below the reference value by injecting water through the nozzle unit 43 in conjunction with the operation of the blowing fan 21.

The control unit 91 accurately analyzes the temperature distribution inside the housing 1 from the thermal image data photographed and sensed from the thermal image sensing unit 81. When an abnormally high temperature occurs inside the housing 1, The first blowing nozzle 53 and the second blowing nozzle 55 are controlled so as to spray the liquid individually, in order or in combination, while ventilating the inside of the housing 1, It is possible to uniformly maintain the internal temperature of the internal combustion engine 1 below the reference value.

The control unit 91 controls the air blowing fan 21 to operate the inside of the barn 1 when the humidity inside the barn 1 measured by the humidity measuring sensor 75 as the air measuring unit 11 is equal to or higher than the reference value So that the humidity inside the housing 1 is kept below the reference value. At this time, the control unit 91 can adjust the humidity of the inside of the housing 1 in conjunction with the temperature data inside the housing 1 measured by the room temperature measuring sensor 71.

On the other hand, when the air blowing fan 21 is blown in accordance with the management of air contamination in the housing 1 and the temperature and humidity control inside the housing 1 as described above, It is possible to control so that the blowing fan 21 blows air at a proper blowing amount based on the air flow rate data.

As described above, according to the present invention, on the basis of the air data measured by the air measuring unit for measuring the air condition inside the housing, the operation of the air blowing fan for blowing the air inside the housing outside the housing and the operation of the inside of the housing of the liquid- It is possible to automatically ventilate and prevent the housing according to the air condition inside the housing, and it is possible to comfortably create the growth environment of the domestic animals.

In addition, the health status of livestock in the house can be grasped and it is possible to prevent infectious diseases and the like.

Then, the temperature distribution inside the housing is made uniform, and the harmful gas existing inside the housing is removed, thereby creating an optimum growth environment for the domestic animals.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

1: housing section 11: air measurement section
13: Gas sensor 15: Dust measurement sensor
21: blower fan 23: fan housing
31: wing portion 33: wing
35: blower motor 41: liquid jetting part
43: Nozzle part 45: Nozzle housing
51: injection nozzle 53: first injection nozzle
55: second injection nozzle 61: liquid supply part
71: indoor temperature measuring sensor 73: outdoor temperature measuring sensor
75: humidity sensor 81: thermal image sensing unit
85: air volume measuring sensor 91:

Claims (14)

An air measuring unit for measuring a state of air inside the housing;
A blowing fan which rotates so that air inside the housing is ventilated;
A liquid spraying part for spraying a liquid medicine or a liquid of water into the housing; And
And a control unit for controlling the liquid ejecting unit to eject the liquid in association with the operation of the blowing fan based on the air data measured by the air measuring unit,
Wherein the liquid jetting portion is disposed radially in a nozzle housing positioned at a rotational center of the blowing fan so that a plurality of jetting portions for jetting the liquid toward the airflow to emit the liquid by an airflow generated by the operation of the blowing fan Comprising a nozzle,
The plurality of injection nozzles
A plurality of first injection nozzles for spraying the liquid along an airflow direction of the blowing fan; And
And a plurality of second injection nozzles for spraying the liquid with an inclination relative to an airflow direction of the blowing fan. delete The method according to claim 1,
Wherein the air measuring unit includes a gas sensor for measuring a concentration of at least one of ammonia, hydrogen sulfide, methane, carbon dioxide, and carbon monoxide in the housing. The method according to claim 1,
Wherein the air measurement unit includes a dust measurement sensor for measuring dust inside the housing,
Wherein the control unit controls the operation of the blowing fan based on the dust data measured by the dust measurement sensor. The method according to claim 1,
The air-
An indoor temperature sensor for measuring a temperature inside the housing; And
And an outdoor temperature measurement sensor for measuring the temperature outside the housing,
Wherein the control unit controls the operation of the blower fan based on the indoor temperature data and the indoor temperature data measured by the indoor temperature sensor and the outdoor temperature sensor. The method according to claim 1,
Wherein the air measurement unit includes a humidity measurement sensor for measuring the humidity inside the housing,
Wherein the control unit controls the operation of the blowing fan based on the humidity data inside the house measured by the humidity measurement sensor. The method according to claim 1,
And a thermal image sensing unit for sensing and sensing the inside of the housing using infrared rays,
Wherein the control unit analyzes the temperature distribution inside the housing based on the thermal image data sensed and sensed by the thermal image sensing unit to control the operation of the blowing fan and the liquid injection of the liquid injection unit. The method according to claim 1,
The liquid ejecting apparatus according to claim 1,
Further comprising a liquid supply portion for supplying the liquid to the plurality of injection nozzles. delete delete 9. The method of claim 8,
Wherein the control unit controls the liquid supply unit to supply the liquid to at least one of the first injection nozzle and the second injection nozzle. The method according to claim 1,
Wherein the first injection nozzle and the second injection nozzle are alternately arranged in the nozzle housing. The method according to claim 1,
And the adjacent pair of the first injection nozzles are disposed such that the liquid injection regions are partially overlapped with each other. The method according to claim 1,
And an airflow measuring sensor for measuring an airflow flowing into the housing from the outside of the housing,
Wherein the control unit controls the operation of the blowing fan based on the airflow data measured by the airflow measuring sensor.

Images