KR101986976B1 - Air conditioning system for poultry house - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioning system for use in an air conditioner, and more particularly, to an air conditioning system for an air conditioner for ventilating the inside of a house by discharging the air inside the house.
An air conditioning system for use in an axial use according to the present invention includes: a plurality of ventilation units installed in the housing to discharge air inside the housing; And a control unit for controlling the operation of the ventilation unit, wherein the control unit gradually increases the rotational speed of the ventilation unit until the normal rotation speed of the ventilation unit is reached at the initial rotation speed of the ventilation unit And the like.

Description

{Air conditioning system for poultry house}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioning system for use in an air conditioner, and more particularly, to an air conditioning system for an air conditioner for ventilating the inside of a house by discharging the air inside the house.

In recent years, livestock farmers have grown in size and complexity, and many livestock have been densely kept inside a standardized farmhouse. Such a farming system is the most suitable farming method in a country with a small land area.

Such a breeding method causes various harmful gases such as carbon dioxide, carbon monoxide, hydrogen sulfide, ammonia, odor and the like due to the breathing and manure of the livestock, and this harmful gas pollutes air inside the house, .

In order to improve the poor growth environment, the ventilation system is installed in the house, and the fresh air outside the house is introduced into the house according to the environmental condition of the house for a certain period.

The ventilator used in the conventional ventilation system is roughly composed of a driving motor, a fan, and a shroud surrounding the ventilator. In the initial operation of the ventilator having such a structure, a loud noise is generated. There is a problem that the yield is reduced.

KR 20-2000-0020695 U KR 10-2010-0103215 A KR 10-2015-0124060 A

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide an air conditioner that automatically ventilates according to the temperature and environment inside the housing, And more particularly, to an air conditioning system for an axial use capable of reducing the mortality caused by an air conditioner.

According to another aspect of the present invention, there is provided an air conditioning system for use in a shaft, comprising: a plurality of ventilation units installed in the housing to discharge air inside the housing; And a control unit for controlling the operation of the ventilation unit, wherein the control unit gradually increases the rotational speed of the ventilation unit until the normal rotation speed of the ventilation unit is reached at the initial rotation speed of the ventilation unit And the like.

The control unit includes an inverter connected between an external power source and the ventilation unit for converting a frequency of a power source supplied from the external power source to the ventilation unit and outputting the converted power, And a controller for controlling the inverter and controlling the operation of the ventilation unit.

Further comprising a sensor unit including a temperature sensor for measuring a temperature inside the housing, wherein the controller controls the operation of the ventilation unit to operate the ventilation unit when the temperature inside the housing reaches a set reference temperature A timer setting unit configured to set an operation start time and an operation duration of the ventilation unit so that the ventilation unit can be automatically operated for a set time at a set time; A temperature operation mode in which the ventilation unit is automatically operated when the temperature measured by the sensor unit reaches the reference temperature set through the temperature setting unit; and a timer for automatically activating the ventilation unit at the operation start time set by the timer setting unit And a mode selection unit for selecting any one of the modes.

Wherein the ventilation unit includes a ventilation fan having a plurality of blades, a fan driving motor for rotating the ventilation fan, and a shroud disposed outside the ventilation fan for supporting the fan driving motor, And at least one interference protrusion protruding from the surface of the wing by a predetermined length and extending in a direction corresponding to the rotation locus of the wing and spaced apart from the wing in the longitudinal direction.

According to the air conditioning system for axial use according to the present invention, ventilation is automatically performed according to the temperature and the environment inside the house, the interior of the house can be appropriately ventilated and the noise generated during the initial operation can be reduced, Can be reduced.

1 is a conceptual diagram of an axial air conditioning system according to the present invention;
2 is an exploded perspective view of a ventilation unit of an axial air conditioning system according to the present invention.
3 is a front view showing a configuration of a control unit of the axial use air conditioning system according to the present invention.
4 is a block diagram of a control system of an axial air conditioning system according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an axial air conditioning system according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4 show an axial use air conditioning system according to the present invention. Referring to Figs. 1 to 4, the axial air conditioning system includes a ventilation unit 100 and a control unit 200. Fig.

The ventilation unit 100 is installed on the side of the barn 10 so as to allow air inside the barn 10 to be discharged to the outside. The air conditioning system for axial use according to the present invention is applied to a non-wind farm (10) without a ventilation window for natural ventilation on the side of the farm (10).

1 and 2, the ventilation unit 100 includes a ventilation fan 110 having a plurality of vanes 111, a fan driving motor 120 for rotating the ventilation fan 110, And a shroud that supports the fan driving motor 120 and is disposed outside the ventilation fan 110. The shroud includes a cylindrical main body 130 formed with an air passage through which air flows, a motor mounting portion 140 fixed by a support frame 131 installed on one side of the main body 130, And the protection net 150 is installed on the side of the main body.

The front surface of each vane 111 of the vane fan 110 is protruded by a predetermined length from the surface of the vane 111 and extends in a direction corresponding to the rotation locus of the vane 111, At least one interference protrusion 112 formed to be spaced apart is provided. The interference protrusion 112 suppresses the generation of wind noise during the rotation of the ventilation fan 110, thereby reducing noise generated during operation of the ventilation unit 100.

The main body 130 has a cylindrical shape and has a plurality of protrusions formed with holes through which the bolts are inserted so that the protection net 150 can be mounted on the side of the upper end. The body 130 may have various shapes such as a rectangular shape as well as a circular shape as shown. A plurality of support frames 131 for fixing the motor mount 140 are installed in the inner lower portion of the main body 130. One end of the support frame 131 is connected to the shroud and the other end is connected to the motor mount 140 on which the fan drive motor 120 is mounted. The motor mounting portion 140 has a cylindrical structure of a constant height, the bottom of which is closed to secure a space in which the fan driving motor 120 is mounted. A protrusion having a through hole is formed on the side of the upper end of the motor mounting part 140 so that the fan driving motor 120 can be fastened.

Although not shown in the drawing, a pest inducing means (not shown) is further provided on one side of the support frame 131 or the protection net 150 so that the insect can be sucked by the suction force generated when the ventilating fan 110 rotates .

The pest attraction means includes a light emitting module for emitting light of a certain wavelength and a mounting member for fixing the light emitting module. A frequency generator generating a frequency preferred by insects or a lamp emitting light is used. A light emitting module that emits light of a specific wavelength is mounted on the front side of the suction port of the ventilating fan 110 by a mounting member to attract insects.

A three-wavelength lamp or a light emitting diode may be used as a light source of such a light emitting module. In addition, it is possible to use a lamp that illuminates the wavelength of the light of the moth, mosquito, antelope, Ehwa fungus, etc. actively active immediately after the sunset, or a light wave of a favorite night nap A lamp for illuminating the light source may be used. At this time, it is possible to apply the light of wavelength of 540 ~ 584nm which is a near infrared wavelength band which emits light of 350 ~ 400nm wavelength which is blue or green and has a wavelength of 350 ~ 400nm.

The control unit 200 controls the operation of the ventilation unit 100 and controls the rotation of the ventilation unit 100 until the ventilation unit 100 reaches the normal rotation speed of the ventilation unit 100 at the initial rotation speed of the ventilation unit 100. [ So as to gradually increase the speed.

The control unit 200 includes an inverter 210 connected between an external power source and the ventilation unit 100 for converting the frequency of a power source supplied from the external power source to the ventilation unit 100 and outputting the frequency, And a controller 220 for controlling the inverter 210 and the operation of the ventilation unit 100 so that the frequency of the power outputted from the ventilation unit 210 varies with time.

The inverter 210 is connected to the first fan drive motor 120 through the eighth fan drive motor 120 through a parallel connection unit so that the power supplied from the power supply unit 240 can be transmitted to the plurality of fan drive motors 120. [ Connected in parallel. The parallel connection unit includes a first connection line 211 connected at one end to the output terminal of the inverter 210 and a second connection line 211 connected to the end of the first connection line 211 and connected to the first fan drive motor 120, And a first branch line 212 branched to the first branch line 120.

The controller 220 receives power from the power supply unit 240 and controls the operation of the interverters. The control unit 220 controls the operation of the first fan drive motor 120 to the eighth fan drive motor 120 so as to control the operation of each of the fan driving motors 120, respectively. The control connection section includes a second connection line 221 connected at one end thereof to the output terminal of the controller 220 and a second branch line 221 branched from the end of the second connection line 221 to the fan drive motor 120 222). The fan drive motors 120 can be controlled to be operated in a batch operation through the control connection.

Each of the second branch lines 222 is provided with a switching unit 223 for the administrator to selectively operate the fan driving motor 120. The switching unit 223 can maintain the second branch line 222 in either the open state or the short-circuited state according to the operation of the manager.

The controller 220 controls the rotational speed of the ventilation fan 110 to gradually increase from the initial driving of the ventilation unit 100, that is, the ventilation fan 110 until the ventilation fan 110 reaches a normal operating state, To control the output of the inverter 210 to increase. The controller 220 controls the frequency of the power source output from the inverter 210 to gradually increase so that the ventilation fan 110 prevents the ventilation fan 110 from rotating at a high speed within a short time, It is possible to suppress the occurrence of noise during the initial operation of the vehicle.

The air conditioning system for axial use according to the present invention includes a temperature sensor for measuring the internal temperature of the barn 10, a humidity sensor for measuring the humidity, carbon dioxide, carbon monoxide, hydrogen sulfide, ammonia, And a sensor unit 230 including a gas sensor for measuring concentrations of various harmful gases. The measurement information measured by the sensor unit 230 is transmitted to the controller 220.

The controller 220 can set the operation start temperature of the ventilation unit 100 to operate the ventilation unit 100 when the temperature inside the housing 10 reaches a set reference temperature A temperature setting unit 225 for setting an operation start time and an operation duration of the ventilation unit 100 so that the ventilation unit 100 can be automatically operated for a predetermined time A temperature operation mode in which the ventilation unit 100 is automatically operated when the temperature measured by the sensor unit 230 reaches a reference temperature set through the temperature setting unit 225, And a timer mode in which the ventilation unit 100 is automatically operated at an operation start time set through the ventilation unit 226.

The controller 220 receives the internal measurement of the housing 10 measured in real time from the temperature sensor of the sensor unit 230 and determines whether the received measurement It is determined whether or not the temperature reaches the reference temperature set by the temperature setting unit 225. When the reference temperature is reached, the ventilation unit 100 automatically operates by outputting an operation signal to each fan drive motor 120 . If the controller 220 is set to operate in the timer mode through the timer setting unit 226, the controller 220 outputs an operation signal to operate the fan driving motor 120 for a predetermined time, To operate automatically.

The controller 220 also receives the humidity information and the gas concentration information measured from the humidity sensor, the gas sensor, and the gas concentration information of the sensor unit 230, and stores the received humidity information and the gas concentration information in the reference humidity and reference gas concentration It is possible to control the ventilation units 100 to operate collectively.

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. I will understand that. Accordingly, the true scope of protection of the present invention should be determined only by the technical idea of the appended claims.

10: Congratulations
100: Ventilation unit
110: Ventilation fan
120: Fan drive motor
130:
140: motor mounting portion
150: Protective net
200: control unit
210: Inverter
220: controller
230:
240: Power supply

Claims (4)

A ventilation fan having a plurality of vanes, a fan driving motor for rotating the ventilation fan, and a fan driving motor for driving the fan driving motor to support the ventilation fan, A plurality of ventilation units including a shroud disposed outside;
An inverter connected between the external power source and the ventilation unit for converting a frequency of a power source supplied from the external power source to the ventilation unit and outputting the converted power signal; and a control unit for controlling and controlling the inverter so that the frequency of the power source output from the inverter changes with time. A control unit including a controller for controlling operation of the ventilation unit;
And a mounting member for mounting the light emitting module on a front surface of a suction port of the ventilation fan, wherein the ventilation module includes: a light emitting module including a light emitting module, a light emitting module emitting light of a wavelength of 350 nm to 400 nm or light emitting a light of a wavelength of 540 nm to 584 nm; Respectively,
Wherein at least one or more wind turbine blades are provided on the front surface of each of the vanes of the vane fan and protruded from a surface of the vane for a predetermined length and extend in a direction corresponding to a rotation locus of the vane, An interference projection is provided,
The control unit controls to gradually increase the frequency of the power source output from the inverter so as to gradually increase the rotational speed of the ventilation unit until the normal rotational speed of the ventilation unit is reached at the initial rotational speed of the ventilation unit Wherein said air-conditioning system comprises:
delete The method according to claim 1,
And a sensor unit including a temperature sensor for measuring a temperature inside the housing,
The controller
A temperature setting unit configured to set an operation start temperature of the ventilation unit so as to operate the ventilation unit when the temperature inside the housing reaches a set reference temperature,
A timer setting unit configured to set an operation start time and an operation duration of the ventilation unit so that the ventilation unit can be automatically operated for a set time at a set time;
A temperature operation mode for automatically activating the ventilation unit when the temperature measured by the sensor unit reaches a reference temperature set through the temperature setting unit and a ventilation unit for automatically operating the ventilation unit at the operation start time set by the timer setting unit And a mode selection unit that is operable to select any one of the timer mode and the timer mode.

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