KR101263333B1 - Air conditioning system of facility horticulture by using air conditioner - Google Patents

Abstract

PURPOSE: An air conditioning system is provided to reduce the installation costs, and to maintain the temperature and humidity of a culturing unit using a stable heat source. CONSTITUTION: A house(20) is connected by a supporting member(10) in a lattice shape. An indoor air conditioner(50) is installed in the house. A chamber collects air by using a ventilation fan of the indoor air conditioner. A shape member is connected to the chamber. A flexible plastic duct(70) has one end connected to a side of the chamber while surrounding the shape member, and the other end is opened and equipped with a porous hole. A discharging pipe is connected to a first electric damper installed on a side of the chamber. A second electric damper is formed between the chamber and the shape member. An outdoor air conditioner(80) is connected to the indoor air conditioner.

Description

  Air Conditioning System of Facility Horticulture by Using Air Conditioner

The present invention relates to maintaining a constant temperature of indoor air of a gardening facility using an air conditioner. In general, horticulture is to cultivate horticulture through the cultivation in the house, it is necessary to maintain a constant humidity and temperature according to the type of horticulture. The problem of keeping humidity and temperature constant as described above affects the environment with enormous amount of energy consumption for heating, especially in winter, so efficient management of facility horticulture to reduce energy loss and maintain humidity and temperature Is necessary.

  Conventional technology related to the present invention is disclosed in Korean Patent Laid-Open Publication No. 10-2006-0007966 (published Jan. 26, 2006). 1 is a block diagram of the conventional agricultural air conditioning apparatus. 1, the conventional agricultural air conditioning apparatus includes a cultivation unit 400 in a house in which plants such as crops and horticultural crops are grown; Fermentation tank 100 for fermenting the fermentable material; An air conditioning unit 200 driven to supply air heated by the fermentation heat generated by the fermentation tank 100 to the cultivation unit 400; Duct 300 for evenly supplying the heating air supplied from the air conditioning unit 200 to the cultivation unit; A plurality of grills 301 disposed at predetermined portions of the ducts to guide air from the ducts to the cultivation unit 400; A sensor unit including a temperature sensor 420 and a humidity sensor 430 for checking a temperature and humidity of the cultivation unit 400; A plurality of air dampers 114, 120, 250, 410 for controlling the amount of carbon dioxide; And a controller 500 for controlling the operation of the air conditioner 200 and the dampers 114, 120, 250, and 410 based on the data sensed by the sensors 420 and 430. In addition, the end of the duct 300 may further include a circulation duct 310 for circulating the air back to the air conditioning unit 200, the fermentation tank 100 to the air in the fermentation tank to promote fermentation The fermenter air circulator 110 to circulate may be further provided. Agricultural air conditioning apparatus configured as described above is to circulate the heat generated in the fermentation tank 100 to the cultivation unit to maintain the temperature and humidity of the cultivation unit at the set temperature.

Conventional agricultural air conditioning apparatus as described above is to use the heat generated by fermenting the fermentable material is a problem that requires a large amount of fermentable material and a bulky fermenter depending on the fermentable material. In addition, the fermentable material has a problem that is not stable as a heat source to supply to the cultivation unit because the heat generated by the different efficiency of the regeneration according to the external environment, that is, temperature and humidity. In addition, when the humidity is high, dehumidification is not possible, and only when the humidity is low, the air damper connected to the air control unit is opened and supplied to the cultivation unit, so there is a disadvantage in that the air environment suitable for the physiological characteristics of the plant cannot be made. If the humidity is high, there is a drawback that can cause problems during plant growth, redness and post-heating and maturation due to the stress of the plant due to excessive transpiration of the plant. In addition, the conventional air conditioner as described above has a problem that the system itself is complicated and the facility cost is excessive. An object of the present invention for solving the problems of the prior art as described above is to constant the temperature and humidity of the cultivation unit using a stable heat source. In addition, another object of the present invention is to provide an air conditioning apparatus that requires less facility cost, and to facilitate facility management.

" 형상 부재의 플렉시블 덕트와, 상기 형상 부재의 플렉시블 덕트 외측을 둘러싸고 일측 끝단이 챔버에 체결되며 타측 끝단은 오픈된 형태로 다수의 소공이 형성된 다공 홀을 구비한 플렉시블 비닐 덕트로 열풍이나 냉풍을 공급하지 않는 경우는 중력에 의해 부피가 최소화 될 수 있고, 비닐 덕트는 사용하지 않는 경우 철거가 쉽도록 유연성을 갖는 재질이며, 비닐 하우스 면적에 맞게 에어컨 수량 및 열풍을 전달하는 비닐 덕트 다수개이며, 상기 챔버의 일측에 전동 댐퍼가 비닐덕트에 인접한 곳에 장설된 온도 센서와 에어컨 실내기의 흡입측에 장설된 습도센서의 신호에 따라 제어장치에 의해 자동으로 개.폐되며,상기의 전동 댐퍼가 오픈되면 하우스 외부로 공기를 배출하여 제습 기능을 수행하며, 상기의 마이컴 제어장치는 수증기 포차표에 준한 마이컴 제어 장치이고, 상기의 마이컴 제어장치는 자동모드와 수동모드로 전환할 수 있고, 상기의 마이컴 제어장치는 CO2센서와 연동되어 하우스 외부의 공기가 하우스 내부로 들어와 환기되는 구성을 특징으로 하는 것이다.
The present invention for solving the problems of the prior art as described above is an outdoor unit of a combined air-conditioning and heating air conditioner having a power conversion efficiency (COP) of 4 or more in the heating method using air is a heating method using air supplied with power And an indoor unit for blowing the air, a chamber for collecting hot air or cold air generated from the air conditioner indoor unit, and a steel or plastic material fastened to one side of the chamber, and having a hollow inside for transporting hot air.

"Hot air or cold air is supplied to the flexible vinyl duct which has a flexible duct of a shape member, and a porous hole with one end which is fastened to the chamber and the other end is open and encloses the outer side of the flexible duct of the shape member, and the other end is open. If not, the volume can be minimized by gravity, and the vinyl duct is a material that is flexible so that it is easy to dismantle when not in use, and a plurality of vinyl ducts that deliver air conditioning quantity and hot air according to the vinyl house area. The electric damper on one side of the chamber is automatically opened and closed by the control device according to the signal of the temperature sensor installed near the vinyl duct and the humidity sensor installed on the suction side of the indoor unit of the air conditioner. The air is discharged to the outside to perform the dehumidification function, and the microcomputer control device according to the Ecom control device, the microcomputer control device can be switched between the automatic mode and the manual mode, the microcomputer control device is characterized in that the air outside the house is ventilated into the house by interlocking with the CO2 sensor .

The facility horticulture air conditioning system using the air conditioner indoor unit of the present invention configured as described above has an effect of facilitating system construction by using a normal air conditioner. In addition, the use of flexible vinyl ducts has the effect of low system construction cost and easy facility management. In addition, the infrared ray absorbing material is coated on the inner surface of the flexible vinyl duct of the present invention to maintain the hot or cold air temperature in the vinyl duct and evenly discharge the hot or cold air from the flexible vinyl duct in which the perforated hole is formed to maintain a constant temperature inside the house. It can be effective. In addition, since the hot air or cold air is evenly sprayed, the present invention has the effect of preventing hot sand or uneven quality by directly spraying hot or cold air to gardening in the house. In addition, if the rainy season is getting longer in the summer, it is possible to reduce farming costs and provide the most suitable air environment for the physiological characteristics of plants without minimizing the operation of the dehumidifier, thereby minimizing the control of pests and minimizing the damage caused by lack of moisture. By the air inside the house is replaced with the air outside the house has the effect of ventilation.

1 is a block diagram of a conventional agricultural air conditioning apparatus,
Figure 2 is a perspective view of the facility gardening air conditioning system using an indoor unit of the air conditioner of the present invention,
Figure 3 is a partial perspective view of the air conditioning indoor air conditioning system using the indoor unit of the present invention,
4 is a block diagram of the air conditioner indoor unit fastening applied to the present invention,
5 is a cross-sectional configuration of the air conditioner indoor unit fastening applied to the present invention,
6 is a cross-sectional configuration diagram of a flexible vinyl duct applied to the present invention;
7 is a state horticulture air conditioning system using the air conditioner indoor unit of the present invention the hot air is sprayed from the flat and furrows,
8 is a configuration diagram of a controller applied to the present invention;
Figure 9a is a cross-sectional configuration of the second embodiment external discharge of the present invention,
9B is a cross-sectional view of the internal supply of a second embodiment of the present invention;
10 is a configuration diagram of a controller applied to the second embodiment of the present invention.

Referring to Figs. 2 to 8, the facility horticulture air conditioning system using the air conditioner indoor unit of the present invention for achieving the above object is as follows.

Figure 2 is a perspective view of the facility horticulture air conditioning system using an indoor unit of the air conditioner of the present invention. In FIG. 2, the facility horticulture air conditioning system using the air conditioner indoor unit of the present invention is fastened by the grid-shaped support member 10, and has a house 20 having a vinyl house shape and a chamber 30 as installed in the house 20. And an air conditioner indoor unit 50 which is integrally fastened with the sirocco fan 40, and a flexible vinyl having an end closed with a shape that surrounds the shape member 75 fastened to the chamber 30. Connected to the duct 70 and the air conditioner indoor unit 50 indicates that the air conditioner outdoor unit 80 installed outside the house 20. The facility horticulture air conditioning system using the air conditioner indoor unit of the present invention configured as described above operates the air conditioner indoor unit 50 to generate hot air or cold air, and the hot air or cold air is blown into the chamber 30 by the blowing fan of the air conditioner indoor unit 50. When it collects, it pressurizes by the said sirocco fan 40, and it supplies to the flexible vinyl duct 70.

" 형상 부재(75)와, 상기 형상 부재(75)를 둘러싸고 일측은 상기 챔버(30)에 체결되고 타측은 오픈된 형상의 플렉시블 비닐 덕트(70)로 구성된 것을 나타내고 있는 것이다.3 is a partial perspective view of the facility horticulture air conditioning system using the air conditioner indoor unit of the present invention. In FIG. 3, the horticulture air conditioning system using the indoor air conditioner of the present invention includes a house 20 fastened by a lattice-shaped support member 10 and an air conditioner outdoor unit 80 installed outside the house 20. And an air conditioner indoor unit 50 connected to the air conditioner outdoor unit 80 to generate hot or cold air, a chamber 30 coupled to the air conditioner indoor unit 50, and a chamber 30 inside the air conditioner indoor unit 50. Sirocco fan 40 for fastening a constant pressure to hot or cold air, and is inserted into the flexible vinyl duct 70 and fastened to the chamber.

"The shape member 75, and surrounding the shape member 75, one side is fastened to the chamber 30, the other side is shown to be composed of a flexible vinyl duct 70 of the open shape.

" 형상 부재(75)가 체결되고, 상기 "

" 형상 부재(75)에는 플렉시블 비닐 덕트(70)가 외측으로 삽입되며 상기 플렉시블 비닐 덕트(70) 일측은 상기 챔버(30)에 체결되고 타측은 오픈된 형상의 비닐 덕트(70)로 구성된 것을 나타내고 있는 것이다.Figure 4 is a block diagram of the air conditioner indoor unit fastening applied to the present invention. In FIG. 4, the air conditioner indoor unit 50 applied to the present invention may supply a refrigerant by connecting a refrigerant pipe 52, and the chamber 30 is fastened to one side of the air conditioner indoor unit 50. "

"The shape member 75 is fastened and said"

"In the shape member 75, the flexible vinyl duct 70 is inserted to the outside, and the flexible vinyl duct 70, one side is fastened to the chamber 30 and the other side is composed of an open shape vinyl duct 70 It is.

" 형상 부재(75)가 체결되고, 상기 "

" 형상 부재(75)의 외측으로는 상기 플렉시블 비닐 덕트(70)가 삽입 설치되는 구조임을 나타내고 있는 것이다.5 is a cross-sectional view of the air conditioner indoor unit fastening applied to the present invention. In FIG. 5, the air conditioner indoor unit 50 applied to the present invention is provided with a sirocco fan 40 for forming a high pressure in a hot or cold air inside the air conditioner indoor unit 50, and the sirocco fan is disposed at one side of the air conditioner indoor unit 50. The chamber 30 is fastened in contact with the 40, and the chamber 30 is configured to hold the shape of the flexible vinyl duct 70.

"The shape member 75 is fastened and said"

"The outer side of the shape member 75 shows that the said flexible vinyl duct 70 is inserted.

6 is a cross-sectional configuration diagram of a flexible vinyl duct applied to the present invention. 6 is a cross-sectional view of the flexible vinyl duct 70 applied to the present invention in a state in which the vinyl duct is expanded and (b) is a side cross-sectional view of the vinyl duct in an expanded state, When air is filled, it expands into a circular bar shape, and the inner surface of the flexible vinyl duct 70 is coated with a far-infrared absorbing material, and the flexible vinyl duct 70 has a plurality of porous holes 77 that are hot or cold air outlets. It is a structure formed in matrix form. When hot air or cold air blows into the flexible vinyl duct 70 configured as described above, the hot air or cold air is discharged through the porous hole 77.

7 is a state diagram in which hot air is sprayed from the flat and furrow of the facility horticulture air conditioning system using the air conditioner indoor unit of the present invention. In Figure 7 (a) is a state of spraying hot or cold air in the flat, Figure (b) shows the state of spraying in the furrow, the facility horticulture air conditioning system using the air conditioner indoor unit of the present invention is operated flexible vinyl duct ( 70) When hot air or cold air is supplied to the hot air or cold air in the flat area (a), hot air or cold air is sprayed in a radial form so that hot air or cold air is evenly applied to the horticultural plantation in the house, and in the furrow (b), the hot air or cold air is the bottom surface of the furrow. This indicates that the light beam is reflected by the light toward the top direction. As described above, when hot or cold air is sprayed to the outside of the flexible vinyl duct 70, the temperature of the plantation in the house may be kept constant.

8 is a configuration diagram of a controller applied to the present invention. In FIG. 8, the controller 90 applied to the present invention maintains the planting temperature in the house at a constant temperature. The temperature sensor 94 and at least one temperature sensor 94 are installed in the house 20. The control unit 92 for controlling the operation of the air conditioner indoor unit 50 on-off by comparing the set temperature set in the air conditioner indoor unit 50 and generating hot or cold air and supplying it to the planting site of the house and setting the temperature. The thing comprised by the air conditioner indoor unit 50 for setting is shown. The controller 90 configured as described above controls the operation of the air conditioner indoor unit by receiving the temperature of the temperature sensor 94 in real time and comparing the temperature set value of the air conditioner indoor unit 50.

" 형상 부재(75)에 체결되는 것으로 내측면에는 원적외선 흡수물질이 코팅되고, 다수의 다공 홀(77)이 행렬 형태로 형성된 플렉시블 비닐 덕트(70)로 구성된 것을 나타내고 있는 것이다. 상기도 9a에서 하우스(20)의 수증기 포차가 5 ~ 12 mb의 범위를 벗어나 5 mb이하 일 경우에는 콘트롤러의 제어에 의하여 제1전동 댐퍼(54)는 열리고 제2전동 댐퍼(56)는 닫혀서 에어컨 실내기의 공기는 외부로 배출관(60)을 통해서 배출되도록 하는 것이다. 이 때의 에어컨 실내기(50)는 냉방모드로 운전되어 하우스 내부의 습도를 낮추는 제습운전을 수행하는 동작구성을 갖는다. 상기 수증기 포차는 온도 센서에 의하여 콘트롤러에 수신되는 온도 정보와 에어컨 실내기의 흡입측에 장설된 습도 센서에 의하여 콘트롤러로 수신되는 상대 습도 정보에 의하여 구할 수 있으며 아래 표 1은 온도 정보와 상대 습도 정보에 의하여 구하여진 수증기 포차값을 나타내고 있는 것이다.9A is a cross-sectional view of an external discharge of a second embodiment of the present invention. 9A is a second embodiment applied to the present invention in the air conditioner indoor unit 50 for generating and supplying hot or cold air to the house, and the sirocco fan 40 installed in the air conditioner indoor unit 50 to increase the air pressure and And a first electric damper 54 and a second electric damper 56 for discharging the high pressure air generated by the air conditioner indoor unit 50 and the sirocco fan 40 to the outside or supplying the air to the house interior. The discharge pipe 60 connected to the first electric damper 54 and the second electric damper 56,

"Fastening to the shape member 75 shows that the inner surface is coated with a far-infrared absorbing material, and a plurality of porous holes 77 are formed of a flexible vinyl duct 70 formed in a matrix form. If the water vapor carriage of (20) is outside the range of 5 to 12 mb or less than 5 mb, the first electric damper 54 is opened and the second electric damper 56 is closed by the control of the controller so that the air of the air conditioner indoor unit is external. In this case, the air conditioner indoor unit 50 is operated in a cooling mode to perform a dehumidifying operation for lowering humidity in the house. The temperature information received by the controller and the relative humidity information received by the controller by the humidity sensor installed on the suction side of the indoor unit of the air conditioner can be obtained. 1 represents the steam tolerance value determined by the temperature information and the relative humidity information.

[Table 1]

In FIG. 9A, when the water vapor carriage of the house 20 is 12 mb or more out of the range of 5 to 12 mb, it has an operation configuration that informs the user of an insufficient water as an alarm (signal).

Figure 9b is a cross-sectional view showing the internal supply of the second embodiment of the present invention. 9b shows the operation of the damper when the steam tolerance value is within 5 to 12 mb. In FIG. 9b, when the steam tolerance value is within 5 to 12 mb, the first electric damper is closed by the controller and the second electric The damper is opened so that the air of the air conditioner indoor unit 50 is pressurized and supplied to the house 20.

10 is a configuration diagram of a controller applied to the second embodiment of the present invention. In FIG. 10, in the controller of the second exemplary embodiment of the present invention, temperature information and relative humidity information are received from the temperature sensor and the relative humidity information to the controller 92, and the controller 92 is the temperature information and humidity information and water vapor of Table 1. On the basis of the tolerance value, if the water vapor tolerance value is within 5 to 12 mb, the first electric damper 54 is closed and the second power is supplied so that the air of the air conditioner indoor unit 50 is supplied to the house 20 through the flexible vinyl duct 70. The electric damper 56 is to be opened. In addition, when the water vapor tolerance value is out of the range of 5 ~ 12 mb, especially in the case of 5 mb or less, the first electric damper 54 is opened and the second electric damper 56 is closed by the control of the controller so that the air of the air conditioner indoor unit is It is controlled to be discharged through the furnace discharge pipe (60). At this time, the air conditioner indoor unit 50 is operated in a cooling mode to have an operation configuration for performing a dehumidification operation to lower the humidity in the house. In addition, if more than 12 mb has a motion configuration that informs the user of the lack of moisture as an alarm (signal). In addition to the temperature sensor and the relative humidity sensor in addition to the CO2 sensor 96 for sensing the amount of carbon dioxide in the house to further control the operation of the first electric damper and the second electric damper through the carbon dioxide value control unit. will be. When the value sensed by the CO2 sensor 96 is 300ppm or less, the indoor unit 50 of the air conditioner is operated in a blowing mode, the first electric damper 54 is opened, and the second electric damper 56 is closed to close the air conditioner indoor unit. Since the air is discharged to the outside through the discharge pipe 60, the inside of the house and the inside of the house by the air pressure difference outside the house has an operation configuration to naturally ventilate the house.

10: support member, 20: house,
30: chamber, 40: sirocco fan,
50: indoor unit air conditioner, 60: discharge pipe,
54: first electric damper, 56: second electric damper,
70: flexible vinyl duct, 75: shape member,
77: perforated hall, 80: air conditioner outdoor unit,
90: controller, 94: temperature sensor,
95: humidity sensor, 96: CO ₂ sensor
100: fermenter, 110: fermenter air circulator,
200: air conditioner, 230: filter,
240: heater, 500: control unit

Claims (12)

In the horticulture air conditioning system,
Facility horticulture air conditioning system using the air conditioner,
A house 20 fastened by the grid supporting member 10;
An air to air conditioner indoor unit 50 installed in the house;
A chamber 30 collecting air by the blowing fan of the air conditioner indoor unit;
A shape member 75 fastened to the chamber;
A flexible vinyl duct 70 having one side coupled to the chamber 30 in a form surrounding the shape member 75, the other end of which is open, and having a porous hole 77;
A discharge pipe 60 connected to the first electric damper 54 installed at one side of the chamber 30,
A second electric damper 56 between the chamber 30 and the shape member 75,
And an air conditioner outdoor unit 80 and a controller connected to and installed with the air conditioner indoor unit 50. The controller receives temperature information from the temperature sensor and relative humidity information from the humidity sensor to the controller 92. And (92) controls the first electric damper (54) to close and the second electric damper (56) to open if the water vapor tolerance value is within 5 to 12 mb.
The method of claim 1,
Shape member 75 is fastened to the chamber,
Made of steel or plastic and hollowed out as a means of transporting hot air

"Facility horticulture air conditioning system using an air conditioner characterized by a flexible duct of the shape member. delete The method of claim 1,
The porous hole 77,
Facility horticulture air conditioning system using an air conditioner, characterized in that formed in a matrix form.
The method of claim 1,
Facility gardening air conditioning system using air conditioner,
A temperature sensor 94 for sensing the temperature of the house plantation;
And a control unit configured to receive the temperature of the temperature sensor and control the air conditioner indoor unit (50) by comparing with the set temperature of the air conditioner indoor unit. The method of claim 1,
Facility gardening air conditioning system using air conditioner,
A discharge pipe 60 connected to the first electric damper 54;
Is coupled to the second electric damper 56.

"It is fastened to the shape member 75, the inner surface is coated with a far-infrared absorbing material, and a plurality of porous holes 77 is a facility using an air conditioner comprising a flexible vinyl duct 70 formed in a matrix form Horticulture air conditioning system. delete delete The method of claim 1,
The controller 92 opens the first electric damper 54 and closes the second electric damper 56 when the water vapor tolerance value is outside the range of 5 to 12 mb and the water vapor tolerance value is 5 mb or less. The air of the indoor unit is discharged to the outside through the discharge pipe 60, the air conditioner indoor unit 50 is operated in the cooling mode to control the dehumidification operation to lower the humidity in the house facility horticulture air conditioning system using the air conditioner .
The method of claim 1,
The controller includes:
When the temperature information from the temperature sensor and the relative humidity information are received from the humidity sensor to the control unit 92 and the water vapor tolerance value is out of the range of 5 to 12 mb and the water vapor tolerance value is more than 12 mb, the user is alerted to the lack of moisture ( Facility horticulture air conditioning system using an air conditioner, characterized in that to inform.
The method of claim 1,
The controller includes:
Facility horticulture air conditioning system using an air conditioner, characterized in that it further comprises a control CO2 sensor (96).
The method of claim 11,
The controller includes:
When the value sensed by the CO2 sensor 96 is 300 ppm or less, the indoor unit 50 of the air conditioner is operated in a blowing mode, the first electric damper 54 is opened, and the second electric damper 56 is closed to close the air conditioner indoor unit. Facility horticulture air conditioning system using air conditioning, characterized in that the air is discharged through the discharge pipe 60 to the outside.

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