KR20180011410A - Air curtain device of greenhouse and method thereof - Google Patents

Abstract

The present invention relates to an air curtain apparatus for a greenhouse and a method thereof and, more specifically, to an air curtain apparatus for a greenhouse, which for efficient air-conditioning and ventilation in a greenhouse, detects height of plants according to a growth length of the plants, and divides the inside of the greenhouse by means of an injection of compressed air, into a plant cultivation space in which the plants are growing and a space situated above the plant cultivation space, to thereby be able to air-condition the plant cultivation space only or ventilate the inside of the greenhouse, and to a method thereof. According to the present invention, the air curtain apparatus for a greenhouse comprises: a detection sensor which detects height of plants inside the greenhouse; vertical moving members which are installed on both sides of the greenhouse to move upwardly and downwardly; an air injection nozzle which is installed on the vertical moving member to inject air to the inside of the greenhouse; a compressed air supply unit which supplies compressed air by using the air injection nozzle; and a control unit which moves the vertical moving members according to the height of plants detected in the detection sensor.

Description

FIELD OF THE INVENTION [0001] The present invention relates to an air curtain,

The present invention relates to an air curtain apparatus and method for a greenhouse, and more particularly, to an air curtain apparatus and method for a greenhouse that efficiently detects the height of a crop according to the growth length of the crop to efficiently cool and cool the greenhouse, And separating the upper space by compressed air injection so that only the crop cultivation space is heated or cooled, or the interior of the greenhouse is ventilated.

Generally, in order to maximize crop yields in the greenhouse due to the heating and cooling costs required for heating and cooling more than 40% of the greenhouse operation cost, a system for reducing the light heat cost consumed is urgent. In the case of greenhouses, the height of the greenhouse is higher than 4m in order to improve the growth environment of crops and improve crop yield. However, from the beginning of the crop growth, the energy required for cooling and heating and ventilation in excess of over 30% in the upper part of the crop is very large, depending on the length of growth.

The horizontal insulation curtain installed in the existing greenhouse can be applied only when there is no crop line in the leaf vegetable and when it is installed by the vertical moving type with the mechanical operation equipment. Since the weight is significant by the warming curtain and the motor, Installation in a vertically movable manner can cause structural stability problems. In addition, the horizontal heat curtain device has only a simple warming function to reduce the winter heating cost in the greenhouse, and can not be used for blocking the sunlight in the daytime required for photosynthesis. In case of cultivation of crops by installing an agricultural thermal insulation pot, the efficiency of shielding against heat insulation and insect infestation will be excellent, but it is not applicable to crops such as cucumber, tomato, paprika cultivated on the induction line of crops. There is a problem that the operation management cost is high.

(Document 1) Registered Utility Model No. 20-0038127 of Korea Register (September, 1988)

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a method and apparatus for detecting a height of a crop in accordance with crop growth length, The purpose of this is to heat and cool only the crop cultivation space.

According to an aspect of the present invention, there is provided a method of detecting a crop height in a greenhouse, A vertically moving member installed inside the greenhouse and moving up and down; An air injection nozzle installed in the up-down moving member and injecting air into the greenhouse; A compressed air supply unit for supplying compressed air to the air injection nozzle; And a control unit for moving the up-and-down moving member according to the height of the crop detected by the detection sensor.

The compressed air supply unit includes an air compressor for sucking outside air or air inside the greenhouse; A compressed air reservoir for storing air compressed by the air compressor; And a pressure regulator for regulating the pressure of air discharged from the compressed air reservoir.

Preferably, the air injection nozzle is sprayed in a horizontal direction to form an air curtain separating the greenhouse growing space from the upper space.

The air injection nozzle is preferably formed to be adjustable in angle so that the air inside the greenhouse is ventilated.

Wherein the up-and-down moving member includes: a horizontal member on which the air injection nozzle is installed; Guide rails; And a moving part provided with the horizontal member and moving up and down along the guide rail, wherein the guide rail is a main column of the greenhouse.

The horizontal member is preferably rotatably installed in the moving part.

According to another aspect of the present invention, there is provided a greenhouse air curtain apparatus for detecting the height of a crop inside a greenhouse and spraying compressed air in a horizontal direction from an upper portion of the crop to separate a crop cultivation space from an upper space thereof.

 According to another aspect of the present invention, there is provided a method of detecting a plant height in a greenhouse, A height adjusting step of adjusting a height of the air injection nozzle according to the height of the crop detected through the sensing step; And a compressed air spraying step of spraying compressed air through the air spray nozzle.

Preferably, the compressed air injecting step separates the greenhouse crop cultivation space from the upper space by spraying the air injection nozzle in a horizontal direction, or ventilates the air by adjusting the angle of the air injection nozzle.

According to the present invention, it is possible to minimize the cooling / heating and ventilation to the unnecessary space according to the greenhouse view before the crop harvesting time according to the crop growing length, and to concentrate the cooling / heating and ventilation in the cultivation area of the crop, .

In addition, it is possible to efficiently circulate air conditioning and ventilation in a large greenhouse by circulating indoor air by the fluctuation of compressed air during driving of the air curtain, and it does not affect the work of a worker inside the greenhouse and affects the crop photosynthesis even in the daytime There is an effect that it is possible to drive without distinction between day and night.

1 is a view showing a green air curtain apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the following embodiments can be modified into various other forms, and the scope of the present invention is not limited to the following embodiments.

1 is a view showing a green air curtain apparatus according to an embodiment of the present invention.

Generally, the greenhouse is more than 4m in height, and the space for growing the crop is very large. Therefore, the energy required for heating and ventilation is very high due to the unnecessary space of 30% or more before crop harvest according to the growth length of the crop.

In order to solve this problem, conventionally used heat shielding plates can not be applied to crops grown along the crop line 25 extending to the greenhouse truss 26 such as cucumber, tomato, paprika and the like.

Accordingly, the present invention is intended to efficiently perform cooling and heating and ventilation even when the crop inducing line 25 is provided in the greenhouse 10 to the greenhouse truss 26. The present invention can be applied to a crop growing space , The compressed air is sprayed horizontally on the upper end of the crop 20 to form an air curtain so that the crop cultivation space 141 and the upper space 142 can be separated from each other. Only the space 141 can be cooled or ventilated.

That is, the green air curtain apparatus 100 according to one embodiment of the present invention includes a sensing sensor 110 for sensing the height of the crop 20 in the greenhouse 10, An air injection nozzle 115 installed in the up-and-down moving member 120 for injecting air into the greenhouse 10 and a compressed air supply unit for supplying compressed air to the air injection nozzle 115 130 and a control unit for moving the vertical moving member 120 according to the height of the crop 20 detected by the detection sensor 110.

The height of the crop grown in the greenhouse 10 may be sensed by the sensing sensor 110, for example, a sensor sensed by a laser, and the sensing sensor 110 is a known technique.

The vertical moving member 120 is provided with a horizontal member 121 on which the air injection nozzle 115 is installed, a guide rail 123 provided on the side in the longitudinal direction inside the greenhouse 10 and a horizontal member 121 And a moving part 122 which moves up and down along the guide rail 123. The guide rail 123 can utilize the main column of the greenhouse 10.

For example, since each moving part 122 moves up and down along two guide rails 123 and the horizontal member 121 is connected to the moving part 122, the horizontal member 121 also moves up and down do.

In another embodiment, one moving part is provided on one guide rail, and the center of the horizontal member is connected to the moving part, and the moving part moves up and down along the guide rail, thereby moving the horizontal member up and down.

The detection sensor 110 may be installed at the upper end of the moving part 122 and sends a height value of the crop to the control part when the height of the crop 20 is detected. (20).

The compressed air supply unit 130 includes an air compressor 131 for sucking outside air or air inside the greenhouse, a compressed air reservoir 132 for storing the air compressed by the air compressor 131, And a pressure regulator 133 for regulating the pressure of the air.

The compressed air storage tank 132 may include an air cleaning function to sterilize the stored compressed air with a low energy. The pressure control unit 133 may control the spraying speed according to the variation width width of the greenhouse 10 And a pressure control valve capable of controlling the injection pressure.

A plurality of air spray nozzles 115 are installed on the horizontal member and sprayed in the horizontal direction to form an air curtain separating the greenhouse crop growing space 141 from the upper space 142.

The air injection nozzle 115 may be installed so as to be adjustable when installed on the horizontal member 121 or rotatably when the horizontal member 121 is installed on the moving unit 122, When the compressed air is injected at an angle other than the horizontal direction, the air flows so that the air in the greenhouse 10 can be ventilated, thereby replacing the conventional ventilation fan.

Meanwhile, the greenhouse air curtain method includes a sensing step of sensing the height of the crop 20 of the greenhouse 10, a height adjustment of the height of the air injection nozzle 115 according to the height of the crop 20 sensed through the sensing step And a compressed air injection step of injecting the compressed air through the air injection nozzle 115. [

In the compressed air injection step, the air injection nozzle 115 is horizontally injected to separate the greenhouse crop growing space 141 from the upper space 142, or to adjust the angle of the air injection nozzle 115 to ventilate the air .

The air curtain apparatus and method according to the present invention minimizes cooling / heating and ventilation of unnecessary space according to the height of the greenhouse up to the crop harvesting time according to the growing length of the crop, and can concentrate cooling / heating and ventilation in the crop cultivation area The energy cost required can be greatly reduced.

In addition, it is possible to efficiently circulate air conditioning and ventilation in a large greenhouse by circulating indoor air by the fluctuation of compressed air during driving of the air curtain, and it does not affect the work of a worker inside the greenhouse and affects the crop photosynthesis even in the daytime There is an advantage to be able to drive without distinction between the day and night.

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. It is.

110: detection sensor 115: air injection nozzle
120: vertical moving member 121: horizontal member
122: moving part 123: guide rail
130: compressed air supply unit 131: air compressor
132: Compressed air reservoir 133: Pressure regulator

Claims (9)

A sensing sensor for sensing the height of the crop inside the greenhouse;
A vertically moving member installed inside the greenhouse and moving up and down;
An air injection nozzle installed in the up-down moving member and injecting air into the greenhouse;
A compressed air supply unit for supplying compressed air to the air injection nozzle; And
And a control unit for moving the up-and-down moving member according to a height of the crop detected by the detection sensor.
The method according to claim 1,
The compressed air supply unit includes:
An air compressor for sucking outside air or air inside the greenhouse;
A compressed air reservoir for storing air compressed by the air compressor; And
And a pressure regulator for regulating a pressure of air discharged from the compressed air reservoir.
The method according to claim 1,
Wherein the air injection nozzle is sprayed in a horizontal direction to form an air curtain separating the crop growing space and the upper space thereof.
The method according to claim 1,
Wherein the air injection nozzle is formed to be adjustable in angle so that air inside the greenhouse is ventilated.
The method according to claim 1,
Wherein the up-
A horizontal member on which the air injection nozzle is installed;
Guide rails; And
And a moving part provided with the horizontal member and moving up and down along the guide rail,
Wherein the guide rail is a main column of the greenhouse.
The method of claim 5,
And the horizontal member is rotatably installed in the moving portion.
Wherein the height of the crop inside the greenhouse is detected and the compressed air is sprayed in the horizontal direction from the upper part of the crop to separate the crop cultivation space and the upper space therefrom.
A sensing step of sensing the crop height of the greenhouse;
A height adjusting step of adjusting a height of the air injection nozzle according to the height of the crop detected through the sensing step; And
And a compressed air injection step of injecting compressed air through the air injection nozzle.
The method of claim 8,
The compressed air injection step includes:
Wherein the air injection nozzle is horizontally sprayed to separate the greenhouse crop cultivation space from the upper space or to adjust the angle of the air injection nozzle to ventilate the air.

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