KR101599598B1 - Air control system for the vinyl-house - Google Patents

Abstract

The present invention relates to an air conditioner comprising a water supply device movably installed in a vinyl house to supply water, an air circulation fan circulating air together with moisture supplied from a water supply device, a plurality of sensors And a control unit for controlling the operation of the air supply fan and the air circulation fan in accordance with a sensing signal provided from the sensors, wherein the water supply unit is located at an upper portion of the reservoir in which the liquid is stored Spraying means comprising an outer housing provided with a spray outlet for converting the liquid entering the hollow tube into water particles by rotating a hollow tube immersed in the liquid in the reservoir and spraying the converted water particles; A separation passage provided in the reservoir to surround the hollow tube and having a plurality of water holes communicating with the liquid at a lower portion thereof; And a swing prevention plate provided inside the separator with a hole formed at the center so as to be movable along the hollow tube according to the level of the liquid and floating on the surface of the liquid. And the moisture supplied from the water supply device is uniformly distributed in the vinyl house according to the humidity, and the moisture supply can be smoothly supplied even when the water supply device moves within the vinyl house, thereby improving the yield of the crop cultivation.

Description

TECHNICAL FIELD [0001] The present invention relates to an air conditioning system for a vinyl house,

The present invention relates to a system capable of regulating circulated air so as to maintain temperature and humidity uniformly in a vinyl house for agriculture, and more particularly, to a system for controlling circulated air, And more particularly, to an air conditioning system for a greenhouse which regulates the circulation of air so as to be uniformly distributed.

Generally, the moisture for providing the proper humidity to the inside of the green house is smaller than the relatively larger particle, the humidity is distributed evenly, the influence on the crop is good, and it is known that the effect is larger depending on the kind of the crop have.

Although the apparatus for controlling the humidity of the greenhouse is used to supply water by spraying or fan-blowing, the water supplied by this method not only constitutes relatively large particles but also is not uniformly distributed in the vinyl house, In the relatively high places, the disease such as powdery mildew caused by the condensation phenomenon in which the moisture becomes a lump on the leaf of the crop occurred.

At this time, the air conditioning system was used to circulate the air inside the plastic house to keep the humidity and temperature inside the plastic house uniform. However, when the particles of water supplied into the vinyl house are relatively large, the distribution of humidity by the air conditioning system becomes uneven.

In addition, when the device for maintaining the humidity moves inside the plastic house, moisture can not be supplied smoothly due to slipping or the like of the liquid stored in the storage portion.
Registration Utility Model No. 20-0347996 discloses a humidity control type humidifier for a vinyl house having a plurality of ultrasonic vibrators for decomposing water supplied from a water supply means into ultrafine particulate fog.

Registration Utility Model No. 20-0347996

Disclosure of Invention Technical Problem [8] The present invention has been proposed in order to solve the conventional problems as described above, and it is an object of the present invention to provide an apparatus and a method for supplying moisture of relatively small particles inside a vinyl house, And it is an object of the present invention to provide an air conditioning system for a vinyl house which can maintain the temperature uniformly.

Another object of the present invention is to provide an air conditioning system for a greenhouse capable of smoothly supplying water even if the water supply device moves inside the greenhouse.

In order to achieve the above object, according to the present invention, there is provided an air conditioner comprising: a water supply device movably installed in a greenhouse to supply moisture; an air circulation fan circulating air together with moisture supplied from the water supply device; And a control unit for controlling the operation of the air supply fan and the air circulation fan according to a sensing signal provided from the sensors, the air conditioning system comprising: Is arranged at the upper part of the reservoir in which the liquid is stored so as to convert the liquid flowing into the hollow tube into water particles by rotating the hollow tube which is submerged in the liquid in the reservoir, Spraying means comprising a provided outer housing; A separation passage provided in the reservoir to surround the hollow tube and having a plurality of water holes communicating with the liquid at a lower portion thereof; And a swing prevention plate formed in the center of the hollow tube so as to be movable along the hollow tube according to the level of the liquid and installed inside the separation tube while floating on the surface of the liquid.

Wherein the sensor comprises a first sensor installed at a position of the air circulation fan and a second sensor installed at an entrance of the vinyl house, and the controller controls the first humidity sensor and the second sensor, Controls the air circulation fan to operate when the difference of the second humidity sensing information measured by the first humidity sensing information exceeds a reference value and controls the moisture supplier to stop when the humidity by the first humidity sensing information exceeds a reference value, The control unit controls the air circulation fan to operate when the difference between the first temperature sensing information measured by the first sensor and the second temperature sensing information measured by the second sensor exceeds a reference value.

According to the present invention, it is possible to improve the yield of crop cultivation by uniformly distributing the moisture supplied from the water supplier in the vinyl house according to the temperature and humidity sensed in the vinyl house.

In addition, even if the water supply device moves inside the greenhouse, water can be smoothly supplied to improve crop yield.

1 is a view showing a state in which an air conditioning system is installed inside a vinyl house according to the present invention.
2 is a view showing a water supply device of an air conditioning system according to the present invention.

Hereinafter, an air conditioning system according to the present invention will be described.

First, the air conditioning system for a vinyl house is provided with a water supply device 100 which is movably installed in the plastic house 2 for supplying water, an air circulation fan (not shown) for circulating air together with water supplied from the water supply device 100, A plurality of sensors 300 for sensing the temperature and humidity inside the greenhouse 2 and a sensor 300 for detecting the temperature and the humidity of the inside of the greenhouse 2 according to sensing signals provided from the sensors 300, And a control unit (not shown) for controlling the operation of the apparatus.

According to the present invention, the water supplier 100 is positioned above the reservoir 110 in which the liquid is stored, thereby rotating the hollow tube 122, which is submerged in the liquid in the reservoir 110, And spraying means 120 for converting the liquid introduced into the inside into water particles.

The spraying means 120 has an outer housing 121 of a predetermined shape in which upper and lower portions are opened. The upper portion of the outer housing 121 is provided with a spray discharge portion 121a through which water particles in the form of fine particles are discharged and an air inlet portion 121b through which external air flows is provided below the spray discharge portion 121a. In this case, a rotation motor 126 is installed on the seat 126b in the outer housing 121, a rotation shaft 126a is projected downward from a lower portion of the rotation motor 126, The through hole 126a is formed with a through hole through which the rotating shaft 126a rotates. Reference numeral 125 denotes a motor cover for protecting the rotation motor 126. Between the inner surface of the outer housing 121 and the outer surface of the motor cover 125 forms a flow space in which water particles flow.

The hollow tube 122 is coupled to a lower portion of the rotating shaft 126a exposed through the through hole of the seating base 126a. The hollow tube 122 extends so as to be immersed in the liquid in the reservoir 110. When the rotary shaft 126a is rotated by the operation of the rotary motor 126, the hollow tube 122 also rotates.

A first rotating plate 128a and a second rotating plate 128b are provided on the outer surface of the hollow tube 122 at predetermined intervals and a space between the rotating plates 128a and 128b is formed by rotating plates 128a and 128b The liquid flowing through the inside of the hollow tube 122 while rotating is formed into a flow space portion through which the liquid can flow to the outside by the centrifugal force. An impeller 124 is installed in a middle portion of the hollow tube 122 corresponding to an upper position spaced from the surface of the liquid in the reservoir 110 and a metal frame 129 having a plurality of slits is installed at an end of the flow space portion do.

The rotation of the rotary shaft 126a causes the hollow tube 122 connected to the rotary shaft 126a to rotate and as a result the first rotary plate 128a provided on the upper portion of the hollow tube 122, And the second rotating plate 128b rotate.

When the pressure around the rotating shaft 126a is lowered by the rotation of the first rotating plate 128a and the second rotating plate 128b, the liquid stored in the reservoir 110 moves upward along the inner surface of the hollow tube 122 And flows along the flow space between the first rotating plate 128a and the second rotating plate 128b by the centrifugal force formed by the rotation of the first rotating plate 128a and the second rotating plate 128b.

The liquid discharged to the end of the flow space part collides with the metal frame 129 to form water particles in a fine ultrafine state and these water particles pass through the slit of the metal frame 129.

When the impeller 124 installed in the middle portion of the hollow tube 122 rotates, the outside air is introduced into the outer housing 121 through the air inlet of the lower portion of the outer housing 121, To the spray discharging portion 121a side. A filter 123 for preventing foreign substances such as insects from being introduced into the air inlet portion of the outer housing 121 through the air inlet portion of the outer housing 121 is provided.

The water particles having passed through the slit of the metal frame 129 join with the movement of the outside air introduced into the outer housing 121 by the rotation of the impeller 124 and the spray discharge portion 121a on the upper portion of the outer housing 121 Lt; / RTI >

The water supply device 100 according to the present invention is installed in a conveying means on which a wheel is mounted, and can spray liquid while moving inside the plastic house.

The water supply device 100 further includes a separating cylinder 130 installed in the reservoir 110 to surround the hollow tube 122 and having a plurality of water communication holes 130a through which the liquid can communicate, And a swing prevention plate 140 installed in the separating cylinder 130 so as to be floating on the surface of the liquid, the swing prevention plate 140 having a hole formed at the center thereof so as to be movable along the hollow tube 122 according to the level of the liquid.

When the liquid supplier 100 collides with the impeller 124, the efficiency of blowing the impeller 124 is lowered to lower the spraying efficiency. If the impeller 124 is severely damaged, .

The separating cylinder 130 and the swing prevention plate 140 reduce the swirling of the liquid during the movement of the water supplier 100 to prevent the liquid from contacting the impeller 124. The swing prevention plate 140 is provided floating on the surface of the liquid to prevent the liquid from swinging while the reservoir is moving. That is, even if the liquid outside the separating cylinder 130 swings while the reservoir is moving, the liquid inside the separating cylinder 130 is not swung by the swing prevention plate 140.

On the other hand, when the reservoir 110 is inclined while moving, the liquid stored in the reservoir 110 is maintained in a plane by the gravity, and the hollow tube 122 is maintained tilted with respect to the plane of the liquid. This causes the liquid not to smoothly rise along the inner surface of the hollow tube.

The swing prevention plate 140 is bent at the rim of the flat portion and the flat portion contacting the surface of the liquid so that the swing prevention plate 140 is in contact with the inner side surface of the separation tube so that the liquid can be smoothly raised even in the state where the reservoir 110 is inclined And a flange portion. This is because the swing prevention plate 140 located inside the separating cylinder 130 is also inclined in a state where the reservoir 110 is inclined so that the surface of the liquid contacting the flat portion of the swing prevention plate 140 also tilts So that the liquid smoothly rises along the inner surface of the hollow tube 122.

A stirring vane 150 for stirring the liquid inside the separation cylinder 130 is installed on the lower outer side of the hollow tube 122. The stirring vane 150 is rotated together with the rotation of the hollow tube 122 to stir the liquid present in the separation tube 130 to uniformly mix powdered medicines such as pesticides and nutrients.

The air circulating fan 200 is installed in the upper part of the greenhouse 2 and rotates by the operation of a motor (not shown) to circulate the air inside the greenhouse 2. At this time, the moisture supplied from the water supply device 100 circulates inside the plastic house together with the air circulated by the operation of the air circulation fan 200.

The sensor 300 is installed in the upper part of the vinyl house 2 to measure the humidity and the temperature inside the vinyl house. The sensors 300 are installed along the longitudinal direction so as to sense the humidity and the temperature at the central portion and the both side portions of the greenhouse and are preferably installed near the installation position of the air circulation fan 200 and the entrance of the greenhouse .

The control unit controls the operation of the air circulation fan 200 and the moisture supplier 100 based on information of humidity and temperature inside the greenhouse provided from the sensors 300. [ For example, the first humidity sensing information measured by the first sensor 300a installed at the position of the air circulation fan 200 and the second humidity sensing information measured by the second sensor 300b or 300c installed at the entrance of the greenhouse When the difference of the information exceeds the reference value, the control unit controls the air circulation fan 200 to operate. At this time, when the humidity measured by the first humidity sensing information exceeds the reference value, the moisture supplier 100 is controlled to stop. Also, even when the difference between the first temperature sensing information measured by the first sensor 300a and the second temperature sensing information measured by the second sensor 300b or 300c exceeds the reference value, the controller also controls the operation of the air circulating fan 200 .

By controlling the operation of the air circulation fan 200 and the water supply unit 100 by the operation of the control unit, humidity and temperature inside the greenhouse can be maintained uniformly.

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 as defined by the appended claims. .

100: Moisture supply
200: Air circulation fan
300: sensor

Claims (2)

A plurality of sensors for sensing the temperature and the humidity inside the vinyl house, and a sensor for detecting a temperature of the inside of the vinyl house, And a control unit for controlling the operation of the air supply fan and the air circulation fan according to a sensing signal provided from the air circulation fan,
The water-
A hollow tube which is located at an upper portion of a reservoir in which a liquid is stored and which is submerged in the liquid in the reservoir, thereby converting the liquid flowing into the hollow tube into water particles, A spraying means including an external housing provided with an attachment;
A separation passage provided in the reservoir to surround the hollow tube and having a plurality of water holes communicating with the liquid at a lower portion thereof;
And a swing prevention plate provided inside the separator with a hole formed at the center so as to be movable along the hollow tube according to the level of the liquid and floating on the surface of the liquid. Conditioning system.
The method according to claim 1,
Wherein the sensor comprises a first sensor provided at a position of the air circulation fan and a second sensor provided at an entrance of the greenhouse,
The control unit controls the air circulation fan to operate when the difference between the first humidity sensing information measured by the first sensor and the second humidity sensing information measured by the second sensor exceeds a reference value, When the difference between the first temperature sensed information measured by the first sensor and the second sensed temperature sensed by the second sensor exceeds a reference value, the control unit controls the air circulation And controls the fan to operate.

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