KR20140121611A - Vinyl Duct and Cooling/Heating Air Conditioning System Using The Same - Google Patents

Abstract

The present invention relates to a vinyl duct and a cooling/heating air conditioning system using the same, wherein the vinyl duct comprises: an air-stabilization dividing part composed of a flexible corrugated pipe to be connected to an air blast duct of a cooling and heating apparatus, and stabilizing the initial flow of air supplied from the cooling and heating apparatus; a partial-spray dividing part which has holes longitudinally formed at regular intervals in order to partially spray the air supplied through the air-stabilization dividing part; and a microspray dividing part which has a plurality of micropores in order to finely spray the air supplied through the partial-spray dividing part. According to the present invention, the air discharged from the cooling and heating apparatus is sprayed to the outside through the partial-spray dividing part and the microspray dividing part without being discharged to the outside through the end of the duct like a conventional vinyl duct. Furthermore, the present invention has an effect of reducing the air temperature difference between a short distance and a long distance from the cooling and heating apparatus by uniformizing the temperature of the air in the vinyl duct to spray the air, thereby allowing a uniform air temperature to be distributed to the entire greenhouse. In addition, the present invention has the effects of allowing the temperature of the air to be uniformly distributed to the entire greenhouse to supply stable air current to the cultivated crops, preventing growth inhibiting factors against the cultivated crops, and producing good quality crops. Furthermore, the present invention has an effect of effectively transferring the air to the inside of the greenhouse to minimize energy consumption, thereby reducing cooling and heating costs.

Description

TECHNICAL FIELD [0001] The present invention relates to a vinyl duct and a cooling / heating air conditioning system using the same,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vinyl duct and a cooling / heating air conditioning system using the same, and more particularly, to a vinyl duct for providing a stable air flow to cultivated crops, .

Generally, in vinyl houses, agricultural greenhouses, and glass greenhouses, a menstrual warming system or agricultural heating system is used to maintain the temperature required for growing crops in winter. In order to lower the temperature inside the greenhouse during the summer season, A device of a direct spraying type is used.

The heating system for agricultural use mainly uses light oil as a fuel. In order to heat the interior of the greenhouse above the proper temperature in winter, a high heating value is required. However, due to an increase in heating costs due to a rise in international oil prices, Is becoming a reality.

In addition, maintaining the appropriate temperature (low temperature crops 8 degrees, high temperature crops about 20 to 25 degrees) in greenhouses where various crops (flowers, leafy vegetables, etc.) are grown is the most important factor determining crops, , And in the autumn, the vinyl house keeps warm. Therefore, even if there is no heating, the inside temperature of the vinyl house is maintained to the extent that the crop does not hinder the growth, but in the early spring, late autumn or winter, the outside temperature is low Since the internal temperature of the greenhouse can not be maintained at a temperature that does not affect the growth of the crop, separate heating must be performed.

In order to maintain the internal temperature of the greenhouse in winter, there are many known methods of supplying heat. Among them, typical methods include a method of inserting the ground water directly into the double house, A method of maintaining a temperature by lighting a sphere or the like, a method of providing a duct of a vinyl tube type in each of the valleys located between the dam and the dam, and then supplying hot air generated by the hot air fan through the duct, The hot water preheated by the oil or electric boiler is supplied to the fan coil unit through the circulation pump to maintain the temperature inside the greenhouse by the heat radiated to the outside.

In the heat supply method using the dual duct, since the heat heated to the set temperature is supplied through the duct by the blowing pressure of the hot air fan, the hot air is moved through the duct at a distance from the hot air fan, and heat is consumed. In other words, the temperature difference between near and far from the installation position of the hot air fan occurs. The wider the cultivation area of the crop, the wider the temperature deviation, the more the fuel is consumed . In addition, there is a problem that the growth of crops due to temperature variation is inhibited, the number of crops to be discarded due to secondary insect pests and high temperature and low humidity increases, yields are lowered, cold weather is caused due to temperature variations, and product value is lowered.

Korea Registered patent: 10 - 1156628 (Notification date June 15, 2012)

Korean Published Patent: 10 - 2010-0110659 (Published on October 13, 2010)

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems,

The object of the present invention is to prevent the growth inhibition factors of cultivated crops by uniformly delivering the temperature of the air to the whole greenhouse by reducing the deviation of the near and far air temperature from the cooling and heating apparatus, And to provide a cooling / heating air conditioning system using the same.

In order to achieve the above object, a vinyl duct according to an aspect of the present invention comprises a flexible bell tube and is coupled to a blowing duct of an air conditioner, part; A partial jetting section having a predetermined interval in the longitudinal direction to partially jet the air supplied through the air stabilizing section; And a fine jetting section in which a plurality of fine pores are formed to finely jet the air supplied through the partial jetting section.

Here, it is preferable that the holes of the partial injection partition are formed at intervals of 40 to 50 cm.

It is preferable that the fine jetting division corresponds to 45 to 65% of the total length of the vinyl duct.

In addition, it is preferable that a jet hole is formed radially so that an end point injection is performed on the side surface of the end of the fine jetting section.

According to another aspect of the present invention, there is provided a cooling / heating air conditioning system using a vinyl duct, comprising: a cooling / heating device operated for cooling and heating a greenhouse by sucking outside air and air in a greenhouse; And a vinyl duct connected to the blowing duct of the cooling and heating unit and uniformly injecting the air supplied from the air conditioner into the greenhouse, wherein the vinyl duct is composed of a flexible corrugated tube and is coupled to a blowing duct of the air conditioner, An air stabilizing partition that stabilizes the flow of initial air supplied from the air conditioning and heating apparatus; a partial injection partition which has holes formed at regular intervals in the longitudinal direction to partially discharge the air supplied through the air stabilizing partition; And a fine jetting section in which a plurality of fine pores are formed to finely jet the air supplied through the partition section, thereby uniformly delivering the temperature of the air.

The cooling / heating apparatus is preferably connected to a greenhouse air intake duct for sucking air in a greenhouse and an external air intake duct for sucking outside air.

Preferably, the blowing duct of the cooling / heating unit is provided with an air control valve for controlling the amount of air blown into the vinyl duct. The air control valve includes a shaft vertically crossing the passage of the blowing duct, And a lever provided on an outer side of the blowing duct and connected to the blades to rotate the blades to open and close the passage of the blast duct.

Preferably, the holes of the partial injection partition are formed at an interval of 40 to 50 cm, and the fine injection partition is preferably designed to be equivalent to 45 to 65% of the total length of the vinyl duct, It is preferable that the injection hole is formed radially so that the end-point injection is performed on the end side surface.

The vinyl duct is installed in a path between the crop and the crop, the vinyl duct has a support protruding from the ground, a wire coupled to the support and installed along the longitudinal direction of the vinyl duct, And is spaced apart from the ground.

The vinyl duct according to the present invention and the air conditioning and air-conditioning system using the same are capable of preventing the air discharged from the air conditioning apparatus from being discharged to the outside through the end of the duct like the conventional vinyl duct, In addition, by uniformizing the temperature of the air inside the vinyl duct and injecting the same, it is possible to reduce the deviation of the near-distance and the long-distance air temperature from the air conditioner, thereby delivering uniform air temperature throughout the greenhouse.

In addition, by uniformly transferring the temperature of the air to the entire greenhouse, it is possible to provide a stable airflow to cultivated crops, prevent growth inhibition of cultivated crops, and produce high quality crops.

In addition, air can be efficiently delivered to the interior of the greenhouse to minimize energy consumption, thereby reducing cooling and heating costs.

1 is a front view of a vinyl duct according to an embodiment of the present invention.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cooling / heating air conditioning system using a vinyl duct.
3 is a view illustrating an air control valve installed in a branch pipe of a blowing duct in a cooling / heating air conditioning system using a vinyl duct according to an embodiment of the present invention to adjust the amount of air blown into the vinyl duct.

These and other objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. Hereinafter, a vinyl duct according to the present invention and a cooling / heating air conditioning system using the same will be described in detail with reference to the accompanying drawings. For purposes of this specification, like reference numerals in the drawings denote like elements unless otherwise indicated.

1 is a front view showing a vinyl duct according to an embodiment of the present invention.

As shown in FIG. 1, the vinyl duct 100 according to the present invention includes an air stabilizing partition 110, a partial injection partition 120, and a fine injection partition 130.

The air stabilizing partition 110 is formed of a flexible corrugated tube and is coupled to the air blowing duct of the air conditioner to stabilize the flow of the initial air supplied from the air conditioner.

The partial spray dividing section 120 is formed with holes 122 at regular intervals in the longitudinal direction and partially blows out the stabilized air outward through the air stabilizing section 110. The size of the hole 122 may be determined depending on conditions such as the amount of air passing through the vinyl duct 100, the air pressure, the distance between the holes, the volume of the greenhouse, and the like And it is preferable that the speed of the air discharged into the hole 122 is designed to be 0.5 m / s or less.

The fine jetting partitions 130 are formed with a plurality of micropores 132 to finely jet the air supplied through the partial jetting partitions 120 outwardly. Here, the fine jetting section 130 is designed to occupy 45 to 65% of the total length of the vinyl duct 100, and more preferably it is designed to occupy more than 55% of the total length of the vinyl duct 100 It is good. Further, it is preferable that the speed of the air injected into the fine holes 132 is designed to be 0.3 m / s or less. An injection hole 134 is formed radially so that an end point injection is performed on the side surface of the end of the fine injection partition 130. The injection of air through the injection hole 134 also functions to change the flow of the whole greenhouse.

The air in the vinyl duct 100 is not discharged from the end of the duct but is discharged to the outside through the partial spray dividing section 120 and the fine spray dividing section 130 and is discharged to the inside of the vinyl duct 100 The temperature of the air is uniformed and injected, thereby efficiently transmitting the temperature of the air.

FIG. 2 is a view showing an overall flow of a cooling / heating air conditioning system using a vinyl duct according to an embodiment of the present invention. FIG. 3 is a cross- FIG. 2 is a view showing an air control valve installed in an engine and controlling an amount of air blown into a vinyl duct. FIG.

2, the cooling / heating air conditioning system according to the present invention includes a cooling / heating device 200 operated for cooling and heating a greenhouse, and a vinyl duct (not shown) for uniformly injecting air supplied from the cooling / 100).

The cooling / heating device 200 is provided with a greenhouse air intake duct 210 communicating with the upper part of the greenhouse so as to suck air in the greenhouse and an external air intake duct 220 communicating with the outside so as to suck outside air, And a blowing duct 230 for heating or cooling the air and discharging the air.

The blast duct 230 is provided with a branch pipe 232 for distributing air to be blown and a vinyl duct 100 installed in a path between the crop and the crop is connected to the branch pipe 232. The branch pipe 232 is provided with an air control valve 240 for controlling the amount of air blown into the vinyl duct 100.

3, the air control valve 240 includes a shaft 242 that vertically traverses the passage of the branch pipe 232 and a blade 242 that is coupled to the shaft 242 to block the passage of the branch pipe 232 And a lever 246 provided on the outside of the branch pipe 232 to rotate the blade 244 so as to open and close the passage of the branch pipe 232. That is, when the wing 244 is rotated by operating the lever 246, the discharge amount of the air is adjusted according to the rotation angle of the blade 244, and the discharged air is supplied to the vinyl duct 100 connected to the branch pipe 232 do.

The vinyl duct 100 includes the above-described air stabilizing part 110, the partial injection part 120 and the fine injection part 130 and includes an air stabilizing part 110 formed of a flexible bell tube, Is coupled to the branch pipe 232 of the blowing duct.

Here, since the vinyl duct 100 is made the same as the above description, the description of the vinyl duct will be omitted.

In Korea, it is usually planted so that the distance between crops and crops is 30 to 40 cm. The vinyl duct 100 is installed in a path between the crop and the crop, and includes a support 310 to be plugged at both ends of the path, a wire (not shown) connected at both ends to the support 310, 320 and a spring 330 installed at regular intervals on the wire 320 and spaced apart from the ground. At this time, the vinyl duct 100 is formed with the coupling rings 140 at regular intervals in the longitudinal direction, and the spring 330 of the supporting means is fitted to the coupling ring 140 of the vinyl duct to fix the vinyl duct 100 .

In the cooling / heating air conditioning system using the vinyl duct constructed as described above, the cooling / heating device 200 operates to suck air from the outside and the inside of the greenhouse, heat or cool the sucked air, and discharge it to the blast duct 230. The air discharged to the blowing duct 230 is supplied to the vinyl duct 100 through the branch pipe 232. At this time, the amount of air discharged by operating the air control valve 240 provided in the branch pipe 232 .

The air discharged to the vinyl duct 100 has a stabilized flow while passing through the corrugated tube of the air stabilizing partition 110 of the vinyl duct 100 and flows through the hole 122 while passing through the partial injection partition 120 And is finely sprayed outwardly through the fine holes 132 while passing through the fine jetting section 130. The injection is performed through the injection hole 134 formed at the end of the fine injection partition 130.

At this time, the velocity of the air passing through the vinyl duct 100 increases with the pressure of the air, so that the velocity of the air discharged into the hole 122 of the partial injection compartment is 0.5 m / s or less, It is preferable to regulate the pressure of the air so that the velocity of the air discharged into the fine pores 132 is 0.3 m / s or less.

The air discharged from the cooling / heating unit 200 is not discharged to the outside through the end of the duct like the conventional vinyl duct but flows through the partial injection partition 120 and the fine injection partition 130 The temperature of the air in the vinyl duct 100 is uniformed and injected, thereby reducing the variation in the near-distance and the long-distance air temperature from the cooling / heating device 200, and delivering a uniform air temperature to the entire greenhouse do. In addition, the air injected into the injection hole 134 of the fine jetting section functions to change the airflow of the whole greenhouse, thereby making the temperature of the whole greenhouse uniform.

As described above, the present invention provides stable airflow to cultivated crops by uniformly delivering the temperature of the air to the entire greenhouse by reducing the local and remote air temperature deviation from the cooling / heating apparatus, thereby preventing growth inhibition factors of cultivated crops do.

In addition, by efficiently transferring air to the interior of the greenhouse to minimize energy consumption, it is possible to improve the cooling and heating efficiency and reduce the cooling and heating costs.

Although the preferred embodiments of the present invention have been described, the present invention is not limited to the specific embodiments described above. 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 or scope of the appended claims, And equivalents may be resorted to as falling within the scope of the invention.

100: vinyl duct 110: air stabilizing compartment
120: partial injection block 122: hole
130: fine jetting section 132:
134: injection hole 140: engagement ring
200: Heating / cooling device 210: Greenhouse air intake duct
220: Outside air intake duct 230: Ventilation duct
232: branch pipe 240: air control valve
242: shaft 244: wing
246: Lever 310: Support
320: wire 330: spring

Claims (13)

An air stabilizing partition which is made of a flexible corrugated tube and is connected to the air blowing duct of the air-conditioning unit and stabilizes the flow of the initial air supplied from the cooling / heating unit;
A partial jetting section having a predetermined interval in the longitudinal direction to partially jet the air supplied through the air stabilizing section; And
A fine jetting section in which a number of fine pores are formed to finely jet the air supplied through the partial jetting section;
And a ventilation duct connected to the ventilation duct. The method according to claim 1,
Wherein the holes of the partial injection partition are formed at intervals of 40 to 50 cm. The method according to claim 1,
Wherein the fine jetting section corresponds to 45 to 65% of the total length of the vinyl duct. The method according to claim 1,
Wherein a spray hole is formed radially so that an end point injection is performed on the side surface of the end of the fine jetting section. A cooling / heating device operated for cooling and heating the greenhouse by sucking outside air and air in the greenhouse; And
And a vinyl duct connected to the blowing duct of the cooling / heating unit to uniformly spray the air supplied from the air conditioning / heating unit to the inside of the greenhouse,
The vinyl duct includes an air stabilizing partition which is formed of a flexible corrugated tube and is connected to a blowing duct of the cooling and heating apparatus and stabilizes the flow of initial air supplied from the cooling and heating apparatus, A plurality of fine pores formed in the fine pores so as to finely inject the air supplied through the partial injection partition to uniformly deliver the temperature of the air, A cooling / heating air conditioning system using a vinyl duct. 6. The method of claim 5,
Wherein the cooling / heating device is connected to a greenhouse air intake duct for sucking air in a greenhouse and an external air intake duct for sucking outside air. 6. The method of claim 5,
Wherein the blowing duct of the cooling / heating unit is provided with an air control valve for controlling the amount of air blown through the vinyl duct. 8. The method of claim 7,
The air control valve includes a shaft vertically crossing the passage of the blowing duct, a blade coupled to the shaft to block a passage of the blowing duct, and a fan disposed outside the blowing duct and connected to the fan to open / And a lever for rotating the wing so as to rotate the wing. 6. The method of claim 5,
Wherein the holes of the partial injection compartment are formed at intervals of 40 to 50 cm. 6. The method of claim 5,
Wherein the fine jetting division corresponds to 45 to 65% of the total length of the vinyl duct. 6. The method of claim 5,
Wherein a spray hole is radially formed on the side surface of the end portion of the fine jetting section so as to form an end point injection. 6. The method of claim 5,
Wherein the vinyl duct is installed in a path between the crop and the crop, respectively. 6. The method of claim 5,
The vinyl duct is fixed to a supporting means protruding from the ground, a wire coupled to the supporting base and extending along the longitudinal direction of the vinyl duct, and a spring provided at a predetermined interval to the wire, Wherein the ventilation system is a ventilation system.

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