KR20010095493A - Chilly wind apparatus with pad-box - Google Patents

Abstract

PURPOSE: An apparatus for generating cold air using a pad box is provided to cool the rhizospheres of fruits and vegetables being cultivated under glass. CONSTITUTION: The apparatus for supplying cold air to the rhizospheres of fruits and vegetables being cultivated under glass comprises a thick pipe(42) and an elongate pipe(44) located under a support member for plants, a power generating part installed on the end of the pipe for supplying the outside air along the pipe, and an air inlet part(20) having a porous pad(24) installed around the power generating part for cooling the air passing through the pad by using cooling water flowed out along the pad. The elongate pipe is provided with plural penetrating holes(46) in the longitudinal direction thereof for discharging the cooled air to the rhizospheres of fruits and vegetables via the penetrating holes.

Description

Chilly wind apparatus with pad-box

The present invention relates to a cold air device that is installed to appropriately control the temperature of cultivation of fruit and vegetables grown inside the greenhouse, and more particularly, to a cold air device using a pad box to increase the energy efficiency by cooling the local part of the cultivated fruit and vegetables will be.

Currently, many fruits and vegetables are grown in greenhouses, making it possible to grow fruits and vegetables without being affected by the climate and temperature outside the greenhouse, and by constantly maintaining optimal conditions for growing fruits and vegetables. It can speed up the speed and shorten the harvest period of fruit and vegetables, thereby increasing the annual yield. And consumers will have access to fruit and vegetables that are not in season. Because of the advantages of greenhouse cultivation, farmers prefer greenhouse cultivation, and greenhouse cultivation has become a high income source for farmers.

On the other hand, the cooling device is a facility that must be installed essentially to control the internal temperature of the greenhouse. Such cooling devices include simple ventilation windows, air-controllers, cooling devices using ground water, cooling devices using fog and pads, or fan and pads.

Here, the cooling method of the air conditioner using the fan and pad is installed in one side of the greenhouse, the cooling water flow pad, and install a blower on the other side to draw the air inside the greenhouse to the outside through the blower, the outside through the pad Air is introduced into the greenhouse. At this time, the air flowing into the inside of the greenhouse from the outside is cooling air heat-exchanged by the cooling water. When the outside temperature is about 30 ° C., the air entering into the greenhouse is about 7 to 8 ° C. lower than the outside temperature. Wet bulb temperature of 22 ~ 23 ℃.

However, when the cooling device using the fan and pad is used in the high temperature and high humidity of summer in Korea, the relative humidity of the outside air is high, so excessive humidity in the greenhouse is a problem. In addition, since the entire greenhouse needs to be cooled, the cooling device must have a large capacity, a disadvantage of low energy efficiency, an installation cost and an operating cost are high, and the entire greenhouse must be sealed when the blower is operated.

The present invention is provided to solve the problems of the prior art as described above, it is possible to locally cool the local vegetables of the fruit vegetables grown in the greenhouse, cold wind using a pad box that can increase the energy efficiency by local cooling of fruit vegetables The object is to provide a device.

1 is a perspective view showing a cold air device using a pad box according to an embodiment of the present invention,

2 is a partial cross-sectional view of the cold air device using the pad box shown in FIG.

Figure 3 is a detailed view showing the cultivation bed of the cold air device using the pad box shown in FIG.

♠ Explanation of symbols on the main parts of the drawing ♠

1: fruit vegetables 20: air inlet

24: pad 26: coolant receiver

30: cooling water tank 40: air transfer unit

42: air transport pipe 44: detail pipe

50: cultivation bed 52: pearlite medium

60: power generating unit 61: fan

According to the present invention for achieving the object as described above, in the cold air apparatus using a pad box for supplying cold air to the root portion of the plant cultivated in the greenhouse, the plant is located in the lower portion of the support planted, longitudinal direction A plurality of through-holes are formed, and a pipe for discharging air cooled through the through-holes to the root portion of the plant, and is installed at the end of the pipe located outside of the greenhouse, the air outside the greenhouse along the pipe And a power generation unit for generating power for supplying power, and a pad which is a porous body installed around the power generation unit, and an air inlet unit for cooling air passing through the pad by using cooling water flowing along the pad. Provided is a cold air device using a pad box including.

In addition, the support of the present invention is a mixed medium mixed with a pearlite medium or soil, or is loaded on the inside of the cultivation bed open to the top and the pearlite medium, the tube is seated on the inner bottom of the cultivation bed so that the plant is the support It is planted in the upper surface of.

In addition, the pipe of the present invention includes an air transport pipe and a detail pipe, the air transport pipe is connected to the power generating unit located outside of the greenhouse extends into the interior of the greenhouse, the detail pipe is connected to the air transport pipe To the lower part of the plant.

In addition, the air inlet portion of the present invention includes a rectangular parallelepiped frame, the upper side is closed, the pad is provided on the four sides of the frame, and the cooling water receiving unit is installed on the lower four corners of the frame, the lower portion of the frame A power generation unit connected to the tube is installed.

In addition, the cooling water of the present invention is sprinkled on the upper portion of the air inlet flows down the pad and collected in the cooling water receiving unit formed in the lower portion of the air inlet, and is transferred to the cooling water tank along the drain pipe connected to the cooling water receiving unit, The pump is transported to the top of the air inlet and watered.

In the following, with reference to the accompanying drawings a preferred embodiment of a cold air device using a pad box according to the present invention will be described in detail.

In the drawings, Figure 1 is a perspective view showing a cold air device using a pad box according to an embodiment of the present invention, Figure 2 is a partial cross-sectional view of the cold air device using the pad box shown in Figure 1, Figure 3 is in Figure 1 Detailed drawing showing the cultivation bed of the cold air device using the pad box shown in detail.

As shown in Figures 1 to 3, the cold air device using the pad box is an air inlet 20 for introducing the outside air of the greenhouse, a power generating unit 60 for generating power for introducing the outside air, and It includes an air transfer portion 40 for transferring the introduced external air to the root portion of the fruit vegetable (1) in the greenhouse.

The air inlet 20 has a rectangular parallelepiped frame 22 having an upper surface closed outside the greenhouse, and four pads 24 having pores formed thereon are installed on four sides of the rectangular parallelepiped frame 22. And, the four corners of the lower surface of the rectangular parallelepiped is provided with a cooling water receiving unit 26, the lower portion of the cooling water receiving unit 26 is connected to the drain pipe 28 and the drain pipe 28 is extended to the cooling water tank (30). Therefore, the coolant stored in the coolant receiver 26 is transferred to the coolant tank 30 through the drain pipe 28. On the other hand, the cooling water tank 30 is connected to the cooling water supply pipe 32, this cooling water supply pipe 32 is extended to the upper portion of the frame 22 is connected to the pump 34 installed on the upper portion of the frame 22. Accordingly, by the operation of the pump 34, the coolant moves from the coolant tank 30 to the upper part of the frame 22, flows down through the four pads 24, and moves to the coolant receiving base 26, and again the drain pipe. It is transferred to the coolant tank 30 through the 28.

On the other hand, the power generating unit 60 is a fan 61, is installed on the lower surface of the rectangular parallelepiped frame 22. In addition, the fan 61 is connected to the air transfer pipe 42 which is one of the air transfer portion 40, the air transfer pipe 42 is extended into the greenhouse. The air transfer pipe 42 extends to the side of the cultivation bed 50 which is the inner bottom of the greenhouse in which the fruit vegetables 1 are grown and grown, and a plurality of detailed pipes 44 are connected to the side of the air transfer pipe 42. do. On the other hand, the cultivation bed 50 is opened in the upper direction ' It has a cross-sectional shape, and a plurality of detail pipes 44 connected to the air transport pipe 42 are each seated on the inner bottom of the cultivation bed 50. The end of the air transfer pipe 42 is blocked, so that the air introduced through the fan 61 is transferred along the air transfer pipe 42 to the plurality of detail pipes 44. This detail pipe 44 is located on the inner bottom of the cultivation bed 50, the upper surface of the detail pipe 44 through holes 46 of 1cm in diameter are formed at intervals of 5 ~ 10cm to form a detailed pipe 44 The air thus transported is discharged upward through the through hole 46. Air discharged in this way is discharged toward the root of the fruit vegetable (1) planted on the upper surface of the cultivation bed (50).

On the other hand, the detail pipe 44 is seated on the inner bottom of the cultivation bed 50 and the mixed medium or pearlite medium is mounted on the upper part of the detail pipe 44 to support the fruit vegetable (1). The mixed medium is a mixture of the soil 54 and the pearlite medium 52, the porous pearlite medium 52 forms a passage through which the cooling air discharged from the detail pipe 44 can move to the root of the fruit vegetable 1 .

The operation of the cold air device using the pad box configured as described above will be described in detail.

When the pump 34 is operated, the cooling water circulates from the cooling water tank 30 along the cooling water supply pipe 32, the four pads 24, the cooling water receiving base 26, and the drain pipe 28. When the fan 61 is operated, the outside air is transferred to the air transfer pipe 42 by the pads 24 through the four pads 24. At this time, since the cooling water flows down the four pads 24, the outside air flows into the air transfer pipe 42 while the heat is made by the cooling water while passing through the pads 24.

The cooled air is discharged to the cultivation bed 50 through the through hole 46 formed on the upper surface of the detail pipe 44 while being transported along the air transfer pipe 42 and the detail pipe 44. The air discharged to the cultivation bed 50 may cool the root portion of the fruit vegetable 1, and the hot air inside the greenhouse may be rooted of the fruit vegetable 1 by the cooled air discharged from the cultivation bed 50. It can be prevented from entering the part. Therefore, it is possible to cool only the root portion of the fruit vegetables 1 to be cultivated.

On the other hand, when the air convection in the greenhouse is observed, as the cooled air is blown from the lower part of the greenhouse, the cooled air stays at the bottom of the greenhouse for a long time, and the elevated temperature air rises to the upper part of the greenhouse. The bottom of the greenhouse has the same effect as an air curtain.

The cold air device using the pad box of the preferred embodiment of the present invention described above has been introduced as a device for cooling the roots of fruit and vegetable, but in the case of a livestock farm raising livestock, the cold air device using the pad box of the present invention can be used.

As described in detail above, the cold air device using the pad box of the present invention, the cooling water circulation device forming a channel so that the cooling water passes to the root portion of the fruit vegetable, the radiator cooling and cooling of the fruit vegetable root portion without the cooling process The temperatures are compared in Table 1.

The temperature outside the greenhouse, which is an external condition in this experiment, is 26.8 ℃ at 10 o'clock, 31.3 ℃ at 14 o'clock and 26.3 ℃ at 18 o'clock. The solar radiation amount is 26.8W / m ² at 10 o'clock, 700W / m ² at 14 o'clock and 140W / m ² at 18 o'clock, and the temperature of the supply coolant is 17.0 ° C. at 10 o'clock, 17.3 ° C. at 14 o'clock, and 18 At 17.2 ° C.

Comparing the example in Table 1, the temperature at the plant root zone of the greenhouse in which the cold water circulation system is installed at 13:00 is 21.8 ° C. to 27.9 ° C., but the temperature in the plant root zone of the greenhouse in which the cold air device having the pad box of the present invention is installed is shown. It can be seen that is 19.3 ℃ ~ 25.7 ℃ 2 ~ 3 ℃ lower than the conventional cooling water circulation system.

As such, the cold air device using the pad box of the present invention can cool only the local part of the fruit vegetables grown in the greenhouse, and thus has an advantage of high cooling efficiency.

In addition, there is an advantage that the temperature of the cooling water can be prevented by circulating the cooling water continuously.

In addition, there is an advantage that a barrier such as air curtain is formed on the bottom of the greenhouse to increase energy efficiency.

The technical idea of the cold air device using the pad box of the present invention has been described above with the accompanying drawings, but this is only illustrative of the best embodiment of the present invention and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (5)

In the cold air device using a pad box for supplying cold air to the root portion of the plant grown in the greenhouse, Located in the lower portion of the support planted with the plant, a plurality of through holes are formed in the longitudinal direction, the tube for discharging the air cooled through the through holes to the root portion of the plant; A power generation unit installed at an end of the pipe located outside the greenhouse to generate power for supplying air outside the greenhouse along the pipe; And a pad provided in the periphery of the power generating unit, the air inlet unit cooling the air passing through the pad by using the coolant flowing along the pad. The method of claim 1, The support is a mixed medium mixed with pearlite medium or soil or is loaded on the inside of the cultivation bed open to the upper, the tube is seated on the inner bottom of the cultivation bed and the plant is planted on the upper surface of the support Cooling device using a pad box, characterized in that. The method according to claim 1 or 2, The pipe includes an air transport pipe and a detail pipe, wherein the air transport pipe is connected to a power generating unit located outside of the greenhouse and extends into the greenhouse, and the detail pipe is connected to the air transport pipe to connect the lower portion of the plant. Cold air device using a pad box, characterized in that extending to. The method of claim 1, The air inlet includes a rectangular parallelepiped frame with an upper portion closed, the pad installed on four sides of the frame, and a cooling water receiver installed on four lower edges of the frame, and the lower portion of the frame includes a power connected to the pipe. Cooling device using a pad box, characterized in that the generator is installed. The method according to claim 1 or 4, The cooling water is sprinkled on the upper portion of the air inlet, flows down through the pads, is collected in the cooling water receiver formed at the lower portion of the air inlet, and is transferred to the cooling water tank along a drain pipe connected to the cooling water receiver, and is pumped by the air. Cooling device using a pad box characterized in that the water is transported to the upper portion of the inlet.