KR101518278B1 - Transparent heatexchanger for greenhouse - Google Patents

Abstract

The present invention relates to a transparent heat exchanger for a greenhouse, and more particularly to a transparent heat exchanger for a greenhouse which is capable of minimizing the formation of a shade by the heat exchanger while improving the heat exchange efficiency, A transparent heat exchange apparatus for greenhouses installed inside a greenhouse, comprising: a housing having a circulation region formed therein and closed at an upper portion and a side portion, the side portions being concave and convex portions; A collecting tank provided at a lower portion of the housing to collect water passing through the circulation region; A drain valve connected to one side of the water collecting tank and having a first valve for sending the water discharged from the water collecting tank to the heating system and a second valve for discharging the water to the outside of the greenhouse; A water spray pipe connected to a water inlet pipe passing through an upper portion of the housing to spray inflow water to the circulation area; And a heat exchanger for cooling the heat exchanger.

Description

[0001] TRANSPARENT HEAT EXCHANGER FOR GREENHOUSE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transparent heat exchanging apparatus for a greenhouse, and more particularly, to a transparent heat exchanging apparatus for a greenhouse using a transparent material having water circulating inside a heat exchanger, Shaped housing in the form of a linear plate to prevent the formation of shade on the crop even when installed in the center of the greenhouse and to allow rapid and uniform spreading of cold or warmth throughout the entire greenhouse, The circulation water absorbs the solar heat and discharges it to the outside of the greenhouse, thereby saving the cooling energy. In the winter season, the circulating water absorbs the solar heat in the daytime and transmits it to the heating system, thereby saving the heating energy. .

Generally, in the enrichment industry, cultivation and breeding of facilities such as vinyl houses are being carried out in order to increase productivity by cultivating crops or raising livestock in an open natural environment even when cultivation and rearing are difficult, and to obtain high value-added agricultural and livestock products.

As an example of cultivation in agriculture, a greenhouse can be mentioned. In the greenhouse, the temperature inside the greenhouse rises due to the solar heat during the summer, and the temperature inside the greenhouse falls, Air conditioner and the like are installed.

However, most of the heating and cooling apparatuses, for example, have a large-sized hot air fan or a cooler installed in a corner of a large greenhouse space or installed in the center to emit heat or cool air. This is because the energy consumption is high, the maintenance cost is high, It is difficult to uniformly diffuse the cold and warm air to the entire greenhouse area, so that the temperature difference is large and the solar heat can not be absorbed. In addition, when the air conditioner is installed at the center of the greenhouse, shade is formed by a device such as hot / Is not good.

As another example of the cooling and heating apparatus, there is a heat exchanger having a structure such as an industrial heat exchanger or an automobile radiator, or a heat exchanger such as Korean Utility Model No. 20-1998-0012623 (Patent Document 1) There is a problem that it takes a lot of time to absorb the solar heat, the shade is formed by the facility, and the installation site is restricted.

1. Korean Utility Model Publication No. 20-1998-0012623 (published on June 5, 1998)

The present invention for solving the problems of the prior art is capable of rapidly and uniformly spreading the warmth or coolness of the entire greenhouse while improving heat exchange efficiency and transmitting visible light of solar light and infrared light And it is an object of the present invention to provide a transparent heat exchange apparatus for a greenhouse that can save cooling energy and minimize the formation of shade by the heat exchange apparatus.

According to another aspect of the present invention, there is provided a transparent heat exchanger for greenhouses installed in a greenhouse, comprising: a circulating region formed inside the solar cell and capable of transmitting sunlight and conducting heat; an upper portion and a side portion are closed; A housing made of concave and convex portions; A collecting tank provided at a lower portion of the housing to collect water passing through the circulation region; A drain valve connected to one side of the water collecting tank and having a first valve for sending the water discharged from the water collecting tank to the heating system and a second valve for discharging the water to the outside of the greenhouse; A water spray pipe connected to a water inlet pipe passing through an upper portion of the housing to spray inflow water to the circulation area; And a control unit.

In a preferred embodiment, the concave-convex portion of the housing is repeatedly formed with oblique surfaces in a zigzag shape on the side cross-section observation side.

In a preferred embodiment of the present invention, the water spray pipe has a cylindrical shape with a plurality of spray nozzles formed on an outer circumferential surface thereof, and the upper part of the housing has a cylindrical shape with a water spray space spaced from the outer circumferential surface of the spray pipe, And the concave-convex portion is disposed below the upper portion of the cylindrical tube-shaped housing.

According to the present invention, a transparent material having transparency of sunlight and high thermal conductivity is used to form a housing having a concavo-convex wall surface, so that circulating water that absorbs solar heat during the summer is discharged to the outside of the greenhouse to save cooling energy It is possible to save the cooling energy by sending the circulating water absorbing the solar heat during the winter season to the heating system and prevent the formation of shade in the crop even if the heat exchanger is installed in the center of the greenhouse, The heat exchange efficiency can be improved. Also, since the inside of the housing where the circulation water circulates is isolated from the greenhouse area, it is possible to prevent the humidity in the greenhouse area.

1 is a configuration diagram of a transparent room heat exchanger according to an embodiment of the present invention.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It should be understood, however, that there is no intention to limit the invention to the form just described, and the spirit and scope of the present invention encompasses the ordinary variations, equivalents, and alternatives of the illustrated forms.

1 is a configuration diagram of a transparent room heat exchanger according to an embodiment of the present invention.

1, the greenhouse transparent heat exchanger of the present invention is installed in a greenhouse area S2, which is an internal space of a greenhouse (not shown), and can be installed in the center of the greenhouse area S2, A housing 10, a water collecting tank 13, and a water spraying pipe 20.

The housing 10 is made of a material such as transparent glass or transparent plastic that can transmit sunlight and has high thermal conductivity, and has a circulation zone S1, which is a space of a certain size in which water can circulate, And the upper and side portions constituting the circulation zone S1 may be formed in a linear plate shape so as to be substantially closed with the greenhouse zone S2.

At this time, the side portion of the housing 10 is made of the concave and convex portions 11, so that the area of contact of the wall surface of the housing 10 with the circulation region S1 and the greenhouse region S2 can be as wide as possible, It is preferable to reduce the inclination of the inclined plane 12 so as to be able to stay in the area S1 for a long time.

The water collecting tank 13 is disposed at a lower portion of the housing 10 so that water can be collected when the water flowing down through the circulation area S1 flows down by its own weight. And the water collected in the water collecting tank 13 is discharged to a heating system (not shown) by a first valve 22 provided in the water pipe 14, (23) to the outside of the greenhouse.

The water spray pipe 20 is disposed at an upper portion of the circulation zone S1 and connected to the water inlet pipe 21 through which the water is supplied through the upper portion of the housing 10. A water pump for pumping the inflow water W1 at a high pressure may be provided outside the water inlet pipe 21 and the outer end of the water inlet pipe 21 may be heated or cooled A cooling device or a heating device may be installed.

As a preferred embodiment of the present invention, the concavo-convex portion 11 of the housing 10 is formed in a zigzag shape on the side face observation side in order to increase the contact area with the greenhouse region S2 and the circulation region S1, (12) may be formed repeatedly.

In order to stabilize the flow rate of water so that the water sprayed from the spray pipe 20 contacts the slope 12 of the concave and convex portion 11 for a long time, 12 may be designed so as to minimize the inclination within a range where the air flow of the inclined surface 12 is not disturbed on the side cross section observation and the inner width of the circulation area S1 in which the concave and convex portions 11 are formed may be 10 mm or less have.

As shown in the drawing, the water spray pipe 20 may be a cylindrical tube having a plurality of spray nozzles on its outer circumferential surface, and the upper portion of the housing 10 may be formed in a cylindrical tube shape And may be formed in a cylindrical tube shape so as to form a sprinkling space with a certain distance from the outer circumferential surface of the water spray pipe (20). In this case, the concavoconvex portion 11 is disposed on the upper portion of the housing 10, that is, in the form of a cylindrical tube, so that the water sprayed in the spray space can flow in a zigzag form along the inner space of the recess 11.

Hereinafter, the operation of the transparent room heat exchanger of the present invention will be described, and the present invention will be further embodied.

The temperature of the greenhouse zone S2 is significantly higher than the temperature (hereinafter referred to as "set temperature") suitable for growing the crop by the sunlight Q during the day when the summer sunlight Q is irradiated, In the present invention, cold water is sprayed through a water spray pipe (20) in order to suppress an increase in the temperature of the greenhouse area (S2) during the summer season. At this time, water sprayed from the spray water pipe (20) The temperature around the housing 10 can be lowered while passing through the space S1 so that the temperature rise in the greenhouse area S2 can be suppressed.

Further, since the cold water passes through the circulation region S1 and transmits the visible light of the sunlight Q and absorbs the infrared rays, it can absorb much heat of the sunlight Q, So that the cooling energy consumed when the cooling apparatus is operated can be reduced.

The water heated by the heat exchange action generated in the housing 10 is collected in the water collecting tank 13 and then discharged through the drain pipe 14 and the water W2 is discharged to the outside of the greenhouse through the second valve 23.

On the other hand, in the winter season, the temperature outside the greenhouse is very low, so that the temperature of the greenhouse area S2 is lower than the 'set temperature', so that the crop often gets cold. In the present invention, Since the temperature around the housing 10 can be increased while hot water sprayed from the water spray pipe 200 passes through the circulation zone S1, the warm water is sprayed through the water spray pipe 20, Can be suppressed.

Further, since the hot water passes through the circulation area S1 and transmits the visible light of the sunlight Q and absorbs the infrared rays, warm water warmed in the water collecting tank 13 is stored, that is, When the first valve 22 is opened and discharged to a heating system (not shown), the heating energy consumption of the heating device for converting water to hot water can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. Will be.

10 ... housing 11 ... concave /
12 ... inclined surface 13 ... water collecting tank
14 ... drain pipe
20 ... water pipe 21 ... water pipe
22 ... first valve 23 ... second valve
S1 ... circulation zone S2 ... greenhouse zone
W1 ... Influent W2 ... Drain

Claims (3)

A transparent greenhouse heat exchanger installed in a greenhouse,
A solar-light transmitting and heat-conductive material comprising: a housing having a circulation zone formed therein, an upper and a side closed, and a side part made of a concave-convex part;
A collecting tank provided at a lower portion of the housing to collect water passing through the circulation region;
A drain valve connected to one side of the water collecting tank and having one of a first valve for sending the water discharged from the water collecting tank to the heating system and a second valve for discharging the water to the outside of the greenhouse;
A water spray pipe connected to a water inlet pipe passing through an upper portion of the housing to spray inflow water to the circulation area;
Wherein the concavo-convex portion of the housing is repeatedly formed in an oblique shape in a zigzag shape on the side cross-section observation side.
delete The method according to claim 1,
Wherein the water spray pipe is in the form of a cylindrical tube having a plurality of spray nozzles on the outer circumferential surface thereof and the upper part of the housing is in the form of a cylindrical tube having a sprinkling space spaced from the outer circumferential surface of the spray pipe in the form of a cylindrical tube, Wherein the transparent heat exchanger is disposed below the top of the tubular housing.

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