KR101222399B1 - Hydroponic cultivation greenhouse for cold and heating - Google Patents

Abstract

PURPOSE: A cooling and heating apparatus is provided to circulate inner air in a ceiling part, and supply room temperature air from the lower to the upper part, thereby preventing a deflection of temperature in upper and lower parts. CONSTITUTION: A heating apparatus(1) heats the flown air. A room temperature air discharging pipe(3) is positioned on the bottom surface in the hydroponic greenhouse, and a discharging hole(31) is formed in the outer periphery at the same time. An outer air intake pipe(5) flows outer air to the upper part of the blower fan. A heating wire is reeled in a space between the inner and outer pipes of the room temperature air discharging pipe.

Description

Hydonic cultivation greenhouse for cold and heating

The present invention relates to a cooling and heating device for a hydroponic cultivation greenhouse, which maintains the internal temperature of the hydroponic cultivation greenhouse at a suitable cultivation temperature during the summer and winter, and circulates the air in the greenhouse so that plant cultivation is performed in a more comfortable environment. .

On the other hand, the present invention is to maximize the cooling, heating efficiency inside the hydroponic cultivation greenhouse to obtain the effect of saving energy.

In general, hydroponic cultivation is a method of growing a plant in a culture medium with water and water-soluble nutrients without using soil. After the installation, a large glass greenhouse is used to grow plants by placing a culture vessel on the upper shelf.

Therefore, the hydroponic cultivation greenhouse for heating and cooling device of the present invention is used only in the above-described hydroponic cultivation room, that is, glass greenhouse, the background art will be described only for the heating device of the conventional glass greenhouse.

The heating apparatus used in the conventional hydroponic glass greenhouse (hereinafter referred to as 'hydroponic cultivation chamber') is mainly used for electric, oil, coal, firewood, etc., which are inefficient for heating the entire large greenhouse inside and heat. It was pointed out that there was a problem that it was not easy to maintain proper temperature at all times due to a lot of loss, and furthermore, it was pointed out that the temperature change caused by the difference in distance from the heating device was severe and carbon monoxide was generated, which adversely affected the plant.

Recently, a method of constructing an electric heating device with a hydroponic cultivation room ceiling to maintain an appropriate temperature in a hydroponic cultivation room with room temperature air has been proposed.

This method is expected to be more convenient and quicker to use than the stoves such as electric, oil, coal, and firewood described above. In particular, the method can maintain and control the proper temperature of plant cultivation at all times.

However, in view of the installation of the electric heating device, it is usually mounted on the ceiling or the wall of the hydroponic cultivation room so that air at room temperature is concentrated at the top of the hydroponic cultivation room due to convection. Of course, it was pointed out that there was no major influence on the plants located near the ground.

More specifically, in winter, there is a problem that the temperature inside the hydroponic cultivation chamber drops sharply due to a decrease in the temperature of atmospheric air as well as a decrease in the ground temperature. When installed at and used in the air, room temperature air emitted from the electric heating device causes convection by low temperature air generated by the low temperature of the ground, causing the phenomenon of concentrating to the upper part of the room.

Therefore, when the room temperature air of the electric heating apparatus is concentrated by the convection phenomenon to the indoor interior center or the upper part of the hydroponic cultivation room, the lower part of the room, that is, near the ground where the culture vessel is located, has a lower temperature than the room temperature. There was a problem that the plants in the culture vessel affected a lot of cold damage, especially caused by the low temperature of the ground caused a large amount of heat loss and a large amount of humidity caused by excessive consumption of energy.

As another example, in order to prevent the above-mentioned convection phenomenon and the damage caused by low temperature of the ground, as shown in Korean Patent Registration Nos. 1045302 and 0234560, a cold air discharge pipe is installed on the ground of a greenhouse or a cold air discharge pipe is used as the ground. After embedding, there is a method to obtain an ondol effect by connecting it with an electric heating device installed inside and outside the room.

In this method, because the heating and cooling of the crops grown in the winter is near, the energy efficiency is better, and the buried ground is able to affect the roots of the crops by heating and cooling the ground and the ground temperature to room temperature. In the large glass greenhouse, the upper temperature of the ground and the glass greenhouse is not only a temperature difference due to the convection of air but also the air supplied to the air conditioner and the heater passes through a long room temperature air discharge pipe and a change in temperature occurs. In other words, the air discharged from the short distance of the air conditioner and the air discharged from the long distance of the air conditioner pass through the air discharge pipe at room temperature and cool or heat, so that a temperature deviation occurs according to the distance from the air conditioner in a greenhouse. Will affect the growth rate of the crops, It will be the most speed varies.
Therefore, it is a technology that is not practically significantly lost because of the waste of energy required to raise the temperature of the room at the same time and the heat loss from the ground in winter.

As described above, various developments of heating apparatuses for maintaining proper plant cultivation temperature of the hydroponic cultivation chamber in winter have been carried out, but are not very practical in terms of heating effect and energy efficiency, and there is an urgent need for more efficient technology development.

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Thus, the hydroponic cultivation greenhouse for heating and cooling device provided by the present invention is intended to solve all the problems of the existing various greenhouse heating devices described above, and in particular, the room temperature air supplied from the heating device is raised from the hydroponic cultivation room ground. In addition to supplying the internal air from the ceiling and circulating it, it is possible to prevent temperature deviations in the greenhouse due to convection and variations in distance from the heating system, while maintaining an even temperature throughout the greenhouse. have.

On the other hand, the present invention was able to maintain the proper temperature inside the hydroponic cultivation room through a cooler in the summer.

In addition, in the present invention, when the air turbidity or ventilation inside the hydroponic cultivation room is required, the fresh air is introduced into the hydroponic cultivation room together with the internal circulation air to maintain a more comfortable environment.

The cooling and heating device for a hydroponic cultivation room proposed by the present invention is installed outside the hydroponic cultivation room (a) and at least one air inlet for purifying the air therein and the air inside the hydroponic cultivation room (a). A heating device 1 in which a blower fan 12 and a heater 13 for heating the introduced air are sequentially installed;

An air suction pipe (2) positioned at an upper side of the hydroponic cultivation chamber (a) and connected to an upper portion of the blowing fan 12 of the heating apparatus 1 and a connection pipe 22;

Located at the lower ground line inside the hydroponic cultivation room (a) and at the same time a plurality of discharge holes 31 are formed in the outer periphery, a plurality of room temperature air of which one end is connected to the lower portion of the heater 13 of the heating device 1 It consists of a discharge pipe (3),

The heating device 1 detects the internal temperature of the hydroponic cultivation room (a) with a temperature sensor (41) through the control device (4), and then controls the blower fan (12) and the heater (13) to control the air suction pipe (2). ) And the room temperature air discharge pipe (3) to allow the discharge and inflow of the air inside the hydroponic cultivation room (a), and to introduce external air into the upper part of the blower fan 12 of the heating device 1. By installing the pipe (5) is configured such that the opening and closing valve 51 at the bottom of the external air inlet pipe (5) is selectively opened and closed by the control device (4),

The room temperature air discharge pipe (3) is configured to a predetermined height by a plurality of mounting tables 32 in the lower ground inside the hydroponic cultivation room (a) and then the distribution pipe (33) connected to the heater (13) lower portion of the heating device (1) It is characterized in that multiple installations at equal intervals.

In addition, the present invention is characterized in that the room temperature air discharge pipe (3) has a dual configuration of the inner tube (3a) and the appearance (3b) in which the discharge hole 31 is formed.

In another aspect, the present invention is characterized in that the heating wire 34 is installed in the outer periphery or the inner periphery of the room temperature air discharge pipe (3).

In addition, the present invention constitutes a cooler 14 on the lower line of the heater 13 of the heating device 1 to lower the air introduced into the heating device 1 to the appropriate temperature in the summer to be supplied to the hydroponic cultivation room (a). It is characterized by.

The cooling and heating device for a hydroponic cultivation room proposed by the present invention supplies air at room temperature heated through a heating device upwardly from the inner surface of the hydroponic cultivation room so that the temperature of the upper and lower spaces in the hydroponic cultivation room is conventional. It prevents deviation and obtains the effect of maintaining the temperature evenly throughout the inside and circulates the air in the hydroponic cultivation room through the upper air suction pipe to be circulated through the heating device. Have

The present invention constitutes an external air inlet pipe that sucks external air with a heating device, and when fresh air is required due to turbidity or other reasons of internal air in the hydroponic cultivation room, external fresh air is introduced into the hydroponic cultivation room through the external air inlet pipe. Inflow is effective to create a more comfortable environment.

In addition, in the present invention, a plurality of room temperature air discharge pipes are installed at a predetermined height from the ground, and at the same time, a configuration in which the air at room temperature supplied from the heating machine moves along the room temperature air discharge pipes by winding a double or heating wire. It is possible to obtain more effective temperature increase effect by minimizing the loss and heat loss caused by low temperature of the ground.

In another aspect, the present invention has the advantage that the plant in the hydroponic cultivation greenhouse can be easily cultivated at an appropriate temperature by installing a cooler into the heating apparatus in winter as well as summer.

1 is an embodiment of the present invention,
2 is an overall illustration of the present invention,
3 is a partial side cross-sectional view showing an embodiment of the present invention;
4,5 is an embodiment showing the state of air circulation and purification inside the hydroponic cultivation room according to the present invention,
Figure 6,7 is a partial side cross-sectional view showing another embodiment of a room temperature air discharge pipe proposed in the present invention.

As described in the above description, the cooling and heating device for a hydroponic cultivation room proposed by the present invention is installed outside the hydroponic cultivation room (a) and at the same time therein, an air filter 11, at least one blower fan 12, and a heater 13. The heating device (1), which is configured sequentially, and the hydroponic cultivation room (a) while being installed inside the upper side of the air suction pipe (2) connected to the heating device (1) and the hydroponic cultivation room (a) It is installed on the inner lower ground line, the one end is composed of a room temperature air discharge pipe (3) connected to the heating device (1) to the room temperature air discharge pipe (3) for air at room temperature heated in the heating device (1) The hydroponic cultivation chamber (a) is supplied upward from the ground to maintain an even temperature of the entire interior as well as to suck and discharge the internal air to the upper air suction pipe (2) to circulate through the heating device (1) to purify the air and prompt air. Heating and its energy saving effect There are main features as to obtain.

The present invention is characterized in that the cooling device 14 is installed as the heating device 1 so that a proper temperature inside the hydroponic cultivation room (a) can be maintained even in the summer.

Hereinafter, a cooling and heating device for a hydroponic cultivation room of the present invention will be described in more detail with reference to the accompanying drawings.

However, in the description of the present invention, the description of the means for connecting the configuration and the configuration will be omitted because there is a reason for blurring the gist of the present invention.

In addition, the present invention shows a heating device in the accompanying drawings by the invention using the device, the blower fan and heater constituting the heating device and the air filter and the opening and closing valves of the external air inlet pipe and the cooler briefly.

1 is a partial schematic view of a hydroponic cultivation room applying the cooling and heating device proposed in the present invention.

Normally hydroponic cultivation is to arrange the shelf inside the greenhouse and then to provide a culture vessel on the shelf to grow the crops The present invention provides a cooling, heating device specialized in hydroponic cultivation room for the hydroponic cultivation There is this.

That is, the present invention constitutes a heating device (1) connecting the air suction pipe (2) and the room temperature air discharge pipe (3) which are configured on the inside of the hydroponic cultivation room (a) up and down outside the hydroponic cultivation room (a). .

The heating device 1 sequentially configures one or more blowing fans 12 and heaters 13 inward so that the blowing fan 12 sucks air in the hydroponic cultivation chamber a through the air suction pipe 2. At the same time, the heated air is re-supplied into the hydroponic cultivation chamber (a) through the lower room temperature air discharge pipe (3), wherein the air sucked into the heating device (1) by the blower fan (12) is a blower fan ( 12) It is heated to a constant temperature by the heater 13 configured in the lower portion and is supplied to the room temperature air discharge pipe (3).

In addition, the heating device 1 is controlled by the control device 4, and the control device 4 detects the internal temperature with a temperature sensor 41 disposed inside the hydroponic cultivation room a, and blows the air when the temperature is lower than the appropriate temperature. The fan 12 and the heater 13 are operated to maintain the temperature at an appropriate temperature. If the temperature is higher than the proper temperature, the blower fan 12 operates alone to rapidly circulate internal air to lower the temperature.

For reference, the summer is lowered to an appropriate temperature through the cooler (14).

In addition, the heating device 1 is provided with an external air inlet pipe 5 for introducing external air into the upper part of the blowing fan 12. The external air inlet pipe (5) is installed in the lower opening and closing valve 51 is connected to the control device (4) is opened and closed if necessary, and the outside air by the blowing fan 12 of the heating device (1) Flow into the heating device (1).

The external air inlet pipe 5 opens the on / off valve 51 in the control device 4 when the indoor ventilation is required due to dust, odor or other matters inside the hydroponic cultivation room (a). 5) allows external fresh air to flow into the heating apparatus (1). Then, the introduced fresh air is warmed by the same action above, and then flows into the hydroponic cultivation room (a) through the room temperature air discharge pipe (3) to comfort the air environment inside the hydroponic cultivation room (a).

In another aspect, the present invention by installing the air filter 11 to the upper position of the blowing fan 12 of the heating device (1) by the air flow in the hydroponic cultivation chamber (a) and the various air that can be introduced with the air when the inflow Filter dust, dirt and odors so that better air is resupplied inside the hydroponic cultivation chamber.

And the air suction pipe (2) for discharging the air inside the hydroponic cultivation room (a) to the heating device (1) is located at a predetermined length on the upper side (ceiling) of the hydroponic cultivation room (a) and then one side thereof The stage is connected to the upper part of the blowing fan 12 of the heating device 1 by the connecting pipe 22.

Air suction pipe (2) is configured in a open shape to facilitate the recruitment of ambient air.

In addition, the air suction pipe (2) may be formed to have a predetermined length in the longitudinal direction of the hydroponic cultivation chamber as needed, and then form a plurality of suction holes on the outer periphery thereof.

Therefore, the above air suction pipe (2) sucks the air inside the hydroponic cultivation room (a) and discharges it to the heating device (1), but the hydroponic cultivation room (a) by the suction force by the blowing fan 12 of the heating device (1) Inhalation of the internal air allows the air to circulate as well as the suctioned air that has fallen to the proper temperature to be heated again by the heating device (1).

And a plurality of room temperature air discharge pipe (3) is located on the lower ground line inside the hydroponic cultivation room (a) to discharge the air at room temperature in the upper direction, the distribution pipe (33) connected to the heating device (1) at one end thereof, respectively. By supplying the air of room temperature supplied from the heating device (1) heated upward through a plurality of discharge holes 31 of the outer periphery to prevent the occurrence of convection as well as the resulting hydroponic cultivation chamber (a) The whole temperature was maintained to be even.

That is, the present invention evenly supplies air at room temperature from the ground of the hydroponic cultivation room to the upper ceiling direction, thus preventing convection from occurring due to condensation by preventing air of low temperature from concentrating on the ground side. It is intended to.

In addition, the room temperature air discharge pipe (3) is installed in a hydroponic cultivation room (a) at a predetermined distance to the ground, as well as a plurality of mounting bases (32) to float to a predetermined height from the ground to install.

The installation of a plurality of the room temperature air discharge pipe (3) is for rapid temperature rise and even temperature maintenance through the supply of even room temperature air in the hydroponic cultivation room (a), and to install at a predetermined height from the ground, the winter season This is to prevent the heat loss of the room temperature air moving into the room temperature air discharge pipe (3) when the temperature of the ground is very low in contact with or close to the room air discharge pipe (3).

In addition, in the case of hydroponic cultivation, as described above, the shelf 101 is disposed inside, and then, the culture vessel 102 is provided on the shelf, and the room temperature air discharge pipe 3 is floated from the ground to raise the culture vessel. The positioning is most preferred since positioning on the lower side is more advantageous for crop cultivation.

In addition, as another embodiment of the room temperature air discharge pipe (3) as shown in Figure 6, 7, the internal air pipe (3a) and the internal pipe (3a) formed with the discharge hole 31 is formed of a double pipe inside the inner pipe Air at room temperature conveyed through (3a) was prevented as much as possible because the heat loss caused by the external temperature.

That is, the inner tube 3a and the outer tube 3b of the room temperature air discharge pipe 3 are installed at regular intervals to form an air layer therebetween. It was not affected.

The inner tube 3a and the outer tube 3b have predetermined intervals through the spacer holder 3c at both ends thereof.

In addition, by winding the heating wire 34 on the outer periphery of the inner tube (3a) or the outer (3b) of the room temperature air discharge pipe (3) to minimize the heat loss and heat loss that can be caused by low temperature of the ground more effective temperature rise effect To get it.

In addition, the present invention configures the cooler 14 on the lower line of the heater 13 of the heating device 1 to lower the air inside the hydroponic cultivation chamber (a) to an appropriate temperature in the summer so as to achieve higher quality cultivation.

The cooler usually consists of a compressor, a condenser, an expansion valve, etc., but is briefly illustrated and described in the present invention.

The cooler functions in the same manner as the heater of the heating apparatus, which is used in operation of the heating apparatus in place of the heater in summer. That is, in winter, a heater is operated in a heating apparatus to maintain the air in the hydroponic cultivation room at an appropriate temperature, and in summer, the cooler is operated to maintain the air in the hydroponic cultivation room at an appropriate temperature.

As described above, the present invention is a cooling and heating device most suitable for hydroponic cultivation, while supplying air at room temperature upward from the ground inside the hydroponic cultivation room, and discharging the internal air to the upper air suction pipe and purifying the air discharged from the heating device. Re-supply after warming up and heating, so that the temperature inside the hydroponic cultivation room can always be maintained at a temperature suitable for crop cultivation, and quickly warms the low-temperature air concentrated in the lower part by winter convection. It keeps the proper temperature and keeps the temperature evenly throughout the hydroponic cultivation room by fast heating of air.

In addition, the present invention is to create a pleasant environment inside the hydroponic cultivation room by introducing the fresh air as needed, as well as to maintain a proper environment through the cooler in the summer to achieve a higher quality crop cultivation and heat loss of warm air In order to minimize the cost of energy use, it is maximized.

Accordingly, the present invention described above is not limited to the embodiments and may be modified by those skilled in the art without departing from the scope of the claims of the present invention. It will belong to the scope of the present invention.

a: hydroponic cultivation room 101: shelf
102: culture vessel 1: heating device
11: air filter 12: blowing fan
13: heater 14: cooler
2: air suction pipe 22: connector
3: room temperature air discharge pipe 31: discharge hole
32: mounting table 33: distribution pipe
34: heating wire 3a: inner tube
3b: Appearance 3c: Spacing Area
4: control device 41: temperature sensor
5: external air inlet pipe 51: on-off valve

Claims (5)

A blowing fan 12 for introducing the air inside the hydroponic cultivation room (a), a heating device (1) for warming the introduced air, and one side end of the heating device (12) at the same time as being located above the inside of the hydroponic cultivation room (a). The air suction pipe (2), which is configured to be connected to the upper part of the blowing fan (12) and the connecting pipe (22), and is disposed on the lower ground line inside the hydroponic cultivation chamber (a) and has a plurality of discharge holes at the outer periphery. ) Is formed, one end thereof is composed of a plurality of room temperature air discharge pipe (3) connected to the heating device (1) and the heating device (1) the temperature inside the hydroponic cultivation room (a) through the control device (4) To the temperature sensing sensor 41 and then controls the blower fan 12 and the heater 13 to discharge the air inside the hydroponic cultivation room (a) to the air suction pipe (2) and room temperature air discharge pipe (3). An external air inlet pipe 5 is installed to allow inflow and to introduce external air onto the upper part of the blowing fan 12 of the heating device 1. And in the external air introduction pipe 5 hydroponic greenhouses cooling and heating device and a shut-off valve 51 is selectively opened and closed at the bottom is made so configured by the control unit 4;
The room temperature air discharge pipe 3 is composed of the inner tube 3a and the outer surface 3b in which the discharge hole 31 is formed, and is formed at a predetermined height by a plurality of mounting tables 32 on the lower surface inside the hydroponic cultivation room a. After the floating configuration, the one end is connected to the distribution pipe 33 connected to the heater 13 lower portion of the heating device (1) cooling and heating device for hydroponic cultivation room, characterized in that the configuration.
The method of claim 1, wherein
Room temperature air discharge pipe (3) Cooling, heating device for hydroponic cultivation greenhouse, characterized in that the heating wire 34 is wound around the outer or inner circumference.
The method of claim 1,
A cooling and heating device for a hydroponic cultivation and heating room, characterized by winding a heating wire 34 in a space between an inner tube 3a and an outer tube 3b of the room temperature air discharge pipe 3.
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