KR20100034111A - Auxiliary device for heating and cooling green house - Google Patents

Abstract

PURPOSE: An auxiliary heating and cooling device for a green house is provided to reduce manufacturing costs of the device and to increase functionality by automatically operating the auxiliary heating and cooling device. CONSTITUTION: A housing(110) includes an outlet port to discharge air to the outside and an inlet port(120) receiving air discharged from the auxiliary heating and cooling device. A heater(130) heats the sucked air and is installed on the inlet port of the housing. A demister(140) is installed on a blowhole of the housing. A water discharge part(160) is installed on the bottom of the demister to discharge water to the outside. A control part controls a blower according to a signal of a temperature sensor. The demister is formed with a wire net coated with nanosilver.

Description

Auxiliary Device For Heating And Cooling Green House}

The present invention relates to a heating and cooling assistance device for a greenhouse, and more specifically, for a greenhouse for maintaining a constant temperature inside a greenhouse using underground air maintaining a constant temperature or air heated / cooled by a conventional air conditioner. It is attached to the air conditioner, and controls the humidity in the discharged air, or together with the sterilization function to remove germs or viruses in the air relates to a greenhouse heating and cooling assistance device.

In general, in order to maintain a constant temperature in the greenhouse, air is heated or cooled by using a heating and cooling unit, thereby supplying heated or cooled air into the greenhouse.

In recent years, air conditioners have been developed to dig a cavity underground to maintain a constant temperature in the greenhouse, and to provide a constant temperature in the greenhouse by receiving underground air that maintains a constant temperature throughout the underground cavity.

Such a greenhouse air conditioner may be the one disclosed in Korean Patent No. 628466. The greenhouse air conditioner of FIG. 1 disclosed in the patent has a blower 10 having a blower fan 15 installed on an inlet side connected to an underground cavity, and a heating wire (20) on an outlet side for discharging air into the greenhouse. 21) is formed in the form that the heater 20 that can heat the air is installed. However, in the conventional air conditioners as described above, when the temperature inside the greenhouse is high, such as summer, there is a problem that the inside of the greenhouse is dried because the humidity of the underground air supplied is low. Because of reheating and supplying, there was a problem that condensation occurred in the air conditioner.

Meanwhile, as disclosed in Korean Patent No. 720757, a conventional demister may use a demister to prevent indoor flow of condensation generated on a surface of a heat exchanger. However, underground air often contains various germs and viruses due to contamination in underground cavities. However, the demister can only prevent dew condensation. I often wear.

The present invention has been made in order to solve the above-mentioned conventional problems, it is possible to dehumidify as needed, as well as humidification for the underground air supplied into the greenhouse, greenhouse heating and heating that can sterilize the air supplied into the greenhouse The main purpose is to supply auxiliary equipment. It is another object of the present invention to automatically operate the heating and cooling assistance device for a greenhouse having the above function and to simplify the structure and to be produced at low cost.

Greenhouse heating and cooling auxiliary device of the present invention,

A housing having an inlet for receiving air discharged from underground air or a heating and cooling device, and a blower for discharging air to the outside;

A heater installed at an inlet side of the housing to heat air sucked into the inlet;

A demister installed at a side of a tuyere in the housing;

A water supply unit installed at an upper side of the demister to separately supply humidity control water to the demister;

A water discharge part installed at a lower end of the demister in order to discharge condensed water or humidity control water flowing to the bottom of the demister to the outside of the housing;

It includes a control unit for controlling the heater.

Greenhouse heating and cooling assistance device of the present invention further comprises a blower in the housing, the control unit preferably controls the blower.

The demister is also preferably made of silver nano-coated wire mesh.

In addition, further comprising a temperature sensor for measuring the temperature of the air passing through the heater or the temperature of the air in the greenhouse, it is preferable that the control unit controls the operation of the heater or the blower according to the signal of the temperature sensor.

The present invention can be humidified or dehumidified with respect to the underground air supplied into the greenhouse, and also can sterilize the air supplied into the greenhouse to improve the crop of the greenhouse crops, and also for the greenhouse of the present invention Cooling and heating aids can be automatically operated to be easy to use and has the advantage that can be produced at a low cost.

Figure 2 is a perspective view cut in part to show the internal structure of the greenhouse heating and cooling assisting apparatus of this embodiment, Figure 3 is an installation of the greenhouse heating and cooling assisting apparatus of the present embodiment.

In this embodiment, the heating and cooling assistance device 100 for the greenhouse is installed inside the greenhouse 500 as shown in FIG. 3, and receives the air through the intake port 120. In this embodiment, the blower 300 and the suction port 120 which suck and blow the underground air from the underground cavity 400 are connected to each other.

The air supplied into the housing 110 of the greenhouse heating and cooling assistance device 100 through the suction port 120 passes through the heater 130 and is directed to the demister 140.

In FIG. 2, an electric wire for supplying electricity to the heater 130 is not shown.

 Demister 140 is preferably made of a wire mesh form, as shown in Figure 2, and the nano-nano coating is made on the surface of the demister 140.

On the upper side of the demister 140, there is a water supply unit 150 having a nozzle or the like for supplying water to the demister 140. When water is supplied to the demister 140 through the water supply unit 150, , Moisture is contained in the air passing through the demister 140 to increase the humidity.

In addition, a water outlet 160 for discharging condensed water formed in the demister 140 by the water or condensation from the upper side of the demister 140 is discharged to the outside of the housing 110 under the demister 140. It is provided.

The air passing through the demister 140 is blown into the greenhouse 500 through the tuyeres 170.

Hereinafter, the operating relationship of the heating and cooling assistance device for a greenhouse will be described.

First, the operating relationship in winter when the temperature in the greenhouse is lower than the underground air will be explained. Underground air is usually supplied from the underground cavity 400 excavated to a depth of several tens of meters underground to maintain the temperature of 15 ~ 17 ℃ in all seasons. Since the temperature of the underground air is lower than about 21 ° C., which is appropriate for growing crops in the greenhouse, the heater 130 is operated to raise the temperature of the air to be supplied to the greenhouse.

The operation of the heater 130 is controlled by the controller 180. The heater 130 may be operated only for a predetermined time by a controller provided with a timer, or the temperature sensor 190 may be operated in a greenhouse or a vent or heater. In addition, the controller 180 may control the on / off of the heater 130 according to the signal input from the temperature sensor 190. It is also possible to use a switch made of bimetal instead of a temperature sensor, and the temperature sensor in the present invention includes a switch made of bimetal.

According to the operation of the heater 130, condensation may occur when hot air passing through the heater 130 comes into contact with the demister 140 installed at the blower 170. The condensation water condensed on the surface of the demister 140 by such condensation flows to the lower part of the demister 140 by gravity, and the condensed water is discharged out of the housing through the water outlet 160.

The water outlet 160 is processed in the form of a concave groove in the bottom surface of the housing, and has a form having a through hole 162 penetrating the bottom surface of the housing 110. The water outlet 160 may be in any form as long as it can collect the condensed water flowing down from the demister 140 and discharge it to the outside of the housing 110.

Next, the operation relationship between the greenhouse heating and heating assistance device of the present embodiment in the summer when the temperature inside the greenhouse is higher than the temperature of the underground air of the underground cavity 400 will be described.

In summer, the heater is not required because the temperature inside the greenhouse is high and the temperature of the underground air is low. Underground air sucked into the inlet 120 is passed through the non-operating heater 130, passes through the demister 140, and is discharged to the blower 170 to be supplied into the greenhouse.

Since the low temperature underground air has a relatively low humidity, the humidity inside the greenhouse is also dried. In order to prevent this, the humidity control water is supplied through the water supply unit 150 provided at the top of the demister 140. 140). Accordingly, the air passing through the demister 140 having the wire mesh structure is humidified, and the humidity control water flowing down to the lower part of the demister 140 is discharged to the outside of the housing through the water outlet 160.

The water supply unit is connected to the water supply source, and a valve for controlling the water supply is provided between the water supply source and the water supply unit so that the water supply can be controlled. Such a valve may also be a manual valve or a controlled valve such as a solenoid valve whose operation is controlled by a control unit.

On the other hand, since the air passing through the demister 140 of the silver nano-coated wire mesh structure is sterilized due to the effect of the silver nano-coating, it is possible to prevent harm to the crop.

In the above embodiment, a separate blower has been described outside the greenhouse, but the blower driven by the electric motor may be installed inside the housing or outside of the inlet or the air outlet side of the housing so that the blower may be blown.

In addition, since the control unit 180 only needs to control the operation of the blower, the water supply unit, and the heater, the installation position may be anywhere inside or outside the greenhouse. In addition, the control unit is configured to operate automatically according to the temperature inside the greenhouse, etc. Those skilled in the art will also be able to implement without great difficulty to achieve the object of the present invention.

In the above embodiment, only the case of using underground air in the underground cavity has been described, but it will be obvious that the greenhouse heating and cooling assistance device of the present invention can be used even when using air heated or cooled by a conventional air conditioner.

1 is a view showing the structure of a conventional greenhouse heating and cooling assistance device.

Figure 2 is a partially cut perspective view to show the structure of the greenhouse heating and cooling aid of the present invention.

Figure 3 is a view showing the installation form of the heating and cooling assistance device for a greenhouse of the present invention.

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

100: greenhouse heating and cooling assistance device 110: housing 120: suction port

130: heater 140: demister 150: water supply

160: water outlet 170: blower 180: control unit

Claims (4)

A housing having an inlet for receiving air discharged from underground air or a heating and cooling device, and a blower for discharging air to the outside; A heater installed at an inlet side of the housing to heat air sucked into the inlet; A demister installed at a side of a tuyere in the housing; A water supply unit installed at an upper side of the demister to separately supply humidity control water to the demister; A water discharge part installed at the bottom of the demister to discharge condensed water or humidity control water flowing to the bottom of the demister to the outside of the housing; Greenhouse heating and heating auxiliary apparatus comprising a control unit for controlling the heater. The heating and cooling assistance apparatus for a greenhouse according to claim 1, further comprising a blower inside or outside the housing, wherein the control unit controls the blower as well. The heating and heating assistance device for a greenhouse according to claim 1, wherein the demister is made of silver nano-coated wire mesh. According to claim 1 or claim 2, further comprising a temperature sensor for operating in accordance with the temperature of the air passing through the heater or the temperature of the air in the greenhouse, wherein the control unit operates the heater or blower according to the signal of the temperature sensor Greenhouse heating and cooling auxiliary device, characterized in that for controlling.

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