KR200375541Y1 - An automatic ventilating device of growing-house - Google Patents

Abstract

In order to ventilate the crop cultivator 90, the heat exchanger 110 may be built in to heat the muddy air containing carbon dioxide gas inside the crop cultivator 90 and the fresh air sucked into the crop cultivator 90, and the sensor 161. By providing the automatic ventilation device 100 of the crop grower capable of automatically ventilating quickly without human intervention by), it is possible to maintain the optimum temperature inside the crop grower 90, energy is saved, high humidity is prevented by the crab disease It is possible to prevent diseases such as, and relates to an automatic ventilation device 100 of the crop grower that can maximize the production of high-quality crops.

Description

{An automatic ventilating device of growing-house}

The present invention relates to an automatic ventilation device of a crop grower, and more particularly, by providing a heat exchanger inside the crop grower to supply suitable environmental conditions inside the crop grower to harvest crops at an optimal condition. It relates to an automatic ventilation device.

In general, crops such as mushrooms can be cultivated by optimally supplying growth conditions such as fresh air, temperature, and humidity in the crop grower.

Therefore, farmers open windows on the growers' walls to install muddy air including carbon dioxide gas in the growers, install exhaust blowers and suction blowers, install exhaust vents on the roofs, and heaters and air conditioners for proper temperature control of crop growth. Install a temperature control device such as this, and install a humidifier to adjust the humidity.

Therefore, a person must check the amount of carbon dioxide and control the exhaust blower and the suction blower to ventilate. If the proper temperature of crop cultivation changes due to the ventilation, the temperature control device is adjusted to correct the temperature.

And when the humidity is high, the exhaust fan is operated to discharge moisture-containing air to dehumidify, and when the humidity is low, the optimum growth conditions inside the crop cultivator are possible by adjusting the constant humidity with a humidifier.

However, according to the conventional technology, it is not difficult for a person to live in a crop grower, and it is difficult to meet the optimum growth conditions of a crop grower by requiring a long time experience.

Therefore, not only the ventilation of the crop growers in time, not only the amount of carbon dioxide gas in the air increases, but also a high humidity phenomenon, even if the ventilation is often not properly temperature correction inside the changed crop growers.

In addition, when the outside air is not filtered, contaminants such as dust or soot are introduced as they are, so that the crop is contaminated and exposed to various diseases.

In particular, gale disease caused by poor humidity and poor ventilation is a serious condition as a major factor in reducing productivity.

In addition, there is a problem in that maintenance costs are increased due to waste of energy when the temperature is modified due to the ventilation. For example, in the summer, the air conditioner is operated as a temperature control device inside the grower.

However, when the exhaust blower is operated to discharge the muddy air containing the carbon dioxide gas, and the suction blower is operated, external hot air is introduced to increase the temperature inside the crop cultivation company. Therefore, a lot of energy is consumed by operating the air conditioner under load.

On the contrary, in winter, the heater is operated as a temperature control device inside the grower. However, when the exhaust blower is operated to discharge the muddy air containing carbon dioxide gas, and the suction blower is operated, cold air is introduced into the outside, thereby lowering the temperature inside the crop cultivation company. Therefore, a lot of energy is consumed by increasing the load of the heater.

Therefore, in order to solve this problem, the present invention is equipped with a heat exchanger so that the discharged carbon dioxide and the sucked air can exchange heat with each other, and by detecting the amount of carbon dioxide inside the crop cultivator by the sensor to be automatically controlled, It is possible to quickly ventilate the inside of the grower without interference, thus preventing the humidity and by providing a filter that filters the air, it is possible to supply fresh air to the inside of the grower, and to maintain the temperature inside the grower through rapid heat exchange. By preventing the same disease, it is possible to maximize the production of high-quality crops, and to provide an automatic ventilation device for crop growers that can save energy.

With reference to the accompanying drawings, a configuration and an embodiment of the present invention for achieving the above object.

1 is a perspective view showing the front of the automatic ventilation device of the crop cultivator applied the technology of the present invention, Figure 2 is a perspective view showing the rear of the automatic ventilation device of the crop cultivator applied the technology of the present invention, Figure 3 4 is a perspective view illustrating a heat exchanger provided in an automatic ventilation device of a crop cultivator to which the technology is applied, FIG. 4 is a perspective view of FIG. 3 viewed from the A direction, and FIG. 5 is an automatic ventilation device of a crop cultivator to which the technology of the present invention is applied. It demonstrates together as a flat sectional drawing which shows what was attached to.

In general, crops that are cultivated by being isolated from an external environment, such as mushrooms, can be grown only within a crop grower (90, 栽培 舍). Therefore, there is a need to optimally match the growing environment of the crop cultivator (90) to the growth conditions of the crop.

According to the present invention, the ventilation of the crop grower 90 can be automatically controlled, and the internal temperature can be maintained at an optimal state of crop growth even if the ventilation is provided by the built-in heat exchanger 110, and high humidity is prevented. Thus, the optimum conditions can be provided inside the crop cultivator (90).

Therefore, it is possible to prevent diseases such as crab disease to maximize the production of high-quality crops, as well as to save energy.

To this end, the present invention includes a case 120 having a heat exchanger 110 therein, wherein the case 120 has a heat exchanger to allow heat exchange between muddy air containing carbon dioxide gas discharged and fresh air sucked in. Built-in 110, the heat exchanger 110 is formed with a plurality of heat radiation fins in the pipe is configured in a sealed state filled with the refrigerant inside the pipe.

In addition, the plate-shaped partition wall 130 is disposed between the heat exchanger 110 and the case 120 to prevent confluence of air containing carbon dioxide discharged by dividing the inside of the case 120 and fresh air sucked. To be provided.

Therefore, a discharge chamber 140 is formed at one side of the case 120 to exchange heat with turbid air containing carbon dioxide gas, which is adjacent to the discharge chamber 140 through the separation wall 130, and is sucked. A suction chamber 150 is provided in which fresh air is heat exchanged.

In addition, a discharge blower 142 is disposed outside the case 120 covering the discharge chamber 140 to discharge the carbon dioxide-containing air into the outlet 141 and the heat-exchanged carbon dioxide gas to the outside. The outside of the case 120 covering the suction chamber 150 includes an outer suction port 151 through which external fresh air is introduced and a filter 152 for filtering fresh air sucked into the outer suction port 151. And an inner suction port 153 for supplying fresh air heat-exchanged through the outer suction port 151 and the filter 152 to the crop cultivator 90, and the inner suction port 153 may suck air to produce the crop. A suction blower 154 is provided to supply the planter 90.

The suction chamber 150 is equipped with an auxiliary heater 155 for heating fresh air sucked as needed.

And the control box 160 for controlling the present invention manually and automatically is fixed to the outside of the case 120, the sensor 161 is connected to the control box 160 to detect the amount of carbon dioxide gas and the temperature of the crop grower ( 90) It is fixed inside.

Looking at the embodiment of the present invention by such a configuration, after closing both the window and the exhaust port inside the crop cultivator (90) to seal the crop cultivator (90) from the external environment, automatic ventilation of the crop cultivator applied the technology of the present invention Mount the device 100 to communicate with the outside of the crop cultivator (90).

Looking at the mounting example, the supply pipe for mounting the discharge pipe 143 for collecting the carbon dioxide gas inside the crop cultivator 90 to the discharge port 141 of the present invention, supplying fresh air to the crop cultivator 90 ( 156 is connected to the suction blower 154 mounted on the inner suction port 153 of the present invention.

Therefore, when the amount of carbon dioxide gas exceeds the inside of the crop cultivator 90, the exhaust fan 142 and the suction blower 154 are operated by the sensor 161, and the air containing the carbon dioxide is discharged from the discharge pipe 143. And through the outlet 141 is supplied to the discharge chamber 140 of the present invention, the outside fresh air is supplied to the suction chamber 150 after the pollutant is filtered through the outer suction port 151 and the filter 152. do.

After the air containing carbon dioxide gas in the discharge chamber 140 and the fresh air sucked into the suction chamber 150 are quickly exchanged with each other through the heat exchanger 110, the air containing the carbon dioxide gas is discharged through a blower ( 142 is discharged and fresh air sucked is supplied into the crop cultivator 90 through the suction blower 154.

In this process, the moisture-containing air is discharged to generate a dehumidifying effect, thereby preventing the humidity in the crop cultivation company 90.

The fresh air sucked into the crop cultivator 90 is supplied at a temperature that is not much different from the temperature of the crop cultivator 90, and the reason for this is that when the outside is colder than the crop cultivator 90, the crop is Air containing carbonic acid gas warmed to the optimum temperature in the cultivator (90) is superheated through the heat exchanger 110 in the discharge chamber 140, the fresh air sucked into the suction chamber 150 is the heat exchanger (110) This is because it absorbs heat of air containing carbon dioxide gas.

On the contrary, when the inside of the crop cultivator 90 is lower than the outside, air containing carbon dioxide adjusted to an optimum temperature inside the crop cultivator 90 is absorbed by the heat exchanger 110 in the discharge chamber 140, and suctioned. Fresh air sucked into the seal 150 is deprived of heat to the air containing the carbon dioxide gas through the heat exchanger (110).

That is, the carbon dioxide-containing air and the sucked fresh air are quickly exchanged with each other through the heat exchanger 110, so that the fresh air sucked may be supplied at a temperature that is not significantly different from that of the crop grower 90. Do.

When the temperature inside the crop cultivator 90 is lower than the optimum temperature due to a very cold winter or a failure of a temperature control device such as a heater, the auxiliary chamber of the suction chamber 150 may be assisted by a temperature sensing function embedded in the sensor 161. The heater 155 may be operated to maintain an optimum temperature in the grower 90.

Therefore, it is possible to automatically discharge cloudy air containing carbon dioxide and supply fresh air without human intervention, thereby preventing the hassle of checking the condition of the crop grower 90, and preventing rapid ventilation and high humidity. It is possible to prevent the disease, and by the rapid heat exchange can supply fresh air that is not much different from the temperature inside the crop cultivator (90) to save energy, and by supplying the outside air by filtering the filter 152 Since it can supply fresh air without pollution, there is an advantage that can maximize the production of high-quality agricultural products.

Therefore, according to the present invention, the discharge of muddy air containing carbon dioxide and supply of fresh air is automatically performed without human intervention, and the humidification is prevented due to the rapid ventilation, and even when the fresh air is supplied, Energy can be saved by maintaining the optimum temperature, and the function of filtering the air can supply fresh and clean air to the crop, maximizing high quality crop yields, and dramatically reducing energy costs through rapid heat exchange. It works.

1 is a perspective view showing the front of the automatic ventilation device of the crop cultivator applied the technology of the present invention

Figure 2 is a perspective view showing the rear of the automatic ventilation device of the crop cultivator applied the technology of the present invention

Figure 3 is a perspective view showing a heat exchanger provided in the automatic ventilation device of the crop cultivator applied the technology of the present invention

FIG. 4 is a perspective view of FIG. 3 viewed from the A direction

Figure 5 is a plan sectional view showing that the automatic ventilation device of the crop grower applied the technology of the present invention is mounted on the grower

* Description of the symbols used in the main parts of the drawings *

110: heat exchanger 120: case

130: partition wall 140: discharge chamber

141: outlet 143: exhaust blower

150: suction chamber 151: outer suction port

152: filter 153: inner suction port

154: suction blower 155: auxiliary heater

160: control box 161: sensor

Claims (2)

In constructing the automatic ventilation device 100 of the crop grower to provide an optimal environment inside the crop grower (90), A case 120 having a heat exchanger 110 therein; A heat exchanger (110) for heat-exchanging the air containing carbon dioxide gas discharged in the case 120 and fresh air sucked in; A partition wall 130 formed between the heat exchanger 110 and the case 120 so as to bisect the inside of the case 120 to prevent mixing of air containing carbon dioxide and fresh air sucked in; A discharge chamber 140 formed at one side of the dividing wall 130 to exchange heat with air containing carbon dioxide gas; A suction chamber 150 in which fresh air sucked adjacent to the discharge chamber 140 through the dividing wall 130 is heat-exchanged; The discharge chamber 140 is in communication with the inside of the crop cultivator 90 on the outside of the case 120 covering the discharge chamber 140 to discharge the turbid air containing carbon dioxide gas into the discharge chamber 140 (141) )Wow, A discharge blower (142) mounted outside the case (120) covering the discharge chamber (140) to discharge the cloudy air containing carbon dioxide gas, which is exchanged through the discharge port (141); The suction chamber 150 is formed on the outside of the case 120 to cover the suction chamber 150 to the outside suction port 151 to suck fresh air; A filter 152 mounted to the outer inlet 151 to filter fresh air; An inner suction port 153 for supplying fresh air heat-exchanged through the filter 152 to the crop cultivation company 90; A suction blower 154 mounted on the inner suction port 153 to suck air, A control box 160 fixed to the outside of the case 120 to control manually and automatically; Automatic ventilation device of the crop planter, characterized in that consisting of a sensor (161) mounted in the crop planter (90) to detect the amount of carbon dioxide gas and temperature in association with the control box (160). The method of claim 1, Auto-ventilation device of the grower, characterized in that it further comprises an auxiliary heater (155) for heating the air sucked into the suction chamber (150).