KR20010037454A - Control method and apparatus of temperature and humidity for mushroom cultivation shed - Google Patents

Abstract

PURPOSE: A method of controlling temperature and/or moisture in a mushroom cultivation chamber to maintain the chamber at optimum temperature and/or moisture and control device thereof are provided, which save energy and cultivate mushroom safely and effectively. CONSTITUTION: This method comprises the steps of: supplying cooling air by detecting temperature, moisture and amount of carbon dioxide in a mushroom cultivation chamber; lowering moisture in the chamber by supplying cooling air; and supplying external air into the chamber when the supply of external air is requested. The apparatus comprises a first cooling water circulating pipe(22), a second cooling water circulating pipe(23), a temperature sensor(25) at the second cooling water circulating pipe, an air supply pipe(26), an absorbing pipe(27), a temperature controlling part(2), a humidifying pipe(31) and a blast fan(28) between the air supply pipe and the second cooling water circulating pipe.

Description

Control method and apparatus of temperature and humidity for mushroom cultivation shed}

The present invention relates to a method and apparatus for controlling temperature / humidity of mushroom growers.

In general, mushroom cultivation piles rice straw inside the cultivator, then uniformly granulated 30 cm thick on the top of the fungus and then sterilized. After that, the fermentation is carried out, the seed is inoculated, and the mushroom is promoted. At this time, the suitable temperature should be 14-20 ℃ and the humidity should be more than 95%. The rice straw is then generated and grown mushrooms, where the temperature is 14 to 20 ℃ and the humidity is 80%. Then, mushrooms are grown in a way that is harvested after 4 to 5 cycles of harvesting. The key to such mushroom cultivation is to control indoor temperature and humidity inside the grower.

On the other hand, if the temperature is lowered to cool the indoor air, the dew point temperature is reached, and if the temperature is lowered below, dew condensation, that is, condensate, is generated and dehumidification is started. Is in production and operating.

An example of this will be described with reference to FIG. 3. In a typical indoor condition, the dry bulb temperature is 80 ° C. and the relative humidity is 40%. The dew point temperature is 4.5 ° C., but the dry bulb temperature is 18 ° C. and the relative humidity is 85%. Temperature will be 15.5 degreeC.

4 illustrates an example of a temperature / humidity control apparatus of a conventional mushroom grower, which is provided with a cooler 101 at an upper side of the grower 100 and a forced suction of outside air at a rear side of the cooler 101. Blower fan 102 is provided. In addition, a duct 103 is formed in the front side of the cooler 101 to discharge the air sucked and heat-exchanged into the cultivation company 100, and several discharge holes 103A are formed in the lower side of the duct 103. . The condensate receiver 104 is formed at the lower side of the cooler 101, and the condensate receiver 104 is connected to the discharge pipe 105, and the water spray nozzle 106 is provided as a humidifying means at the front side of the cooler 101. This is installed.

In the conventional mushroom cultivator temperature / humidity control device configured as described above, the indoor air is circulated by the operation of the blower fan 102, the internal circulation air is subjected to heat exchange while passing through the cooler 101 using a low-temperature refrigerant The air is blown to the duct 103, and the blown cold air is discharged into the cultivator through the discharge hole 103A of the duct 103 to adjust the internal temperature of the cultivator 100.

In addition, when the humidity inside the cultivator 100 is lowered due to dehumidification due to cooling as described above, the water spray nozzle 106 of the cooler 101 is operated together with the operation of the cooler 101 for humidification thereof. After the water is sprayed to allow the heat-exchanged air to pass through, the humidification is performed by discharging the heat-exchanged air into the cultivator 100 through the discharge hole 103A of the duct 103.

And Figure 5 shows another example of the temperature / humidity control apparatus of a conventional mushroom grower, which is to install a separate humidifier 200 inside the grower 100, the humidifier 200 is a water supply pipe 202 The water spray fan 203 is installed on the upper side of the water storage tank 201 having a spraying water to cultivate the inside of the cultivator 100 to humidify.

However, since the conventional mushroom grower's temperature / humidity control device consists of a humidification method of spraying ground water after cooling the air with a cooler using a refrigerant having a low temperature of 0 ° C. or lower, humidification due to the ground water temperature lower than the indoor dew point temperature. Not only does it achieve no effect, but by injecting groundwater into the saturated air as described above, it is impossible to evaporate moisture into the air. There was a problem that aggravated the damage.

In addition, there is a problem that loss of cooling energy due to unnecessary dehumidification when cooling, causing energy loss and waste of water to humidify again in order to increase the lower indoor humidity.

Therefore, an object of the present invention is to be able to effectively maintain the proper temperature and humidity in the desired state inside the grower. Another object of the present invention is to enable a more convenient and efficient control of the appropriate temperature and humidity in the grower with the energy saving effect.

In order to achieve the object of the present invention to detect the temperature and humidity of the inside of the grower, the amount of carbon dioxide to cool the air supply step when the temperature rise inside the grower; A humidity reduction step of lowering humidity of indoor air by supplying cooling humidity air when the humidity rises inside the grower; Humidification step of increasing the humidity of the indoor air by adjusting and supplying the temperature of the humidifying water when the humidity of the grower; When the outside air supply is required, there is provided a temperature / humidity control method of a mushroom cultivator, characterized by consisting of an outdoor air supply step of supplying the indoor air by controlling the outdoor air at an appropriate temperature and humidity.

In addition, a primary cold water circulation pipe and a secondary cold water circulation pipe having a cooler on both sides of the bypass cold water circulation pipe are formed therebetween, and the primary cold water circulation pipe, secondary cold water circulation pipe, and bypass cold water circulation pipe are contacted. The three-way valve is formed in the secondary side, the secondary side cold water circulation pipe is formed with a temperature detection sensor, one side thereof is connected to the secondary side cold water circulation pipe is formed in the air supply pipe and the suction pipe which is located inside the cultivator, A temperature control unit having a blowing fan installed between the secondary cold water circulation pipe; A humidifying tube communicating with the inside of the cultivator is formed at one side, and a ventilation tube communicating with the suction tube is formed at the other side, and an outside air supply unit having a blowing fan installed therein; A water tank having a water supply pipe and a drain pipe is installed at a lower side of the blower fan, and a water spray nozzle connected to the water reservoir is formed at an inlet side of the blower fan, and the humidifier is configured to install a heater in the water tank. A mushroom grower's temperature / humidity controller is provided.

1 is a flow chart showing a temperature / humidity control method of mushroom growers according to the present invention.

Figure 2 is a block diagram of a temperature / humidity control apparatus of mushroom growers according to the present invention.

3 is a diagram of a typical humid air.

Figure 4 is a schematic view showing an example of a temperature / humidity control device of a conventional mushroom grower.

Figure 5 is a configuration diagram showing another example of the temperature / humidity control apparatus of a conventional mushroom grower.

* Explanation of symbols for the main parts of the drawings

1: grower

2: thermostat

21: Bypass cold water circulation pipe 22,23: 1, secondary cold water circulation pipe

24: 3-way valve 25: Temperature detection sensor

26: supply pipe 27: suction pipe

28,33: blowing fan

3: outside air supply

31: humidifier 32: return pipe

4: humidifier

41: water supply pipe 42: drain pipe

43: reservoir 44: water spray nozzle

45: heater

Hereinafter, the configuration of the method and apparatus of the present invention will be described in detail with reference to the accompanying drawings.

1 is a flow chart showing a temperature / humidity control method of the mushroom cultivator according to the present invention, as shown in the present invention, first, the temperature and humidity inside the cultivator 1 is set by detecting the amount of carbon dioxide (CO ₂ ) When the temperature inside the cultivator (1) is higher than the set temperature, the cooling air is supplied to the cultivator (1), but the cooling water is adjusted to prevent the humidity of the cooling air. At the same time, the internal temperature is adjusted to the set temperature.

When the humidity inside the grower is higher than the set humidity, the cooling and humidifying air is supplied to the inside of the grower to reduce the humidity. When the humidity inside the grower is lower than the set humidity, the air supplied to the inside of the grower is heated and sprayed. Humidification is achieved by supplying heat to the grower by contacting and exchanging water.

Along with this, the amount of carbon dioxide inside the grower is controlled by controlling the amount of outside air supplied to the grower, by controlling the temperature and humidity.

Figure 2 shows the configuration of the device of the present invention, as shown in the present invention is a temperature control unit (2) and the cultivator (1) to adjust the temperature inside the cultivator (1) to a predetermined appropriate temperature It consists of an external air supply unit (3) for supplying the outside air adjusted to the appropriate temperature and humidity and a humidifier (4) for humidifying the inside of the grower (1).

The temperature control unit 2 has a primary cold water circulation pipe 22 and a secondary cold water circulation pipe 23 having a cooler 22A so as to communicate with each other on both sides of the bypass cold water circulation pipe 21 at an intermediate portion thereof. ) Is formed to form a cycle, and a three-way valve 24 is formed at one branch point where the primary cold water circulation pipe 22 and the secondary cold water circulation pipe 23 and the bypass cold water circulation pipe 21 meet each other. In the secondary cold water circulation pipe 23, a temperature detection sensor 25 is formed.

In addition, on one side thereof, the air supply pipe 26 and the suction pipe 27 are formed in the upper and lower sides of the cultivator 1 through the secondary cold water circulation pipe 23, and the air supply pipe 26 and the second side are formed. A blowing fan 28 for forcibly circulating air is installed between the vehicle side cold water circulation pipe 23.

And the lower side of the temperature control unit (2) is formed with an external air supply unit (3) for supplying the outside air into the cultivator (1), which is formed on one side of the humidification tube (31) communicating with the cultivator (1) and the other The side is formed with a ventilation pipe 32 in communication with the suction pipe 27 of the temperature control unit 2, the inside is provided with a blowing fan 33 for forcibly blowing air.

In addition, a humidification part 4 is formed at a lower side of the external air supply part 3, which is a water tank having a water supply pipe 41 and a drain pipe 42 at a lower side of the blowing fan 28 of the external air supply part 3. 43 is installed, the water injection nozzle 44 connected to the reservoir 43 is formed on the inlet side of the blower fan 28, and to increase the temperature of the water sprayed through the water spray nozzle 44 ( 43) The heater 45 is installed inside. Reference numeral 29 is a valve here.

The following describes the operation of the present invention configured as described above.

First, the temperature and humidity of the inside of the cultivator 1, the amount of carbon dioxide is detected and compared with the set temperature and humidity and the amount of carbon dioxide, when the temperature inside the cultivator (1) the set temperature is high, the temperature control unit While operating the blower fan 28 of (2) and operating the three-way valve 24, the hot air in the cultivator (1) flowing through the bypass cold water circulation pipe 21 is the secondary cold water circulation pipe ( 23) Do not flow to the side.

Accordingly, the air inside the cultivator 1 is forcedly circulated along the primary side cold water circulation pipe 22 and the secondary side cold water circulation pipe 23 of the temperature control unit 2 through the suction pipe 27, and the circulation air is It cools while passing through the cooler 22A of the primary cold water circulation pipe 22 and is supplied into the culture company 1 through the secondary cold water circulation pipe 23 and the air supply pipe 26 to set the internal temperature of the culture company 1. The temperature can be adjusted.

At this time, when the temperature of the secondary cold water circulation pipe 23 reaches the cold water temperature set value, that is, the indoor dew point temperature or less, the three-way valve 24 is operated again to allow the plant to be introduced through the bypass cold water circulation pipe 24 ( 1) The internal high temperature air flows into the secondary cold water circulation pipe 23 to prevent condensation from occurring at the same time as cooling.

When the humidity inside the grower 1 is higher than the set humidity, the grower passes through the cooler 22A of the primary cold water circulation pipe 22 so that the temperature of the inside of the grower 1 is lowered below the dew point temperature. (1) is made by supplying cooling humidified air to the inside, and when the humidity inside the cultivator 1 becomes lower than the set humidity, through the water spray nozzle 44 located on the blowing fan 28 side of the outside air supply unit 3. The hot water heated by the heater 45 in the reservoir 43 is injected, and humidification is performed by allowing the outside air to pass through the hot water so that hot air is supplied into the grower 1.

As described above, the present invention adopts a method of supplying the cooling air supply temperature higher than the air dew point temperature during the summer cooling of the grower, while cooling the inside of the grower while not being dehumidified, and not causing fatal condensation and condensation on the mushroom. Will have an effect.

In addition, there is an effect that can prevent the loss of energy to humidify again to increase the loss of cooling energy and lowered indoor humidity due to unnecessary dehumidification when cooling as in the conventional.

In addition to the need for a separate humidification operation as described above, it is possible to effectively maintain the temperature and humidity inside the cultivator always in a desired state, thereby increasing the simplicity and efficiency of the work as well as saving energy required for cooling and humidification. There is an advantage to bring. In addition, as described above, by maintaining the temperature and humidity inside the cultivator at an appropriate level, it is possible to perform more successful mushroom cultivation.

Claims (2)

A cold air supply step of detecting temperature and humidity inside the grower and an amount of carbon dioxide and supplying cooling air when the temperature rises in the grower; A humidity reduction step of lowering humidity of indoor air by supplying cooling humidity air when the humidity rises inside the grower; Humidification step of increasing the humidity of the indoor air by adjusting and supplying the temperature of the humidifying water when the humidity of the grower; Temperature / humidity control method of the mushroom cultivator, characterized in that it consists of an outdoor air supply step of supplying the indoor air by controlling the outdoor air at an appropriate temperature and humidity when the air supply is required. A primary cold water circulation pipe 22 and a secondary cold water circulation pipe 23 having a cooler 22A on both sides of the bypass cold water circulation pipe 21 are formed therebetween, and the primary cold water circulation pipe 22 is formed. ) And the secondary cold water circulation pipe 23 and the bypass cold water circulation pipe 21 are three-way valve 24 is formed at the branch point, the secondary cold water circulation pipe 23 is formed with a temperature detection sensor (25) On one side thereof, a supply pipe 26 and a suction pipe 27 are formed to be connected to the secondary cold water circulation pipe 23 in the cultivator 1, and the air supply pipe 26 and the secondary cold water circulation pipe ( Between the 23 and the temperature control unit 2, the blowing fan 28 is installed; A humidifier tube 31 communicating with the inside of the cultivator 1 is formed at one side, and a ventilation tube 32 communicating with the suction tube 27 is formed at the other side, and an outside air supply unit 3 having a blower fan 28 installed therein. ; A water reservoir 43 having a water supply pipe 41 and a drain pipe 42 is installed at a lower side of the blower fan 28, and a water spray nozzle 44 connected to the water reservoir 43 is provided at an inlet side of the blower fan 28. ) Is formed, the temperature / humidity control device of the mushroom cultivator, characterized in that consisting of a humidifier (4) characterized in that by installing the heater 45 inside the reservoir (43).