KR100751864B1 - Ventilation system of mushroom growing house - Google Patents

Abstract

The present invention relates to a ventilation system of a mushroom cultivator having a cultivation phase and a carbon dioxide sensor and a blowing fan therein, the vinyl house having an outer vinyl sheet and an inner vinyl sheet provided with a predetermined space inside the outer vinyl sheet; ; A first-class engine connecting the vinyl house and the mushroom cultivator to introduce indoor air of the vinyl house into the mushroom cultivator; A sterilizer for supplying waste steam which is discarded during sterilization to a space between the outer vinyl sheet and the inner vinyl sheet through a second class pipe to block heat exchange between the outside air and the inner air of the vinyl house; On the basis of the signal received from the carbon dioxide sensor characterized in that it comprises a control panel for ventilating the indoor air of the mushroom cultivator by operating the blowing fan when the amount of internal carbon dioxide of the mushroom cultivator exceeds an appropriate range.

Accordingly, by minimizing the rapid temperature change during the ventilation of the mushroom cultivator can reduce the growth of the mushroom or prevent the disease, it is possible to reduce the cooling / heating costs for maintaining the optimum temperature.

Mushroom Farm, Ventilation System, Waste Steam, Vinyl House

Description

Ventilation system of mushroom growers {VENTILATION SYSTEM OF MUSHROOM GROWING HOUSE}

1 is a schematic diagram showing a ventilation system of mushroom cultivators according to a first embodiment of the present invention,

Figure 2 is a schematic diagram showing a ventilation system of mushroom cultivators according to a second embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

10: mushroom grower 11: cultivation bacteria

12: carbon dioxide sensor 15: blowing fan

20: vinyl house 21: exterior vinyl sheet

22: inner vinyl sheet 23: space

30: sterilizer 31: first class engine

32: Class 2 engine 40: Control panel

The present invention relates to a ventilation system of mushroom cultivators, and more particularly, to a mushroom cultivation system of the mushroom cultivator that can minimize power and oil consumption for heating or cooling by preventing rapid temperature change during the ventilation of the mushroom cultivator. will be.

In general, mushroom growers for growing oysters, mushrooms, etc. are installed on the left and right sides of the mushroom cultivation phases such as caucchins at about 3 to 5 steps high, and the mushroom medium material containing rice straw, sawdust, rice husk, etc. as a host on the cultivation phases. Figurine. At this time, the mushroom medium is subjected to sterilization through a sterilizer. Through this process, microorganisms in the medium are sterilized, and the medium is softened so that the mushroom bacteria can easily absorb nutrients.

After that, when the mushrooms are mature, the mushrooms are cultivated through cultivation management operations such as watering, humidification, light irradiation, and ventilation, and then harvested.

Mushrooms absorb oxygen and spit out carbon dioxide when they grow, so they require adequate oxygen to ventilate the mushroom cultivator so that growth is not inhibited.

As a method of ventilating mushroom growers, a ventilation fan is installed in an exhaust vent formed in a window or a roof of a mushroom grower so that ventilation is performed. This causes a rapid change in the environment inside the mushroom grower because the outside air flows directly into the mushroom grower. There is a high risk of growth and disease.

In particular, when the cold outside air below zero in winter enters the mushroom cultivator, the temperature inside the mushroom cultivator is drastically lowered, and thus heating costs are required to be heated to maintain the mushroom cultivator's internal temperature appropriately. In addition, in summer, when the hot outside air is introduced into the mushroom cultivator, the temperature inside the mushroom cultivator rises sharply, and thus there is a problem in that a cooling cost is consumed to cool the mushroom cultivator internal temperature.

Accordingly, an object of the present invention, to prevent the rapid temperature change during the ventilation of the mushroom cultivator to solve the problems of growth and disease occurrence, to provide a ventilation system of the mushroom cultivator that can minimize the cooling / heating costs for maintaining the optimum temperature It is.

The above object, according to the present invention, in the ventilation system of the mushroom cultivation plant, the carbon dioxide sensor and the blower fan is installed therein, the outer vinyl sheet and the inner vinyl sheet provided with a predetermined space inside the outer vinyl sheet. A vinyl house having; A first-class engine connecting the vinyl house and the mushroom cultivator to introduce indoor air of the vinyl house into the mushroom cultivator; A sterilizer for supplying waste steam which is discarded during sterilization to a space between the outer vinyl sheet and the inner vinyl sheet through a second class pipe to block heat exchange between the outside air and the inner air of the vinyl house; On the basis of the signal received from the carbon dioxide sensor is achieved by the control panel for ventilating the indoor air of the mushroom cultivator by operating the blowing fan when the amount of internal carbon dioxide of the mushroom cultivator exceeds an appropriate range.

According to another field of the present invention, in the ventilation system of the mushroom cultivator, the cultivation fungus and the carbon dioxide sensor and the blowing fan are installed therein, the outer vinyl sheet and a predetermined space inside the outer vinyl sheet are installed. A vinyl house having an inner vinyl sheet; A first-class engine connecting the vinyl house and the mushroom cultivator to introduce indoor air of the vinyl house into the mushroom cultivator; A sprinkler installed between the outer vinyl sheet and the inner vinyl sheet to supply cold water to the space to cool the indoor air of the vinyl house; On the basis of the signal received from the carbon dioxide sensor is achieved by the control panel for ventilating the indoor air of the mushroom cultivator by operating the blowing fan when the amount of internal carbon dioxide of the mushroom cultivator exceeds an appropriate range.

Here, it is preferable to further include a light blocking member installed outside the vinyl house to block sunlight.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Prior to the description, in various embodiments, components having the same configuration will be representatively described in the first embodiment using the same reference numerals, and in other embodiments, only the configuration different from the first embodiment will be described. do.

1 is a schematic diagram showing a ventilation system of mushroom cultivators according to a first embodiment of the present invention. As shown in FIG. 1, the mushroom grower 10 to which the ventilation system according to the present invention is applied includes a cultivation bacterium 11, a carbon dioxide sensor 12 for sensing the amount of carbon dioxide therein, and a room temperature and a room. A temperature sensor 13 and a humidity sensor 14 for sensing humidity, and a blowing fan 15 for forcibly blowing outside air are installed, and each sensor 12, 13, 14 outside the mushroom cultivator 10. In accordance with the signal of the control panel 40 for controlling the various components such as the blower fan 15 is provided.

The cultivation bacteria phase 11 is usually provided on both left and right sides, and a mushroom medium material having crests, sawdust, chaff, etc. as a host is granulated thereon.

The carbon dioxide sensor 12 measures the amount of carbon dioxide inside the mushroom cultivator 10 and transmits a signal to the controller of the control panel 40. When the detected amount of carbon dioxide exceeds the appropriate range for cultivating the mushroom, the controller blows a fan ( 15) on the principle of working.

The temperature sensor 13 and the humidity sensor 14 detect the temperature and humidity inside the mushroom cultivator 10 intermittently or from time to time and transmit a signal to the controller of the control panel 40. Thus, the controller of the control panel 40 operates the other device for controlling the temperature and humidity inside the mushroom cultivator 10 (such as an air conditioner or a humidifier) so that the mushroom cultivator 10 is in an optimal state.

Adjacent to the mushroom cultivator (10) is connected to the mushroom house (10) and the first-class engine 31, the vinyl house 20, and the vinyl house 20 and the second-class engine (32) waste steam ( A sterilizer 30 is provided for supplying the vinyl house 20 with a dashed arrow.

The vinyl house 20 is made of a double, it is composed of an outer vinyl sheet 21 in contact with the outside air and an inner vinyl sheet 22 provided with a predetermined space 23 inside the outer vinyl sheet 21. . Here, it is preferable that the outer vinyl sheet 21 and the inner vinyl sheet 22 are firmly connected to the support to secure a space 23 between each vinyl sheet. One side of the plastic house 20 is connected to the first grade engine 31 for supplying the indoor air (shown by the solid arrow) of the vinyl house 20 to the mushroom cultivator 10, the other side sterilizer (30) The secondary steam pipe 32 for transferring the waste steam discharged from the s) to the vinyl house 20 is connected.

The first-class engine 31 is installed so that one end is in communication with the interior space of the plastic house 20 and the other end is connected to the interior of the mushroom cultivation company (10). Thus, the indoor air of the vinyl house 20 is introduced into the mushroom cultivation company 10 through the first-class engine 31, at this time the vinyl by the blowing fan 15 driven by the controller of the control panel 40 Indoor air of the house 20 may be forcedly blown into the mushroom cultivator (10).

The second class pipe 32 is installed such that one end is in communication with the interior of the sterilizer 30 and the other end is in communication with the space 23 of the vinyl house 20. Accordingly, the waste steam discharged from the sterilizer 30 is supplied between the outer vinyl sheet 21 and the inner vinyl sheet 22 through the second class pipe 32 to block the cold outside air in winter.

The sterilizer 30 sterilizes microorganisms in the mushroom medium and softens the medium so that the mushrooms can easily absorb nutrients. The sterilizer 30 is configured to achieve a purpose of sterilization by injecting a new steam part of the steam at all times so as to maintain a constant pressure inside. At this time, the steam discharged from the sterilizer 30 is generally discharged in the air is consumed, in the present invention by supplying the waste steam of the sterilizer 30 to the double vinyl house 20 to the outside and the inside of the vinyl house 20 By blocking the room temperature of the vinyl house 20 in particular in winter is prevented from falling sharply.

As described above, the feature according to the first embodiment of the present invention is that the air for ventilating the mushroom cultivation 10 is primarily insulated from the outside air through the vinyl house 20 (solar heat to the vinyl house 20) The indoor air of the vinyl house 20 is warmed by being incident), and secondly, the temperature of the vinyl house 20 is prevented from dropping rapidly by the waste steam of the sterilizer 30. Accordingly, by ventilating the mushroom cultivator 10 to the indoor air of the vinyl house 20 that is insulated using solar heat and waste steam, it is possible to prevent the temperature of the mushroom cultivator 10 from being changed suddenly. Therefore, when the amount of carbon dioxide in the mushroom cultivation company 10 detected by the carbon dioxide sensor 12 exceeds an appropriate range, the controller of the control panel 40 operates the blower fan 15 to insulate vinyl by solar heat and waste steam. The indoor air of the house 20 can be introduced into the mushroom cultivation company 10 to ventilate. Therefore, compared to the conventional inleting the cold air outside the mushroom cultivator by directly entering the mushroom cultivator, the problem of mushroom growth and disease occurrence by ventilating the mushroom cultivator (10) with air at a temperature as close as possible to the temperature of the mushroom cultivator (10) Solve the problem and reduce the heating cost.

Blocking the outside air to double the mushroom cultivator (10) as described above will be more effective in the winter night when the solar heat is not incident, indoor air of the vinyl house (20) insulated with only solar heat during the winter day mushrooms If it is close to the optimum temperature of the cultivator (10) it will not have to be cut off twice with the waste steam of the sterilizer (30).

On the other hand, in the summer outside the hot air due to solar heat will be applied to the ventilation system of the mushroom cultivator 10 as shown in FIG. That is, according to the ventilation system according to the second embodiment of the present invention, by installing the sprinkler 55 between the outer vinyl sheet 21 and the inner vinyl sheet 22, the rise of the vinyl house 20 by the solar heat Cool the room air. Accordingly, when the amount of carbon dioxide in the mushroom cultivation company 10 detected by the carbon dioxide sensor 12 exceeds an appropriate range, the controller of the control panel 40 operates the blower fan 15 to be cooled by the sprinkler 55. The indoor air of the vinyl house 20 can be introduced into the mushroom cultivation company 10 to ventilate. Therefore, compared to the conventional hot air to be introduced directly into the mushroom cultivator to ventilate the mushroom cultivator, the problem of mushroom growth and disease occurrence by ventilating the mushroom cultivator (10) with air at a temperature as close as possible to the temperature of the mushroom cultivator 10 Can solve the problem and reduce the cooling cost.

Here, it is preferable to install a light blocking member 50 outside the vinyl house 20 to block sunlight incident on the vinyl house 20. Accordingly, the air of the vinyl house 20 introduced into the mushroom cultivation company 10 in the summertime when the incident amount of sunlight is large can be maintained more optimally.

The present invention is not limited to the above embodiments, and various modifications can be made without departing from the spirit and scope of the present invention. It will be apparent to those skilled in the art that such modifications belong to the claims of the present invention. .

As described above, according to the present invention, by minimizing the rapid temperature change during the ventilation of the mushroom cultivator to prevent the growth of mushrooms or prevent diseases, ventilation system of the mushroom cultivator can reduce the cooling / heating costs for maintaining the optimum temperature To provide.

Claims (3)

In the ventilation system of the mushroom cultivation company installed inside the cultivation phase, carbon dioxide sensor and blowing fan, A vinyl house having an outer vinyl sheet and an inner vinyl sheet provided with a predetermined space inside the outer vinyl sheet; A first-class engine connecting the vinyl house and the mushroom cultivator to introduce indoor air of the vinyl house into the mushroom cultivator; A sterilizer for supplying waste steam which is discarded during sterilization to a space between the outer vinyl sheet and the inner vinyl sheet through a second class pipe to block heat exchange between the outside air and the inner air of the vinyl house; On the basis of the signal received from the carbon dioxide sensor, if the amount of internal carbon dioxide of the mushroom cultivator exceeds an appropriate range, the mushroom cultivator comprising a control panel for operating the blowing fan to ventilate the indoor air of the mushroom cultivator Ventilation system. In the ventilation system of the mushroom cultivation company installed inside the cultivation phase, carbon dioxide sensor and blowing fan, A vinyl house having an outer vinyl sheet and an inner vinyl sheet provided with a predetermined space inside the outer vinyl sheet; A first-class engine connecting the vinyl house and the mushroom cultivator to introduce indoor air of the vinyl house into the mushroom cultivator; A sprinkler installed between the outer vinyl sheet and the inner vinyl sheet to supply cold water to the space to cool the indoor air of the vinyl house; On the basis of the signal received from the carbon dioxide sensor, if the amount of internal carbon dioxide of the mushroom cultivator exceeds an appropriate range, the mushroom cultivator comprising a control panel for operating the blowing fan to ventilate the indoor air of the mushroom cultivator Ventilation system. The method of claim 2, Ventilation system of the mushroom grower, characterized in that it further comprises a light shielding member installed outside the plastic house to block the sun.

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