KR101829333B1 - Eco unheated the mushroom cultivation shed and Mushroom cultivation methods using the same - Google Patents

Abstract

The present invention relates to a mushroom grower, wherein a mushroom grower is cultivated in order to cultivate mushrooms sensitive to temperature and humidity. The mushroom cultivator is made in the form of a plastic house consuming hostility costs. Developed to be able to;
A mushroom grower comprising a geothermal system for controlling the internal temperature by utilizing geothermal heat, and a vinyl house constructed in a tunnel shape by a plurality of frames on the ground to allow the mushroom to be grown therein.
The greenhouse includes a sandwich panel having a ceiling for blocking direct sunlight from the ground by a distance of 2 m or more from the ground, and a bending extension portion extending downwardly along the upper edge of the greenhouse panel. And a bottom reinforcing portion formed by pouring concrete on the ground, and having a cultivation space for cultivating mushrooms therein;
The geothermal system includes a heat exchanging unit having a space formed by a panel at a depth of 60 cm or more under the ground, an air inlet pipe for allowing external air to flow into the heat exchanging unit, And a first air supply pipe connected to one end of the bellows pipe and extending to the ground and supplying air to the inside of both sides of the cultivation space by a first blower;
And a second air supply pipe installed at an upper portion of the sandwich panel and supplying air inside the cultivation space to the inside of the cultivation space by the second fan, the air being heated by radiant heat of sunlight, And a mushroom grower.

Description

[0001] The present invention relates to a mushroom cultivation method and a mushroom cultivation method using the same,

The present invention relates to a mushroom grower, and more specifically, a mushroom grower constructed to cultivate mushrooms sensitive to temperature and humidity is constructed in the form of a plastic house consuming hostility costs, so that heating and cooling costs are minimized And the mushroom cultivar that was developed in order to allow the mushroom to grow.

Among the crops cultivated in the farm, mushrooms are the most sensitive to environment such as temperature and humidity. Various mushrooms are cultivating mushrooms by inducing the most appropriate environment according to their respective characteristics, and researches are carried out continuously.

In the case of shiitake mushrooms, one of the most common mushrooms in Korea, the traditional method is to inoculate the seeds of oak trees, place them in a well-shaded area with a little extra care, and produce mushrooms in appropriate temperature and humidity conditions from spring to autumn do.

However, this method is not suitable for mass production. Usually 20 ~ 23 ℃ is suitable for cultivation, but it is difficult to meet the temperature in the open field, so that a mushroom cultivation facility, that is, a mushroom cultivation facility, .

The mushroom cultivator is a kind of plastic grower which is made in the form of plastic house and a panel grower which is constructed by assembled panel in order to make it easy to maintain the inside temperature and humidity in a form blocked from the outside.

In the case of vinyl cultivation, it is constructed with triple vinyl, and facility cost is relatively cheap, and it is possible to produce mushroom of excellent quality by easy illumination and ventilation required for cultivation, but there is a limit to insulation, so that it is difficult to cultivate in the middle of winter have.

On the other hand, in the case of panel cultivation, the facility cost is relatively high, and additional costs are incurred in maintaining the necessary illumination and ventilation, but the advantage is that mass production can be performed in four seasons rather than high quality.

However, it is necessary to continuously study mushroom growers that can produce high-quality mushrooms of each season, while minimizing the cost of cooling and heating to maintain the required temperature while basically reducing initial facility costs.

Korean Patent Registration No. 10-0367648-0000 (December 26, 2002) Korean Patent Registration No. 10-0430790-0000 (April 28, 2004) Korean Patent Registration No. 10-1354454-0000 (January 16, 2014) Korean Patent Registration No. 10-1391096-0000 (April 24, 2014)

The present invention has been developed in order to solve the above-mentioned problems, and it is an object of the present invention to reduce the cost of mushroom growers for cultivating mushrooms and to reduce the cost of cooling and heating by making environmentally friendly cooling and heating in the cultivation process, To develop a mushroom grower.

In order to achieve the above object, the present invention provides a green house having a geothermal system for controlling the temperature of the inside using geothermal heat, a tunnel house constructed by a plurality of frames on the ground, A mushroom grower comprising:

The greenhouse includes a sandwich panel having a ceiling for blocking direct sunlight and separated from the ground by at least 2 m from the ground, and a bending extension portion extending downwardly along the upper edge of the greenhouse panel. And a bottom reinforcing portion formed by pouring concrete on the ground, and having a cultivation space for cultivating mushrooms therein;

The geothermal system includes a heat exchanging unit having a space formed by a panel at a depth of 60 cm or more under the ground, an air inlet pipe for allowing external air to flow into the heat exchanging unit, And a first air supply pipe connected to one end of the bellows pipe and extending to the ground and supplying air to the inside of both sides of the cultivation space by a first blower;

And a second air supply pipe installed at an upper portion of the sandwich panel and supplying air inside the cultivation space to the inside of the cultivation space by the second fan, the air being heated by radiant heat of sunlight, .

In addition, the first air supply pipe may extend along the inner upper portion of the cultivation space and may include at least two corners, so that a plurality of first air supply holes may be spaced longitudinally to supply air in the interior direction of the cultivation space ;

The second air supply pipe extends along an inner lower portion of the cultivation space and is formed with two or more corners including two corners so that a plurality of second air supply holes are spaced apart in the longitudinal direction so as to supply air in the interior direction of the cultivation space ;

And the first fan and the second fan are respectively provided with first or second connection pipes which can be selectively connected to one of the first and second air supply pipes.

As described above, the present invention can provide cooling and heating by using radiant heat and geothermal heat while constructing inexpensive plastic greenhouses in the form of a plastic house rather than using a prefabricated panel, thereby reducing the cost of heating and cooling, And thus it is possible to produce mushrooms of excellent quality with low cost and maintenance cost.

Figure 1 is a perspective view of an embodiment of the present invention.
2 is a conceptual diagram according to an embodiment of the present invention.
FIG. 3 is a conceptual diagram illustrating operation by the heating system according to an embodiment of the present invention. FIG.
FIG. 4 is a conceptual diagram illustrating an operation by a geothermal system according to an embodiment of the present invention.
FIG. 5 is a conceptual view illustrating a state of a spring or autumn mushroom grower according to an embodiment of the present invention.
6 is a conceptual diagram according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of an embodiment of the present invention. FIG. 2 is a conceptual diagram according to an embodiment of the present invention. The geothermal system 12 for controlling the internal temperature using geothermal heat is provided. A mushroom grower (1) comprising a vinyl house (11) installed in a tunnel shape by a frame (111) and capable of cultivating mushrooms inside thereof;

The greenhouse panel (11) includes a sandwich panel (132) having a ceiling for blocking direct sunlight with a distance of 2 m or more from the ground and a bending extension part (131) bending downward along the upper edge, A heating curtain 133 made of two-ply vinyl that extends from the lower end of the extension part 131 to the ground to be opened and closed, and a bottom reinforcing part 134 formed by placing concrete on the ground, A cultivation space (13) for cultivation;

The geothermal system 12 includes a heat exchange unit 121 having a space formed by a panel at a depth of 60 cm or more under the ground, an air inlet pipe 122 through which external air flows into the heat exchange unit 121, A corrugated pipe 123 arranged in a longitudinally and deflected path in the inside of the part 121 and connected to one end of the corrugated pipe 123 and extending to the ground and being connected to the cultivation space 13 by a first fan 124, And a first air supply pipe (125) for supplying air to the inside along both inner sides of the first air supply pipe (125);

A second air supply pipe (not shown) installed in the upper part of the sandwich panel 132 for supplying the air heated by radiant heat of sunlight to the inside of the cultivation space 13 by the second fan 141, The mushroom grower according to the present invention further comprises a warming system (14) configured to contain the mushroom grower (142).

The mushroom grower 1 may be provided with a facility for forming a separate cultivation space 13 inside the greenhouse 11 so that the mushroom grower 1 can be relatively inexpensive to the conventional panel grower, ) Is provided with an additional space between the vinyl house 11 and the cultivation space 13 as compared with the case where the vinyl is installed in triplicate, so that the basic insulation effect can be increased.

At this time, in the case of the geothermal system 12, it is already used that the cooling effect in the summer and the heating effect in the winter can be obtained by using the geothermal heat which always maintains a constant temperature in various fields.

However, in winter, the heating due to geothermal heat differs depending on the geological environment and the depth of the heat exchanger 121, but if it is a means for constructing the mushroom grower, it can not be formed very deeply. Which is somewhat insufficient for shiitake mushrooms having an optimum growth temperature of 20 to 23 ° C.

FIG. 3 is a conceptual view showing operation by a heating system according to an embodiment of the present invention. FIG. 4 is a conceptual view illustrating operation by a geothermal system according to an embodiment of the present invention. And the upper air heated by the radiant heat from the sandwich panel 132 reaches the required temperature at a predetermined time interval or at a predetermined time interval in the state where the heat curtain 133 is also struck, The second fan 141 is operated to supply the heated air into the cultivation space 13 so that the temperature can be increased.

Also, the geothermal system 12 once or twice a day is heated while passing the external cold air through the corrugated pipe 123 of the heat exchange unit 121 to introduce outside air into the cultivation space 13 without abrupt temperature variation And the air supplied from the upper part to the lower part generates a positive pressure in the cultivation space 13 so that the carbon dioxide is exhausted naturally and ventilated.

In the figure, the sandwich panel 132 in summer is designed to simultaneously perform a shading function that does not affect the mushroom directly by the sunlight, so that the heat inside the greenhouse 11 affects the mushroom, that is, the cultivation space 13 It has the function of blocking.

The geothermal system 12 of the present invention is mainly used for hot hot weather, that is, in the summer season, and is designed to operate the geothermal system 12 in the summer so that the heat is used for lowering the temperature of the cultivation space 13. The air is supplied to the upper first air supply pipe 125 of the cultivation space 13 to lower the internal temperature and at the same time the air escapes through the insulation curtain 133 and the bottom reinforcement 134 So that natural ventilation is achieved.

At this time, the floor reinforcement 134 of the present invention is a structure for preventing settlement of the floor due to the influence of the construction of the geothermal system 12.

In this case, it is preferable that the present invention is such that air having a temperature higher than the internal temperature of the cultivation space 13 is supplied through the lower portion and is raised while, in the case of low air,

FIG. 5 is a conceptual view illustrating a state of a spring or autumn mushroom grower according to an embodiment of the present invention. In spring and autumn, temperature condition is a condition in which mushrooms can naturally grow, (133) is opened and maintained, and when necessary, watering, that is, water supply, can be cultivated.

6 is a conceptual view according to another embodiment of the present invention, wherein the first air supply pipe 125 extends along an inner upper portion of the cultivation space 13 and is formed by two or more corners including both corners, A plurality of first air supply holes 126 are formed so as to be spaced apart from each other in the longitudinal direction so as to supply air in an inner direction of the first air supply holes 126;

The second air supply pipe 142 extends along the lower inner side of the cultivation space 13 and is formed with two or more corners so as to supply air in the interior direction of the cultivation space 13, A hole 143 is formed so as to be spaced apart in the longitudinal direction;

The first fan 124 and the second fan 141 are respectively connected to first or second connection pipes 127 and 144 to be selectively connected to one of the first and second air supply pipes 125 and 142, The present invention has been made in view of the above problems.

In this embodiment, when the air supplied by the geothermal system 12 is lower than the internal space, the air is supplied through the first air supply pipe 125 to enable rapid cooling, and in the opposite case, the second air supply pipe 142 So that relatively hot air rises from the lower part to the upper part so that rapid circulation can be performed.

In this method, the optimal growth temperature varies depending on the mushroom. In the case of oyster mushroom, it grows at a relatively low temperature of 15 to 16 ° C.

Therefore, when the air supplied from the geothermal system 12 is higher than the temperature of the cultivation space 13, it is preferable to supply the air through the second air supply pipe 142 at the lower part. The pipes 127 and 144 can be separated and combined.

At this time, if the warming system 14 can be operated but the temperature difference from the cultivation space 13 due to the radiant heat is excessively high in the daytime, or if the external air needs to be ventilated, the operation of the warming system 14 It would be desirable to operate the geothermal system 12.

1: mushroom grower
11: Greenhouse
111: frame
12: Geothermal Systems
121: heat exchanger 122: air inlet pipe
123: corrugated pipe 124: 1st fan
125: first air supply pipe 126: first air supply hole
127: first connector
13: Cultivation space
131: Bending extension part 132: Sandwich panel
133: insulation curtain 134: bottom reinforcement part
14: Heating system
141: second fan 142: second air supply pipe
143: second air supply hole 144: second connection pipe

Claims (2)

And a greenhouse (11) provided with a geothermal system (12) for controlling the internal temperature by using geothermal heat and being constructed in the form of a tunnel by a plurality of frames (111) on the ground, 1. A mushroom grower (1) comprising:
The greenhouse panel (11) includes a sandwich panel (132) having a ceiling for blocking direct sunlight with a distance of 2 m or more from the ground and a bending extension part (131) bending downward along the upper edge, A heating curtain 133 made of two-ply vinyl that extends from the lower end of the extension part 131 to the ground to be opened and closed, and a bottom reinforcing part 134 formed by placing concrete on the ground, A cultivation space (13) for cultivation;
The geothermal system 12 includes a heat exchange unit 121 having a space formed by a panel at a depth of 60 cm or more under the ground, an air inlet pipe 122 through which external air flows into the heat exchange unit 121, A corrugated pipe 123 arranged in a longitudinally and deflected path in the inside of the part 121 and connected to one end of the corrugated pipe 123 and extending to the ground and being connected to the cultivation space 13 by a first fan 124, And a first air supply pipe (125) for supplying air to the inside along both inner sides of the first air supply pipe (125);
A second air supply pipe (not shown) installed in the upper part of the sandwich panel 132 for supplying the air heated by radiant heat of sunlight to the inside of the cultivation space 13 by the second fan 141, And a heating system (14) comprising a heating element (142)
The first air supply pipe 125 extends along the inner upper part of the cultivation space 13 and is formed with two or more corners so as to supply air in the interior direction of the cultivation space 13, A hole 126 is formed spaced apart in the longitudinal direction;
The second air supply pipe 142 extends along the lower inner side of the cultivation space 13 and is formed with two or more corners so as to supply air in the interior direction of the cultivation space 13, A hole 143 is formed so as to be spaced apart in the longitudinal direction;
The first fan 124 and the second fan 141 are respectively connected to first or second connection pipes 127 and 144 to be selectively connected to one of the first and second air supply pipes 125 and 142, Wherein the mushroom grower is a mushroom grower. delete

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