KR102006280B1 - Mushroom cultivation apparatus - Google Patents

Abstract

The present invention relates to a mushroom cultivation apparatus comprising: a main body having a cultivation space therein; a constant temperature and humidity unit for controlling a temperature and humidity of the cultivation space inside the main body; a plurality of cultivation frames installed in the cultivation space of the main body and holding mushroom cultivation containers; a horizontal moving unit connected to and installed in each of the cultivation frames to independently move each cultivation frame in a horizontal direction; and a power supply unit for supplying power to the constant temperature and humidity unit and the horizontal moving unit. According to the present invention, productivity of mushroom can be improved by automatically controlling the temperature and humidity of an internal space of the mushroom cultivation apparatus by the constant temperature and humidity unit, and a cultivation space can be efficiently used by independently moving each cultivation frame in a horizontal direction. Also, convenience of installation can be improved by easily changing an installation place by manufacturing the mushroom cultivation apparatus in a module form which can be easily moved.

Description

Mushroom Cultivator {MUSHROOM CULTIVATION APPARATUS}

The present invention relates to a mushroom cultivation apparatus, and more particularly, it is possible to improve the productivity of the mushroom by automatically adjusting the temperature and humidity of the interior space of the mushroom cultivation device by a constant temperature and humidity unit, each horizontal frame is independently The present invention relates to a mushroom cultivation apparatus that can be used to make the cultivation space more efficient by making it movable, and by making the mushroom cultivation device in a modular form that can be easily moved to change the installation location.

In general, mushrooms are alkaline foods rich in protein, fat, crude fiber, potassium, phosphoric acid, vitamins B and D, and enzymes. Mushrooms have a unique flavor and aroma because they contain a lot of amino acids, mannitol and trehalose. Representative types of mushrooms include thirsty, matsutake, shiitake, zelkova, thigh, matsutake mushrooms, oriole mushrooms, sesame mushrooms, flavor mushrooms and milk mushrooms.

These mushrooms are collected directly from nature, but most of them are artificially cultivated and supplied. Korea and Japan cultivate shiitake mushrooms, China and Southeast Asia cultivate grass mushrooms, and Europe and the United States Korean cultivars are grown mainly.

In order to cultivate such mushrooms, a variety of conditions must be satisfied in order to cultivate high-quality mushrooms. The method of cultivating mushrooms in farmhouses is mostly dependent on the plastic house, so it is impossible to grow mushrooms due to high temperature in the summer. Cases in which all of them die are being continued, and in winter, the growth of mushrooms and the inhibition of mushroom growth are significantly reduced by sub-zero temperatures. In addition, the humidity control is difficult, there is a problem that the growth and development is inhibited by the influence of carbon dioxide (CO2) due to insufficient ventilation device.

Korean Patent Registration Publication No. 1553100

The present invention is to solve the above problems, an object of the present invention is to improve the productivity of the mushroom by automatically adjusting the temperature and humidity of the mushroom cultivation device internal space by the constant temperature and humidity unit, each cultivation frame Can be moved horizontally independently to make efficient use of the growing space, and by making the mushroom cultivation device in a modular form that can be moved easily, the installation location can be easily changed to provide a mushroom cultivation device that can improve installation convenience. It is.

According to the present invention, the object is formed in the cultivation space therein; Constant temperature and humidity unit for adjusting the temperature and humidity of the inside of the cultivation space; A plurality of cultivation frames installed in the cultivation space of the main body to mount the mushroom cultivation container; A horizontal moving unit connected to each of the cultivation frames and horizontally moving the cultivation frames independently; And a power supply unit supplying power to the constant temperature and humidity unit and the horizontal mobile unit.

Here, the constant temperature and humidity unit, the air intake unit for sucking the air in the inner cultivation space; A temperature and humidity control unit installed to be connected to the air intake unit to control temperature and humidity of air sucked from the air intake unit; An air supply unit installed to be connected to the temperature and humidity control unit and supplying air whose temperature and humidity are controlled by the temperature and humidity control unit to an internal cultivation space of the main body; And a blowing fan installed on the air supply unit.

In addition, the temperature and humidity control unit, the air inlet path is connected to the air intake portion is the air sucked from the air intake portion; An air heating furnace connected to the air inlet passage to introduce a portion of the air introduced into the air inlet passage; A heating member which is formed inside the air heating furnace and heats the introduced air; An air cooling furnace connected to the air inlet passage to which air other than air introduced into the air heating furnace of the air introduced into the air inlet passage is introduced; A cooling member formed in the air cooling path to cool the air introduced thereto; It is formed so as to be connected to the air heating furnace and the air cooling furnace to mix the heating air flowing through the air heating furnace and the cooling air flowing through the air cooling furnace to each other, the mixed air flows into the air supply side Letting air mixing furnace; And a moisture supply member formed to be connected to the air mixing furnace to supply water to the air mixing furnace.

In addition, the heating air inlet amount adjusting member which is installed on the air heating furnace for adjusting the inflow of the heating air flowing into the air mixing furnace side; A cooling air inflow amount adjusting member installed on the air cooling path to adjust an inflow amount of cooling air flowing into the air mixing path; A water amount adjusting member installed at a connection portion of the water supply member and the air mixing furnace to adjust an amount of water supplied to the air mixing furnace; An air amount adjusting member installed on the air mixing furnace to adjust an amount of air introduced into the air supply unit; A temperature sensor installed in the internal cultivation space of the main body to measure a temperature of the internal cultivation space of the main body; A humidity sensor installed in the internal cultivation space of the main body to measure humidity of the internal cultivation space of the main body; And adjusting the heating air inflow rate adjusting member, the cooling air inflow amount adjusting member, the moisture amount adjusting member, and the air amount adjusting member so as to maintain a constant temperature and humidity of the cultivation space inside the main body according to the measurement result of the temperature sensor and the humidity sensor. The control unit may further include a control.

In this case, the air heating furnace is formed such that one side connected to the air inlet passage and the other side connected to the air mixing passage have a smaller cross-sectional area than an area in which the heating member is formed, and the air cooling furnace has the air inlet One side connected to the furnace and the other side connected to the air mixing furnace may be formed to have a smaller cross-sectional area than the region where the cooling member is formed.

On the other hand, the air supply unit is formed so as to be connected to the temperature and humidity control unit, the blower is installed on one side is connected to the air flow temperature and humidity controlled by the operation of the blower fan; A branching passage formed to be connected to the connection passage and branching air introduced into the connection passage into a plurality; And a supply path connected to each one side of the branched passages, the supply passages configured to extend toward the cultivation frame and supplying air having controlled temperature and humidity to the cultivation frame.

In addition, each of the cultivation frame, the mushroom cultivation container may be formed in a stacked form of a plurality of unit cultivation frame formed therein.

On the other hand, the horizontal moving unit, the rail formed on the inner lower surface of the main body; A plurality of moving wheels formed below the cultivation frame and moving along the rails; And one side is fixedly installed on the inner lower surface of the main body, the other side of the reciprocating movement in the horizontal direction is fixed to the lower portion of the cultivation frame; may include.

Here, the moving means, the cylinder body fixedly installed on the inner lower surface of the main body; And a cylinder rod fixed to the lower portion of the cultivation frame.

In addition, the moving means, the drive motor is fixed to the inner lower surface of the main body; A shift gear installed on a drive shaft of the drive motor; A moving shaft having one side fixed to the lower portion of the cultivation frame, the gear shaft corresponding to the moving gear being formed along an outer circumference thereof, and engaged with the moving gear; And a guide frame coupled to the driving motor to insert the moving shaft.

In addition, the power supply unit, the solar panel is installed on the upper portion of the main body; An inverter for converting direct current generated from the solar panel into alternating current; And a storage battery for storing the current converted from the inverter and transmitting the current stored in the constant temperature and humidity unit and the horizontal moving unit.

Thereby, this invention has the following effects.

First, by automatically adjusting the temperature and humidity of the mushroom growing device internal space, there is an effect that can improve the mushroom productivity.

Secondly, by allowing the cultivation frame installed in the mushroom cultivation device internal space to be moved horizontally, there is an effect to efficiently use the mushroom cultivation device internal space.

Third, by making the mushroom cultivation device in a modular form that is easy to move, the installation location of the mushroom cultivation device can be easily changed, thereby improving the convenience of installation of the mushroom cultivation device.

Fourth, by utilizing the horizontal movement of the cultivation frame and automatic control of temperature and humidity in the inner space of the mushroom ash to operate a uniform and constant airflow stably, there is an effect of improving the growth and growth of mushrooms.

1 is a plan view of a mushroom cultivation apparatus according to the present invention.
2 is a front view of the mushroom cultivation apparatus according to the present invention.
3 is a side view of the mushroom cultivation apparatus according to the present invention.
4 is a view showing a temperature and humidity control unit of the mushroom cultivation apparatus according to the present invention.
5 is a view showing a heating member and a cooling member of the mushroom cultivation apparatus according to the present invention.
6 is a plan view showing a horizontal moving unit of the mushroom cultivation apparatus according to the present invention.
7 is a side view showing a horizontal moving unit of the mushroom cultivation apparatus according to the present invention.

Specific structural or functional descriptions of the embodiments according to the inventive concept disclosed herein are provided for the purpose of describing the embodiments according to the inventive concept only. It may be implemented in various forms and is not limited to the embodiments described herein.

Embodiments according to the inventive concept may be variously modified and have various forms, so embodiments are illustrated in the drawings and described in detail herein. However, this is not intended to limit the embodiments in accordance with the concept of the present invention to specific embodiments, and includes modifications, equivalents, or substitutes included in the spirit and scope of the present invention.

Terms such as first or second may be used to describe various components, but the components should not be limited by the terms. The terms are only for the purpose of distinguishing one component from another component, for example, without departing from the scope of the rights according to the inventive concept, the first component may be called a second component, Similarly, the second component may also be referred to as the first component.

When a component is said to be “connected” or “connected” to another component, it may be directly connected to or connected to that other component, but it may be understood that other components may be present in the middle. Should be. On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that there is no other component in between. Expressions that describe the relationship between components, such as “between” and “immediately between” or “neighboring to” and “directly neighboring”, should be interpreted as well.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. As used herein, the terms “comprise” or “have” are intended to designate that the indicated feature, number, step, operation, component, part, or combination thereof exists, but one or more other features, numbers, steps It is to be understood that the present invention does not exclude, in advance, the possibility of the presence or the addition of an operation, a component, a part, or a combination thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art, and are not construed in ideal or excessively formal meanings unless expressly defined herein. Do not.

Hereinafter, a mushroom cultivation apparatus according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

Mushroom cultivation apparatus according to the present invention, as shown in Figures 1 to 3, a constant temperature and humidity unit for controlling the temperature and humidity of the main body 100, the main cultivation space is formed inside the main body 100, the main body 100, Installed in the cultivation space of (100) is connected to a plurality of cultivation frame 500, a plurality of cultivation frame 500, respectively mounted to the mushroom cultivation container 530 to horizontally move each cultivation frame 500 independently And a power supply unit 700 for supplying power to the horizontal moving unit 600, the constant temperature and humidity unit, and the horizontal moving unit 600.

First, the main body 100 is a member formed in a substantially rectangular box shape, and a cultivation space for cultivating mushrooms is formed therein. The main body 100 is a configuration in which various components of the present invention are installed. In the present embodiment, the main body 100 is described as being formed in a substantially rectangular box shape, but is not necessarily limited thereto. It may include.

On the other hand, the constant temperature and humidity unit is installed so as to be connected to the air suction unit 200, the air suction unit 200, which sucks air in the cultivation space inside the main body 100 and the temperature of the air sucked from the air suction unit 200 and The temperature and humidity control unit 300 to control the humidity, the temperature and humidity control unit 300 is installed to be connected to the air temperature and humidity controlled by the temperature and humidity control unit 300 inside the body 100 It includes an air supply unit 400 for supplying the cultivation space, the blowing fan 440 is installed on the air supply unit 400.

The air suction unit 200 is a duct formed in the internal cultivation space of the main body 100, and is installed at one side of the internal cultivation space of the main body 100 to inhale air in the cultivation space of the main body 100. The air suction unit 200 may be provided as a general rectangular duct, but is not necessarily limited thereto, and may be replaced by various means capable of sucking air in the cultivation space inside the main body 100.

In addition, the temperature and humidity control unit 300, as shown in Figures 4 and 5, the air inlet path 310 is connected to the air intake 200, the air sucked in from the air intake 200 In addition, the air inlet 310 is connected to the air inlet 310, a portion of the air introduced into the air heating furnace 320, the heating member 321 is formed inside the air heating furnace for heating the inlet air ), The air cooling path 330, the air cooling path 330 is connected to the air inlet 310, the air is introduced except the air flowing into the air heating furnace 320 of the air introduced into the air inlet (310) Heated air is formed to be connected to the cooling member 331, the air heating furnace 320 and the air cooling furnace 330 is formed inside the cooling air flows through the air heating furnace 320 and The cooling air flowing through the air cooling furnace 330 is mixed with each other and the mixed air is mixed with air. In air mixture flowing toward the payment 400, 340, are formed so as to be connected to the air mixed in 340 includes a water supply member that supplies the water side 340 to the air mix 350.

The air inflow path 310 is a flow path formed to correspond to the air intake unit 200, and one side is coupled to be connected to the air intake unit 200, and cultivated inside the main body 100 sucked from the air intake unit 200. Air from the space enters the interior.

In addition, the air heating furnace 320 and the air cooling furnace 330 are branched from the air inlet passage 310 to divide the air introduced into the air inlet passage 310 to be introduced into the inside. The air heating furnace 320 and the air cooling furnace 330 is formed so that one side is connected to the air inlet passage 310, the other side is formed to be connected to the air mixing furnace 340. The heating member 321 and the cooling member 331 are formed in the air heating furnace 320 and the air cooling furnace 330. The heating member 321 and the cooling member 331 are provided with a hollow cylindrical case formed with a diameter corresponding to the inner diameter of the air heating furnace 320 and the air cooling furnace 330 so that the case is an air heating furnace ( 320 and the inside of the air cooling path 330 are installed. In addition, the heating means or the cooling means formed to have a predetermined thickness inside the case is arranged in a spaced apart form to heat or cool the air passing through the heating member 321 and the cooling member 331. The heating means may be provided as a heater or the like, and the cooling means may be provided as a heat exchanger (evaporator) or the like. At this time, one side and the other side of the air heating furnace 320 and the air cooling furnace 330 is an intermediate side of the air heating furnace 320 and the air cooling furnace 330 in which the heating member 321 and the cooling member 331 are formed. The cross section is made smaller. This is to delay the time that the air passing through the air heating furnace 320 and the air cooling furnace 330 stays in the air heating furnace 320 and the air cooling furnace 330, thereby heating or cooling the incoming air. This can proceed smoothly.

In addition, the air mixing furnace 340 is formed so that one side is connected to the other side of the air heating furnace 320 and the air cooling furnace 330, the other side is formed to be connected to the air supply unit 400 is heated air and The cooling air is mixed with each other and introduced to the air supply unit 400.

The water supply member 350 is installed at one side of the air mixing furnace 340 to supply water to the mixed air. The moisture supply member 350 may be provided as a general steam generator to supply water to the air mixing furnace 340 in the form of steam.

Meanwhile, the constant temperature and humidity unit has a heating air inflow rate adjusting member 322, a cooling air inflow rate adjusting member 332, a moisture amount adjusting member 351, an air amount adjusting member 341, a temperature sensor (not shown), and a humidity sensor (not shown). And a controller (not shown).

The heating air inflow rate adjusting member 322 is formed at a connection portion between the air heating furnace 320 and the air mixing furnace 340. The heating air inflow amount adjusting member 322 is provided as a plate corresponding to the diameter of the air heating furnace 320 to open or close the air heating furnace 320 by rotation. At this time, by adjusting the rotation angle of the heating air inlet amount adjusting member 322 it is possible to adjust the amount of the heating air is introduced into the air mixing furnace 340.

The cooling air inflow rate adjusting member 332 is formed at a connection portion between the air cooling path 330 and the air mixing path 340. The cooling air inflow rate adjusting member 332 is provided as a plate corresponding to the diameter of the air cooling path 330 to open or close the air cooling path 330 by rotation. At this time, by adjusting the rotation angle of the cooling air inlet amount adjusting member 332 it is possible to adjust the amount of the cooling air is introduced into the air mixing path (340).

In addition, the moisture amount adjusting member 351 is formed at the connection portion of the moisture supply member 350 and the air mixing passage 340. The moisture amount control member 351 is provided as a plate having a shape corresponding to the connection portion of the water supply member 350 and the air mixing furnace 340 by rotating the water supply member 350 and the air mixing furnace 340. It will open or close the connecting part of. At this time, it is possible to adjust the amount of water supplied by adjusting the rotation angle of the moisture amount adjusting member 351.

The air amount adjusting member 341 is formed at a connection portion between the air mixing path 340 and the air supply unit 400. The air amount adjusting member 341 is formed as a plate having a shape corresponding to the connection portion between the air mixing furnace 340 and the air supply unit 400, and the air mixing furnace 340 and the air supply unit 400 are connected by rotation. Open or close the part. At this time, the amount of air flowing into the air supply unit 400 may be adjusted by adjusting the rotation angle of the air amount adjusting member 341.

In addition, the temperature sensor (not shown) and the humidity sensor (not shown) is provided as a general temperature sensor and humidity sensor is installed in the internal cultivation space of the main body 100. The temperature sensor and the humidity sensor detect the temperature and humidity of the cultivation space inside the main body 100 and transmit the detected temperature and humidity to a controller (not shown).

The controller (not shown) receives the measurement results of the temperature sensor and the humidity sensor to receive the heating air inflow rate adjusting member 322 and the cooling air inflow rate adjusting member to maintain a constant temperature and humidity of the cultivation space inside the main body 100. 332, the moisture amount adjusting member 351 and the air amount adjusting member 341 are controlled. That is, when the current temperature is low based on the preset temperature, the controller controls the heating air inflow rate adjusting member 322 or the cooling air inflow rate adjusting member 332 to adjust the temperature of the supplied air to maintain the preset temperature. . When the current humidity is low based on the preset humidity, the controller controls the moisture amount adjusting member 351 to adjust the moisture amount of the air supplied to maintain the predetermined humidity.

In addition, the air supply unit 400 is formed to be connected to the temperature and humidity control unit 300 and the blowing fan 440 is installed on one side, the air in which the temperature and humidity is adjusted by the operation of the blowing fan 440 flows in The connecting passage 410 is formed to be connected to the connecting passage 410, each branch branched to a plurality of branching passage 420 and the branched passage 420 to branch the air flowing into the connecting passage 410 into a plurality of It is connected to each but is formed to extend to the cultivation frame 500 side includes a supply passage 430 for supplying the air controlled temperature and humidity to the cultivation frame 500 side.

The connection passage 410 is a passage formed so that one side is connected to the air mixing passage 340 and the other side is formed to be connected to the branch passage 420, and the air whose temperature and humidity are controlled is introduced therein. At this time, the blower fan 440 is formed at one side of the connection path 410 to move the air by the operation of the blower fan 440. The blowing fan 440 is for controlling the speed of the air moved through the constant temperature and humidity unit, and controls the amount of air flowing into the inner cultivation space of the main body 100 by controlling the rotational speed of the blowing fan 440. can do.

In addition, the branch path 420 is a substantially rectangular box-shaped structure in which a moving space for moving air is formed therein, and one side is connected to the connection path 410 so that air is introduced from the connection path 410. A plurality of branch holes are formed at the other side of the branch path 420, and the air introduced into the branch path 420 is branched through the branch holes and discharged. The above-described branch passage 420 is fixedly installed at an upper side of the cultivation space inside the main body 100, and is installed such that a plurality of supply passages 430 are connected to each branch hole of the branch passage 420, respectively.

Supply path 430 is provided as a substantially rectangular box-shaped duct, one side is installed to be connected to each branch hole of the branch path 420, the other side is formed to extend to the cultivation frame 500 side. A plurality of air supply holes 431 are formed below each of the supply paths 430 to supply air introduced into the supply paths 430 to the internal cultivation space of the main body 100.

By the constant temperature and humidity unit configured as described above, the temperature and humidity of the cultivation space inside the main body 100 are kept constant so that the productivity of the mushroom can be improved.

On the other hand, the cultivation frame 500 is formed in a form in which a plurality of unit cultivation frame 510 in which the storage space 520 for accommodating the mushroom cultivation container 530 is formed is stacked. The cultivation frame 500 is provided in plural and arranged in the inner cultivation space of the main body 100 so as to be spaced apart from each other. The mushroom cultivation container 530 is a container having an open top, and a growth medium for cultivating mushrooms is accommodated therein.

In addition, the horizontal moving unit 600, as shown in Figures 6 and 7, the rail 610 formed on the inner lower surface of the main body 100, the rail 610 is formed on the lower portion of the cultivation frame 500 One side is fixedly installed on the bottom surface of the plurality of moving wheels 620 and the main body 100 to be moved along the other movement means 630 is fixedly installed in the lower portion of the cultivation frame 500 in the horizontal direction ).

Rail 610 is provided in pairs for each cultivation frame 500 is installed on the inner lower surface of the body (100).

The moving wheel 620 is provided as a wheel having a predetermined diameter, and is installed at each lower corner of each cultivation frame 500. The movement wheel 620 is mounted on the upper portion of the rail 610 is installed to be movable along the rail 610.

The moving means 630 may include a cylinder body fixedly installed on an inner lower surface of the main body and a cylinder rod fixedly installed on a lower portion of the cultivation frame 500. As the cylinder of the moving means 630 is operated, the cylinder rod is reciprocated so that the cultivation frame 500 connected thereto is reciprocated in the horizontal direction along the rail 610. The movement means 630 may be provided as a cylinder as described above, but is not necessarily limited thereto. For example, the moving means 630 is a drive motor fixedly installed on the inner lower surface of the main body 100, a moving gear installed on the drive shaft of the drive motor, one side is fixedly installed on the lower side of the cultivation frame 500 and the outer periphery Accordingly, a gear tooth corresponding to the moving gear may be formed and provided with a moving shaft engaged with the moving gear and a guide frame coupled to the driving motor to insert the moving shaft. In this case, the moving gear installed on the driving shaft is rotated by the rotation of the drive motor, and the moving shaft engaged with the moving shaft is moved in the horizontal direction along the guide frame by the rotation of the moving gear. As a result, the cultivation frame 500 coupled with the moving axis can be horizontally moved. The moving means 630 is not limited to the above-described embodiment, and includes various means and configurations capable of reciprocating the cultivation frame 500 in the horizontal direction.

On the other hand, the power supply unit 700 includes a solar panel 710, an inverter (not shown) and a storage battery (not shown).

The solar panel 710 is a solar cell panel in which a plurality of general solar cells are provided and arranged. The solar panel 710 is fixedly installed on the upper portion of the main body 100 to convert sunlight into electric current. The direct current generated by the solar panel 710 is converted into alternating current by the inverter, and the storage battery is applied to and stored therein. The battery transmits the stored current to the constant temperature and humidity unit and the horizontal moving unit 600 to operate the constant temperature and humidity unit and the horizontal moving unit 600.

Mushroom cultivation apparatus according to the present invention configured as described above can improve the productivity of the mushroom by automatically adjusting the temperature and humidity of the mushroom cultivation device internal space by the constant temperature and humidity unit, each cultivation frame 500 Can be moved horizontally independently to make efficient use of the cultivation space, and the mushroom cultivation device can be easily changed by installing the mushroom cultivation device in a modular form, thereby improving installation convenience. .

As described above, a preferred embodiment of the mushroom cultivation apparatus according to the present invention has been described.

The described embodiments are to be understood in all respects as illustrative and not restrictive, the scope of the invention being indicated by the following claims rather than the foregoing description. And it is to be understood that all changes and modifications derived from the equivalent concept as well as the meaning and scope of the claims are included in the scope of the present invention.

100: main body 200: air intake
300: temperature and humidity control unit 310: air inlet
320: air heating furnace 321: heating member
322: heating air flow rate adjusting member 330: air cooling furnace
331: cooling member 332: cooling air inflow rate adjusting member
340: air mixing furnace 341: air volume control member
350: moisture supply member 351: moisture amount adjusting member
400: air supply 410: connection
420: branch road 430: supply path
431: air supply ball 440: blowing fan
500: cultivation frame 510: unit cultivation frame
520: storage space 530: mushroom cultivation container
600: horizontal moving unit 610: rail
620: moving wheel 630: means of transportation
700: power supply unit 710: solar panel

Claims (11)

A main body in which a cultivation space is formed;
Constant temperature and humidity unit for adjusting the temperature and humidity of the inside of the cultivation space;
A plurality of cultivation frames installed in the cultivation space of the main body to mount the mushroom cultivation container;
A horizontal moving unit connected to each of the cultivation frames and horizontally moving the cultivation frames independently; And
And a power supply unit supplying power to the constant temperature and humidity unit and a horizontal moving unit.
The constant temperature and humidity unit,
An air suction unit for sucking air in the cultivation space inside the main body;
A temperature and humidity control unit installed to be connected to the air intake unit to control temperature and humidity of air sucked from the air intake unit;
An air supply unit installed to be connected to the temperature and humidity control unit and supplying air whose temperature and humidity are controlled by the temperature and humidity control unit to an internal cultivation space of the main body; And
And a blowing fan installed on the air supply unit.
The temperature and humidity control unit,
An air inflow path connected to the air intake unit and into which air sucked from the air intake unit flows;
An air heating furnace connected to the air inlet passage to introduce a portion of the air introduced into the air inlet passage;
A heating member which is formed inside the air heating furnace and heats the introduced air;
An air cooling furnace connected to the air inlet passage to which air other than air introduced into the air heating furnace of the air introduced into the air inlet passage is introduced;
A cooling member formed in the air cooling path to cool the air introduced thereto;
It is formed so as to be connected to the air heating furnace and the air cooling furnace to mix the heating air flowing through the air heating furnace and the cooling air flowing through the air cooling furnace to each other, the mixed air flows into the air supply side Letting air mixing furnace; And
And a moisture supply member formed to be connected to the air mixing furnace and supplying water to the air mixing furnace.
The horizontal moving unit,
A rail formed on an inner lower surface of the main body;
A plurality of moving wheels formed below the cultivation frame and moving along the rails; And
One side is fixedly installed on the inner lower surface of the main body, and the other side reciprocating in the horizontal direction is fixed to the lower portion of the cultivation frame; includes;
The means for moving,
A drive motor fixedly installed on an inner lower surface of the main body;
A shift gear installed on a drive shaft of the drive motor;
A moving shaft having one side fixed to the lower portion of the cultivation frame, the gear shaft corresponding to the moving gear being formed along an outer circumference thereof, and engaged with the moving gear; And
And a guide frame coupled to the driving motor to insert the moving shaft.
The moving gear installed on the drive shaft is rotated by the rotation of the drive motor, and the moving shaft engaged by the rotation of the moving gear moves horizontally along the guide frame, thereby being coupled with the moving shaft. Mushroom cultivation apparatus, characterized in that the cultivation frame moves horizontally. delete delete The method of claim 1,
A heating air inflow amount adjusting member installed on the air heating furnace to adjust an inflow amount of heating air flowing into the air mixing furnace;
A cooling air inflow amount adjusting member installed on the air cooling path to adjust an inflow amount of cooling air flowing into the air mixing path;
A water amount adjusting member installed at a connection portion of the water supply member and the air mixing furnace to adjust an amount of water supplied to the air mixing furnace;
An air amount adjusting member installed on the air mixing furnace to adjust an amount of air introduced into the air supply unit;
A temperature sensor installed in the internal cultivation space of the main body to measure a temperature of the internal cultivation space of the main body;
A humidity sensor installed in the internal cultivation space of the main body to measure humidity of the internal cultivation space of the main body; And
The heating air inflow rate adjusting member, the cooling air inflow amount adjusting member, the moisture amount adjusting member, and the air amount adjusting member are controlled to maintain a constant temperature and humidity of the cultivation space inside the main body according to the measurement results of the temperature sensor and the humidity sensor. Mushroom cultivation apparatus further comprising a control unit. The method of claim 1,
The air heating furnace is formed such that one side connected to the air inlet passage and the other side connected to the air mixing passage have a smaller cross-sectional area than a region where the heating member is formed.
The air cooling path mushroom cultivation apparatus, characterized in that the one side connected to the air inlet and the other side connected to the air mixing path is formed to have a smaller cross-sectional area than the area where the cooling member is formed. The method of claim 1,
The air supply unit,
It is formed to be connected to the temperature and humidity control unit, the blower is installed on one side is connected to the air flow in which the temperature and humidity is controlled by the operation of the blower fan;
A branching passage formed to be connected to the connection passage and branching air introduced into the connection passage into a plurality; And
Mushroom supply apparatus comprising; a supply passage connected to each one side of the branched into a plurality of branching, respectively, and extending to the cultivation frame side to supply air with controlled temperature and humidity to the cultivation frame side. The method of claim 1,
Each cultivation frame,
Mushroom cultivation apparatus characterized in that the plurality of unit cultivation frame formed in the storage space of the mushroom cultivation container is stacked. delete delete delete The method of claim 1,
The power supply unit,
A solar panel installed on an upper portion of the main body;
An inverter for converting direct current generated from the solar panel into alternating current; And
And a storage battery for storing the current converted from the inverter, and transmitting the current stored in the constant temperature and humidity unit and the horizontal moving unit.

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