KR20180061491A - Mushroom cultivating system and method - Google Patents

Abstract

The present invention relates to a system for cultivating a mushroom for home and a method thereof. The system capable of effectively managing mushroom growth using a smartphone or the like at home comprises: a mushroom cultivator capable of cultivating a mushroom at home; a sensor unit measuring a mushroom growth environment in the mushroom cultivator; and a terminal receiving information of the sensor unit, transmitting information related to mushroom growth to an administrator server, and controlling the mushroom cultivator; and the administrator server recording and managing a mushroom growth status using the information related to the mushroom growth and analyzing the growth state to control the growth environment.

Description

[0001] MUSHROOM CULTIVATING SYSTEM AND METHOD [0002]

The present invention relates to a domestic mushroom cultivation system and method, and provides a smart mushroom cultivation system and method capable of growing mushroom at home.

Mushrooms are widely known as high-protein low-calorie foods rich in nutrients and delicious. These mushrooms not only provide anticancer and antiviral effects, but also provide a blood cholesterol lowering effect.

Such mushrooms can be produced through sawdust fermentation, mixing, pouring, sterilization, cooling, inoculation, and cultivation.

Conventional mushroom cultivation apparatuses have been proposed in Korean Patent No. 10-0899347 'Horizontal mushroom cultivation automation system', which is capable of cultivating a large amount of mushroom in a narrow space by forming a mushroom cultivation plate in the growth chamber The device was developed.

Korean Patent Registration No. 10-0899347 entitled " Horizontal mushroom cultivation automation system " A plurality of motors, gears, and chains are provided for horizontal and interlayer mushroom cultivation boxes. Then, the elevator elevator is installed on one side, and the mushroom cultivation box of the uppermost layer is transported to the lowest layer to grow a large amount of mushroom.

In recent years, it is a trend to cultivate or cultivate small scale farms easily, not at mass production of farm households.

However, when small scale mushrooms are grown at home, they fail to manage mushroom cultivation environment.

(Patent Document 1) Korean Patent No. 10-0899347 (Patent Document 2) Korean Patent No. 10-1424090 (Patent Document 3) Korean Registered Utility Model No. 20-0202808

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a mushroom cultivation management system and a method thereof that can effectively manage mushroom growth using a smartphone or the like at home.

The present invention relates to a mushroom growing apparatus capable of growing mushrooms in a home according to the present invention, a sensor unit for measuring a mushroom growing environment in the mushroom growing apparatus, and a control unit for receiving the information of the sensor unit, And a management server for controlling the growth environment by analyzing the state of growth of the mushroom by using information related to the mushroom growth.

The mushroom grower includes a mushroom growing section where the mushroom grows, a humidifying section that regulates the humidity in the mushroom growing section, a heater section that regulates the temperature of the mushroom growing section, and a moving section that can freely move the mushroom growing section do.

The sensor unit includes a temperature sensor for measuring the temperature inside the mushroom grower, a humidity sensor for measuring the humidity inside the mushroom grower, a CO ₂ sensor for measuring the concentration of carbon dioxide in the mushroom grower, and an optical sensor for measuring the amount of light in the mushroom grower .

The terminal includes a sensing receiver for receiving a measurement signal of the sensor unit, a mushroom grower registration unit for registering and managing the mushroom grower, a signal transmission unit for transmitting the measurement signal to the management server, a server receiving unit for receiving the determination result of the management server, A control unit for controlling the mushroom remover according to a result of the determination by the management server, and an image photographing unit for photographing the mushroom in the mushroom growing unit.

The information provided through the signal transmission unit includes temperature information, humidity degree, carbon dioxide concentration information and light amount information, image information, mushroom seed introduction time information, and mushroom growth stage information.

The management server includes a terminal information receiver for receiving terminal information including sensing information of the sensor, a growth determiner for determining the suitability of the indoor environment of the mushroom grower by the growing time of the mushroom using the received information, A corresponding information transmission unit for providing a countermeasure to the terminal according to the determination result, a terminal management unit for managing the user terminal, and a control unit for controlling the operation of each unit.

And the growth judgment unit judges based on the temperature, humidity, carbon dioxide concentration and light amount for each growing stage.

In addition, the present invention provides a mushroom growing apparatus capable of growing mushrooms in a home, a sensor unit for measuring a mushroom growing environment in the mushroom growing apparatus, and a control unit for receiving information of the sensor unit, There is provided a mushroom cultivation method using a domestic mushroom cultivation system including a terminal for controlling a mushroom cultivator and a management server for controlling the growth environment by analyzing the growth state by recording and managing the mushroom growth state using information related to mushroom growth A step of requesting a management server for a mushroom ecology confirmation through a terminal, a step for the management server to receive terminal unique information, mushroom remover information, sensor measurement information and image information from the terminal, Determining a current mushroom growth state; And the sensor measurement information provided from the terminal, the step of judging whether the growth environment of the mushroom is right or not is judged, and when the growth environment of the mushroom is not right, the signal for controlling the difference of the environmental condition is And providing the mushroom cultivation method to a terminal.

The step of requesting the mushroom ecology confirmation to the management server through the terminal is characterized by recognizing the QR code located in the mushroom grower.

The sensor measurement information includes temperature information, humidity degree, carbon dioxide concentration information, and light amount information.

As described above, the present invention manages the mushroom cultivation environment through communication between the terminal and the management server, thereby effectively cultivating mushrooms at home.

1 is a conceptual diagram of a household mushroom cultivation system according to an embodiment of the present invention.
2 is a block diagram of a mushroom grower according to the present embodiment.
3 is a block diagram of a sensor unit according to the present embodiment.
4 is a block diagram of a terminal according to the present embodiment;
5 is a block diagram of a management server according to the present embodiment;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know. Wherein like reference numerals refer to like elements throughout.

It is to be clarified that the division of components in this specification is merely a division by main function which each component is responsible for. That is, two or more constituent parts to be described below may be combined into one constituent part, or one constituent part may be divided into two or more functions according to functions that are more subdivided. In addition, each of the constituent units described below may additionally perform some or all of the functions of other constituent units in addition to the main functions of the constituent units themselves, and that some of the main functions, And may be carried out in a dedicated manner. Accordingly, the presence or absence of each component described in this specification should be interpreted as a function. For this reason, it is clarified that the constitution of the components of the household mushroom cultivation system and method of the present invention can be varied within the scope of achieving the object of the present invention.

1 is a conceptual diagram of a household mushroom cultivation system according to an embodiment of the present invention.

3 is a block diagram of a sensor unit according to the present embodiment, FIG. 4 is a block diagram of a terminal according to the present embodiment, and FIG. 5 is a block diagram of the sensor unit according to the present embodiment. FIG.

1 to 5, the household mushroom cultivation system of the present invention includes a mushroom growing unit capable of cultivating mushrooms at home, a sensor unit for measuring a mushroom growing environment in the mushroom growing unit, , A management server for transmitting mushroom growth related information to a management server, a terminal for controlling the mushroom growing machine, and a management server for controlling the growth environment by analyzing the growth state of the mushroom growing state by using the mushroom growing information do.

The mushroom grower includes a mushroom growing section where the mushroom grows, a humidifying section that regulates the humidity in the mushroom growing section, a heater section that regulates the temperature of the mushroom growing section, and a moving section that can freely move the mushroom growing section.

It is effective to attach mushroom badge to the growth part of mushroom. And it is preferable to be able to adjust the light quantity through black cloth or black vinyl.

The mushroom growing part of the mushroom may have a plurality of layers or a structure capable of being arranged in a single layer. That is, they may be divided into a plurality of cultivation spaces or a single space.

It is effective to produce such a mushroom growing part in a rectangular tube shape, but it is not limited to this, and various shapes can be produced.

The humidifier part emits water in the form of water vapor to promote mushroom growth. It is effective to provide the humidifier part with humidified water to the mushroom growing room. It is preferable to control the humidity in the mushroom growing area.

Of course, although not shown, a humidifier may be located on one side of the mushroom growing section, and the mushroom growing section and the humidifying section may be covered with a single cover so that humidified water is provided to the mushroom. In addition, it is also possible to provide humidified water in a separate separate space, and then supply the humidified water vapor to the mushroom growing section through a pipeline or the like.

The heater part is located below the growth part of the mushroom, and the temperature inside the growth part of the mushroom can be kept constant.

On the lower side of the mushroom growing section of the present embodiment, a moving section capable of moving the mushroom growing section is provided. It is effective that the moving part includes a plurality of wheels. This allows the growth of mushrooms to be placed in the desired space within the home.

The mushroom grower of the present embodiment may further include a ventilation fan for ventilation of the mushroom growing area. Of course, the present invention is not limited to this, and ventilation for opening and closing the lid of the mushroom grower may be performed. However, it is preferable to provide a circulating fan that operates according to an external control signal.

In this embodiment, a sensor unit for managing mushroom growth state is provided.

The sensor unit includes a temperature sensor for measuring the temperature inside the mushroom grower, a humidity sensor for measuring the humidity inside the mushroom grower, a CO ₂ sensor for measuring the concentration of carbon dioxide in the mushroom grower, and a photosensor for measuring the amount of light in the mushroom grower.

The sensor unit further includes a sensor communication unit for providing the registered terminal with the information of each sensor. Although not shown, the sensor unit may include an image capturing unit for capturing an image of mushroom growth.

The temperature sensor measures the temperature inside the mushroom growing area of the mushroom grower. And, the measured result value can be provided to the user terminal. The temperature sensor is preferably located in the upper region of the mushroom growth area. This allows accurate temperature measurement.

The humidity sensor measures the humidity of the mushroom growing area of the mushroom growing machine and provides the humidity to the terminal to maintain proper humidity for mushroom growing. It is preferable that the humidity sensor is located in a region as far as possible from where humidity of the humidifier portion is generated for accurate humidity measurement.

The CO ₂ sensor can measure the concentration of carbon dioxide in the mushroom growth area and provide the result to the terminal to prevent damage to the mushroom due to carbon dioxide. The CO ₂ sensor is also preferably disposed within the mushroom growth area.

The light sensor requires a proper amount of light when growing mushrooms in the home, but measures the amount of light to keep it accurately and provides it to the terminal. The light sensor is also located in the growth area of the mushroom to measure the amount of light.

The sensor communication unit collects measurement results of the temperature sensor, the humidity sensor, the CO ₂ sensor, and the optical sensor, and transmits the result to the user terminal. The sensor communication unit provides the sensing result to the terminal that is stored through the wireless communication. Of course, it may be activated through a separate QR code to provide the terminal with a sensor measurement result at the request of the terminal.

The terminal includes a sensing receiver for receiving a measurement signal of the sensor unit, a mushroom grower registration unit for registering and managing the mushroom grower, a signal transmission unit for transmitting the measurement signal to the management server, a server receiving unit for receiving the determination result of the management server, A regenerator control unit for controlling the mushroom remover according to the judgment result of the server, and an image photographing unit for photographing the mushroom in the mushroom remover.

The terminal preferably controls the operation of each part through a program of the application type.

The sensing receiver is provided with the measured result from the sensor of the sensor unit. In this embodiment, it is possible to receive measurement results of the sensor unit in real time. Of course, the present invention is not limited to this, and a measurement result may be provided when the user terminal makes a request. In this case, the user may receive the measurement result by operating the terminal, or the terminal may be provided with the measurement result by scanning the QR code.

The sensing receiver may store the information provided by each of the sensors, and may provide the information to the user in the form of a chart or data according to the growing time of the mushroom.

The sensing receiver may be operated when the application of the terminal is executed and may be provided with a sensing result.

The information provided to the sensing receiver includes temperature information, humidity information, carbon dioxide concentration information, and light amount information.

The mushroom regenerator registration unit registers the information of the mushroom regenerator installed in the home in the terminal, and communicates with the management server based on this information. The mushroom regeneration registrar can perform the registration work through the QR code or NFC tag installed in the mushroom grower.

The mushroom grower registration department stores the information of the registered mushroom grower. The registration department of mushroom grower stores information related to the introduction time of mushroom seed (mushroom badge). It is desirable to collect the mushroom cultivation control number.

The signal transmission unit provides measurement information provided from the sensing reception unit to the management server. At this time, the transmitted information includes temperature information, humidity degree, carbon dioxide concentration information, and light amount information, and image information provided from the image capturing unit may be added. Also, it is preferable to include information on the time of introduction of the mushroom seedlings registered through the mushroom grower register and information on the stage of mushroom growth.

The server receiving unit receives the results related to the mushroom growth through the management server based on the provided information, and changes the internal environment of the mushroom growing unit based on the received information.

The remover control unit controls the remover based on the information provided from the server receiving unit to change the internal environment of the remover. That is, the remover control unit controls the ventilation fan to regulate the temperature and the carbon dioxide concentration inside the re-dispenser, and controls the humidification unit to control the humidity.

The image capturing unit captures the current image of the mushroom through a camera or the like and stores it. Then, the image taken through the server receiving unit is provided to the management server.

The management server comprises a terminal information receiver for receiving terminal information including sensing information of the sensor, a growth determiner for determining the suitability of the indoor environment of the mushroom grower by the growing time of the mushroom using the received information, A corresponding information transmitting unit for providing a countermeasure to the terminal according to the result, a terminal managing unit for managing the user terminal, and a control unit for controlling the operation of each unit. The application management unit may further include an application management unit for managing an application installed in the terminal.

The terminal information receiving unit receives information from the signal transmitting unit of the terminal and stores the received information. At this time, it is effective to receive terminal unique information, mushroom remover information, sensor measurement information, and image information. Of course, the mushroom grower information also includes information about the mushroom being grown.

The terminal management unit can log in through the terminal-specific information and the mushroom grower information, and can confirm when the mushroom badge is released.

The growth judgment section estimates the current growth stage of the mushroom through information on the time of introduction of the mushroom badge among the information of the mushroom growing machine. And compares the provided image information with previously stored image information to determine the current growth state of the mushroom. Of course, judgment using an image may be omitted. Then, it is judged whether or not the internal environment of the mushroom grower according to the present growth stage is proper through the sensor measurement information.

As a result of the judgment, it is recommended that the internal environment is determined to be valid when the current growth condition is within the error range (± 5%) and the current environment is maintained. However, when the internal environment deviates from the error range, a control signal for requesting an environment change is generated.

The information transmission unit provides the user terminal with the determination result of the growth determination unit.

The remover control unit of the user terminal controls the mushroom remover environment according to the determination result.

The growth judgment unit judges based on the temperature, humidity, carbon dioxide concentration and light amount for each growing stage.

First, in the case of temperature, the mycelium culture is based on the range of 20 to 25 degrees, and based on 5 to 10 degrees before the occurrence, 10 to 20 degrees when mushroom is generated, and 2 to 10 degrees .

The humidity is in the range of 65 to 70% for mycelial cultivation, 90 to 95% for mushroom occurrence, and 75 to 85% for mushroom recycling.

The concentration of carbon dioxide is based on 10,000 to 15,000 ppm when cultivating mycelia, 800 to 2,000 ppm when mushroom is generated, and 500 to 1,500 ppm when mushroom is reproduced.

In the case of light, it is preferable that the reference is at least 150 to 2,000 lux.

Hereinafter, a method of cultivating mushrooms for domestic use having the above-described system will be described.

The user purchases mushroom cultivator and mushroom seeds. The mushroom grower is registered through the user terminal, and the mushroom seed purchase point is registered in the management server.

The user may register his / her ID and password to the management server through the terminal. It is also possible to register the unique number of the mushroom grower or to register the QR code or NFC tag attached to the surface of the mushroom grower by contacting.

Then, the user places an application for mushroom cultivation in the terminal.

At this time, the management server provides a basic manual for mushroom cultivation through the application. Therefore, the user operates the mushroom cultivator according to this manual.

Through this, the humidification part, the heater part, the sensor part, and the like of the mushroom grower operate.

The mushroom ecology confirmation request is made to the management server through the terminal.

At this time, the terminal can send a separate ecology confirmation request or recognize the QR code of the mushroom grower and can automatically request the confirmation.

When the terminal makes the ecology confirmation request, the sensor measurement information of the sensor unit is transmitted to the terminal. The sensor measurement information includes temperature information, humidity degree, carbon dioxide concentration information, and light amount information.

The management server receives terminal unique information, mushroom remover information, sensor measurement information, and image information from the terminal.

The management server determines the current mushroom growth state based on the mushroom remover information provided from the terminal.

A comparison is made between the reference mushroom cultivation environment value corresponding to the determined growth state and the sensor measurement information provided from the terminal to determine whether the mushroom growth environment is correct.

If the mushroom growth conditions are not met, a signal is provided to the terminal to control the environmental conditions where the difference occurs, allowing the user to adjust the environmental conditions.

As mentioned above, the environmental conditions are preferably temperature, humidity, carbon dioxide concentration and light quantity. Accordingly, if the temperature is low, the heater unit is operated, and when the temperature is high, the ventilation fan is operated. When the humidity is low, the humidification unit is operated. When the humidity is high, the ventilation fan is operated. In addition, it is preferable to use a ventilation fan to control the concentration of carbon dioxide and to open a mushroom cultivation unit to adjust the light amount.

The management server may also cause the terminal to sound an alarm for adjustment. Of course, the present invention is not limited to this, and the management server may provide a control signal to the terminal, so that the terminal automatically controls the humidifier, the heater, the ventilation fan, etc. of the mushroom grower, have.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention.

100: mushroom growing machine 110: mushroom growing section
120: Humidifier 130: Heater
140: moving part 150: ventilation fan
200: sensor part 210: temperature sensor
220: Humidity sensor 230: CO ₂ sensor
240: optical sensor 250: sensor communication unit
300: terminal 310: sensing receiver
320: mushroom remover registration part 330: signal transmission part
340: server receiving unit 350:
360: image capturing section 400: management server
410: terminal information receiving unit 420:
430: Correspondence information transmitting unit 440:
450:

Claims (10)

Mushroom growers that can grow mushrooms at home;
A sensor unit for measuring a mushroom growing environment in a mushroom growing machine;
A terminal receiving the information of the sensor unit, transmitting the mushroom growth related information to the management server, and controlling the mushroom growing machine; And
A mushroom growing system comprising a management server for controlling the growth environment by analyzing the growth state and recording and managing the mushroom growth state using information related to mushroom growth. The method according to claim 1,
The mushroom grower includes a mushroom growing section where the mushroom grows, a humidifying section that regulates the humidity in the mushroom growing section, a heater section that regulates the temperature of the mushroom growing section, and a moving section that can freely move the mushroom growing section Household mushroom cultivation system. The method according to claim 1,
The sensor unit includes a temperature sensor for measuring the temperature inside the mushroom grower, a humidity sensor for measuring the humidity inside the mushroom grower, a CO ₂ sensor for measuring the concentration of carbon dioxide in the mushroom grower, and an optical sensor for measuring the amount of light in the mushroom grower Wherein said mushroom cultivation system is a domestic mushroom cultivation system. The method according to claim 1,
The terminal includes a sensing receiver for receiving a measurement signal of the sensor unit, a mushroom grower registration unit for registering and managing the mushroom grower, a signal transmission unit for transmitting the measurement signal to the management server, a server receiving unit for receiving the determination result of the management server, A control unit for controlling the mushroom grower according to a result of the determination by the management server, and an image photographing unit for photographing the mushroom in the mushroom grower. 5. The method of claim 4,
Wherein the information provided through the signal transmission unit includes temperature information, humidity degree, carbon dioxide concentration information and light amount information, image information, information on introduction time of mushroom seedlings, and information on stages of mushroom growth. The method according to claim 1,
The management server includes a terminal information receiver for receiving terminal information including sensing information of the sensor, a growth determiner for determining the suitability of the indoor environment of the mushroom grower by the growing time of the mushroom using the received information, A corresponding information transmitting unit for providing a countermeasure to the terminal according to the determination result, a terminal management unit for managing the user terminal, and a control unit for controlling the operation of each unit. The method according to claim 6,
Wherein the growth judgment unit judges based on the temperature, humidity, carbon dioxide concentration and light amount of each growing stage. A sensor unit for measuring a mushroom growing environment in a mushroom growing machine, a sensor unit for receiving the information of the sensor unit, transmitting the mushroom growing information to a management server, And a management server for controlling the growth environment by analyzing the growth state and the mushroom growth state by using information related to mushroom growth, the method comprising the steps of:
Requesting a management server for a mushroom ecology confirmation request through a terminal;
The management server receiving terminal unique information, mushroom remover information, sensor measurement information, and image information from a terminal;
Determining the current mushroom growth state based on the mushroom remover information provided from the terminal;
Comparing the reference mushroom cultivation environment value corresponding to the determined growth state with sensor measurement information provided from the terminal to determine whether the mushroom growth environment is correct; And
Wherein the mushroom cultivation method comprises the step of providing a signal to the terminal for controlling the environmental condition in which the difference occurs when the mushroom growth environment is not suitable. The method according to claim 8, wherein the requesting of the mushroom ecology confirmation to the management server through the terminal comprises:
And a QR code located in a mushroom growing machine. 9. The method of claim 8,
Wherein the sensor measurement information includes temperature information, humidity degree, carbon dioxide concentration information, and light amount information.

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