KR101669660B1 - The Device for Growing a Mushroom - Google Patents

Abstract

The present invention relates to a mushroom cultivation apparatus capable of easily cultivating mushrooms at home, and more particularly, to a mushroom cultivation apparatus capable of miniaturizing and automating a mushroom cultivation apparatus to conveniently ascertain the growth process of mushrooms The growth rate and growth rate of mushroom are greatly increased through the supply of moisture similar to the natural growth state by using the temperature of the medium of the mushroom growing, the relative humidity according to the temperature difference of the ambient atmosphere and the dew point temperature of the medium, The present invention relates to a mushroom cultivator capable of easily growing and harvesting a large amount of mushroom,
The mushroom grower 100 according to the present invention includes a main body temperature measuring sensor 100 having an empty space inside thereof, an opening 111 formed at an upper portion thereof, and measuring the internal temperature and the internal humidity in real time, 112) and a body humidity measuring sensor (113); A main body cover 120 detachably coupled to an upper portion of the main body 110 to open and close an opening 111 of the main body 110; The cooling water 131 is stored in the internal space and the cooling water cooling unit 132 is installed on one side of the main body 110 to cool the cooling water 131 to a predetermined temperature, A cooling water storage tank 130 provided with a sensor 133 for measuring the temperature of the stored cooling water 131 in real time and outputting it to the outside; One end of the cooling water is stored in the cooling water storage tank 130 and the other end is protruded into the main body 110 through the one side of the main body 110 to have a predetermined length. The cooling water 131 flowing from the one end of the cooling water flows into the cooling water storage tank 130 through the other end along the outer pipe line 142 from the other end to the cooling water storage tank 130 A cooling water flow tube 140 formed of a double tube to circulate and rotated at a predetermined speed; The cooling water flow pipe 140 is inserted into the center portion of the culture medium, and the culture medium is inoculated with the mushroom seed bacteria 150; A humidifier 160 for supplying moisture into the main body 110; A main body internal temperature controller 170 for heating or cooling the air inside the main body 110 to a predetermined temperature; And the measured values from the main body temperature measuring sensor 112, the main body humidity measuring sensor 113 and the cooling water temperature measuring sensor 133 are inputted to the cooling water cooling device 132, the humidifier 160, A controller 180 for controlling the operation of the internal temperature controller 170; And the like.

Description

The Device for Growing a Mushroom

The present invention relates to a mushroom cultivation apparatus capable of easily cultivating mushrooms at home, and more particularly, to a mushroom cultivation apparatus capable of miniaturizing and automating a mushroom cultivation apparatus to conveniently ascertain the growth process of mushrooms The growth rate and growth rate of mushroom are greatly increased through the supply of moisture similar to the natural growth state by using the temperature of the medium of the mushroom growing, the relative humidity according to the temperature difference of the ambient atmosphere and the dew point temperature of the medium, The present invention relates to a mushroom growing apparatus capable of easily cultivating and harvesting a large amount of mushrooms.

Mushrooms are common in nature, and about 15,000 species are known around the world. Among them, there are about 300 kinds of mushrooms known as edible. Among mushroom species belonging to fungi, mushrooms include kinds that form fruiting bodies, and their shape, size, color and occurrence conditions are very diverse.

The edible mushroom is unique in taste and fragrance and is used as high quality food. Most of it is supplied by artificial cultivation. Artificial cultivation of mushroom is different according to the kind of mushroom, and the treatment is complicated. And environmental conditions for growth are very demanding, artificial cultivation is being produced in cultivated farms equipped with experts.

The general mushroom cultivation process is different according to the kinds of mushrooms and main ingredients and blending method. However, since a nutrient source is added to the main material, it is sterilized by putting in a box, bottle, and bag and then inoculated and cultured to produce mushroom. , Growers, etc., are needed. This is because the initial investment cost is excessive and a lot of manpower is needed, and it is difficult to keep freshness in all processes ranging from price drop due to mass production, storage of mushrooms after harvest, packaging and sales, and expenses are incurred. However, since the mushroom can be cultivated if only the environmental conditions are provided indoors, the mushroom cultivation in the room can be utilized for the ornamental use along with the learning effect to observe the growth process of the mushroom, and the cultivated mushroom It can be used for food.

1 (registered trademark) No. 10-1522669 (entitled " Indoor mushroom growing machine ") is disclosed in which a mushroom can be cultivated indoors as in the home. As shown in Fig. 1, A water tank 9 is provided by placing a curtain 2 on both sides of the inside of the water tank 9. The heater 3 for water supply, the motor 4 for water supply and the ventilator 7 are disposed in the water tank 9, Humidity and ventilation of the mushroom cultivation space 10 inside the main body by controlling the operation of the water heater 3, the motor 4 for water supply, and the ventilator 7 by the control unit 5, The mushroom cultivation space 10 can be indirectly moved through the operation of the water heater 3 and the water-feeding motor 4 provided inside the main body, To adjust the temperature and humidity to the desired temperature and humidity values There is a problem that it takes a long time and since moisture is supplied to the mushroom 8 of the medium through a method such as raising the moisture in the mushroom cultivation space 10, There is a problem that the mushroom is damaged or the growth is slowed due to the harmful bacteria caused by the inflow with the outside air.

Patent No. 10-1522669 (entitled " Indoor mushroom growing machine ")

The present invention has been made to solve the above problems, and it is an object of the present invention to miniaturize and automate a mushroom cultivation apparatus so that the growth process of the mushroom can be conveniently observed even in a small place such as a home,

It is possible to directly and precisely control the temperature of the medium in which the mushroom grows, the temperature and humidity of the ambient atmosphere, and the relative humidity according to the temperature of the medium and the temperature difference between the ambient atmosphere and the dew point temperature, It is possible to increase the growth rate and growth rate of the mushroom through the environment-like water supply,

In addition, the efficiency of mushroom cultivation space is significantly increased, so that a large amount of mushroom can be easily cultivated and harvested even in a narrow space, and the optimal medium temperature, ambient air temperature and humidity suitable for mushroom cultivation conditions are implemented, So that it can be easily cultivated and harvested.

According to an aspect of the present invention for solving the above-mentioned problems, there is provided an apparatus for measuring an internal temperature and an internal humidity of a living body, A body 110 having a temperature measurement sensor 112 and a body humidity measurement sensor 113; A main body cover 120 detachably coupled to an upper portion of the main body 110 to open and close an opening 111 of the main body 110; The cooling water 131 is stored in the internal space and the cooling water cooling unit 132 is installed on one side of the main body 110 to cool the cooling water 131 to a predetermined temperature, A cooling water storage tank 130 provided with a sensor 133 for measuring the temperature of the stored cooling water 131 in real time and outputting it to the outside; One end of the cooling water is stored in the cooling water storage tank 130 and the other end is protruded into the main body 110 through the one side of the main body 110 to have a predetermined length. The cooling water 131 flowing from the one end of the cooling water flows into the cooling water storage tank 130 through the other end along the outer pipe line 142 from the other end to the cooling water storage tank 130 A cooling water flow tube 140 formed of a double tube to circulate and rotated at a predetermined speed; The cooling water flow pipe 140 is inserted into the center portion of the culture medium, and the culture medium is inoculated with the mushroom seed bacteria 150; A humidifier 160 for supplying moisture into the main body 110; A main body internal temperature controller 170 for heating or cooling the air inside the main body 110 to a predetermined temperature; And the measured values from the main body temperature measuring sensor 112, the main body humidity measuring sensor 113 and the cooling water temperature measuring sensor 133 are inputted to the cooling water cooling device 132, the humidifier 160, A controller 180 for controlling the operation of the internal temperature controller 170; The mushroom grower (100) of the present invention is characterized in that the mushroom grower (100) comprises the mushroom grower (100).

The mushroom grower (100) according to the present invention comprises: a sterilizing device (190) provided inside the main body (110) to sterilize the inside air; And an LED lighting device 191 provided on the left or right side of the main body 110 or the upper inner side of the main cover 120; And can control the operation of the sterilizing device 190 and the LED illumination device 191 through the control unit 180,

Preferably, the cooling water flow pipe 140 is provided with a driving gear 143 on one side of a portion protruding into the main body 110, and the driving gear 144 is connected to the driving chain 144 The control unit 180 controls the driving of the rotation motor 145 to rotate the cooling water flow pipe 140 at a predetermined speed.

The mushroom cultivation apparatus according to the present invention can miniaturize and automate the mushroom cultivation apparatus and can grow the mushroom while conveniently observing the growth process of the mushroom even in a small place such as a home,

It is possible to directly and precisely control the temperature of the medium in which the mushroom grows and the temperature and humidity of the surrounding atmosphere, and the dew point temperature at which the dew is formed in the mushroom of the medium and the relative humidity according to the temperature difference of the ambient atmosphere, The growth rate and the water yield of the mushroom can be remarkably increased through the dew-condensation-like water supply. In addition to the mushroom culture medium, the surrounding atmosphere in which the mushroom grows is maintained in a sterilized state, Can be prevented,

In addition, it greatly improves the efficiency of mushroom cultivation space and enables easy cultivation and harvesting of a large amount of mushroom in a narrow space. By implementing the optimal medium temperature, ambient temperature and humidity suitable for mushroom cultivation conditions, And can be easily cultivated and harvested.

1 is a perspective view showing a conventional mushroom cultivator;
2 is a perspective view showing a mushroom cultivator according to the present invention;
3 is a side view of a mushroom cultivator according to the present invention;
4 is a cross-sectional view of a mushroom grower according to the present invention, showing a cooling water flow tube; And
5 is a graph showing dew point temperature according to atmospheric temperature and relative humidity; to be.

Hereinafter, embodiments of the present invention in which the above object can be specifically realized will be described with reference to the accompanying drawings. In describing the embodiments, the same names are denoted by the same reference numerals, and further description thereof will be omitted below.

FIG. 2 is a perspective view showing a mushroom cultivator 100 according to the present invention, FIG. 3 is a side view showing a mushroom cultivator 100 according to the present invention, and FIG. 4 is a schematic view of a mushroom cultivator 100 according to the present invention, As shown in FIGS. 2 and 3, the mushroom grower 100 according to the present invention has a large mushroom cultivation space inside, and an opening 111 is provided at an upper portion thereof. A cooling water storage tank which is provided in contact with one side of the main body 110 and is filled with cooling water 131 which is cooled and maintained at a predetermined temperature by the operation of the cooling device, a main body cover 110 for opening and closing the main body opening 111, A coolant flow tube 140 having a predetermined length and protruding into the main body 110 at the other end thereof and a coolant flow tube 140 at a center thereof, (150), the body A humidifier (160) for supplying moisture and is configured to include a controller 180 for controlling operation of the main body 110, control unit interior temperature to heat or cool the air inside the apparatus 170 and each of the devices.

As shown in FIGS. 2 and 3, the main body 110 is provided with an empty accommodation space for cultivating mushrooms. The main body 110 is provided with an opening 111 at an upper portion thereof, And is opened / closed through a main cover 120 detachably coupled to an upper portion of the main body 110. The main body 110 is provided with a main body temperature measuring sensor 112 and a main body humidity measuring sensor 113 for measuring the internal temperature and the internal humidity in real time and outputting them to the outside, And the display unit. 2 and 3, an LED lighting device 191 is provided on the left or right side of the main body 110 or on the upper inner side of the main lid 120, And the main body 110 and the main body cover 120 may be formed in a transparent manner, and light may be supplied through peripheral lighting to reduce electrical energy required for illumination.

2 and 3, the cooling water storage tank 130 is provided in contact with one side of the main body 110, and the cooling water 131 is stored in the internal accommodation space, and the cooling water cooling apparatus And a cooling water temperature sensor 133 is provided to measure the temperature of the stored cooling water 131 in real time and output the measured temperature to the outside. 2 and 3, a separate cooling water circulation pump 192 may be provided to maintain the stored water in the cooling water storage tank 130 at a uniform temperature.

3 and 4, one end of the cooling water flow pipe 140 is provided in the cooling water storage tank 130 and the other end of the cooling water flow pipe 140 passes through one side of the main body 110, And the cooling water 131 introduced from one end of the cooling water storage tank 130 flows along the longitudinal center pipe 141 and then flows from the other end to the outer pipe The cooling water storage tank 130, the cooling water storage tank 130, the cooling water storage tank 130, the cooling water storage tank 130, and the cooling water storage tank 130, The cooling water flow tube 140 is inserted and coupled with the cooling water flow tube 140 so that the culture medium uniform rod 150 rotates at a predetermined speed so that the mushroom having actinic properties is uniformly and uniformly formed in the cylindrical culture medium rod 150 It is able to.

3, a driving gear 143 is provided on one side of the cooling water flow pipe 140 protruding into the main body 110, and the driving gear 143, The control unit 180 is configured to rotate the cooling water flow pipe 140 through the operation of the rotation motor 145 connected to the driving chain 144. The control unit 180 controls the driving of the rotation motor 145, So that the cooling water flow tube 140 can be driven to rotate at a predetermined speed.

As shown in FIGS. 2 and 3, the humidifier 160 and the internal temperature controller 170 are provided to adjust the humidity and the temperature of the air in the main body to predetermined humidity values and temperature values, respectively, The control unit 180 receives measured values measured in real time from the main body temperature measuring sensor 112, the main body humidity measuring sensor 113 and the cooling water temperature measuring sensor 133 and receives the measured values from the user setting unit 194 The operation of the cooling water cooling device 132, the humidifier 160, and the main body internal temperature adjusting device 170 is controlled by comparing the received main body temperature reference value, the main body humidity reference value, and the cooling water 131 reference temperature value.

The operation of the mushroom grower 100 according to the present invention will be described in more detail. In the conventional mushroom cultivator 100, in order to supply moisture to the mushroom culture medium, moisture is directly supplied to the culture medium, The mushroom grower 100 according to the present invention is configured to supply moisture to the mushroom culture medium in a manner similar to that in a natural state, The temperature of the mushroom uniform rod 150 is adjusted by cooling the cooling water 131 in the cooling water storage tank 130 circulating through the cooling water flow pipe 140 by a cooling device, Body temperature adjusting device 170, and the humidity is controlled through the humidifier 160.

That is, when the user reports the dew point temperature graph shown in FIG. 5, the reference cooling water temperature value, the body internal temperature value, and the body internal humidity value for causing the dew point to be formed on the mushroom medium are input through the user setting unit 194 The controller 180 controls the cooling water temperature sensor 133 and the body humidity measuring sensor 113 to calculate the reference cooling water temperature value, the internal body temperature value, and the internal humidity value, which are input from the user setting unit 194, The operation of the cooling water cooling device 132, the humidifier 160 and the internal temperature control device 170 are respectively turned on / off by comparing the real-time measurement values received from the cooling water temperature sensor 133 and the real- Off control. The operation of the cooling water cooling unit 132 may be controlled by measuring the temperature of the cooling water 131 in real time. However, although not shown, the mushroom stick 150 may be provided with a mushroom culture temperature sensor, The control unit 180 may control the operation of the cooling water cooling unit 132 by comparing the temperature measurement value of the medium with the reference medium temperature value received from the user There will be.

Alternatively, each of the data values shown in the dew point temperature graph shown in FIG. 5 may be stored in a database and stored in advance in the controller 180. The temperature of the mushroom culture medium at which a dew point can be formed, Moisture is set as a control variable and the remaining two measured values are set as a given fixed value so that the control unit 180 changes the selected one control variable to a database of the two fixed measured values and the previously stored dew point temperature graph The control unit 180 calculates a target value of the control variable at which dew can be formed on the mushroom culture medium, compares the target value of the control variable with the measured value of the real time control variable, On / off operation of a device that can directly adjust the real-time measurement value of the device.

5, if the controller 180 determines that the temperature of the cooling water 131 is higher than the temperature of the cooling water 131 by about 2 ° C, the controller 180 controls the temperature of the cooling water 131 to 9 ° C And controls the operation of the cooling water cooling device 132 by comparing the measured value with the measured value of the cooling water temperature measuring sensor 133 so as to maintain the internal temperature of the main body at a temperature of 25 [ The relative humidity for dew condensation on the mushroom medium is about 40% in FIG. 5 when the operation of the internal temperature control device 170 is controlled by comparing the measured value with the measured value of the inside of the main body 110 The operation of the humidifier 160 is controlled on / off by the measured value of the main humidity sensor 113 so that the relative humidity value of the air becomes 40%. After the dew point temperature graph is stored in the database 180 in advance and stored in the controller 180, a humidity value for dew condensation according to the temperature value of the mushroom culture medium and the internal temperature of the main body is stored in the controller 180, By automatically controlling the operation of the humidifier 160 after automatically calculating the data stored in the graph, it is possible to automatically calculate and supply moisture through dew formation similar to the natural growth environment in the mushroom culture medium, It can be easily and easily improved.

Preferably, the control unit 180 calculates a dew-point temperature value based on the internal temperature value and the moisture value measured according to a given environment at a predetermined time interval through a dew point temperature graph previously input and stored, The temperature of the medium is controlled through the control of the operation of the cooling water cooling device 132. After a predetermined period of time, the air in the main body 110 is ventilated to the surrounding ambient air through a ventilator (not shown) By controlling the operation of the cooling water cooling device 132, it is possible to reduce the energy consumed in controlling the internal temperature and humidity of the main body.

As shown in FIG. 3, a sterilizing device 190 is installed in the main body 110 to prevent the mushroom from being damaged or delayed in growth due to infection caused by harmful microorganisms entering the outside air during ventilation and,

In addition, in the case of the mushroom cultivated in the conventional cylindrical culture medium, the mushrooms located at the lower part of the cylindrical shape are bent upward due to the actinic property, so that the shape is not straightened and the body is thin and long, The control unit 100 rotates the cooling water flow pipe 140 and the mushroom uniform rod 150 which is a mushroom culture medium at a predetermined speed so that the uniform rod 150 is formed into a cylindrical shape so that the mushroom cultivation space is efficiently increased, It is possible to grow radially straight and thick rods of cylindrical bar 150 without warping shape of the body, and thus the merchantability and yield of mushroom can be remarkably improved.

As described above, the mushroom grower 100 according to the present invention can miniaturize and automate the mushroom cultivation apparatus so that the growth process of the mushroom can be conveniently observed even in a narrow place such as a home, It is possible to directly and accurately control the temperature and humidity of the atmosphere, and it is possible to control the moisture content by dew formation similar to the natural growth environment by using the temperature of the medium and the relative humidity according to the temperature difference of the ambient atmosphere and the dew point temperature The growth rate and the probability of the mushroom can be remarkably increased and the surrounding atmosphere in which the mushroom grows as well as the mushroom culture medium can be kept sterilized to prevent the degradation of the mushroom caused by harmful bacteria,

In addition, it greatly improves the efficiency of mushroom cultivation space and enables easy cultivation and harvesting of a large amount of mushroom in a narrow space. By implementing the optimal medium temperature, ambient temperature and humidity suitable for mushroom cultivation conditions, And can be easily cultivated and harvested.

It is to be understood by those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope of the invention,

Accordingly, the above-described embodiments are to be considered illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents are intended to be included within the scope of the present invention.

100: mushroom grower
110: main body 111: opening
112: Body temperature measuring sensor 113: Body humidity measuring sensor
120: main body lid part 130: cooling water storage tank
131: cooling water 132: cooling water cooling device
133: Cooling water temperature measuring sensor 140: Cooling water flow tube
141: Central water pipe 142: Outer pipe
143: chain gear 144: drive chain
145: rotation motor 150:
160: Humidifier 170: Internal temperature control device
180: control unit 190: sterilizing device
191: LED illumination device 192: cooling water circulation pump
193: Cooling water inflow pump 194: User setting section

Claims (3)

A main body temperature measuring sensor 112 and a main body humidity measuring sensor 113 for measuring an internal temperature and an internal humidity in real time and outputting them to the outside, (110);
A main body cover 120 detachably coupled to an upper portion of the main body 110 to open and close an opening 111 of the main body 110;
The cooling water 131 is stored in the internal space and the cooling water cooling unit 132 is installed on one side of the main body 110 to cool the cooling water 131 to a predetermined temperature, A cooling water storage tank 130 provided with a sensor 133 for measuring the temperature of the stored cooling water 131 in real time and outputting it to the outside;
One end of the cooling water is stored in the cooling water storage tank 130 and the other end is protruded into the main body 110 through the one side of the main body 110 to have a predetermined length. The cooling water 131 flowing from the one end of the cooling water flows into the cooling water storage tank 130 through the other end along the outer pipe line 142 from the other end to the cooling water storage tank 130 A cooling water flow tube 140 formed of a double tube to circulate and rotated at a predetermined speed;
The cooling water flow pipe 140 is inserted into the center portion of the culture medium, and the culture medium is inoculated with the mushroom seed bacteria 150;
A humidifier 160 for supplying moisture into the main body 110;
A main body internal temperature controller 170 for heating or cooling the air inside the main body 110 to a predetermined temperature; And
The measured values measured from the body temperature measuring sensor 112, the body humidity measuring sensor 113 and the cooling water temperature measuring sensor 133 are inputted to the cooling water cooling device 132, the humidifier 160, A control unit (180) for controlling the operation of the regulating device (170); The mushroom grower (100) according to any one of claims 1 to 3,
The method according to claim 1,
A sterilizing device 190 installed in the main body 110 to sterilize the inside air; And
An LED lighting device 191 provided on the left or right side of the main body 110 or the upper inner side of the main cover 120; Further comprising:
And controls the operation of the sterilizing device (190) and the LED illumination device (191) through the controller (180).
3. The method according to claim 1 or 2,
A driving gear 143 is provided on one side of the cooling water flow pipe 140 protruding into the main body 110 and a rotating motor 145 connected to the gear 143 through a driving chain 144 And the control unit 180 controls driving of the rotation motor 145 to rotate the cooling water flow pipe 140 at a predetermined speed.

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