TWM642832U - Smart control incubator device to improve growth of Antrodia cinnamomea - Google Patents

Abstract

An intelligent control incubator device for promoting the growth of Antrodia cinnamomea, including a temperature sensing and adjusting module, a humidity sensing and adjusting module, a carbon dioxide sensing and adjusting module, and LED light sources with specific wavelengths such as red, green, and blue module, a nutrient source supply module is added, and all the above-mentioned equipment adjustments can be remotely controlled through the micro-processing module and the cloud monitoring module. When in use, several light sources with specific different wavelengths are used to intermittently irradiate Antrodia camphorata that has been cultivated by Cinnamomum camphora basswood, and the environmental humidity and temperature can be adjusted in real time, and nutrient sources can be supplemented to simulate the optimum growth of Antrodia camphorata in the wild. Environmental conditions; the analysis results of the growth and functional substances of Antrodia cinnamomea cultivated in a smart incubator are shown in Table 1. After 18 months of continuous cultivation, the weight of Antrodia cintrodia in the experimental group increased by 26% compared with the control group, and the triterpenoids Compounds can be increased by 12%, while polysaccharides increased by 4%.

Description

The intelligent control incubator device to improve the growth of Antrodia cinnamomea

This creation is about an intelligently controlled incubator device for promoting the growth of Antrodia Cinnamomea, especially an incubator involving Antrodia Cintrodia, Ganoderma lucidum and even most of the plants, especially the one that can successfully increase the growth of Antrodia Cintrodia and effectively enhance the functions of Antrodia Cintrodia content of sexual substances.

The current technology has proposed to increase the production of triterpenoids or polysaccharides of Antrodia antrodia with a specific LED light source, but it cannot increase multiple functional substances at the same time by using a single specific light source. It is also proposed to use a specific culture medium for solid-state culture of Antrodia, and the ingredients of the cultured Antrodia are closer to wild species or artificial species cultivated with basswood. Although the artificially cultivated Antrodia can produce fruiting bodies when cultured in a solid state, The ingredients are similar to wild species or basswood cultured species, but the content of functional substances is still different from the two.

In view of the various problems of the prior art, in order to solve them, it is necessary to develop a set of inventions that can solve the problems of the quantity and content of functional substances and the technical shortcomings of the prior art.

The main purpose of this creation is to overcome the above-mentioned problems encountered by conventional techniques and provide an improvement that can successfully increase the growth of Antrodia cintrodia and effectively increase the content of functional substances in Antrodia cintrodia, so as to reduce the current situation of illegal exploitation of wild Antrodia cintrodia The intelligent control incubator device for the growth of Antrodia camphorata.

Another purpose of this creation is to provide a kind of intelligent control cultivation to improve the growth of Antrodia cintrodia by improving the production of Antrodia cintrodia and reducing the overall price so as to facilitate the universality of use. box device.

In order to achieve the above purpose, this creation is an intelligent control incubator device for promoting the growth of Antrodia cinnamomea. Place and hold the nutrient source. The ambient temperature range of the culture chamber in the smart incubator is between 24.5~25.5°C, and the humidity range is between 91~95%. A nutrient source supply module, It is installed on the smart incubator so that the nutrient source in the culture chamber can be supplemented by external injection, and the nutrient source comes from the microalgae fermentation broth of several algae, and its carbon-nitrogen ratio is 1:5 ~1:6; a temperature sensing adjustment module, set in the smart incubator, used to sense the temperature of the cultivation chamber, and generate an ambient temperature information accordingly; a humidity sensing adjustment module, set In the smart incubator, it is used to sense the humidity of the cultivation chamber and generate an environmental humidity information accordingly; an LED light source module is installed in the cultivation chamber for red light, green light of specific wavelength Light, and blue light intermittently irradiate the inoculated Antrodia camphorata; a micro-processing module is connected to the nutrient source supply module, the temperature sensing adjustment module, the humidity sensing adjustment module and the LED light source module set, the micro-processing module receives and transmits the environmental temperature information and the environmental humidity information to the network; The network receives the environmental temperature information and the environmental humidity information from the micro-processing module, and remotely controls the temperature sensing adjustment module and the humidity sensing adjustment module to dynamically adjust the environmental temperature and humidity in real time , or according to the remote control of the LED light source module to intermittently irradiate red light, green light, and blue light during the cultivation period, or to remotely control the nutrient source supply module to supplement the nutrient source during the cultivation period, or its combination.

In the above-mentioned embodiments of the present invention, the nutrient source supply module is a sprinkler.

In the above-mentioned embodiments of the present invention, the nutrient source is from the microalgae fermentation broth of green algae, brown algae and red algae.

In the above-mentioned embodiment of the present invention, the cloud monitoring module remotely controls the LED light source module to perform intermittent irradiation with red light 6 mol/s, green light 10 mol/s, and blue light 9 mol/s during the cultivation period.

In the above-mentioned embodiment of this creation, the cloud monitoring module remotely controls the nutrient supply The nutrient source was supplemented every three weeks for the modules during the culture period.

In the above embodiments of the present invention, the temperature sensing and adjusting module includes a thermometer and a heater.

In the above embodiments of the present invention, the humidity sensing and adjusting module includes a hygrometer and a humidifier.

In the above embodiments of the present invention, the micro-processing module is a single-board computer.

In the above-mentioned embodiment of this creation, the culture medium is a cinnamomum camphora, which is cleaned and sterilized by high temperature and high pressure, and the cinnamomum camphorata strain is inoculated on the surface of the cinnamomum camphora by inoculating with a planar spore washing solution.

In the above-mentioned embodiment of the present invention, it further includes a carbon dioxide sensing adjustment module, which is installed in the cultivation chamber and connected with the micro-processing module, to sense the carbon dioxide concentration in the cultivation chamber and generate Environmental carbon dioxide concentration information is received by the micro-processing module and sent to the cloud monitoring module through the network.

100: Intelligent control incubator device

1: Smart incubator

11: Culture chamber

12: Camphor Basswood

2: Nutrition source supply module

21: Nutrient source

3: Temperature sensing and adjustment module

31: Thermometer

32: heater

4: Humidity sensing and adjustment module

41:Hygrometer

42: Humidifier

5: LED light source module

6: Microprocessing module

61: Network

7: Cloud monitoring module

71: IoT Unit

8: Antrodia camphorata

9: Carbon dioxide sensing and adjustment module

Figure 1 is a schematic block diagram of a specific embodiment of the intelligent control incubator device of this invention.

Fig. 2 is a three-dimensional schematic diagram of a specific embodiment of the intelligent control incubator device of this invention.

Please refer to "Fig. 1 and Fig. 2", which are respectively a schematic diagram of a block structure of a specific embodiment of the intelligent control incubator device of this invention, and a three-dimensional schematic diagram of a specific embodiment of the intelligent control incubator device of this invention. As shown in the figure: This creation is a smart control incubator device for improving the growth of Antrodia cinnamomea, which includes a smart incubator 1, a nutrient source supply module 2, a temperature sensing and adjusting A section module 3, a humidity sensing and adjusting module 4, an LED light source module 5, a micro-processing module 6, and a cloud monitoring module 7.

The above-mentioned smart incubator 1 forms a culture chamber 11 in the box, which is used to provide the placement of the culture medium inoculated with Antrodia camphorata strains, and can accommodate the nutrient source 21 . The ambient temperature range of the cultivation chamber 11 in the smart incubator 1 is between 24.5°C and 25.5°C, the humidity range is between 91% and 95%, and the culture medium is a camphor tree 12 .

The nutrient source supply module 2 can be a sprinkler, which is installed on the smart incubator 1, so that the nutrient source 21 in the culture chamber 11 can be replenished by external injection, and the nutrient source comes from several kinds The microalgae fermentation liquid of algae has a carbon-to-nitrogen ratio of 1:5~1:6.

The temperature sensing and adjusting module 3 is installed in the smart incubator 1 to sense the temperature of the cultivation chamber 11 and generate an ambient temperature information accordingly. Wherein, the temperature sensing and adjusting module 3 includes a thermometer 31 and a heater 32 .

The humidity sensing and adjusting module 4 is installed in the smart incubator 1 to sense the humidity of the cultivation chamber 11 and generate environmental humidity information accordingly. Wherein, the humidity sensing and adjusting module 4 includes a hygrometer 41 and a humidifier 42 .

The LED light source module 5 is set in the culture chamber 11, and is used for intermittently irradiating the inoculated Antrodia camphorata 8 with red light, green light, and blue light of specific wavelengths.

The micro-processing module 6 can be a single-board computer, and is respectively connected to the nutrient source supply module 2 , the temperature sensing and adjusting module 3 , the humidity sensing and adjusting module 4 and the LED light source module 5 . The micro-processing module 6 receives and sends the ambient temperature information and the ambient humidity information to a network 61 .

The cloud monitoring module 7 is provided with an Internet of Things unit 71, which can remotely control the microprocessing module 6 to receive the environmental temperature information and the environmental humidity information from the microprocessing module 6 via the network 61, And according to the remote control of the temperature sensing adjustment module 3 and the humidity sensing adjustment module 4 can dynamically adjust the ambient temperature and humidity in real time, or according to the remote control of the LED light source module 5 in During the cultivation period, red light, green light, and blue light are irradiated intermittently, or the nutrient source supply module 2 is remotely controlled to supplement the nutrient source 21 during the cultivation period, or a combination thereof. If so, a brand-new intelligent control incubator device 100 for promoting the growth of Antrodia camphorata is formed by the above disclosed device.

The above intelligent control incubator device 100 for promoting the growth of Antrodia cinnamomea further includes a carbon dioxide sensing and adjusting module 9, which is installed in the cultivation chamber 11 and connected with the micro-processing module 6 for sensing the cultivation chamber. The carbon dioxide concentration in the chamber 11 is used to generate ambient carbon dioxide concentration information, which is received by the micro-processing module 6 and sent to the cloud monitoring module 7 through the network 61 .

The following examples are only examples for understanding the details and connotation of the invention, but are not intended to limit the patent scope of the invention.

In one of the preferred specific embodiments of this creation, this creation is the first to create an Antrodia camphorata smart incubator 1 that includes a temperature sensing and adjusting module 3, a humidity sensing and adjusting module 4, and a carbon dioxide sensing and adjusting module 9, and is equipped with red, The LED light source module 5 with specific wavelengths such as green and blue is further provided with a nutrient source supply module 2, and all the above-mentioned equipment adjustments can be remotely controlled through the micro-processing module 6 and the cloud monitoring module 7. When in use, several light sources with different wavelengths are used to intermittently irradiate the Antrodia camphorata 8 that has been cultivated by the basswood 12, and the environmental humidity and temperature can be adjusted in real time, and the nutrient source 21 can be supplemented to simulate the growth of Antrodia camphorata in the wild. The optimal environmental conditions for growth; the analysis results of the growth and functional substances of Antrodia cinnamomea cultivated in a smart incubator are shown in Table 1. After 18 months of continuous cultivation, the weight of Antrodia cinnamomea in the experimental group increased by 26% compared with the control group. And triterpenoids can be increased by 12%, while polysaccharides can be increased by 4%.

[Implementation mode 1] Inoculation of Antrodia camphorata strains

Firstly, the cinnamomum cinnamomea 12 was cleaned, and then 60 minutes of high temperature and high pressure sterilization was carried out at a sterilization temperature of 121° C., and then the cinnamomum cinnamomea fungus was inoculated on the surface of the cinnamomum cinnamomea 12 by inoculating with a plane washing solution. The ambient temperature is controlled at 25±0.5° C., and the humidity is at 93±2%, and placed in the cultivation chamber 11 of the smart incubator 1 for cultivation.

[Implementation mode 2] Regulation of smart incubator

The smart incubator 1 can be remotely controlled by the micro-processing module 6 and the cloud monitoring module 7. The temperature of the cultivation chamber 11 in the box is kept at 25±0.5°C, and the humidity is maintained at 93±2%, with automatic humidification The device 42 is used to increase the humidity, so that the temperature and humidity in the cultivation chamber 11 can be stably controlled for a long time, and during the cultivation period, the LED light source module 5 is controlled to use 6 mol/s of red light, 10 mol/s of green light, and 9 mol/s of blue light. Intermittent irradiation is carried out, and at the same time, the nutrient source supply module 2 is fixedly sprayed with the nutrient source 21 of the microalgae fermentation liquid every three weeks.

[Embodiment 3] Nutrition source composition

The above-mentioned nutrient source 21 comes from microalgae fermentation liquid of several kinds of algae such as green algae, brown algae and red algae, and its carbon-nitrogen ratio is 1:5~1:6.

Therefore, this creation intends to improve the growth of Antrodia Cinnamomea and reduce the illegal mining of wild Antrodia Cinnamomea. Therefore, a smart control incubator device is proposed to improve the growth of Antrodia Cinnamomum. This device has successfully improved the growth of Antrodia Cinnamomea, and Effectively increasing the content of functional substances in Antrodia Cinnamomea will reduce the overall price by increasing the production of Antrodia Cinnamomea, and facilitate the universality of use. It can be applied to the cultivation of Antrodia Cintrodia, Ganoderma lucidum and even most plants.

To sum up, this creation is an intelligent control incubator device for promoting the growth of Antrodia cintrodia, which can effectively improve various shortcomings of conventional use, successfully enhance the growth of Antrodia cintrodia, and effectively increase the content of functional substances in Antrodia cintrodia. By increasing the production of Antrodia Cinnamomea and reducing the overall price, in order to facilitate the universality of use, it can be applied to the cultivation of Antrodia Cinnamomea, Ganoderma lucidum and even most plants, so that the production of this creation can be more advanced, more practical, and more in line with the needs of users. has indeed met the requirements for a utility model patent application, ∙ File a patent application in accordance with the law

However, the above is only a preferred embodiment of this creation, and should not limit the scope of implementation of this creation; therefore, all simple equivalent changes and modifications made according to the patent scope of this creation and the content of the new specification , should still fall within the scope covered by this creation patent.

100: Intelligent control incubator device

1: Smart incubator

11: Culture chamber

12: Camphor Basswood

2: Nutrition source supply module

21: Nutrient source

3: Temperature sensing and adjustment module

31: Thermometer

32: heater

4: Humidity sensing and adjustment module

41:Hygrometer

42: Humidifier

5: LED light source module

6: Microprocessing module

61: Network

7: Cloud monitoring module

71: IoT Unit

8: Antrodia camphorata

9: Carbon dioxide sensing and adjustment module

Claims (10)

An intelligent control incubator device for promoting the growth of Antrodia camphorata, comprising: A smart incubator, forming a culture chamber in the case, which is used to provide the placement of the culture medium inoculated with Antrodia camphorata strains, and can hold nutrient sources. The ambient temperature range of the culture chamber in the smart incubator is between Between 24.5~25.5℃, the humidity range is between 91~95%; A nutrient source supply module is installed on the smart incubator to supplement the nutrient source in the culture chamber by external injection, and the nutrient source comes from the microalgae fermentation broth of several algae. The carbon-nitrogen ratio is 1:5~1:6; A temperature sensing and adjusting module, installed in the smart incubator, is used to sense the temperature of the cultivation chamber and generate an environmental temperature information accordingly; A humidity sensing and adjusting module, installed in the smart incubator, is used to sense the humidity of the cultivation chamber and generate an environmental humidity information accordingly; An LED light source module, installed in the culture chamber, is used to intermittently irradiate the inoculated Antrodia camphorata with red light, green light, and blue light of specific wavelengths; A micro-processing module, respectively connected to the nutrient source supply module, the temperature sensing and adjusting module, the humidity sensing and adjusting module and the LED light source module, the micro-processing module receives and transmits the environmental temperature information and The ambient humidity information is uploaded to the Internet; and A cloud monitoring module, equipped with an Internet of Things unit, can remotely control the micro-processing module to receive the environmental temperature information and the environmental humidity information from the micro-processing module through the network, and based on the remote Controlling the temperature sensing and adjusting module and the humidity sensing and adjusting module can dynamically adjust the ambient temperature and humidity in real time, or remotely control the LED light source module to emit red light and green light intermittently during the cultivation period , and blue light, or remotely control the nutrient source supply module to supplement the nutrient source during the cultivation period, or a combination thereof. According to the intelligent control incubator device for enhancing the growth of Antrodia cinnamomea described in item 1 of the scope of the patent application, the nutrient source supply module is a sprinkler. According to the intelligent control incubator device for enhancing the growth of Antrodia cinnamomea described in item 1 of the scope of the patent application, the nutrient source comes from the microalgae fermentation broth of green algae, brown algae and red algae. According to the intelligent control incubator device for enhancing the growth of Antrodia cinnamomea described in item 1 of the scope of patent application, the cloud monitoring module remotely controls the LED light source module to emit 6 mol/s of red light and 10 mol of green light during the cultivation period. /s, and blue light 9mol/s for intermittent irradiation. According to the intelligent control incubator device for enhancing the growth of Antrodia cinnamomea described in item 1 of the scope of the patent application, the cloud monitoring module remotely controls the nutrient source supply module to fix the nutrient source every three weeks during the cultivation period Replenish. According to the intelligent control incubator device for promoting the growth of Antrodia cinnamomea according to item 1 of the patent application, the temperature sensing and adjusting module includes a thermometer and a heater. According to the intelligent control incubator device for enhancing the growth of Antrodia cinnamomea according to item 1 of the patent application, the humidity sensing and adjusting module includes a hygrometer and a humidifier. According to the intelligent control incubator device for promoting the growth of Antrodia cinnamomea described in item 1 of the scope of application, the micro-processing module is a single-board computer. According to the intelligent control incubator device for enhancing the growth of Antrodia cinnamomea described in item 1 of the scope of the patent application, the culture medium is a cinnamomum camphora basswood, which is inoculated with a plane spore washing solution after cleaning and high temperature and high pressure sterilization The method is to inoculate the Antrodia camphorata fungus on the surface of the Antrodia camphorata basswood. The intelligent control incubator device for enhancing the growth of Antrodia cinnamomea according to item 1 of the scope of the patent application further includes a carbon dioxide sensing adjustment module, which is set in the cultivation chamber and connected with the micro-processing module for The carbon dioxide concentration in the cultivation container is sensed to generate environmental carbon dioxide concentration information, which is received by the micro-processing module and sent to the cloud monitoring module through the network.

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