CN110727227A - Flower growth environment intelligent regulation and control system based on biofeedback - Google Patents

Abstract

The invention relates to a flower growth environment intelligent regulation and control system based on biofeedback, which comprises a control manager for control management, a luminosity regulation and control unit, a temperature regulation and control unit, a humidity regulation and control unit, a data comparison module, a wireless transmission module and a flower growth state image acquisition module, wherein the luminosity regulation and control unit, the temperature regulation and control unit, the humidity regulation and control unit, the data comparison module, the wireless transmission module and the flower growth state image acquisition module are electrically connected with; the luminosity regulation and control unit comprises a light intensity sensor for collecting indoor luminosity signals, a luminosity regulation and control module and an illumination module, wherein the output end of the luminosity regulation and control module is connected with the input end of the illumination module, the output end of the light intensity sensor is connected with a control manager, and the control manager is connected with the input end of the luminosity regulation and control module. The intelligent flower growth environment regulating and controlling system based on the biofeedback disclosed by the invention has the characteristics of simplicity in operation, complete functions, strong pertinence and good expansibility, and can realize intelligent control on illumination and humidity required by flower growth so as to realize the advantages of good safety, large application range, convenience in use and low error rate.

Description

Flower growth environment intelligent regulation and control system based on biofeedback

Technical Field

The invention relates to the technical field of flower planting, in particular to an intelligent flower growth environment regulating and controlling system based on biofeedback.

Background

Nowadays, people can plant more flowers indoors, and the flowers play an important role in some occasions. The green potted flowers decorative rooms become fashionable, the mood can be relieved, the interest of life can be mastered in pottery, and the large potted landscape flowers can bring considerable economic benefits. Therefore, the demand of flowers is large, and the technical requirements for planting the flowers are higher and higher.

Current flower planting is in the big-arch shelter, and the manual work is managed, does not have dedicated intelligent supervisory systems, has wasted a large amount of labours, though used a large amount of modernization instruments, still can not carry out the attention at every moment, regulation to the growing environment of flowers, leads to the environmental information that can't in time learn flowers and cultivate the growth, just so leads to flowers and growing environment to mismatch, has influenced the growth of flowers, has reduced the survival rate that flowers were cultivated. In the prior art, the greenhouse for planting mainly has the functions of sealing, insulating and facilitating ventilation; however, the current temperature regulation measure of the greenhouse is to arrange a ventilation window at the top end of the greenhouse and install a thermometer in the greenhouse. When the temperature needs to be adjusted, a plurality of workers need to repeatedly roll up and put down or open and close the ventilation window to adjust the indoor temperature. The adjusting mode is time-consuming and labor-consuming, and the optimal temperature required by the growth of the plants in the temperature control chamber is difficult to control, so that the industrial production requirement cannot be met.

In recent years, with the continuous development of the electronic technology, the technology of internet of things, the sensor technology, the mobile communication technology, the computer network technology and the meteorological theory, the design of an intelligent regulation and control system with biofeedback and accurate control of the flower growth environment becomes possible. However, most of the current flower planting-related systems have single functions, and can only realize simple watering or environmental parameter measurement functions for fixed flower plants.

The utility model discloses a patent application number is 201610670528.9 utility model discloses a flowers planting detecting system of family, including one or more be used for detecting the flowers planting detector of family who plants the environmental parameter of flower place, still include with flowers planting detector wireless connection's of family host computer, and with host computer wireless connection's one or more user terminal. Adopt this utility model scheme can gather and the analysis to the real-time illuminance of every kind of flowers in the family, data such as humiture, soil nutrient, moisture, judge whether it is in the most suitable growing environment to provide the best planting suggestion for the user through the system. But this technique also has disadvantages. For example, the system only realizes the function of measuring the environmental parameters of the flower plants, but does not have the functions of automatic illumination adjustment, automatic irrigation, automatic fertilization, automatic trimming and the like, and cannot realize the full-automatic intelligent planting management of the household balcony flower plants.

Therefore, the development of a flower growth environment intelligent regulation and control system based on biofeedback is imperative.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides a flower growth environment intelligent regulation and control system based on biofeedback, has the characteristics of simple operation, complete functions, strong pertinence and good expansibility, can realize intelligent control on illumination and humidity and physical control on diseases required by flower growth, and has the advantages of good safety, wide application range, convenience in use and low error rate.

In order to achieve the purpose, the invention adopts the technical scheme that:

a flower growth environment intelligent regulation and control system based on biofeedback is characterized by comprising a control manager for control management, a luminosity regulation and control unit, a temperature regulation and control unit, a humidity regulation and control unit, a data comparison module, a wireless transmission module and a flower growth state image acquisition module, wherein the luminosity regulation and control unit, the temperature regulation and control unit, the humidity regulation and control unit, the data comparison module, the wireless transmission module and the flower growth state image acquisition module are electrically connected with the control manager; the luminosity regulation and control unit comprises a light intensity sensor for collecting indoor luminosity signals, a luminosity regulation and control module and an illumination module, wherein the output end of the luminosity regulation and control module is connected with the input end of the illumination module, the output end of the light intensity sensor is connected with a control manager, and the control manager is connected with the input end of the luminosity regulation and control module; the control manager is in wireless connection with the mobile terminal through the wireless transmission module, and interaction of regulation and control and detection instructions is achieved.

Furthermore, the input end of the flower growth state image acquisition module is connected with a camera.

Further, the temperature regulation and control unit comprises a temperature sensor for collecting a temperature signal in the greenhouse and an air conditioning system for regulating the indoor temperature.

Further, the humidity regulation and control unit comprises a humidity sensor for collecting humidity signals in the greenhouse and a humidifying device for adjusting the indoor humidity.

Further, the intelligent flower growth environment regulation and control system based on biofeedback further comprises a storage module electrically connected with the control manager.

Furthermore, the flower growth environment intelligent regulation and control system based on biofeedback further comprises a power module electrically connected with the control manager, and a battery is connected to the power module.

Furthermore, a USB network card interface is connected to the wireless transmission module.

Further, the USB network card interface is used for plugging a WIFI network card and/or a 5G network card.

When the intelligent flower growth environment regulation and control system based on biofeedback disclosed by the invention works, information acquired by a camera, a temperature sensor, a humidity sensor and a light intensity sensor is transmitted to a control manager, the control manager sends out an instruction, a data comparison module is required to compare the data, the difference between the most suitable environment data required by flower growth and actual data is judged according to the acquired information, the most suitable environment data and the actual data are connected with a mobile terminal through a wireless transmission module, and after the mobile terminal sends out the instruction, an illumination module, a humidifying device and an air conditioning system are instructed to regulate the environment according to the instruction requirement; if the mobile terminal does not send the instruction, the instruction can be automatically carried out according to the program, so that the purpose of intelligently regulating and controlling the flower growth environment based on the biofeedback is achieved.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages: the flower growth environment intelligent regulation and control system based on biofeedback provided by the invention has the characteristics of simple operation, complete functions, strong pertinence and good expansibility, can realize intelligent control on illumination and humidity required by flower growth and physical prevention and control on diseases, and has the advantages of good safety, large application range, convenience and quickness in use and low error rate.

Drawings

FIG. 1 is a block diagram of a flower growing environment intelligent regulation and control system based on biofeedback.

Detailed Description

The invention relates to a flower growth environment intelligent regulation and control system based on biofeedback, which is characterized by comprising a control manager for control management, a luminosity regulation and control unit, a temperature regulation and control unit, a humidity regulation and control unit, a data comparison module, a wireless transmission module and a flower growth state image acquisition module, wherein the luminosity regulation and control unit, the temperature regulation and control unit, the humidity regulation and control unit, the data comparison module, the wireless transmission module and the flower growth state image acquisition module are electrically connected with; the luminosity regulation and control unit comprises a light intensity sensor for collecting indoor luminosity signals, a luminosity regulation and control module and an illumination module, wherein the output end of the luminosity regulation and control module is connected with the input end of the illumination module, the output end of the light intensity sensor is connected with a control manager, and the control manager is connected with the input end of the luminosity regulation and control module; the control manager is in wireless connection with the mobile terminal through the wireless transmission module, and interaction of regulation and control and detection instructions is achieved.

Furthermore, the input end of the flower growth state image acquisition module is connected with a camera.

Further, the temperature regulation and control unit comprises a temperature sensor for collecting a temperature signal in the greenhouse and an air conditioning system for regulating the indoor temperature.

Further, the humidity regulation and control unit comprises a humidity sensor for collecting humidity signals in the greenhouse and a humidifying device for adjusting the indoor humidity.

Further, the intelligent flower growth environment regulation and control system based on biofeedback further comprises a storage module electrically connected with the control manager.

Furthermore, the flower growth environment intelligent regulation and control system based on biofeedback further comprises a power module electrically connected with the control manager, and a battery is connected to the power module.

Furthermore, a USB network card interface is connected to the wireless transmission module.

Further, the USB network card interface is used for plugging a WIFI network card and/or a 5G network card.

When the intelligent flower growth environment regulation and control system based on biofeedback disclosed by the invention works, information acquired by a camera, a temperature sensor, a humidity sensor and a light intensity sensor is transmitted to a control manager, the control manager sends out an instruction, a data comparison module is required to compare the data, the difference between the most suitable environment data required by flower growth and actual data is judged according to the acquired information, the most suitable environment data and the actual data are connected with a mobile terminal through a wireless transmission module, and after the mobile terminal sends out the instruction, an illumination module, a humidifying device and an air conditioning system are instructed to regulate the environment according to the instruction requirement; if the mobile terminal does not send the instruction, the instruction can be automatically carried out according to the program, so that the purpose of intelligently regulating and controlling the flower growth environment based on the biofeedback is achieved.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages: the flower growth environment intelligent regulation and control system based on biofeedback provided by the invention has the characteristics of simple operation, complete functions, strong pertinence and good expansibility, can realize intelligent control on illumination and humidity required by flower growth and physical prevention and control on diseases, and has the advantages of good safety, large application range, convenience and quickness in use and low error rate.

The invention will be further described with reference to specific examples, but the scope of the invention is not limited thereto.

Example 1

The embodiment 1 provides a flower growth environment intelligent regulation and control system based on biofeedback, which is characterized by comprising a control manager for control management, a luminosity regulation and control unit, a temperature regulation and control unit, a humidity regulation and control unit, a data comparison module, a wireless transmission module and a flower growth state image acquisition module, wherein the luminosity regulation and control unit, the temperature regulation and control unit, the humidity regulation and control unit, the data comparison module, the wireless transmission module and the flower growth state image acquisition module are electrically connected with the control manager; the luminosity regulation and control unit comprises a light intensity sensor for collecting indoor luminosity signals, a luminosity regulation and control module and an illumination module, wherein the output end of the luminosity regulation and control module is connected with the input end of the illumination module, the output end of the light intensity sensor is connected with a control manager, and the control manager is connected with the input end of the luminosity regulation and control module; the control manager is in wireless connection with the mobile terminal through the wireless transmission module, and interaction of regulation and control and detection instructions is achieved.

The input end of the flower growth state image acquisition module is connected with a camera.

The temperature regulation and control unit comprises a temperature sensor for collecting indoor temperature signals and an air conditioning system for regulating the indoor temperature.

The humidity regulation and control unit comprises a humidity sensor for collecting humidity signals in the greenhouse and a humidifying device for adjusting the indoor humidity.

The intelligent flower growth environment regulation and control system based on biofeedback further comprises a storage module electrically connected with the control manager.

The intelligent flower growth environment regulation and control system based on biofeedback further comprises a power module electrically connected with the control manager, and a battery is connected to the power module.

And the wireless transmission module is connected with a USB network card interface.

The USB network card interface is used for plugging a 5G network card.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (8)

1. A flower growth environment intelligent regulation and control system based on biofeedback is characterized by comprising a control manager for control management, a luminosity regulation and control unit, a temperature regulation and control unit, a humidity regulation and control unit, a data comparison module, a wireless transmission module and a flower growth state image acquisition module, wherein the luminosity regulation and control unit, the temperature regulation and control unit, the humidity regulation and control unit, the data comparison module, the wireless transmission module and the flower growth state image acquisition module are electrically connected with the control manager; the luminosity regulation and control unit comprises a light intensity sensor for collecting indoor luminosity signals, a luminosity regulation and control module and an illumination module, wherein the output end of the luminosity regulation and control module is connected with the input end of the illumination module, the output end of the light intensity sensor is connected with a control manager, and the control manager is connected with the input end of the luminosity regulation and control module; the control manager is in wireless connection with the mobile terminal through the wireless transmission module, and interaction of regulation and control and detection instructions is achieved.

2. A flower growing environment intelligent control system based on biofeedback as claimed in claim 1, wherein the input end of the flower growing state image collection module is connected with a camera.

3. A floral growth environment intelligent regulation system based on biofeedback as claimed in claim 1, wherein said temperature regulation unit comprises a temperature sensor for collecting a temperature signal in the greenhouse and an air conditioning system for regulating the indoor temperature.

4. A flower growing environment intelligent regulation and control system based on biofeedback as claimed in claim 1, wherein the humidity regulation and control unit comprises a humidity sensor for collecting humidity signals in the greenhouse and a humidifying device for adjusting the indoor humidity.

5. A floral growth environment intelligent regulation system based on biofeedback as claimed in claim 1, further comprising a storage module electrically connected to said control manager.

6. A flower growth environment intelligent regulation system based on biofeedback as claimed in claim 1, further comprising a power module electrically connected with the control manager, wherein a battery is connected to the power module.

7. A flower growing environment intelligent regulation and control system based on biofeedback as claimed in claim 1, wherein a USB network card interface is connected to the wireless transmission module.

8. A flower growth environment intelligent regulation and control system based on biofeedback as claimed in claim 1, wherein the USB network card interface is a USB network card interface for plugging a WIFI network card and/or a 5G network card.