TWM521879U - Remote network monitoring light-emitting diode greenhouse system - Google Patents

Description

Remote network monitoring LED greenhouse system

This creation is about a remote network monitoring LED greenhouse system, especially a novel greenhouse system that can remotely monitor and watch the growth process of plants, so that the self-cultivating plants can be well cared for, and the growers can understand the plant growth status. The primary author of the creation.

According to the recent relationship between the food safety and the popularization of the concept of food safety and health, it seems that there is no other idea than to buy organic vegetables in the city to eat healthy food. However, the price of organic vegetables is generally sold. Expensive, giving us the idea of inspiring self-sufficiency, so it seems to be a good solution for everyone to grow vegetables in their own homes. The use of hydroponic cultivation is also receiving more and more attention because of hydroponic cultivation. This way, most people who are restricted to the living environment and have no extra space can use the corner of the house to grow vegetables. This will not only avoid the consumption of vegetables with pesticide residues, but also enjoy the fun of growing vegetables at home.

However, for urban office workers, the current society, whether it is adults or children, has a lot of things to do, there is no way to go home to take care of plants at a fixed time. Therefore, time is one of the factors that are quite difficult to cooperate with. Therefore, in the near future, there is a cloud smart greenhouse in the United States. In addition to reducing the size of the greenhouse to a small box, the APP can make different environmental adjustments for plants such as vegetables, fruits and even herbs, and has a built-in detector to take the plants. Information about the environment is transmitted to the cloud, and the state of the plant can be instantly understood by mobile devices such as mobile phones. In addition to automatically adjusting the amount of light, temperature and humidity in the smart greenhouse, there are also detectors that can transmit the current state of the greenhouse to the cloud space, which can be viewed instantly by the APP. The exclusive APP can support different plants such as fruits, vegetables, and even herbs. After setting, the greenhouse will automatically adjust to the environment. When encountering important events, it will remind you to trim, just like playing games, but its disadvantage is this system. Only people with this app can watch the environment.

The reason is that the creators, in view of this, uphold the rich experience in design and development and actual production of the relevant industry for many years, research and improve the existing structure and lack, and provide a remote network monitoring LED greenhouse system, in order to achieve better practical value. The purpose of sex.

The main purpose of this creation is to provide a remote network monitoring LED greenhouse system, especially a greenhouse system that can remotely monitor and watch the growth process of plants, so that the self-cultivating plants can be fully taken care of, and the growers can understand the plant growth status. For the purpose.

The main purpose and efficacy of the remote network monitoring LED greenhouse system of this creation is achieved by the following specific technical means:

The remote control unit is connected to a micro control unit via a network. The micro control unit is installed in a greenhouse, and the micro control unit is connected to a plurality of sensors. The sensor is used for the sensor. Detecting the temperature, humidity, and brightness in the greenhouse environment, so that the sensing value can be displayed on the remote operation interface. At the same time, the micro control unit is connected to an LED module and a photographic module, and can be monitored by the photographic module for real-time image monitoring. Keep abreast of the greenhouse conditions, and automatically judge from the sensed values, automatically adjust the temperature, humidity, brightness and other automation functions; thereby allowing the user to see the growth process of the plant from scratch.

The remote network monitoring LED greenhouse system as described above further includes a network development board, the network development board is connected to the micro control unit, and the network development board uses an Ethernet connection or a Wi-Fi network. Road linker.

By the above, the composition and use description of the authoring structure can be seen that this creation has the following advantages compared with the existing structure:

The remote network monitoring LED greenhouse system can monitor the real-time image at any time, keep abreast of the greenhouse condition, and automatically judge the value captured from the sensor, and automatically adjust the advantages of automation functions such as temperature, humidity and brightness.

In order to make the technical content, creative purpose and the effect achieved by this creation more complete and clear, please elaborate below, and please refer to the drawings and drawings:

First, please refer to the first to second figures, which is a schematic diagram of the remote network monitoring LED greenhouse system of the creation, which mainly includes:

a remote operation interface (1);

A micro control unit (2) is connected to the remote operation interface (1) via a network, and the micro control unit (2) is installed in a greenhouse (A), and the micro control unit (2) can transmit signals to The remote operation interface (1) and the signal input by the remote operation interface (1);

The digital sensor (3) includes a temperature sensor (3), a humidity sensor (3), a brightness sensor (3), and is respectively connected to the micro control unit (2), the feeling The detector (3) is used for detecting temperature, humidity, brightness in the greenhouse environment, and transmitting the detected value to the micro control unit (2);

An LED module (4) is connected to the micro control unit (2), and is controlled by the micro control unit (2);

A photographic module (5) is coupled to the micro control unit (2) for photographing the growth state of the greenhouse plant and returning it to the micro control unit (2).

When in use, please refer to the first to second figures, the creation system is erected in a greenhouse (A), and the scope of the greenhouse (A) is not limited in size. Here, the figure is planted in a glass jar. The environment is indicated by the greenhouse (A). In the greenhouse (A), vegetables, plants, etc. can be planted according to preferences, and a micro control unit (2) is installed in the greenhouse (A). The micro control unit (2) and the LED module (4), respectively The module (5) and the digital sensor (3) are connected, and the sensor (3) comprises a temperature sensor (3), a humidity sensor (3), a brightness sensor (3), etc.; There is a power supply unit (6) that connects the micro control unit (2) to supply power to the entire system. Then, the micro control unit (2) is connected to a remote operation interface (1) through a network, and the remote operation interface (1) can issue control commands to the micro control unit (2) to allow the system to pass through the remote Let's watch the plants and manipulate the planting data, which will be explained in detail below.

The plants in the greenhouse (A) can be replaced by sunlight by the illumination of the LED module (4). According to the research, the light waves required for plant growth are red light, blue light, and violet light. The LED plant lamp in the LED module is designed according to the principle of plant photosynthesis, and is designed according to the wavelength of light required by plant cytochrome and growth hormone to simulate sunlight. It is adjusted according to the plant species and different growth cycles. Lighting time and intensity can not only promote the rapid growth of plants, but also provide the nutrition level of LED plant lights as much as natural light. The light required for plant photosynthesis is about 400 ~ 700nm. Different wavelengths of light have different effects on photosynthesis. The light with 400 ~ 520nm (blue) and 610 ~ 720nm (red) contribute the most to photosynthesis. The light of 520 ~ 610nm (green) is absorbed by plant pigments at a very low rate. Therefore, this creation uses red and blue LED plant lights as cultivated vegetables. By using the way to cultivate vegetables, the electricity bill can be reduced to one-third to one-quarter, and the number of days required for vegetable growth can be shortened by about 5%.

In the plant growth process, the temperature sensor (3), the humidity sensor (3), and the brightness sensor (3) are used to detect the greenhouse (A) environment to transmit the greenhouse temperature, humidity, and brightness data. To the micro control unit (2), and the micro control unit (2) is uploaded to the remote operation interface (1) by means of a network connection, which is mainly provided with a network development board (7) in the system, the network The development board (7) is connected to the micro control unit (2), and the network development board (7) uses an Ethernet connection or a Wi-Fi network connection to upload data using the above network connection, and at the same time, the greenhouse The photographic module (5) can also use the time-lapse photography to upload the film to the remote operation interface, and the grower can understand the plant growth status at the current stage, and manipulate the plant data according to the detected value to be able to respond. The environment and weather automatically adjust the temperature, humidity and brightness. Therefore, under the real-time image monitoring of this creation, the greenhouse condition can be known at any time, and the detection value can be automatically judged to automatically adjust the temperature, humidity, brightness and other automation. Can, so that users can see the growth of those plants from scratch.

However, the above-described embodiments or drawings are not intended to limit the product, the structure, or the use of the present invention. Any changes or modifications of the ordinary skill in the art should be considered as not departing from the scope of the invention.

By the above, the composition and use description of the authoring structure can be seen that this creation has the following advantages compared with the existing structure:

The remote network monitoring LED greenhouse system can monitor the real-time image at any time, keep abreast of the greenhouse condition, and automatically judge the value captured from the sensor, and automatically adjust the advantages of automation functions such as temperature, humidity and brightness.

In summary, the present embodiment can achieve the expected use efficiency, and the specific structure disclosed therein has not been seen in similar products, nor has it been disclosed before the application, and has fully complied with the provisions of the Patent Law. And the request, the application for a new type of patent in accordance with the law, please forgive the review, and grant the patent, it is really sensible.

(1) ‧‧‧Remote operation interface

(2) ‧‧‧Micro Control Unit

(3)‧‧‧ Sensors

(4)‧‧‧LED modules

(5)‧‧‧Photography module

(6)‧‧‧Power supply unit

(7)‧‧‧Web development board

(A) ‧ ‧ greenhouse

The first picture: Schematic diagram of the creation

The second picture: the three-dimensional appearance of the creation

(1) ‧‧‧Remote operation interface

(2) ‧‧‧Micro Control Unit

(3)‧‧‧ Sensors

(4)‧‧‧LED modules

(5)‧‧‧Photography module

(6)‧‧‧Power supply unit

Claims (3)

A remote network monitoring LED greenhouse system mainly comprises: a remote operation interface; a micro control unit connected to the remote operation interface via a network, and the micro control unit is erected in a greenhouse, the micro control The unit can transmit the signal to the remote operation interface and execute the signal input by the remote operation interface; the number sensor is respectively connected with the micro control unit, and the sensor is used for detecting the temperature and humidity in the greenhouse environment. And brightness, and the detection value is transmitted to the micro control unit; an LED module is connected to the micro control unit, and the brightness is controlled by the micro control unit; a photography module is connected with the micro control unit, the photography module It is used to photograph the growth status of greenhouse plants and return to the micro control unit. The remote network monitoring LED greenhouse system according to claim 1, further comprising a network development board, the network development board is connected to the micro control unit, and the network development board adopts an Ethernet network. One of the Wi-Fi networks is connected. The remote network monitoring LED greenhouse system according to claim 1 or 2, wherein the number sensor comprises a temperature sensor, a humidity sensor, and a brightness sensor.