TWM549510U - Aquaponic monitoring system - Google Patents

Description

Fish and vegetable symbiosis monitoring system

This creation is a fish and vegetable symbiosis monitoring system, especially a fish and vegetable symbiosis breeding and planting, and monitoring the farming and planting conditions of the fish and vegetable symbiosis monitoring system through monitoring devices.

Recently, extreme crops have caused a sharp decline in crop yields, resulting in insufficient crop yields, causing prices to soar, causing people to consider when purchasing, resulting in a relative reduction in the consumption of fruits and vegetables. Moreover, humans are growing rapidly due to economic activities, seriously affecting The earth's climate has led to uneven rainfall and overheating in countries, which in turn affects water scarcity and food shortages.

In addition to the above-mentioned influencing factors, current farmers are planting crops. In order to allow crops to grow rapidly, increase yields and prevent pests, a large amount of chemical fertilizers and pesticides are applied during crop planting, and the use of chemical fertilizers can make crops grow. The increase of cells does not increase the number of cells, thereby reducing the nutritional value of crops, and the excessive application of chemical fertilizers will lead to the accumulation of nitrates, which seriously endangers the health of the human body.

However, in order to prevent pests and increase the selling phase, some vegetable farmers continue to spray pesticides on fruits and vegetables before harvesting fruits and vegetables, so that the pests affect the appearance of fruits and vegetables, and the pesticide residues in the market will be caused by excessive pesticide spraying. Inconsistent with the standard, the pesticide residues in fruits and vegetables pose a potential threat to the health of the human body. Light causes chronic diseases and increases the incidence of cancer. May cause acute poisoning, causing people to lose their lives.

Therefore, how to improve the process of crop planting without applying chemical fertilizers and spraying pesticides, making crops grow harmlessly, and solving water resources and food shortages, this issue is urgently needed to be solved by the industry.

The main purpose of the creation is to provide a fish tank for fish culture and at least one crop cultivation tank for crop planting, and an irrigation device is connected between the base water tank and the crop cultivation tank to extract water from the base tank. To the crop cultivation tanks, a nitrification device is connected between the base water tank and the irrigation device to provide nitrifying bacteria for water filtration, and a monitoring and sensing device is disposed on the side of the base water tank and the crop cultivation tanks. For monitoring the fishery breeding process, the crop planting process, sensing the water quality condition and the ambient temperature and humidity to generate a monitoring image, a water quality data and a temperature and humidity data, and a first wireless communication device is connected to the monitoring and sensing device The monitoring image, the water quality data and the temperature and humidity data are transmitted, so that a portable device is connected to the first wireless communication device via wireless communication, and receives the monitoring image, the water quality data, the temperature and humidity data, and the manipulation The operation of the monitoring and sensing device is to achieve the symbiosis of fish and vegetables for breeding and planting, and Control means monitoring the situation of the object of planting and cultivation.

According to the above purpose, the fish and vegetable symbiosis monitoring system of the present invention mainly comprises: a base water tank for fish culture; at least one crop cultivation tank for planting crops; and a joint in the base water tank and the crops Irrigating the irrigation device between the tanks to extract the water from the base water tank to the crop cultivation tanks; a nitrification device connected between the base water tank and the irrigation device to provide nitrifying bacteria for water filtration; Training with such crops a monitoring and sensing device on the side of the tank for monitoring the fishery breeding process, the crop planting process, sensing the water quality condition and the ambient temperature and humidity to generate a monitoring image, a water quality data and a temperature and humidity data; The first wireless communication device connected to the measuring device transmits the monitoring image, the water quality data and the temperature and humidity data; and the portable device connected to the first wireless communication device via wireless communication receives the monitoring image and the water quality Data and the temperature and humidity data, and operation of the monitoring and sensing device.

The crop growing tanks of the present fish and vegetable symbiosis monitoring system are composed of at least one planting layer and at least one filter layer.

The irrigation device of the fish and vegetable symbiosis monitoring system is composed of a pumping motor, a first water pipe, a second water pipe, a third water pipe and a fourth water pipe.

The monitoring and sensing device of the fish and vegetable symbiosis monitoring system comprises: a camera module for imaging the base water tank and the crop growing tanks to generate the monitoring image; and a sense of water quality of the pair of base sinks Measuring the water quality sensing module to generate the water quality data; a pair of ambient temperature and humidity sensing temperature and humidity sensing modules to generate the temperature and humidity data; and the camera module, the water quality sensing module And the control module connected to the temperature and humidity sensing module receives the monitoring image, the water quality data and the temperature and humidity data and transmits the data to the first wireless communication device for transmission.

The portable device of the fish and vegetable symbiosis monitoring system is provided with a second wireless communication module for receiving the monitoring image, the water quality data and the temperature and humidity data and displaying through a display module, and the portable device has a The APP program controls the operation of the monitoring and sensing device through the APP program.

11‧‧‧Based sink

12‧‧‧Crop cultivation tank

121‧‧‧planting

122‧‧‧Filter layer

13‧‧‧Irrigation device

131‧‧‧ pumping motor

132‧‧‧First water pipe

133‧‧‧Second water pipe

134‧‧‧ Third water pipe

135‧‧‧fourth water pipe

14‧‧‧Nitration unit

15‧‧‧Monitor sensing device

151‧‧‧ camera module

152‧‧‧Water quality sensing module

153‧‧‧ Temperature and Humidity Sensing Module

154‧‧‧Control Module

16‧‧‧First wireless communication device

17‧‧‧ Carrying device

171‧‧‧Second wireless communication module

172‧‧‧ display module

Figure 1 is a schematic diagram of the creation of a fish and vegetable symbiosis monitoring system.

2 is a block diagram of the monitoring and sensing device and the first wireless communication device of the fish and vegetable symbiosis monitoring system.

Figure 3 is a block diagram of a portable device for creating a fish and vegetable symbiosis monitoring system.

For the sake of your review, you can make a further understanding and understanding of the purpose, shape, structure and function of the creation, and the examples are as follows.

This creation is related to a "fish and vegetable symbiosis monitoring system". Please also refer to Figure 1 to Figure 3. The fish and vegetable symbiosis monitoring system of this creation mainly includes: a base water tank 11, at least one crop cultivation tank 12 An irrigation device 13, a nitrification device 14, a monitoring and sensing device 15, a first wireless communication device 16, and a carrying device 17.

The base water tank 11 is for fish farming.

These crop growing tanks 12 are for planting crops.

The irrigation device 13 is coupled between the base water tank 11 and the crop growing tanks 12, and is irrigated with water from the base water tank 11 to the crop growing tanks 12.

The nitrification device 14 is coupled between the base water tank 11 and the irrigation device 13 to provide nitrifying bacteria for water filtration.

The monitoring and sensing device 15 is provided with the base water tank 11 and the side of the crop growing tank 12 for monitoring the fish farming process, the crop planting process, sensing the water quality condition and the ambient temperature and humidity to generate a monitoring image and a water quality data. And a temperature and humidity data.

The first wireless communication device 16 is connected to the monitoring and sensing device 15 to transmit the monitoring image, the water quality data and the temperature and humidity data.

The portable device 17 is connected to the first wireless communication device 16 via wireless communication, receives the monitoring image, the water quality data and the temperature and humidity data, and controls the operation of the monitoring and sensing device.

In this embodiment, the crop growing tanks 12 are composed of at least one planting layer 121 and at least one filter layer 122.

In this embodiment, the irrigation device 13 is composed of a pumping motor 131, a first water pipe 132, a second water pipe 133, a third water pipe 134, and a fourth water pipe 135.

In this embodiment, the monitoring and sensing device 15 includes: a camera module 151 for imaging the base water tank and the crop growing tanks to generate the monitoring image.

A water quality sensing module 152 senses the water quality of the base water tank 11 to generate the water quality data.

A temperature and humidity sensing module 153 senses the temperature and humidity of the environment to generate the temperature and humidity data.

A control module 154 is connected to the camera module 151, the water quality sensing module 152 and the temperature and humidity sensing module 153, and receives the monitoring image, the water quality data and the temperature and humidity data and transmits the data to the first The wireless communication device 16 transmits.

In the present embodiment, the portable device 17 is provided with a second wireless communication module 171 for receiving the monitoring image, the water quality data and the temperature and humidity data and displaying it through a display module 172, and the portable device 17 has An APP program is used to manipulate the operation of the monitoring and sensing device 15 through the APP program.

The base water tank 11 is subjected to fish culture and the crop growing tank 12 to grow crops, and the irrigation device 13 is connected between the base water tank 11 and the crop growing tanks 12, and is provided in the base water tank 11 Pump The water motor 131 extracts the water in the base water tank 11 and sends the first water pipe 132, the second water pipe 133 and the third water pipe 134 to the crop growing tanks 12 for irrigation, and the second The water pipe 133 and the third water pipe 134 are respectively disposed between the crop growing tanks 12 (i.e., between the first crop growing tank 12 and the second crop growing tank 12, and the second Between the crop growing tank 12 and the third crop growing tank 12, the nitrifying device 14 is disposed between the first water conduit 132 and the first crop growing tank 12, and the nitrifying bacteria are supplied through the nitrifying device 14. Water filtration.

The first water conduit 132 sends the water pumped by the pumping motor 131 to the first crop growing tank 12, and the water is filtered through the nitrifying device 14. The filtered water will be the first crop growing tank. The first planting layer 121 of 12 is irrigated, so that the crop planted in the first planting layer 121 can grow, and then filtered through the first filter layer 122, and then filtered through the second water pipe 133. To the second crop growing tank 12, the crop planted by the second planting layer 121 is similarly irrigated, filtered through the second filter layer 122, and then filtered through the third water pipe 134. To the third crop growing tank 12, the crop planted by the third planting layer 121 is irrigated, and then filtered through the third filter layer 122, and then filtered and then sent to the fourth water pipe 135. Base water tank 11.

The fish and vegetable symbiosis monitoring system is monitored by the monitoring and sensing device 15 disposed on the side of the substrate growing tank 12 and the monitoring sensing device 15 during the circulating irrigation and breeding process. The module 151 images the base water tank 11 and the crop growing tanks 12, and the water quality sensing module 152 senses the water quality of the base water tank 11, and the temperature and humidity sensing module 153 measures the environment. The temperature and humidity sensing is performed, and finally the monitoring image captured by the camera module 151 and the water sensing module 152 are sensed by the control module 154. The measured water quality data and the humidity data sensed by the temperature and humidity sensing module 153 are received and transmitted to the first wireless communication device 16, and then transmitted through the first wireless communication device 16 to Wi-Fi or mobile communication (ie, 4G operation). The communication device is transmitted to the portable device 17 and is received by the second wireless communication module 171 of the portable device 17. After the application is executed, the APP program is executed and the monitoring image is displayed through the display module 172. The water quality data and the temperature and humidity data, and the APP program can be operated to control the operation of the monitoring and sensing device 15, so that the user can monitor the creation of the fish and vegetable symbiosis monitoring system.

It can be seen that the present fish and vegetable symbiosis monitoring system is provided by the base water tank 11 for fish farming and the crop growing tanks 12 for crop planting, and the irrigation device 13 is connected to the base water tank 11 and the crop growing tanks. 12, irrigating the water from the base water tank 11 to the crop growing tanks 12, and connecting the nitrifying unit 14 between the base water tank 11 and the irrigation device 13 to provide nitrifying bacteria for water filtration, and The monitoring and sensing device 15 is provided with the base water tank 11 and the side of the crop growing tank 12 for monitoring the fish farming process, the crop planting process, the sensing water quality condition and the ambient temperature and humidity to generate a monitoring image, a water quality data and a temperature and humidity data, and the first wireless communication device 16 is connected to the monitoring and sensing device 15 to transmit the monitoring image, the water quality data and the temperature and humidity data, so that the portable device 17 transmits the wireless communication and the first a wireless communication device 16 is coupled to receive the monitoring image, the water quality data and the temperature and humidity data, and manipulate the operation of the monitoring and sensing device, thereby The fish and vegetables are symbiotically cultured and planted, and the purpose of breeding and planting is monitored through a monitoring device.

The above description is only the best embodiment of the present invention, but the structural features of the present creation are not limited thereto, and any one who is familiar with the skill of the art can easily change or modify it in the field of creation. In the following patent scope of this case.

11‧‧‧Based sink

12‧‧‧Crop cultivation tank

121‧‧‧planting

122‧‧‧Filter layer

13‧‧‧Irrigation device

131‧‧‧ pumping motor

132‧‧‧First water pipe

133‧‧‧Second water pipe

134‧‧‧ Third water pipe

135‧‧‧fourth water pipe

14‧‧‧Nitration unit

15‧‧‧Monitor sensing device

16‧‧‧First wireless communication device

17‧‧‧ Carrying device

Claims (5)

The invention relates to a fish and vegetable symbiosis monitoring system, which comprises: a base water tank for fish culture; at least one crop cultivation tank for planting crops; and an irrigation device connected between the base water tank and the crop cultivation tanks, Irrigation with the water from the base water tank to the crop cultivation tank; a nitrification device is connected between the base water tank and the irrigation device to provide nitrifying bacteria for water filtration; a monitoring and sensing device is provided with the base water tank And the side of the crop cultivation tank for monitoring the fish culture process, the crop planting process, sensing the water quality condition and the ambient temperature and humidity to generate a monitoring image, a water quality data and a temperature and humidity data; a first wireless communication device Connected to the monitoring and sensing device to transmit the monitoring image, the water quality data and the temperature and humidity data; and a portable device connected to the first wireless communication device via wireless communication to receive the monitoring image, The water quality data and the temperature and humidity data, and the operation of the monitoring and sensing device. The fish and vegetable symbiosis monitoring system according to claim 1, wherein the crop growing tanks are composed of at least one planting layer and at least one filter layer. The fish and vegetable symbiosis monitoring system of claim 1, wherein the irrigation device comprises a pumping motor, a first water pipe, a second water pipe, a third water pipe and a fourth water pipe. Composed of. The fishery symbiosis monitoring system according to the first aspect of the invention, wherein the monitoring and sensing device comprises: a camera module for imaging the base water tank and the crop growing tanks to generate the monitoring Image; a water sensing module that senses the water quality of the base sink Generating the water quality data; a temperature and humidity sensing module is configured to perform temperature and humidity sensing on the environment to generate the temperature and humidity data; and a control module, the camera module, the water quality sensing module, and the The temperature and humidity sensing module is connected to receive the monitoring image, the water quality data and the temperature and humidity data and transmit the data to the first wireless communication device for transmission. The fishery symbiosis monitoring system of claim 1, wherein the portable device is provided with a second wireless communication module for receiving the monitoring image, the water quality data and the temperature and humidity data and transmitting the display mode The group is displayed, and the portable device has an APP program for controlling the operation of the monitoring and sensing device through the APP program.