CN202494909U - Real-time monitoring and reporting system for water quality of culture fishpond - Google Patents

Abstract

A real-time monitoring and reporting system for water quality in aquaculture fish ponds, including multiple breeding nodes and a monitoring and reporting device. The breeding node senses and controls the breeding equipment to adjust the water quality of the fish pond, and the monitoring and reporting device records the water quality information of the fish pond and transmits the water quality information to a mobile electronic device.

Description

Real-time monitoring and reporting system for fish pond water quality

technical field

The utility model relates to a real-time monitoring and reporting system, in particular to a real-time monitoring and reporting system for fish pond water quality.

Background technique

At present, the farming methods of traditional aquaculture fisheries, including maintenance work such as water change, gas supply, and water temperature adjustment, need to be carried out by manual judgment. In order to achieve a more efficient breeding effect, farmers usually use a variety of electronic sensing devices and water quality reagents to obtain various water quality information in the breeding pond, and use various automatic devices (such as filters, pumps, etc.) , heating rods and other farming equipment) to adjust the ecological environment conditions of fish ponds. Due to the poor expandability of currently commercially available aquarium electronic equipment and manual setting is required, when the breeding units become larger and larger, the traditional fish farming method will consume a lot of manpower, and the electronic equipment with poor expandability will make The adjustment of the ecological environment conditions of fish ponds is limited.

For example, the water temperature adjustment in the traditional aquaculture fishery is fully manual testing and water diversion cooling. One of the fish ponds in the indoor aquaculture farm is used as a water temperature monitoring sample. The diversion and cooling operations of all fish ponds in the tank cannot be monitored and adjusted individually for the conditions of each pond. If the temperature is too low, connect the traditional water temperature heater. One heater can be connected to four heating rods at the same time (to adjust the water temperature of the four pools), but after heating, only one of the four pools can be heated for water temperature measurement and control. It is not possible to monitor and adjust the conditions of each pool individually. This may cause the death of organisms in the fish pond due to improper setting of water quality conditions.

Contents of the invention

The utility model provides a real-time monitoring and reporting system for fish pond water quality, which can effectively monitor the water quality of fish ponds in real time.

The utility model proposes a real-time monitoring and reporting system for fish pond water quality, which includes a plurality of breeding nodes and a monitoring and reporting device. Each farming node is connected to at least one farming device, and the farming device is used to adjust the water quality of its corresponding fish pond. Each breeding node includes a sensing unit and a control unit. The sensing unit is used for sensing the water quality of the fish pond to obtain at least one water quality parameter. The control unit is coupled to the sensing unit and the cultivation equipment, and controls the cultivation equipment to adjust the water quality of the fish pond according to a control parameter and a water quality parameter, wherein the control parameter instructs the control unit to control the adjustment operation of the cultivation equipment. The monitoring and reporting device is coupled to the sensing unit and the control unit, sets the control parameters of the control unit, records the control parameters and water quality parameters, and transmits the water quality parameters to a mobile electronic device.

In an embodiment of the present invention, the above-mentioned control parameters include an upper limit and a lower limit. When the water quality parameter is higher than the upper limit or lower than the lower limit, the control unit controls the aquaculture equipment to adjust the water quality of the fish pond. , to adjust the water quality parameters to be between the upper limit and the lower limit.

In an embodiment of the present invention, the above-mentioned water quality parameters include fish pond water volume, dissolved oxygen, carbon dioxide concentration, pH, and temperature.

In an embodiment of the present invention, the above-mentioned monitoring and reporting device also includes a central control unit, which has a man-machine interface, the central control unit detects the status of each breeding node, and the man-machine interface displays the water quality parameters of each breeding node, and The user's input setting is received to adjust the control parameters. When the breeding node is abnormal, the man-machine interface outputs a warning signal.

In an embodiment of the present invention, the above-mentioned central control unit also receives a query command sent by the mobile electronic device, so as to query the water quality parameters of each breeding node, and transmits it to the mobile electronic device.

In an embodiment of the present invention, the above-mentioned central control unit also receives a control command sent by the mobile electronic device, and adjusts the control parameters accordingly.

In an embodiment of the present invention, the above-mentioned central control unit also transmits the warning signal to the mobile electronic device.

In an embodiment of the present utility model, the above-mentioned central control unit is a tablet computer, a mobile phone, a desktop computer or a notebook computer, and the man-machine interface is one or more of a display panel, a touch panel, an input keyboard, and a mouse. combination.

In an embodiment of the present invention, the above-mentioned monitoring notification device and the mobile electronic device transmit data by means of wireless mobile communication or Internet communication.

In an embodiment of the present utility model, the above-mentioned breeding equipment includes a filter, an air pump, and a heating rod.

Based on the above, the real-time monitoring and reporting system for fish pond water quality in the embodiment of the utility model senses and controls and adjusts the water quality of the fish pond through the breeding nodes, uses the monitoring and notification device to record the water quality information of the fish pond, and connects the monitoring and notification device with the mobile Electronic devices are integrated through communication technology, so that they have the advantages of centralized monitoring and reporting, and then achieve the purpose of real-time monitoring.

The beneficial effect of the utility model lies in a real-time monitoring and reporting system for fish pond water quality, which senses and controls and adjusts the water quality of the fish pond through the breeding nodes, uses the monitoring and notification device to record the water quality information of the fish pond, and combines the monitoring and notification device with the The mobile electronic device is integrated through communication technology, so that it has the advantages of centralized monitoring and notification, and then achieves the purpose of real-time monitoring, so that the water quality of the fish pond can be effectively monitored in real time.

In order to make the above-mentioned features and advantages of the present invention more comprehensible, the following specific embodiments are described in detail together with the accompanying drawings.

Description of drawings

FIG. 1 is a schematic diagram of a real-time monitoring and reporting system for fish pond water quality according to an embodiment of the present invention.

FIG. 2 is a schematic diagram of a real-time monitoring and reporting system for fish pond water quality in another embodiment of the present invention.

[Description of main component labels]

100, 200: Real-time monitoring and reporting system for fish pond water quality

102: Breeding Node

104: Monitoring notification device

106: Farming equipment

108: Mobile Electronic Devices

202: Sensing unit

204: Control unit

206: Central control unit

Detailed ways

Reference will now be made in detail to the exemplary embodiments of the present invention, examples of which are illustrated in the accompanying drawings. In addition, wherever possible, elements/components/symbols with the same reference numerals are used in the drawings and embodiments to represent the same or similar parts.

FIG. 1 is a schematic diagram of a real-time monitoring and reporting system for fish pond water quality according to an embodiment of the present invention. Please refer to FIG. 1 , a system 100 for real-time monitoring and reporting of water quality in cultured fish ponds includes a plurality of breeding nodes 102 and a monitoring and reporting device 104 . Each of the farming nodes 102 is respectively configured in a fish pond (not shown), and each of the farming nodes 102 is connected to at least one farming device 106 , and the farming device 106 is used to adjust the water quality of the fish pond corresponding to each of the farming nodes 102 .

In detail, the factors that affect the water quality of fish ponds can be, for example, water quality parameters such as the water volume of fish ponds, dissolved oxygen, carbon dioxide concentration, pH, temperature, etc., while the cultivation equipment 106 can be, for example, water valves, air pumps, etc. that control the water volume of fish ponds. Pumps, solenoid valves for controlling carbon dioxide, heating rods and other equipment. The aquaculture node 102 can be connected to multiple different aquaculture equipment at the same time to adjust the water quality.

In addition, the monitoring and reporting device 104 is coupled to the above-mentioned multiple breeding nodes 102. The monitoring and reporting device 104 is used to collect and record the water quality parameters sensed by the breeding nodes 102, and determine the way the breeding nodes 102 adjust the water quality of the fish pond. The way of wireless communication and the mobile electronic device 108 carry out data transmission, so that the user can grasp the water quality status of the fish pond at any time, or remotely control the monitoring and notification device 104 to adjust the water quality, for example, the mode of sending a short message can notify the user of the water quality of the fish pond Water quality information. Wherein, the mobile electronic device 108 can be, for example, a mobile phone, a PDA or a tablet computer, etc., and the communication between the mobile electronic device 108 and the monitoring and notification device 104 can transmit data in a wireless mobile communication system or Internet communication, such as the Global System for Mobile Communications ( Global System for MobileCommunication, GSM), or use RS-485 as the underlying transmission medium, and add the communication software protocol developed by Yantai Technology Co., Ltd. to the communication system for data transmission.

FIG. 2 is a schematic diagram of a real-time monitoring and reporting system for fish pond water quality in another embodiment of the present invention. Please refer to FIG. 2 , in detail, the aforementioned breeding node 102 may include a sensing unit 202 and a control unit 204 . The sensing unit 202 is coupled to the control unit 204 and the monitoring and notification device 104 , and the control unit 204 is coupled to the breeding equipment 106 and the monitoring and notification device 104 . The sensing unit 202 is used to sense the water quality of the fish pond to obtain the above-mentioned water quality parameters, and the control unit 204 is used to control the aquaculture equipment 106 to adjust the water quality of the fish pond according to a control parameter and the sensed water quality parameter, wherein the control The parameter instructs the control unit 204 to control the adjustment operation of the farming equipment 106 .

For example, the control parameters may include an upper limit and a lower limit. When the water quality parameter is higher than the upper limit or lower than the lower limit, the control unit 204 controls the aquaculture equipment 106 to adjust the water quality of the fish pond so that the water quality parameter Adjust to be between the upper limit value and the lower limit value. For example, assuming that the breeding equipment 106 of a fish pond includes a heating rod and a cooling machine, the sensing unit 202 is a temperature sensor, and the upper limit and lower limit of the control parameter can be an upper limit temperature value and a lower limit temperature value respectively. The control unit 204 controls the heating rod and the cooling machine according to the water temperature sensed by the sensing unit 202 (that is, the water value parameter), as well as the upper limit temperature value and the lower limit temperature value (that is, the control parameter), so as to adjust the water temperature of the fish pond .

When the water temperature sensed by the sensing unit 202 is lower than the lower limit temperature value, the control unit 204 controls the heating rod to enter the heating mode to increase the water temperature of the fish pond, and stops heating the heating rod until the water temperature of the fish pond reaches a normal temperature . And when the water temperature sensed by the sensing unit 202 is higher than the upper limit temperature value, the control unit 204 enables the cooler to cool down, and disables the cooler until the water temperature of the fish pond reaches a normal temperature. In this way, it can effectively ensure that the fish ponds are maintained within the set range, and it is not necessary to spend manpower to measure and adjust the water temperature of each fish pond one by one, thereby greatly saving labor costs. Similarly, other water quality parameters can also be adjusted in a similar manner, and those skilled in the art should be able to deduce their implementation from the teachings of the above embodiments, so details are not repeated here.

On the other hand, the monitoring and reporting device 104 may include a central control unit 206, which is used to detect the status of each farming node 106, such as the water quality parameters and control parameters sensed by each farming node 106, or the number and type of farming equipment 106. etc. When the central control unit 206 adds an aquaculture node 106 or aquaculture equipment 106 during operation, the central control unit 206 can immediately detect the newly connected device information and the obtained water quality information. The central control unit 206 has a human-machine interface, which can display the detected status of each farming node 106, and can receive user input settings to adjust the above-mentioned control parameters, for example, the upper limit temperature value and the lower limit of the above-mentioned embodiment can be changed temperature value. In addition, when the breeding node 102 is in an abnormal state, the man-machine interface can also output a warning signal to remind the user to perform corresponding processing. In practical applications, the central control unit 206 can be, for example, a tablet computer, a mobile phone, a desktop computer or a notebook computer, etc., and the man-machine interface can be, for example, one or the other of a display panel, a touch panel, an input keyboard, and a mouse. Its combination is not limited to this.

In addition, since the monitoring and reporting device 104 can also perform data transmission with the mobile electronic device 108 through wireless communication, the user can also obtain the water quality parameters of each breeding node 102 or adjust the control parameters of each breeding node through the mobile electronic device 108 . The central control unit 206 can receive the query command sent by the mobile electronic device 108, so as to query the water quality parameters of each farming node 102, and transmit it to the mobile electronic device 108, so that the user can know the farming node 102 to be queried water quality parameters. The central control unit 206 can also receive the control command sent by the mobile electronic device 108, and adjust the control parameters of the breeding node 102 according to the control command, so as to effectively adjust the water quality of the breeding node 102 to an optimal state.

In addition, when the farming node 102 is in an abnormal state, the central control unit 206 can also send a warning signal to the mobile electronic device 108, so that the user can take corresponding emergency measures at the first time. For example, the central control unit 206 can be designed to store multiple sets of phone numbers. When the farming node 102 is in an abnormal state, a warning message will be sent to multiple sets of phone numbers at the same time. If there is no return from any user within the preset time, The warning message is sent again, and the notification failure is not recorded until the number of sending warning messages reaches the preset number of times. In addition, after the mobile electronic device 108 receives the warning signal, it can remind the user by sending out sound, light or vibration, etc., until the user confirms that the warning signal is received, the warning is stopped, and the real-time monitoring of the fish pond is automatically resumed. The warning signal to the notification system 200 has been acknowledged.

In summary, the embodiment of the present utility model provides a real-time monitoring and reporting system for fish pond water quality, which senses and controls and adjusts the water quality of the fish pond through the breeding nodes, and uses the monitoring and notification device to record the water quality parameters of the fish pond. And the monitoring notification device and the mobile electronic device are integrated through communication technology, so that it has the advantages of centralized monitoring and notification. In this way, the user can obtain the water quality information of the fish pond or adjust the water quality of the fish pond at any time through the monitoring notification device or the mobile electronic device, thereby achieving the purpose of real-time monitoring. Since the recording and adjustment of water quality parameters can be completed through the real-time monitoring and reporting system of water quality in aquaculture fish ponds, labor costs can be greatly saved.

Although the utility model has been disclosed as above with the embodiment, it is not intended to limit the utility model. Anyone with ordinary knowledge in the technical field can make some changes without departing from the spirit and scope of the utility model. and retouching, so the protection scope of the present utility model should be defined by the scope of the appended claims.

Claims (10)

1. a breed fish pond water quality is monitored reporting chain in real time, it is characterized in that this breed fish pond water quality is monitored reporting chain in real time and comprised:

A plurality of breed nodes, respectively this breed node connects at least one cultivation equipment, and this cultivation equipment is in order to adjust the water quality in its corresponding fish pond, and respectively this breed node comprises:

One sensing cell, the water quality in this fish pond of sensing is to obtain at least one water quality parameter; And

One control module couples this sensing cell and this cultivation equipment, according to the water quality in a controlled variable and this this fish pond of cultivation equipment adjustment of this water quality parameter control, wherein the adjustment operation of this this cultivation equipment of control module control of this controlled variable indication; And

One monitoring aviso device couples this sensing cell and this control module, set this control module controlled variable, write down this controlled variable and this water quality parameter, and this water quality parameter is sent to an electronic apparatus.

2. breed according to claim 1 fish pond water quality is monitored reporting chain in real time; It is characterized in that; Wherein this controlled variable comprises a higher limit and a lower limit; When this water quality parameter was higher than this higher limit or is lower than this lower limit, the water quality in this cultivation equipment adjustment fish pond of this control module control was to be adjusted to this water quality parameter between this higher limit and this lower limit.

3. breed according to claim 2 fish pond water quality is monitored reporting chain in real time, it is characterized in that wherein this water quality parameter comprises the fish pond water yield, dissolved oxygen amount, gas concentration lwevel, potential of hydrogen, temperature.

4. breed according to claim 1 fish pond water quality is monitored reporting chain in real time, it is characterized in that, wherein this monitoring aviso device also comprises:

Control the unit in one; Has a man-machine interface; Should detect the state of culturing node that respectively is somebody's turn to do in middle control unit, this man-machine interface demonstration respectively should be cultured the water quality parameter of node, and reception user's input is set to adjust this controlled variable; Occur when unusual when culturing node, this man-machine interface is exported an alarm signal.

5. breed according to claim 4 fish pond water quality is monitored reporting chain in real time; It is characterized in that; Wherein should in the control unit query statement that also receives this electronic apparatus and sent, inquiry according to this respectively should be cultured the water quality parameter of node, and sent it to this electronic apparatus.

6. breed according to claim 4 fish pond water quality is monitored reporting chain in real time, it is characterized in that, wherein should in control unit steering order of also receiving this electronic apparatus and being sent, and adjust this controlled variable according to this.

7. breed according to claim 4 fish pond water quality is monitored reporting chain in real time, it is characterized in that, wherein should also send this alarm signal to this electronic apparatus in middle control unit.

8. breed according to claim 4 fish pond water quality is monitored reporting chain in real time; It is characterized in that; Should middle control unit be flat computer, mobile phone, desktop PC or notebook computer wherein, this man-machine interface be one of which or its combination of display panel, contact panel, input keyboard and mouse.

9. breed according to claim 1 fish pond water quality is monitored reporting chain in real time, it is characterized in that, wherein transmits data for the mode with radio mobile communication or the Internet communication between this monitoring aviso device and this electronic apparatus.

10. breed according to claim 1 fish pond water quality is monitored reporting chain in real time, it is characterized in that wherein this cultivation equipment comprises filtrator, air pump, heating rod.

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