CN207752367U - A kind of remote monitoring system of aquaculture - Google Patents
A kind of remote monitoring system of aquaculture Download PDFInfo
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- CN207752367U CN207752367U CN201820205835.4U CN201820205835U CN207752367U CN 207752367 U CN207752367 U CN 207752367U CN 201820205835 U CN201820205835 U CN 201820205835U CN 207752367 U CN207752367 U CN 207752367U
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- monitoring system
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
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Abstract
The utility model discloses a kind of remote monitoring systems of aquaculture, including remote service subsystem and field control subsystem, the field control subsystem includes controller module, sensor assembly, executor module, holder photographing module, communication module, the remote control subsystem includes digital server and monitoring device for storing data, the data information transfer that the communication module acquires holder photographing module is to remote service subsystem, the monitoring device is transmitted to communication module by information is controlled, the communication module is transmitted to controller module by information is controlled, control module connects the executor module being controlled by it, understand the situation of change of each data in aquaculture process in real time by monitoring system, improve the yield in unit area waters, with higher versatility and practicability.
Description
Technical field
The utility model is related to aquaculture field, especially a kind of remote monitoring system of aquaculture.
Background technology
With the development of agricultural modernization, networking remote control technology has the advantages that save manually and efficiently manage,
Therefore will increasingly be paid attention to by agricultural production.In terms of aquaculture, the degree of automation of aquaculture management at present is low,
Mainly pass through labor management.And labor management must often be in the action tour in addition twenty four hours wait for scene, to prevent
Accident, therefore person works' efficiency is low.Meanwhile the heavy workload of labor management, and be easy to ignore detailed problem, cause pipe
Manage it is not in place, to bring unnecessary heavy losses.The proportion that the human cost of personal management accounts for aquaculture cost is larger, and
Administrative skill relies primarily on the empirically determined of poultry feeders, therefore horizontal irregular, it is difficult to form standardized aquaculture management
Mode, production efficiency are relatively low.Various monitoring systems in currently available technology are mostly complicated, inconvenient, versatility
It is poor with practicability.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of aquaculture to overcome above-mentioned shortcoming
Remote monitoring system, understand the situation of change of each data in aquaculture process in real time by monitoring system, improve unit plane
The yield in ponding domain has higher versatility and practicability.
A kind of remote monitoring system of aquaculture, including remote service subsystem and field control subsystem, it is described existing
Control subsystem includes controller module, sensor assembly, executor module, holder photographing module, and communication module is described remote
Program-controlled subsystem includes digital server and monitoring device for storing data, and the communication module is by holder photographing module
For the data information transfer of acquisition to remote service subsystem, the monitoring device is transmitted to communication module by information is controlled, described
Communication module will control information and be transmitted to controller module, and control module connects the executor module being controlled by it.
It preferentially selects, the monitoring device is to be equipped with monitoring software and the mobile terminal of access to communication networks, institute
Mobile terminal is stated by communication network to be connected with controller module.
It preferentially selects, the holder photographing module includes camera control terminal and monopod video camera, the camera shooting
Machine control terminal includes image data processor, the image capture interface that is connect respectively with image data processor, holder camera shooting
Machine control interface, memory and communication module, and for the power module of power supply, the camera control terminal passes through communication
Network is connected with controller module.
It preferentially selects, the sensor assembly includes sensor control terminal and is connected with sensor control terminal
Water quality parameter sensor and environmental parameter sensor, the sensor control terminal includes monitoring data processor, respectively with
Monitoring data interface, memory and the communication module of monitoring data processor connection, and for the power module of power supply, it is described
Sensor control terminal is connected by communication network with controller module.
It preferentially selects, the water quality parameter sensor includes dissolved oxygen sensor, pH value sensor, turbidity transducer.
It preferentially selects, the environmental parameter sensor includes water level sensor, water temperature sensor, air-temperature sensor.
Preferentially select, the executor module include actuator control terminal, respectively with actuator control terminal connect
The water circle device, oxygen-increasing device and the feeder that connect and the power module for power supply are constituted, and the actuator control is eventually
End is connected by communication network with controller module.
It preferentially selects, the controller module includes control processor and what is be connected respectively with control processor deposit
Reservoir and communication module, and the power module for power supply.
It preferentially selects, the communication module is communicated using mobile communications network, internet.
Compared with prior art, the utility model has the advantages that:
(1)Environmental data is understood in real time by monitoring system, and the situation of change of water quality data promotes breeding process control to walk
To automation, aquaculture is made to reach most fast speed of production under the best conditions;
(2)The yield in unit area waters is improved, the transformation to modern cultural technique by traditional cultural technique is completed;
(3)Production cost and labor intensity are reduced, production efficiency is improved, there is higher versatility and practicability, is water
The large-scale development of production aquaculture industry provides technology guarantee.
Description of the drawings
Fig. 1 is the structural schematic diagram of the remote monitoring system of the utility model;
The structure diagram of Fig. 2 devices in order to control;
Fig. 3 is the structure diagram of camera control terminal;
Fig. 4 is the structure diagram of sensor control terminal;
Fig. 5 is the structure diagram of actuator control terminal.
Wherein:1, mobile terminal 2, digital server 3, controller module 4, holder photographing module 41, camera shooting
Machine control terminal 42, monopod video camera 5, executor module 51, actuator control terminal 52, water circle device 53
Oxygen-increasing device 54, feeder 6, sensor assembly 61, sensor control terminal 62, water quality parameter sensor
63, environmental parameter sensor.
Specific implementation mode
The utility model is described in further detail in the following with reference to the drawings and specific embodiments.Under it should be noted that
Technical characteristic involved by each embodiment of the utility model described in face is as long as they do not conflict with each other
It is combined with each other.
Referring to Fig. 1, a kind of remote monitoring system of aquaculture, including remote service subsystem and field control subsystem
System, field control subsystem include controller module 3, sensor assembly 6, executor module 5, holder photographing module 4, communication mould
Block;The remote control subsystem includes digital server 2 and monitoring device 1 for storing data, and monitoring device passes through shifting
Dynamic communication network, internet are communicated with field control subsystem, and the communication module acquires holder photographing module 4
For data information transfer to remote service subsystem, the monitoring device 1 is transmitted to communication module, the communication mould by information is controlled
Block will control information and be transmitted to controller module 3, and control module 3 connects the executor module 5 being controlled by it.
Monitoring device 1 is the mobile terminal with monitoring software and network savvy, passes through internet, mobile communications network
(Such as 4G networks)The controller module 3 of equal communication networks and field control subsystem communicates to connect.Staff is set by monitoring
Control parameter is arranged according to specific cultivation object and field of employment, these controls in standby 1 monitoring software access controller module 3
Parameter may include dissolved oxygen threshold range, pH value threshold range, turbidity threshold range, water temperature threshold range, water inlet watermark threshold
Range, discharge level threshold range, temperature threshold range, feeding interval time, video camera focusing value, camera orientation value etc..
After being provided with, control parameter is sent to the controller module of field control subsystem by communication network by monitoring device 1
3;After controller module 3 is configured according to control parameter, that is, enters self-operating state and send monitoring letter to monitoring device 1
Breath;Staff only need to be according to the situation shown in the monitoring information that monitoring device receives, you can understands and monitoring site controls
The case where subsystem.
Referring to Fig. 2, controller module 3 is the embedded device for being equipped with management software and access to communication networks, by logical
Communication network is communicated to connect with monopod video camera module 4, sensor assembly 6 and executor module 5 respectively.The knot of controller module 3
Structure is as shown in Fig. 2, include control processor, the memory being connect respectively with control processor and communication module, and for supplying
The power module of electricity;Communication module is used for access to communication networks, completes the receiving and transmission of instruction and data;Memory for pair
Receive the caching of data;Control processor sends control instruction according to control parameter to monopod video camera module 4, completes picture number
According to monitoring data caching, transfer operation and analyzing processing, then send corresponding control to executor module 5 for analysis result
System instruction, and generate corresponding monitoring information and be sent to monitoring device.Management software is stored in control processor;Work as control
When device module 3 receives the control parameter that monitoring device is sent, just management software is configured according to control parameter, the knot of setting
Fruit is still stored in control processor;Controller is i.e. according to the execution program of management software and the model of control parameter as a result,
It encloses, proceeds by self-operating control, obtain the monitoring data of the image data and sensor assembly 6 of monopod video camera module 4, control
Executor module 5 processed executes corresponding operating, and monitoring information is sent to monitoring device by internet, mobile communications network
1。
Referring to Fig. 3, monopod video camera module 4 is by 42 structure of camera control terminal 41 and monopod video camera that is connected with each other
At camera control terminal 41 is communicated to connect by communication network and controller module 3.According to the finger of camera control terminal 41
Enable the acquisition for executing image data and focusing, steering operation.41 access to communication networks of camera control terminal, according to controller
The focusing and steering of the instruction control monopod video camera 42 of module 3, and the image data that monopod video camera 42 acquires is sent to
Controller module 3.The structure of camera control terminal 41 as shown in figure 3, include image data processor, respectively with image data
Image capture interface, monopod video camera control interface, memory and the communication module of processor connection, and the electricity for power supply
Source module.Communication module is used for access to communication networks, completes the receiving and transmission of data;Memory is deposited for image data
Storage;Image capture interface is used to connect the image data output end of monopod video camera 42, the figure of the present embodiment monopod video camera 42
As data output end is the image data output end of video camera;Monopod video camera control interface is for connecting monopod video camera 42
Execute instruction input terminal, the present embodiment monopod video camera 42 executes instruction the input terminal i.e. control signal of holder;Image
Data processor obtains the image data that monopod video camera 42 acquires by image capture interface, completes the caching behaviour of image data
Make, focusing instruction is sent to monopod video camera 42 by monopod video camera control interface according to the instruction of controller module 3 or turns
To instruction, and the image data for transferring caching is sent to controller module 3.
Referring to Fig. 4, water that sensor assembly 6 is connect by sensor control terminal 61 and respectively with sensor control terminal
Matter parameter sensors 62 and environmental parameter sensor 63 are constituted, and sensor control terminal 61 passes through communication network and controller module
3 communication connections.Wherein, dissolved oxygen sensor, pH value sensor, turbidity transducer and water temperature sensor are deployed in aquaculture pond
Typical monitoring area, water level sensor are put into water through hydraulic pressure sensed water level, and air-temperature sensor is deployed in suitable temperature prison
Measuring point;Each sensor sends monitoring data to sensor control terminal 61 in real time.Sensor control terminal 61 is for accessing
The monitoring data of water quality parameter sensor 62 and environmental parameter sensor 63 are sent to controller module 3 by communication network;Sensing
The structure of device control terminal 61 is as shown in figure 4, include monitoring data processor, the monitoring being connect respectively with monitoring data processor
Data-interface, memory and communication module, and the power module for power supply;Communication module is used for access to communication networks, complete
At the receiving and transmission of data;Memory is used for the storage of monitoring data;Monitoring data interface is for connecting water quality parameter sensing
The monitoring data output end of device 62 and environmental parameter sensor 63;Monitoring data processor obtains water quality by monitoring data interface
The monitoring data of parameter sensors 62 and environmental parameter sensor 63, complete the caching of monitoring data, and transfer caching
Monitoring data are sent to controller module 3.
Referring to Fig. 5, water that executor module 5 is connect by actuator control terminal 51 and respectively with actuator control terminal
Circulator 52, oxygen-increasing device 53 and feeder 54 are constituted, and actuator control terminal 51 passes through communication network and controller mould
Block 3 communicates to connect.The wherein oxygenation nozzle of oxygen-increasing device 53 is as in aquaculture pond, the foodstuff delivery outlet court of feeder 54
To aquaculture pond, the dietotherapy of feeding is allowed to fall into pond.51 access to communication networks of actuator control terminal, according to controller module
3 instruction control water circle device 52, the switch of oxygen-increasing device 53 and feeder 54.The structure of actuator control terminal 51 is such as
Shown in Fig. 5, including instruction processing unit, the actuator control interface and communication module being connect respectively with instruction processing unit, Yi Jiyong
In the power module of power supply.Communication module is used for access to communication networks, completes the receiving of instruction;Actuator control interface is for dividing
Not Lian Jie water circle device 52, oxygen-increasing device 53 and feeder 54 switch control terminal mouth;Instruction processing unit passes through according to control
The instruction of device module 3 processed is opened by actuator control interface to the transmission of water circle device 52, oxygen-increasing device 53 and feeder 54
Pass executes instruction.
The above descriptions are merely preferred embodiments of the present invention, not makees to the technical scope of the utility model
Any restrictions, therefore any changes or modifications made in the claims and specifications of the utility model should all belong to this practicality
Within the scope of new patent is covered.
Claims (9)
1. a kind of remote monitoring system of aquaculture, which is characterized in that including remote service subsystem and field control subsystem
System, the field control subsystem include controller module, sensor assembly, executor module, holder photographing module, communication mould
Block, the remote control subsystem include digital server and monitoring device for storing data, and the communication module is by cloud
For the data information transfer of platform photographing module acquisition to remote service subsystem, the monitoring device is transmitted to communication by information is controlled
Module, the communication module will control information and be transmitted to controller module, and control module connects the executor module being controlled by it.
2. a kind of remote monitoring system of aquaculture according to claim 1, which is characterized in that the monitoring device is
Monitoring software and the mobile terminal of access to communication networks are installed, the mobile terminal passes through communication network and controller module phase
Even.
3. a kind of remote monitoring system of aquaculture according to claim 1, which is characterized in that the holder images mould
Block includes camera control terminal and monopod video camera, and the camera control terminal includes image data processor, respectively with
Image capture interface, monopod video camera control interface, memory and the communication module of image data processor connection, and be used for
The power module of power supply, the camera control terminal are connected by communication network with controller module.
4. a kind of remote monitoring system of aquaculture according to claim 1, which is characterized in that the sensor assembly
Including sensor control terminal and the water quality parameter sensor and environmental parameter sensor that are connected with sensor control terminal, institute
It includes monitoring data processor to state sensor control terminal, and the monitoring data interface that is connect respectively with monitoring data processor is deposited
Reservoir and communication module, and for the power module of power supply, the sensor control terminal passes through communication network and controller
Module is connected.
5. a kind of remote monitoring system of aquaculture according to claim 4, which is characterized in that the water quality parameter passes
Sensor includes dissolved oxygen sensor, pH value sensor, turbidity transducer.
6. a kind of remote monitoring system of aquaculture according to claim 4, which is characterized in that the environmental parameter passes
Sensor includes water level sensor, water temperature sensor, air-temperature sensor.
7. a kind of remote monitoring system of aquaculture according to claim 1, which is characterized in that the executor module
Water circle device, oxygen-increasing device and the feeder being connect including actuator control terminal, respectively with actuator control terminal with
And the power module for power supply is constituted, the actuator control terminal is connected by communication network with controller module.
8. a kind of remote monitoring system of aquaculture according to claim 1, which is characterized in that the controller module
The memory and communication module being connected including control processor and respectively with control processor, and the power supply mould for power supply
Block.
9. a kind of remote monitoring system of aquaculture according to claim 1, which is characterized in that the communication module is adopted
It is communicated with mobile communications network, internet.
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CN201820205835.4U CN207752367U (en) | 2018-02-06 | 2018-02-06 | A kind of remote monitoring system of aquaculture |
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CN201820205835.4U CN207752367U (en) | 2018-02-06 | 2018-02-06 | A kind of remote monitoring system of aquaculture |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110362134A (en) * | 2019-06-20 | 2019-10-22 | 浙江鑫网能源工程有限公司 | A kind of wireless sensor network device |
CN111552212A (en) * | 2020-05-19 | 2020-08-18 | 神华粤电珠海港煤炭码头有限责任公司 | Intelligent management system for fishpond |
CN113225366A (en) * | 2021-01-21 | 2021-08-06 | 深圳市芯中芯科技有限公司 | Intelligent fishpond feeding and oxygen deficiency alarm system based on 4G network |
-
2018
- 2018-02-06 CN CN201820205835.4U patent/CN207752367U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110362134A (en) * | 2019-06-20 | 2019-10-22 | 浙江鑫网能源工程有限公司 | A kind of wireless sensor network device |
CN111552212A (en) * | 2020-05-19 | 2020-08-18 | 神华粤电珠海港煤炭码头有限责任公司 | Intelligent management system for fishpond |
CN113225366A (en) * | 2021-01-21 | 2021-08-06 | 深圳市芯中芯科技有限公司 | Intelligent fishpond feeding and oxygen deficiency alarm system based on 4G network |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180821 Termination date: 20200206 |