CN205352457U - Aquaculture thing networking water automatic monitoring system - Google Patents

Abstract

The utility model provides an aquaculture thing networking water automatic monitoring system, its characteristics are: constitute by multi -parameter water quality measurement appearance, current meter, aerograph, box, solar cell panel, the solar control ware, battery, remote control module, the wireless transmission module that install in the box. Sensing device puts in in the water, the box direct mount near the subaerial of monitoring waters or install breeding the district aquatic cut down frame or box with a net on, need not the room of standing, the water of having avoided causing because of the sample deterioratees, has guaranteed that the monitoring parameter can truly reflect the water property, the power supply of adoption solar energy needn't be connected and to realize automatic, the continuous monitor of quality of water, the long -range automatic conveying of monitoring data to long -rangely adjust in real time various aquaculture environment parameters, provide optimalizing growth condition for breeding the object, through the remote control module, can be with a plurality of monitoring points networking constitution centralized management of system.

Description

Aquaculture Internet of Things water body automatic monitoring system

Technical field

This utility model belongs to technical field of aquaculture, relates to a kind of water quality, the hydrology and weather monitoring system, for the monitoring of culture environment of aquatic products, and specifically a kind of aquaculture Internet of Things water body automatic monitoring system.

Background technology

The monitoring of water quality, the hydrology and meteorological condition is the important step of aquaculture, current water quality monitoring many employings online auto monitoring.

China's water quality online auto monitoring is built more on a large scale and is started from the late 20th century, the form built mainly adopts application monitoring land used, builds fixing and permanent automatic monitor station room, technology path is the sensor of Introduced From Abroad and analytical tool is monitored and remotely monitoring to the real-time continuous implementing surface water quality, construction object is to grasp the water quality condition of main river emphasis section water body in time, and early-warning and predicting is great or basin-wide water pollution accident.In recent years, this online auto monitoring method is also used to scale aquaculture.Concrete grammar is: at intervals by the water of sampled point by the tank in water pump lifting to monitoring station, sensor is placed in the tank in station, and analytical tool is arranged in station.This method exist shortcoming have following some:

1, owing to water body exists with multiple different shape, such as: middle and small river, middle small lakes and reservoir, also there are great rivers, large-size lake, reservoir and ocean, and water quality therein being unevenly distributed spatially, if carrying out water quality automatic on-line monitoring with the water station formula monitoring method of point sampling, it is difficult to find one really to have fine representational monitoring point；

2, water quality distribution in time is also inconsistent, and therefore, monitoring interval is excessive, can not fully reflect the real conditions of water quality；

3, water quality through certain distance sampling conveyance conduit, it is difficult to ensureing that water temperature is consistent with water body water temperature, and water temperature is once change, the electrical conductivity relevant to water temperature, dissolved oxygen, pH value all can change.Additionally, the sucking filtration of pump also can make the turbidity of water change, if water quality all changes, its measurement result also cannot represent actual water quality.

Therefore, this with a monitoring mode sampling, by water pump, water being risen in monitoring station, although to there is the advantage that the detection of manual sampling formula is incomparable, also represent the direction of monitoring automatically to a certain extent.But it is as the progress of technology, can not meet people to water quality monitoring requirements on time and space.

Summary of the invention

This utility model is solve the problems referred to above that prior art exists, a kind of aquaculture Internet of Things water body automatic monitoring system is provided, without arranging station, can realize water quality automatic, monitor continuously, Monitoring Data remote auto transmits, remotely various breeding environment parameters to be adjusted in real time, provide optimum growth condition for cultivation object.

The purpose of this utility model is achieved through the following technical solutions:

A kind of aquaculture Internet of Things water body automatic monitoring system, including: multi-parameter water quality measuring instrument, current meter, aerograph, it is characterized in that, also include: casing, solar panel, controller for solar, accumulator, remote control module, water quality wireless transport module, hydrology wireless transport module, meteorological wireless transport module；Described casing is arranged on the ground near monitoring waters or is arranged on and cuts down on frame or net cage in the water of culture zone, and described solar panel is arranged on described casing；Described controller for solar, remote control module, accumulator, water quality wireless transport module, hydrology wireless transport module and meteorological wireless transport module are arranged on the inside of casing；Described multi-parameter water quality measuring instrument and current meter have waterproof sealing, and directly throw in monitoring water body；Described aerograph is arranged on the ground near monitoring waters or is arranged on cutting down on frame or net cage in the water of culture zone；Described solar panel and accumulator are connected with described controller for solar respectively through the first wire and the second wire, form supply module；Described multi-parameter water quality measuring instrument is connected with described water quality wireless transport module by multi-parameter water quality meter cable, forms water quality monitoring module；Described current meter is connected with hydrology wireless transport module by current meter cable, forms hydrologic monitoring module；Described aerograph is connected with meteorological wireless transport module by aerograph cable, forms weather monitoring module；The control end of described water quality wireless transport module, hydrology wireless transport module and meteorological wireless transport module is connected with described remote control module each through privates, and the control end of described controller for solar passes through privates and is connected with described remote control module.

Improvement to technique scheme: described solar panel is fixed on the end face of described casing with four pillars 1, and the end face of solar panel and casing is acute angle.

Further improvement to technique scheme: be provided with door on the sidewall of described casing, described door configures door lock.

Further improvement to technique scheme: described casing includes outer layer and internal layer, described casing outer layer is degree of protection is the rustless steel casing of IP65, described casing internal layer is degree of protection is the plastics waterproofing case of IP66, the door of described casing has gutter and fluid sealant, described casing is provided above a top board, and described top board surrounding forms waterproof eaves along the sidewall stretching out casing.

This utility model advantage compared with prior art and having the benefit effect that

1, sensing device can be directly invested in water body by this utility model, monitoring equipment installation environment variation, can be directly mounted at monitoring waters, it is not necessary to station, it is to avoid goes bad because sampling the water body caused, it is ensured that monitoring parameter can truly reflect water body character；

2, this utility model adopt solar powered, it is not necessary to connect power supply can realize water quality automatic, monitor continuously, Monitoring Data remote auto transmit, it is possible to remotely equipment is carried out power-off, power, restarts and regulates the multi-mode operations such as frequency acquisition；

3, this utility model autgmentability is strong, it is possible to only one of which monitoring point, independently becomes a system；Can also being merged multiple monitoring points, unified management is monitored, the set station data of inquiry at any time, in time breeding environment is adjusted according to various real-time parameters, provides optimum growth condition for cultivation object.

Accompanying drawing explanation

Fig. 1 is the attachment structure schematic diagram of this utility model a kind of aquaculture Internet of Things water body automatic monitoring system；

Fig. 2 is the front view of this utility model a kind of aquaculture Internet of Things water body automatic monitoring system；

Fig. 3 is the side view of this utility model a kind of aquaculture Internet of Things water body automatic monitoring system.

In figure: 1-solar panel, 1.1-pillar, 2-casing, 2.1-door lock, 2.2-cabinet door, 2.3-top board, 3-the first wire；4-remote control module；5-controller for solar；6-the second wire；7-privates；8-accumulator；9-privates, 10-multi-parameter water quality meter cable, 11-multi-parameter water quality measuring instrument, 12-current meter, 13-current meter cable, 14-water quality wireless transport module, 15-hydrology wireless transport module, 16-meteorology wireless transport module, 17-aerograph cable, 18-aerograph.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described in further detail:

Referring to Fig. 1-Fig. 3, the embodiment of this utility model a kind of aquaculture Internet of Things water body automatic monitoring system, including: multi-parameter water quality measuring instrument 11, current meter 12, aerograph 18, casing 2, solar panel 1, controller for solar 5, accumulator 8, remote control module 4, water quality wireless transport module 14, hydrology wireless transport module 15, meteorological wireless transport module 16.

Above-mentioned casing 2 is arranged on the ground near monitoring waters or is arranged on and cuts down on frame or net cage in the water of culture zone, and solar panel 1 is arranged on casing 2；Controller for solar 5, remote control module 4, accumulator 8, water quality wireless transport module 14, hydrology wireless transport module 15 and meteorological wireless transport module 16 are arranged on the inside of casing 2.Multi-parameter water quality measuring instrument 11 and current meter 12 have waterproof sealing, and directly throw in monitoring water body.Aerograph 18 is arranged on the ground near monitoring waters or is arranged on cutting down on frame or net cage in the water of culture zone；Described solar panel 1 and accumulator 8 are connected with controller for solar 5 respectively through the first wire 3 and the second wire 6, form supply module.Multi-parameter water quality measuring instrument 11 is connected with water quality wireless transport module 14 by multi-parameter water quality meter cable 10, forms water quality monitoring module.Current meter 12 is connected with hydrology wireless transport module 15 by current meter cable 13, forms hydrologic monitoring module；Described aerograph 18 is connected with meteorological wireless transport module 16 by aerograph cable 17, forms weather monitoring module；The control end of water quality wireless transport module 14, hydrology wireless transport module 15 and meteorological wireless transport module 16 is connected with remote control module 4 each through privates 9, and the control end of controller for solar 5 is connected with remote control module 4 by privates 7.

Specifically: above-mentioned solar panel 1 is fixed on the end face of casing 2 with four pillars 1.1, and the end face of solar panel 1 and casing 2 is acute angle, and the angular range of usual acute angle A is 20 °-40 °.The sidewall of casing 2 is provided with door 2.2, door 2.2 configures door lock 2.1, as shown in Figure 2,3.

Owing to casing 2 is chronically exposed in atmospheric environment, for making casing 2 have water-proof function, casing 2 includes outer layer and internal layer, and casing 2 outer layer is degree of protection is the rustless steel casing of IP65, casing 2 internal layer is degree of protection is the plastics waterproofing case of IP66, and the door of casing 2 has gutter and fluid sealant.Being provided above a top board 2.3 at casing 2, top board 2.3 surrounding forms waterproof eaves along the sidewall stretching out casing 2.

This automatic monitoring system can monitor the water quality hydrometeorology situation in aquaculture process real-time, by remote control module 4, can by multiple monitoring points networking composition system, much information is collected and carries out Computer Storage, process, and it is associated with the multiple terminal equipment such as computer, mobile phone, in time breeding environment is adjusted according to various real-time parameters, provides optimum growth condition for cultivation object, and various Vigilance parameter can be set, in order to process in time when abnormal conditions occur.

In actual use, multi-parameter water quality measuring instrument 11, current meter 12 and aerograph 18 have the polytype of multiple brand to select.

Certainly; described above is not to restriction of the present utility model, and this utility model is also not limited to the example above, those skilled in the art; change done in essential scope of the present utility model, remodeling, interpolation or replacement, fall within protection domain of the present utility model.

Claims (4)

1. an aquaculture Internet of Things water body automatic monitoring system, including: multi-parameter water quality measuring instrument, current meter, aerograph, it is characterized in that, also include: casing, solar panel, controller for solar, accumulator, remote control module, water quality wireless transport module, hydrology wireless transport module, meteorological wireless transport module；Described casing is arranged on the ground near monitoring waters or is arranged on and cuts down on frame or net cage in the water of culture zone, and described solar panel is arranged on described casing；Described controller for solar, remote control module, accumulator, water quality wireless transport module, hydrology wireless transport module and meteorological wireless transport module are arranged on the inside of casing；Described multi-parameter water quality measuring instrument and current meter have waterproof sealing, and directly throw in monitoring water body；Described aerograph is arranged on the ground near monitoring waters or is arranged on cutting down on frame or net cage in the water of culture zone；Described solar panel and accumulator are connected with described controller for solar respectively through the first wire and the second wire, form supply module；Described multi-parameter water quality measuring instrument is connected with described water quality wireless transport module by multi-parameter water quality meter cable, forms water quality monitoring module；Described current meter is connected with hydrology wireless transport module by current meter cable, forms hydrologic monitoring module；Described aerograph is connected with meteorological wireless transport module by aerograph cable, forms weather monitoring module；The control end of described water quality wireless transport module, hydrology wireless transport module and meteorological wireless transport module is connected with described remote control module each through privates, and the control end of described controller for solar passes through privates and is connected with described remote control module.

2. the aquaculture Internet of Things water body automatic monitoring system described in claim 1, it is characterised in that described solar panel is fixed on the end face of described casing with four pillars, and the end face of solar panel 1 and casing is acute angle.

3. the aquaculture Internet of Things water body automatic monitoring system described in claim 1 or 2, it is characterised in that be provided with door on the sidewall of described casing, described door configures door lock.

4. the aquaculture Internet of Things water body automatic monitoring system described in claim 3, it is characterized in that, described casing includes outer layer and internal layer, described casing outer layer is degree of protection is the rustless steel casing of IP65, described casing internal layer is degree of protection is the plastics waterproofing case of IP66, the door of described casing has gutter and fluid sealant, described casing to be provided above a top board, and described top board surrounding forms waterproof eaves along the sidewall stretching out casing.