CN216160611U - Synchronous on-line monitoring device of breed aquatics pond quality of water multisite - Google Patents

Abstract

The utility model discloses a multi-site synchronous online monitoring device for water quality of an aquaculture pond, which is characterized in that: the device constitute by sampling part and test section two parts, the sampling part include a plurality of sampling mechanism, sampling mechanism includes the sampling casing, is provided with a plurality of holes of permeating water on the outer wall of sampling casing, is provided with the water pump in the inner chamber of sampling casing, the exit end of water pump then divides the pipeline with the sampling to link to each other, and all sampling branch pipelines all link to each other with the entry end of the total pipeline of sampling, the exit end of the total pipeline of sampling then links to each other with test section, test section is including detecting the box, the test tube way that detects the box links to each other with the exit end of the total pipeline of sampling, still set gradually temperature sensor, salinity sensor, dissolved oxygen sensor, PH sensor and the oxidation-reduction potential sensor of establishing ties each other simultaneously on inserting the pipeline, the exit end of test tube way then is located the outside of detecting the box.

Description

Synchronous on-line monitoring device of breed aquatics pond quality of water multisite

Technical Field

The utility model relates to the field of intelligent aquaculture, in particular to a multi-site synchronous online monitoring device for water quality of an aquaculture pond.

Background

The water quality monitoring is an important content of aquaculture production and scientific research, and with the progress of aquaculture production and scientific research, people find that the water quality monitoring at a single site in the prior art can not be used for real-time water quality comparison at different sites of the same pond or corresponding sites of different ponds, so that the recognition or evaluation of the aquaculture water quality conditions from the space angle and the macroscopic angle is greatly limited. Therefore, the multi-site synchronous online monitoring of the aquaculture pond is more and more emphasized, people can select the observation site arrangement device according to needs, can acquire observation data from two horizontal and vertical dimensions, master the information of the culture water quality in time and space, develop dynamic research on the water quality, and have important significance in improving water quality management, improving aquaculture yield, preventing disasters and reducing disasters.

The on-line monitoring equipment for the aquaculture water body mainly comprises a sensor, a data line and a control box. The traditional online monitoring method is that a set of equipment can only correspond to the water quality monitoring of a site, and specifically, a sensor is placed on the monitoring site and is connected with a control box through a data line. When multi-site comparison monitoring is carried out, a plurality of sets of equipment with the same model are required to be used at the same time, and the method comprises the steps of respectively placing the sensors at different monitoring sites, respectively connecting the sensors with the control box through data lines, finally carrying out combination and assembly on the control box, and carrying out computer integration and integration processing on different equipment signals. The problems with this approach are: the method comprises the steps of firstly, multiplying the manufacturing cost of a plurality of devices, secondly, complicated and tedious data later-period integration processing, thirdly, greatly influencing the comparative analysis conclusion of the data due to the operation stability and the system error among the plurality of devices. Particularly, the third problem often causes the expert system to judge the water quality condition in a disordered way, which leads to the failure report or the false report of the disaster forecast and early warning. Therefore, in aquaculture production and scientific research monitoring through monitoring data comparison, the influence of stability and system error between multiple devices is eliminated, an effective multi-site water quality synchronous monitoring device is developed, and the device becomes a necessary condition for upgrading of an aquaculture intelligent aquaculture industry.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art, and provides the device which is simple in structure, ingenious in design and reasonable in layout and can be used for synchronously monitoring the water quality on line at different sites of the same pond or at related sites of different ponds in real time.

The technical solution of the utility model is as follows: the utility model provides a synchronous on-line monitoring device of breed aquatics pond quality of water multisite which characterized in that: the device consists of a sampling part and a detection part, wherein the sampling part comprises a plurality of sampling mechanisms, each sampling mechanism comprises a sampling shell 1, a plurality of permeable holes are arranged on the outer wall of the sampling shell 1, a water pump is arranged in the inner cavity of the sampling shell 1, the outlet end of the water pump is connected with a sampling branch pipeline 2, all the sampling branch pipelines 2 are connected with the inlet end of a sampling main pipeline 3, the outlet end of the sampling main pipeline 3 is connected with the detection part,

the detection part comprises a detection box body 4, a detection pipeline of the detection box body 4 is connected with the outlet end of a sampling main pipeline 3, meanwhile, a temperature sensor 5, a salinity sensor 6, an oxygen dissolving sensor 7, a PH sensor 8 and an oxidation-reduction potential sensor 9 which are mutually connected in series are sequentially arranged on an access pipeline, the outlet end of the detection pipeline is positioned outside the detection box body 4,

the detection part also comprises a control terminal 10, and the control terminal 10 can uniformly control the water pump, the temperature sensor 5, the salinity sensor 6, the dissolved oxygen sensor 7, the PH sensor 8 and the oxidation-reduction potential sensor 9.

The control terminal 10 is a PC, a notebook computer, a tablet computer or a smart phone.

Compared with the prior art, the utility model has the following advantages:

this kind of structure form's synchronous on-line monitoring device of breed aquatics pond quality of water multisite, its simple structure, design benefit, it is rationally distributed, it is to the problem that traditional water quality monitoring device exists in the course of the work, a special structure is designed, it has a plurality of parallelly connected sampling parts each other simultaneously, can carry out the sampling operation to a plurality of sites (different water depth in the same breed aquatics pond, a plurality of sites of different positions or relevant site in the different breed aquatics ponds) respectively, and the water sample of collection is unified detects through one set of sensor group, the testing result directly sends to and unifies in the control terminal and handles. The monitoring device can reduce the overall cost while achieving the purpose of multi-site monitoring, and can improve the stability and the uniformity of the whole monitoring equipment and reduce the system error as much as possible, thereby ensuring that the data processing system cannot miss or report the disaster early warning information due to judgment confusion. The device can eliminate the influence of stability and system errors among multiple devices in aquaculture scientific research and production management monitoring with comparative monitoring data as a core. And the manufacturing process is simple, the manufacturing cost is low, so that the novel LED lamp has multiple advantages, is particularly suitable for popularization and application in the field, and has a very wide market prospect.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Detailed Description

The following description will explain embodiments of the present invention with reference to the accompanying drawings. As shown in fig. 1: a multi-site synchronous online monitoring device for water quality of an aquaculture pond is composed of a sampling part and a detection part, wherein the sampling part comprises a plurality of sampling mechanisms, each sampling mechanism comprises a sampling shell 1, a plurality of water permeable holes are formed in the outer wall of each sampling shell 1, a water pump is arranged in the inner cavity of each sampling shell 1, the outlet end of each water pump is connected with a sampling branch pipeline 2, all the sampling branch pipelines 2 are connected with the inlet end of a sampling main pipeline 3, the outlet end of the sampling main pipeline 3 is connected with the detection part,

the detection part comprises a detection box body 4, a detection pipeline of the detection box body 4 is connected with the outlet end of a sampling main pipeline 3, meanwhile, a temperature sensor 5, a salinity sensor 6, an oxygen dissolving sensor 7, a PH sensor 8 and an oxidation-reduction potential sensor 9 which are mutually connected in series are sequentially arranged on an access pipeline, the outlet end of the detection pipeline is positioned outside the detection box body 4,

the detection part also comprises a control terminal 10, the control terminal 10 can uniformly control the water pump, the temperature sensor 5, the salinity sensor 6, the dissolved oxygen sensor 7, the PH sensor 8 and the oxidation-reduction potential sensor 9, and the control terminal 10 is a related control circuit or a PC, a notebook computer, a tablet computer and a smart phone.

The multi-site synchronous online monitoring device for the water quality of the aquaculture pond provided by the embodiment of the utility model has the following working process: firstly, according to the requirements of monitoring water depth and position, respectively placing sampling mechanisms at different positions of the same aquaculture pond, or respectively placing sampling mechanisms at related positions of different aquaculture ponds, when the water quality detection equipment runs, sending an instruction through a control terminal 10, sequentially controlling water pumps in different sampling mechanisms to work, pumping water samples of the current position into a sampling branch pipeline 2 by the water pumps, pumping the water samples into a detection box body 4 through a sampling main pipeline 3, specifically pumping the water samples into a detection pipeline, enabling the water samples to sequentially pass through a temperature sensor 5, a salinity sensor 6, an oxygen dissolving sensor 7, a PH sensor 8 and an oxidation reduction potential sensor 9, respectively detecting the temperature, salinity, the oxygen dissolving rate, the PH value and the oxidation reduction potential value of the water samples, directly discharging the water samples of one position through the outlet end of the detection pipeline after the water samples are collected and analyzed, then the control terminal 10 sends an instruction to a water pump in another detection part to control the water pump to work, the water pump pumps a water sample at the position into a detection pipeline, the water sample is detected by the temperature sensor 5, the salinity sensor 6, the dissolved oxygen sensor 7, the PH sensor 8 and the oxidation-reduction potential sensor 9 in turn, and the control terminal 10 judges the water quality parameters of the position; repeating the steps until all the water samples at all the sites are detected once; at certain intervals, the control terminal 10 controls the device to repeat the above operations once, thereby realizing synchronous online monitoring operation of multiple sites. The working sequence and working time of the water pump in each sampling mechanism can be set as required by the control terminal 10; the corresponding detection result is automatically sent to the control terminal 10 for data processing, integration and storage, and meanwhile, the data processing system pre-installed in the control terminal 10 automatically judges whether the early warning information needs to be sent out according to the parameters.

Claims (2)

1. The utility model provides a synchronous on-line monitoring device of breed aquatics pond quality of water multisite which characterized in that: the device consists of a sampling part and a detection part, wherein the sampling part comprises a plurality of sampling mechanisms, each sampling mechanism comprises a sampling shell (1), the outer wall of the sampling shell (1) is provided with a plurality of permeable holes, a water pump is arranged in the inner cavity of the sampling shell (1), the outlet end of the water pump is connected with a sampling branch pipeline (2), all the sampling branch pipelines (2) are connected with the inlet end of a sampling main pipeline (3), the outlet end of the sampling main pipeline (3) is connected with the detection part,

the detection part comprises a detection box body (4), a detection pipeline of the detection box body (4) is connected with the outlet end of the sampling main pipeline (3), meanwhile, a temperature sensor (5), a salinity sensor (6), an oxygen dissolving sensor (7), a pH sensor (8) and an oxidation-reduction potential sensor (9) which are mutually connected in series are sequentially arranged on the access pipeline, the outlet end of the detection pipeline is positioned outside the detection box body (4),

the detection part also comprises a control terminal (10), and the control terminal (10) can uniformly control the water pump, the temperature sensor (5), the salinity sensor (6), the dissolved oxygen sensor (7), the pH sensor (8) and the oxidation-reduction potential sensor (9).

2. The multi-site synchronous online water quality monitoring device for the aquaculture pond as recited in claim 1, wherein: the control terminal (10) is a PC (personal computer), a notebook computer, a tablet personal computer or a smart phone.

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