CN213456909U - Communication device for remotely controlling and collecting environmental parameters - Google Patents

Abstract

The utility model relates to a water quality monitoring technology field, concretely relates to remote control gathers communication device of environmental parameter, the power distribution box comprises a box body, the inside of box is equipped with detection module, wireless remote communication module and controller, detection module is including setting up at inside detection chamber, clean water storage tank and the waste water storage tank of box, it passes through inlet channel and external environment intercommunication to detect the chamber, the inside that detects the chamber still is equipped with a plurality of water quality sensors, detect the chamber still respectively through first pipeline and second pipeline with clean water storage tank and waste water storage tank intercommunication, the controller is used for collecting water quality testing data and transmits it to remote monitoring platform through wireless remote communication module. The communication device for remotely controlling the collection of the environmental parameters can clean the detection cavity in time after detection, so that the maintenance cost of long-term use is reduced, the detection precision is improved, and the service life is prolonged.

Description

Communication device for remotely controlling and collecting environmental parameters

Technical Field

The utility model relates to a water quality monitoring technology field especially relates to a remote control gathers environmental parameter's communication device.

Background

At present, the on-line monitoring of water quality is generally realized by establishing an unattended real-time monitoring automatic water quality monitoring station so as to obtain continuous on-line water quality monitoring data (generally comprising five conventional parameters, COD, ammonia nitrogen, heavy metals, biotoxicity data and the like) in time, the modern information technology is utilized for data acquisition and relevant water quality data are transmitted to an environmental protection information center, the remote monitoring of the automatic monitoring station by the environmental protection information center is realized, the comprehensive, scientific and real reflection of the water quality condition of each monitoring point is facilitated, the water quality condition and the dynamic change trend are mastered in time and accurately, and obvious economic benefits are brought to the use of users.

However, in the prior art, the water quality online detection device generally obtains water quality data directly through the sensor, and needs to be maintained continuously in the use process, and particularly for monitoring a water source with poor water quality, microorganisms, minerals and the like in water may be attached to and grow in the detection cavity, which may cause the detection precision of each water quality monitoring sensor to be reduced after the water quality monitoring sensor is used for a certain time.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, an object of the utility model is to provide a remote control gathers environment parameter's communication device, remote control gathers environment parameter's communication device can clean the detection chamber in time after detecting to reduce the maintenance cost of long-term use, improve and detect precision and life.

In order to achieve the technical effects, the utility model adopts the following technical scheme:

a communication device for remotely controlling and collecting environmental parameters comprises a box body, wherein a detection module, a wireless remote communication module and a controller are arranged in the box body, the detection module comprises a detection cavity arranged in the box body, a clean water storage tank and a waste water storage tank, the detection cavity is communicated with the external environment through a water inlet pipeline, a plurality of water quality sensors are also arranged inside the detection cavity, the detection cavity is also communicated with the clean water storage tank and the waste water storage tank through a first conveying pipeline and a second conveying pipeline respectively, the water inlet pipeline, the first conveying pipeline and the second conveying pipeline are all provided with an electromagnetic valve and a conveying pump, the electromagnetic valve, the water quality sensor and the delivery pump are all electrically connected with the controller, and the controller is used for collecting water quality detection data and transmitting the water quality detection data to the remote monitoring platform through the wireless remote communication module.

Further, the water quality sensor comprises a pH sensor, a temperature sensor, a chemical oxygen demand sensor, an ammonia nitrogen sensor, a conductivity sensor and a dissolved oxygen sensor.

Further, an ozone generator is arranged inside the box body and communicated with the detection cavity through an aeration pipeline.

Further, the bottom that detects the chamber is equipped with inclosed installation cavity, the inside of installation cavity is equipped with magnetic drive device, the bottom that detects the chamber is equipped with the stirring recess, the magnetic rotor has been placed in the stirring recess, the top of magnetic rotor is equipped with the (mixing) shaft, fixed mounting has a plurality of stirring vane on the (mixing) shaft.

Furthermore, a plurality of air inlets are arranged at the bottom of the stirring groove and are communicated with the ozone generator through the aeration pipeline.

Further, the bottom surface of the stirring groove is a spherical surface.

Further, the inside in detection chamber still is equipped with liquid washing medicament storage tank, liquid washing medicament storage tank through third pipeline with detect the chamber intercommunication, be equipped with solenoid valve and delivery pump on the third pipeline.

Compared with the prior art, the beneficial effects of the utility model are that:

on the one hand, this remote control gathers communication device of environmental parameter detects the chamber through setting up to set up a plurality of quality of water sensors in the inside that detects the chamber and be used for collecting quality of water environmental data, and be provided with controller and wireless remote communication module simultaneously, be convenient for the controller is uploaded to remote monitoring platform to the quality of water environmental parameter who gathers in real time, so that reduce administrative cost.

On the other hand, this remote control gathers communication device of environmental parameter is through setting up clean water storage tank and waste water storage tank to through setting up the magnetic rotor in detecting the intracavity, and set up the drive of magnetic drive device the magnetic rotor drives (mixing) shaft and stirring vane together and stirs clean water, so that clean the detection chamber, simultaneously, still utilize ozone and washing medicament respectively through setting up ozone generator and liquid washing medicament storage tank to further improve the clean ability to detecting the chamber, make the quality of water sensor who detects the intracavity can keep good detection performance.

Drawings

Fig. 1 is a schematic view of an overall structure of a communication device for remotely controlling and acquiring environmental parameters according to an embodiment of the present invention;

the reference signs are: 10, a box body, 11, a detection cavity, 111, a water inlet pipeline, 112, a water quality sensor, 12, a mounting cavity, 121, a magnetic driving device, 13, a stirring groove, 14, an air inlet, 15, a magnetic rotor, 16, a stirring shaft, 17, a stirring blade, 20, a clean water storage tank, 21, a first conveying pipeline, 30, a waste water storage tank, 31, a second conveying pipeline, 40, an ozone generator, 41, an aeration pipeline, 50, a liquid cleaning agent storage tank, 51, a third conveying pipeline, 60, a wireless remote communication module, 70 and a controller.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1, the communication device for remotely controlling and acquiring environmental parameters provided in this embodiment includes a box 10, a detection module, a wireless remote communication module 60 and a controller 70 are provided in the box 10, the detection module includes a detection chamber 11, a clean water storage tank 20 and a waste water storage tank 30 which are provided in the box 10, the detection chamber 11 is communicated with an external environment through an inlet pipe 111, a plurality of water quality sensors 112 are further provided in the detection chamber 11, the detection chamber 11 is further communicated with the clean water storage tank 20 and the waste water storage tank 30 through a first conveying pipe 21 and a second conveying pipe 31, electromagnetic valves and conveying pumps are provided on the inlet pipe 111, the first conveying pipe 21 and the second conveying pipe 31, the electromagnetic valves, the water quality sensors 112 and the conveying pumps are all electrically connected to the controller 70, and the controller 70 is configured to collect water quality detection data and transmit the water quality detection data to the remote communication module 60 through the wireless remote communication module 60 And (5) monitoring the platform. When the detection device is specifically implemented, the controller 70 can sequentially realize that a water sample to be detected is sucked into the detection cavity 11 by controlling the starting of each electromagnetic valve and the delivery pump, clean water is pumped into the detection cavity 11 from the clean water storage tank 20 to clean the detection cavity 11, and clean water in the detection cavity 11 is pumped out to the waste water storage tank 30, so that the detection cavity 11 is cleaned after sampling detection at each time, the butt joint of microorganisms and mineral substances or other impurities in the detection cavity 11 is avoided, the accuracy of the water quality detection at the next time is not influenced, the service life of each sensor can be effectively prolonged, and the maintenance cost is reduced.

In this embodiment, in order to obtain the water quality parameters, the water quality sensor 112 at least includes a pH sensor, a temperature sensor, a chemical oxygen demand sensor, an ammonia nitrogen sensor, a conductivity sensor, a dissolved oxygen sensor, and the like. So as to detect and obtain the testing result to pH, temperature, chemical oxygen demand, ammonia nitrogen, conductivity and dissolved oxygen etc. to quality of water, and transmit the testing result to controller 70, by controller 70 transmits it to the remote monitoring platform through wireless remote communication module 60 to the administrator carries out remote monitoring to the quality of water environment, reduces the supervision cost.

In this embodiment, for improving the clean ability to detecting chamber 11, the bottom that detects chamber 11 is equipped with inclosed installation cavity 12, the inside of installation cavity 12 is equipped with magnetic drive device 121, the bottom that detects chamber 11 is equipped with stirring recess 13, magnetic rotor 15 has been placed in the stirring recess 13, just magnetic rotor 15's top is equipped with (mixing) shaft 16, fixed mounting has a plurality of stirring vane 17 on the (mixing) shaft 16. Specifically, the bottom of magnetic rotor 15 and the bottom of stirring recess 13 are sphere and sphericity the same, so that magnetic rotor 15 is in the inside rotation of stirring recess 13, when concrete implementation, magnetic drive device 121 starts and drives magnetic rotor 15 drives (mixing) shaft 16 and stirring vane 17 are rotatory to be convenient for improve stirring efficiency, drive the clean water motion in detecting chamber 11 in order to improve the clean ability to detecting chamber 11 chamber wall and water quality sensor 112's probe.

In this embodiment, in order to further improve the cleaning capability of the detection chamber 11, an ozone generator 40 is further disposed inside the box body 10, and the ozone generator 40 is communicated with the detection chamber 11 through an aeration pipe 41. Specifically. The bottom of the stirring groove 13 is provided with a plurality of air inlets 14, and the air inlets 14 are communicated with the ozone generator 40 through the aeration pipeline 41. In specific implementation, the ozone generator 40 generates ozone under the control of the controller 70 and delivers the ozone into the detection chamber 11 through the aeration pipe 41, so as to sterilize the detection chamber 11 and avoid the growth of microorganisms.

In this embodiment, in order to treat chemical pollutants such as oil stains attached to the detection cavity 11 and capable of being adsorbed on the wall of the detection cavity 11, a liquid cleaning agent storage tank 50 is further disposed inside the detection cavity 11, the liquid cleaning agent storage tank 50 is communicated with the detection cavity 11 through a third conveying pipeline 51, and an electromagnetic valve and a conveying pump are disposed on the third conveying pipeline 51. In specific implementation, the liquid cleaning agent in the liquid cleaning agent storage tank 50 is pumped into the detection chamber 11 through the delivery pump, and meanwhile, the liquid cleaning agent is dispersed in the stirring chamber under the action of the stirring shaft 16 and the stirring blades 17, so that the chamber wall of the detection chamber 11 is cleaned.

Although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art will understand that the present invention can be modified or replaced with other embodiments without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims. The technology, shape and construction parts which are not described in detail in the present invention are all known technology.

Claims (7)

1. A communication device for remotely controlling acquisition of environmental parameters, characterized by: comprises a box body (10), a detection module, a wireless remote communication module (60) and a controller (70) are arranged in the box body (10), the detection module comprises a detection cavity (11), a clean water storage tank (20) and a waste water storage tank (30) which are arranged in the box body (10), the detection cavity (11) is communicated with the external environment through a water inlet pipeline (111), a plurality of water quality sensors (112) are also arranged in the detection cavity (11), the detection cavity (11) is communicated with the clean water storage tank (20) and the waste water storage tank (30) through a first conveying pipeline (21) and a second conveying pipeline (31) respectively, electromagnetic valves and conveying pumps are arranged on the water inlet pipeline (111), the first conveying pipeline (21) and the second conveying pipeline (31), and the electromagnetic valves, the water quality sensors (112) and the conveying pumps are electrically connected with the controller (70), the controller (70) is used for collecting water quality detection data and transmitting the water quality detection data to the remote monitoring platform through the wireless remote communication module (60).

2. A communication device for remotely controlling the acquisition of environmental parameters according to claim 1, characterized in that: the water quality sensor (112) comprises a pH sensor, a temperature sensor, a chemical oxygen demand sensor, an ammonia nitrogen sensor, a conductivity sensor and a dissolved oxygen sensor.

3. A communication device for remotely controlling the acquisition of environmental parameters according to claim 1, characterized in that: an ozone generator (40) is further arranged inside the box body (10), and the ozone generator (40) is communicated with the detection cavity (11) through an aeration pipeline (41).

4. A communication device for remotely controlling the acquisition of environmental parameters according to claim 3, characterized in that: the bottom that detects chamber (11) is equipped with inclosed installation cavity (12), the inside of installation cavity (12) is equipped with magnetic drive device (121), the bottom that detects chamber (11) is equipped with stirring recess (13), magnetic rotor (15) have been placed in stirring recess (13), the top of magnetic rotor (15) is equipped with (mixing) shaft (16), fixed mounting has a plurality of stirring vane (17) on (mixing) shaft (16).

5. A communication device for remotely controlling the acquisition of environmental parameters according to claim 4, characterized in that: the bottom of the stirring groove (13) is provided with a plurality of air inlets (14), and the air inlets (14) are communicated with the ozone generator (40) through the aeration pipeline (41).

6. A communication device for remotely controlling the acquisition of environmental parameters according to claim 4, characterized in that: the bottom surface of the stirring groove (13) is a spherical surface.

7. A communication device for remotely controlling the acquisition of environmental parameters according to claim 1, characterized in that: the inside in detection chamber (11) still is equipped with liquid washing medicament storage tank (50), liquid washing medicament storage tank (50) through third pipeline (51) with detect chamber (11) intercommunication, be equipped with solenoid valve and delivery pump on third pipeline (51).

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