CN218917370U - Water quality monitoring device - Google Patents

Abstract

The utility model discloses a water quality monitoring device, which comprises a ship body and further comprises: the GPS positioner is arranged on one side of the interior of the ship body and is used for generating a position signal; the water quality sensor is arranged at the bottom of the ship body and is fixedly connected with the ship body through an iron chain, and the water quality sensor is used for generating a detection signal; and the timing controller is arranged on one side of the interior of the ship body. According to the utility model, the GPS locator and the timing controller are arranged, so that the water quality monitoring device can move forwards and stay at fixed time, point location acquisition can be performed through the water quality sensor, and water quality acquisition work of the whole water surface area is performed, so that the technical problem that the water quality monitoring device is fixed at a certain position on the water surface to perform fixed-point water quality acquisition by installing the water quality monitoring device, so that the water quality monitoring has one-sided performance, and the water quality of the whole area cannot be monitored is solved.

Description

Water quality monitoring device

Technical Field

The utility model relates to the technical field of water quality monitoring, in particular to a water quality monitoring device.

Background

The water quality monitoring is a process for monitoring and measuring the types of pollutants in a water body, the concentration and the change trend of various pollutants, and evaluating the water quality condition, the monitoring range is very wide, and the monitoring range comprises uncontaminated and polluted natural water, such as river, lake, sea and groundwater, various industrial drainage and the like, and the main monitoring projects can be divided into two main types: one is a comprehensive index reflecting water quality conditions, such as temperature, chromaticity, turbidity, pH value, conductivity, suspended matters, dissolved oxygen, chemical oxygen demand, biochemical oxygen demand and the like; the other is some toxic substances such as phenol, cyanogen, arsenic, lead, chromium, cadmium, mercury, organic pesticides, etc.

The water environment water quality monitoring technology in China has been developed at a relatively high speed, and the water quality monitoring technology in China is mainly based on physical and chemical monitoring technologies, including a chemical method, an electrochemical method, an atomic absorption spectrophotometry, an ion selective electrode method, an ion chromatography, a gas chromatography, a plasma emission spectrometry and the like, wherein the ion selective electrode method and the chemical method are commonly adopted in conventional monitoring of water quality at home and abroad, and in recent years, the biological monitoring and remote sensing monitoring technology is also applied to water quality monitoring.

At present, people have two collection modes when monitoring water quality, one is manual work and samples water quality, time and labor are wasted, danger is easy to occur, the water quality monitoring device is needed to be used, the existing water quality monitoring device can be fixed at a certain position on the water surface for fixed-point water quality collection when being used, and thus water quality monitoring has one-sided performance and cannot monitor water quality in all areas.

Disclosure of Invention

The application provides a water quality monitoring device for it is comparatively loaded down with trivial details to gather through artifical people to solve current water quality monitoring, fixes carrying out fixed point water quality collection in certain position of surface of water through installing water quality monitoring device, leads to water quality monitoring to have one-sidedness, can't monitor the technical problem of whole regional quality of water.

In view of the foregoing, the present application provides a water quality monitoring device, including a hull, further including: the GPS positioner is arranged on one side of the interior of the ship body and is used for generating a position signal; the water quality sensor is arranged at the bottom of the ship body and is fixedly connected with the ship body through an iron chain, and the water quality sensor is used for generating a detection signal; the timing controller is arranged on one side of the interior of the ship body and is used for generating a timing control signal; the microprocessor is arranged on one side of the interior of the ship body, is electrically connected with the GPS locator, is electrically connected with the water quality sensor, is electrically connected with the timing controller, and is used for receiving the position signals, the detection signals and the timing control signals and generating execution signals; the driving controller is arranged on one side of the interior of the ship body, is electrically connected with the microprocessor, and is used for receiving the execution signal and generating a control signal; the advancing device is arranged at the bottom end of the ship body, is electrically connected with the driving controller and is used for receiving the control signal and steering and advancing; the communication module is arranged on one side of the interior of the ship body, is electrically connected with the microprocessor, and is used for receiving the execution signals and communicating.

Further, the advancing device comprises a pushing component and a steering component, wherein the pushing component is fixedly connected with the ship body, and the steering component is fixedly connected with the ship body.

Further, the pushing assembly comprises a first driving motor, a driving belt and a propeller, wherein the first driving motor is transversely arranged at the bottom end inside the ship body, the first driving motor is in transmission connection with the driving belt, the driving belt is in transmission connection with the propeller, and the first driving motor works to drive the propeller to rotate.

Further, the steering assembly comprises a second driving motor and a steering square plate, wherein the second driving motor is longitudinally arranged at the bottom end inside the ship body, the second driving motor is fixedly connected with the steering square plate, and the second driving motor works to drive the steering square plate to swing left and right.

Further, the iron chain is far away from the square box of still fixedly connected with of one end of hull, water quality sensor sets up the inside of square box, circular through-hole has all been seted up to square box outer wall.

Further, the water quality sensor adopts one of temperature, chromaticity, turbidity, pH value, conductivity, suspended matters, dissolved oxygen, chemical oxygen demand and biochemical oxygen demand sensors.

Further, the communication module is in communication connection with a remote control terminal.

One or more technical solutions provided in the present application have at least the following technical effects or advantages:

according to the embodiment of the application, the GPS locator and the timing controller are arranged, the water quality monitoring device is enabled to move forwards and stay at regular time, point location collection can be carried out through the water quality sensor, water quality collection work of the whole water surface area is carried out, the problem that the existing water quality monitoring device is complicated to collect through manual people, fixed-point water quality collection is carried out at a certain position on the water surface through installing the water quality monitoring device, one-sided performance is caused in water quality monitoring, and the technical problem that the water quality of the whole area cannot be monitored is solved.

The foregoing description is only an overview of the technical solutions of the present application, and may be implemented according to the content of the specification in order to make the technical means of the present application more clearly understood, and in order to make the above-mentioned and other objects, features and advantages of the present application more clearly understood, the following detailed description of the present application will be given.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a front perspective view provided herein.

Fig. 2 is a schematic diagram of a system provided in the present application.

Fig. 3 is a top cut-away perspective view provided herein.

Fig. 4 is a front cross-sectional perspective view provided herein.

Fig. 5 is a cut-away perspective view of a square box provided herein.

In the figure: 1. a hull; 2. a GPS locator; 3. a water quality sensor; 4. an iron chain; 5. a timing controller; 6. a microprocessor; 7. a drive controller; 8. a forward moving device; 9. a communication module; 10. square box; 11. a remote control terminal; 81. a pushing assembly; 82. a steering assembly; 811. a first driving motor; 812. a transmission belt; 813. a propeller; 821. a second driving motor; 822. turning to the square plate.

Detailed Description

The application is through providing a water quality monitoring device for it is comparatively loaded down with trivial details to gather through artifical people to solve current water quality monitoring, fixes carrying out fixed point water quality collection in certain position of surface of water through installing water quality monitoring device, leads to water quality monitoring to have one-sidedness, can't monitor the technical problem of whole regional quality of water.

Aiming at the technical problems, the technical scheme provided by the application has the following overall thought:

according to the embodiment of the application, the GPS locator and the timing controller are arranged, the water quality monitoring device is enabled to move forwards and stay at regular time, point location collection can be carried out through the water quality sensor, water quality collection work of the whole water surface area is carried out, the problem that the existing water quality monitoring device is complicated to collect through manual people, fixed-point water quality collection is carried out at a certain position on the water surface through installing the water quality monitoring device, one-sided performance is caused in water quality monitoring, and the technical problem that the water quality of the whole area cannot be monitored is solved.

Having introduced the basic principles of the present application, the technical solutions herein will now be clearly and fully described with reference to the accompanying drawings, it being apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments of the present application, and it is to be understood that the present application is not limited by the example embodiments described herein. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the present application without making any inventive effort, are intended to be within the scope of the present application. It should be further noted that, for convenience of description, only some, but not all of the drawings related to the present application are shown.

As shown in fig. 1 and 2, the present application provides a water quality monitoring device, including a hull 1, further including: the GPS localizer 2 is arranged at one side of the inner part of the hull 1 and is used for generating a position signal; the water quality sensor 3 is arranged at the bottom of the ship body 1 and used for generating a detection signal, and the water quality sensor 3 is fixedly connected with the ship body 1 through the iron chain 4; the timing controller 5 is arranged at one side of the interior of the ship body 1 and is used for generating timing control signals; the microprocessor 6 is arranged at one side of the interior of the ship body 1 and is used for receiving the position signals, the detection signals and the timing control signals and generating execution signals, the microprocessor 6 is electrically connected with the GPS positioner 2, the microprocessor 6 is electrically connected with the water quality sensor 3, and the microprocessor 6 is electrically connected with the timing controller 5; the driving controller 7 is arranged at one side of the interior of the ship body 1 and is used for receiving the execution signals and generating control signals, and the driving controller 7 is electrically connected with the microprocessor 6; the advancing device 8 is arranged at the bottom end of the ship body 1, is used for receiving control signals and is used for steering and advancing, and the advancing device 8 is electrically connected with the driving controller 7; the communication module 9 is arranged at one side of the interior of the ship body 1, is used for receiving the execution signals and is used for communication work, and the communication module 9 is electrically connected with the microprocessor 6.

Further, the advancing device 8 includes a pushing component 81 and a steering component 82, wherein the pushing component 81 is fixedly connected with the hull 1, the steering component 82 is fixedly connected with the hull 1, the pushing component 81 can push the hull 1 to advance, and the steering component 82 can drive the pushing hull 1 to steer left and right.

Further, the pushing assembly 81 comprises a first driving motor 811, a driving belt 812 and a propeller 813, wherein the first driving motor 811 is transversely arranged at the bottom end inside the ship body 1, the first driving motor 811 is in driving connection with the driving belt 812, the driving belt 812 is in driving connection with the propeller 813, the first driving motor 811 works to drive the propeller 813 to rotate, and the propeller 813 rotates to push water flow to enable the ship body 1 to move forwards.

Still further, the steering assembly 82 includes a second driving motor 821 and a steering square plate 822, wherein the second driving motor 821 is longitudinally disposed at the bottom end of the hull 1, the second driving motor 821 is fixedly connected with the steering square plate 822, the second driving motor 821 works to drive the steering square plate 822 to swing left and right, the steering square plate 822 swings left, the hull 1 moves forward leftwards, the steering square plate 822 swings right, and the hull 1 moves forward rightwards.

Still further, the one end that hull 1 was kept away from to iron chain 4 still fixedly connected with square box 10, and water quality sensor 3 sets up in the inside of square box 10, and circular through-hole has all been seted up to square box 10 outer wall, and square box 10 of having seted up circular through-hole can prevent that some floats impurity from covering water quality sensor 3 for water quality testing is more accurate.

Specifically, the water quality sensor 3 is one of temperature, chromaticity, turbidity, pH, conductivity, suspended matter, dissolved oxygen, chemical oxygen demand and biochemical oxygen demand sensors, and any one of the sensors in the market can be adopted.

Specifically, the communication module 9 is in communication connection with the remote control terminal 11, and the communication module 9 can transmit the water quality data detected by the water quality sensor to the remote control terminal 11, so that the staff can acquire the monitoring data in time.

Specifically, the microprocessor 6 presets a walking route pattern of the hull 1, and the hull 1 moves forward according to the route pattern.

When the water quality detection work starts, the GPS positioner captures satellite signals to acquire position generation position signals of the ship body 1 and transmits the position generation position signals to the microprocessor 6, the microprocessor can compare the received position information with a walking route pattern, the ship body 1 can move forward when the forward device 8 is controlled to work through the driving controller 7, the timing controller 5 enables the forward device 8 to be opened and closed at regular time through the driving controller 7, the ship body 1 stays and moves forward on a route at regular time, the water quality sensor 3 acquires water quality, and the water quality detection information acquired at each point is transmitted to the remote control terminal 11 through the communication module 9.

Although the present application has been described in connection with specific features and embodiments thereof, it will be apparent that various modifications and combinations can be made without departing from the spirit and scope of the application. Accordingly, the specification and figures are merely exemplary illustrations of the present application and are considered to cover any and all modifications, variations, combinations, or equivalents that fall within the scope of the present application. It will be apparent to those skilled in the art that various modifications and variations can be made in the present application without departing from the scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the present application and the equivalents thereof, the present application is intended to cover such modifications and variations.

Claims (7)

1. Water quality monitoring device, comprising a hull (1), characterized in that it further comprises:

the GPS positioner (2), the said GPS positioner (2) is set up in one side of inside of the said hull (1), the said GPS positioner (2) is used for producing the position signal;

the water quality sensor (3) is arranged at the bottom of the ship body (1), the water quality sensor (3) is fixedly connected with the ship body (1) through an iron chain (4), and the water quality sensor (3) is used for generating a detection signal;

a timing controller (5), wherein the timing controller (5) is arranged at one side of the interior of the ship body (1), and the timing controller (5) is used for generating a timing control signal;

the microprocessor (6) is arranged on one side of the interior of the ship body (1), the microprocessor (6) is electrically connected with the GPS positioner (2), the microprocessor (6) is electrically connected with the water quality sensor (3), the microprocessor (6) is electrically connected with the timing controller (5), and the microprocessor (6) is used for receiving the position signals, the detection signals and the timing control signals and generating execution signals;

the driving controller (7) is arranged on one side of the interior of the ship body (1), the driving controller (7) is electrically connected with the microprocessor (6), and the driving controller (7) is used for receiving the execution signal and generating a control signal;

the advancing device (8) is arranged at the bottom end of the ship body (1), the advancing device (8) is electrically connected with the driving controller (7), and the advancing device (8) is used for receiving the control signal and is used for steering and advancing;

the communication module (9), communication module (9) set up in the inside one side of hull (1), communication module (9) with microprocessor (6) electric connection, communication module (9) are used for receiving the execution signal to be used for communication work.

2. The water quality monitoring device according to claim 1, characterized in that the advancing device (8) comprises a pushing assembly (81) and a steering assembly (82), wherein the pushing assembly (81) is fixedly connected with the hull (1), and the steering assembly (82) is fixedly connected with the hull (1).

3. The water quality monitoring device according to claim 2, wherein the pushing assembly (81) comprises a first driving motor (811), a transmission belt (812) and a propeller (813), wherein the first driving motor (811) is transversely arranged at the bottom end inside the ship body (1), the first driving motor (811) is in transmission connection with the transmission belt (812), the transmission belt (812) is in transmission connection with the propeller (813), and the first driving motor (811) works to drive the propeller (813) to rotate.

4. A water quality monitoring device according to claim 3, wherein the steering assembly (82) comprises a second driving motor (821) and a steering square plate (822), wherein the second driving motor (821) is longitudinally arranged at the bottom end inside the hull (1), the second driving motor (821) is fixedly connected with the steering square plate (822), and the second driving motor (821) works to drive the steering square plate (822) to swing left and right.

5. The water quality monitoring device according to claim 4, wherein one end of the iron chain (4) far away from the ship body (1) is fixedly connected with a square box (10), the water quality sensor (3) is arranged in the square box (10), and circular through holes are formed in the outer walls of the square box (10).

6. The water quality monitoring device according to claim 5, wherein the water quality sensor (3) is one of a temperature, a chromaticity, a turbidity, a pH value, a conductivity, a suspended matter, a dissolved oxygen, a chemical oxygen demand, and a biochemical oxygen demand sensor.

7. The water quality monitoring device according to claim 6, characterized in that the communication module (9) is communicatively connected with a remote control terminal (11).

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