CN111257531A - Water supply pipeline safety and water quality monitoring device - Google Patents

Abstract

The invention discloses a water supply pipeline safety and water quality monitoring device which comprises a capsule-shaped shell with hemispherical two ends, an image acquisition device, a light source, a water quality sensor, a power supply device, a GPS (global positioning system) positioning device, a data control processing module and a wireless communication device. The shell is made of waterproof materials, the middle part of the shell is a transparent shell, the image acquisition equipment comprises 4 groups of camera groups which are uniformly arranged in 360 degrees, and the camera groups are arranged in the middle transparent shell through a supporting connecting element; the light source is used for providing illumination for the image acquisition equipment and is connected with the power supply equipment; the water quality sensor comprises a pH value sensor, a temperature sensor, a residual chlorine sensor and the like; the GPS positioning equipment, the data control processing module and the wireless communication equipment are integrally arranged in the shell and are connected with the power supply equipment; the water quality sensor and the image acquisition equipment are in data transmission connection with the wireless communication equipment through the data control processing module. The invention has flexible action and various functions, completes multiple online monitoring of the leakage point of the inner wall of the pipeline and the water quality of the pipe network, and is beneficial to promoting the maintenance and the safety guarantee of the pipeline.

Description

Water supply pipeline safety and water quality monitoring device

Technical Field

The invention relates to the technical field of quality safety of domestic water pipelines and water quality monitoring in the pipelines, in particular to a water supply pipeline safety and water quality monitoring device.

Background

With the increasing expansion of the scale of water supply pipe networks in cities and towns in China, the leakage, corrosion and aging of the pipe networks become widely existing problems. The water quality problems of a large amount of attenuation of residual chlorine of a pipe network, microorganism breeding and the like can be caused by the corrosion of the pipe wall, and the water quality safety of drinking water of residents is influenced; meanwhile, the common pipeline leakage phenomenon in China seriously hinders the construction process of a water-saving society, the situation of safety monitoring and maintenance of a water supply network is very severe, and the innovation and the development of a pipeline safety detection device and a platform are urgently awaited.

The existing pipeline endoscopic detection technology can realize pipeline internal detection in a limited distance, but has the problems and disadvantages of limited operation conditions, insufficient flexibility, limited monitoring range, lack of real-time positioning monitoring performance and the like, and meanwhile, the important significance of pipeline leakage points and multiple monitoring of water quality on pipeline safety guarantee is not considered, so that the further improvement of pipeline monitoring and maintenance technology is hindered.

Therefore, the existing pipeline endoscopic detection technology has the defects of limited operation conditions, insufficient flexibility, limited monitoring range and incapability of positioning and monitoring in real time, and can not monitor the water quality in the pipeline in real time.

Disclosure of Invention

Aiming at the problems, the invention provides a water supply pipeline safety and water quality monitoring device.

In order to achieve the purpose of the invention, the invention provides a water supply pipeline safety and water quality monitoring device, which comprises:

the device comprises image acquisition equipment, a light source, a water quality sensor, power supply equipment, GPS positioning equipment, a data control processing module, wireless communication equipment, a supporting connecting element, a middle transparent shell, a first shell and a second shell, wherein the first shell, the middle transparent shell and the second shell are all made of waterproof materials;

the first shell, the middle transparent shell and the second shell are assembled into a sealed capsule-shaped shell according to the sequence that the middle transparent shell is arranged in the middle and the first shell and the second shell are arranged at two ends;

the supporting element is fixedly arranged inside the middle transparent shell; the supporting element consists of a hollow cylindrical supporting body and 4 solid connecting pieces, and the inside of the hollow cylindrical supporting body is hollow and used for wiring;

the image acquisition equipment is fixedly arranged on the surface of the hollow cylindrical support body; the light sources are fixedly arranged on the first surface and the second surface of the solid connecting piece, are distributed around the image acquisition equipment and provide sufficient illumination for the image acquisition equipment;

the water quality sensor, the power supply equipment, the GPS positioning equipment, the data control processing module and the wireless communication equipment are respectively and fixedly arranged in the first shell and the second shell;

the power supply equipment is electrically connected with the image acquisition equipment, the light source, the water quality sensor and the GPS positioning equipment respectively; the data control processing module is respectively in data transmission connection with the image acquisition equipment, the water quality sensor and the GPS positioning equipment, and the wireless communication equipment is in data transmission connection with the data control processing module;

the image acquisition equipment acquires a real-time image of the surface of the inner wall of the pipeline; the data control processing module transmits the acquired real-time image and the position coordinate data of the GPS positioning equipment to the wireless communication equipment; the wireless communication equipment uploads the real-time image and the position coordinate data of the GPS positioning equipment to a user terminal in real time; and the user terminal monitors the pipeline in real time through the real-time image.

In one embodiment, the hollow cylindrical support body and the solid connector are integrally formed.

In this embodiment, the 4 solid connecting pieces are uniformly distributed on the outer surface of the hollow cylindrical support body, and the inside of the middle transparent shell is uniformly divided into four regions.

In one embodiment, the image acquisition device comprises 4 camera groups, and the 4 camera groups are respectively fixedly installed on the surface of the hollow cylindrical support body in the four areas.

In this embodiment, the light source includes 4 groups, each solid connecting piece surface mounting is a set, and each group is respectively evenly fixed mounting on the first face and the second face of the solid connecting piece.

In this embodiment, the image capturing device is connected to the hollow cylindrical support body by a built-in screw. The light source is connected with the solid connecting piece through a built-in screw.

In one embodiment, the supporting element is connected with the middle transparent shell through a plurality of built-in screws which are uniformly arranged on the contact surfaces of the 4 solid connecting pieces and the middle transparent shell respectively.

In this embodiment, the water quality sensor, the power supply device, the GPS positioning device, the data control processing module, and the wireless communication device are respectively installed inside the first housing and the second housing through a slot.

In this embodiment, the middle transparent shell is connected to the first shell through a sealing flange, and the middle transparent shell is connected to the second shell through a sealing flange.

In one embodiment, the GPS positioning device, the data control processing module, and the wireless communication device are integrally mounted inside the first housing and the second housing.

In this embodiment, the power supply devices are arranged in two groups and are respectively installed in the first shell and the second shell, and each group of the power supply devices is respectively electrically connected with the image acquisition device, the light source, the water quality sensor and the GPS positioning device.

In one embodiment, the water quality sensor is formed by integrating a pH value sensor, a temperature sensor and a residual chlorine sensor and is used for detecting the water quality index of the pipeline water body;

the water quality sensor collects the pH value, the temperature and the residual chlorine concentration of water; the data control processing module transmits the collected pH value of the water quality, the collected temperature of the water quality, the collected residual chlorine concentration of the water quality and the collected position coordinate data of the GPS positioning equipment to the wireless communication equipment; the wireless communication equipment uploads the pH value of the water quality, the temperature of the water quality, the residual chlorine concentration of the water quality and the position coordinate data of the GPS positioning equipment to the user terminal in real time; and the user terminal monitors the water quality in real time through the pH value of the water quality, the temperature of the water quality and the residual chlorine concentration of the water quality.

Above-mentioned water supply pipeline safety and water quality monitoring device, the function is various, adopts the capsule form appearance, removes convenient nimble in the pipeline, and the data collection of being convenient for adopts the technical integration of modules such as data acquisition, data processing, wireless communication, carries out the multiple on-line monitoring to pipeline inner wall leak source and pipe network quality of water more conveniently to monitoring data can also upload so that real-time supervision in real time, is favorable to promoting the maintenance and the safety of pipeline.

Drawings

FIG. 1 is an axial sectional view of a water supply pipe safety and water quality monitoring apparatus according to an embodiment;

FIG. 2 is a radial cross-sectional view of a middle housing of the water supply pipe safety and water quality monitoring apparatus of an embodiment;

FIG. 3 is a schematic diagram of a flow of working data of the water supply pipe safety and water quality monitoring apparatus according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Referring to fig. 1, fig. 1 is an axial sectional view of a water supply pipe safety and water quality monitoring device in an embodiment, including: the system comprises an image acquisition device 1, a light source 2, a water quality sensor 3, a power supply device 4, a GPS positioning device 5, a data control processing module 6, a wireless communication device 7, a supporting connecting element 8, a middle transparent shell 9, a first shell 10 and a second shell 13, wherein the first shell 10, the middle transparent shell 9 and the second shell 13 are all made of waterproof materials;

the first shell 10, the middle transparent shell 9 and the second shell 13 are assembled into a sealed capsule shell according to the sequence that the middle transparent shell 9 is arranged in the middle, and the first shell 10 and the second shell 13 are arranged at two ends;

referring to fig. 2, a radial cross-sectional view of a middle housing of a water supply pipe safety and water quality monitoring device is shown as an example: the supporting element 8 is fixedly arranged inside the middle transparent shell 9; the supporting element 8 consists of a hollow cylindrical supporting body 11 and 4 solid connecting pieces 12, wherein the hollow cylindrical supporting body 11 is hollow inside for wiring;

the image acquisition equipment 1 is fixedly arranged on the surface of the hollow cylindrical support body 11; the light sources 2 are fixedly arranged on the first face 120 and the second face 121 of the solid connecting piece 12 and distributed around the image acquisition equipment 1 to provide sufficient illumination for the image acquisition equipment 1;

the water quality sensor 3, the power supply device 4, the GPS positioning device 5, the data control processing module 6 and the wireless communication device 7 are respectively and fixedly installed inside the first casing 10 and the second casing 13;

the water quality sensor 3 is formed by integrating various components and parts, is used for detecting water quality indexes such as pH value, temperature and residual chlorine of water in the pipe, can detect the change condition of the water quality of the pipeline, and is combined with an image acquisition device to form a multifunctional pipeline safety monitoring means.

The power supply equipment 4 is electrically connected with the image acquisition equipment 1, the light source 2, the water quality sensor 3 and the GPS positioning equipment 5 respectively; the data control processing module 6 is respectively in data transmission connection with the image acquisition equipment 1, the water quality sensor 3 and the GPS positioning equipment 5, and the wireless communication equipment 7 is in data transmission connection with the data control processing module 6;

the image acquisition equipment 1 acquires a real-time image of the surface of the inner wall of the pipeline; the data control processing module 6 transmits the acquired real-time image and the position coordinate data of the GPS positioning device 5 to the wireless communication device 7; the wireless communication equipment 7 uploads the real-time image and the position coordinate data of the GPS positioning equipment 5 to a user terminal in real time; and the user terminal monitors the pipeline in real time through the real-time image.

The appearance of the capsule is adopted, the design of mechanical motion of fluid in the pipe is met, the appearance is small and exquisite and flexible, and the movement in the pipe is convenient and flexible. The light source 2 is connected with the power supply device 4 and provides illumination for the image acquisition device 1. The GPS positioning device 5, the data control processing module 6 and the wireless communication device 7 are integrally installed inside the shell, so that the power consumption and the size of an integrated circuit are effectively reduced, the internal structure of the device is perfected, the service life of the device is prolonged, and the upgrading and updating of product equipment are facilitated. Furthermore, the two ends of the capsule-shaped shell are hemispherical, the middle of the capsule-shaped shell is a transparent shell, and the shell is made of waterproof materials, so that strict sealing performance of the monitoring device is guaranteed. The GPS positioning device 5 is used to obtain the specific geographical location of the monitoring.

Further, the image acquisition equipment 1 is installed inside the middle transparent shell 9 through a supporting and connecting element 8, and the image acquisition equipment 1 comprises 4 camera groups uniformly arranged along the radial direction of the device by 360 degrees and is connected with the light source 2. The light sources 2 are distributed around the camera group and can be uniformly arranged on the supporting connecting element 8, so that sufficient illumination is provided for the image acquisition equipment 1, and the camera group can conveniently monitor the leakage point state of the inner wall of the pipeline through the transparent shell.

Fig. 3 is a schematic data flow chart of a water supply pipe safety and water quality monitoring apparatus in an embodiment. After the power supply 2 starts to supply power, the image acquisition equipment 1 and the water quality sensor 3 start to acquire data, the data control processing module 6 transmits the acquired image data, the acquired water quality data and GPS geographic coordinate data in the device to the wireless communication equipment 7, and the wireless communication equipment 7 transmits the data to the user terminal in a wireless mode so as to facilitate real-time monitoring of a user.

In this embodiment, the hollow cylindrical support body 11 and the solid connecting member 12 are integrally formed. The integral molding avoids the trouble and instability of subsequent assembly.

In one embodiment, the 4 solid connectors 12 are uniformly distributed on the outer surface of the hollow cylindrical support 11, and divide the interior of the middle transparent shell 9 into four regions.

The solid connectors 12 are evenly distributed, so that the gravity of the monitoring device is evenly distributed, and the capsule-shaped monitoring device can be promoted to move in water more flexibly.

In this embodiment, the image capturing apparatus 1 includes 4 camera groups, and the 4 camera groups are respectively and fixedly mounted on the surfaces of the hollow cylindrical support bodies 11 in the four regions.

Evenly distributed's camera, it is wide comprehensive to shoot the visual angle, when moving along with the rivers in the pipeline, can carry out effectual inspection to the pipeline inner wall leak source, can monitor the inner wall of water supply pipe 360 degrees to the omission trouble of preventing appearing.

In one embodiment, the light source 2 comprises 4 groups, each solid connector 12 is surface-mounted on one group, and each group is uniformly and fixedly mounted on the first face 120 and the second face 121 of the solid connector 12 respectively.

The light sources 2 are uniformly distributed and installed on two surfaces of the solid connecting piece 12 and are combined with the uniformly distributed cameras for use, so that more comprehensive and clearer pipeline internal data can be obtained.

In one embodiment, the image acquisition device 1 is connected to the hollow cylindrical support 11 by means of internal screws. The light source 2 is connected with the solid connecting piece 12 through a built-in screw.

In this embodiment, the supporting element 8 is connected to the middle transparent casing 9 through a plurality of internal screws, and the plurality of internal screws are respectively and uniformly arranged on the contact surfaces of the 4 solid connecting pieces 12 and the middle transparent casing 9.

Through the built-in screw connection, the installation and the disassembly of each part of the monitoring device are convenient, and the subsequent repair and replacement operation can be carried out.

In one embodiment, the water quality sensor 3, the power supply device 4, the GPS positioning device 5, the data control processing module 6, and the wireless communication device 7 are respectively installed inside the first housing 10 and the second housing 13 through a card slot.

The clamping groove is simple to install, more convenient to disassemble and simpler in production links.

In this embodiment, the middle transparent shell 9 is connected to the first shell 10 through a sealing flange, and the middle transparent shell 9 is connected to the second shell 13 through a sealing flange.

With middle part transparent shell 9 respectively with first casing 10 and second casing 13 through sealed flange joint, can realize the leakproofness better, avoid leading to the trouble owing to leak at aquatic monitoring devices.

In one embodiment, the GPS positioning device 5, the data control processing module 6 and the wireless communication device 7 are integrally mounted inside the first casing 1 and the second casing 13.

The individual mounting of each module requires electrical connections and is not dimensionally compatible with each other. The production is integrated, so that the installation is convenient and the power consumption can be reduced.

In this embodiment, the power supply devices 4 are arranged in two groups and are respectively installed in the first casing 10 and the second casing 13, and each group of the power supply devices 4 is respectively electrically connected with the image acquisition device 1, the light source 2, the water quality sensor 3 and the GPS positioning device 5.

Two sets of power supply equipment are installed, and the risk that the device stops working due to power failure of the power supply equipment is greatly reduced.

In one embodiment, the water quality sensor 3 is formed by integrating a pH sensor, a temperature sensor and a residual chlorine sensor, and is used for detecting a water quality index of the pipeline water body;

the water quality sensor 3 collects the pH value, the temperature and the residual chlorine concentration of the water; the data control processing module 6 transmits the collected pH value of the water quality, the collected temperature of the water quality, the collected residual chlorine concentration of the water quality and the collected position coordinate data of the GPS positioning device 5 to the wireless communication device 7; the wireless communication equipment 7 uploads the pH value of the water quality, the temperature of the water quality, the residual chlorine concentration of the water quality and the position coordinate data of the GPS positioning equipment 5 to the user terminal in real time; and the user terminal monitors the water quality in real time through the pH value of the water quality, the temperature of the water quality and the residual chlorine concentration of the water quality.

The principle of the pH value sensor adopts a glass electrode method to detect the pH value, and the pH value sensor mainly comprises a glass electrode and a reference electrode. The glass electrode consists of a glass support rod, a glass film, an internal reference solution, an internal reference electrode, an electrode cap, an electric wire and the like. The reference electrode has a known and constant electrode potential, and is typically a calomel electrode or a silver/silver chloride electrode. Because the pH value is related to the temperature, a temperature electrode is added for temperature compensation to form a three-pole composite electrode. The working principle is that a hydrogen ion glass electrode and a reference electrode form a primary battery, and the concentration of hydrogen ions in a solution is detected by measuring the potential difference between the electrodes in the process of ion exchange between a glass membrane and the hydrogen ions in the solution to be detected, so that the pH value of the liquid to be detected is detected.

In water quality monitoring, a negative temperature coefficient thermistor temperature sensor is mostly matched with a pH value sensor and a residual chlorine sensor. The thermistor has the advantages of small volume and quick response to temperature change. The thermistor is made of semiconductor ceramic material, and the resistance value of the thermistor with negative temperature coefficient is reduced along with the increase of temperature. For a specific thermistor, the specific temperature resistance value and the material coefficient of the thermistor are fixed values, and the temperature can be calculated by measuring the resistance value of the thermistor.

The product is monitored as free residual chlorine. The content of residual chlorine in water is determined by measuring the concentration of hypochlorous acid in the water body and combining the pH value with the water temperature. The anode of the polarographic residual chlorine electrode is composed of a silver rod, and the cathode is composed of a cylindrical gold electrode. The silver anode and gold cathode are immersed in the electrolyte inside the sensor. The electrolyte in the sensor is separated from the solution to be measured by a piece of selective polytetrafluoroethylene permeable membrane, the hydrophobic polytetrafluoroethylene membrane can only selectively permeate hypochlorous acid molecules, and other ions in the solution to be measured cannot permeate the membrane. There is a fixed potential difference between the two electrodes, and the intensity of the generated current is proportional to the hypochlorous acid concentration, which can be converted into residual chlorine concentration.

The water supply pipeline safety and water quality monitoring device of this patent, through data acquisition, data processing, wireless communication's technical integration, realize the real-time on-line measuring of pipeline data and the position location of pipeline inspection, improved the efficiency of pipeline safety monitoring and maintenance. Furthermore, the user side can find pipeline leakage and water quality change conditions in time through image data and water quality data, specific geographic positions are obtained according to the GPS data, and timely maintenance and repair are carried out on specific pipe sections, so that real-time online positioning monitoring on leakage points and water quality inside the pipeline is realized, and the safety of a pipe network is further guaranteed.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

It should be noted that the terms "first \ second \ third" referred to in the embodiments of the present application merely distinguish similar objects, and do not represent a specific ordering for the objects, and it should be understood that "first \ second \ third" may exchange a specific order or sequence when allowed. It should be understood that "first \ second \ third" distinct objects may be interchanged under appropriate circumstances such that the embodiments of the application described herein may be implemented in an order other than those illustrated or described herein.

The terms "comprising" and "having" and any variations thereof in the embodiments of the present application are intended to cover non-exclusive inclusions. For example, a process, method, apparatus, product, or device that comprises a list of steps or modules is not limited to the listed steps or modules but may alternatively include other steps or modules not listed or inherent to such process, method, product, or device.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides a water supply pipe safety and water quality monitoring device which characterized in that includes: the device comprises an image acquisition device (1), a light source (2), a water quality sensor (3), a power supply device (4), a GPS positioning device (5), a data control processing module (6), a wireless communication device (7), a supporting connecting element (8), a middle transparent shell (9), a first shell (10) and a second shell (13), wherein the first shell (10), the middle transparent shell (9) and the second shell (13) are all made of waterproof materials;

the first shell (10), the middle transparent shell (9) and the second shell (13) are assembled into a sealed capsule-shaped shell according to the sequence that the middle transparent shell (9) is arranged in the middle, and the first shell (10) and the second shell (13) are arranged at two ends;

the supporting element (8) is fixedly arranged inside the middle transparent shell (9); the supporting element (8) consists of a hollow cylindrical supporting body (11) and 4 solid connecting pieces (12), and the inside of the hollow cylindrical supporting body (11) is hollow and used for wiring;

the image acquisition equipment (1) is fixedly arranged on the surface of the hollow cylindrical support body (11); the light sources (2) are fixedly arranged on the first face (120) and the second face (121) of the solid connecting piece (12) and distributed around the image acquisition equipment (1) to provide sufficient illumination for the image acquisition equipment (1);

the water quality sensor (3), the power supply device (4), the GPS positioning device (5), the data control processing module (6) and the wireless communication device (7) are fixedly arranged in the first shell (10) and the second shell (13) respectively;

the power supply equipment (4) is electrically connected with the image acquisition equipment (1), the light source (2), the water quality sensor (3) and the GPS positioning equipment (5) respectively; the data control processing module (6) is in data transmission connection with the image acquisition equipment (1), the water quality sensor (3) and the GPS positioning equipment (5) respectively, and the wireless communication equipment (7) is in data transmission connection with the data control processing module (6);

the image acquisition equipment (1) acquires a real-time image of the surface of the inner wall of the pipeline; the data control processing module (6) transmits the acquired real-time image and the position coordinate data of the GPS positioning device (5) to the wireless communication device (7); the wireless communication equipment (7) uploads the real-time image and the position coordinate data of the GPS positioning equipment (5) to a user terminal in real time; and the user terminal monitors the pipeline in real time through the real-time image.

2. The water supply pipe safety and water quality monitoring device according to claim 1, wherein the hollow cylindrical support body (11) and the solid connector (12) are integrally formed.

3. The water supply pipe safety and water quality monitoring device according to claim 2, wherein the 4 solid connecting pieces (12) are uniformly distributed on the outer surface of the hollow cylindrical supporting body (11) and uniformly divide the interior of the middle transparent shell (9) into four areas.

4. The water supply pipeline safety and water quality monitoring device according to claim 3, wherein the image acquisition equipment (1) comprises 4 camera groups, and the 4 camera groups are respectively and fixedly installed on the surfaces of the hollow cylindrical supporting bodies (11) in the four areas.

5. The water supply pipeline safety and water quality monitoring device as claimed in claim 4, wherein the light source (2) comprises 4 groups, one group is arranged on the surface of each solid connecting piece (12), and each group is uniformly and fixedly arranged on the first surface (120) and the second surface (121) of the solid connecting piece (12) respectively.

6. The water supply pipeline safety and water quality monitoring device according to claim 1, wherein the middle transparent shell (9) is connected with the first shell (10) through a sealing flange, the middle transparent shell (9) is connected with the second shell (13) through a sealing flange, the image acquisition equipment (1) is connected with the hollow cylindrical support body (11) through built-in screws, the light source (2) is connected with the solid connecting piece (12) through built-in screws, the supporting element (8) is connected with the middle transparent shell (9) through a plurality of built-in screws, and the plurality of built-in screws are respectively and uniformly arranged on contact surfaces of the 4 solid connecting pieces (12) and the middle transparent shell (9).

7. The water supply pipeline safety and water quality monitoring device according to claim 1, wherein the water quality sensor (3), the power supply equipment (4), the GPS positioning equipment (5), the data control processing module (6) and the wireless communication equipment (7) are respectively installed inside the first shell (10) and the second shell (13) through clamping grooves.

8. The water supply pipeline safety and water quality monitoring device according to claim 1, wherein the GPS positioning device (5), the data control processing module (6) and the wireless communication device (7) are integrally installed inside the first shell (10) and the second shell (13).

9. The water supply pipeline safety and water quality monitoring device according to claim 1, wherein the power supply equipment (4) is provided in two groups, the two groups are respectively installed in the first shell (10) and the second shell (13), and each group of the power supply equipment (4) is respectively electrically connected with the image acquisition equipment (1), the light source (2), the water quality sensor (3) and the GPS positioning equipment (5).

10. The water supply pipeline safety and water quality monitoring device as claimed in claim 1, wherein the water quality sensor (3) is formed by integrating a pH value sensor, a temperature sensor and a residual chlorine sensor and is used for detecting a water quality index of a pipeline water body;

the water quality sensor (3) collects the pH value, the temperature and the residual chlorine concentration of water quality; the data control processing module (6) transmits the collected pH value of the water quality, the collected temperature of the water quality, the collected residual chlorine concentration of the water quality and the collected position coordinate data of the GPS positioning device (5) to the wireless communication device (7); the wireless communication equipment (7) uploads the pH value of the water quality, the temperature of the water quality, the residual chlorine concentration of the water quality and the position coordinate data of the GPS positioning equipment (5) to the user terminal in real time; and the user terminal monitors the water quality in real time through the pH value of the water quality, the temperature of the water quality and the residual chlorine concentration of the water quality.

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