CN115792153A - Multifunctional mobile water quality and hydrology monitoring equipment - Google Patents

Abstract

The invention discloses multifunctional movable water quality hydrological monitoring equipment which comprises a lifting mechanism, a power supply device, a distribution box, a water environment monitoring assembly, a first camera, a second camera, a GPS-RTK positioning unit, a display, an audible and visual alarm and an alarm sound, wherein the distribution box is movably arranged, the water environment monitoring assembly is arranged in the distribution box, the lifting mechanism and the alarm sound are fixedly arranged on the distribution box, the first camera, the second camera, the GPS-RTK positioning unit and the audible and visual alarm are arranged on the lifting mechanism, the power supply device is arranged on the distribution box, and the display is arranged in front of the distribution box. The invention has convenient integral movement, can meet the requirements of accurate geographical positioning and water quality hydrological data information acquisition and monitoring of water environment monitoring points, and can feed back the acquisition and monitoring conditions of the water environment to monitoring maintenance personnel in real time, thereby ensuring that the water environment monitoring work can be carried out more efficiently and accurately and reducing the workload of the maintenance workers during operation.

Description

Multifunctional mobile water quality and hydrology monitoring equipment

Technical Field

The invention relates to water environment monitoring equipment, in particular to multifunctional mobile water quality and hydrology monitoring equipment.

Background

Along with the development of industry, the pollution degree of water environments such as rivers and lakes is gradually increased, and in order to grasp the pollution condition of the water environments in time and take countermeasures in time, the water quality and hydrology monitoring of the water environments is generally needed in the prior art. The water quality monitoring is a process for evaluating the water quality condition of the water environment by monitoring and measuring the index concentration and the change trend of PH, water temperature, conductivity, dissolved oxygen, ammonia nitrogen, COD and the like in the water environment. Hydrological monitoring is a process for evaluating the hydrological condition of a water environment by monitoring and measuring the change trend of indexes such as flow speed, flow and the like in the water environment.

In the field of water environment, water quality and hydrology monitoring is usually carried out by a method of in-situ measurement or sampling measurement in the prior art. In the process of on-site measurement, a measurer needs to perform multiple on-site monitoring on the water pollution condition on a water environment monitoring site, so that a large amount of monitoring data can be obtained on site to facilitate subsequent research, in the process of sampling and measuring, in order to obtain multiple and large amount of water quality hydrological sample data, the measurer needs to carry a large amount of multiple sampling equipment to sample the water environment, and needs to transport the various water quality hydrological sample data to a special test and research site for research after sampling, and the sampling equipment is multiple in type and heavy in most parts, so that the collection work is very inconvenient, and the work efficiency of the measurer is seriously influenced.

In addition, in order to master the water environment pollution condition for a long time, an online monitoring mode is also commonly adopted in the field of water environment water quality hydrology monitoring, namely, a fixed water quality hydrology monitoring device is installed near a water environment monitoring point, and the mode is suitable for long-term fixed-point monitoring. However, this monitoring approach often requires installation and use of the monitoring device at the site of the pollution discharge source, and thus the monitoring device is susceptible to power supply limitations or other human damage and interference at the site of the pollution discharge source. Meanwhile, in actual work, tasks of short-term fixed monitoring of the water environment and flow monitoring at multiple monitoring points also exist, and fixed water quality hydrological monitoring equipment is inconvenient to disassemble and assemble, so that the fixed water quality hydrological monitoring equipment is not suitable for being used in a short-term flow monitoring mode.

Disclosure of Invention

The invention aims to solve the technical problem of providing a multifunctional mobile water quality hydrological monitoring device which is convenient to move integrally, can meet the requirements of accurate geographical positioning and water quality hydrological data information acquisition and monitoring of a water environment monitoring point, and can feed back the water environment acquisition and monitoring conditions to monitoring maintenance personnel in real time, thereby ensuring that the water environment monitoring work can be carried out more efficiently and accurately and reducing the work load of the maintenance personnel during operation.

To solve the technical problems, the technical scheme adopted by the invention is as follows:

the utility model provides a multi-functional portable quality of water hydrology monitoring facilities which characterized in that: the monitoring system comprises a lifting mechanism, a power supply device, a distribution box, a water environment monitoring assembly, a first camera, a second camera, a GPS-RTK positioning unit, a display, an audible and visual alarm and an alarm sound, wherein the distribution box is movably arranged and serves as a carrier for integral movement;

the power supply device provides electric energy for the water quality hydrology monitoring equipment, the water environment monitoring assembly is used for monitoring water quality hydrology, the first camera is used for directionally monitoring images in front of the first camera, the second camera monitors surrounding images through rotation, and the display is used for displaying shot images and monitoring obtained water quality hydrology data.

Optionally, the water environment monitoring assembly comprises a water quality monitor, a hydrological flow monitor, a water quality monitor protection cage and a fixing frame; the water quality monitor comprises a water quality monitoring host and a water quality monitoring probe, wherein the water quality monitoring host is arranged in the distribution box, and a water quality monitor protective cage is sleeved on the water quality monitoring probe in the monitoring process so as to protect the water quality monitoring probe; the hydrological flow monitor comprises a hydrological flow monitoring host and a hydrological flow monitoring probe, wherein the hydrological flow monitoring host is arranged in the distribution box, the hydrological flow monitoring probe is arranged at the front end of the fixing frame in the monitoring process, and the hydrological flow monitoring probe is extended into water through the fixing frame; the water quality monitoring probe, the hydrology flow monitoring probe, the water quality monitoring instrument protection cage and the fixing frame are all accommodated in the distribution box.

Optionally, the water quality monitor protection cage comprises a cylinder and an end cover, wherein the side wall of the cylinder is provided with a plurality of through holes, the end cover is arranged at the opening of the cylinder, and the end cover is provided with a mounting hole; the water quality monitoring probe is arranged in the mounting hole in the monitoring process, and the water quality monitoring probe is positioned in the cylinder.

Optionally, the fixing frame comprises a long rod and a mounting plate, and the mounting plate is fixedly arranged at the front end of the long rod; the hydrology flow monitoring probe installs on the mounting panel in the monitoring process.

Optionally, the power supply device is provided with two solar cell panels, the two solar cell panels rotate respectively and are arranged on two side edges of the distribution box, the solar cell panels are connected with the side surfaces of the distribution box through air pressure supporting rods, and the air pressure supporting rods are used for supporting the solar cell panels.

Optionally, the lifting mechanism comprises an electric telescopic rod and an installation beam, the electric telescopic rod is vertically installed on the distribution box, the installation beam is transversely fixed at the upper end of the electric telescopic rod, and the first camera, the second camera, the GPS-RTK positioning unit and the audible and visual alarm are respectively installed at two end portions of the installation beam.

Optionally, the first camera and the second camera are mounted below the mounting beam, and the GPS-RTK positioning unit and the audible and visual alarm are mounted above the mounting beam.

Optionally, the first camera is a gunlock type camera, and the second camera is a spherical camera.

Optionally, wheels and a ground position locking mechanism are arranged below the distribution box, the ground position locking mechanism comprises a fixing rod and a supporting rod, the fixing rod is transversely fixed on the side edge of the distribution box, the supporting rod is vertically arranged on the fixing rod, and the supporting rod is downwards adjusted to be propped against the ground to lock the position of the distribution box.

Optionally, the display comprises an LED screen.

Compared with the prior art, the invention has the following beneficial effects:

1. the multifunctional mobile water quality and hydrology monitoring equipment is simple in structure and convenient to operate, accurate geographical positioning and water quality and hydrology data information acquisition and monitoring can be carried out on a water environment monitoring point through the camera, the GPS-RTK positioning unit and the water environment monitoring assembly arranged in the distribution box, the acquisition and monitoring efficiency of indexes such as water quality, water quantity and liquid level in water environment monitoring operation can be improved, the geographical positioning and water quality and hydrology data information acquired in real time can be fed back to field monitoring maintenance personnel in real time through the displayer on the distribution box, the water environment monitoring operation can be carried out more efficiently and accurately, and the workload of the maintenance workers during operation is reduced. Compared with the means of manually recording the water quality, hydrology and geographical position attribute information of the monitoring point by a patrol and maintain worker in the prior art, the method can monitor the water quality, hydrology and geographical position information of the monitoring point more accurately and efficiently, and improves the efficiency of field monitoring.

2. In addition, the distribution box is movably arranged, so that the whole equipment is more convenient to move, and various water environment monitoring components are integrated in the distribution box, so that the condition that monitoring personnel need to carry a large amount of sampling equipment in the data acquisition process is avoided, the burden of acquisition work is effectively reduced, and the acquisition efficiency is greatly improved.

Drawings

FIG. 1 is a perspective view of a water quality and hydrology monitoring device according to the present invention;

FIG. 2 is a second schematic perspective view of the water quality and hydrology monitoring device of the present invention;

FIG. 3 is a schematic front view of the water quality and hydrology monitoring device of the present invention;

FIG. 4 is a schematic perspective view of a water quality monitor protection cage of the water quality hydrology monitoring device of the present invention;

fig. 5 is a schematic perspective view of a hydrological flow monitoring probe of the water quality hydrological monitoring device of the present invention mounted on a fixing frame.

The reference numerals in the drawings mean:

1-a distribution box; 2-pushing hands; 3-a solar panel; 4, an electric telescopic rod; 5-alarm sound equipment; 6-bolt-type camera; 7-spherical camera; 8-audible and visual alarm; 9-mounting a cross beam; a 10-GPS-RTK positioning unit; 11-a fixing bar; 12-a strut; 13-a wheel; 14-an LED screen; 15-end cap; 16-a hose clamp; 17-a cylinder; 18-mounting holes; 19-a through hole; 20-long rod; 21-mounting a plate; 22-hydrologic flow monitoring probe.

Detailed Description

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings only for the convenience of description of the present invention and simplification of the description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, a plurality of means is one or more, a plurality of means is two or more, and greater than, less than, more than, etc. are understood as excluding the essential numbers, and greater than, less than, etc. are understood as including the essential numbers. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

The invention is further described below with reference to examples.

Example (b):

fig. 1 to fig. 3 show the multifunctional mobile water quality and hydrology monitoring device of the embodiment, which includes a lifting mechanism, a power supply device, a distribution box 1, a water environment monitoring component, a first camera, a second camera, a GPS-RTK positioning unit 10, a display, an audible and visual alarm 8, and an alarm sound 5.

Distribution box 1 removes the setting, and distribution box 1 has regarded as the carrier that the whole removed. The concrete structure that the removal of block terminal 1 set up does: wheels 13 and a ground position locking mechanism are arranged below the distribution box 1, and the distribution box 1 can move through the wheels 13. Ground position locking mechanical system includes dead lever 11 and vaulting pole 12, and dead lever 11 transversely fixes and establishes the side at block terminal 1, and vaulting pole 12 is vertical to be established on dead lever 11, and vaulting pole 12 and the screw hole threaded connection on the dead lever 11 can adjust vaulting pole 12 from top to bottom through rotating vaulting pole 12. The stay 12 is adjusted downwards to a position against the ground, i.e. the position of the electricity distribution box 1 is locked. In this embodiment, the ground position locking mechanisms are provided on all four sides of the distribution box 1. The present embodiment is provided with four wheels 13, and the four wheels 13 are divided into two groups, and the two groups of wheels 13 are respectively installed on both sides of the lower surface of the distribution box 1. The wheel 13 of this embodiment adopts the universal wheel of area brake, can realize the free steering of equipment to when monitoring operation near the monitoring point, can launch the brake, and fix quality of water hydrology monitoring facilities near the monitoring point through vaulting pole 12, the index information of steady monitoring quality of water hydrology.

Elevating system includes electric telescopic handle 4 and installation crossbeam 9, and electric telescopic handle 4 is vertical to be installed on block terminal 1, and electric telescopic handle 4 is demountable installation, and installation crossbeam 9 transversely fixes in electric telescopic handle 4's upper end, drives installation crossbeam 9 by electric telescopic handle 4 and makes elevating movement. The first camera, the second camera, the GPS-RTK positioning unit 10 and the audible and visual alarm 8 are respectively arranged at two end parts of the mounting cross beam 9, the first camera and the second camera are arranged below the mounting cross beam 9, and the GPS-RTK positioning unit 10 and the audible and visual alarm 8 are arranged above the mounting cross beam 9. The first camera, the second camera, the GPS-RTK positioning unit 10 and the audible and visual alarm 8 are driven by the electric telescopic rod 4 to lift. The lifting mechanism is used for adjusting the heights of the camera, the GPS-RTK positioning unit 10 and the audible and visual alarm 8 and adjusting the monitoring angle and range of the camera.

The first camera is used for directionally monitoring images in front of the first camera, and the second camera is used for monitoring peripheral images through rotation. The first camera of this embodiment is rifle bolt type camera 6, can not rotate, can the directional control place ahead, and the second camera is ball-type camera 7, camera that can rotate for it is peripheral to monitor. After the electric telescopic rod 4 drives the camera to rise, the monitoring range is larger. The spherical camera 7 can be shot in a 360-degree rotating mode, during monitoring operation, a camera 6 of the gun camera and the spherical camera 7 are used for shooting pictures and videos of monitoring points of the periphery of a site and the water environment together, the pictures and videos can be identified and analyzed through artificial intelligence and image identification technologies, if the phenomena that the water quality and the water quantity of the water environment of the monitoring points exceed standards and the like are found through analysis, alarm pushing is generated, and the phenomena are displayed on a displayer.

The alarm sound 5 of this embodiment is fixedly arranged on the distribution box 1, and the alarm sound 5 is installed against the lower part of the electric telescopic rod 4. The audible and visual alarm 8 can only give out buzzing alarm sound, so that alarm voice is broadcasted through the alarm sound 5.

Wherein, water environment monitoring subassembly is established in block terminal 1, the convenient removal. The water environment monitoring assembly comprises a water quality monitor, a hydrological flow monitor, a water quality monitor protection cage and a fixing frame. The water quality monitoring system comprises a water quality monitoring host and a water quality monitoring probe, wherein the water quality monitoring host is installed in a distribution box 1, the water quality monitoring probe and a water quality monitoring protective cage can be taken out from the distribution box 1 in the monitoring process, the water quality monitoring protective cage is sleeved on the water quality monitoring probe for use so as to protect the water quality monitoring probe, and the water quality monitoring probe sleeved with the water quality monitoring protective cage is placed into water for monitoring. Hydrology flow monitor includes hydrology flow monitoring host computer and hydrology flow monitor, and hydrology flow monitoring host computer is installed in block terminal 1, and in the monitoring process, can follow block terminal 1 and take out hydrology flow monitoring probe and mount, adorn hydrology flow monitor at the front end of mount, and the handheld mount of monitor stretches into hydrology flow monitor in the aquatic through the mount, monitors.

When not using, water quality monitoring probe, hydrology flow monitoring probe, water quality monitoring appearance protection cage and mount are all accomodate in the block terminal. The water quality monitoring host and the hydrology flow monitoring host are integrated in the distribution box 1.

As shown in fig. 4, the water quality monitor protection cage of the embodiment includes a cylinder 17 and an end cover 15, a plurality of through holes 19 are provided on the side wall of the cylinder 17, the end cover 15 covers the opening of the cylinder 17, is fixedly installed by bolts and is connected by a hose clamp 16, and the end cover 15 is provided with a mounting hole 18. In the monitoring process, the tail end of the water quality monitoring probe is arranged in the mounting hole 18 and can be mounted in a threaded connection mode, the water quality monitoring probe is positioned in the cylinder 17, and when the water quality monitoring probe sleeved with the water quality monitor protection cage is placed into water, water at a monitoring point enters from the through hole 19. In the monitoring process, the water quality monitoring probe is electrically connected with the water quality monitoring host through an electric wire.

As shown in fig. 5, which is a schematic structural view of the hydrological flow monitoring probe installed on the fixing frame, the fixing frame of the present embodiment includes a long rod 20 and a mounting plate 21, and the mounting plate 21 is fixedly disposed at the front end of the long rod 20. In the monitoring process, install hydrology flow monitoring probe 22 on mounting panel 21, carry out fixed mounting through the bolt, for demountable installation, later, the afterbody of the handheld stock 20 of monitor person stretches into the aquatic with hydrology flow monitoring probe 22 and monitors. During the monitoring process, the hydrological flow monitoring probe 22 is electrically connected with the hydrological flow monitoring host through an electric wire.

The display of the embodiment comprises an LED screen 14, wherein the LED screen 14 is arranged in front of the distribution box 1 and is used for displaying images shot by the first camera and the second camera and water quality and hydrological data obtained by monitoring of the water environment monitoring assembly. The display of the present embodiment employs the latest display technology device.

The audible and visual alarm 8, the gunlock type camera 6, the spherical camera 7, the alarm sound 5, the GPS-RTK positioning unit 10 and the water environment monitoring component are respectively and electrically connected with the LED screen 14 through cables. When the on-site collection work is carried out, the gun camera type camera 6, the spherical camera 7 and the water environment monitoring assembly transmit collected data to the LED screen 14 in an electric signal mode, so that water quality information such as PH, water temperature, conductivity, dissolved oxygen, ammonia nitrogen and COD concentration monitored by the water environment monitoring assembly and real-time images shot by the two cameras are displayed on the LED screen 14.

The power supply device is arranged on the distribution box 1 and provides electric energy for the water quality and hydrology monitoring equipment. The power supply unit of this embodiment is equipped with two solar cell panel 3, and two solar cell panel 3 rotate respectively and establish the both sides limit at block terminal 1, and solar cell panel 3 still is connected through the atmospheric pressure bracing piece with block terminal 1's side, and the atmospheric pressure bracing piece is used for propping up solar cell panel 3 for solar cell panel 3 can be opened to both sides. The solar cell panel 3 is used for receiving sunlight irradiation and supplying power to all power utilization components, and the LED screen 14, the audible and visual alarm 8, the gunlock type camera 6, the spherical camera 7, the alarm sound 5, the GPS-RTK positioning unit 10 and the water environment monitoring component are electrically connected with the solar cell panel 3 through wires.

Cable and wire between each subassembly all walk the line setting in elevating system and block terminal 1 inside among this quality of water hydrology monitoring facilities. When the water environment monitoring assembly is used for on-site on-line monitoring, the water environment monitoring assembly can be detached from the inside of the distribution box 1 and then installed to a specified monitoring point position of the water environment in a bracing wire mode, and the water environment monitoring assembly is installed back to the distribution box after monitoring is finished.

In addition, the distribution box 1 is also used for storing cables, wires and switches of various components, and can reduce the exposure of accessories such as the cables and the wires as much as possible, so that the whole equipment is simpler and safer in use.

Preferably, the GPS-RTK positioning unit 10 uses a domestic Beidou satellite positioning system to achieve the purposes of accurate measurement and national information confidentiality.

When the water quality and hydrology monitoring equipment is used, the equipment is moved to the places near monitoring points such as water environment riverbank lakes, rain sewage discharge ports or inspection wells needing to monitor water quality and hydrology in a manpower-driven mode, the geographical positions and elevation information of the monitoring points are collected and analyzed through a GPS-RTK positioning unit, the situations near the monitoring points and the water environment chromaticity and turbidity information are monitored through a gun camera and a spherical camera, the water environment water quality and hydrology information is monitored through a water environment monitoring assembly, and water quality information indexes generally comprise: PH value, temperature, dissolved oxygen, conductivity, ammonia nitrogen and COD concentration, through hydrology flow monitor monitoring water environment hydrology information, monitoring data real-time transmission to LED screen 14 demonstration, feed back to the maintenance workman of patrolling and examining in real time, the maintenance workman of patrolling and examining can follow LED screen 14 direct observation monitoring point quality of water hydrology information to do corresponding processing.

The wheels 13, the solar cell panel 3, the water environment monitoring assembly, the gunlock-type camera 6, the spherical camera 7, the GPS-RTK positioning unit 10, the LED screen 14, the distribution box 1, the audible and visual alarm 8 and the alarm sound 5 in the embodiment can be replaced by parts with the same functions in the prior art.

In the embodiment, the push handle 2 is arranged behind the distribution box 1, so that the water quality and hydrology monitoring equipment can be conveniently moved.

The specific operation flow of the water quality and hydrology monitoring equipment of the embodiment is as follows:

firstly, the water quality and hydrology monitoring equipment is pushed to move to a corresponding monitoring position, and after the water quality and hydrology monitoring equipment is in place, the support rod 12 is downwards adjusted to be propped against the ground, and the position of the distribution box 1 is locked. Then, a water quality monitoring probe and a hydrological flow monitoring probe are installed, the water quality monitoring probe is placed in a monitoring point under the protection of a water quality monitoring device protection cage, the hydrological flow monitoring probe is placed in the monitoring point through a fixing frame so as to acquire water quality hydrological information of the monitoring point, a gun camera 6 and a spherical camera 7 monitor the surrounding situation of the monitoring point, a GPS-RTK positioning unit 10 acquires the geographic position and elevation information of the monitoring point, the information is transmitted to an LED screen 14 through an electric signal mode, and finally relevant data of geographic positioning analysis and relevant data of water quality hydrological indexes are displayed in the LED screen 14 and are used for on-site monitoring personnel to check and record. And after the collection and monitoring are finished, moving the water quality hydrological monitoring equipment to the next water environment monitoring point to carry out monitoring.

For the mobile arrangement of the electric box 1, another embodiment is: install a motor in block terminal 1, carry out the transmission with motor and wheel 13 and be connected, drive four wheel rotations by the motor, realize that monitoring facilities's automation is gone, can use manpower sparingly greatly, in addition, the motor passes through the wire and is connected with solar cell panel 3, provides the required electric energy of work by solar cell panel 3 for the motor. The above-mentioned modifications are common technical means in the art, and therefore the connection relationship and installation manner between the components are not described herein again.

The above-described embodiments of the present invention are not intended to limit the scope of the present invention, and the embodiments of the present invention are not limited thereto, and various other modifications, substitutions and alterations can be made to the above-described structure of the present invention without departing from the basic technical concept of the present invention as described above, according to the common technical knowledge and conventional means in the field of the present invention.

Claims (10)

1. The utility model provides a multi-functional portable quality of water hydrology monitoring facilities which characterized in that: the intelligent water environment monitoring system comprises a lifting mechanism, a power supply device, a distribution box, a water environment monitoring assembly, a first camera, a second camera, a GPS-RTK positioning unit, a display, an audible and visual alarm and an alarm sound, wherein the distribution box is movably arranged and serves as a carrier for integral movement, the water environment monitoring assembly is arranged in the distribution box, the lifting mechanism and the alarm sound are fixedly arranged on the distribution box, the first camera, the second camera, the GPS-RTK positioning unit and the audible and visual alarm are arranged on the lifting mechanism and driven by the lifting mechanism to perform lifting movement, the power supply device is arranged on the distribution box, and the display is arranged in front of the distribution box;

the power supply device provides electric energy for the water quality hydrological monitoring equipment, the water environment monitoring assembly is used for monitoring water quality hydrology, the first camera is used for directionally monitoring images in front of the first camera, the second camera monitors peripheral images through rotation, and the display is used for displaying shot images and water quality hydrological data obtained through monitoring.

2. The multifunctional mobile water quality and hydrology monitoring equipment according to claim 1, wherein: the water environment monitoring assembly comprises a water quality monitor, a hydrological flow monitor, a water quality monitor protection cage and a fixing frame; the water quality monitor comprises a water quality monitoring host and a water quality monitoring probe, wherein the water quality monitoring host is installed in the distribution box, and the water quality monitoring probe is sleeved with the water quality monitoring protective cage in the monitoring process so as to be protected; the hydrological flow monitor comprises a hydrological flow monitoring host and a hydrological flow monitoring probe, wherein the hydrological flow monitoring host is installed in the distribution box, the hydrological flow monitoring probe is installed at the front end of the fixing frame in the monitoring process, and the hydrological flow monitoring probe is extended into water through the fixing frame; the water quality monitoring probe, the hydrology flow monitoring probe, the water quality monitor protection cage and the fixing frame are all accommodated in the distribution box.

3. The multifunctional mobile water quality and hydrology monitoring equipment according to claim 2, wherein: the water quality monitor protection cage comprises a cylinder and an end cover, wherein the side wall of the cylinder is provided with a plurality of through holes, the end cover is arranged at the opening of the cylinder, and the end cover is provided with a mounting hole; in the monitoring process, the water quality monitoring probe is installed in the mounting hole, and the water quality monitoring probe is positioned in the cylinder.

4. The multifunctional mobile water quality and hydrology monitoring equipment according to claim 2, wherein: the fixing frame comprises a long rod and an installation plate, and the installation plate is fixedly arranged at the front end of the long rod; and in the monitoring process, the hydrological flow monitoring probe is arranged on the mounting plate.

5. The multifunctional mobile water quality and hydrology monitoring equipment according to claim 1, wherein: the power supply device is provided with two solar cell panels, the two solar cell panels are respectively rotatably arranged on two side edges of the distribution box, the solar cell panels are connected with the side surfaces of the distribution box through air pressure supporting rods, and the air pressure supporting rods are used for supporting the solar cell panels.

6. The multifunctional mobile water quality and hydrology monitoring equipment according to claim 1, wherein: the lifting mechanism comprises an electric telescopic rod and an installation beam, the electric telescopic rod is vertically installed on the distribution box, the installation beam is transversely fixed at the upper end of the electric telescopic rod, and the first camera, the second camera, the GPS-RTK positioning unit and the acousto-optic alarm are respectively installed at two end parts of the installation beam.

7. The multifunctional mobile water quality and hydrology monitoring equipment according to claim 6, wherein: the first camera and the second camera are installed below the installation beam, and the GPS-RTK positioning unit and the audible and visual alarm are installed above the installation beam.

8. The multifunctional mobile water quality and hydrology monitoring equipment according to claim 1, wherein: the first camera is a gunlock type camera, and the second camera is a spherical camera.

9. The multifunctional mobile water quality and hydrological monitoring equipment according to claim 1, characterized in that: wheels and a ground position locking mechanism are arranged below the distribution box, the ground position locking mechanism comprises a fixed rod and a supporting rod, the fixed rod is transversely and fixedly arranged on the side edge of the distribution box, the supporting rod is vertically arranged on the fixed rod, and the position of the distribution box can be locked by downwards adjusting the supporting rod to be propped against the ground.

10. The multifunctional mobile water quality and hydrology monitoring equipment according to claim 1, wherein: the display includes an LED screen.

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