CN211206463U - River course water quality monitoring system - Google Patents

Abstract

The utility model discloses a river course water quality monitoring system, include: the water quality monitoring device, the wire take-up device and the base; the take-up passes through the cable and connects water quality monitoring device body, and take-up is connected to the base, the utility model discloses a water quality monitoring device monitors the water quality condition in waters, take-up includes the pulling force detection subassembly, the pulling force detection subassembly is used for detecting the pulling force of the pull wire that is connected with water quality monitoring device, works as when the pulling force is less than preset threshold value, and take-up passes through the automatic gyration of motor control drum and receives the line, has guaranteed the effective of going on water quality monitoring module's automatic control and water quality monitoring work, can also monitor water quality monitoring device's position through the built-in positioner of base simultaneously for relevant staff can accurately learn the water quality condition in a certain waters, has also improved water quality monitoring device's recycle and utilization.

Description

River course water quality monitoring system

Technical Field

The utility model relates to a water quality monitoring field, concretely relates to river course water quality monitoring system.

Background

With the continuous improvement of the environmental awareness of human beings, the monitoring of human beings on water quality, including ground water and industrial wastewater, is increasingly emphasized; and the strength of government water pollution treatment work is strengthened year by year, and the requirement on water environment monitoring work is higher and higher. The water quality information has the characteristic of strong timeliness, and particularly, the water quality early warning and forecasting requires that monitoring information is collected and transmitted quickly, accurately and in real time. The conventional water environment monitoring means can not meet the requirements of multi-azimuth and high-level management of water resource protection and can not meet the requirement of rapidly and accurately measuring and predicting water quality information. In addition, the distribution range of the current domestic water quality monitoring network is small, the real-time monitoring stations are few, and the data of water quality monitoring are not comprehensive enough and accurate, the utility model relates to a river course water quality monitoring system distributes a plurality of water quality monitoring devices at the regional surface of water for the processing output of water quality data is more accurate.

SUMMERY OF THE UTILITY MODEL

For solving the problem that exists among the prior art, the utility model provides a river course water quality monitoring system to realized through the measurement to the many-sided multi-angle of water quality of water, makeed water quality data more comprehensive.

The utility model discloses a river course water quality monitoring system, this system float the piece and constitute as the elasticity screwed pipe of connecting piece by base, nylon haulage rope, water quality monitoring respectively by supreme down. A plurality of floating blocks are connected with a plurality of elastic threaded pipes to form a closed circle and float on the water surface of the monitored water body; one end of a plurality of nylon hauling ropes corresponding to the number of the floating blocks is bound with the circular ring under the floating blocks, and the other end of the nylon hauling ropes is bound in the take-up device in the base.

Further, the water quality monitoring floats the piece, and it includes: the water quality monitoring system comprises a power supply module, a water quality monitoring sensor module and a wireless signal transmitting module.

Furthermore, the whole water quality monitoring floating block is of a cuboid structure; the water quality monitoring floating block is waterproof as a whole, and is internally provided with a power supply device for supplying power to the water quality monitoring floating block; the left side and the right side of the water quality monitoring floating block are respectively provided with two thread grooves, the caliber of each thread groove is matched with that of the elastic threaded pipe, and the thread grooves are connected with the elastic threaded pipe to form a closed circle; one or a plurality of water quality monitoring sensor modules are exposed out of the front surface of the water quality monitoring floating block, and the water quality monitoring sensor modules of the modules are partially exposed out of the front surface of the floating block and are immersed below the water surface of the water body for monitoring the water quality in the closed circular area; a pull ring is fixed at the lower end of the water quality monitoring floating block and is used for binding with a traction rope; the whole gravity center of the floating block is lower, namely the density of the lower half part is higher than that of the upper half part.

Furthermore, the elastic threaded pipe is a section of rubber pipe, two ends of the elastic threaded pipe are respectively provided with a section of thread, and the caliber of the elastic threaded pipe is matched with the thread grooves at the left end and the right end of the water quality monitoring floating block and is used for being connected with the water quality monitoring floating block to form a closed circle.

Further, take-up includes the tension detection subassembly, the tension detection subassembly is used for detecting water quality monitoring device's pulling force, works as when the pulling force is less than the predetermined threshold value, automatic spooler control drum is automatic to be revolved the cable.

Further, the base comprises a take-up device, a motor, a base power supply device and a positioning device, wherein the take-up device is connected with the water quality monitoring module through a cable and used for adjusting the position of the water quality monitoring floating block through the take-up device; the motor is connected with the wire take-up device and used for driving the wire take-up device to work through the motor; the positioning device is used for positioning the position of the current water area.

Drawings

Fig. 1 is a structural schematic diagram of a river water quality monitoring system of the utility model;

FIG. 2 is a schematic diagram of a base structure of a river water quality monitoring system of the present invention;

FIG. 3 is a diagram of an elastic threaded pipe of the river water quality monitoring system of the present invention;

FIG. 4 is a diagram of a water quality monitoring floating block of the river water quality monitoring system of the present invention;

in the figure: 1-water quality monitoring floating block, 2-nylon hauling rope, 3-cable, 4-base, 5-base power supply device, 6-take-up device, 7-positioning device, 8-wireless signal transmitting module, 9-power module, 10-water quality monitoring sensor module, 11-motor, 12-tension detecting component, 13-buckle

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in figure 1, the river water quality monitoring system comprises a base 4, a nylon hauling rope 2, a cable 3, a water quality monitoring floating block 1 and an elastic threaded pipe as a connecting piece from bottom to top. The water quality monitoring floating blocks 1 are connected with the elastic threaded pipes to form a closed circle and float on the water surface of the monitored water body; one end of a plurality of nylon hauling ropes 2 corresponding to the quantity of the water quality monitoring floating blocks 1 is bound with a circular ring below the water quality monitoring floating blocks 1, and the other end of the nylon hauling ropes is bound on a take-up device 6 in the base. Wherein the base comprises base power supply unit 5, positioner 7, take-up 6, and wherein base power supply unit 5 does positioner 7 and take-up 6 power supply have guaranteed that the river course water level rises, the gyration of cable 3 to realize that water quality monitoring floats piece 1 and stably floats on the surface of water, wherein the whole focus of water quality monitoring floats piece 1 and leans on down, and the latter half density is greater than the first half promptly.

As shown in fig. 2, the base is composed of a base power supply device 5, a positioning device 7 and a wire take-up device 6, wherein the base power supply device 5 can be a storage battery, a lithium battery or an external power supply; the positioning device 7 is used for positioning the position of the current monitoring water area and sending position information to the remote monitoring center through the wireless signal transmitting module 8;

the nylon haulage rope 2, its characterized in that: the traction rope has small elasticity and is nearly absent; two buckles 13 are respectively arranged at two ends of the water quality monitoring floating block, and the two buckles 13 are respectively bound in a clamping groove at the bottom of the water quality monitoring floating block 1 and a take-up device of the base 4.

Specifically, take-up 6 includes motor 11 and tension detecting component 12, tension detecting component 12 is used for detecting water quality monitoring device's pulling force, works as when the pulling force is less than predetermined threshold value, take-up 6 passes through motor 11 control drum automatic gyration cable 3 for surface of water monitoring floats piece 1 and can float on the surface of water better.

As shown in fig. 3, the elasticity screwed pipe is a section of rubber tube, and both ends respectively have a section screw thread, and the bore matches with the thread groove at both ends about water quality monitoring floats piece 1 for be connected with water quality monitoring floats piece 1 and constitute a closed circle, wherein when being used for river course water quality monitoring, relevant staff can be according to monitoring the surface of water size, independent assortment water quality monitoring floats piece 1.

As shown in fig. 4, the water quality monitoring floating block 1 includes: the power module 9, the water quality monitoring sensor module 10 and the wireless signal transmitting module 8 realize data transmission between the remote monitoring center and the whole water quality monitoring device.

Claims (6)

1. A river water quality monitoring system is characterized by comprising a base, a cable nylon hauling rope, water quality monitoring floating blocks and elastic threaded pipes used as connecting pieces from bottom to top, wherein the floating blocks and the elastic threaded pipes are connected into a closed circle and float on the water surface of a monitored water body; one end of a plurality of nylon hauling ropes corresponding to the number of the floating blocks is bound with the circular ring under the floating blocks, and the other end of the nylon hauling ropes is bound in the take-up device in the base.

2. The river water quality monitoring system according to claim 1, wherein the water quality monitoring floating block comprises: the water quality monitoring system comprises a power supply module, a water quality monitoring sensor module and a wireless signal transmitting module.

3. The riverway water quality monitoring system according to claim 1, wherein the water quality monitoring floating block is of a cuboid structure as a whole; the whole is waterproof, and a power module is arranged in the water quality monitoring floating block to supply power to the water quality monitoring floating block; the left side and the right side of the water quality monitoring floating block are respectively provided with two thread grooves, the caliber of each thread groove is matched with the elastic thread pipe, and the thread grooves are connected with the elastic thread pipe to form a closed circle; one or a plurality of water quality monitoring sensor modules are exposed out of the front surface of the water quality monitoring floating block, and the water quality monitoring sensor part of the module is exposed out of the front surface of the floating block and is immersed below the water surface of the water body for monitoring the water quality in the closed circular area; a pull ring is fixed at the lower end of the water quality monitoring floating block and is used for binding with a traction rope; the whole gravity center of the floating block is lower, namely the density of the lower half part is higher than that of the upper half part.

4. The riverway water quality monitoring system as claimed in claim 1, wherein the elastic threaded pipe is a section of rubber pipe, two ends of the elastic threaded pipe are respectively provided with a section of thread, and the caliber of the elastic threaded pipe is matched with that of the thread grooves at the left end and the right end of the water quality monitoring floating block and is used for being connected with the water quality monitoring floating block to form a closed circle.

5. The riverway water quality monitoring system according to claim 1, wherein the base comprises a wire take-up device, a power supply device and a positioning device, the wire take-up device is connected with the water quality monitoring module through a cable and is used for adjusting the position of the water quality monitoring floating block through the wire take-up device; the wire take-up device comprises a built-in motor, and the motor is connected with the wire take-up device and used for driving the wire take-up device to work through the motor; the positioning device is used for positioning the position of the current water area.

6. The riverway water quality monitoring system according to claim 1, wherein the wire take-up device further comprises a tension detection assembly, the tension detection assembly is used for detecting the tension of the water quality monitoring floating block, and when the tension is smaller than a preset threshold value, the wire take-up device controls a wire coil to automatically rotate a cable through a built-in motor.

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