CN210720367U - Monitoring system for be used for river course water quality testing - Google Patents

Abstract

The utility model provides a monitored control system for be used for river course water quality testing, it includes a plurality of water quality testing probes, its fixed mounting is on a probe mounting panel, a plurality of water quality testing probes are the array and arrange on the bottom surface of probe mounting panel, the sealed box of fixedly connected with on the top surface of probe mounting panel, install circuit board and power in the sealed box, a plurality of water quality testing probes are connected to the circuit board electricity, the power supplies power to a plurality of water quality testing probes, the sealed box, probe mounting panel and a plurality of water quality testing probe are located the water domain, the top fixedly connected with pulling element of sealed box, pulling element is connected to driver part, driver part sets up on the river bank, driver part drive pulling element stretches and drives sealed box, probe mounting panel and a plurality of water quality testing probe go up and down. The utility model discloses compare in prior art and can provide more extensive water quality testing for the whole quality of water in vast waters, compensate current detection mode and detect the defect that the face is little.

Description

Monitoring system for be used for river course water quality testing

Technical Field

The utility model relates to a water quality monitoring system particularly, relates to a monitored control system for river course water quality testing.

Background

On the industrial roads of China, a lot of wastewater from steel plants is discharged into river channels without treatment or after simple treatment, and the wastewater is characterized by high content of suspended matters, containing harmful substances such as phenol, cyanogen and the like and great harm. The water quality of the river channel is seriously deteriorated, the organisms such as fish and the like in the river are extinct, the original ecological system of the river is destroyed, the self-repairing capability is not provided, and the body health and the urban appearance of people are affected after the river is subjected to the smelly weather. In order to comprehensively treat the river polluted by the steel plant, a large amount of manpower and material resources are input by the government to carry out large-scale treatment, the river water environment is improved to a certain extent, but at present, part of the river water environment is not scientifically treated and the water quality does not reach the standard, so that potential threats are brought to underground water pollution, animals, plants and the like.

At present, water quality detection of polluted watersheds is realized by sampling water quality through a water quality detector after random stepping, but the detection mode has the defects that the coverage area of the water quality detection is small, and the water quality detection cannot provide wider water quality detection for the whole water quality of a large water area, so that the detection area has defects.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a monitored control system for river course water quality testing, it has mainly utilized one set of monitored control system after improving again to carry out the water quality testing in wider waters to can provide more extensive water quality testing for the whole quality of water in vast waters, compensate the little defect of current detection mode detection face.

For this, the utility model provides a monitored control system for river course water quality testing, it includes a plurality of water quality testing probes, its fixed mounting is on a probe mounting panel, a plurality of water quality testing probes are the array and arrange on the bottom surface of probe mounting panel, the sealed box of fixedly connected with on the top surface of probe mounting panel, install circuit board and power in the sealed box, a plurality of water quality testing probes are connected to the circuit board electricity, the power supplies power to a plurality of water quality testing probes, the sealed box, probe mounting panel and a plurality of water quality testing probe are located the water domain, the top fixedly connected with pulling element of sealed box, pulling element is connected to driver part, driver part sets up on the river bank, driver part drive pulling element stretches and drives sealed box, probe mounting panel and a plurality of water quality testing probe go up and down.

Furthermore, the sealing box body is an integrally formed rectangular box body, the bottom of the sealing box body is provided with an opening, and the opening is adhered to the top surface of the probe mounting plate.

Furthermore, a sealing ring is arranged at the bonding position of the opening and the probe mounting plate.

Further, above-mentioned traction element includes first traction wheel, second traction wheel and third traction wheel, carries out the transmission through the haulage rope between first traction wheel, second traction wheel and the third traction wheel and connects, and first traction wheel sets up on the waters, and second traction wheel and third traction wheel set up on the river bank, and sealed box is connected to the first end of haulage rope, and the third traction wheel is connected to the second end of haulage rope, and drive assembly is connected to the third traction wheel.

Further, the second traction wheel is suspended on the river bank through a V-shaped bracket.

Further, the driving member is a driving motor.

Furthermore, a sliding track of the go chessboard pattern is arranged on the bottom surface of the probe mounting plate, and a pulley is arranged at the top of the water quality detection probe and is connected with a micro motor.

The utility model provides an among the monitored control system for river course water quality testing, mainly utilized a set of monitored control system after improving again to carry out the water quality testing of wider waters, adopt a plurality of water quality testing probes on traction element, probe mounting panel and the probe mounting panel bottom surface to realize the detection specifically, and preferably the water quality testing probe can move on the probe mounting panel bottom surface, therefore can carry out the water quality testing of required waters area selectively; meanwhile, the circuit board and the power supply (battery pack) are directly arranged in the sealed box body on the top surface of the probe mounting plate, so that the direct power supply of the water quality detection probe can be realized;

therefore, compared with the prior art, the utility model can provide wider water quality detection for the whole water quality in vast waters, and compensate the defect of small detection surface of the existing detection mode.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a schematic structural diagram of a monitoring system for river water quality detection provided by an embodiment of the present invention;

fig. 2 is a schematic view of a connection structure of a probe mounting plate and a plurality of water quality detection probes in a monitoring system for river water quality detection provided by an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a water quality detection probe in a monitoring system for river water quality detection provided by an embodiment of the present invention;

fig. 4 is a schematic diagram of a distribution of a plurality of water quality testing probes in a monitoring system for detecting water quality in a river provided by an embodiment of the present invention;

fig. 5 is another schematic diagram of a distribution pattern of a plurality of water quality testing probes in a monitoring system for river water quality testing provided by the embodiment of the utility model.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

Referring to fig. 1 to 3, which illustrate a monitoring system for river water quality detection provided by an embodiment of the present invention, the monitoring system includes a plurality of water quality detection probes 1, which are fixedly mounted on a probe mounting plate 2, the plurality of water quality detection probes 1 are arranged in an array on a bottom surface of the probe mounting plate 2, a sealing box 3 is fixedly connected on a top surface of the probe mounting plate 2, a circuit board 31 and a power supply 32 are mounted in the sealing box 3, the circuit board 31 is electrically connected to the plurality of water quality detection probes 1 (which are conventional water quality detection probes or sensors, and detailed description thereof is omitted), the power supply 32 supplies power to the plurality of water quality detection probes 1, the sealing box 3, the probe mounting plate 2 and the plurality of water quality detection probes 1 are located in a water area, a traction part 4 is fixedly connected to a top of the sealing box 3, the traction part 4 is connected to a driving part 41, the driving part 41 is a motor, the driving part 41 is arranged on the river bank, and the driving part 41 drives the traction part 4 to stretch and retract and drives the sealing box body 3, the probe mounting plate 2 and the water quality detection probes 1 to ascend and descend.

Specifically, referring to fig. 1, the sealing case 3 is a rectangular case integrally formed, and has an opening 33 at the bottom, and the opening 33 is bonded to the top surface of the probe mounting plate 2.

With continued reference to fig. 1, in order to improve the sealing performance of the sealed box and protect the internal devices, a sealing ring 34 is disposed at the bonding position of the opening 33 and the probe mounting plate 2.

With reference to fig. 1, in particular, the traction member 4 includes a first traction wheel 42, a second traction wheel 43 and a third traction wheel 44, the first traction wheel 42, the second traction wheel 43 and the third traction wheel 44 are in transmission connection through a traction rope 45, the first traction wheel 42 is disposed on the water area, the second traction wheel 43 is suspended on the river bank through a V-shaped bracket 431, the third traction wheel 44 is disposed on the river bank, a first end 451 of the traction rope 45 is connected to the sealed box 3, a second end 452 of the traction rope 45 is connected to the third traction wheel 44, and the third traction wheel 44 is connected to the driving member 41.

Referring to fig. 2 to 3, a sliding rail 21 in a go chessboard pattern is arranged on the bottom surface of the probe mounting plate 2, a pulley 11 is arranged on the top of the water quality detection probe 1, and a micro motor 12 is connected on the pulley 11.

In the monitoring system for river water quality detection provided by the embodiment, a set of monitoring system which is improved again is mainly utilized to detect water quality in a wider water area, and particularly, a traction component, a probe mounting plate and a plurality of water quality detection probes on the bottom surface of the probe mounting plate are adopted to realize detection, and preferably, the water quality detection probes can move on the bottom surface of the probe mounting plate, so that water quality detection of a required water area can be selectively carried out; meanwhile, the circuit board and the power supply (battery pack) are directly arranged in the sealed box body on the top surface of the probe mounting plate, so that the direct power supply of the water quality detection probe can be realized;

therefore, compared with the prior art, the embodiment can provide wider water quality detection for the whole water quality of a vast water area, and makes up the defect of small detection surface of the existing detection mode.

With reference to fig. 1 to 5, the monitoring system for detecting the water quality of a river according to the above embodiment implements monitoring of water quality detection by the following method:

s1: the driving part 41 drives the traction part 4 to lower the sealing box body 3, the probe mounting plate 2 and the plurality of water quality detection probes 1 to the water surface;

s2: a plurality of water quality detection probes 1 arranged in an array are used for respectively detecting the water quality under each region point of the water surface;

s3: the water quality detection probes 1 send water quality data under each region point to the control center, and the control center collects a plurality of water quality data and compares and analyzes differences among the water quality data; the plurality of water quality detecting probes 1 slide on the slide rail 21 in a desired distribution pattern.

Specifically, a quadrangle shown in fig. 4 may be distributed, and during detection, the quadrangle is a final distribution pattern of the plurality of water quality detecting probes 1, as shown in fig. 4, the rhombus distribution diagram marked by the middle dotted line of the plurality of water quality detecting probes 1 is transformed into the final quadrangle, the movement path may uniformly detect the water quality change from inside to outside in the unit water area, and the water quality detecting probes 1 may be provided with a telescopic structure (for example, additionally provided with a cylinder or a connecting rod), and may simultaneously detect the water quality at different depths during the path change.

More specifically, the distribution patterns with two zigzag sides as shown in fig. 5 may be distributed, and during detection, the distribution patterns are the final distribution patterns of the plurality of water quality detecting probes 1, as shown in fig. 5, the rectangular distribution patterns of the plurality of water quality detecting probes 1 marked by the middle dotted line are transformed into the final distribution patterns with two zigzag sides, the moving path may uniformly detect the water quality change from the middle to the two sides in the unit water area, and the water quality detecting probes 1 may be provided with a telescopic structure (for example, additionally provided with a cylinder or a connecting rod), and may detect the water quality at different depths in the path change.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (7)

1. The monitoring system for river water quality detection is characterized by comprising a plurality of water quality detection probes (1) which are fixedly mounted on a probe mounting plate (2), wherein the water quality detection probes (1) are arranged on the bottom surface of the probe mounting plate (2) in an array manner, a sealed box body (3) is fixedly connected onto the top surface of the probe mounting plate (2), a circuit board (31) and a power supply (32) are mounted in the sealed box body (3), the circuit board (31) is electrically connected with the water quality detection probes (1), the power supply (32) supplies power to the water quality detection probes (1), the sealed box body (3), the probe mounting plate (2) and the water quality detection probes (1) are positioned in a water area, and a traction component (4) is fixedly connected onto the top of the sealed box body (3), traction part (4) are connected to drive unit (41), drive unit (41) set up on the river bank, drive unit (41) drive traction part (4) are flexible and drive sealed box (3), probe mounting panel (2) with a plurality of water quality testing probe (1) go up and down.

2. The monitoring system for river channel water quality detection according to claim 1, wherein the sealing box body (3) is an integrally formed rectangular box body, the bottom of the sealing box body is provided with an opening (33), and the opening (33) is adhered to the top surface of the probe mounting plate (2).

3. A monitoring system for river water quality detection according to claim 2, wherein a sealing ring (34) is arranged at the bonding position of the opening (33) and the probe mounting plate (2).

4. The monitoring system for river water quality detection according to claim 1, wherein the traction member (4) comprises a first traction wheel (42), a second traction wheel (43) and a third traction wheel (44), the first traction wheel (42), the second traction wheel (43) and the third traction wheel (44) are in transmission connection through a traction rope (45), the first traction wheel (42) is arranged on a water area, the second traction wheel (43) and the third traction wheel (44) are arranged on a river bank, a first end (451) of the traction rope (45) is connected with the sealed box body (3), a second end (452) of the traction rope (45) is connected with the third traction wheel (44), and the third traction wheel (44) is connected with the driving member (41).

5. A monitoring system for river water quality detection according to claim 4, wherein the second traction wheel (43) is suspended on the river bank through a V-shaped bracket (431).

6. A monitoring system for river water quality detection according to claim 1 or 4, wherein the driving part (41) is a driving motor.

7. The monitoring system for river channel water quality detection according to claim 1, wherein a sliding rail (21) of a go chessboard pattern is arranged on the bottom surface of the probe mounting plate (2), a pulley (11) is arranged on the top of the water quality detection probe (1), and a micro motor (12) is connected on the pulley (11).

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