CN218567346U - Automatic water quality monitoring system for urban water system - Google Patents

Abstract

The utility model discloses a quality of water automatic monitoring system for urban water system belongs to water quality monitoring technical field, including cursory platform, cursory platform lower part sets up the frustum that soaks, the inside of frustum that soaks is equipped with the attenuator, the frustum lower part that soaks sets up the water quality monitoring subassembly, cursory platform upper portion sets up the remote sensing subassembly cursory platform upper portion sets up photovoltaic cell panel, the frustum lower part that soaks sets up the protective tube cover, the protective tube cover lower part sets up the chain anchor, cursory platform circumference sets up the floater, and this scheme is through setting up the frustum that soaks to set up the attenuator in inside, play buffering and stabilizing action, thereby strengthen the stable effect of cursory platform, and strengthen through the floater, avoid the risk of tumbling and bringing, the chain anchor will be floated platform and fix certain region, ensure monitoring data's accuracy.

Description

Automatic water quality monitoring system for urban water system

Technical Field

The utility model belongs to the technical field of water quality monitoring, especially, a quality of water automatic monitoring system for urban water system.

Background

The water quality monitoring refers to the operations of carrying out uniform regular or irregular detection on chemical substances, suspended matters, bottom mud and a water ecological system in water, monitoring and measuring the types, concentrations and variation trends of pollutants in the water, evaluating the water quality condition and the like.

The water quality monitoring plays a vital role in the aspects of whole water environment protection, water pollution control and water environment health maintenance. In urban water, if the water contains harmful bacteria, such as typhoid fever, cholera, dysentery, etc., various infectious diseases will be transmitted. When a large amount of plankton (such as protozoa, algae, etc.) is present in the water, it affects the physical properties of the water and generates odor and water color. If the water contains some mineral salt impurities, various diseases can be caused. If the drinking water contains too much fluorine, the teeth may be stained to cause plaque, and the teeth may be completely broken if serious. In the case of sewage discharged in daily life, diseases are also transmitted. Therefore, monitoring whether the water quality of the urban water system meets the standard or not has important significance for guaranteeing the civil water safety of people. The existing monitoring platform generally adopts a floating body form, integrates a remote measuring terminal, a water quality monitoring sensor and solar power supply, but the existing floating body can shake violently to cause toppling when being impacted, so that data monitoring is inaccurate.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects existing in the prior art, the utility model provides an automatic water quality monitoring system for urban water system, which is stable and reliable, and ensures that the data monitoring is more accurate.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a quality of water automatic monitoring system for urban water system, includes cursory platform, cursory platform lower part sets up the frustum that soaks, the inside of frustum that soaks is equipped with the attenuator, the frustum lower part that soaks sets up the water quality monitoring subassembly, cursory platform upper portion sets up the remote sensing subassembly cursory platform upper portion sets up photovoltaic cell board.

As a further improvement, the lower part of the water immersion frustum is provided with a protective pipe cover, and the water quality monitoring assembly is arranged inside the protective pipe cover. The protective pipe cover plays a role in protecting the water quality monitoring assembly.

As a further improvement, the lower part of the protective pipe cover is provided with a chain anchor, and the chain anchor fixes the floating platform in a certain area.

As a further improvement of the utility model, one end of the damper is fixed at the lower part of the floating platform, and the other end is fixed at the bottom of the water immersion frustum.

As a further improvement, photovoltaic cell board sets up and fixes on the cursory platform along remote sensing subassembly circumference, and photovoltaic cell board can omnidirectional accept the sun and shine.

As a further improvement, the buoy platform circumference sets up the floater, and the floater makes the buoy platform more stable.

Compared with the prior art, the utility model discloses the beneficial effect who has:

in this device, through setting up the frustum of soaking to set up the attenuator in inside, play buffering and stabilizing action, thereby reinforcing the stable effect of cursory platform, and strengthen through the floater, avoid the risk of tumbling and bringing, the chain anchor is fixed cursory platform in certain area, ensures monitoring data's accuracy.

Drawings

The present invention will be further described with reference to the accompanying drawings and the detailed description.

Fig. 1 is a schematic structural diagram of an automatic water quality monitoring system for an urban water system according to the present invention.

In the figure: 1. a floating platform; 2. a water immersion frustum; 3. a damper; 4. a water quality monitoring assembly; 5. a remote sensing component; 6. a protective tube cover; 7. a photovoltaic cell panel; 8. a chain anchor; 9. a floating ball.

Detailed Description

For the technical solutions and advantages of the present invention to be more clearly understood, the present invention is further described in detail with reference to the following specific embodiments.

Referring to fig. 1, the embodiment of the utility model discloses a quality of water automatic monitoring system for urban water system, including cursory platform 1, cursory platform 1 lower part sets up soaking frustum 2, the inside of soaking frustum 2 is equipped with attenuator 3, the lower part at cursory platform 1 is fixed to 3 one end of attenuator, and the bottom at soaking frustum 2 is fixed to the other end. The lower part of the soaking frustum 2 is provided with a water quality monitoring assembly 4, the upper part of the floating platform 1 is provided with a remote sensing assembly 5, and the upper part of the floating platform 1 is provided with a photovoltaic cell panel 7.

In this device, through setting up soaking frustum 2 to set up attenuator 3 in inside, thereby reinforcing the stable effect of cursory platform 1, photovoltaic cell board 7 absorbs solar light energy and converts the electric energy storage into, and for the power supply of whole power consumption device, water quality monitoring subassembly 4 is connected with remote sensing subassembly 5 electricity.

Referring to fig. 1, the lower part of the soaking frustum 2 is provided with a protective pipe cover 6, the water quality monitoring assembly 4 is arranged inside the protective pipe cover 6, and the protective pipe cover 6 plays a role in protecting the water quality monitoring assembly 4. The chain anchor 8 is arranged on the lower portion of the protective pipe cover 6, the floating platform 1 is fixed in a certain area through the chain anchor 8, and accuracy of monitoring data is guaranteed.

Referring to fig. 1, photovoltaic cell panel 7 sets up and fixes on cursory platform 1 along remote sensing subassembly 5 circumference, because of cursory platform 1 is cursory at the surface of water, under the effect of rivers, constantly removes, and photovoltaic cell panel 7 that sets up like this can omnidirectional accept sun and shine, cursory platform 1 circumference sets up floater 9, and floater 9 makes cursory platform 1 more stable, also is difficult for taking place to turn on one's side under great stormy waves.

It should be understood that the detailed description and specific examples, while indicating the invention, are given by way of illustration only, not by way of limitation, since other embodiments will become apparent to those skilled in the art upon consideration of the following detailed description of the invention without any creative effort.

Claims (6)

1. A water quality automatic monitoring system for urban water system is characterized in that: including cursory platform (1), cursory platform (1) lower part sets up soaking frustum (2), the inside of soaking frustum (2) is equipped with attenuator (3), soaking frustum (2) lower part sets up water quality monitoring subassembly (4), cursory platform (1) upper portion sets up remote sensing subassembly (5) cursory platform (1) upper portion sets up photovoltaic cell board (7).

2. The automatic water quality monitoring system for the urban water system according to claim 1, wherein: the lower part of the soaking frustum (2) is provided with a protective pipe cover (6), and the water quality monitoring assembly (4) is arranged inside the protective pipe cover (6).

3. The automatic water quality monitoring system for the urban water system according to claim 2, wherein: and the lower part of the protective pipe cover (6) is provided with a chain anchor (8).

4. The automatic water quality monitoring system for a municipal water system according to claim 1, wherein: one end of the damper (3) is fixed at the lower part of the floating platform (1), and the other end is fixed at the bottom of the water immersion frustum (2).

5. The automatic water quality monitoring system for the urban water system according to claim 1, wherein: the photovoltaic cell panel (7) is circumferentially arranged along the remote sensing assembly (5) and fixed on the floating platform (1).

6. The automatic water quality monitoring system for a municipal water system according to claim 5, wherein: the floating ball (9) is arranged on the floating platform (1) in the circumferential direction.

Images