CN220568785U - The method comprises the following steps of: pollution source monitoring device and method for controlling the same - Google Patents

Abstract

The utility model discloses a pollution source monitoring device, which comprises a monitoring box, wherein a sewage box is fixedly arranged in the monitoring box, and one side of the bottom of the sewage tank is provided with a pollution source inlet pipe, and the other side of the bottom of the sewage tank is provided with a pollution source outlet pipe, simultaneously, valves are arranged on the pollution source outlet pipe and the pollution source inlet pipe, the surface of the sewage tank is covered with a sealing cover, and a corrosion rate sensor, a turbidity sensor, a pH sensor and a dissolved oxygen sensor are respectively arranged on the sealing cover. The pollution source monitoring device comprises a monitoring device body, a corrosion rate sensor, a turbidity sensor, a pH sensor and a dissolved oxygen sensor, can monitor the corrosion rate, turbidity, pH and dissolved oxygen parameters of the sewage respectively, the collected pollution source data can be continuously collected and recorded, continuous collection of pollution source monitoring data is achieved, and timeliness of the pollution source monitoring data is improved; real-time observation and recording can be performed through four groups of display split screens.

Description

The method comprises the following steps of: pollution source monitoring device and method for controlling the same

Technical Field

The utility model relates to the field of environmental protection equipment, in particular to a pollution source monitoring device.

Background

With the rapid development of the economy in China, the environmental pollution problem is increasingly serious; the emission of industrial wastewater, waste gas and waste residue seriously damages the environment on which we depend, and brings great threat to our health; in order to coordinate the economic development and the environmental protection, a set of perfect pollution source monitoring system is established;

at present, the pollution source monitoring information is collected by the supervision department to the relevant pollution emission enterprises for data collection, and the method requires a large amount of manual participation, so that the labor cost is high, the working strength is high, the collected pollution source data are scattered in time, continuous collection of the pollution source monitoring data cannot be realized, and the timeliness of the pollution source monitoring data is poor.

Disclosure of Invention

The object of the present utility model is to provide a pollution source monitoring device, which solves the above mentioned drawbacks of the background art.

In order to achieve the above purpose, a pollution source monitoring device is provided, which comprises a monitoring box, wherein a sewage box is fixedly installed in the monitoring box, a pollution source inlet pipe is installed on one side of the bottom of the sewage box, a pollution source outlet pipe is installed on the other side of the bottom of the sewage box, valves are installed on the pollution source outlet pipe and the pollution source inlet pipe, the surface of the sewage box is covered with a sealing cover, a corrosion rate sensor, a turbidity sensor, a pH sensor and a dissolved oxygen sensor are respectively installed on the sealing cover, a window is installed on the outer side of the monitoring box, and the rectangular window is arranged opposite to a fixed frame;

the inside upside of monitoring case is fixed to be set up the mounting panel, and fixed frame spiro union is on the mounting panel, and the inside of fixed frame is inlayed and is installed the demonstration and divide the screen simultaneously.

Preferably, four groups of display sub-screens are respectively arranged in the fixing frame and are respectively electrically connected with the corrosion rate sensor, the turbidity sensor, the pH sensor and the dissolved oxygen sensor.

Preferably, the corrosion rate sensor, the turbidity sensor, the pH sensor and the dissolved oxygen sensor are all in threaded connection on the sealing cover, and the four groups of sensors are respectively inserted and fixed in four groups of positioning mounting holes uniformly formed in the sealing cover.

Preferably, the outside fixed mounting spacing piece of sealed lid, and the opening both sides of sewage case all offer the atress groove, and spacing piece covers the upside in the atress groove simultaneously.

Preferably, the bottom surface of the limiting piece is adhered with a fixed sealing gasket, the sealing gasket covers the opening surface of the sewage tank, and meanwhile, the limiting piece and the sewage tank are sealed through the sealing gasket.

Preferably, the detection ends of the bottom of the corrosion rate sensor, the turbidity sensor, the pH sensor and the dissolved oxygen sensor are respectively inserted into sewage in the sewage tank, the model of the corrosion rate sensor is S-CORR-A1L, the model of the turbidity sensor is S-TUB-B1L, the model of the pH sensor is S-PH-A1LT, and the model of the dissolved oxygen sensor is S-DO-B1LT.

Compared with the prior art, the utility model has the beneficial effects that: the sewage in the sewage tank can be monitored by the corrosion rate sensor, the turbidity sensor, the pH sensor and the dissolved oxygen sensor respectively, the corrosion rate, the turbidity, the pH and the dissolved oxygen parameters of the sewage can be displayed respectively by the four groups of display screens, the collected pollution source data can be collected and recorded continuously, the continuous collection of the pollution source monitoring data is realized, and the timeliness of the pollution source monitoring data is improved; real-time observation and recording can be performed through four groups of display split screens.

Drawings

FIG. 1 is a schematic elevational view of the structure of the present utility model;

FIG. 2 is an external view of the structure of FIG. 1 of the present utility model;

FIG. 3 is a schematic view of the mounting structure of the structural seal cap of the present utility model;

fig. 4 is an enlarged schematic view of the structure of fig. 3 in the structure of the present utility model.

Reference numerals in the drawings: 1. a monitoring box; 2. a pollution source inlet pipe; 3. a pollution source outlet pipe; 4. a sewage tank; 5. sealing cover; 6. displaying a split screen; 7. a fixed frame; 8. a corrosion rate sensor; 9. a turbidity sensor; 10. a pH sensor; 11. a dissolved oxygen sensor; 12. a limiting piece; 13. a stress groove; 14. positioning the mounting hole; 15. a sealing gasket; 16. a viewing window.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the utility model provides a pollution source monitoring device, which comprises a monitoring box 1, wherein a sewage box 4 is fixedly installed in the monitoring box 1, a pollution source inlet pipe 2 is installed on one side of the bottom of the sewage box 4, a pollution source outlet pipe 3 is installed on the other side of the bottom of the sewage box 4, valves are installed on the pollution source outlet pipe 3 and the pollution source inlet pipe 2, a sealing cover 5 covers the surface of the sewage box 4, a corrosion rate sensor 8, a turbidity sensor 9, a pH sensor 10 and a dissolved oxygen sensor 11 are respectively installed on the sealing cover 5, a window 16 is installed on the outer side of the monitoring box 1, and a rectangular window 16 is arranged opposite to a fixed frame 7;

the inside upside of monitoring case 1 is fixed to be set up the mounting panel, and fixed frame 7 spiro union is on the mounting panel, and the inside of fixed frame 7 is inlayed and is installed the demonstration and divide screen 6 simultaneously.

Working principle: when the sewage treatment device is used, sewage to be monitored enters the sewage tank 4 through the pollution source inlet pipe 2, the sewage in the sewage tank 4 can pass through the corrosion rate sensor 8, the turbidity sensor 9, the pH sensor 10 and the dissolved oxygen sensor 11, the corrosion rate, the turbidity, the pH and the dissolved oxygen parameters of the sewage can be monitored respectively, the monitored values can be displayed respectively through four groups of display sub-screens 6, the collected pollution source data can be continuously collected and recorded, continuous collection of the pollution source monitoring data is achieved, and the timeliness of the pollution source monitoring data is improved; real-time observation and recording can be performed through four groups of display sub-screens 6.

As a preferred embodiment, four groups of display sub-screens 6 are respectively installed inside the fixing frame 7, and the four groups of display sub-screens 6 are respectively electrically connected with the corrosion rate sensor 8, the turbidity sensor 9, the pH sensor 10 and the dissolved oxygen sensor 11.

As shown in fig. 1: the four groups of display sub-screens 6 are respectively and electrically connected with the corrosion rate sensor 8, the turbidity sensor 9, the pH sensor 10 and the dissolved oxygen sensor 11, and can respectively detect the corrosion rate, the turbidity, the pH and the dissolved oxygen in sewage through the corrosion rate sensor 8, the turbidity sensor 9, the pH sensor 10 and the dissolved oxygen sensor 11.

As a preferred embodiment, the corrosion rate sensor 8, the turbidity sensor 9, the pH sensor 10 and the dissolved oxygen sensor 11 are all in threaded connection with the sealing cover 5, and the four groups of sensors are respectively inserted and fixed in four groups of positioning mounting holes 14 uniformly formed in the sealing cover 5.

As shown in fig. 1-4: the corrosion rate sensor 8, the turbidity sensor 9, the pH sensor 10 and the dissolved oxygen sensor 11 are all in threaded connection with the sealing cover 5, so that the damaged corresponding sensors can be replaced and maintained conveniently.

As a preferred embodiment, the outer side of the sealing cover 5 is fixedly provided with a limiting piece 12, both sides of the opening of the sewage tank 4 are provided with a stress groove 13, and the limiting piece 12 covers the upper side of the stress groove 13.

As shown in fig. 1-3: the limiting piece 12 covers the upper side of the stress groove 13, so that the sealing cover 5 can be conveniently detached from the opening of the sewage tank 4 through the limiting piece 12;

the setting of atress groove 13, the hand is as for the inside of atress groove 13, is convenient for carry out the atress to the bottom of spacing piece 12, takes out work with spacing piece 12 and sealed lid 5 on sewage case 4.

As a preferred embodiment, the bottom surface of the limiting piece 12 is adhered with the fixed sealing gasket 15, the sealing gasket 15 covers the opening surface of the sewage tank 4, and the space between the limiting piece 12 and the sewage tank 4 is sealed through the sealing gasket 15.

The spacing block 12 and the sewage tank 4 are sealed by the sealing gasket 15, so that the tightness of the sewage tank 4 can be ensured.

As a preferred embodiment, the detection ends of the bottoms of the corrosion rate sensor 8, the turbidity sensor 9, the pH sensor 10 and the dissolved oxygen sensor 11 are respectively inserted into sewage in the sewage tank 4, the corrosion rate sensor 8 is S-CORR-A1L, the turbidity sensor 9 is S-TUB-B1L, the pH sensor 10 is S-PH-A1LT, and the dissolved oxygen sensor 11 is S-DO-B1LT.

As shown in fig. 1: the detection ends of the bottoms of the corrosion rate sensor 8, the turbidity sensor 9, the pH sensor 10 and the dissolved oxygen sensor 11 are respectively inserted into the sewage in the sewage tank 4, so that the sewage in the sewage tank 4 can be detected, and the corrosion rate sensor 8, the turbidity sensor 9, the pH sensor 10 and the dissolved oxygen sensor 11 can be directly purchased in the market.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a pollution source monitoring device, includes monitoring case (1), its characterized in that: the sewage treatment device is characterized in that a sewage tank (4) is fixedly installed in the monitoring tank (1), a pollution source inlet pipe (2) is installed on one side of the bottom of the sewage tank (4), a pollution source outlet pipe (3) is installed on the other side of the bottom of the sewage tank (4), valves are installed on the pollution source outlet pipe (3) and the pollution source inlet pipe (2), a sealing cover (5) is covered on the surface of the sewage tank (4), a corrosion rate sensor (8), a turbidity sensor (9), a pH sensor (10) and a dissolved oxygen sensor (11) are respectively installed on the sealing cover (5), a window (16) is installed on the outer side of the monitoring tank (1), and a rectangular window (16) is arranged opposite to the fixed frame (7);

the inside upside of monitoring case (1) is fixed to be set up the mounting panel, and fixed frame (7) spiro union is on the mounting panel, and the inside of fixed frame (7) is inlayed and is installed display minute screen (6) simultaneously.

2. A pollution source monitoring device as set forth in claim 1, wherein: four groups of display sub-screens (6) are respectively arranged in the fixing frame (7), and the four groups of display sub-screens (6) are respectively electrically connected with the corrosion rate sensor (8), the turbidity sensor (9), the pH sensor (10) and the dissolved oxygen sensor (11).

3. A pollution source monitoring device as set forth in claim 1, wherein: the corrosion rate sensor (8), the turbidity sensor (9), the pH sensor (10) and the dissolved oxygen sensor (11) are all in threaded connection with the sealing cover (5), and the four groups of sensors are respectively inserted and fixed into the sealing cover (5) and are uniformly provided with four groups of positioning mounting holes (14).

4. A pollution source monitoring device as set forth in claim 1, wherein: the outside of sealed lid (5) fixed mounting spacing piece (12), and atress groove (13) are all offered to the opening both sides of sewage case (4), and spacing piece (12) cover in the upside of atress groove (13) simultaneously.

5. A pollution source monitoring device as in claim 4, wherein: the bottom surface of the limiting piece (12) is adhered with the fixed sealing gasket (15), the sealing gasket (15) covers the opening surface of the sewage tank (4), and meanwhile, the space between the limiting piece (12) and the sewage tank (4) is sealed through the sealing gasket (15).

6. A pollution source monitoring device as set forth in claim 1, wherein: the corrosion rate sensor (8), the turbidity sensor (9), the pH sensor (10) and the detection end at the bottom of the dissolved oxygen sensor (11) are respectively inserted into sewage in the sewage tank (4), the model of the corrosion rate sensor (8) is S-CORR-A1L, the model of the turbidity sensor (9) is S-TUB-B1L, the model of the pH sensor (10) is S-PH-A1LT, and the model of the dissolved oxygen sensor (11) is S-DO-B1LT.