CN209835680U - Industrial wastewater operation management system - Google Patents

Abstract

The utility model discloses an industrial wastewater operation management system, which comprises a sampling pipe, an electric valve, a collecting pipe, a vacuum pump, a cleaning water pump, a liquid discharge water pump, a liquid containing tank, a liquid accumulation tank, a data collector, a liquid level sensor, a sampling pipe, an air on-off electric valve and a cleaning electric valve; the sampling pipe is the multiunit respectively with the pressure manifold intercommunication, sets up the motorised valve on every group sampling pipe, washs the water pump through wasing motorised valve and pressure manifold intercommunication, pressure manifold and appearance fluid reservoir intercommunication, and air break-make motorised valve is located the top of holding the fluid reservoir, holds the external vacuum pump of fluid reservoir, holds the inside of fluid reservoir and sets up data collection station and level sensor, and the hydrops pond is located the outside of holding the fluid reservoir to with flowing back water pump intercommunication, the outside or the bottom of holding the fluid reservoir set up the sampling pipe. The utility model has the advantages that the whole structure is simple, the utility model can be used in industrial park, and the collection and the management of waste water are convenient.

Description

Industrial wastewater operation management system

Technical Field

The utility model relates to an industrial waste water management field, specifically industrial waste water operation management system.

Background

In industrial parks, there are a variety of waste waters produced; in daily management, the wastewater needs to be collected, analyzed and treated; at present, a related system for operating and managing industrial wastewater is lacked; so this patent provides a system to industrial park waste water operation management here, improves the collection to waste water.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above insufficiency, the utility model provides an industrial waste water operation management system herein is convenient for to the collection of waste water to can cooperate control system to realize high-efficient management.

The utility model discloses a realize like this, construct an industrial waste water operation management system, its characterized in that: the system comprises a sampling pipe, an electric valve, a collecting pipe, a vacuum pump, a cleaning water pump, a liquid discharge water pump, a liquid containing tank, a liquid accumulation tank, a data collector, a liquid level sensor, a sampling pipe, an air on-off electric valve and a cleaning electric valve; the sampling pipe is the multiunit respectively with the pressure manifold intercommunication, sets up the motorised valve on every group sampling pipe, washs the water pump through wasing motorised valve and pressure manifold intercommunication, pressure manifold and appearance fluid reservoir intercommunication, and air break-make motorised valve is located the top of holding the fluid reservoir, holds the external vacuum pump of fluid reservoir, holds the inside of fluid reservoir and sets up data collection station and level sensor, and the hydrops pond is located the outside of holding the fluid reservoir to with flowing back water pump intercommunication, the outside or the bottom of holding the fluid reservoir set up the sampling pipe.

The utility model has the advantages of as follows: the patent provides an industrial wastewater operation management system, which comprises a sampling pipe, an electric valve, a collecting pipe, a vacuum pump, a cleaning water pump, a liquid discharge water pump, a liquid containing tank, a liquid accumulation tank, a data acquisition unit, a liquid level sensor, a sampling pipe, an air on-off electric valve and a cleaning electric valve;

and (3) running: (1) and opening the liquid discharge electric valve, opening the air on-off electric valve at the top of the liquid containing tank, opening the cleaning electric valve, and discharging the wastewater in the liquid containing tank. (2) And starting the cleaning water pump to clean the pipeline and the liquid containing tank. (3) And opening an electric valve on the collecting pipe corresponding to the waste water to be collected. (4) And closing the air on-off electric valve at the top of the liquid containing tank, closing the cleaning water pump, closing the cleaning electric valve and closing the liquid discharge electric valve. And selecting a sampling channel, starting a vacuum pump, and sending the sampled wastewater into a liquid containing tank. (5) And a certain amount of sampling wastewater is injected into the liquid containing tank. (6) And the data acquisition unit is used for acquiring data of the sample wastewater. If necessary, a sample withdrawal is performed at the sampling tube. (7) And (4) starting a liquid discharge water pump according to actual conditions, and conveying the wastewater in the liquid accumulation pool to a designated place. The utility model has the advantages that the whole structure is simple, can use in industrial park, is convenient for to the collection of waste water to can cooperate control system to realize high-efficient management.

Drawings

Fig. 1 is a schematic diagram of an implementation structure of the patented system.

Wherein: the device comprises a sampling pipe 1, an electric valve 2, a collecting pipe 3, a vacuum pump 4, a cleaning water pump 5, a liquid drainage water pump 6, a liquid containing tank 7, a liquid accumulation tank 8, a data acquisition unit 9, a liquid level sensor 10, a sampling pipe 11, an air on-off electric valve 12 and a cleaning electric valve 13.

Detailed Description

The present invention will be described in detail with reference to the accompanying fig. 1, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides an industrial wastewater operation management system through improvement, as shown in figure 1, which can be implemented as follows; the system comprises a sampling pipe 1, an electric valve 2, a collecting pipe 3, a vacuum pump 4, a cleaning water pump 5, a liquid discharge water pump 6, a liquid containing tank 7, a liquid accumulation tank 8, a data acquisition device 9, a liquid level sensor 10, a sampling pipe 11, an air on-off electric valve 12 and a cleaning electric valve 13; sampling pipe 1 is the multiunit respectively with 3 intercommunications of pressure manifold, set up motorised valve 2 on every group sampling pipe 1, wash water pump 5 through wasing motorised valve 13 and 3 intercommunications of pressure manifold, pressure manifold 3 with hold fluid reservoir 7 intercommunication, air break-make motorised valve 12 is located the top of holding fluid reservoir 7, hold external vacuum pump 4 of fluid reservoir 7, the inside of holding fluid reservoir 7 sets up data collection station 9 and level sensor 10, long-pending liquid pool 8 is located the outside of holding fluid reservoir 7, and with flowing back water pump 6 intercommunication, the outside or the bottom of holding fluid reservoir 7 set up sampling pipe 11.

The component composition and function of the system are explained in detail below;

sampling tube 1: the sampling pipe has a plurality ofly, mainly samples the waste water of different grade type, through the sampling pipe, sends the sample into and holds fluid reservoir 7.

Electric valve 2: controlling the on-off of the pipeline.

Header 3: the outlet sides of the electric valves 2 are collected, and a vacuum pump is matched to form negative pressure so as to sample and suck the required wastewater.

And (4) vacuum pump: and providing power to enable the space formed by the electric valve on the sampling pipeline to the vacuum pump to form negative pressure.

And (5) cleaning the water pump: and injecting clear water into the pipeline to clean the pipeline.

And (6) a liquid drainage water pump: and providing power to convey the wastewater in the liquid accumulation tank to a designated place.

A liquid containing tank 7: the sampled wastewater is collected, and a plurality of data collectors 9 arranged at the bottom of the sampled wastewater can collect the sampled wastewater.

And (4) a liquid accumulation tank 8: and waste water discharged from the liquid containing tank is contained.

The data acquisition unit 9: and a plurality of data collectors are used for collecting the data of the wastewater samples and uploading the data to an external controller.

The liquid level sensor 10: and monitoring the liquid level in the liquid containing tank.

Sampling tube 11: and extracting a wastewater sample for sampling analysis.

The working principle is as follows:

(1) and the liquid discharge electric valve is opened, the air on-off electric valve 12 at the top of the liquid containing tank 7 is opened, the cleaning electric valve is opened, and the waste water in the liquid containing tank is drained.

(2) And starting the cleaning water pump to clean the pipeline and the liquid containing tank.

(3) And opening an electric valve on the collecting pipe corresponding to the waste water to be collected.

(4) And closing the air on-off electric valve at the top of the liquid containing tank, closing the cleaning water pump, closing the cleaning electric valve and closing the liquid discharge electric valve. And selecting a sampling channel, starting a vacuum pump, and sending the sampled wastewater into a liquid containing tank.

(5) And a certain amount of sampling wastewater is injected into the liquid containing tank.

(6) And the data acquisition unit is used for acquiring data of the sample wastewater. If necessary, a sample withdrawal is performed at the sampling tube.

(7) And (4) starting a liquid discharge water pump according to actual conditions, and conveying the wastewater in the liquid accumulation pool to a designated place.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (1)

1. An industrial wastewater operation management system is characterized in that: the system comprises a sampling pipe (1), an electric valve (2), a collecting pipe (3), a vacuum pump (4), a cleaning water pump (5), a liquid discharge water pump (6), a liquid containing tank (7), a liquid accumulation pool (8), a data collector (9), a liquid level sensor (10), a sampling pipe (11), an air on-off electric valve (12) and a cleaning electric valve (13); sampling pipe (1) is the multiunit respectively with pressure manifold (3) intercommunication, set up motorised valve (2) on every group sampling pipe (1), wash water pump (5) through wasing motorised valve (13) and pressure manifold (3) intercommunication, pressure manifold (3) and appearance fluid reservoir (7) intercommunication, air break-make motorised valve (12) are located the top of appearance fluid reservoir (7), hold external vacuum pump (4) of fluid reservoir (7), the inside of appearance fluid reservoir (7) sets up data collection station (9) and level sensor (10), hydrops pond (8) are located the outside of appearance fluid reservoir (7), and communicate with flowing back water pump (6), the outside or the bottom of appearance fluid reservoir (7) set up sampling tube (11).