CN107544368B - Sewage treatment monitoring system for air floatation machine - Google Patents

Abstract

The invention discloses a sewage treatment monitoring system for an air floatation machine, and belongs to the technical field of air floatation machines. The method comprises a data acquisition system: the monitoring device is used for monitoring the working process of the air floatation machine; a data processing system: the data acquisition system is used for analyzing and processing the data acquired by the data acquisition system; a terminal: for receiving data processed by the data processing system; an air floatation machine: the device is used for treating sewage; the data acquisition system comprises a sensor group and a video acquisition unit; the air floating machine comprises a flow control valve and an illumination unit; the terminal comprises a display module and an alarm module; the sensor group is sequentially connected with the data processing system and the flow control valve through the data transmission module; the sensor group is sequentially connected with the data processing system and the alarm module through the data transmission module. The invention is convenient to monitor the working state of the air flotation machine by installing the sludge concentration meter, the water inlet flow meter, the water outlet flow meter, the capacitive sensor and the video acquisition unit on the air flotation machine.

Description

Sewage treatment monitoring system for air floatation machine

Technical Field

The invention belongs to the technical field of air flotation machines, and particularly relates to a sewage treatment monitoring system for an air flotation machine.

Background

The air floating machine is water treatment equipment which generates a large amount of micro bubbles in water by an air dissolving system, leads air to be attached to suspended particles in a highly dispersed micro bubble form to cause the state that the density is less than that of the water, and leads the air to float on the water surface by utilizing the buoyancy principle, thereby realizing solid-liquid separation. The air flotation machine is divided into a super-efficient shallow air flotation machine, a cavitation air flotation machine and a horizontal flow type air flotation machine. The air flotation machine is applied to the aspects of water supply, industrial wastewater and urban sewage treatment. The air floating machine has the advantages of low investment, small floor area, high automation degree, convenient operation and management, etc. At present, the existing air floatation machine is inconvenient to monitor the internal environment during the sewage treatment process, the sewage treatment process of the air floatation machine is difficult to know, the working state of the air floatation machine needs to be checked manually on time, and manpower and material resources are consumed.

Disclosure of Invention

The invention aims to provide a sewage treatment monitoring system for an air flotation machine, which is convenient for monitoring the working state of the air flotation machine by arranging a sludge concentration meter, a water inlet flow meter, a water outlet flow meter, a capacitive sensor and a video acquisition unit on the air flotation machine.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a sewage treatment monitoring system for an air floatation machine, which comprises a data acquisition system: the monitoring device is used for monitoring the working process of the air floatation machine; a data processing system: the data acquisition system is used for analyzing and processing the data acquired by the data acquisition system; a terminal: for receiving data processed by the data processing system; an air floatation machine: the device is used for treating sewage; the data acquisition system comprises a sensor group and a video acquisition unit; the air floating machine comprises a flow control valve and an illumination unit; the terminal comprises a display module and an alarm module; the sensor group is sequentially connected with the data processing system and the flow control valve through the data transmission module; the sensor group is sequentially connected with the data processing system and the alarm module through the data transmission module; the video acquisition system is sequentially connected with the data processing system and the display module through the data transmission module; the video acquisition system is sequentially connected with the data processing system and the cloud storage through the data transmission module; the cloud storage is used for storing the monitoring video data collected by the video collecting unit.

Further, the sensor group includes: a sludge concentration meter: the sludge collecting tank is arranged at the bottom of the air flotation machine and is used for monitoring the sludge concentration in the collecting tank; a water inlet flow meter: the water inlet is arranged on the water inlet of the air floatation machine and is used for monitoring the water amount entering the air floatation machine in unit time; and (4) water outlet flow meter: the water outlet is arranged on the water outlet of the air floatation machine and is used for monitoring the water quantity discharged by the air floatation machine in unit time; a capacitive sensor: and the floater collecting device is arranged in the floater collecting device of the floater salvaging device of the air floatation machine and is used for monitoring the volume of the floaters in the floater collecting device.

Furthermore, the video acquisition unit comprises a PZT camera for monitoring the external working environment of the air floatation machine.

Further, the data processing system includes: the microprocessor a: the cloud storage and display module is used for processing the video data acquired by the video acquisition unit and then respectively transmitting the processed video data to the cloud storage and display module through the data transmission module; and the microprocessor b: the monitoring data processing device is used for processing the monitoring data collected by the sensor group and then respectively transmitting the processed monitoring data to the alarm module and the flow control valve through the data transmission module.

Further, the flow control valve includes: water inflow control valve: is arranged on the water inlet of the air floatation machine and is used for controlling the water quantity entering the air floatation machine in unit time; and (3) water outlet flow control valve: is arranged on the water outlet of the air floatation machine and is used for controlling the water quantity discharged by the air floatation machine in unit time.

Further, the lighting unit is powered by a solar power supply system, and the lighting unit is used for lighting the air flotation machine.

The invention has the following beneficial effects:

the sludge concentration meter, the water inlet flow meter, the water outlet flow meter, the capacitive sensor and the video acquisition unit are arranged on the air floatation machine, so that the working state of the air floatation machine can be conveniently monitored; meanwhile, the arrangement of the water inlet flow control valve and the water outlet flow control valve facilitates the control of the water flow rate of the air flotation machine, so as to prevent the sewage from flowing out of the air flotation machine due to too low water level in the air flotation machine or the sewage from overflowing out of the air flotation machine due to too high water level in the air flotation machine.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a logical framework structure of a sewage treatment monitoring system for an air floatation machine according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention is a sewage treatment monitoring system for an air flotation machine, including a data acquisition system: the monitoring device is used for monitoring the working process of the air floatation machine; a data processing system: the data acquisition system is used for analyzing and processing the data acquired by the data acquisition system; a terminal: for receiving data processed by the data processing system; an air floatation machine: the device is used for treating sewage; the data acquisition system comprises a sensor group and a video acquisition unit; the air floating machine comprises a flow control valve and an illumination unit; the terminal comprises a display module and an alarm module; the sensor group is sequentially connected with the data processing system and the flow control valve through the data transmission module; the sensor group is sequentially connected with the data processing system and the alarm module through the data transmission module; the video acquisition system is sequentially connected with the data processing system and the display module through the data transmission module; the video acquisition system is sequentially connected with the data processing system and the cloud storage through the data transmission module; the cloud storage is used for storing the monitoring video data collected by the video collecting unit.

Wherein, the sensor group includes: a sludge concentration meter: the sludge collecting tank is arranged at the bottom of the air flotation machine and is used for monitoring the sludge concentration in the collecting tank; a water inlet flow meter: the water inlet is arranged on the water inlet of the air floatation machine and is used for monitoring the water amount entering the air floatation machine in unit time; and (4) water outlet flow meter: the water outlet is arranged on the water outlet of the air floatation machine and is used for monitoring the water quantity discharged by the air floatation machine in unit time; a capacitive sensor: and the floater collecting device is arranged in the floater collecting device of the floater salvaging device of the air floatation machine and is used for monitoring the volume of the floaters in the floater collecting device.

The video acquisition unit comprises a PZT camera and is used for monitoring the external working environment of the air floatation machine.

Wherein the data processing system comprises: the microprocessor a: the cloud storage and display module is used for processing the video data acquired by the video acquisition unit and then respectively transmitting the processed video data to the cloud storage and display module through the data transmission module; and the microprocessor b: the monitoring data processing device is used for processing the monitoring data collected by the sensor group and then respectively transmitting the processed monitoring data to the alarm module and the flow control valve through the data transmission module.

Wherein, flow control valve includes: water inflow control valve: is arranged on the water inlet of the air floatation machine and is used for controlling the water quantity entering the air floatation machine in unit time; and (3) water outlet flow control valve: is arranged on the water outlet of the air floatation machine and is used for controlling the water quantity discharged by the air floatation machine in unit time.

The lighting unit is powered by a solar power supply system and is used for lighting the air flotation machine.

One specific application of this embodiment is: the microprocessor b compares the water inflow of the air flotation machine in unit time monitored by the water inflow flowmeter with the water outflow of the air flotation machine in unit time monitored by the water outflow flowmeter, and respectively controls the water inflow flow control valve and the water outflow flow control valve according to a comparison structure so as to achieve the purpose that the water inflow and the water outflow of the air flotation machine are the same or similar;

and the microprocessor b analyzes and processes the data monitored by the sludge concentration meter and the capacitance sensor, and sends a signal to the alarm module when the sludge concentration or the volume of the floating objects exceeds a set value, and meanwhile, the alarm module starts to give an alarm.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. A sewage treatment monitoring system for an air floatation machine comprises a data acquisition system, a data processing system, a terminal and the air floatation machine, wherein the data acquisition system comprises a sensor group and a video acquisition unit; the air floating machine comprises a flow control valve and an illumination unit; the terminal comprises a display module and an alarm module, and the sensor group is sequentially connected with the data processing system and the flow control valve through the data transmission module; the sensor group is sequentially connected with the data processing system and the alarm module through the data transmission module; the video acquisition system is sequentially connected with the data processing system and the display module through the data transmission module; the video acquisition system is connected with the data processing system and the cloud storage in sequence through the data transmission module, and is characterized in that:

a data acquisition system: the monitoring device is used for monitoring the working process of the air floatation machine;

a data processing system: the data acquisition system is used for analyzing and processing the data acquired by the data acquisition system;

a terminal: for receiving data processed by the data processing system;

an air floatation machine: the method is used for treating sewage.

2. The sewage treatment monitoring system for an air flotation machine according to claim 1, wherein the sensor group comprises:

a sludge concentration meter: the sludge collecting tank is arranged at the bottom of the air flotation machine and is used for monitoring the sludge concentration in the collecting tank;

a water inlet flow meter: the water inlet is arranged on the water inlet of the air floatation machine and is used for monitoring the water amount entering the air floatation machine in unit time;

and (4) water outlet flow meter: the water outlet is arranged on the water outlet of the air floatation machine and is used for monitoring the water quantity discharged by the air floatation machine in unit time;

a capacitive sensor: and the floater collecting device is arranged in the floater collecting device of the floater salvaging device of the air floatation machine and is used for monitoring the volume of the floaters in the floater collecting device.

3. The sewage treatment monitoring system for the air-floating machine as claimed in claim 1, wherein the video acquisition unit comprises a PZT camera for monitoring an external working environment of the air-floating machine.

4. The sewage treatment monitoring system for an air flotation machine as claimed in claim 1, wherein the data processing system comprises:

the microprocessor a: the cloud storage and display module is used for processing the video data acquired by the video acquisition unit and then respectively transmitting the processed video data to the cloud storage and display module through the data transmission module;

and the microprocessor b: the monitoring data processing device is used for processing the monitoring data collected by the sensor group and then respectively transmitting the processed monitoring data to the alarm module and the flow control valve through the data transmission module.

5. The sewage treatment monitoring system for an air flotation machine according to claim 1, wherein the flow control valve comprises:

water inflow control valve: is arranged on the water inlet of the air floatation machine and is used for controlling the water quantity entering the air floatation machine in unit time;

and (3) water outlet flow control valve: is arranged on the water outlet of the air floatation machine and is used for controlling the water quantity discharged by the air floatation machine in unit time.

6. The sewage treatment monitoring system for the air flotation machine as claimed in claim 1, wherein the illumination unit is powered by a solar power supply system, and is used for illuminating the air flotation machine.

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