CN111056686A - Full-automatic control system for treating automobile production wastewater - Google Patents

Abstract

The invention relates to a full-automatic control system for treating automobile production wastewater, which comprises a control system, an equipment system and an alarm system, wherein the control system comprises a control system, a control system and a control system; the control system is respectively in communication connection with the equipment system and the alarm system; the equipment system comprises a regulating pond system, a reaction tank system, a settling tank system, a reverse regulating tank system, an intermediate pond system, an SBR pond system and a dosing system. The sewage treatment of the technical scheme mainly comprises the steps of adding chemicals for physicochemical treatment, aerating for biochemical treatment, and regularly discharging and pressing sludge, the invention monitors the liquid level, the water quality and the like in real time through various sensors, is linked with corresponding equipment, sets corresponding values, and realizes full-automatic chemical adding, stirring, aerating and sludge discharging according to different water qualities; the full-automatic operation of sewage treatment is realized, the operation is effective and reliable, only one operator needs to be arranged during normal operation, and the labor cost is greatly reduced.

Description

Full-automatic control system for treating automobile production wastewater

Technical Field

The invention belongs to the technical field of environmental protection industry, and particularly relates to a full-automatic control system for treating automobile production wastewater.

Background

With the increasing importance of the society on environmental protection and the rising of labor cost, the automatic treatment of the automobile production wastewater is the development trend. The current control mode is mainly an automatic and manual combination mode, wherein the dosage is controlled to be a manual mode, the concentration of the source water pollutants is tested by manual sampling, and the dosage is adjusted; the sludge discharge is manually operated; the aeration fan is controlled to be operated manually, and the air quantity can not be adjusted.

The manual operation is greatly influenced by subjective factors, the treatment effect and efficiency cannot be guaranteed, the labor cost is high, and the long-term consideration of the operation of the sewage station is not facilitated. The existing liquid level meter is generally divided into a low level, a medium level and a high level, a medium liquid level water pump runs, a high liquid level alarms, and the low liquid level stops. However, the low liquid level alarm is lacked, and the motor of the water pump is easily burnt out under the condition that the low liquid level water pump stops failure.

Disclosure of Invention

The invention aims to provide a full-automatic control system for treating automobile production wastewater, which aims to solve the problem that the wastewater treatment in the prior art cannot be effectively controlled and alarmed in time.

The invention is realized by the following technical scheme:

a full-automatic system for treating automobile production wastewater comprises a control system, an equipment system and an alarm system; the control system is respectively in communication connection with the equipment system and the alarm system;

the equipment system comprises a regulating tank system, a reaction tank system, a settling tank system, a reverse regulating tank system, an intermediate water tank system, an SBR tank system and a dosing system;

the regulating pond system comprises a regulating pond, a first ultrasonic liquid level meter, a first flow impeller, a first lift pump, an online monitor and a flowmeter;

the first ultrasonic liquid level meter, the first flow pusher, the first lifting pump, the online monitor and the flow meter are all arranged in the regulating tank;

the reaction tank system comprises a reaction tank, a first pH on-line monitor and a first stirrer; the first pH on-line monitor and the first stirrer are both arranged in the reaction tank; the water outlet of the first lift pump is connected with the water inlet of the reaction tank;

the settling tank system comprises a settling tank, a screw conveyor and a pressure sensor; the spiral conveyer and the pressure sensor are both arranged in the precipitation tank, and a water outlet of the reaction tank is connected with a water inlet of the precipitation tank through a pipeline;

the reverse adjusting tank system comprises a reverse adjusting tank, a second pH on-line monitor and a second stirrer, the second pH on-line monitor and the second stirrer are arranged in the reverse adjusting tank, and a water outlet of the settling tank is connected with a water inlet of the reverse adjusting tank;

the middle water tank system comprises a middle water tank, a second ultrasonic liquid level meter and a second lifting pump; the second ultrasonic liquid level meter and the second lifting pump are arranged in the intermediate water pool, and a water outlet of the reverse regulation groove is connected with a water inlet of the intermediate water pool through a pipeline;

the SBR pool system comprises an SBR pool, a third ultrasonic liquid level meter, an aeration fan, a second flow impeller, a decanter and an online dissolved oxygen instrument; the third ultrasonic liquid level meter, the aeration fan, the second flow pusher, the decanter and the online dissolved oxygen meter are all arranged in the SBR tank, and a water outlet of the second lift pump is connected with a water inlet of the SBR tank through a pipeline;

the medicine adding system comprises a medicine dissolving tank, a medicine adding tank, a liquid level meter, a third stirrer and a medicine adding pump; the outlet of the medicine dissolving tank is connected with the inlet of the medicine feeding tank; a third stirrer is arranged in the medicine dissolving tank;

the inlet of the dosing pump is connected with the outlet of the dosing tank through a pipeline; the outlet of the drug adding pump is connected with the reaction tank or the reverse regulation tank through a pipeline;

the first ultrasonic liquid level meter, the online monitor, the flowmeter, the first pH online monitor, the pressure sensor, the second pH online monitor, the second ultrasonic liquid level meter, the third ultrasonic liquid level meter, the online dissolved oxygen meter and the liquid level meter are respectively in communication connection with an input port of the control system;

the control switch of the first flow impeller, the control switch of the first lifting pump, the control switch of the first stirrer, the control switch of the screw conveyer, the control switch of the second stirrer, the control switch of the second lifting pump, the control switch of the aeration fan, the control switch of the second flow impeller, the control switch of the decanter, the control switch of the third stirrer and the control switch of the chemical feeding pump are respectively in communication connection with an output port of the control system.

The equipment system also comprises a sludge treatment system which comprises a sludge concentration tank, a sludge filter press, a fourth ultrasonic liquid level meter, a sludge lifting pump and a supernatant overflow port electromagnetic valve;

the fourth ultrasonic liquid level meter, the sludge lifting pump and the supernatant overflow port electromagnetic valve are all arranged in the sludge concentration tank, a sludge discharge port of the sedimentation tank is connected with an inlet of the sludge concentration tank through a pipeline, and an outlet of the sludge lifting pump is connected with an inlet of the sludge filter press through a pipeline;

the outlet of the dosing pump is connected with the sludge concentration tank through a pipeline;

the fourth ultrasonic liquid level meter is in communication connection with the input port of the control system;

and the control switch of the sludge filter press, the control switch of the sludge lifting pump and the control switch of the electromagnetic valve of the supernatant overflow port are all in communication connection with the output port of the control system.

The on-line monitor at least comprises one, two or more than two of a COD on-line monitor, a total phosphorus on-line monitor or a heavy metal on-line monitor.

The control system is a programmable control system.

A method for controlling the treatment of the automobile production wastewater, which uses any one of the automatic systems for the treatment of the automobile production wastewater;

the first ultrasonic liquid level meter respectively transmits a detected water level signal in the regulating reservoir, a detected water quality signal in the regulating reservoir detected by the online monitor and a detected flow signal of wastewater entering the regulating reservoir to the control system;

the control system simultaneously outputs control signals to a control switch of the first lifting pump and a control switch of the first flow pusher according to the received water level signal, flow signal and water quality signal and a set program, and/or sends an alarm signal to an alarm system;

meanwhile, the control system outputs the control signals to the first stirrer control switch, the second stirrer control switch, the third stirrer control switch and the dosing pump control switch;

the first pH on-line monitor is used for detecting pH signals in the reaction tank, the second pH on-line monitor is used for respectively transmitting the detected pH signals in the reverse regulation tank to the control system, the control system outputs an acid-base control system to a control switch of an acid-base dosing pump in the dosing system through calculation, and the acid-base dosing pump is controlled to add acid or base into the reaction tank and the reverse regulation tank so as to control the pH value range in the reaction tank and the pH value range in the reverse regulation tank;

the pressure sensor transmits a pressure signal to the control system, and when the pressure signal reaches a set value, the control system outputs a starting signal to a control switch of the screw conveyor;

the second ultrasonic liquid level meter transmits a water level signal of an instant intermediate water pool to the control system, and the control system transmits a starting signal to a control switch of the second lifting water pump according to a set program and simultaneously and/or transmits an alarm signal to the alarm system;

and the third ultrasonic liquid level meter transmits a water level signal of the instant SBR pool to the control system, and the control system transmits a starting signal to the control switch of the aeration fan and the control switch of the second flow pusher according to a set program or outputs a starting signal to the control switch of the decanter under the condition that the aeration fan and the second flow pusher stop.

The first ultrasonic liquid level meter and the second ultrasonic liquid level meter are provided with four liquid level signals of low, high and high.

And the online dissolved oxygen instrument sends an instant detection signal to the control system, and the control system outputs a control signal to a control switch of the aeration fan according to a set dissolved oxygen range.

The control signals comprise a starting signal, an accelerating signal, a decelerating signal and a stopping signal.

The fourth ultrasonic liquid level meter instantly transmits a detected liquid level signal in the sludge concentration tank to the control system, the control system outputs a stop signal to a control switch of the screw conveyor according to a set program, outputs a start signal to the dosing pump, outputs an opening or stop signal to a control switch of the supernatant overflow port electromagnetic valve, and outputs start signals to a control switch of the sludge lifting pump and a control switch of the sludge filter press while outputting the stop signal to the control switch of the supernatant overflow port electromagnetic valve.

The invention has the beneficial effects that:

the sewage treatment of the technical scheme mainly comprises the steps of adding chemicals for physicochemical treatment, aerating for biochemical treatment, and regularly discharging and pressing sludge.

The invention realizes the full-automatic operation of sewage treatment, is effective and reliable, only needs to set one operator in normal operation, and greatly reduces the labor cost.

Detailed Description

The technical solutions of the present invention are described in detail below by examples, and the following examples are only exemplary and can be used only for explaining and explaining the technical solutions of the present invention, but not construed as limiting the technical solutions of the present invention.

The application provides a full-automatic system for treating automobile production wastewater, which comprises a control system, an equipment system and an alarm system; the control system is respectively in communication connection with the equipment system and the alarm system.

In the application, the control system is a programmable control system, and the main functions are signal acquisition and processing, system parameter setting, process control and equipment interlocking control. All equipment parameters are displayed on the industrial control picture in real time, and fault information, alarm information, production state information and the like can be retrieved. The control system in the application can be used by common computers, single-chip microcomputers, industrial personal computers and other systems capable of realizing the control function of the application, and detailed description is omitted here.

In order to realize the automation of sewage treatment, various indexes influencing the operation of equipment are digitalized, for example, the dosage is determined to be a water quality parameter, the air quantity of an aeration fan is influenced to be an oxygen dissolving value in water, the sludge discharge period is determined to be a sludge deposition effect, information is acquired through a corresponding detection instrument to transmit information, and the terminal equipment is controlled through a PLC.

The equipment system comprises a regulating pond system, a reaction tank system, a settling tank system, a reverse regulating tank system, an intermediate pond system, an SBR pond system, a dosing system and a sludge treatment system.

The regulating pond system comprises a regulating pond, a first ultrasonic liquid level meter, a first flow impeller, a first lift pump, an online monitor and a flowmeter; in this embodiment, the on-line monitor includes at least one, two or more of a COD on-line monitor, a total phosphorus on-line monitor, or a heavy metal on-line monitor.

First ultrasonic wave level gauge, first impeller, first elevator pump, on-line monitoring appearance and flowmeter all set up in the equalizing basin. In this application, the first lift pump is one-use-one-standby, and the control switch is interlocked, and when one fails, the other automatically starts at the same time.

The reaction tank system comprises a reaction tank, a first pH on-line monitor and a first stirrer; the first pH on-line monitor and the first stirrer are both arranged in the reaction tank; the water outlet of the first lift pump is connected with the water inlet of the reaction tank.

The settling tank system comprises a settling tank, a screw conveyor and a pressure sensor; the screw conveyer and the pressure sensor are both arranged in the precipitation tank, and the water outlet of the reaction tank is connected with the water inlet of the precipitation tank through a pipeline.

The reverse adjusting tank system comprises a reverse adjusting tank, a second pH on-line monitor and a second stirrer, wherein the second pH on-line monitor and the second stirrer are arranged in the reverse adjusting tank, and a water outlet of the settling tank is connected with a water inlet of the reverse adjusting tank.

The middle water tank system comprises a middle water tank, a second ultrasonic liquid level meter and a second lifting pump; the second ultrasonic liquid level meter and the second lift pump are both arranged in the middle water pool, and the water outlet of the reverse regulation groove is connected with the water inlet of the middle water pool through a pipeline.

The SBR pool system comprises an SBR pool, a third ultrasonic liquid level meter, an aeration fan, a second flow impeller, a decanter and an online dissolved oxygen instrument; the third ultrasonic liquid level meter, the aeration fan, the second flow impeller, the decanter and the online dissolved oxygen meter are all arranged in the SBR tank, and the water outlet of the second lift pump is connected with the water inlet of the SBR tank through a pipeline.

The medicine adding system comprises a medicine dissolving tank, a medicine adding tank, a liquid level meter, a third stirrer and a medicine adding pump; the outlet of the medicine dissolving tank is connected with the inlet of the medicine feeding tank; a third stirrer is arranged in the medicine dissolving tank.

The inlet of the dosing pump is connected with the outlet of the dosing tank through a pipeline; the outlet of the drug-adding pump is connected with the reaction tank or the reverse regulation tank through a pipeline.

In this application, the dosing system may include an acid solution dosing system, an alkali solution dosing system, an aluminum polymer dosing system, an anionic polyacrylamide dosing system, or may further include a sterilization liquid dosing system according to the need of recycling. In any of the above dosing systems, the system comprises a drug dissolving tank, a dosing tank, a liquid level meter, a third stirrer and a dosing pump, and when dosing is performed on the reaction tank system, the reverse regulation tank system, the sludge treatment system and the like, the control system outputs control signals independently to corresponding equipment in each dosing system, that is, the dosing systems can operate independently or partially or completely together.

The level meters in the dosing system select different types of level meters according to different corrosivity and volatility, the lime solution dosing tank is provided with an ultrasonic level meter, the acid storage tank and the acid dosing tank are provided with magnetic turning plate level meters, and PAM, PAC and the like are provided with electrode type level meters.

A medicine supplementing electromagnetic valve is arranged between the medicine dissolving tank and the medicine feeding tank, the signal of the liquid level meter is transmitted to the input end of the control system, when the liquid level is lower than the design value, the control system controls the medicine supplementing electromagnetic valve to be opened to supplement the liquid medicine, and when the liquid level is higher than the design value, the control system controls the medicine supplementing electromagnetic valve to be closed.

The first ultrasonic liquid level meter, the online monitor, the flowmeter, the first pH online monitor, the pressure sensor, the second pH online monitor, the second ultrasonic liquid level meter, the third ultrasonic liquid level meter, the online dissolved oxygen meter and the liquid level meter are respectively in communication connection with the input port of the control system.

The control switch of the first flow impeller, the control switch of the first lifting pump, the control switch of the first stirrer, the control switch of the screw conveyer, the control switch of the second stirrer, the control switch of the second lifting pump, the control switch of the aeration fan, the control switch of the second flow impeller, the control switch of the decanter, the control switch of the third stirrer and the control switch of the dosing pump are respectively in communication connection with the output port of the control system.

The equipment system also comprises a sludge treatment system which comprises a sludge concentration tank, a sludge filter press, a fourth ultrasonic liquid level meter, a sludge lifting pump and a supernatant overflow port electromagnetic valve.

The fourth ultrasonic wave level gauge, the sludge lifting pump and the supernatant overflow port electromagnetic valve are all arranged in the sludge concentration tank, the sludge discharge port of the sedimentation tank is connected with the inlet of the sludge concentration tank through a pipeline, and the outlet of the sludge lifting pump is connected with the inlet of the sludge filter press through a pipeline.

The outlet of the dosing pump is connected with the sludge concentration tank through a pipeline.

And the fourth ultrasonic liquid level meter is in communication connection with the input port of the control system.

And a control switch of the sludge filter press, a control switch of the sludge lifting pump and a control switch of the supernatant overflow port electromagnetic valve are all in communication connection with an output port of the control system.

In the present application, an advanced treatment system may also be included, such as an ion membrane system or a reverse osmosis system, among others. The advanced treatment system mainly comprises filtration and disinfection, wherein the filtration is continuous through operation, and manual operation is not needed except for regular flushing and replacement of a filter material; the disinfection device can also be fully automatically dosed at regular time and quantity, which is not described herein.

The system also comprises a clean water tank system which comprises a clean water tank, an on-line monitor and a drainage pump, wherein the on-line monitor is in communication connection with an input port of the control system, and a control switch of the drainage pump is connected with an output port of the control system. In this application, the on-line monitoring appearance kind among the clean water system is selected according to the pollutant factor that needs control with the relevant country of this industrial waste water and local environmental protection regulation, and the conventionality has COD on-line monitoring appearance, ammonia nitrogen on-line monitoring appearance, total phosphorus on-line monitoring appearance, heavy metal on-line measuring appearance.

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

Claims (9)

1. A full-automatic system for treating automobile production wastewater is characterized by comprising a control system, an equipment system and an alarm system; the control system is respectively in communication connection with the equipment system and the alarm system;

the equipment system comprises a regulating tank system, a reaction tank system, a settling tank system, a reverse regulating tank system, an intermediate water tank system, an SBR tank system and a dosing system;

the regulating pond system comprises a regulating pond, a first ultrasonic liquid level meter, a first flow impeller, a first lift pump, an online monitor and a flowmeter;

the first ultrasonic liquid level meter, the first flow pusher, the first lifting pump, the online monitor and the flow meter are all arranged in the regulating tank;

the reaction tank system comprises a reaction tank, a first pH on-line monitor and a first stirrer; the first pH on-line monitor and the first stirrer are both arranged in the reaction tank; the water outlet of the first lift pump is connected with the water inlet of the reaction tank;

the settling tank system comprises a settling tank, a screw conveyor and a pressure sensor; the spiral conveyer and the pressure sensor are both arranged in the precipitation tank, and a water outlet of the reaction tank is connected with a water inlet of the precipitation tank through a pipeline;

the reverse adjusting tank system comprises a reverse adjusting tank, a second pH on-line monitor and a second stirrer, the second pH on-line monitor and the second stirrer are arranged in the reverse adjusting tank, and a water outlet of the settling tank is connected with a water inlet of the reverse adjusting tank;

the middle water tank system comprises a middle water tank, a second ultrasonic liquid level meter and a second lifting pump; the second ultrasonic liquid level meter and the second lifting pump are arranged in the intermediate water pool, and a water outlet of the reverse adjusting groove is connected with a water inlet of the intermediate water pool through a pipeline;

the SBR pool system comprises an SBR pool, a third ultrasonic liquid level meter, an aeration fan, a second flow impeller, a decanter and an online dissolved oxygen instrument; the third ultrasonic liquid level meter, the aeration fan, the second flow pusher, the decanter and the online dissolved oxygen meter are all arranged in the SBR tank, and a water outlet of the second lift pump is connected with a water inlet of the SBR tank through a pipeline;

the medicine adding system comprises a medicine dissolving tank, a medicine adding tank, a liquid level meter, a third stirrer and a medicine adding pump; the outlet of the medicine dissolving tank is connected with the inlet of the medicine feeding tank; a third stirrer is arranged in the medicine dissolving tank;

the inlet of the dosing pump is connected with the outlet of the dosing tank through a pipeline; the outlet of the drug adding pump is connected with the reaction tank or the reverse regulation tank through a pipeline;

the first ultrasonic liquid level meter, the online monitor, the flowmeter, the first pH online monitor, the pressure sensor, the second pH online monitor, the second ultrasonic liquid level meter, the third ultrasonic liquid level meter, the online dissolved oxygen meter and the liquid level meter are respectively in communication connection with an input port of the control system;

the control switch of the first flow impeller, the control switch of the first lifting pump, the control switch of the first stirrer, the control switch of the screw conveyer, the control switch of the second stirrer, the control switch of the second lifting pump, the control switch of the aeration fan, the control switch of the second flow impeller, the control switch of the decanter, the control switch of the third stirrer and the control switch of the dosing pump are respectively in communication connection with an output port of the control system.

2. The full-automatic system for treating the automobile production wastewater according to claim 1, wherein the equipment system further comprises a sludge treatment system, which comprises a sludge concentration tank, a sludge filter press, a fourth ultrasonic liquid level meter, a sludge lifting pump and a supernatant overflow port electromagnetic valve;

the fourth ultrasonic liquid level meter, the sludge lifting pump and the supernatant overflow port electromagnetic valve are all arranged in the sludge concentration tank, a sludge discharge port of the sedimentation tank is connected with an inlet of the sludge concentration tank through a pipeline, and an outlet of the sludge lifting pump is connected with an inlet of the sludge filter press through a pipeline;

the outlet of the dosing pump is connected with the sludge concentration tank through a pipeline;

the fourth ultrasonic liquid level meter is in communication connection with the input port of the control system;

and the control switch of the sludge filter press, the control switch of the sludge lifting pump and the control switch of the supernatant overflow port electromagnetic valve are all in communication connection with the output port of the control system.

3. The fully automatic system for treating wastewater from automobile production according to claim 1, wherein the on-line monitor comprises at least one, two or more of COD on-line monitor, total phosphorus on-line monitor or heavy metal on-line monitor.

4. The fully automatic system for wastewater treatment in automobile production according to claim 1, wherein the control system is a programmable control system.

5. An automobile production wastewater treatment control method using the fully automatic system for automobile production wastewater treatment of any one of claims 1 to 4; it is characterized in that the preparation method is characterized in that,

the first ultrasonic liquid level meter respectively transmits a detected water level signal in the regulating reservoir, a detected water quality signal in the regulating reservoir detected by the online monitor and a detected flow signal of wastewater entering the regulating reservoir to the control system;

the control system simultaneously outputs control signals to a control switch of the first lifting pump and a control switch of the first flow pusher according to the received water level signal, flow signal and water quality signal and a set program, and/or sends an alarm signal to an alarm system;

meanwhile, the control system outputs the control signals to the first stirrer control switch, the second stirrer control switch, the third stirrer control switch and the dosing pump control switch;

the first pH on-line monitor is used for detecting pH signals in the reaction tank, the second pH on-line monitor is used for respectively transmitting the detected pH signals in the reverse regulation tank to the control system, the control system outputs an acid-base control system to a control switch of an acid-base dosing pump in the dosing system through calculation, and the acid-base dosing pump is controlled to add acid or base into the reaction tank and the reverse regulation tank so as to control the pH value range in the reaction tank and the pH value range in the reverse regulation tank;

the pressure sensor transmits a pressure signal to the control system, and when the pressure signal reaches a set value, the control system outputs a starting signal to a control switch of the screw conveyor;

the second ultrasonic liquid level meter transmits a water level signal of an instant intermediate water pool to the control system, and the control system transmits a starting signal to a control switch of the second lifting water pump according to a set program and simultaneously and/or transmits an alarm signal to the alarm system;

and the third ultrasonic liquid level meter transmits a water level signal of the instant SBR pool to the control system, and the control system transmits a starting signal to the control switch of the aeration fan and the control switch of the second flow pusher according to a set program or outputs a starting signal to the control switch of the decanter under the condition that the aeration fan and the second flow pusher stop.

6. The method for controlling the treatment of wastewater from automobile production according to claim 5, wherein the first ultrasonic level meter and the second ultrasonic level meter are each provided with four level signals of low, high and high.

7. The wastewater treatment control method for automobile production according to claim 5, wherein an on-line dissolved oxygen meter sends an instant detection signal to the control system, and the control system outputs a control signal to a control switch of the aeration fan according to a set dissolved oxygen range.

8. The method according to claim 7, wherein the control signal includes a start signal, an acceleration signal, a deceleration signal, and a stop signal.

9. The method for controlling wastewater treatment in automobile production according to claim 5, wherein the fourth ultrasonic level meter instantly transmits the detected liquid level signal in the sludge concentration tank to the control system, and the control system outputs a stop signal to the control switch of the screw conveyor, outputs a start signal to the dosing pump, outputs an on or stop signal to the control switch of the supernatant overflow port solenoid valve, and outputs a start signal to the control switch of the sludge lift pump and the control switch of the sludge filter press while outputting a stop signal to the control switch of the supernatant overflow port solenoid valve according to a set program.