RU2750166C1 - Device for drinking water and wastewater treatment - Google Patents

Abstract

FIELD: water treatment.

SUBSTANCE: invention relates to devices for processing water and water solutions for drinking and technological water supply, and can also be used in various sectors of the national economy, in particular at facilities that are not able to connect to centralized water treatment systems. The device is equipped with: a hydraulic accumulator, inside which there is a liquid pressure sensor and a shut-off valve, a liquid level sensor located in the chamber for the flow of the cleaned liquid, a supply solenoid valve. The inlet of the supply solenoid valve is connected to the liquid source, and the outlet is connected to the inlet of the primary liquid quality control module. The hydraulic accumulator inlet is located at the outlet of the secondary liquid quality control module. The inlet of the discharge solenoid valve is connected to the first outlet of the accumulator, and the outlet is connected to the consumer. The inlet of the re-treatment circuit solenoid valve is connected to the second outlet of the hydraulic accumulator, and the outlet is connected to the bypass inlet. The bypass outlet is connected to the second inlet of the chamber for the flow of the liquid to be cleaned. The control module, based on data from the primary and secondary liquid quality control modules and, respectively, the liquid level sensor, the liquid pressure sensor, transmits an opening signal to the supply solenoid valve, or the discharge solenoid valve, or the electromagnetic valve of the re-processing circuit, depending on the data received, as well as to the source of high-voltage electric current pulses.

EFFECT: invention makes it possible to provide automated control of technological processes of drinking water and wastewater treatment.

1 cl. 1 dwg

Description

The invention relates to water treatment devices for drinking and process water supply and can be used in various sectors of the national economy, in particular, at facilities that are unable to connect to centralized water treatment systems.

A device for disinfecting water with a high-voltage electric discharge is known, which contains a chamber for treated water, high-voltage and grounded electrodes placed in the chamber, a high-voltage voltage source with a storage capacitor that generates pulses of electric current of constant polarity, a control unit for the frequency of electrical pulses (RF patent No. 224688, IPC C02AF 1/48, publ. Bull. No. 18, 1983).

The disadvantage of the known device is the lack of control over the results of the cleaning being implemented, the ability to quickly change the parameters of the liquid processing modes, the absence of a hydraulic accumulator to create pressure in the system, and the lack of automatic control over the supply and discharge of the processed liquid.

The closest to the proposed device is a device for the preparation of water for drinking and process water supply, containing a liquid quality control module on the inlet and outlet flanges of the chamber, a control module, a bypass, an in-line pump and two electromagnetic valves (RF patent No. 2714065, IPC CO2F 1/48, publ. bull. No. 5, 2019).

The disadvantage of the known device is the presence of a continuous pump, which uncontrollably pumps liquid through the pipe system, which increases energy costs and increases the processing time, the absence of a hydraulic accumulator for the movement of liquid in the system, and the absence of automatic control over the supply and discharge of the processed liquid.

The objective of the present invention is to reduce the cost of processes when performing technological operations for the purification of drinking and waste water, improving the resulting indicators of the quality of purification of liquids, automated control of technological operations for purifying drinking and waste water.

As a result of using the proposed invention, the efficiency and productivity of the process of purification of drinking and waste water is increased, the resulting indicators of the quality of purification of liquids are improved due to the fact that a hydraulic accumulator is used that creates a pressure sufficient for the movement of liquid in the system and the introduction of liquid level and pressure sensors into the system, a signal which is transferred to the control module, which in turn controls the opening and closing of the solenoid valves, this all allows for better control of the process and automation of the control of technological operations for the purification of drinking and waste water.

The above result is achieved by the fact that the proposed device for the purification of drinking and waste water, containing a chamber for the flow of the liquid to be purified, inside which there are one or more pairs of high-voltage electrodes isolated from the pipeline, a control module, a source of high-voltage electric current pulses, liquid control modules, two solenoid valve, bypass, according to the invention, the device is equipped with a hydraulic accumulator with a shut-off valve and a liquid pressure sensor located inside, a liquid level sensor located in the chamber for the flow of the cleaned liquid, a supply solenoid valve, while the input of the supply solenoid valve is connected to the liquid source, and the output from the input of the primary fluid quality control module, the inlet of the accumulator is located at the output of the secondary fluid quality control module, and at the outputs of the accumulator there is a discharge solenoid valve, the input of which is connected it is connected to the first outlet of the accumulator, and the outlet to the consumer, the solenoid valve of the reprocessing circuit, the input of which is connected to the second outlet of the accumulator, and the outlet to the inlet to the bypass, the bypass outlet is connected to the second input of the chamber for the flow of the liquid to be purified, while the control module receives a signal from the modules of the primary and secondary liquid quality control and, accordingly, the liquid level sensor, the liquid pressure sensor and transmits a signal to the supply solenoid valve, the outlet solenoid valve and the solenoid valve of the reprocessing circuit, depending on the received data, as well as a source of high voltage electric current pulses.

The essence of the invention is illustrated by a drawing, which shows a general diagram of a device for the purification of drinking and waste water.

The device for purification of drinking and waste water contains a chamber for the flow of the purified liquid 1, a supply solenoid valve 2, a module for primary control of the quality of a liquid 3 at the first inlet of the chamber 1, a control module 4, a liquid level sensor 5, a source of high voltage electric current pulses 6, one or several pairs of high-voltage electrodes 7 isolated from chamber 1, a secondary fluid quality control module 8 at the outlet of chamber 1, a shut-off valve 9, a hydraulic accumulator 10, a fluid pressure sensor 11, a solenoid valve of the reprocessing circuit 12, a discharge solenoid valve 13, a bypass 14.

The input of the supply solenoid valve 2 is connected to the liquid source, and the output is connected to the input of the primary liquid quality control module 3. Inside the chamber for the flow of the liquid to be cleaned 1 there are a liquid level sensor 5 and one or more pairs of high-voltage electrodes isolated from the chamber 1 7. The input of the accumulator 10 is located at the outlet of the secondary fluid quality control module 8. Inside the accumulator 10, there are a shut-off valve 9 and a pressure sensor 11. The solenoid valve of the reprocessing circuit 12, the inlet of which is connected to the second outlet of the accumulator 10, and the outlet to the inlet to the bypass 14, the bypass outlet 14 is connected to the second inlet of the chamber 1. The outlet solenoid valve 13, the inlet of which is connected to the first outlet of the accumulator 10, and the outlet to the consumer. The control module 4 receives a signal from the modules of primary and secondary control of the liquid quality 3 and 8, respectively, the liquid level sensor 5, the liquid pressure sensor 11 and transmits the signal to the solenoid valves 2, 12 and 13, as well as to the source of high voltage electric current pulses 6, the output of which connected to the input of one or more pairs of high-voltage electrodes 7.

The device for purification of drinking and waste water works as follows.

At the beginning of the implementation of the technological process for the purification of drinking and waste water, the liquid being purified enters chamber 1 through the initially open supply solenoid valve 2 and the module for primary quality control of the liquid 3. Module for primary quality control 3 examines the composition of the incoming liquid and transmits the results of the study to the control module 4. Module control 4, having received a signal from the liquid level sensor 5 located in chamber 1 about the filling of the system, transmits a signal to close the supply solenoid valve 2, after which, on the basis of the data received from the primary fluid quality control module 3, sets the processing mode to the source of high voltage current pulses 6. The source of high-voltage current pulses 6 generates high-voltage electric current pulses, which are fed to the high-voltage electrodes 7. Between the oppositely polarized electrodes 7, under the action of the high-voltage electric current pulse source 6, discharges arise, which clean the liquid inside the chamber 1 from unnecessary impurities, impurities, also through successive discharges between the electrodes 7, the liquid moves through the secondary fluid quality control module 8 and the shut-off valve 9, which contributes to the accumulation and increase of pressure in the accumulator 10. In the accumulator 10, the shut-off valve 9 is installed and liquid pressure sensor 11, which transmits data to the control module 4. The liquid passing through the secondary quality control module 8 is analyzed and the data is transmitted to the control module 4. The control module 4 based on the data received from the liquid pressure sensor 11 on reaching the pressure threshold value and the secondary control module liquid quality 8, gives a command to open one of the solenoid valves 12 or 13. If the cleaning results do not meet the technological requirements, the control module 4 sends a signal to open the solenoid valve of the reprocessing circuit 12, and is cleaned I liquid through the bypass 14 enters chamber 1, where it is again processed with changed parameters of the pulses, which, in turn, were corrected by the control module 4. If the cleaning results meet the technological requirements, then the control module 4 sends a signal to open the outlet solenoid valve 13 and the purified liquid enters the consumer, and the signal is also sent to open the supply solenoid valve 2 and the unpurified liquid enters the system.

The proposed invention will provide automated control of technological processes for the purification of drinking and waste water, as well as improving the quality of purification and reducing its cost.

Claims (1)

A device for purification of drinking and waste water, containing a chamber for the flow of the liquid to be purified, inside of which one or more pairs of high-voltage electrodes isolated from the pipeline are installed, a control module, a source of high-voltage electric current pulses, liquid control modules, two electromagnetic valves, a bypass, characterized by , which is equipped with a hydraulic accumulator, inside which there are a liquid pressure sensor and a shut-off valve, a liquid level sensor located in the chamber for the flow of the liquid to be cleaned, a supply solenoid valve, while the input of the supply solenoid valve is connected to the liquid source, and the output is connected to the input of the primary control module liquid quality, the inlet of the accumulator is located at the outlet of the secondary fluid quality control module, and at the outputs of the accumulator there are a discharge solenoid valve, the inlet of which is connected to the first outlet of the accumulator, and the outlet is connected to the consumer, e Electromagnetic valve of the reprocessing circuit, the input of which is connected to the second output of the accumulator, and the output is connected to the input to the bypass, the bypass output is connected to the second input of the chamber for the flow of the liquid to be purified, while the control module receives a signal from the primary and secondary control modules of the liquid quality and, accordingly liquid level sensor, liquid pressure sensor and transmits a signal to the supply solenoid valve, the outlet solenoid valve and the solenoid valve of the reprocessing circuit, depending on the received data, as well as a source of high voltage electric current pulses.

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