CN210079010U - Intelligent control efficient filtering system - Google Patents

Abstract

The utility model provides a high-efficient filtration system of intelligent control, it filters thoroughly, and easily washs, is convenient for change, has improved the product water efficiency in filtering pond. The water tank type variable-frequency water taking pump comprises a variable-frequency water taking pump body, a high-efficiency filter, a back washing pump body, a water tank and an intelligent control cabinet, wherein the high-efficiency filter comprises a shell consisting of a base and an upper cover, a filter element assembly is arranged in an inner cavity of the shell and comprises N-level filter elements, specifically, a 1 st-level filter element, a 2 nd-level filter element, … and an N-level filter element, wherein N is a natural number not less than 2, all the filter elements are connected in sequence through a transition water pipe according to numbers, the bottom of each filter element is positioned and inserted on a filter element support, the variable-frequency water taking pump body is connected with a water inlet of the 1 st-level filter element in the high-efficiency filter body through a water inlet pipe, a water outlet of the N-level filter element is communicated with the.

Description

Intelligent control efficient filtering system

Technical Field

The utility model relates to a filter equipment's technical field specifically is a high-efficient filtration system of intelligent control.

Background

The full-automatic high-efficiency filter is mainly applied to the fields of surface water or underground water purification, sewage advanced treatment and the like, suspended matters in sewage are mainly removed through a filter medium, and a filtered water source can meet the requirements of drinking water, landscape water and reclaimed water recycling treatment and the requirements of upgrading and reforming of an urban sewage treatment plant. The domestic commonly used filtering material quartz sand has low filtering speed, the filtering material is not easy to replace, and the filtering is not thorough enough, so that the water production efficiency of the filtering pool is low.

Disclosure of Invention

To the above problem, the utility model provides a high-efficient filtration system of intelligent control, it filters thoroughly, and easily washs, is convenient for change, has improved the product water efficiency in filtering pond.

The utility model provides an intelligent control high efficiency filtration system which characterized in that: the water tank water purifier comprises a variable-frequency water taking pump, a high-efficiency filter, a back flush pump, a water tank and an intelligent control cabinet, wherein the high-efficiency filter comprises a shell consisting of a base and an upper cover, a filter element assembly is arranged in an inner cavity of the shell, the filter element assembly comprises N-level filter elements, specifically, a 1 st-level filter element, a 2 nd-level filter element, … and an N-level filter element, wherein N is a natural number not less than 2, all the filter elements are sequentially connected through a transition water pipe according to the serial number, the bottom of each filter element is positioned and inserted on a filter element support, the variable-frequency water taking pump is connected with a water inlet of the 1 st-level filter element in the high-efficiency filter through a water inlet pipe, a water outlet of the N-level filter element is communicated with the inner cavity, a water outlet is arranged at the upper part of the, the bottom of the water tank is connected with a backwashing water inlet at the bottom of the high-efficiency filter through a backwashing water inlet pipe, a water outlet is further formed in the upper portion of the shell of the high-efficiency filter, a water outlet pipe is externally connected with a water outlet pipe, a first electromagnetic flow meter, a first pressure sensor and a first one-way valve are arranged on the water inlet pipe, a turbidimeter, a second one-way valve and a second pressure sensor are arranged on the water outlet pipe, a backwashing pump and a third one-way valve are arranged on the backwashing water inlet pipe, a fourth one-way valve, a third pressure sensor and a second electromagnetic flow meter are arranged on the water outlet pipe, and the intelligent control cabinet is respectively connected with the first electromagnetic flow meter, the first pressure sensor, the first one-way valve, the turbidimeter, the second one-way valve, the second pressure sensor, the backwashing pump, the third one-way valve, a second electromagnetic flow meter.

It is further characterized in that: all the filter elements adopt nano filter elements, the surface area of the nano filter elements is large, and the filtering speed is high;

the water inlet of the 1 st stage filtering element is positioned at the upper part of the filtering element, so that the filtering element and the corresponding water inlet pipe are conveniently and reliably connected;

the positions of the connecting flanges of the upper cover and the base are higher than the position of a water inlet of the 1 st-stage filtering core;

preferably, the filter element assembly comprises 3 levels of filter elements, specifically, a level 1 filter element, a level 2 filter element and a level 3 filter element, wherein a water inlet of the level 3 filter element is positioned at the lower part, a water outlet of the level 3 filter element is positioned at the upper part and arranged back to a water outlet of the whole efficient filter, so that water flowing out of the filter element is discharged after entering the inner cavity;

when the whole system works normally, the first one-way pump and the second one-way pump are started, the third one-way pump and the fourth one-way pump are closed, the variable-frequency water taking pump, the first electromagnetic flowmeter, the first pressure sensor, the turbidity meter and the second pressure sensor are simultaneously started, the intelligent control system cabinet outputs a deviation signal after comparing the data with preset data by analyzing the flow of the first electromagnetic flowmeter on the water inlet pipe, the pressure of the first pressure sensor, the turbidity of the turbidity meter on the water outlet pipe and the pressure data of the second pressure sensor, and the frequency of the variable-frequency water taking pump is automatically controlled by the deviation signal to change the rotating speed of the water pump, so that the water outlet amount and the turbidity of outlet water tend to be stable, and the quality of the outlet water is ensured to reach the standard;

when the inner cavity of the high-efficiency filter is cleaned, the first one-way pump and the second one-way pump are closed, the third one-way pump and the fourth one-way pump are started, the back washing pump, the second electromagnetic flow meter and the third pressure sensor are started simultaneously, the intelligent control cabinet analyzes the flow of the second electromagnetic flow meter and the pressure data of the third pressure sensor on the drain pipe on line in real time, when the flow is increased suddenly and the pressure is reduced suddenly and approaches to the initial data set by the system, the intelligent control cabinet outputs signals to control the back washing pump to stop running.

After the structure of the utility model is adopted, the intelligent system which can automatically adjust the water inlet and outlet and the backwashing according to the variable is provided, and the water inlet quantity and the flow rate are automatically controlled while filtering, so that the water quality of the outlet water is ensured to reach the standard; the backwashing flow and time are automatically controlled, the water consumption of equipment is reduced, the operation cost is effectively reduced, and the maintenance, the operation and the maintenance are convenient; because high efficiency filter includes the base, the shell that the upper cover is constituteed, filter element group spare has been arranged in the inner chamber of shell, filter element group spare includes N level filter core, every filter core's bottom location cartridge is on filter core support, it accomplishes the filtration to water through N level filter core, it filters thoroughly, and when needs renew cartridge, open the upper cover, extract filter element group spare, it is fixed a position to corresponding filter core support can to change corresponding filter element group spare, it is easily washd, be convenient for change, the water efficiency of producing in filtering pond has been improved.

Drawings

FIG. 1 is a schematic block diagram of the structure of the present invention;

the names corresponding to the sequence numbers in the figure are as follows:

the water purifier comprises a variable-frequency water taking pump 1, a high-efficiency filter 2, a base 201, an upper cover 202, an inner cavity 203, a connecting flange 204, a backwashing pump 3, a water tank 4, an intelligent control cabinet 5, a filter element assembly 6, a transition water pipe 7, a filter element support 8, a water inlet pipe 9, a water outlet pipe 10, a backwashing water inlet pipe 11, a first electromagnetic flowmeter 12, a first pressure sensor 13, a first one-way valve 14, a turbidimeter 15, a second one-way valve 16, a second pressure sensor 17, a connecting wire 18, a third one-way valve 19, a water outlet pipe 20, a fourth one-way valve 21, a third pressure sensor 22, a second electromagnetic flowmeter 23, a level-1 filtering filter element 24, a level-2 filtering filter element 25 and a level-3 filtering filter.

Detailed Description

An intelligent control high efficiency filtration system, see fig. 1: the water purifier comprises a variable-frequency water taking pump 1, a high-efficiency filter 2, a backwashing pump 3, a water tank 4 and an intelligent control cabinet 5, wherein the high-efficiency filter 2 comprises a shell consisting of a base 201 and an upper cover 202, a filter element assembly 6 is arranged in an inner cavity 203 of the shell, the filter element assembly comprises N-level filter elements, specifically, a 1 st-level filter element, a 2 nd-level filter element, … and an N-level filter element, wherein N is a natural number not less than 2, all the filter elements are connected in sequence according to numbers through transition water pipes 7, the bottom of each filter element is positioned and inserted on a filter element support 8, the variable-frequency water taking pump 1 is connected with a water inlet of the 1 st-level filter element in the high-efficiency filter 2 through a water inlet pipe 9, a water outlet of the N-level filter element is communicated with the inner cavity 203, a water outlet is arranged at the, the bottom of the water tank 4 is connected with a backwashing water inlet at the bottom of the high-efficiency filter 2 through a backwashing water inlet pipe 11, the upper part of the shell of the high-efficiency filter 2 is also provided with a water outlet, the water outlet is externally connected with a water outlet pipe 20, a first electromagnetic flow meter 12, a first pressure sensor 13 and a first one-way valve 14 are arranged on a water inlet pipe 9, a turbidity meter 15, a second one-way valve 16 and a second pressure sensor 17 are arranged on a water outlet pipe 10, a backwashing pump 3 and a third one-way valve 19 are arranged on the backwashing water inlet pipe 11, a fourth one-way valve 21, a third pressure sensor 22 and a second electromagnetic flow meter 23 are arranged on the water outlet pipe 20, and the intelligent control cabinet 5 is respectively connected with the first electromagnetic flow meter 12, the first pressure sensor 13, the first one-way valve 14, the turbidity meter 15, the second one-way valve 16, the second pressure sensor 17, A fourth check valve 21, a third pressure sensor 22, and a second electromagnetic flow meter 23.

All the filter elements adopt nano filter elements, the surface area of the nano filter elements is large, and the filtering speed is high;

specific examples, see fig. 1: the filter element assembly comprises 3 levels of filter elements, specifically a level 1 filter element 24, a level 2 filter element 25 and a level 3 filter element 26, wherein the water inlet of the level 3 filter element 26 is positioned at the lower part, the water outlet of the level 3 filter element 26 is positioned at the upper part and arranged back to the water outlet of the whole efficient filter 2, so that the water flowing out of the filter elements is ensured to enter the inner cavity 203 and then is discharged;

the water inlet of the 1 st-stage filtering element 24 is positioned at the upper part of the filtering element, so that the filtering element and the corresponding water inlet pipe 9 are conveniently and reliably connected, and the upper cover 202 is opened, so that the overhaul and the replacement can be completed;

the connecting flange 204 of the top cover 202 and base 202 is positioned higher than the inlet port of the stage 1 filter cartridge 24.

When the whole system works normally, the first one-way pump and the second one-way pump are started, the third one-way pump and the fourth one-way pump are closed, the variable-frequency water taking pump, the first electromagnetic flowmeter, the first pressure sensor, the turbidity meter and the second pressure sensor are simultaneously started, the intelligent control system cabinet outputs a deviation signal after comparing the data with preset data by analyzing the flow of the first electromagnetic flowmeter on the water inlet pipe, the pressure of the first pressure sensor, the turbidity of the turbidity meter on the water outlet pipe and the pressure data of the second pressure sensor, and the frequency of the variable-frequency water taking pump is automatically controlled by the deviation signal to change the rotating speed of the water pump, so that the water outlet amount and the turbidity of outlet water tend to be stable, and the quality of the outlet water is ensured to reach the standard;

when the inner cavity of the high-efficiency filter is cleaned, the first one-way pump and the second one-way pump are closed, the third one-way pump and the fourth one-way pump are started, the back washing pump, the second electromagnetic flow meter and the third pressure sensor are started simultaneously, the intelligent control cabinet analyzes the flow of the second electromagnetic flow meter and the pressure data of the third pressure sensor on the drain pipe on line in real time, when the flow is increased suddenly and the pressure is reduced suddenly and approaches to the initial data set by the system, the intelligent control cabinet outputs signals to control the back washing pump to stop running.

The intelligent system can automatically adjust water inlet and outlet and backwash according to variables, automatically control the water inlet amount and flow rate while filtering, and ensure the water quality of outlet water to reach the standard; the backwashing flow and time are automatically controlled, the water consumption of equipment is reduced, the operation cost is effectively reduced, and the maintenance, the operation and the maintenance are convenient; because high efficiency filter includes the base, the shell that the upper cover is constituteed, filter element group spare has been arranged in the inner chamber of shell, filter element group spare includes N level filter core, every filter core's bottom location cartridge is on filter core support, it accomplishes the filtration to water through N level filter core, it filters thoroughly, and when needs renew cartridge, open the upper cover, extract filter element group spare, it is fixed a position to corresponding filter core support can to change corresponding filter element group spare, it is easily washd, be convenient for change, the water efficiency of producing in filtering pond has been improved.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides an intelligent control high efficiency filtration system which characterized in that: the water tank water purifier comprises a variable-frequency water taking pump, a high-efficiency filter, a back flush pump, a water tank and an intelligent control cabinet, wherein the high-efficiency filter comprises a shell consisting of a base and an upper cover, a filter element assembly is arranged in an inner cavity of the shell, the filter element assembly comprises N-level filter elements, specifically, a 1 st-level filter element, a 2 nd-level filter element, … and an N-level filter element, wherein N is a natural number not less than 2, all the filter elements are sequentially connected through a transition water pipe according to the serial number, the bottom of each filter element is positioned and inserted on a filter element support, the variable-frequency water taking pump is connected with a water inlet of the 1 st-level filter element in the high-efficiency filter through a water inlet pipe, a water outlet of the N-level filter element is communicated with the inner cavity, a water outlet is arranged at the upper part of the, the bottom of the water tank is connected with a backwashing water inlet at the bottom of the high-efficiency filter through a backwashing water inlet pipe, a water outlet is further formed in the upper portion of the shell of the high-efficiency filter, a water outlet pipe is externally connected with a water outlet pipe, a first electromagnetic flow meter, a first pressure sensor and a first one-way valve are arranged on the water inlet pipe, a turbidimeter, a second one-way valve and a second pressure sensor are arranged on the water outlet pipe, a backwashing pump and a third one-way valve are arranged on the backwashing water inlet pipe, a fourth one-way valve, a third pressure sensor and a second electromagnetic flow meter are arranged on the water outlet pipe, and the intelligent control cabinet is respectively connected with the first electromagnetic flow meter, the first pressure sensor, the first one-way valve, the turbidimeter, the second one-way valve, the second pressure sensor, the backwashing pump, the third one-way valve, a second electromagnetic flow meter.

2. An intelligently controlled high efficiency filtration system as claimed in claim 1, wherein: all the filter elements adopt nano filter elements.

3. An intelligently controlled high efficiency filtration system as claimed in claim 1, wherein: the water inlet of the 1 st stage filter element is positioned at the upper position of the filter element.

4. An intelligently controlled high efficiency filtration system as claimed in claim 1, wherein: the connecting flange positions of the upper cover and the base are higher than the water inlet position of the 1 st-stage filtering filter element.

5. An intelligently controlled high efficiency filtration system as claimed in claim 1, wherein: the filter element assembly comprises 3-level filter elements, specifically a 1 st-level filter element, a 2 nd-level filter element and a 3 rd-level filter element, wherein a water inlet of the 3 rd-level filter element is positioned at the lower part, and a water outlet of the 3 rd-level filter element is positioned at the upper part and arranged back to the water outlet of the whole efficient filter.

6. An intelligently controlled high efficiency filtration system as claimed in claim 1, wherein: whole system is normal during operation, open first unidirectional pump, the second unidirectional pump, close the third unidirectional pump, the fourth unidirectional pump, open the frequency conversion water intaking pump simultaneously, first electromagnetic flowmeter, first pressure sensor, the turbidimeter, the second pressure sensor, the flow of first electromagnetic flowmeter on the intelligent control system cabinet through the analysis inlet tube, the turbidity of turbidimeter on first pressure sensor's the pressure and the outlet pipe, the pressure data of second pressure sensor, output deviation signal after comparing its data and preset data, the frequency of water intaking pump is got by deviation signal automatic control frequency conversion, change the water pump rotational speed, thereby make the water output and the turbidity of water tend towards stability, guarantee that water quality of water is up to standard.

7. An intelligently controlled high efficiency filtration system as claimed in claim 6 wherein: when the inner cavity of the high-efficiency filter is cleaned, the first one-way pump and the second one-way pump are closed, the third one-way pump and the fourth one-way pump are started, the back washing pump, the second electromagnetic flow meter and the third pressure sensor are started simultaneously, the intelligent control cabinet analyzes the flow of the second electromagnetic flow meter and the pressure data of the third pressure sensor on the drain pipe on line in real time, when the flow is increased suddenly and the pressure is reduced suddenly and approaches to the initial data set by the system, the intelligent control cabinet outputs signals to control the back washing pump to stop running.

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