CN215947035U - Full-automatic ultrasonic ion magnetization fine filtration cleaner - Google Patents

Abstract

The utility model provides a full-automatic ultrasonic wave ion magnetization fine filtration cleaner, casing one end is provided with the inlet tube, the other end is provided with the outlet pipe, the inlet tube is linked together with the outlet pipe through first communicating pipe, be provided with the pressure differential caliber on the first communicating pipe, the middle part is provided with the essence core in the casing, the permanent magnetism group that excels in has set gradually along the rivers direction between essence core and the inlet tube, ultrasonic wave high frequency transmitter, be provided with ion generator between the essence core outlet pipe, the casing bottom is provided with impurity accepting chamber, impurity accepting chamber and casing are even as an organic whole, be provided with electronic blowoff valve on the impurity accepting chamber, be provided with automatic control on the casing lateral wall, automatic control passes through wire and ultrasonic wave high frequency transmitter, the pressure differential caliber, electronic blowoff valve, ion generator links to each other. The water treatment method is a physical method, does not need chemical agents, does not change or destroy the chemical properties of water, and has the advantages of simple and convenient installation, small occupied area, automation, high efficiency, safety and environmental protection.

Description

Full-automatic ultrasonic ion magnetization fine filtration cleaner

Technical Field

The utility model belongs to the technical field of water treatment, and particularly relates to a full-automatic ultrasonic ion magnetization fine filtration cleaner.

Background

Most of the existing water treatment methods and devices purify water by adopting an electronic magnetization and precise filtration method, an electrode is arranged in a cylinder body or an electromagnetic coil is wound on the outer wall of a pipeline, an electromagnetic field with certain strength is formed in the internal water, and the electromagnetic field acts on magnetic conduction cations and molecular groups in the water, so that the movement speed of ions is reduced, and the combination rate of the ions and anions is damaged.

Ultrasonic high-frequency oscillation and ion treatment are carried out, the periphery of the electrode is completely provided with a gap, water can pass through other positions without the electrode, and the quantity of water passing through the electrode is very small, so that the effect of the electrode is not completely achieved; meanwhile, electrodes cannot be increased without limit due to the limitation of water inlet and outlet interface flanges, otherwise, the actual available flow area in the cylinder body is reduced, the resistance of water passing through the device is increased, the whole pipeline is adversely affected, the lift of the water pump is increased, the abrasion of the pipeline is increased, the service life of the whole pipeline and the device is shortened, and the resource waste and the power consumption loss are caused. In addition, the size of the cylinder body is limited by the water inlet and outlet interface flange, and the cylinder body cannot be made large, so that the number and the number of electrodes in the cylinder body are limited, the maximum electromagnetic field power which can be emitted by the electrodes is limited, a strong electromagnetic field cannot be formed, and the aims of descaling, antiscaling, sterilizing, algae removal, corrosion inhibition, rust removal and the like cannot be completely fulfilled.

In general, in the water treatment process, the water to be treated contains: the system has the advantages that various solid particles such as solid impurities, sand, rust and the like cannot be effectively filtered, organic matters cannot be effectively treated, so that the damages such as impact, collision, scaling, corrosion and the like to pipelines and equipment such as a conveying pipe network and fluid machinery are caused, noise is generated if the damages are small, a water hammer is caused if the damages are large, the damages and damages to valves, pipe fittings, pumps and other equipment in a conveying system are caused, and the system with high pressure, large flow and high temperature easily causes the leakage of the pipe network and even the danger of pipe explosion. When the solid particles reach a certain amount, manual removal or maintenance treatment needs to be carried out in modes of stopping operation, stopping production and the like, so that the production efficiency is seriously influenced, the production operation cost is increased, and the waste of energy and resources is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the existing water treatment device and provide a full-automatic ultrasonic ion magnetization fine filtration cleaner which has low energy consumption, high working efficiency, environmental protection and convenient installation.

The technical scheme for solving the technical problems is as follows: casing one end is provided with the inlet tube, the other end is provided with the outlet pipe, the inlet tube is linked together with the outlet pipe through first communicating pipe, be provided with the pressure differential caliber on the first communicating pipe, the middle part is provided with the essence core in the casing, the permanent magnetism magnetic unit that excels in has set gradually along the rivers direction between essence core and the inlet tube, ultrasonic wave high frequency transmitter, be provided with ion generator between the essence core outlet pipe, the casing bottom is provided with impurity and accepts the room, impurity is acceptd the room and is linked together with the casing, be provided with electronic blowoff valve on the impurity is acceptd the room, be provided with automatic control on the casing lateral wall, automatic control passes through wire and ultrasonic wave high frequency transmitter, the pressure differential caliber, electronic blowoff valve, ion generator links to each other.

As a preferred technical scheme, the fine filter element is in a circular truncated cone shell shape, and the center line of the fine filter element is superposed with the center line of the shell.

As a preferred technical scheme, the fine filter element is as follows: a filter cavity is formed between the outer fine filter screen and the inner fine filter screen, filter materials are filled in the filter cavity, a filling material opening communicated with the filter cavity is formed in the outer fine filter screen, and a flange plate is arranged on the filling material opening.

As a preferred technical scheme, the high-strength permanent magnet magnetic group is structurally characterized in that high-strength permanent magnet units are uniformly distributed on an annular support, the high-strength permanent magnet magnetic group is fixed on the inner wall of a shell close to a water inlet through an annular partition plate, and all water flowing into the water inlet pipe flows into a cavity of the shell through the high-strength permanent magnet magnetic group.

As a preferred technical scheme, the high-strength permanent magnet unit is as follows: the steel pipe sleeve is internally provided with a high-strength permanent magnet, the outer side wall of the steel pipe sleeve is provided with steel thorns which are uniformly distributed, and the central line of the steel thorns is perpendicular to the central line of the steel pipe sleeve.

As a preferred technical scheme, the high-strength permanent magnet unit is as follows: the center of the steel pipe sleeve is provided with a connecting column, two ends of the connecting column extend out of the steel pipe sleeve, a high-strength permanent magnet is arranged between the connecting column and the steel pipe sleeve, steel thorns are uniformly distributed on the outer side wall of the steel pipe sleeve, and the center line of each steel thorn is perpendicular to the center line of the steel pipe sleeve.

As a preferred technical solution, the geometry of the housing is cylindrical.

The utility model has the following beneficial effects:

the utility model has the processes of ultrasonic high-frequency oscillation, ultrasonic cavitation, ion ionization, multi-pole magnet magnetization, filler adsorption and dissolution, fine filter core precise filtration and full-automatic back washing, three physical energies of multi-pole magnet magnetization, ultrasonic high-frequency oscillation and high-pressure ionization field ionization load act on various impurities in water and carry out continuous and uninterrupted high-intensity magnetic field magnetization, ultrasonic high-frequency oscillation and high-pressure ionization field ionization on the water flowing through the shell, so that the treated water becomes molecular stable type treated water with no scale, bacteria and algae.

The water treatment method provided by the utility model is a physical method, chemical agents are not needed in the whole treatment process, the chemical properties of water are not changed and destroyed, and the water treatment method has the advantages of simplicity and convenience in installation, small occupied area, automation, high efficiency, safety and environmental friendliness.

The utility model has compact and beautiful structure, small volume, convenient replacement of the fine filter filler, saved land area and building height, less water consumption for backwashing which is about 1 to 2 percent of the throughput of the equipment, 100m3/h of water treated by the equipment, 100L of water consumed by backwashing, good temperature resistance, mature manufacturing process, lower cost, simple and convenient maintenance, management and operation and the like, has the service life of more than 15 years, and effectively prevents the defects of other filters, fine filters and electronic water treatment instruments.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural diagram of the high-strength permanent magnet assembly 2 of the present invention.

Fig. 3 is a schematic structural view of the high-strength permanent magnet unit 2-2 in embodiment 1.

Fig. 4 is a left side view of fig. 3.

Fig. 5 is a schematic structural view of the high-strength permanent magnet unit 2-2 in embodiment 2.

Detailed Description

The present invention will be described in further detail below with reference to the drawings and examples, but the present invention is not limited to the embodiments described below.

Example 1

In fig. 1 and 2, the fully automatic ultrasonic ion magnetization fine filtration cleaner of this embodiment is formed by connecting a water inlet pipe 1, a high-strength permanent magnet group 2, a housing 3, an ultrasonic high-frequency transmitter 4, a fine filtration core 5, a pressure difference measurer 6, an automatic controller 7, a first communication pipe 8, an ion generator 9, a water outlet pipe 10, an electric blow-down valve 11, and an impurity chamber 12, wherein the water inlet pipe 1 is installed at one end of the cylindrical housing 3, the water outlet pipe 10 is installed at the other end of the cylindrical housing 3, the water inlet pipe 1 is communicated with the water outlet pipe 10 through the first communication pipe 8, the pressure difference measurer 6 is installed on the first communication pipe 8, the pressure difference measurer 6 is used for measuring the pressure difference between inlet water and outlet water in real time, the fine filtration core 5 is installed at the middle part inside the housing 3, the fine filtration core 5 is in a truncated cone shape, the center line of the fine filtration core 5 coincides with the center line of the housing 3, and the fine filtration core 5 is formed between the outer fine filtration net 5-1 and the inner fine filtration net 5-3, the filter cavity is filled with filter materials 5-2, two filling ports which are symmetrical about a central line and are communicated with the filter cavity are processed on an outer fine filter screen 5-1, the filling ports extend out of the shell 3, a flange plate is installed on the filling ports, a high-strength permanent magnet set 2 and an ultrasonic high-frequency transmitter 4 are sequentially installed between the fine filter screen 5 and the water inlet pipe 1 along the water flow direction, the high-strength permanent magnet set 2 is structurally characterized in that high-strength permanent magnet units 2-2 are uniformly distributed on an annular support 2-1, the high-strength permanent magnet set 2 is fixed on the inner wall of the shell 3 close to the opening of the water inlet pipe 1 through an annular partition plate, all water flowing in the water inlet pipe 1 flows into the cavity of the shell 3 through the high-strength permanent magnet set 2, an ion generator 9 is installed between water outlet pipes 10 of the fine filter core 5, and an impurity containing chamber 12 is processed under the fine filter core 5 at the bottom of the shell 3, the impurity containing chamber 12 is connected with the shell 3 into a whole, the impurity containing chamber 12 is provided with an electric blow-down valve 11, the outer side wall of the shell 3 is provided with an automatic controller 7, the automatic controller 7 is connected with the ultrasonic high-frequency transmitter 4, the pressure difference measurer 6, the electric blow-down valve 11 and the ion generator 9 through a lead, the automatic controller 7 compares the pressure difference of inlet water and outlet water acquired by the pressure difference measurer 6 in real time with the pressure difference value set inside according to the pressure difference value to control the opening and closing of the electric blow-down valve 11, automatic blow-down and automatic back flushing are realized, and the automatic controller 7 simultaneously provides power for the ultrasonic high-frequency transmitter 4 and the ion generator 9.

In fig. 3 and 4, the high-strength permanent magnet unit 2-2 of the embodiment is formed by connecting a steel pipe sleeve 2-2-2, a high-strength permanent magnet 2-2-3 and a steel spine 2-2-1, the high-strength permanent magnet 2-2-3 is filled in the steel pipe sleeve 2-2-2, the steel spine 2-2-1 is evenly distributed on the outer side wall of the steel pipe sleeve 2-2-2, and the center line of the steel spine 2-2-1 is perpendicular to the center line of the steel pipe sleeve 2-2-2. The steel pipe sleeve 2-2-2 is convenient for fixing and connecting the high-strength permanent magnet 2-2-3, and can enhance the magnetic field intensity of the magnetization separation area, and the steel pricks 2-2-1 on the outer wall of the steel pipe sleeve 2-2-2 further enhance the magnetic field intensity and increase the contact area with water, so that the magnetization effect is more obvious, and the separation is easier to realize.

Water to be treated enters the shell 3 through the water inlet pipe 1, the flow cross section area is instantly enlarged by several times, the flow speed is reduced, paramagnetic substances and diamagnetic substances of the water to be treated are rearranged and distributed under the magnetization effect of the high-strength permanent magnet group 2, and paramagnetic metal substances are gathered under the action of gravity and enter the impurity containing chamber 12 together with solid particles; the magnetized water to be treated continuously flows through the area of the ultrasonic high-frequency emitter 4, after ultrasonic high-frequency oscillation and cavitation treatment, the activity and intermolecular kinetic energy of the water are converted and carry ultrasonic energy into the fine filter core 5, some tiny impurities in the water are isolated outside the outer fine filter screen 5-1 of the fine filter core 5 to form primary fine filtration, the water after the primary fine filtration enters the filter material 5-2 of the fine filter core 5, the filter material 5-2 adsorbs, dissolves and activates heavy metals, bacteria, fungi, microorganisms and the like in the water, the water continuously flows through the inner fine filter screen 5-3 of the fine filter core 5 to form secondary fine filtration, the water after the secondary fine filtration passes through the area of the ion emitter, the ion emitter can emit and form a high-voltage ionization field to realize the ion ionization load effect, and the electrical conductivity of substances such as dissolved salt and the like in the water is reduced, and (3) preventing ion transmission, wherein the water to be treated is subjected to five-stage physical treatment processes of high-strength permanent magnetic field magnetization, ultrasonic high-frequency oscillation and cavitation, two-stage fine filtration, filler adsorption and activation and high-pressure ionization field ion ionization, and the treated water carries three physical energies of ultrasonic high-frequency oscillation wave, filler activation energy and ionization load to flow out through the water outlet pipe 10, so that a complete water treatment process is realized.

Example 2

In fig. 5, the high-strength permanent magnet unit 2-2 of the present embodiment is composed of a steel thorn 2-2-1, a steel pipe sleeve 2-2-2, the high-strength permanent magnet 2-2-3 and the connecting column 2-2-4 are connected, the connecting column 2-2-4 is installed in the center of the steel pipe sleeve 2-2-2, two ends of the connecting column 2-2-4 extend out of the steel pipe sleeve 2-2-2, the connecting column 2-2-4 is used for connecting adjacent high-strength permanent magnet units 2-2, the high-strength permanent magnet 2-2-3 is filled between the connecting column 2-2-4 and the steel pipe sleeve 2-2-2, steel spines 2-2-1 are evenly distributed on the outer side wall of the steel pipe sleeve 2-2-2, and the center line of the steel spines 2-2-1 is perpendicular to the center line of the steel pipe sleeve 2-2-2. The steel pipe sleeve 2-2-2 is convenient for fixing and connecting the high-strength permanent magnet 2-2-3, and can enhance the magnetic field intensity of the magnetization separation area, and the steel pricks 2-2-1 on the outer wall of the steel pipe sleeve 2-2-2 further enhance the magnetic field intensity and increase the contact area with water, so that the magnetization effect is more obvious, and the separation is easier to realize. The other components and the connection relationship of the components are the same as those in embodiment 1.

Claims (7)

1. A full-automatic ultrasonic ion magnetization fine filtration cleaner is characterized in that: one end of the shell (3) is provided with a water inlet pipe (1), the other end of the shell is provided with a water outlet pipe (10), the water inlet pipe (1) is communicated with the water outlet pipe (10) through a first communicating pipe (8), a pressure difference measurer (6) is arranged on the first communicating pipe (8), a fine filter core (5) is arranged in the middle of the shell (3), a high-strength permanent magnet set (2) and an ultrasonic high-frequency transmitter (4) are sequentially arranged between the fine filter core (5) and the water inlet pipe (1) along the water flow direction, an ion generator (9) is arranged between the water outlet pipes (10) of the fine filter core (5), an impurity accommodating chamber (12) is arranged at the bottom of the shell (3), the impurity accommodating chamber (12) is connected with the shell (3) into a whole, an electric blow-down valve (11) is arranged on the impurity accommodating chamber (12), an automatic controller (7) is arranged on the outer side wall of the shell (3), and the automatic controller (7) is connected with the ultrasonic high-frequency transmitter (4) through a wire, The differential pressure measurer (6), the electric blow-down valve (11) and the ion generator (9) are connected.

2. The fully automatic ultrasonic ion magnetization fine filtration cleaner as claimed in claim 1, wherein the fine filter core (5) is in the shape of a truncated cone shell, and the center line of the fine filter core (5) coincides with the center line of the housing (3).

3. The fully automatic ultrasonic ion magnetization fine filtration cleaner according to claim 1 or 2, wherein the fine filter core (5) is: a filter cavity is formed between the outer fine filter screen (5-1) and the inner fine filter screen (5-3), a filter material (5-2) is filled in the filter cavity, a filling port communicated with the filter cavity is arranged on the outer fine filter screen (5-1), and a flange plate is arranged on the filling port.

4. The full-automatic ultrasonic ion magnetization fine filtration cleaner as claimed in claim 1, wherein the high-strength permanent magnet magnetic group (2) has a structure that high-strength permanent magnet units (2-2) are uniformly distributed on an annular support (2-1), the high-strength permanent magnet magnetic group (2) is fixed on the inner wall of the shell (3) close to the water inlet through an annular partition plate, and all water flowing in from the water inlet pipe (1) flows into the cavity of the shell (3) through the high-strength permanent magnet magnetic group (2).

5. The full-automatic ultrasonic ion magnetization fine filtration cleaner as claimed in claim 4, wherein the high-strength permanent magnet unit (2-2) is: the high-strength permanent magnet (2-2-3) is arranged in the steel pipe sleeve (2-2-2), the steel thorns (2-2-1) are uniformly distributed on the outer side wall of the steel pipe sleeve (2-2-2), and the center line of the steel thorns (2-2-1) is perpendicular to the center line of the steel pipe sleeve (2-2-2).

6. The full-automatic ultrasonic ion magnetization fine filtration cleaner as claimed in claim 4, wherein the high-strength permanent magnet unit (2-2) is: the center of the steel pipe sleeve (2-2-2) is provided with a connecting column (2-2-4), two ends of the connecting column (2-2-4) extend out of the steel pipe sleeve (2-2-2), a high-strength permanent magnet (2-2-3) is arranged between the connecting column (2-2-4) and the steel pipe sleeve (2-2-2), steel thorns (2-2-1) are uniformly distributed on the outer side wall of the steel pipe sleeve (2-2-2), and the central line of the steel thorns (2-2-1) is perpendicular to the central line of the steel pipe sleeve (2-2-2).

7. The full-automatic ultrasonic ion magnetization fine filtration cleaner as claimed in claim 1, wherein: the geometric shape of the shell (3) is cylindrical.

Images