CN105198051A - Squirrel-cage water magnetizing equipment - Google Patents

Abstract

The invention discloses a squirrel-cage type magnetized water device, which comprises a shell, a channel passing through the shell and a magnetization system arranged in the channel, one end of the channel is a water inlet, the other end of the channel is a water outlet, and the magnetization system includes a shaft At least two magnetic rods are magnetized, one end of each magnetic rod extends toward the water inlet, and the other end of each magnetic rod extends toward the water outlet, and at least two magnetic rods respectively have any cross-section projected on the channel along the axial direction At least two axial projections on the at least two axial projections are located at different positions in any cross-section. The water flow through the channel will be jointly affected by the magnetic force of the magnetic force lines in different directions generated by different magnetic rods, and the hydrogen bonds associated with water molecules will be elongated and bent in a short time under the force of different directions. Even fracture, therefore, the water flow through the channel can be magnetized efficiently.

Description

A squirrel cage magnetized water device

technical field

The invention relates to the field of water treatment, in particular to a magnetized water device.

Background technique

Water in nature is a larger water molecule group formed by the association of several H ₂ O molecules, that is, the association water molecule group, where n is the degree of association. A single water molecule is a polar electric dipole, but associating water molecule groups form a complex system of multiple electric dipoles, hydrogen bonds are "glued" together, no longer polar groups, this kind of water Molecular clusters have rather low solubility and poor activity.

When the associated water molecular cluster passes through a strong magnetic field at a certain flow rate, the water molecular cluster obtains magnetic field energy due to its own magnetic moment, and the formation of hydrogen bonds is affected under the action of the magnetic field energy, causing the hydrogen bond of the associated water molecule to be pulled Long, bent or even broken, etc., resulting in polarization and magnetization, resulting in the transformation of larger associated water molecule groups to smaller water molecule groups, and even into single water molecules, reaching the nanometer level. When the number of such nano-scale water molecular clusters increases, the water molecules will move more freely, the activity of water will be enhanced, and the solubility will be enhanced. Old dirt, making the old dirt soft, peel off and disappear. At the same time, calcium ions and carbonate ions in the solution collide with each other to form a special calcium carbonate structure (aragonite). Since its surface has no charge, it cannot be adsorbed on the inner wall of the pipeline and is easily taken away by the fluid, thereby achieving scale inhibition, purpose of descaling.

The Chinese invention patent with the authorized notification number CN103058337B discloses a device for processing magnetized water, which includes a shell, and two opposite positions of the shell are provided with a water inlet and a water outlet to form two ends, and the inside of the shell is provided with an anti-corrosion magnet plate and a magnetic Reinforcing plate, one end of the adjacent magnet plate and the magnetic reinforcing plate are respectively fixed on opposite sides of the housing to form an S-shaped circuitous water flow channel on the longitudinal section of the housing, and a surface that can disturb the water flow is provided between the adjacent magnet plate and the magnetic reinforcing plate Anti-corrosion strip plate, the two sides of the strip plate are in contact with the magnet plate and the magnetic enhancement plate, and one end of the adjacent strip plate is respectively in contact with the other two sides of the shell to form an S-shaped detour on the cross section of the shell water flow channel. Using the technical scheme of the present invention, the water molecules can repeatedly cut the magnetic force lines vertically, and under the action of the flow resistance and disturbance of the strip plate, the water molecules that are magnetized and the distance is widened will further produce inter-molecular hydrogen bond reactions to form new small Molecular water clusters, water dissolution, penetration and cleaning capabilities are greatly improved. However, since the directions of the magnetic field lines in the S-shaped circuitous water flow channel in the above-mentioned device are all parallel and in the same direction, the force of the magnetic field lines on the water molecules is in the same direction. The hydrogen bonds of the molecules are elongated, bent or even broken, and the magnetic force of the magnet plate set in the device needs to be very strong to realize that the hydrogen bonds of the associated water molecules are elongated, bent or even broken.

Contents of the invention

The object of the present invention is to provide a squirrel-cage magnetized water device, in which the magnetic rods are arranged in a squirrel-cage arrangement in the channel space, and the water flows through the gaps of the magnetic rods, thereby fully and efficiently magnetizing the water.

In order to achieve the purpose of the above invention, the technical solution adopted by the present invention is: a squirrel-cage magnetized water device, comprising a housing, a passage penetrating through the housing, and a magnetization system arranged in the passage, one end of the passage is a water inlet, the other end of the channel is a water outlet, and the magnetization system includes at least two axially magnetized magnetic rods, one end of each of the magnetic rods extends toward the water inlet, and each of the magnetic rods The other end of the rod extends toward the water outlet, and the at least two magnetic rods respectively have at least two axial projections axially projected on any cross-section of the channel, and the at least two axial projections are located at At different positions of any of the cross-sections. In a further technical solution, the magnetic bar includes at least two sections of magnet columns and at least one section of barrier columns, the magnet columns and the barrier columns are arranged at intervals along the axial direction, adjacent magnet columns are opposite to each other with the same poles, and the barrier columns The column material is copper or aluminum or austenitic stainless steel.

Preferably, the magnet column is an NdFeB permanent magnet.

Preferably, the at least two magnetic bars are uniformly arranged on any one of the cross-sections, and the magnetic bars extend along the longitudinal direction of the channel.

In the above technical solution, a support assembly is provided in the passage, and the support assembly includes at least two partitions, and the at least two partitions are respectively arranged at different positions in the longitudinal direction of the passage, and the partitions of the partitions are The circumferential surface is relatively fixed to the inner wall of the channel, and at least two positioning holes are arranged on the end surface of the partition, and the at least two magnetic rods are correspondingly connected in the at least two positioning holes, and the partition There are also a plurality of water holes running through the end face.

In the above technical solution, the outer surface of the magnetic bar is provided with a protective layer, and the protective layer is a stainless steel layer or a Teflon layer.

Preferably, the thickness of the protective layer is not greater than 0.5 mm.

Preferably, the magnetization system includes four or six magnet bars, the four or six magnet bars are uniformly arranged on any cross-section, the four or six magnet bars extend along the longitudinal direction of the channel and parallel to each other.

In the above technical solution, the inner wall of the channel is made of non-ferromagnetic metal material or PVC material.

In the above technical solution, the separator is made of resin material.

In a further technical solution, the water inlet and the water outlet are respectively provided with access flanges, and the access flanges are provided with at least one set of connecting holes, and the at least one set of connecting holes is connected to at least one specification of the pipe The connection hole of the flange is detachable connection.

Due to the use of the above-mentioned technical solutions, the present invention has the following advantages compared with the prior art:

(1) At least two magnetic rods in the present invention form a squirrel cage structure. The water flow passing through the channel will be jointly affected by the magnetic force of the magnetic field lines in different directions generated by different magnetic rods, and the hydrogen bonds of the associated water molecules will be in different directions. It will be elongated, bent or even broken in a short period of time under the action of force, which will lead to the transformation of larger associated water molecule groups into smaller water molecule groups, and even into single water molecules, reaching the nanometer level. Therefore, the water flow through the channel can be magnetized efficiently;

(2) At least two axial projections produced by at least two magnetic rods in the present invention are located at different positions of any cross section, therefore, the magnetic field lines generated by at least two magnetic rods cover the cross section of the channel, therefore, The water flow through the channel can be fully magnetized;

(3) The material of the inner magnet column of the selected magnetic bar in the present invention is NdFeB permanent magnet, the surface remanence is greater than 12000Gs, and the magnetism is strong. Compared with the S-shaped circuit design, the water flow through the structure of the present invention is faster and the magnetization efficiency is higher. High, and the magnetization device is easy to clean and maintain.

Description of drawings

Fig. 1 is the front sectional view of the squirrel-cage magnetized water equipment disclosed by the present invention;

Fig. 2 is a side view of the squirrel-cage magnetized water device disclosed by the present invention;

Fig. 3 is a structural schematic diagram of the magnetic bar disclosed in the present invention.

Among them, 1. shell; 2. channel; 21. water inlet; 22. water outlet; 3. partition; 31. positioning hole; 32. water hole; 4. magnetic bar; column; 43, protective layer; 5, access flange; 51, 52, connecting holes.

Detailed ways

The present invention will be further described below in conjunction with the principles, drawings and embodiments of the present invention.

Embodiment one

Referring to FIG. 1 and FIG. 2 , as shown in the legend therein, a squirrel-cage magnetized water device includes a housing 1 , a channel 2 passing through the housing 1 , and a magnetization system disposed in the channel 2 . One end of the channel 2 is a water inlet 21, and the other end of the channel 2 is a water outlet 22. A bracket assembly is arranged in the channel 2. The bracket assembly includes two partitions 3, and the two partitions 3 are respectively arranged at different longitudinal positions of the channel 2. position, the circumferential surface of the partition 3 is relatively fixed to the inner wall of the channel 2, five positioning holes 31 are arranged on the end surface of the partition 3, and a plurality of water passage holes 32 are also arranged on the end surface of the partition 3, the above-mentioned The magnetization system includes five magnetic rods 4 that are magnetized axially, one end of each magnetic rod 4 extends toward the water inlet 21, and the other end of each magnetic rod 4 extends toward the water outlet 22, and the five magnetic rods 4 respectively have axially projected Five axial projections on any cross-section of the channel 2, the five axial projections are located at different positions of any cross-section, five magnetic rods 5 are uniformly arranged on any cross-section, and the magnetic rods 3 are arranged along the Extending longitudinally, five magnetic rods 4 are correspondingly connected in five positioning holes 31 .

Wherein, the inner wall of the channel 2 is made of non-ferromagnetic metal material or PVC material, the separator 3 is made of resin material, and the magnetic bar 4 is made of NdFeB permanent magnet.

The optimization scheme wherein is that the magnetic rod 4 includes a multi-section magnet column 41 and a multi-section barrier column 42, the magnet column 41 and the barrier column 42 are arranged at intervals along the axial direction, the adjacent magnet columns 41 are opposite to each other with the same pole, and the material of the barrier column 42 is copper Or aluminum or austenitic stainless steel, the outer surface of magnetic bar 5 is provided with protective layer 43, and protective layer 43 is stainless steel layer or Teflon layer, and thickness is not more than 0.5mm, and the opposite magnet post 41 of the same pole of each magnetic bar can be A plurality of relatively independent closed magnetic force lines of the magnetic field is generated, and the uniform arrangement of multiple magnetic rods generates staggered magnetic force lines of the magnetic field, which is conducive to enhancing the strength of the magnetic field force in the entire channel 2 .

The optimization scheme is that the water inlet 21 and the water outlet 22 are respectively provided with an access flange 5, and the access flange 5 is provided with two sets of connecting holes 51, 52, and the connection between the connecting hole 51 and a pipe flange of a specification The hole is detachably connected, and the connecting hole 52 is detachably connected with the connecting hole of the pipeline flange of another specification.

Embodiment two

The rest is the same as the first embodiment, the difference is that the above-mentioned magnetization system includes six magnetic bars or four magnetic bars magnetized in the axial direction, and the four or six magnetic bars are uniformly arranged on any cross-section, and the four or six magnetic bars are arranged along the channel. extending longitudinally and parallel to each other.

Embodiment Three

The rest is the same as the first embodiment, except that the bracket assembly includes three or four partitions.

Claims (10)

1. a squirrel-cage magnetized water equipment, comprise housing, the passage running through described housing and the magnetizing system be arranged in described passage, one end of described passage is water-in, the other end of described passage is water outlet, it is characterized in that, described magnetizing system comprises at least two bar magnets of axial magnetized, described in every bar, one end of bar magnet extends to described water-in, described in every bar, the other end of bar magnet extends to described water outlet, described at least two bar magnets have at least two axis projections be projected in vertically on arbitrary cross section of described passage respectively, described at least two axis projections are positioned at the different positions place of described arbitrary cross section.

2. magnetized water equipment according to claim 1, it is characterized in that, described bar magnet comprises at least two sections of magnetic columns and at least one section of obstruct post, described magnetic column and described obstruct post are arranged at interval vertically, between adjacent magnetic column, homopolarity is relative, and the material of described obstruct post is copper or aluminium or austenitic stainless steel.

3. magnetized water equipment according to claim 1, is characterized in that, the uniform setting on described arbitrary cross section of described at least two bar magnets, described bar magnet is extending longitudinally along described passage.

4. magnetized water equipment according to claim 1, it is characterized in that, bracket component is provided with in described passage, described bracket component comprises at least two pieces of dividing plates, described at least two pieces of dividing plates are separately positioned on the different positions place of the longitudinal direction of described passage, the peripheral surface of described dividing plate is relative with the inwall of described passage fixing, the end face of described dividing plate is provided with at least two pilot holes, in at least two pilot holes described in described at least two bar magnet correspondences are connected to, the end face of described dividing plate also runs through and is provided with multiple limbers.

5. magnetized water equipment according to claim 1, is characterized in that, the outside surface of described bar magnet is provided with protective layer, and described protective layer is stainless steel layer or Teflon layer.

6. magnetized water equipment according to claim 5, is characterized in that, the thickness of described protective layer is not more than 0.5mm.

7. magnetized water equipment according to claim 1, it is characterized in that, described magnetizing system comprises four bar magnets or six bar magnets, described four or six bar magnet uniform settings on described arbitrary cross section, and described four or six bar magnets are along the extending longitudinally of described passage and be parallel to each other.

8. magnetized water equipment according to claim 1, is characterized in that, the inwall of described passage is non-ferromagnetic metal material or PVC material.

9. magnetized water equipment according to claim 1, is characterized in that, described dividing plate is resin material.

10. magnetized water equipment according to claim 1, it is characterized in that, described water-in and described water outlet are respectively arranged with access flange, described access flange is provided with at least one group of connecting hole, and described at least one group of connecting hole is connected with the connecting hole of the pipe flange of at least one specification is dismountable.