CN210410676U - Magnetization processor of single magnetic pole circular tube runner - Google Patents

Abstract

The utility model provides a magnetization processor of single magnetic pole pipe runner. A magnetization processor, comprising: the clamp body assembly is provided with a plurality of clamp bodies and a connecting device for connecting the plurality of clamp bodies; the plurality of clamping bodies are arranged along the circumferential direction of the magnetic processing round pipe and are configured to clamp the magnetic processing round pipe; at least one magnetic channel hole group is arranged on the plurality of clamp bodies, and each magnetic channel hole group is provided with a plurality of magnetic channel holes which are uniformly distributed along the circumferential direction of the round pipe to be magnetically processed; and a plurality of magnets, each magnet being mounted to one of the magnetic passage holes; and the S magnetic pole end of each magnet faces the round pipe to be magnetically processed, and the N magnetic pole end faces away from the round pipe to be magnetically processed. No matter how many magnetization treatment effects are required in production, how many groups of the magnetization treatment devices are installed according to requirements through the same installation structure, so that the mass production of products is facilitated, the quality can be guaranteed, the production cost is reduced, and the technical popularization is facilitated.

Description

Magnetization processor of single magnetic pole circular tube runner

Technical Field

The invention relates to a magnetization processor, in particular to a magnetization processor of a single-magnetic-pole circular tube runner, which is suitable for the occasions of single-magnetic-pole magnetization processing of irrigation, seed optimization processing and drinking water magnetization of crops such as grains, vegetables and the like.

Background

At present, along with the continuous deepening of scientific technology, the magnetization of magnet is more and more applied to arouse the attention of scientific research institutions, some have already applied the magnetization of magnet to aspects such as drinking water, magnetic therapy equipment, water pipe scale removal scale control, and obtained certain effect, however, the magnetizer that most of manufacturers produced at present all adopts N, S paired polarity arrangement this kind of traditional magnetism processing structure mode, belongs to the dipole structure, this dipole structure, because the effect of S utmost point magnetization is different with N utmost point magnetization, so the science and science field has proposed single magnetic pole theory, along with the proposition of single magnetic pole theory and a large amount of practical application examples explain: the method obtains favorable results no matter the agricultural water is magnetized, or the grain seeds are treated, the drinking water is treated, the magnetic therapy is used for treating diseases, and the like, and the single magnetic pole is used for magnetizing.

Therefore, in order to achieve the above objects, the "single magnetic pole magnetizer" of chinese patent CN201010205169.2 and the "single magnetic pole magnetizer" of utility model CN201020232106.1 are proposed simultaneously, which include: the single-magnetic-pole magnetizer comprises a single-magnetic-pole magnetizer main body, reducer pipes, grooves, a passage hole, soft iron rings and tile-shaped magnets, wherein the tile-shaped magnets are two, each tile-shaped magnet is a semicircular tile-shaped magnet close to 180 degrees, the two semicircular tile-shaped magnets are buckled with each other to form a cylinder with the center only having an S pole, the soft iron rings are arranged outside the two semicircular tile-shaped magnets, N poles of the two tile-shaped magnets are respectively adsorbed on the inner circumference of the soft iron ring, a certain gap is formed between the two tile-shaped magnets at the position where the semicircular circumferences are close to each other, the reducer pipes are arranged at two ends of the single-magnetic-pole magnetizer main body, the grooves are formed in the reducer pipes, and the outer wall of the single-magnetic-pole magnetizer, the inner wall of the passage hole and the isolation layer between the two tile-. By adopting the scheme, the single-magnetic-pole magnetizer has the characteristics of good magnetization effect, high speed, wide application range, simple manufacturing process and low cost. However, the single-pole magnetizer of the present invention is actually a single-pole processor with a pair of magnetic semi-arc magnets facing each other, which cannot extend the length of the magnetic processing flow and can be completed only by injection molding! Complex process, unfavorable field installation and limited application of single-pole magnetic processor! Therefore, it is necessary to develop the single magnetic pole magnetizer as soon as possible and to apply the single magnetic pole magnetizer to the production and life of people widely and conveniently so as to serve people better.

Disclosure of Invention

The invention aims to overcome at least one defect of the existing single-magnetic-pole magnetizer, provides the magnetization processor of the single-magnetic-pole circular tube runner, is convenient to install on site, and relieves the application limit of the existing single-magnetic-pole magnetic processor.

Specifically, the invention provides a magnetization processor of a single-magnetic-pole circular tube runner, which comprises:

a clip assembly having a plurality of clips and a connecting device connecting the plurality of clips; the plurality of clamping bodies are arranged along the circumferential direction of the magnetic processing round pipe and are configured to clamp the magnetic processing round pipe; at least one magnetic channel hole group is arranged on the plurality of clamp bodies, and each magnetic channel hole group is provided with a plurality of magnetic channel holes which are uniformly distributed along the circumferential direction of the round pipe to be magnetically processed; and

a plurality of magnets, each of said magnets mounted to one of said magnetic passage holes; the S magnetic pole end of each magnet faces the round pipe to be magnetically processed, and the N magnetic pole end of each magnet faces away from the round pipe to be magnetically processed; or the N magnetic pole end of each magnet faces the round pipe to be magnetically processed, and the S magnetic pole end of each magnet faces away from the round pipe to be magnetically processed.

Optionally, the magnetization processor further comprises a plurality of fixtures;

each magnetic channel hole is a through hole, and each fixing device is arranged at the outer end of one magnetic channel hole and is in contact and abutting contact with the corresponding magnet, so that the corresponding magnet is in contact and abutting contact with the round pipe to be magnetically processed.

Optionally, a magnetic shielding block is provided between each magnet and the respective fixture.

Optionally, the outer end of each magnetic channel hole is provided with a thread, and each fixing device is a jackscrew.

Optionally, each of the magnetic passage holes is a blind hole, and the opening of the blind hole faces the round pipe to be magnetically processed.

Optionally, a plurality of the magnetic channel hole groups are sequentially arranged along the axial direction of the round pipe to be magnetically processed.

Optionally, the connecting means comprises a plurality of clamping bolts;

the number of the clamp bodies is two, and the two clamp bodies are symmetrically arranged;

the clamp body is provided with a plurality of connecting holes and a groove for accommodating the round pipe to be magnetically processed, wherein each connecting hole on one clamp body is coaxially arranged with each connecting hole on the other clamp body so as to install one clamping bolt.

The invention also provides a use method of the magnetization processor of the single-magnetic-pole circular tube runner, which comprises the following steps:

installing a plurality of clamp bodies on the round pipe to be magnetically processed through a connecting device;

a magnet is mounted in each magnetic tunnel hole.

Optionally, the mounting a magnet in each of the magnetic tunnel holes comprises:

inserting each of the magnets into a respective one of the magnetic tunnel bores;

placing a magnetic shielding block in each magnetic channel hole;

and a jackscrew is arranged in each magnetic channel hole.

Optionally, the method further comprises: and a plurality of magnetization processors are arranged on the outer side of the round pipe to be magnetically processed.

The magnetizing processor of the single-magnetic-pole circular tube flow channel and the use method thereof mount a plurality of circular tubes to be magnetically processed, for example, mount 1-12 circular tubes according to production or working requirements. That is to say, no matter how many magnetization treatment effects are required in production, as long as according to the design requirement, through the same above-mentioned magnetization treater of mounting structure, according to how many groups of demand installation can, not only made things convenient for product batch production, still can guarantee the quality, reduction in production cost makes things convenient for technical popularization.

Furthermore, a plurality of cylindrical magnets or square cylindrical magnets are arranged in an equally-divided circumferential manner, so that the round pipe to be magnetically treated can be reasonably magnetized, and the magnetizing effect is good. And a single-magnet magnetization technology world science and technology high-tech project is adopted, so that the invention is an unprecedented invention and has higher value.

Further, press from both sides through the clamp earlier and tightly by the magnetic treatment pipe, then install the magnet, guarantee through jackscrew etc. that the magnet is firmly installed, simple to operate, swift, high-efficient, and the installation is firm.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

FIG. 1 is a schematic front view of a magnetization processor according to one embodiment of the present invention;

FIG. 2 is a schematic top view of the magnetization processor shown in FIG. 1;

FIG. 3 is a schematic side view of the magnetization processor shown in FIG. 1;

FIG. 4 is a schematic cross-sectional view taken along plane K-K of FIG. 1;

FIG. 5 is a schematic diagram of a particular use of the magnetization processor shown in FIG. 1;

fig. 6 is a schematic diagram of another specific use of the magnetization processor shown in fig. 1.

Detailed Description

FIG. 1 is a schematic front view of a magnetization processor according to one embodiment of the present invention. As shown in fig. 1, and with reference to fig. 2-6, an embodiment of the present invention provides a single pole round tube flow channel magnetization processor 20 that includes a collet assembly and a plurality of magnets 22. The clip body assembly may have a plurality of clip bodies 21, and a connecting means connecting the plurality of clip bodies 21; the plurality of clamp bodies 21 are provided along the circumferential direction of the magnetic processing round pipe 30 and configured to clamp the magnetic processing round pipe 30; and at least one magnetic channel hole group is arranged on the plurality of clamp bodies 21, and each magnetic channel hole group is provided with a plurality of magnetic channel holes which are uniformly distributed along the circumferential direction of the round pipe 30 to be magnetically processed. Each magnet 22 is mounted to one of the magnet passage holes; the S magnetic pole end of each magnet 22 faces the magnetic processing round pipe 30, and the N magnetic pole end faces away from the magnetic processing round pipe 30; or, the N-pole end of each magnet 22 faces the magnetically treated circular tube 30, and the S-pole end faces away from the magnetically treated circular tube 30. Further, when there are a plurality of sets of magnetic tunnel holes, the plurality of sets of magnetic tunnel holes are arranged in order along the axial direction of the round pipe 30 to be magnetically processed. When one magnetic channel hole group is arranged, the magnetic channel hole group is arranged in the middle of the clamp body 21 group. The space inside the plurality of clamp bodies 21 may also be referred to as a magnetic treatment space 23, that is, other objects to be magnetized may also be placed inside the plurality of clamp bodies 21.

For example, the attachment means comprises a plurality of clamping bolts 24, which may be national standard bolts M10 (GB/T70, 1; 70, 2). Preferably, the number of the clamp bodies 21 is two, namely an upper clamp body and a lower clamp body, and the two clamp bodies 21 are symmetrically arranged, that is, the upper clamp body and the lower clamp body have the same structural size and are installed and used in pairs. The clamp body 21 has a plurality of attachment holes and a recess for receiving the magnetically treated cylindrical tube 30, wherein each attachment hole on one clamp body 21 is coaxially disposed with each attachment hole on the other clamp body 21 for mounting a clamping bolt 24. The clamp body 21 can be made of non-magnetic materials and is processed into a concave shape, an arc matched with the round pipe 30 to be magnetically processed can be processed in a concave central concave position, four connecting holes for clamping are processed on the periphery of the concave central concave position, and 2-12 magnetic channel holes with uniform angles are processed towards the concave central position outside the concave central concave position for installing the magnet 22. The clamping bolt 24 is a bolt of national standard according to production requirements.

In some preferred embodiments of the present invention, the magnetization processor 20 further comprises a plurality of fixtures. Each of the magnetic passage holes is a through hole, and each of the fixing means is provided at the outer end of one of the magnetic passage holes and is brought into contact abutment with the corresponding magnet 22 so that the corresponding magnet 22 is brought into contact abutment with the magnetically treated circular tube 30. Preferably, a magnetic shielding block 26 is provided between each magnet 22 and the corresponding fixture. Preferably, the magnet 22 is a cylindrical magnetic block and the magnetic shield block 26 is a cylindrical shield plate. Further, the outer end of each magnetic channel hole is provided with a thread, and each fixing device is a jackscrew 25. The magnet 22 preferably contacts against the magnetically treated cylindrical tube 30. In some alternative embodiments of the invention, each magnetic access hole is a blind hole that opens into the magnetically treated tubular 30. When the magnetic clamp is installed, the magnet 22 is firstly placed in the corresponding blind hole, and then the plurality of clamp bodies 21 are installed on the round pipe 30 to be magnetically processed by utilizing the connecting device, so that the installation is convenient and rapid.

The invention also provides a use method of the magnetization processor 20 of the single-magnetic-pole circular tube runner, which comprises the following steps: mounting the plurality of clamps 21 to the magnetic processing round pipe 30 by a connecting device; a magnet 22 is mounted in each of the magnetic tunnel holes. Specifically, mounting the magnet 22 in each of the magnetic tunnel holes includes: inserting each magnet 22 into a respective magnetic tunnel hole; placing a magnetic shielding block 26 in each magnetic channel hole; a jackscrew 25 is installed in each of the magnetic tunnel holes. According to requirements, a plurality of magnetization processors 20 can be arranged on the outer side of the round pipe 30 to be magnetically processed in use. As shown in fig. 5, three magnetization processors 20 are provided on one magnetically processed round tube 30. As shown in fig. 6, five magnetization processors 20 are provided on one magnetically processed round tube 30.

In some specific embodiments of the invention, the upper and lower clamp bodies are oppositely arranged on the circular pipe flow channel to be magnetized in an installation site, the circular pipe flow channel to be magnetized is clamped, and the circular pipe flow channel is further clamped by using clamping bolts through four groups of connecting holes for clamping respectively. And then the magnetic block, the magnetic shielding piece and the jackscrew are arranged in the magnetic passage hole, and the magnetic poles of the magnetic block, which face the circular tube flow passage, are the same pole. The jackscrew can make the magnetic path firmly contact with the circular tube runner. Furthermore, if the negative electrode of the magnetic block faces the circular tube flow channel, the purpose of single-pole magnetization through negative magnetic treatment is achieved.

If a plurality of magnetization processors are needed, the magnetization processors are sequentially installed along the length direction of the circular tube flow channel. Specifically, two magnetization processors, three magnetization processors and four magnetization processors can be respectively arranged on the circular tube flow channel, so that the magnetization processing area can be respectively enlarged by 2 times, 3 times and 4 times. The principle can also realize 4-pole plus-minus 8 single-pole magnetizers! It is not described at all. I.e. with 4 magnetization processors 8 types of single pole magnetizers can be realized.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.

Claims (7)

1. A magnetization treater of single magnetic pole circular tube runner, characterized by comprising:

a clip assembly having a plurality of clips and a connecting device connecting the plurality of clips; the plurality of clamping bodies are arranged along the circumferential direction of the magnetic processing round pipe and are configured to clamp the magnetic processing round pipe; at least one magnetic channel hole group is arranged on the plurality of clamp bodies, and each magnetic channel hole group is provided with a plurality of magnetic channel holes which are uniformly distributed along the circumferential direction of the round pipe to be magnetically processed; and

a plurality of magnets, each of said magnets mounted to one of said magnetic passage holes; the S magnetic pole end of each magnet faces the round pipe to be magnetically processed, and the N magnetic pole end of each magnet faces away from the round pipe to be magnetically processed; or the N magnetic pole end of each magnet faces the round pipe to be magnetically processed, and the S magnetic pole end of each magnet faces away from the round pipe to be magnetically processed.

2. The magnetization processor of claim 1, further comprising a plurality of fixtures;

each magnetic channel hole is a through hole, and each fixing device is arranged at the outer end of one magnetic channel hole and is in contact and abutting contact with the corresponding magnet, so that the corresponding magnet is in contact and abutting contact with the round pipe to be magnetically processed.

3. The magnetization processor according to claim 2,

and a magnetic shielding block is arranged between each magnet and the corresponding fixing device.

4. The magnetization processor according to claim 2,

the outer end of each magnetic channel hole is provided with a thread, and each fixing device is a jackscrew.

5. The magnetization processor according to claim 2,

each magnetic channel hole is a blind hole, and the opening of the blind hole faces the round pipe to be magnetically processed.

6. The magnetization processor according to claim 1,

the magnetic channel hole groups are sequentially arranged along the axial direction of the round pipe to be magnetically processed;

each of the magnets is a cylindrical magnet.

7. The magnetization processor according to claim 1,

the connecting means comprises a plurality of clamping bolts;

the number of the clamp bodies is two, and the two clamp bodies are symmetrically arranged;

the clamp body is provided with a plurality of connecting holes and a groove for accommodating the round pipe to be magnetically processed, wherein each connecting hole on one clamp body is coaxially arranged with each connecting hole on the other clamp body so as to install one clamping bolt.

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