TWI666171B - Fluid magnetizer - Google Patents

Abstract

A fluid magnetizer includes a fan-shaped magnetic group and a base, and a pipeline receiving hole is formed between the fan-shaped magnetic group and the base to receive a fluid pipeline and carry out fluid in the fluid pipeline. Magnetization.

Description

Fluid magnetizer

The invention relates to a fluid magnetizer. In particular, there is a fluid magnetizer with a flat structure.

When water passes through a vertical magnetic field of a certain strength, some associated water molecules connected by hydrogen bonding are broken, causing larger water molecule groups to separate into smaller water molecule groups, and the permeability of the smaller water molecule groups to water. Physical properties such as chemical solubility and surface tension are all enhanced.

In industrial applications, a small amount of boiler water is initially treated with a magnetic field to reduce scale, and industrial raw water can also be magnetized to achieve functions such as scale prevention, descaling, sterilization, and algae elimination.

Nowadays, the application range of magnetized water is constantly increasing. For example, in chemical industry, agriculture, construction, etc., there are examples of applications that use magnetized water to improve the status quo. In recent years, the food and pharmaceutical industries have also begun to use magnetized water to improve human health. Fluid magnetizers are also widely used in the treatment of oil products, including gasoline, diesel, and kerosene. Their effects include increasing the fluidity of oil, inhibiting the proliferation of bacteria, improving combustion efficiency, and reducing the generation of exhaust gases after combustion. Energy saving and environmental protection benefits.

However, there is also a magnetizer traditionally used to magnetize water. Some defects, such as insufficient magnetic field strength or difficult installation, often cause user distress. How to improve the magnetizer will contribute to the improvement of water quality and increase production efficiency. At the same time, the purpose of improving national health can also be achieved.

This summary is intended to provide a simplified summary of this disclosure so that readers may have a basic understanding of this disclosure. This summary is not a comprehensive overview of the disclosure, and it is not intended to indicate important / critical elements of the embodiments of the invention or to define the scope of the invention.

An object of the present invention is to provide a fluid magnetizer, which can effectively magnetize a liquid, and can be conveniently installed on a planar structure, such as a wall or the like, to facilitate the magnetization of liquid in a pipeline, and to increase the magnetization of the magnetizer. Application range.

To achieve the above object, a technical aspect of the present invention relates to a fluid magnetizer including a fan-shaped magnetic group and a base, and a pipe-receiving hole is formed between the fan-shaped magnetic group and the base to be used for A fluid pipeline is accommodated, and the magnetization of the fluid in the fluid pipeline is performed.

The base further includes a bottom plate and a magnet installed on the bottom plate, and magnetic lines of force formed by the magnet and the sector-shaped magnetic group pass through the pipeline accommodation hole to magnetize the fluid in the fluid pipeline, wherein the magnet is a flat plate-shaped magnet.

In some embodiments, the fluid magnetizer further includes a horizontal magnetic group disposed between the fan-shaped magnetic group and the base.

In some embodiments, the sector magnetic group includes a first magnet portion and a second magnet portion, and the first magnet portion and the second magnet portion are mirror-opposed. Weigh settings.

In some embodiments, the first magnet portion has a first fan-shaped magnet having a circumferential magnetic field line, and the first magnet portion further has a second fan-shaped magnet having a radial magnetic field line.

In some embodiments, the horizontal magnetic group has a first plate-shaped magnet and a second plate-shaped magnet, and the magnetic field lines of the first and second plate-shaped magnets are disposed in opposite directions to the magnetic field lines of the base magnet.

In some embodiments, the bottom plate of the base is formed of a magnetically permeable material.

In some embodiments, the bottom plate of the base is formed of a non-magnetic material.

In some embodiments, the fluid magnetizer further includes a casing to cover the sector magnetic group and the horizontal magnetic group.

In summary, the aforementioned fluid magnetizer is not only convenient for the user to install, but also can increase the strength of the magnetic field, increase the capacity of the magnetized fluid, and reduce the volume of the required magnet, reduce the production cost, reduce the space limitation, and reach the magnetized fluid. Effect.

100‧‧‧fluid magnetizer

110‧‧‧base

112‧‧‧ floor

114‧‧‧Magnet

120‧‧‧horizontal magnetic group

122‧‧‧The first flat magnet

124‧‧‧Second flat plate magnet

130‧‧‧Fan Magnetic Group

132‧‧‧The first sector magnet

134‧‧‧Second sector magnet

136‧‧‧Third sector magnet

138‧‧‧Fourth sector magnet

140‧‧‧ fluid pipeline

150‧‧‧pipe receiving hole

160‧‧‧Shell

170‧‧‧First magnet section

180‧‧‧Second magnet section

210‧‧‧ the first measuring point

220‧‧‧Second measurement point

230‧‧‧ magnetic lines

240‧‧‧ magnetic lines

310‧‧‧base

312‧‧‧ floor

314‧‧‧magnet

410‧‧‧First measurement point

420‧‧‧Second measurement point

430‧‧‧ magnetic field lines

440‧‧‧ magnetic field lines

610‧‧‧ Magnetic Direction

620‧‧‧ Magnetic Direction

630‧‧‧ Magnetic Direction

640‧‧‧ Magnetic Direction

650‧‧‧ Magnetic Direction

660‧‧‧ Magnetic Direction

670‧‧‧ magnetic direction

680‧‧‧ magnetic direction

In order to make the above and other objects, features, advantages, and embodiments of the present disclosure more comprehensible, the description of the drawings is as follows: FIG. 1 is a schematic diagram of a fluid magnetizer according to an embodiment of the present invention. .

FIG. 2 is a schematic diagram of magnetic field lines of the fluid magnetizer according to FIG. 1.

FIG. 3 is a schematic diagram of a fluid magnetizer according to another embodiment of the present invention.

Fig. 4 is a schematic diagram of magnetic field lines of a fluid magnetizer according to Fig. 3.

FIG. 5 is a schematic perspective view of a fluid magnetizer according to an embodiment of the present invention.

The following is a detailed description with examples and the accompanying drawings, but the examples provided are not intended to limit the scope covered by this disclosure, and the description of the structure operation is not used to limit the order of its implementation. Any recombination of components The structure and the devices with the same effect are all the scope covered by this disclosure. In addition, the drawings are for illustrative purposes only, and are not drawn to the original dimensions. In order to facilitate understanding, the same elements or similar elements in the following description will be described with the same symbols.

In addition, the terms used throughout the specification and the scope of patent applications, unless otherwise specified, usually have the ordinary meaning of each term used in this field, the content disclosed here, and the special content. . Certain terms used to describe this disclosure are discussed below or elsewhere in this specification to provide additional guidance to those skilled in the art on the description of this disclosure.

In the embodiments and the scope of patent application, unless there is a special limitation on the article in the text, "a" and "the" can refer to a single or plural. The numbers used in the steps are only used to identify the steps to make it easier to say It is not used to limit the sequence and implementation.

Secondly, the terms "including", "including", "having", "containing" and the like used in this article are all open-ended terms, which means including but not limited to.

Referring to FIGS. 1, 2 and 5, FIG. 1 is a schematic diagram of a fluid magnetizer according to an embodiment of the present invention, and FIG. 2 is a schematic diagram of a magnetic field of the fluid magnetizer of FIG. FIG. 5 is a schematic perspective view of a fluid magnetizer according to an embodiment of the present invention.

As shown in FIGS. 1 and 5, the fluid magnetizer 100 includes a fan-shaped magnetic group 130 and a base 110. Between the fan-shaped magnetic group 130 and the base 110, a pipeline receiving hole 150 is formed for receiving a fluid pipeline 140. When the fluid flows through the fluid magnetizer 100 through the fluid line 140, it is magnetized by a magnetic field to improve the fluid properties. Among them, the fluid may be, but is not limited to, water. It may also be other fluids (or magnetizable fluids) with molecular polarity, such as gasoline, diesel, etc. The use of fluid magnetizers due to fluid permeability, chemical solubility and surface The physical properties such as tension are greatly enhanced, the engine operation efficiency is improved, and it has a fuel-saving effect. The transportation of oil pipes can also be improved due to the reduced viscosity of magnetized oil. In addition, magnetized water can also be used in agriculture, fishery, and aquaculture. By improving the quality of water used in aquaculture, it can improve the quality and value of aquaculture.

The base 110 can be conveniently fixed on a planar structure, such as a wall or the surface of a device, and the fluid pipeline 140 can be conveniently installed in the pipeline accommodation hole 150 of the fluid magnetizer 100, so the fluid pipe can also be simultaneously installed. The road 140 is fixed to a wall or a surface of a device.

The base 110 further includes a bottom plate 112 and a magnet 114. The magnet 114 is mounted on the bottom plate 112. The magnetic lines of force formed by the magnet 114 and the fan-shaped magnetic group 130 can pass through the pipeline accommodation hole 150 vertically to magnetize the fluid in the fluid pipeline 140. The magnet 114 is preferably a flat plate magnet, and the bottom plate 112 is preferred. The ground is also made of a flat plate.

In some embodiments, the fluid magnetizer 100 further includes a horizontal magnetic group 120 disposed between the fan-shaped magnetic group 130 and the base 110 to increase the diameter of the pipeline accommodation hole 150 to accommodate the diameter of the fluid pipeline 140, and more Further increase the magnetic field strength to the strength of the fluid magnetization.

In some embodiments, the sector magnetic group 130 includes a first magnet portion 170 and a second magnet portion 180, and the first magnet portion 170 and the second magnet portion 180 are both mirror-symmetrical.

In some embodiments, the sector magnetic group 130 is a 180 degree semi-circular magnetic group.

In some embodiments, the first magnet portion 170 has a first fan-shaped magnet 132 having a magnetic direction 630 in the circumferential direction. In addition, the first magnet portion 170 further has a second sector magnet 134 having a radial magnetic direction 640.

Similarly, the second magnet portion 180 has a third sector magnet 136 having a radial magnetic direction 650. In addition, the second magnet portion 180 further has a fourth fan-shaped magnet 138 having a magnetic direction 660 in the circumferential direction.

In some embodiments, the horizontal magnetic group 120 of the fluid magnetizer 100 has a first plate-shaped magnet 122 and a second plate-shaped magnet 124, and the magnetic direction 620 of the first plate-shaped magnet 122 and the second plate-shaped magnet 124 The magnetic direction 670 is set in the same direction as the magnet of the base 110 The magnetic direction 610 of 114 is opposite.

In some embodiments, the center of the magnet 114 of the base 110 is aligned with the center of the pipe receiving hole 150.

Referring to FIG. 2, as shown in the figure, with the above-mentioned magnet arrangement, the magnetic field lines exhibit an enhanced effect, and closed-loop magnetic field lines 230 and magnetic field lines 240 are formed, which are symmetrically formed, thereby increasing the pipeline accommodation hole 150. And the magnetic field strength of the fluid line 140. Among them, the magnetic force lines 230 and the magnetic force lines 240 are preferably perpendicular to the flow direction of the fluid in the fluid pipeline 140 in the pipeline accommodation hole 150.

In some embodiments, the bottom plate 112 of the base 110 is formed of a magnetically permeable material, such as low-carbon steel, pure iron, industrial pure iron, or silicon steel. However, the present invention is not limited thereto. Taking N45 magnet as an example, its NdFeB magnet has a maximum magnetic energy product of about 45MGOe "megagauss-oersted" (MGOe), and can generate about 9000 Gauss at the first measurement point 210. ) To 12000 Gauss, preferably greater than 9500 Gauss, and the second measurement point 220 generates a magnetic field strength of about 8000 Gauss to 10,000 Gauss, preferably greater than 8500 Gauss ( Gauss).

Compared with the conventional magnetizer, the fluid magnetizer 100 can not only be conveniently installed, but also effectively provide the required magnetic field strength to magnetize the fluid flowing through the fluid magnetizer 100.

Further referring to FIGS. 3 and 4, FIG. 3 is a schematic diagram of a fluid magnetizer according to another embodiment of the present invention, and FIG. 4 is a schematic diagram of a magnetic field of the fluid magnetizer of FIG. 3. As shown in Figure 3, the fluid magnetizer 100 It includes a fan-shaped magnetic group 130 and a base 310. Between the fan-shaped magnetic group 130 and the base 310, a pipeline receiving hole 150 is formed for receiving a fluid pipeline 140. As in FIG. 1, the base 310 can be conveniently fixed on a planar structure, such as a wall or the surface of a device, and the fluid pipeline 140 can be conveniently installed in the pipeline accommodation hole 150 of the fluid magnetizer 100. At the same time, the fluid pipeline 140 is fixed on the wall or the surface of the equipment.

The base 310 further includes a bottom plate 312 and a magnet 314. The magnet 314 is mounted on the bottom plate 312. The magnetic lines of force formed by the magnet 314 and the fan-shaped magnetic group 130 pass through the pipe accommodation hole 150 to magnetize the fluid in the fluid pipe 140. The magnet 314 is preferably a flat plate magnet, and the bottom plate 312 is also preferably Made of a flat plate. In addition, the fluid magnetizer 100 further includes a horizontal magnetic group 120 disposed between the fan-shaped magnetic group 130 and the base 310 to increase the pipeline receiving hole 150 to accommodate the diameter of the fluid pipeline 140 and further increase the magnetic field strength. To increase the intensity of magnetization.

In some embodiments, the magnetic direction 620 of the first plate-shaped magnet 122 and the magnetic direction 670 of the second plate-shaped magnet 124 of the horizontal magnetic group 120 of the fluid magnetizer 100 are disposed in the same direction as those of the magnet 314 of the base 310. The direction of the magnetic direction 680 is opposite.

Referring to FIG. 4, as shown in the figure, with the above-mentioned magnet arrangement, the magnetic field lines exhibit an enhanced effect, and closed-loop magnetic field lines 430 and magnetic field lines 440 are formed symmetrically, thereby increasing the pipeline accommodation hole 150. And the magnetic field strength of the fluid line 140. Among them, the magnetic field lines 430 and 440 are preferably perpendicular to the flow direction of the fluid in the fluid pipeline 140 in the pipeline accommodation hole 150.

In some embodiments, the bottom plate 312 is made of a non-magnetic material. Taking N45 magnet as an example, its neodymium-iron-boron magnet has a maximum magnetic energy product of 45 MGOe (megagauss-oersted, MGOe). ), A magnetic field strength of about 8500 Gauss to 11,000 Gauss can be generated at the first measurement point 410, preferably greater than a magnetic field strength of 9000 Gauss, and about 6000 Gauss at the second measurement point 420 The magnetic field strength from (Gauss) to 9000 Gauss is preferably greater than the magnetic field strength from 8000 Gauss.

Therefore, compared with the conventional magnetizer, the fluid magnetizer 100 using the non-magnetic material base plate 312 still has convenient installation, and can also effectively provide the required magnetic field strength to magnetize the fluid flowing through the fluid magnetizer 100 . Wherein, the non-magnetic material may be made of materials such as plastic and resin, but the present invention is not limited thereto.

In some embodiments, the fluid magnetizer 100 further includes a housing 160 that can cover the sector magnetic group 130 and the horizontal magnetic group 120 to avoid magnet separation. The casing 160 may be a plastic casing or a resin casing, but the present invention is not limited thereto.

In some embodiments, the base 310 can also be constructed by simply using a non-magnetic base plate without installing a magnet 314. It can also easily install the fluid magnetizer 100 on a suitable wall and equipment surface.

In summary, the fluid magnetizer is not only convenient for users to install, but also can enhance the strength of the magnetic field, increase the ability of the magnetized fluid, and reduce the volume of required magnets, reduce production costs, reduce space constraints, and achieve magnetization. The efficacy of the fluid.

Although this disclosure has been disclosed above in terms of implementation, it is not It is used to limit this disclosure. Any person with ordinary knowledge in the field can make various modifications and retouching without departing from the spirit and scope of this disclosure. Therefore, the scope of protection of this disclosure shall be defined by the scope of the attached patent application. Whichever comes first.

Claims (10)

A fluid magnetizer includes: a fan-shaped magnetic group; and a base, wherein a pipe-receiving hole is formed between the fan-shaped magnetic group and the base to receive a fluid pipeline. The fluid magnetizer according to claim 1, wherein the base further includes a bottom plate and a magnet, which are installed on the bottom plate, and a magnetic field line formed by the magnet and the sector magnetic group passes through the pipeline accommodation hole to magnetize the The fluid in the fluid pipeline, wherein the magnet is a flat plate magnet. The fluid magnetizer according to claim 2, further comprising a horizontal magnetic group disposed between the fan-shaped magnetic group and the base. The fluid magnetizer according to claim 3, wherein the sector magnetic group includes a first magnet portion and a second magnet portion, and the first magnet portion and the second magnet portion are mirror-symmetrical. The fluid magnetizer according to claim 4, wherein the first magnet portion has a first fan-shaped magnet having circumferential magnetic lines of force. The fluid magnetizer according to claim 5, wherein the first magnet portion has a second sector magnet and has a radial magnetic field line. The fluid magnetizer according to claim 6, wherein the horizontal magnetic group has a first plate-shaped magnet and a second plate-shaped magnet, and the first plate-shaped magnet and the second plate-shaped magnet are connected to the base plate. The magnetic lines of force of the magnet are arranged in opposite directions. The fluid magnetizer according to claim 2, wherein the bottom plate of the base is formed of a magnetically permeable material. The fluid magnetizer according to claim 2, wherein the bottom plate of the base is formed of a non-magnetic material. The fluid magnetizer according to claim 3, further comprising a casing to cover the fan-shaped magnetic group and the horizontal magnetic group.