TWM279635U - Fluid magnetizing device - Google Patents

Description

M279635

Creation instructions α) • [Technical field of new type] This creation is about a fluid magnetizer, especially a fluid magnetizer with a really special arrangement of magnets. [Previous technology] Magnetized water is a type of water that is magnetized by a magnetic field. It allows general water to pass a certain magnetic field at a certain flow rate and in a direction perpendicular to the magnetic field lines. When the general water passes through a stable magnetic field perpendicular to the magnetic field lines, After that, some associated water molecules connected by hydrogen bonding are broken, causing larger water molecular groups to split into smaller water molecular groups, and also enhancing physical properties such as water permeability, solubility, and surface tension. Generally, The water becomes magnetized water. In the industry, magnetic fields were initially used to treat a small amount of furnace water to reduce scale. Nowadays, magnetizing water has been used in various high-temperature furnace cooling systems to improve cooling efficiency and extend the life of the furnace. For example, chemical plants use magnetized water to accelerate chemical reactions. Speed, increase yield; or the construction industry uses magnetized water to stir the concrete to increase the strength of the concrete; in agriculture, it uses magnetic water to soak seeds to raise seedlings to make the seeds germinate quickly and the germination rate is high; Make the soil loose, accelerate the decomposition of organic fertilizer, and stimulate the growth of crops. In medicine, magnetized water can not only kill a variety of bacteria and viruses, but also treat a variety of diseases. For people who are not sick, often drinking magnetized water can reach The role of disease prevention fitness. Figure 1 shows a side structure cross-sectional view of a structure currently used to magnetize water. The magnetized water structure 1 includes two magnetically permeable elements 10, 12, each magnetically conductive element ΙΗΙΙΙΗ page 5 M279635 Creative Instructions (2) Piece 1 0, 1 2 1 10, 1 2 are also provided with iron outside attached, iron 14 and 16 are strong 1 2 attached together and placed with a magnet 14 and 16 containing water, although the magnetic flux of iron is effective In view of this magnetizer, Yu Liu has a groove 100, 20, and a magnet with a strong magnetic force is placed on each of the magnetically permeable elements. The two magnetically permeable elements 10 and 12 attract each other with a large magnetic force, so that the two magnetically permeable elements 10 and 10 form a magnetized water structure i, and the water pipe between the two grooves 100 and 120 passes water through the magnetic field. Magnetized to become magnetized water. The two magnetically permeable elements 10 and 12 of the magnetized water structure 1 have a strong magnetic force therein, but this structural design cannot effectively leak some of the magnetic flux in the magnetic central water pipe outside the water pipe, which reduces the actual magnetic force of the body, resulting in poor results and materials. waste. In response to the above-mentioned problems, this creation proposes a fluid good to the above-mentioned shortcomings. [New content] The main purpose of this creation is to use magnets in the body to be concentrated in the hollow tube. Another purpose of the present invention is to use screws and cymbals to perform group work. There is a body. The direction of the magnetic beam around the hollow tube body with the fluid is 90 degrees. The system provides a fluid magnetic arrangement to enable the magnet to achieve a strong magnetic force. The system is designed to provide a fluid magnetic assembly and disassembly. The solution is to avoid strong pressure. This creative department proposes a kind of accommodation space in the flow. Above, it is defined as the magnetic flux magnetized fluid generated by the hollow tube body and located inside the accommodation cavifier. The magnetizer is a magnetizer that can be caused by a large magnetic force. It is installed around the center point of the body and placed on page 6. M279635 Creative instructions (3) Number of magnets' to use the strong magnetic force of the magnet to magnetize the fluid, and the outside of the magnet A magnetically permeable iron is attached and the magnets inside the body with an angle greater than or equal to a β degree angle are arranged in a radial arrangement. When a radially aligned magnet is used, the magnetization directions of the various parts of the magnet pass through the center point of the accommodation space. Or, when a single-orientated magnet is used, the magnetization direction of the center point inside the magnet passes the center point of the accommodation space, and the magnets located inside the body and having an angle less than 45 degrees are arranged in a radial pattern or the magnetization direction is in line with the accommodation. The included angle of the magnetic beam direction at the center of the space is less than 30 degrees, or one or a combination of magnets is not provided. The following detailed description is provided with specific examples and accompanying drawings. It is easy to understand the purpose, technical content, characteristics, and effects of this creation. 0 [Embodiment] Figure 2 shows the creation of this creation. Side view of the structure of the fluid magnetizer. The fluid magnetizer 2 includes a body, which may be integrally formed or composed of two or more magnetically permeable elements 20 and 22. Among them, FIG. 2 shows two magnetically permeable elements. The body composed of 20 and 22 is provided with a groove 200, 220, such as an elongated groove, in each of the magnetically permeable elements 20 and 22 to form an accommodation space and a fluid-filled The hollow tube body 3, and the direction of the magnetic beam passing through the center point of the hollow tube body 3 is a 90 degree angle. One or several magnets 24, 26 are placed inside the magnetically permeable elements 20, 22 and located around the hollow tube body 3. And magnets 24, 26 • Magnets 28, 30 with magnetically permeable irons 28, 30 attached to the outside and located inside magnetically permeable elements 20, 22 and having an angle of 4 · 5 degrees or more must be arranged in a radial pattern. When aligning the magnets, the magnetization directions of the magnets 24 and 26 pass through

M279635 IV. Creation instructions (4) When the center point of the accommodation space is used, or when the magnets 24 and 26 are aligned in a single direction, the magnetization direction of the center point inside the magnets 24 and 26 passes the center point of the accommodation space and is located inside the body and The magnets 24 and 26 with an angle of less than 45 degrees are spokes. The angle between the radial arrangement or the direction of the magnetization and the direction of the magnetic beam in the containing space is less than 30 degrees or one or a combination of the magnets 24 and 26 is not provided. In addition, the above arrangement The method can be composed of a single piece of magnets 24, 26 or a combination of multiple pieces of magnets 24, 26. The cross-sectional shape of the magnets 24, 26 can be selected to be fan-shaped, square or trapezoidal. Among them, as shown in the cross-sectional structure of Figs. 3 to 7, there are many different arrangements of the arrangement of the magnets located inside the & angle less than 45 degrees, of which 3 and 4 are placed A plurality of magnets 24 and 26, as shown in FIG. 3, may be a combination of no magnets 24, 26 and radial and radial arrangements at an angle of less than 45 degrees as shown in FIG. 3, or as shown in FIG. The arrangement of the magnets 24 and 26 with an angle greater than 45 degrees is the same in a radial arrangement, and the magnetic directions of the magnets in Figures 3 and 4 point to the center point of the hollow tube body 3; or as shown in Figure 5, Only one radiation alignment magnet 32, 34 is placed in each of 20 and 22, and the magnetization directions of the radiation alignment magnets 32, 34 are directed to the center point of the hollow tube body 3; as shown in FIG. 6, the angle is less than The magnet at 45 degree angle is a combination of radiant arrangement and magnetization direction and the angle of the magnetic beam direction of the containing space center point is less than 30 degrees. Among them, the magnetization directions of the magnets 36 and 38 on both sides and the magnetic beam direction of the containing space center point are less than 30 degree angle; or as shown in the seventh figure, the fluid magnetization-the device 2 is-body molding 'magnetic permeability iron 28 and 30 are single cylindrical knots. All magnets 24, 26, 36 and 38 are arranged in a radial pattern. In addition, the longitudinal section structure of the fluid magnetizer can have many different kinds.

M279635

As shown in Figs. 8 to 11 respectively, as shown in Fig. 8, a single magnet 24, 26 and a magnetically conductive iron 28, 30 'may be placed around each side of the water pipe 3, or as shown in Fig. 9 As shown, multiple connected magnets 24, 26 and each with a single magnetic yoke 28, 30, or as shown in Figures 10 and 11, several magnets 24, 26, 24, 26 They are not connected to each other, and as shown in Figure 10, a number of magnets 28, 30 are attached to the outside of several magnets 24, 26, or as shown in Figure n, each magnet 24, 26 A magnetic yoke 28, 30 is attached. When the body is composed of two or more magnetically permeable elements 20 and 22, as shown in FIG. 1 2, a number of through holes 202 are opened on the outer edge of one magnetically permeable element 20 and interposed between the two magnetically permeable elements 2〇 There are 22, 22 grooves under each through hole 202, so that a number of screws 206 can be locked into a through hole 202 of the magnetically permeable element 20 with the through hole 202, and A gasket 204 abuts against another magnetically conductive element 22, and pushes the magnetically conductive element 20 with the through hole 202 upward, thereby separating the two magnetically conductive elements 20 and 22; The magnetically permeable element 20 of the hole 202 is pushed downward, so that the two magnetically permeable 'elements 20 and 22 are combined. Among them, the fluid installed in the hollow pipe body 3 is a fluid with polar molecules, such as water, aqueous solution, alcohol, petrochemical fuel, and the like. The fluid type can be liquid, viscous, fast-passing powder or solid. Using the special arrangement of the magnets 24 and 26 in this creation can make the magnetic force more concentrated on the hollow tube body 3. Figures 13 and 14 are the magnetic flux density distribution diagrams of the prior art and the hollow tube body 3 of this creation, respectively. The diameter of the fluid pipe of both is (P26mm, the weight of the magnet is 307 grams and the magnet grade is the same

Page 9 M279635

Under the same conditions as N40 for iron and boron, it can be seen from the "quotation" that the magnetic flux density in the fluid pipeline using the prior art magnet arrangement is 4,000 to 4500 Gauss', and the original figure in Figure 14 is as follows The structure shown in Figure 7 produces a magnetic flux density of 6900 to 8400 Gauss. This creation provides a fluid magnetizer, which uses the special arrangement of the magnets in the body to average the magnetic force experienced by the hollow tube body to achieve a strong magnetic force to magnetize the liquid, and can be positioned and fixed with screws and gaskets. Disassembly, to avoid difficult and dangerous operations caused by strong magnetic force during assembly and disassembly. • The above description uses the examples to explain the characteristics of this creation. The purpose is to enable those skilled in the art to understand the content of this creation and implement it, not to limit the scope of the patent for this creation. Equivalent modifications or modifications made by the spirit disclosed should still be included in the scope of patent application described below.

Page 10 M279635 Brief description of the enclosing style • [Simplified description of the drawings] Figure 1 is the cross-section knot of the prior art. Figure 2 is the cross-section and structure of the creation; j = Figure 3rd to 7th are This creation is a schematic diagram of the cross-section magnets and the magnetic iron. Figures 8 to 11 are too gold | From * ^ ^ to the end of the vertical section of the magnet and the magnetic yoke settings shown. Figure 1 2 is a cross-sectional view of the side structure of a magnetically permeable member with screws and gaskets. FIG. 13 is a magnetic flux density distribution diagram of the empty tube body of the prior art. Figure 14 shows the magnetic flux density distribution of the hollow tube body in the creation. [Description of the symbols of main components 1 magnetized water structure 10, 12 magnetically permeable elements 14, 16 magnets 2 fluid magnetizers 20, 22 magnetically permeable elements 100, 120 grooves 1 5, 1 7 magnetically permeable iron 200, 220 grooves 3 Empty tube body> 28, 30 magnetically permeable iron 3 6, 3 8 magnets on both sides 204 spacers 24, 26 magnets 32, 34 radiation alignment magnets 202 through holes 206 screws

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Claims (1)

M279635 5. Scope of patent application1. A fluid magnetizer is installed around a hollow tube body containing a fluid. The fluid magnetizer includes a body with an accommodation space therein. Installed on the periphery of the hollow tube body, and the direction of the magnetic beam passing through the center point of the hollow tube body is a 90 degree angle; and a number of magnets, which are placed inside the body and located around the accommodation space, so that The fluid is magnetized with the strong magnetic force of the magnets, and at least one magnetic yoke is attached to the outside of the magnets, and the magnets located inside the body and having an angle of 45 degrees or more are arranged in a radial pattern and are located inside the body and The angle is small. ^ 4 A 5 degree magnet is a group consisting of a radial arrangement, at least one of an angle between the magnetization direction and the magnetic beam direction of the center point of the hollow tube body, and no magnet. 2 · The fluid magnetizer as described in item 1 of the scope of the patent application, wherein the magnets with an angle of 45 degrees or more are radial-oriented magnets, and the magnetization directions of the various parts of the magnets pass through the center point of the accommodation space . 3. The fluid magnetizer according to item 1 of the scope of the patent application, wherein the magnets with an angle of 45 degrees or more are unidirectionally oriented magnets, and the direction of the magnetization of the center point of the magnets passes through the accommodation space Center point. • 4. The fluid magnetizer according to item 1 of the scope of patent application, wherein the flow system is a fluid with polar molecules. 5 · The fluid magnetizer as described in item 1 of the scope of the patent application, wherein the system is an integrated mold. 6 · The fluid magnetizer according to item 1 of the scope of the patent application, wherein the system is composed of at least two magnetically permeable elements, and one for each of the magnetically permeable elements Page 12