KR970001488Y1 - Booster - Google Patents

Abstract

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Description

booster

1 is an exploded perspective view showing a conventional booster.

2 is an exploded perspective view of the booster according to the present invention.

3 is a cross-sectional view of the booster shown in FIG.

Figure 4 is a sectional view showing another embodiment of the coupling means.

5 is a state of use of the booster.

* Explanation of symbols for main parts of the drawings

21, 31: first member 22, 32: second member

20: upper body 30: lower body

50: coupling means 52: coupling pin

100: magnet

The present invention relates to a booster, and more particularly to a booster for magnetizing the fuel into a structure that is easy to burn.

In general, in order to keep a liquid such as combustion fuel or water in a clean state, purification is aimed at pursuing mechanical or biological means such as filtration. However, the price of the equipment to be purified by the above method is high, and the biological means have not yet been established in perfect condition, which makes it difficult to apply.

Due to the above circumstances, in recent years, a magnetic field treatment that exposes a liquid such as combustion fuel or water in a strong magnetic field has been attracting attention.

In this way, when the liquid is magnetized, that is, when the liquid fuel is magnetized, fuel efficiency is improved, and when water is magnetized, scale control and removal of the inner wall of the pipe, growth promoting effect, and precipitation of suspended solid particles are performed. It is well known that there is.

In order to achieve the above effects, many apparatuses for magnetizing combustion fuel or water and the like have been developed, one of which is disclosed in Japanese Patent Laid-Open No. 59-154188. This is because a plurality of permanent magnets are stored in the space formed by the inner jacket and the outer jacket made of nonmagnetic material so that the two poles are adjacent to each other, and the fluid passes through the inner circumference of the inner jacket and the outer circumference of the outer jacket to expose the fluid to the jacket. It is supposed to be.

In another embodiment, as shown in FIG. 1, the main body 10 having the hollow portion 10a is divided into first and second members 11 and 12 hinged to each other, and the separated first and second members are separated from each other. At the mutually opposing edges of (11) and (12), first and second coupling protrusions (11a) and (12a) extending from a predetermined length are formed thereon and are joined by the set screws (15). In addition, a plurality of inlet holes 16 are formed on the outer circumferential surface of the main body 10, that is, the outer circumferential surfaces of the first and second members 11 and 12 and the hollow portions 10a formed by the combination thereof. ), A magnet 17 having a high magnetic force is inserted and the release preventing member 18 is screwed with the inlet hole 16 so that the magnet 17 is not separated from the inlet hole 16.

The booster, which is a conventional magnetization processing device configured as described above, has a magnet 17 in the inlet hole 16 to fix the magnet 17 to the outer circumferential surface of the first and second members 11 and 12 constituting the main body 10. Insert and insert the lead hole 16 and the release member 18 is screwed, so a lot of work is required during manufacturing. In particular, since the magnet 17 is supported by the inlet hole 16, there is a problem in that the magnetic field leaks to the outer peripheral surface side of the first and second members 11 and 12.

The present invention has been made to solve the above problems, the purpose of the production is to provide a booster that can reduce the work maneuver according to the production and reduce the leakage magnetic field.

The present invention to achieve the above object,

An upper body and a lower body each of which the first and second members are hinged to each other to form a hollow portion, magnet support means for supporting the magnet by being formed on opposite surfaces when the hollow portions of the upper and lower bodies are positioned on the same axis; It is characterized in that the magnet is provided with a coupling means for coupling them so as to be immersed in the upper and lower body.

Hereinafter, a preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

Booster, which is a magnetization processing apparatus according to the present invention, as shown in FIG. 2, the first and second members 21, 22, 31, and 32 are hinged to each other so that the hollow portions 20a and 30a are connected. The upper body 20 and the lower body 30 to be formed, and the hollow body 1 (20a) of the upper and lower body 20 is formed on the surface opposite to each other when positioned on the same axis to support the magnet 100 Support means 40, the coupling means 50 for coupling them so that the magnet 100 is immersed in the upper and lower body 20, 30, is installed at the end edge of the hinged upper and lower body 20, 30 It comprises a fastening means 60 for engaging the ends of the first and second members.

The first and second members 21 and 22 of the upper body 20 and the first and second members 31 and 32 of the lower body 30 are manufactured by die-cutting aluminum and the first member 21. Hinge coupling between the 31 and the second members 22 and 32 is formed integrally with the edges of the first and second members 21 and 31, and the protrusions 21a have through holes 21b and 312b. The projections 22c and 32c having the hinge pins 22d and 32d coupled to the through holes 21b are formed by forming the 31a and the second members 22 and 32.

The magnet supporting means 40 has the hollow portion 20a and the hollow portion 20a and 30a of the upper body 20 and the lower body 30 in a state in which they are coaxially positioned with respect to the hollow portion 20a on the surface facing each other. The mounting groove 41 in which the magnet is seated is formed. The seating grooves 41 are preferably formed on opposite surfaces of the upper and lower body 20 and 30 so as to form a space portion in which the magnet 100 is seated when engaged. In this case, the magnet density of the magnet is preferably 3000 or more Gauss.

The coupling means 50 combines the upper body 20 and the lower body 30 such that the hollow portions 20a and 30a are coaxially located, as shown in FIGS. 2 and 3. At least one coupling hole 51, 51 is formed on the mutually opposing surfaces of the upper and lower body 20, 30, respectively, and both ends of the coupling pin 52 are forcibly held in the coupling hole 51, 51. It is fitted. In this case, as shown in the fourth cavity, the coupling means selectively forms the coupling hole 51 'and the coupling pin 52' on the mutually opposing surfaces of the lower body 30 as the upper body 20 is integrally formed. You may.

The fastening means 60 is formed at the ends of the hinged first and second members 21, 22, 31 and 32 to fasten them, and the first members 21, 31 and the second member. Protrusion pieces 61 and 61 'are formed in the ends of (22) and (32), respectively, and these are screwed together by (62) as a set screw (62).

As described above, the booster according to the present invention inserts a magnet 100 having a magnetic flux density of 3000 gauss or more into each seating groove 51 formed in the lower body 30 to assemble the upper body 20 and the lower body 30. Coupling holes 51 and 51 formed on the lower surface of the upper and lower body 20, 30 so that the hollow portion 20a of the upper body 20 and the hollow portion 30a of the lower body 30 are coaxially positioned. ') Are placed opposite each other. In this state, both ends of the coupling pin 52 is forcibly fitted to the coupling holes 51 and 51 ′ so that the upper and lower bodies 20 and 30 are coupled to each other. When the upper and lower bodies 20 and 30 are coupled to each other, the magnet 100 is supported by the seating groove 41 in the space formed by the coupling of the upper and lower bodies 20 and 30 so that the magnetic field is hollow 20a. Leakage to parts other than) 30a side can be prevented. In particular, since the first and second members 21, 31, 22, and 32 of the upper and lower body 20 and 30 are manufactured by die casting of aluminum, it is light and prevents leakage of magnetic field.

As shown in FIG. 5, the booster having completed the assembly has the fastening means 60 to loosen the set screw 62, open the first and second members 21, 31, 22 and 32, and then flow the fuel. The pipe 200 or the pipe through which the water flows is positioned in the hollow portions 20a and 30a and is mounted by tightening the set screw 62 of the fastening means 60.

As described above, the booster of the present invention can reduce production cost by easily fixing and assembling magnets, and since the casing is a non-magnetic material, there is no leakage of magnetic flux and the influence of an external magnetic field can be reduced. Since the magnets are installed to be spaced apart from each other, there is no fear of demagnetization, and stable performance can be obtained over a long period of time, thereby improving reliability.

Claims (5)

An upper body and a lower body each of which the first and second members are hinged to each other to form a hollow portion, magnet support means for supporting the magnet by being formed on opposite surfaces when the hollow portions of the upper and lower bodies are positioned on the same axis; Booster, characterized in that provided with a coupling means for coupling the magnet so as to be immersed in the upper and lower body. The booster according to claim 1, wherein the magnet supporting means is formed with mounting grooves formed on opposite surfaces of the upper and lower bodies, respectively. The booster according to claim 1, wherein the coupling means is provided with coupling pins at which both ends are forcibly fitted in respective coupling holes formed on opposite surfaces of the upper and lower bodies. The booster according to claim 1, wherein the coupling means is configured by selectively forming coupling holes and coupling pins on opposite surfaces of the upper and lower bodies. The booster according to any one of claims 1 to 4, further comprising fastening means at edges of the first and second members of the upper body and the lower body.