KR101131618B1 - Hexagonal water product device having electric generator operating by water pressure - Google Patents

Abstract

The present invention relates to a magnetization reduction hexagon handset employing a non-powered electric generator using water pressure. It has a cylindrical inner space extending in the longitudinal direction and the water flowing from the outside to pass therein; A magnetization unit which magnetizes the water by applying a magnetic force to the water passing through the housing while installed in the housing; A power generation unit installed inside the housing and generating electricity by receiving a flow pressure of water flowing into the housing and moving to the magnetization unit, and converting water moving to the magnetization unit into a turbulent flow; And a power supply unit electrically connected to the power generation unit and extending outside the housing and supplying electricity generated from the power generation unit to a power demand outside the housing.
Self-reducing hexagonal water machine employing the non-powered electric generator using the water pressure of the present invention as described above is capable of sufficient magnetization in a short time by splitting the water molecule cluster moving to the magnet in advance, so that the water magnetization performance is good, and Electricity is generated by using the flow pressure, and the generated electricity can be used for freezing or other purposes of water meter.

Description

Hexagonal water product device having electric generator operating by water pressure

The present invention relates to a magnetization reduction hexagon handset employing a non-powered electric generator using water pressure.

For example, the water magnetizer, which is already widely used in homes, hospitals or schools, is a device that applies a strong magnetic force to water so that the water molecules are changed into so-called hexagonal water having a hexagonal ring structure. The hexagonal water is weakly alkaline and has a high water absorption in the body, which is the same as the water structure inside the cells constituting the human body. In addition, when the pipe is changed into hexagonal water by applying magnetic force to the water flowing inside, it is possible to prevent rust or scale from occurring on the inner wall of the pipe, thereby preventing corrosion and extending the life of the pipe.

The installation position of the water magnetizer may vary according to various cases, but in most cases, the water magnetizer is installed in the water meter box 11 as shown in FIG. 1.

1 is a view showing the inside of a water meter box equipped with a conventional water magnetizer.

Referring to the drawings, it can be seen that the meter 13 is connected to the introduction pipe 15 branched into the home from the water supply facility, and the meter 13 is connected to the water magnetizer 21 through a corrugated pipe 29. Can be. In addition, the outlet of the water magnetizer 21 and the indoor pipe 17 are also connected to the corrugated pipe 31. The indoor pipe 17 is a pipe for supplying tap water into the furniture, and is branched to, for example, a boiler, a toilet, or a kitchen.

The water entering the direction of arrow a through the introduction pipe 15 passes through the meter 13 and the corrugated pipe 29, and then is magnetized in the water magnetization processor 21, and the corrugated pipe 31 and the indoor pipe 17 are closed. Arrow flows along the z direction. Water is supplied in a magnetized state.

FIG. 2 is a cross-sectional view showing the internal structure of the water magnetization processor 21 shown in FIG.

As shown, the water magnetizer 21 is provided with a housing 23 having a cylindrical inner space 23a and having an inlet 23b at one end thereof, and coupled to the housing 23 to provide an inner space ( 23a), a sealing cap 25 having an outlet 25a at the center thereof, a clamp (27 in FIG. 1) for tightly fixing the housing 23 and the sealing cap 25, and the inner space 23a. It is composed of a magnet 33 fixed to).

The magnet 33 is a permanent magnet, and magnetizes the water by applying a strong magnetic force to the water entering the inlet port 23b and exiting the outlet port 25a. Water supplied from the outside is converted into magnetized water while passing through the housing 23 and supplied into the indoor.

However, the above-described conventional water magnetizer has a limitation in that the magnetization of water depends only on the magnetic force of the magnet 33, so that the magnetization performance cannot be increased any more. As is known, the magnet 33 in the water magnetizer is used to induce a process of crushing water molecule clusters and recombining them into other forms, in which case water enters the inlet port 23b and the outlet port 25a. Because of the short period of time, the susceptibility is not high because there is no room for sufficient cleavage and recombination of the water molecule clusters.

The present invention has been made to solve the above problems, by splitting the water molecule cluster moving to the magnet in advance, sufficient magnetization is possible in a short time, the water magnetization performance is good, and also generates electricity using the flow pressure of water generated The purpose of the present invention is to provide a self-reducing hexagonal handset employing a non-powered electric generator using water pressure, which can be used for the freezing prevention of water meters and other necessary uses.

Self-reducing hexagonal water employing a non-powered electric generator using the water pressure of the present invention for achieving the above object, the housing having a cylindrical inner space extending in the longitudinal direction and the water flowing from the outside therein; A magnetization unit which magnetizes the water by applying a magnetic force to the water passing through the housing while installed in the housing; A power generation unit installed inside the housing and generating electricity by receiving a flow pressure of water flowing into the housing and moving to the magnetization unit, and converting water moving to the magnetization unit into a turbulent flow; And a power supply unit electrically connected to the power generation unit and extending outside the housing and supplying electricity generated from the power generation unit to a power demand outside the housing.

In addition, the power generation unit; A stator including a plurality of magnets and field coils arranged opposite to each other and fixed in the housing, rotatably positioned between the magnets of the stator, and axially rotated by an external force to generate electricity by interaction with the stator A rotating armature generator having electrons, wherein the rotating shaft of the rotor extends in a direction perpendicular to the longitudinal direction of the housing so that both ends thereof are rotatably supported on the inner wall surface of the housing, and on both sides of the rotor, A plurality of buckets for rotating the rotor by receiving the flow pressure of the water passing through the housing is characterized in that it is provided.

In addition, the inside of the housing is characterized in that the streamlined casing further accommodates the power generation unit therein.

In addition, the magnetization unit; A magnet in the form of a round bar and disposed on the central axis of the housing and whose surface is coated with polyethylene; It characterized in that it comprises a magnet support member for supporting the magnet in the central axis of the housing.

In addition, the power generation unit and the magnetization unit is characterized in that it is independently mounted in a separate housing communicated with the connecting tube.

Self-reducing hexagonal water machine employing the non-powered electric generator using the water pressure of the present invention as described above is capable of sufficient magnetization in a short time by splitting the water molecule cluster moving to the magnet in advance, so that the water magnetization performance is good, and Electricity is generated by using the flow pressure, and the generated electricity can be used for freezing or other purposes of water meter, so it can be applied not only for the magnetization of water but also for maintenance of water supply facilities.

1 is a view showing the inside of a water meter box equipped with a conventional water magnetizer.
2 is a cross-sectional view showing the internal structure of the water magnetization processor shown in FIG.
Figure 3 is a view showing for explaining the configuration of the magnetization reducing hexagonal water employing a non-powered electric generator using water pressure according to an embodiment of the present invention.
4 and 5 are views showing separately the power generation unit of the magnetization reduction hexagon water heater employing the non-powered electric generator using the water pressure shown in FIG.
FIG. 6 is a partially cutaway perspective view illustrating an exploded view of the magnetization unit illustrated in FIG. 3.
FIG. 7 is a view illustrating the inside of a water meter box to which a magnetization reducing hexagonal water machine employing a non-powered electric generator using water pressure shown in FIG. 3 is applied.
8 is a view showing another example of a magnetization reducing hexagonal water employing a non-powered electric generator using water pressure according to an embodiment of the present invention.

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

Basically, the self-reducing hexagonal water generator 41 employing a non-powered electric generator using water pressure according to the present embodiment has a power generation unit 49 installed in the housing 43 through which water passes, By splitting the cluster of water molecules directed to the magnet and producing electricity by using the flow pressure of the water, it has the characteristics of the first gain that can increase the water magnetization performance and obtain electric energy together.

3 is a view illustrating the overall configuration of a magnetization reducing hexagonal water employing a non-powered electric generator using water pressure according to an embodiment of the present invention, Figures 4 and 5 are magnetization shown in FIG. The drawing shows the power generation unit of the reduced hexagonal water separately. FIG. 6 is a partially cutaway perspective view showing the magnetized part shown in FIG. 3 in an exploded manner.

As shown, the magnetization reducing hexagonal water receiver 41 employing a non-powered electric generator using water pressure according to the present embodiment, the housing 43 having a cylindrical inner space 43b extending in the longitudinal direction and open at one end thereof. And a sealing cap 45 fitted to one end of the housing 43 to seal the inner space of the housing, a clamp 47 fixing the housing 43 and the sealing cap 45, and the housing ( 43 includes a power generation unit 49, a magnetization unit 51, and an ion reduction unit 51b, which are disposed inside the chamber 43, respectively.

Reference numeral 43a denotes an inlet for receiving water into the housing 43. In addition, the outlet 45a through which water escapes is formed at the center of the sealing cap 45.

The power generation unit 49 converts the kinetic energy of water passing through the housing 43 into electrical energy, and includes a rotating armature generator and a streamlined casing 49a that encloses the rotating armature generator. As shown in FIG. 4, the casing 49a is manufactured in a streamlined manner to receive a minimum resistance to the flow of water. The casing 49a is reminiscent of a spoiler.

An opening 49p having a constant diameter is provided at the center of both side portions of the casing 49a. The opening 49p is a hole formed so that the bucket 49k and the shaft 49g to be described later extend outside the casing 49a.

The rotor armature generator itself is generally known and has a fixed stator 49b (unlike a rotating field generator) and a rotor 49c that rotates inside the stator 49b.

That is, the rotor armature generator, the upper and lower end is fixed to the inner wall surface of the housing 43, the stator (49b) having a magnet 49d and the field winding (49e) and the like opposed to the inner side, and the magnet (49d) The disk-shaped rotor 49c which is rotatably provided between and rotates by the flow pressure of water, and the coil 49f is wound, has a basic structure.

The field winding 49e extends outside the housing 43 to be electrically connected to the power line 49m. The power line 49m is an electric line for supplying power generated by the power generation unit 49 to an external power demand destination. The electricity supplied through the power line 49m may be used for various purposes. For example, as shown in Figure 7 may be used for freeze protection of the meter 13, or may be used to drive a sterilizing UV lamp for sterilizing water. The application range of the electricity may vary depending on the case.

The shaft 49g provided at the rotation center of the rotor 49c extends in a direction orthogonal to the longitudinal direction of the housing 43 so that both ends thereof are supported by a bearing 49n on the inner wall surface of the housing 43. In addition, a plurality of buckets 49k are fixed to both sides of the rotor 49c. The bucket 49k is symmetrical about the shaft 49g and transmits the flow pressure of the water to the rotor.

In particular, the bucket 49k rotates in the flow field of the water entering the inlet 43a and moves to the magnetization unit 51, and serves to split the water molecule clusters into small pieces. Accordingly, the water passes through the power generation unit 49 and collides with the bucket 49k and moves toward the magnetization unit 51 in the activated state.

Meanwhile, the magnetization unit 51 magnetizes the water activated by the power generation unit 49, and has a magnet 51c in the form of a round bar, and the magnet 51c is located at the central axis of the housing 43. It is composed of a support disk 51a. An ion reduction unit 51b is provided at the periphery of the magnet 51c.

The magnet 51c includes a magnet body 51n having a magnetic force and a coating film 51p surrounding and protecting the magnet body 51n. The coating film 51p is a protective film formed of polyethylene.

At the upper and lower ends of the magnet 51c, a female screw thread 51m is provided. The female threaded ball 51m is a portion to which the fixing bolt 51e passing through the bolt hole 51g in the center of the support disk 51a is engaged. By fixing the support disk 51a at the upper and lower ends of the magnet 51c using the fixing bolt 51e, the magnet 51c can be positioned at the inner center of the housing 43.

The support disk 51a is a disk-shaped member having a constant diameter and has a central bolt hole 51g and a plurality of through holes 51f. The through hole 51f is a hole for passing water in the thickness direction of the support disk 51a. The shape or number of the through holes 51f may vary depending on the case.

The ion reduction unit 51b serves to apply far infrared rays to water passing around the magnet 51c, and the ion reduction material 51q is filled in the mesh case 51r and the mesh case 51r. It consists of

The mesh case 51r is made of a mesh having a predetermined mesh and allows water to pass between the ion reduction materials 51q by passing water therein. In addition, the ion reduction material 51q includes ceramic, tourmaline, elvan, loess ball, and the like. The ion reduction material is a substance that subdivides water molecule clusters, activates molecular motion, and ionizes water.

Eventually, the water passing through the power generation unit 49 is magnetized while passing through the magnetization unit 51 and the ion reduction unit 51b, and is actively received by far infrared rays through the outlet 45a in the ion and reduced state. Supply to demand.

FIG. 7 is a view illustrating the inside of a water meter box to which a magnetization reducing hexagonal water machine employing a non-powered electric generator using water pressure shown in FIG. 3 is applied.

The same reference numerals as the above reference numerals denote the same members having the same function.

Referring to the figure, it can be seen that the above-described meter 13 is wrapped in the heating element 53, and the power line 49m is connected to the heating element 53. The heating element 53 is to prevent the freezing of the meter 13 in the winter season can be applied to the conventional planar heating element. As is known, the planar heating element has a property of generating heat by electric power supplied from the outside, so that the electricity generated from the power generation unit 49 is wrapped in the meter 13 inside the water meter box 11. It can be applied to 53 to prevent the freeze of the meter 13.

In particular, in FIG. 7, the electricity generated from the power generation unit 49 is used for freezing prevention, but may be utilized for other purposes as necessary. For example, UV sterilization lamp may be installed and used as energy for driving the sterilization lamp.

8 is a view showing another example of a magnetization reducing hexagonal water employing a non-powered electric generator using water pressure according to an embodiment of the present invention.

As shown in the drawing, the power generation unit 49 and the magnetization unit 51 are connected to the corrugated pipe 55 while being installed in separate housings 43, respectively. In this way, the generator 49 and the magnetizer 51 are housed in separate housings and connected by the corrugated pipe 55 to the inside of the place where the magnetization reduction hexagon receiver 41 employing the non-powered electric generator using water pressure is installed. This is in case the space is narrow. Since the corrugated pipe 55 has a flexible property, as illustrated in FIG. 8, the corrugated pipe 55 may be mounted on the small housing 43 by connecting the power generation unit 49 and the magnetization unit 51 to the corrugated pipe 55. By bending the position of the power generation unit 49 and the magnetization unit 51 can be adjusted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

11: Water meter box 13: Meter 15: Introduction pipe
17: indoor pipe 21: water magnetizer 23: housing
23a: internal space 23b: inlet 25: airtight cap
25a: outlet 27: clamps 29 and 31: corrugated pipe
41: Self-reducing hexagonal water machine adopting a no-power electric generator using water pressure
33: magnet 43: housing 43a: inlet
43b: internal space 45: airtight cap 45a: outlet
47: clamp 49: power generation unit 49a: casing
49b: Stator 49c: Rotor 49d: Magnet
49e: field winding 49f: coil 49g: shaft
49k: Bucket 49m: Power line 49n: Bearing
49p: opening 51: magnetization 51a: support disk
51b: ion reduction unit 51c: magnet 51e: fixing bolt
51f: Through hole 51g: Bolt hole 51m: Female threaded ball
51n: Magnetic body 51p: Coating film 51q: Ion reducing substance
51r: net mesh case 53: heating element 55: wrinkle tube

Claims (5)

A housing having a cylindrical inner space extending in a longitudinal direction and allowing water introduced from the outside to pass therein;
A magnetization unit which magnetizes the water by applying a magnetic force to the water passing through the housing while installed in the housing;
A power generation unit installed inside the housing and generating electricity by receiving a flow pressure of water flowing into the housing and moving to the magnetization unit, and converting water moving to the magnetization unit into a turbulent flow;
A magnetization reduction hexagon employing a non-powered electric generator using water pressure, which is electrically connected to the power generation unit and extends outside the housing and supplies power generated from the power generation unit to a power source outside the housing. Handwriting. The method of claim 1,
The power generation unit;
A stator including a plurality of magnets and field coils arranged opposite to each other and fixed in the housing, rotatably positioned between the magnets of the stator, and axially rotated by an external force to generate electricity by interaction with the stator A rotating armature generator having electrons,
The rotating shaft of the rotor is extended in a direction orthogonal to the longitudinal direction of the housing so that both ends are rotatably supported on the inner wall surface of the housing,
Both sides of the rotor, a magnetization reduction hexagon water employing a non-powered electric generator using water pressure, characterized in that a plurality of buckets for rotating the rotor by receiving the flow pressure of water passing through the housing. The method of claim 2,
A magnetization reduction hexagon handset employing a non-powered electric generator using water pressure, characterized in that the housing further includes a streamlined casing for accommodating the power generation unit therein. The method of claim 1,
The magnetization unit;
A magnet in the form of a round bar and disposed on the central axis of the housing and whose surface is coated with polyethylene;
A magnetization reduction hexagon handpiece employing a non-powered electric generator using water pressure, characterized in that it comprises a magnet support member for supporting the magnet on the central shaft portion of the housing. The method according to any one of claims 1 to 4,
The magnetization reduction hexagon handset employing a non-powered electric generator using water pressure, characterized in that the power generation unit and the magnetization unit is independently mounted in a separate housing communicated with the connecting pipe.

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