KR20120056042A - Apparatus for making hexagon water - Google Patents

Abstract

PURPOSE: An apparatus for manufacturing hexagonal water is provided to improve the quality of the hexagonal water and to completely magnetize the water with a magnetic field. CONSTITUTION: An apparatus for manufacturing hexagonal water includes a housing(10), an introducing pipe member(20), and a water magnetizing unit(30). The front side of the housing is opened. A draining hole(12) is arranged at the rear side of the housing. The rear side of the introducing pipe member is in connection with the front side of the housing. The introducing pipe member connects a supplying pipe with the front side of the housing. The water magnetizing unit includes a body(31) and a plurality of magnetic members(32). The body is mounted at the inner rear side of the housing. A plurality of mounting holes is formed to perforate the longitudinal direction of the body. The magnetic members are mounted at the mounting holes. Water paths are formed at the centers of the magnetic members.

Description

Apparatus for making hexagon water

The present invention relates to an apparatus for producing hexagonal water, and more particularly, to an apparatus for producing hexagonal water, which provides complete hexagonal water (magnetized water) by completely magnetizing water flowing therein.

In general, hexagonal water has a strong penetrating and dissolving ability as well as reducing power because the cluster particles of water are smaller than general water, so that the rust and scale in the tube can be reliably removed and prevented. ? It helps prevent various adult diseases such as liver disease and improves diet, and prevents obesity and helps normal cells to stop or eliminate viruses that have invaded the human body.

As a method for obtaining such hexagonal water, there is conventionally a manufacturing apparatus for generating water by magnetizing water using a magnetic force of a permanent magnet. As a prior art of such a manufacturing apparatus, both ends are opened as shown in FIGS. Between the pair of magnetic rod holder plates 1b, which are installed in the housing 1a and spaced apart, radially connects several main magnet rods 1c in which a plurality of permanent magnets and metal pieces are alternately embedded therein. Each of the main magnet rods is provided between the installed main magnetizer 1 and a pair of support rod holder rings 2b spaced in the sub housing 2a integrally formed on the outer circumference of the main housing. Comprising a pair of sub-magnetizers 2 radially connected and installed several sub-magnet poles (2c) in which a plurality of permanent magnets and metal pieces are alternately embedded in a pair correspondingly There is a hexagonal water production apparatus (No. 10-2010-4027) for descaling and preventing the present invention of the applicant of the present application.

The above-described invention of the above-mentioned application is based on the magnetic flux density by the several main magnet rods 1c and the sub magnet rods 2c installed in the main housing 1a and the sub-housing 2a, respectively, and by a new magnetic field. The water passing through the interior of the main housing as well as the water flowing in close proximity to the inner wall of the main housing has the advantage of producing a hexagonal water by effectively magnetizing.

However, the water passages 1d formed between the periphery of the magnet rod holder plate 1b and the magnetic rod holder plate and the inner wall of the main housing 1a have a size at an interval at which the main magnet rod 1a is installed. Since the size is proportionally determined and the length of the channel is proportional to the thickness (t) of the magnetic rod holder plate, the larger the diameter of the housing or the faster the speed of water flows, the more the part of the water channel is sufficiently magnetized. The phenomenon of passing through has occurred.

Therefore, there is a problem in that the complete magnetization of water by this phenomenon is somewhat insufficient, as well as the effect of reliably removing and preventing rust and scale in the pipeline.

The present invention has been invented in view of the above-described points of the present invention, and an object thereof is to provide an apparatus for producing hexagonal water, which makes it possible to provide hexagonal water by magnetizing water more completely.

Another object of the present invention is to provide an apparatus for producing hexagonal water, which enables to effectively remove rust and scale in the pipeline as well as other foreign matters.

It is still another object of the present invention to provide an apparatus for producing hexagonal water, which ensures that the water is always reliably and completely magnetized regardless of the specifications of the housing, the difference in flow rate, or the like.

In order to achieve these objects of the present invention, the front end is opened and the rear end is provided with a drain hole, and the inlet pipe member connecting the rear end to the open front end of the housing and the supply pipe to the front end and the inner rear side of the housing. And a magnetizer having a plurality of mounting holes penetrated in the longitudinal direction and a plurality of magnet members respectively mounted to the mounting holes and having a water passage at the center thereof, and a housing through the mounting portion positioned in front of the magnetizer. It is configured to include a filter mounted to vertically block the inner front side of the water is introduced through the inlet pipe member through the filter to filter the first foreign matter and then to the length to penetrate the center of each magnetic member in the longitudinal direction Each channel through the channel is dispersed and passed through, so the water is completely magnetized in this process. The state is characterized by providing a hexagonal water production apparatus.

In addition, in the present invention, several magnet members are placed vertically in parallel in the filter, and foreign substances are filtered by the magnetic field in the process of passing through the magnet members at the same time as the inflow of water passes through the filter. It is characterized by providing a device for producing hexagonal water that allows the removal of scale as well as the primary magnetization treatment.

In addition, the present invention by laying a nozzle tube of a predetermined length, the diameter becomes smaller toward the inner end of the inlet pipe member so that the incoming water is ejected by generating a vortex in front of the filter to distribute the water evenly It is characterized in that it provides a hexagonal water production apparatus that makes the filtration of the foreign matter and the primary magnetization process more efficiently.

The hexagonal water production apparatus according to the embodiment of the present invention, because the water flowing into the interior of the housing is dispersed and penetrates in the longitudinal direction in the center of each magnet member and passes through each channel formed in the height is lower than the width long In this process, there is a feature that the magnetization is surely processed by the magnetic field, thereby providing a more perfect hexagonal number.

In addition, the present invention is to remove the rust or scale by the magnetic field while passing through between the magnet members while filtering the foreign matter in the process of passing the water by installing a filter having several magnet members in the front of the housing Of course, the effect of making the magnetization process is also achieved.

In addition, the present invention by laying a nozzle tube of a predetermined length is reduced in diameter toward the inner end of the inlet pipe member inlet water is ejected to generate a vortex in front of the filter to distribute the water evenly while the filter It also has the advantage of making filtration and magnetization more efficient.

Figure 1a is a side cross-sectional view of the line application invention hexagonal water production apparatus
FIG. 1B is an enlarged sectional view taken along line AA of FIG. 1A
Figure 2 is a perspective view showing a part of the hexagonal water manufacturing apparatus according to an embodiment of the present invention separated
Figure 3 is an enlarged side cross-sectional view of the assembled state of FIG.
4 is an enlarged cross-sectional view taken by extracting the magnetizer in FIG.
FIG. 5A is a perspective view of a portion of the magnetizer of FIG. 4 separated and shown; FIG.
Figure 5b is a perspective view showing a separate part of another example of the present invention magnetizer
FIG. 6 is an enlarged perspective view of a portion of the magnet member extracted from FIGS. 5A and 5B by separating
Figure 7a is an enlarged sectional view taken from the installation portion of the filter in Figure 2
Figure 7b is a cross-sectional view showing another example of the filter installation portion of the present invention

Hereinafter, described in detail with reference to the accompanying drawings, the manufacturing apparatus of the hexagonal number according to the present invention.

Figure 2 is a perspective view showing a part of the hexagonal water manufacturing apparatus according to an embodiment of the present invention separated, Figure 3 is an enlarged side cross-sectional view of the assembled state of Figure 2, Figure 4 is a front sectional view enlarged by extracting the magnetizer in Figure 3 5A is a perspective view showing a partial separation of the magnetized water receiver of FIG. 4, and FIG. 6 is an enlarged perspective view partially extracting a magnet member from FIG. 5A, and FIG. 7A is an enlarged front cross-sectional view of an installation portion of the filter in FIG. 2. to be.

In the manufacturing apparatus of the hexagonal water according to the embodiment of the present invention, the front end 11 is opened, the rear end of the housing 10 is provided with a drain hole 12, the inlet pipe member 20 for connecting the rear end to the open front end of the housing And a plurality of magnet members mounted on the inner rear side of the housing and mounted on the body 31 and the mounting holes, each of which has a plurality of mounting holes 311 penetrating in the longitudinal direction, and having a water passage 321 at the center thereof. It is characterized in that it comprises a magnetizer 30 having a 32).

The housing 10 is in the form of a circular tube, and the drain hole 12 extends to the same diameter at the rear end of the water collecting portion 10a which is gradually narrowed in diameter toward the rear portion of the housing.

The water collecting part 10a has water flowing in through the open front end of the housing 10 dispersed therethrough, passing through the water passages 321 of the magnetizer 30, and then gathered at the rear end center to form a drain 12. The water pressure to be drained by draining through the drain pipe 12a connected to the rear end thereof through) is the same diameter as the drain pipe, and the water pressure of the water supplied by the supply pipe 20a connected to the front end of the inlet pipe member 20. It acts like a smooth drain.

The inlet pipe member 20 is composed of an inlet 21 extending in diameter at the front end in the same manner as the supply pipe 20a and an expansion pipe 22 extending in diameter gradually toward the rear from the rear end of the inlet.

And the rear end diameter of the expansion pipe 22 is connected to each other in the same way as the open front end 11 of the housing 10, and connects the supply pipe (20a) to the front end of the inlet (21).

When water is introduced through the inlet 21 of the inlet pipe member 20 through the supply pipe 20a, it is dispersed while spreading in the expansion pipe 22 and passes through each channel 321 of the magnetizer 30. Done.

On the other hand, in the inner center of the inlet pipe member 20 extends the nozzle tube 23, the diameter gradually decreases toward the rear from the inner end of the inlet portion 21 so that the water flowing into the housing 10 is ejected It is preferable.

When the water is ejected through the nozzle tube 23 in this way, the water flows to the front of the magnetizer 30 because the vortex occurs because it hits the water that is already introduced, the flow rate is reduced and dispersed at the same time through each passageway 321 It will pass evenly.

The body 31 of the magnetizer 30 has a diameter equal to the inner diameter of the housing 10. When the body is mounted inside the housing, the incoming water is dispersed to each of the plurality of mounting holes 311. It passes through the housing only through each channel 321 of the magnet member 32 to be mounted.

The magnet member 32 has a long water pipe body 32a that forms a water passage 321 having a low height and a wide shape, and has a thin plate shape and has a length corresponding to each other on the upper and lower surfaces of the water pipe body. It consists of a plurality of permanent magnets 32b, 32c arranged in the direction and a holder tube body 32d in which the water pipe and the permanent magnet are embedded.

The water pipe body 32a and the holder pipe body 32d are made of magnetic metal, and the water pipe body and the holder pipe body are firmly bound to each other by the magnetic force of the permanent magnets 32b and 32c, and both become one body.

On the outer surface of the holder tube 32d, a non-magnetic material is coated to prevent the magnetic force from being released to the outside of the magnet member 32.

When the permanent magnets 32b and 32c are disposed in the longitudinal direction on the upper and lower surfaces of the water pipe 32a, the polarities of the surfaces corresponding to each other are "S; N" or "N: N" or "S: S". They may be different from each other or may be the same as each other.

The magnetizer 30, the water flowing into the interior of the housing 10 is to pass through the water passage 321, each of which has a low height, a wide width and a long length is dispersed so that the amount of water passing per hour is reduced On the other hand, the influence of the strong magnetic field of the plurality of permanent magnets 32b and 32c disposed on the upper and lower surfaces thereof is maximized in proportion to the time and length of passage through the channel, so that the entire magnetic field of the channel is maximized. Make sure no blind spots exist.

Therefore, since the magnetization treatment is efficiently performed in the entire area of each water pipe 321, all the water passing through is completely magnetized to provide a hexagonal water that is completely generated. Of course, their occurrence is more effectively prevented.

On the other hand, the body 31 is formed between the outer body 31a having the same diameter as the inner diameter of the housing 10, the inner tube 31b having a rectangular shape coupled to the inside of the outer body, and the inner and outer bodies. It consists of the internal body 31d in which the sealing body 31c attached to four places in the space part, and the some mounting opening 311 which mounts the magnet member 32, respectively is formed.

The outer body 31a, the inner tube 31b, the seal 31c, and the inner body 31d of the body 31 are each manufactured by extrusion molding with synthetic resin.

By the way, in the case of the magnetizer 30 to be mounted in a small diameter of the housing 10, as shown in Figure 5b may be manufactured in a single unit body so that a plurality of mounting holes 311 is formed In this case, the larger the diameter of the housing is, the more difficult it is to be integrally formed by extrusion.

In addition, the mounting portion 13 is formed to open and close the cover 14 on the immediately rear circumferential surface of the open front end 11 of the housing 10 so as to vertically block the inner front side of the housing through the mounting portion. Mount it.

The filter 40 has a front and rear filter member 41 in the form of a plate coupled to the lower surface of the cover 14, and several magnet members vertically installed in parallel so as to be separated at regular intervals between the front and rear filter members ( 42) and the support 43 is coupled to the front and rear filtration member and the lower end of the magnet member and mounted on the inner bottom of the housing.

The magnet member 42 has a long core 42a and a thin plate, and includes a plurality of permanent magnets 42b and 42c disposed on both sides of the core and corresponding cores and permanent magnets. It consists of a holder tube 42d.

The core body 42a and the holder tube 42d are made of magnetic metal. Accordingly, the core body and the holder tube are tightly bound to each other by the magnetic force of the permanent magnets 42b and 42c.

In addition, the permanent magnets 42b and 42c have polarities of the surfaces corresponding to each other when disposed longitudinally on both surfaces of the core 42a, such as "S: N", "N: N", or "S: S". They may be different or identical to each other.

In addition, when the filter 40 is installed in the mounting portion 13 having a smaller right and left width than the inner diameter of the housing 10, a space is generated between both end portions of the filter and both inner peripheral surfaces of the corresponding housing 10. It is preferable to block the space by interposing the separate blocking pieces 44 so that all the water introduced into the housing passes through the filter and then passes through the magnetizer 30.

The filter 40 configured as described above, while the water introduced into the housing 10 through the inlet pipe member 20 passes the front and rear filtration member 41, the foreign matter is filtered and at the same time the magnet member 42. In the course of the passage between the cores (42a) by the strong magnetic field of the plurality of permanent magnets (42b, 42c) disposed to correspond to each other, the primary removal of rust or scale as well as the magnetization process.

Accordingly, the water that is firstly rusted or scaled by the filter 40 and the magnetized water passes through each water passage 321 of the magnetizer 30 has a plurality of permanent magnets 32b and 32c. Their strong magnetic field produces secondary rust, scale removal and magnetization, making them perfect hexagonal water.

7B is an enlarged cross-sectional view of another example of the filter installation part of the present invention.

This example shows the case where the filter 40 is installed with the left and right widths of the mounting portion 13 the same size as the inner diameter of the housing 10. In this case, both ends of the filter and the corresponding housings are installed. Since space does not occur between the inner peripheral surfaces of both sides, there is an advantage in that it is not necessary to use separate blocking pieces 44 as in FIG. 7A.

Such a hexagonal water production apparatus according to the embodiment of the present invention, when the internal cleaning or replacement of parts, etc. is required to separate the flanges connecting the housing 10, the inlet pipe member 20 and the cover 13, respectively, and the filter ( 40 and the magnetizer 30 may be withdrawn.

10 housing 12 drain
13 mounting portion 14 cover
20: inlet pipe member 21: inlet
22: expansion pipe 23: nozzle pipe
30: magnetizer 31: body
32: magnet member 32a: water pipe
32b, 32c: Permanent magnet 32d: Holder body
311; Mounting Hole 321: Channel
40 filter 41 filter member
42: magnet member 42a: core
42b, 42c: Permanent magnet 42d: Holder tube
43: support

Claims (6)

A front end is opened and a rear end of the housing 10 is provided with a drain hole 12;
An inlet pipe member 20 connecting a rear end to an open front end of the housing 10 and a supply pipe connected to the front end; And
Is mounted on the inner rear side of the housing 10, a plurality of mounting holes 311 are formed in the longitudinal direction through the body 31 and the mounting holes 311, respectively, and a water passage 321 in the center Hexagonal water production apparatus characterized in that it comprises a magnetized water receiver (30) having a plurality of magnet members (32) formed. The method of claim 1,
A mounting part 13 which is installed to be opened and closed with a lid 14 on the immediately rear circumferential surface of the open front end of the housing 10;
Hexagonal water production apparatus characterized in that it further comprises a filter (40) which is mounted so as to vertically intersect the inner front side of the housing (10) through the mounting portion 12 to be located in front of the magnetizer. The method according to claim 1 or 2,
The inlet pipe member 20 has an inlet 21 extending in diameter at the front end in the same manner as the supply pipe, and the rear end of the inlet 21 extends gradually in diameter toward the rear, and the rear end of the housing ( Hexagonal water characterized in that it comprises an expansion tube 22 connected to the front end of the 10 and the inner tube in the inner center of the inlet portion 21 extending in diameter toward the rear gradually smaller Manufacturing equipment. The method according to claim 1 or 2,
The magnet member 32 of the magnetizer 30 has a long water pipe 32a for forming a water passage 321 having a low height and a wide shape, and on top and bottom surfaces of the water pipe 32a. Hexagonal number characterized in that it consists of a plurality of permanent magnets (32b) 32c disposed in the longitudinal direction corresponding to each other and a holder tube (32d) containing the water pipe (32a) and the permanent magnets (32b, 32c) Manufacturing equipment. The method according to claim 1 or 2,
The filter 40, the upper end of the front and rear filtration member 41 in the form of a plate coupled to the lower surface of the cover 14, each upper end is coupled to the lower surface of the cover 14 and the front and rear of the filtration member 41 Several magnet members 42 installed vertically in parallel so as to be spaced apart at regular intervals therebetween, and a support 43 for coupling the lower ends of the front and rear filtration members 41 and the magnet members 42 and mounted on the inner bottom of the housing. Hexagonal number production apparatus characterized in that the configuration. The method of claim 5,
The magnet member 42 includes a long core 42a, a plurality of permanent magnets 42b, 42c, and the core 42a, which are disposed in the longitudinal direction on both sides of the core 42a, respectively. Hexagonal water production apparatus, characterized in that consisting of a holder tube (42d) containing a permanent magnet (42b) (42c).

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