KR200434808Y1 - Magnetized Water machine - Google Patents

Abstract

  The present invention relates to a magnetizer that generates magnetized water by magnetizing a fluid into a permanent magnet, which will be described in more detail, in which a magnet is equipped with a magnetized water pipe and a vertical shape in which a permanent magnet is mounted to form a built-in tube. The present invention relates to a magnetizer that is configured to form a tubular body in a narrow rectangular shape that is flat and horizontal, and to narrow the distance between a plurality of permanent magnets facing each other so as to efficiently perform magnetization.

Magnetized water, permanent magnet

Description

Magnetized Water Machine

 1 is a perspective view showing an assembled state of the present invention.

 Figure 2 is a partially cut perspective view showing the assembled state of the present invention.

 Figure 3 is an exploded perspective view showing the internal configuration of the present invention.

 Figure 4 is a cross-sectional view showing a wearing state of the present invention.

 5 is a cross-sectional view showing a state of use of the present invention.

<Description of the symbols for the main parts of the drawings>

100: magnetizer

10: magnetization water pipe

 11: square channel 11a: second inlet 11b: width 11c: vertical width

 12 connection part 12a left connection part 12a-1 first inlet port 12a-2 first outlet port

                12b: Right connection part 12b-1: Second outlet

                12c: square protrusion 12d: first O-ring 12e: first O-ring groove

 13: permanent magnet

 20: protective case

 30: cap

 31: support pin connecting groove 32: square groove 33: second O-ring 34: second O-ring groove

 40: support pin 50: bioceramic ball 60: lock bolt 70: water pipe

 41: support pin nut 61: water pipe connection groove

 The present invention relates to a magnetizer that generates magnetized water by magnetizing by connecting a magnetizer that consists of permanent magnets between a pipe of a water pipe or a water pipe through which a fluid (water) flows,

More specifically, the permanent magnets are mounted on both outer walls of the rectangular water pipes so as to double the magnetization capacity of the water by combining a rectangular water pipe made of rectangular tubular body with the center of the magnetized water pipe which is mounted inside the magnetizer device to magnetize water. It is related to a magnetizer that can maximize the magnetization efficiency by narrowing the separation distance of the magnet as much as possible.

Generally, the method of improving the quality of water passing through a water pipe or a water pipe is a chemical method of introducing a purification chemical into the pipe, and the water is filtered by inserting activated carbon, an ion exchange resin, a filtration filter, or a permanent magnet or an electromagnet. A variety of methods have emerged, ranging from physical methods to magnetizing water using.

As such, many kinds of magnetizers are known in the related art even if only the apparatus related to the magnetization water is used. However, when the device is briefly described, the permanent magnets are disposed on the upper and lower sides of the general water pipe or the pipe (pipe) through which the fluid (water) flows. By simply attaching and fixing the fluid, the magnetization process was to produce magnetized water.

However, the conventional magnetizer has been easy to install, but simply attaching a magnet to a standardized pipe does not provide effective magnetization, and uses a high Gaussian permanent magnet or a plurality of permanent magnets to require high magnetic force. Due to the use of the product, the weight or volume of the product is increased, resulting in an increase in the unit cost, and there was a problem such as difficult construction work at the installation site having a narrow space at the time of construction.

Therefore, the object of the present invention was devised to improve the various problems as described above, the magnetization water pipe is mounted inside the magnetizer, and the cross-section of the rectangular waterway tube of the cross section in the center of the built-in magnetization water pipe, but facing each other wide A plurality of permanent magnets are coupled to the surface, respectively, and second suction holes are formed at the upper and lower portions of the narrow surfaces facing each other to maximize the magnetization power by narrowing the separation distance between the permanent magnets. The purpose is to provide an efficient magnetization treatment, as well as to minimize the volume of the device, to reduce the manufacturing cost and to provide a magnetizer that is easy to install in a narrow place.

In more detail through the accompanying drawings, the configuration of the present invention in order to achieve the object as described above are as follows.

1 is a perspective view showing the assembled state of the present invention, Figure 2 is a partially cutaway perspective view showing the assembled state of the present invention, a magnetizer is configured to be installed between the water pipe 70 is supplied with fluid (water) ( 100 is composed of a protective case 20, a cap 30, a support pin 40, a support pin nut 41, a locking bolt 60 around the magnetized water pipe 10 to generate magnetized water inside the device. consist of.

The lock bolt 60 of the magnetizer 100 forms a water pipe connection groove 61 at the center side and forms a thread in the connection groove 61 to easily and simply connect the water pipe 70 to the fluid (water). Is formed to generate magnetized water by magnetizing while passing through the magnetizer.

3 is an exploded perspective view showing an internal configuration of the present invention, the protective case 20, the cap 30, the support pin 40, the support pin nut 41, the locking bolt around the magnetized water pipe 10 The magnetizer 100 is composed of 60 is composed of an assembly type structure that can be easily fastened and coupled.

Looking at the configuration of the device of the magnetizer 100 in detail, the magnetization water pipe 10 of the magnetizer 100 is an internal configuration device that becomes a central part for generating a magnetized water by magnetizing the fluid, the left and right rounded shape In the form of a pipe tube to be substantially magnetized and the connection portion 12, the horizontal width (11b) of the narrow width of the vertical width (11c) to form a rectangular water pipe (11) made of a rectangular tubular structure to the left, right connection portion (12a, 12b) integrally, and the second suction port (11a) is formed on the left side and the bottom of the left horizontal surface of the rectangular channel 11, the vertical width (11c) on both outer sides of the rectangular channel (11). A plurality of permanent magnets 13 are divided and mounted to face each other to face each other.

At this time, the permanent magnet 13 is mounted on both outer sides of the rectangular water pipe 11, the permanent magnet 13 is made of the case treatment in order to prevent corrosion or rust.

The circular connection part 12 which is integrally formed at the left and right ends of the square channel pipe 11 of the magnetized water pipe 10 is composed of a left connection part 12a and a right connection part 12b, and a left connection part 12a. The first suction port 12a-1 is formed to allow the fluid flowing from the water pipe to enter the protective case 20.

In addition, at the left connection portion 12a, four first discharge ports 12a-2, which discharge the fluid introduced into the first intake port 12a-1 to the outside, are formed to protrude around the outer side of the left connection portion 12a. On the front of the left and right connecting portions 12a and 12b, first o-ring grooves 12e are formed to prevent leakage, thereby fitting the first o-rings 12d made of rubber material, and the first o-ring grooves 12e. A square projection 12c is formed inside the edge.

After the magnetized water pipe 10 that generates the actual magnetized water is configured inside, the magnetized water pipe 10 is positioned at the inner center of the protective case 20 of the cylinder. The cap 30 has the same shape on the left and right sides. Replace by replacing.

At this time, the inner surface of the cap 30 is a groove in which the case 20 is fitted, and at the same time, a second O-ring groove 34 is formed so as to fit the second O-ring 33 of rubber material to prevent leakage. A rectangular groove 32 is formed on the center of the cap 30 so as to be coupled to the square protrusion 12c formed at the front of the left and right connecting portions 12a and 12b of the magnetized water pipe 10. In addition, four support pin connecting grooves 31 are formed in a diagonal direction around the square groove 32 of the cap 30 to connect the support pins 40 supporting the device at four angles, thereby supporting the outer side of the cap. It was configured to lock with a pin nut (41).

The protective case 20 is coupled to the second O-ring groove 34 and the square protrusions 12c are formed at the left and right connecting portions 12 of the magnetized water pipe 10. When coupled to the (32) was configured to lock with a locking bolt 60, at this time the inner surface of the square projection (12c) was formed to form a female thread so that the coupling to the locking bolt 60 is easy to configure.

A fluid pipe connection groove 61 is formed at the inner center of the lock bolt 60 to facilitate the connection with the water pipe as well as the fluid entering or exiting the lock bolt 60, and a thread is formed on the inner surface of the groove. Figure 4 is a cross-sectional view showing a wearing state of the present invention, Figure 5 shows a cross-sectional view showing a use state of the present invention, to show the process of the fluid is sucked by the magnetization treatment is discharged by cutting from the top and side in the perspective direction will be. As shown, the fluid flowing through the water pipe 70 on the left side is introduced through the water pipe connection groove 61 at the center of the locking bolt 60 on the left side, and the introduced fluid is magnetized water fastened to the locking bolt 60. The tube 10 flows into the first suction port 12a-1 of the left connection part 12a and is ejected through the four protruding first discharge ports 12a-2 provided in the outer circumference of the left connection part 12a. At this time, the fluid ejected through the first outlet 12a-2 is primarily activated by the bio-ceramic ball 50 placed in the case 20 around the magnetizing water pipe 10 and activated. A plurality of fluids are sucked through the two suction ports 11a provided on the upper left side and the lower side of the rectangular channel 11 of the magnetized water tube 10 to face both outer outer walls of the rectangular channel 11 and face each other. The secondary magnetization treatment is performed by the permanent magnet to generate secondary magnetized water as the hexagonal water, and the magnetized water is discharged through the second outlet 12b-1 of the right connection part 12b. The inner side of the right side connection portion 12b and the square water pipe are connected to the vicinity of the M portion so that they can be immediately discharged, and discharge and supply the magnetized water through the water pipe 70 connected to the center of the lock bolt 60 on the right side. It has been registered configuration.

Permanent magnets to face the fluid activated by the primary bio-ceramic ball as opposed to the narrow width of the rectangular 11 channel tube 11 is narrow and the vertical width (11c) structured as opposed to the opposite to the fluid activated by the primary bio-ceramic ball The magnetic field is formed by making an efficient arrangement by mounting a strong magnetic field inside the square channel tube 11, thereby increasing the frequency of the fluid by applying impact energy and velocity energy to the fluid in the square channel tube (11). In addition, by activating the fluid and increasing the freshness by making the water molecule small, the active active water is produced.

 As described above, although the present invention has been described above, it is not necessarily limited thereto, and various modifications may be made without departing from the scope and spirit of the present invention.

 The above-described configuration and the present invention relate to a magnetizer that generates magnetized water by magnetizing a fluid (water) with a permanent magnet, and the first bio-ceramic ball has a fluid (water) that has a magnetized water pipe built therein and passes through the magnetized water. Activate the water molecules through the circumference and make the first activated fluid a rectangular rectangular channel with a narrow width and a wide width, and install a number of permanent magnets on the outside vertical width of the rectangular channel and maximize the separation distance. It is narrowed down to a magnetization process.

Due to such an efficient arrangement, strong magnetic fields can be generated, and permanent magnets with a minimum Gaussian size can be applied, so that the magnetization efficiency can be drastically increased by maximizing the magnetization efficiency compared to the existing one while suppressing unnecessary cost increase. Is provided.

Claims (1)

The magnetization water pipe 10 is mounted inside the protective case 20, and the cap 30 is coupled to the left and right sides of the protective case 20 by the support pin 40 and the support pin nut 41, and the cap 30. In the center of the magnetizer 100 is coupled to the locking bolt 60, In the center of the magnetizing water pipe 10, the horizontal width 11b is narrowed and the vertical width 11c is combined with the rectangular rectangular water pipe 11, which is wide, to form an integrated body with the left and right connecting portions 12a and 12b, and In the outer longitudinal width (11c) of the water pipe 11 is characterized in that a plurality of permanent magnets (13) are opposed to each other mounted to face each other, so that the separation distance of the permanent magnets as close as possible to generate a magnetized water by magnetizing Magnetizer.

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