KR101651498B1 - Rotation and friction type generating apparatus for magnetic resonance water - Google Patents

Abstract

The present invention relates to a rotation and friction type magnetic resonance water generation apparatus that is mounted on a water treatment pipe such as a shower head, a faucet, and a water supply pipe to magnetize and filter water and, more particularly, to a magnetic resonance water generation apparatus that is capable of magnetizing water flowing into a hollow of a housing connected to a flow path of a pipe while rotating and performing friction on the water by using a rotation plate and a main friction filter in the hollow of the housing. According to the present invention, a magnetic body provided in the rotation plate is capable of continuous rotation based on rotation of the rotation plate, and thus magnetic lines of force formed in various directions can be applied to magnetized water. Accordingly, magnetic resonance water with various magnetization properties can be generated. In addition, foreign matter included in the water can be filtered with the main friction filter or a functional element beneficial for a human body can be additionally included in the water.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotating and friction type magnetic generating apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary and friction type magnetized water generating device installed in a water treatment pipe such as a shower head, a water receiving pipe or a water pipe to magnetize and filter water, and more particularly, The present invention relates to a magnetized water generating device capable of magnetizing water by rotating and rubbing water using a rotating plate and a main friction filter which are inserted into a hollow of a housing.

Water is a combination of two hydrogen atoms and one oxygen atom. As the temperature increases, it forms a chain or pentagonal ring of 5, and the hexagonal ring increases with decreasing temperature. The water, that is, hexagonal water constituting the hexagonal annular molecular structure is known to be beneficial for improving the life function of an organism because it has a large heat capacity and cohesion with other biomolecules.

The hexagonal water has a method of cooling water to obtain the temperature according to a decrease in temperature. However, the method is not used because of energy loss and insufficient effect, and most of them use a magnetized water treatment device using permanent magnets.

Also, when the water is passed through the magnetic field of the magnet, the magnetic structure of the magnetized water is ion-activated and becomes a magnetized water having a weak alkaline hexagonal structure rich in minerals. The magnetized water activates cells in the body to promote the growth of plants and animals And it is known that it is capable of effectively treating skin diseases due to excellent bactericidal ability and is capable of preventing foreign matter or bacteria from living in piping flowing along with water.

The magnetized water treatment apparatus using the magnet as described above can obtain a large amount of magnetized water in a short time, and is widely used in various fields such as a food factory, a bathhouse, an animal husbandry and a plant cultivation as well as a living in an apartment complex.

The following is a representative prior art for a device capable of magnetizing water.

Korean Patent Laid-Open Publication No. 10-2014-0137875 relates to a magnetized water producing apparatus for producing magnetized water by dissipating magnetic force to water, wherein the magnetized water producing apparatus generates magnetic force to the moving water The magnetic force generating unit includes a plurality of magnets arranged in a line and an outer member surrounding the magnet to guide the movement of water while maintaining the shape of the magnet array.

Also, the above-mentioned prior art attempts to realize an effect of improving the magnetization efficiency by increasing the time and area of contact of the water with the magnetic force. However, in the case of using a structure in which water can flow once only to the magnetic force- The length of the flow of the water is short and the problem of the water susceptibility is somewhat insufficient.

That is, since the magnetic field area through which the water passes is limited and only a one-time magnetic field line is applied, the magnetic susceptibility of the magnetized water produced by using the above-described magnet is somewhat insufficient in the water susceptibility and the magnetization property is not varied, It is required to continue research and development.

Korean Patent Publication No. 10-2014-0137875 (Dec. 23, 2014) Korean Registered Patent No. 10-1377284 (Mar. Korean Registered Patent No. 10-1442756 (2014.09.15.) Korean Registered Patent No. 10-1515330 (Apr. 20, 2015)

The conventional magnetized water generating apparatus realizes the magnetization of water by the magnetic force of the magnetic body by simply flowing the water to the periphery of the magnetic body, Can always flow only in a constant magnetic line of magnetic force. Therefore, there is a problem that only a magnetized water having a constant water molecule structure with a constant magnetization property can be generated, thereby providing a solution to this problem.

The present invention has been made to solve the above-

A housing having a hollow communicating with a flow path of a pipe formed therein, an inlet formed at one side for receiving water, and a discharge port for discharging water at the other side; A rotating plate contained in the hollow one side of the housing and rotated by inflow of inflow water to flow inflow water to the other side of the hollow of the housing, and having at least one magnetic body; And a main friction filter disposed on the other hollow side of the housing such that an upper portion of the main friction filter is adjacent to a lower portion of the rotating plate.

Since the magnetic body provided on the rotating plate can be continuously rotated by the rotation of the rotating plate, the magnetic force lines formed in various directions in the magnetized water can be applied to the rotating and frictional type magnetized water producing apparatus according to the present invention, It is possible to obtain the effect of generating various magnetized water;

Further, as the main friction filter, it is possible to filter foreign matters contained in water or to further include a functional ingredient useful for human body in water.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a shower equipped with a rotating and friction type magnetized water generating device according to a preferred embodiment of the present invention; FIG.
2 is a cross-sectional perspective view illustrating a shower equipped with a rotating and friction type magnetized water generating device according to a preferred embodiment of the present invention.
3 is a cross-sectional perspective view showing the flow of water in the rotating and friction type magnetized water producing apparatus according to the preferred embodiment of the present invention.
4A is a cross-sectional perspective view illustrating a rotating and friction type magnetized water producing apparatus according to a preferred embodiment of the present invention.
FIG. 4B is a cross-sectional perspective view showing a case where a washer member is provided in the rotating and friction type magnetized water producing apparatus according to the preferred embodiment of the present invention. FIG.
FIG. 5 is an exploded perspective view showing a rotating and friction type magnetized water producing apparatus according to a preferred embodiment of the present invention. FIG.

The present invention relates to a rotary and friction type magnetized water producing apparatus which is mounted on a water treatment pipe such as a shower head (70), a water receiving pipe or a water pipe to magnetize and filter water, and a hollow communicating with a channel of the pipe is formed inside , A housing (10) having an inlet (11) for receiving water at one side and an outlet (12) for discharging water at the other side; A rotating plate (20) contained in a hollow side of the housing (10) and rotated by inflow of inflow water to flow inflow water to the other side of the hollow of the housing (10) and having at least one magnetic body (21); And a main friction filter (30) disposed on the other side of the hollow of the housing (10) so that an upper portion of the main body is adjacent to a lower portion of the rotating plate (20).

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 5 illustrating embodiments of the present invention.

First, the present invention is a device for magnetizing and filtering water by being mounted on a water treatment pipe such as a shower head 70, a water receiving pipe or a water pipe.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to a preferred embodiment in which the apparatus according to the present invention is inserted into a hollow formed inside the shower head 70. Hereinafter, the term 'piping' The handle 71 of the head 70 may be applied.

Specifically, the housing 10 is formed with a hollow communicating with a flow path of a pipe, an inlet 11 through which water is introduced into one side thereof, and a discharge port 12 through which water is discharged from the other side thereof , The following rotating plate 20 and the main friction filter 30 are supported in the hollow.

That is, the housing 10 is inserted into the hollow formed inside the shower head 70, and the water supplied from the flow path of the handle 71 of the shower head 70 flows through the inlet 11 formed at one side, As shown in Fig.

One side of the housing 10 is located on the upper side of the shower head 70 and the other side of the housing 10 is located on the lower side of the shower head 70. The inlet 10 formed on one side of the housing 10 Flows into the other side of the hollow of the housing 10 and then is discharged to the discharge port 12 and discharged to the outside through a plurality of injection ports formed in the lower portion of the shower head 70. [

The inlet port 11 formed on one side of the housing 10 may be formed on the entire upper portion of the housing 10 or may be formed on the upper and side portions of the housing 10 as shown in FIG. have.

That is, the housing 10 is formed with at least one inlet 11 for receiving inflow water into one side wall thereof, and a part of the side wall forming the inlet 11 is connected to the housing 10 ) In the direction of the center of the hollow.

Specifically, the inlet 11 having the above-described configuration is formed on a side wall corresponding to one side of the housing 10, and receives water from the flow path of the shower knob 71 (pipe) and flows into the hollow of the housing 10. Since the inlet 11 is formed on one side of the housing 10, the rotating plate 20 can be used as the inflow pressure of water (hereinafter, referred to as " inflow water ") introduced into the housing 10, So that the rotary plate 20 can be rotated based on the center of the rotary plate 20.

A portion of the side wall (the inclined surface 13 of the side wall) on one side of the housing 10 forming the inlet 11 is incised so as to be inclined toward the center of the hollow of the housing 10 with respect to the outer peripheral surface of one side of the housing 10 The inflow water flowing into the hollow of the housing 10 through the inlet 11 is rotated in the outward direction of the hollow of the housing 10 by the inclination of the inclined surface 13, It is possible to realize the effect of allowing it to flow into the hollow.

At this time, as described above, the inflow water that rotates in the hollow of the housing 10 can realize the effect of further increasing the rotation speed of the rotary plate 20. [

In addition, the inclination angle of a part of the side wall of the housing 10 forming the inlet 11 may have various inclination angles according to the judgment of a person skilled in the art.

In addition, when the inlet 11 is formed on one side of the housing 10 as described above, the upper portion of the housing 10 may have a closed state or an open state. The inflow water introduced into the hollow space of the housing 10 through the side of one side of the housing 10 is introduced into the shower head 70 through the upper portion of the opened housing 10, The upper portion of the hollow of the shower head 70 has a closed state so that it can be introduced into the hollow interior of the housing 10 after circulating the upper portion of the hollow of the housing 10.

The outlet 12 formed on the other side of the housing 10 is configured to discharge water toward the jetting port formed in the lower portion of the shower as shown in FIG. 2, and water passing through the main friction filter 30 is discharged to the outside of the housing 10 The main friction filter 30 is formed to have an inner diameter smaller than the outer diameter of the main friction filter 30 so that the main friction filter 30 can pass through the discharge port 12 to the housing 10, It can be configured not to be released to the hollow side.

One or more recesses are formed on the outer periphery of the housing 10 and a hermetic member 14 such as an O-ring is fitted in the recess. The housing 10, which is inserted into the hollow of the shower head 70, It is also possible to prevent water from flowing out between the hollow surfaces of the head 70.

Also, the rotary plate 20 is contained in a hollow side of the housing 10, and is rotated by inflow of inflow water to flow the inflow water to the other side of the hollow 10 of the housing 10, and has at least one magnetic body 21, The housing 10 rotates the water introduced into the hollow and magnetizes the water.

That is, the rotary plate 20 is rotated by the inflow pressure of water introduced into the hollow of the housing 10 through the inlet 11 of the housing 10 without any external power, and is rotated by the rotation of the rotary plate 20 20 in the direction of the magnetic force lines of the at least one magnetic body 21.

The rotation plate 20 may be formed in various shapes as long as it is rotatable by the inflow water inside the housing 10. The center of the rotation plate 20 is preferably formed at one side of the housing 10 And can be coupled to the center shaft 15 having a length from the other side (upper part to lower part) so as to be rotatable.

At this time, one side and / or the other side of the central shaft 15 may be connected to one side or the other side of the hollow 10 of the housing 10 to support the rotating plate 20.

The rotating plate 20 receives the inflow pressure of the inflow water and rapidly rotates about the center of the rotating plate 20 to continuously change the horizontal position of the magnetic body 21 provided on the rotating plate 20, The shape of the magnetic field lines formed by the magnetic body 21 with respect to the influent water (or 'vortex water' hereinafter) contained at a certain point in the hollow can be continuously changed by the rotation of the rotary plate 20. [

That is, since the magnetic body 21 of the conventional magnetized water producing apparatus is provided in a fixed state in a certain portion of the magnetized water generating apparatus, it always generates a magnetic force line of a constant shape with respect to the flowing water, And only a magnetized number of a uniform molecular structure is generated.

As described above, since the rotary plate 20 according to the present invention continuously changes the horizontal position of the magnetic body 21, the shape of the magnetic force lines applied to the inflow water can be variously changed, It is possible to realize an effect that the molecular structure of water magnetized by the magnetic field lines can be further diversified by continuously changing the magnetic field lines to the inflow water.

In addition, the magnetic body 21 is configured to provide a magnetic force for magnetizing water, and may be formed of at least one number of rotary plates 20, which are formed of permanent magnets.

At this time, when the magnetic bodies 21 are formed in a plurality of radial shapes around the center of the rotary plate 20 as in the case of 5, the magnetic poles of the other magnetic bodies 21 adjacent to the magnetic poles of any one of the magnetic bodies 21, Or a repulsive force, and may be provided on the rotary plate 20.

If the plurality of magnetic bodies 21 are arranged adjacent to each other with mutual repulsive force applied thereto, since the magnetic force lines formed by the magnetic bodies 21 are formed in different shapes, they are magnetized by the respective magnetic bodies 21 It is possible to realize an effect of more variously changing the magnetization form of the water molecule.

The inflow water flowing into one side of the hollow of the housing 10 through the inlet 11 of the housing 10 forms a vortex through the rotating plate 20 and changes into swirling water, (Not shown), which may be formed in a shape that penetrates the upper and lower portions, or another air passage 16 that may be formed between the outer peripheral surface of the rotary plate 20 and the hollow hollow surface of the housing 10 10) to the other side of the hollow.

The vortex flow that has flowed to the lower portion of the rotary plate 20 through the air passage can be magnetized again between the upper portion of the main friction filter 30 and the lower portion of the rotary plate 20, I will do it again.

The main friction filter 30 is disposed on the other side of the hollow 10 of the housing 10 so that the upper portion of the main friction filter 30 is adjacent to the lower portion of the rotating plate 20. And a magnetic force line is again applied to the vortex water flowing between the lower portion of the rotary plate 20 and the upper portion of the main friction filter 30 to magnetize the vortex water.

That is, the main friction filter 30 may further include a filter capable of filtering foreign substances contained in the vortex water magnetized by the magnetic body 21 provided on the rotary plate 20, and / or a functional ingredient beneficial to the human body And a filter capable of absorbing the light.

In this case, when the main friction filter 30 is constituted by a filter capable of filtering foreign substances contained in the vortex water, the main friction filter 30 can filter the foreign substances contained in the vortex water And a porous filter configured to adsorb and filter foreign matters to the porous body; In the case of a filter that can further include a functional component, the main friction filter 30 may include various types of functional components beneficial to the human body. More preferably, the main friction filter 30 includes a ceramic filter So that various kinds of minerals can be further included in the vortex water that has passed through the ceramic filter.

When the main friction filter 30 is composed of a ceramic filter including minerals as described above, the ceramic filter may be composed of a filter composed of only a plurality of ceramic particles including minerals, and ceramic particles containing minerals A filter made of a filter having a predetermined strength and shape can be used.

At this time, it is preferable that the ceramic filter made of the ceramic particles has pores formed between the ceramic particles, so that the vortex water can be easily passed through the pores.

In addition, the filter capable of filtering the foreign substances contained in the eddy current and the ceramic filter may be composed of the single main friction filter 30 or the main friction filter 30 having two kinds of filters at the same time .

A washer member 40 may be provided between the center of the rotary plate 20 and the center of the main friction filter 30. [

Specifically, the lower portion of the rotating plate 20 and the upper portion of the main friction filter 30 may have a state of being in contact with each other and a state of being spaced apart from each other (the 'adjacent' State ').

At this time, the washer member 40 separates the lower portion of the rotary plate 20 and the upper portion of the main friction filter 30 so that a portion of the lower portion of the rotary plate 20 is protruded or a portion of the upper portion of the main friction filter 30 The washer member 40 may be formed in a protruded shape and may be formed of a separate component and positioned at the upper portion of the rotary plate 20 and the lower portion of the main friction filter 30. [

The washer member 40 is attached to the upper surface of the main friction filter 30 and the central axis 15 corresponding to the lower portion of the rotating plate 20, So that the main friction filter 30 and the rotary plate 20 are spaced apart from each other so that the vortex water can be received.

A through hole through which the center shaft 15 for supporting the rotary plate 20 to the housing 10 is formed is formed at the center of the main friction filter 30 and a through hole A predetermined portion of the upper portion of the rotating shaft passing through the other through hole formed at the center of the rotating plate 20 can be configured to rotate the rotating plate 20. [

At this time, the outer side of the main friction filter 30 is supported inside the other side of the hollow of the housing 10 and is not rotated, and the rotation plate 20 is supported so as to be rotatable only on the center shaft 15.

The rotating plate 20 may be configured in various forms as long as the rotating body 20 is rotated by the inflow pressure of the inflow water and magnetized by the magnetic body 21 provided on the rotating plate 20, ) Comprises a disc (22) having a plurality of combs (23) on its top or side; An auxiliary friction filter (24) having an upper portion fastened to a lower portion of the disc (22) and a lower portion adjacent to an upper portion of the main friction filter (30); And at least one magnetic body 21 provided in the auxiliary friction filter 24.

3, the rotation plate 20 receives the inflow pressure by the influent water more strongly and is provided on the rotation plate 20 And a comb tooth blade 23 for further increasing the vorticity of the inflow water formed as vortex water.

At this time, it is preferable that the circular plate 22 is formed in a plate-like shape having a circular outer circumference for facilitating rotation in one side of the hollow of the housing 10.

It is preferable that a comb tooth blade 23 is provided on the upper portion or the side portion of the disk 22 in order to more effectively pressurize the inflow pressure of the inflow water and improve the vortexability of the inflow water. 22, and may be provided on the disc 22.

At this time, the shape of the comb teeth 23 may be linear from the outside to the center of the disk 22, or may be curved.

The auxiliary friction filter 24 is configured such that an upper portion of the auxiliary friction filter 24 is coupled to the lower portion of the disk 22 and a lower portion of the auxiliary friction filter 24 is adjacent to an upper portion of the main friction filter 30, The above-mentioned magnetic body 21 has a structure for magnetizing the eddy current.

The auxiliary friction filter 24 is coupled to the bottom of the disk 22 and rotated by the rotation of the disk 22 to continuously rotate the magnetic body 21 provided in the auxiliary friction filter 24, And the magnetic force lines to be applied to the permanent magnets are continuously changed.

Further, the vortex water flowing into the gap between the auxiliary friction filter 24 and the main friction filter 30 is further vortexed by the rotation of the auxiliary friction filter 24, The swirling water flowing into the friction filter 30 can receive the magnetic force by the magnetic body 21 continuously while receiving a pressing force as if it is grinded between the millstones and the functional component by the main friction filter 30 Can be effectively cultivated.

In association with the above, the at least one magnetic body 21 provided in the auxiliary friction filter 24 may be configured in various forms as long as it can apply magnetic force to the eddy current formed by the rotation of the rotary plate 20. [

That is, the magnetic body 21 provided in the auxiliary friction filter 24 may apply magnetic force lines to the vortex water contained in the cavity of the housing 10 corresponding to the upper or side portion of the disk 22, (The lower portion of the disk 22) of the main friction filter 30 and the upper portion of the main friction filter 30.

The magnetic body 21 is provided in the auxiliary friction filter 24 among a plurality of parts of the rotary plate 20 and is provided with a vortex flow into the space formed between the lower portion of the auxiliary friction filter 24 and the upper portion of the main friction filter 30. [ The disc 22 may be formed in a closed state with its upper portion open and its lower portion closed to form a magnetic body 21 for inserting the magnetic body 21 therein And a magnetic body holder hole 24a for inserting the magnetic body holder 22a may be formed in the auxiliary friction filter 24. The magnetic body holder 22a may be formed to have a predetermined thickness.

4A, the magnetic body holder 22a of the auxiliary plate 22 protrudes to the lower portion of the disk 22 and is coupled to the lower plate of the disk 22. The magnetic body holder 22a of the auxiliary plate 22, (24a).

It is preferable that the length of a portion of the lower portion of the magnetic body holder 22a protruding to the lower portion of the disk 22 be a length corresponding to the depth of the magnetic body holder hole 24a.

The magnetic substance 21 formed in the magnetic substance holder 22a in the longitudinal direction of the magnetic substance holder 21 penetrates the magnetic substance 21 and the magnetic substance 21 inserted into the magnetic substance 21 hole When the magnetic substance holder 22a is inserted into the magnetic substance holder hole 24a while being in the state of being inserted into the inside of the magnetic substance holder 22a and being located lower than the lower surface of the disk 22 as shown in Figure 4a, And is located at a portion corresponding to the inside of the first opening 24a.

In addition, the lower portion of the magnetic body holder 22a (the side which is inserted into the magnetic body holder hole 24a) is closed so that the magnetic body 21 intruded into the magnetic body holder 22a is not released in the direction of the main friction filter 30 And the upper portion of the magnetic body holder 22a is open so that the magnetic body 21 can be inserted into the magnetic body holder 22a.

At this time, the stopper 25 is inserted into the upper part of the magnetic holder 22a in the opened state, so that the magnetic substance 21 inserted into the inside of the magnetic holder 22a is not released to the open upper side of the magnetic holder 22a It can also be realized.

Of course, the magnetic body 21 is configured to be closely fitted in the magnetic body holder 22a, and the stopper 25 may not be constituted.

Hereinafter, a process of magnetizing and filtering water through the rotary and friction type magnetized water producing apparatus according to the preferred embodiment of the present invention will be described in detail.

The rotating and frictional magnetized water producing apparatus according to the present invention is in a state of being inserted into the hollow of the shower head 70. At this time, the rotating and frictional type magnetized water producing apparatus includes a cap (not shown) 72 or the cap 72 provided at the lower part of the shower head 70 to open the inside of the hollow of the shower head 70 so that an outer certain portion of the housing 10 is inserted into the hollow interior of the shower head 70 Respectively.

The inlet 11 of the housing 10 in the hollow of the shower head 70 can communicate with the hollow formed inside the handle 71 of the shower head 70 to receive water.

That is, the water introduced into the hollow of the shower head 70 flows through the inlet 11 of the housing 10 located at one side of the hollow of the shower head 70 and forms the inlet 11 of the housing 10 And the plurality of comb teeth wings 23 provided on the upper portion of the rotary plate 20 are inserted into the upper portion of the rotary plate 20 so as to flow into the upper portion of the rotary plate 20, The rotary plate 20 is rotated by the inflow pressure of the inflow water, and the influent water is changed into the eddy current.

At this time, the swirling water accommodated in the upper portion of the rotary plate 20 and forming a vortex is influenced by the magnetic force lines formed on the upper portion of the rotary plate 20 by the magnetic body 21 provided in the auxiliary friction filter 24 of the rotary plate 20, And can be primarily magnetized.

The vortex water then flows to the lower portion of the rotary plate 20 through the air passage 16 formed between the hollow hollow surface of the housing 10 and the outer peripheral surface of the rotary plate 20, The vortex water flows into the spaced space formed between the lower portion of the rotary plate 20 and the upper portion of the main friction filter 30 and is rotated.

At this time, the vortex water flowing into the spacing space is secondarily magnetized by the magnetic body 21 provided in the auxiliary friction filter 24 of the rotary plate 20, and the minerals contained in the main friction filter 30 are mixed.

Thereafter, the vortex water which is rotated in the spaced space and flows into the lower portion of the main friction filter 30 through the gap of the main friction filter 30 may contain more minerals contained in the main friction filter 30 , The foreign matter is filtered by the main friction filter 30 and discharged to the lower portion of the main friction filter 30 to become magnetized and filtered magnetized water.

The magnetized water discharged to the lower portion of the main friction filter 30 is discharged through a discharge port 12 formed on the lower side of the housing 10 and then discharged to the outside through an injection port of the shower head 70.

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, It is possible to carry out various changes in the present invention.

10: housing 11: inlet
12: exhaust port 13: inclined surface
14: sealing member 15: center shaft
16: air vent 20: spindle
21: magnetic body 22: disk
22a: magnetic body holder 23: comb teeth
24: auxiliary friction filter 24a: magnetic substance holder hole
25: plug 30: main friction filter
40: washer member 70: shower head
71: handle 72: cap

Claims (6)

A housing 10 in which a hollow communicating with the flow path of the pipe is formed, an inlet 11 for receiving water is formed at one side, and a discharge port 12 for discharging water at the other side; A rotating plate (20) contained in a hollow side of the housing (10) and rotated by inflow of inflow water to flow inflow water to the other side of the hollow of the housing (10) and having at least one magnetic body (21); And a main friction filter (30) embedded in the other hollow side of the housing (10) so that an upper portion thereof is adjacent to a lower portion of the rotary plate (20)
The rotary plate (20)
A disc 22 having a plurality of combs 23 on its upper side or side; An auxiliary friction filter (24) having an upper portion fastened to a lower portion of the disc (22) and a lower portion adjacent to an upper portion of the main friction filter (30); And at least one magnetic body (21) provided in the auxiliary friction filter (24)
In the circular plate 22,
The magnetic body holder 22a having the upper portion thereof opened and the lower portion closed is formed so that the magnetic body 21 holes for inserting the magnetic body 21 are formed to protrude downwardly. And a magnetic body holder hole (24a) for inserting the magnetic body holder (22a) is formed.
The method according to claim 1,
The housing (10)
And at least a portion of the side wall forming the inlet port 11 is formed so as to be inclined toward the center of the hollow of the housing 10 with respect to the outer circumferential surface of one side of the housing 10 Wherein the magnetic field generating unit is configured to generate a magnetic field.
delete delete The method according to claim 1,
Between the center of the rotary plate 20 and the center of the main friction filter 30,
Is provided with a washer member (40).
The method according to claim 1,
The main friction filter (30)
Wherein the ceramic filter is composed of a ceramic filter containing minerals.

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