KR20180137188A - A Filter Module with a Rare Earth Component and a Water Purifier Using the Same - Google Patents

Abstract

The present invention relates to a filter module having a rare earth component and a water purifier using the same, and more specifically, relates to the filter module having a filter layer formed of rare earth component particles and the water purifier using the same. The filter module having the rare earth component and the water purifier using the same comprise: a first filter layer (12) for filtering incoming water; a rare earth component filter layer (11) made of the rare earth component particles for filtering the water which has passed through the first filter layer (12); and a second filter layer (13) for filtering the water passing through the rare earth component filter layer (11). The rare earth component particles include equal to or more than 0.6 wt% of rare earth component of total particle weight.

Description

Technical Field [0001] The present invention relates to a filter module including a rare earth component and a water purifier using the filter module.

The present invention relates to a filter module including a rare earth component and a water purifier using the filter module, and more particularly, to a filter module having a filter layer formed of particles of a rare earth component and a water purifier using the filter module.

Due to environmental pollution or other causes due to industrial development, water used for domestic or industrial use goes through a purification process. Particularly, a water purifier is mainly used for the intake of water, and the water purifier has a function of filtering purified water, which is primarily purified, to supply purified water. Background of the Invention Various types of water purification or filtration devices that apply to potable water storage or water purifiers for massive drinking water supply are known in the art. For example, Patent Publication No. 10-2015-0140048 discloses a cold / warm water purifier equipped with a ceramic filter having nano pores, and Patent Document No. 10-2006-0055806 discloses a structure in which ion exchange fibers The attached filter is disclosed.

In the case of the activated carbon filter or reverse osmosis filter used in the prior art ceramic filter, ion exchange fiber filter or publicly known technology, useful components contained in water can be removed together, and the exchange period is short. It is advantageous for the filter or the water purifier to have the function of removing the impurities or harmful components whilst at the same time maintaining the advantageous components intact or changing the properties of the water to favorable form if necessary. However, prior art or publicly known techniques are not disclosed for such filters.

The present invention has been made to solve the problems of the prior art and has the following purpose.

Prior Art 1: Patent Publication No. 10-2006-0055806 (published by Winiamando Co., Ltd. on May 24, 2006) Filter for water purifier and ion water purifier using the same Prior Art 2: Patent Publication No. 10-2015-0140048 (Wellco, Inc., published on Dec. 15, 2015) A cold / warm water purifier equipped with a ceramic filter having nano pores

An object of the present invention is to provide a filter module including a filter layer made of rare earth particles and a water purifier using the filter module.

According to a preferred embodiment of the present invention, a filter module comprising a rare earth component and a water purifier using the filter module comprise one filter layer for filtering the incoming water; A rare earth filter layer made of rare earth particles including a rare earth component for filtering water that has passed through a filter layer; And a second filter layer for filtering water passing through the rare earth filter layer, wherein the rare earth particles are at least 0.6 wt% of the total particle weight.

According to another preferred embodiment of the present invention, one filter layer comprises a zeolite layer and a sand particle layer.

According to another preferred embodiment of the present invention, a ceramic filter formed above the one filter layer and formed with a through hole having an average diameter of 0.01 to 10.0 탆 is further included.

According to another preferred embodiment of the present invention, there is provided a ceramic filter in which incoming water is guided to a through hole having an average diameter of 0.01 to 0.5 占 퐉; A filter module for guiding the water having passed through the ceramic filter to a rare earth filter layer made of rare earth particles containing a rare earth component whose content is 0.6 wt% or more of the total particle weight; And a discharge tab for discharging water that has passed through the filter module, wherein a magnetic unit of niobium material is disposed in the discharge path of the discharge tap.

The filter module according to the present invention changes the magnetic characteristic of water passing through the rare earth filter layer so that a beneficial effect is generated by the human body. In addition, the water purifier according to the present invention can be applied to a zeolite filter or a ceramic filter to remove various types of bacteria or foreign matter. Further, the water purifier according to the present invention can be used in a state in which the alkali property of water is maintained.

Figure 1 shows an embodiment of a filter module according to the invention.
Figure 2 shows another embodiment of a filter module according to the invention.
Figure 3 shows another embodiment of a filter module according to the invention.
4 shows an embodiment of a water purifier according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

Fig. 1 shows an embodiment of a filter module 10 according to the invention.

Referring to Figure 1, the filter module comprises a filter layer 12 for filtering incoming water; A rare earth filter layer (11) made of rare earth particles containing a rare earth component for filtering water that has passed through the filter layer (12); And a second filter layer (13) for filtering the water passing through the rare earth filter layer (11), wherein the rare earth particles comprise at least 0.6 wt% of a rare earth component of the total particle weight.

The filter module 10 may include at least one filter layer and may be installed at a location such as a drinking water storage tank that supplies a large amount of drinking water including the interior of the water purifier. The filter module 10 may also be made compact and installed in the interior or outlet of the portable drinking water cistern. As such, the filter module 10 may be installed in a variety of containers, devices, or equipment having drinking water supply applications.

1 filter layer 12 may have a function of removing impurities, impurities or bacteria, or may have a function of generating anions, and may be formed of, for example, an activated carbon filter, a zeolite filter, a reverse osmosis filter, a carbon filter, Filters, and the like. 1 filter layer 12 may include various types of filters for removing or deodorizing particles in the form of particles and the debris-removed water by one filter layer 12 may be introduced into the rare earth filter layer 11 have.

The rare earth filter layer 11 may be composed of rare earth particles (RG), and the different rare earth particles may have the same or similar shape, or may have an irregular shape. The rare earths may comprise a lanthanide element, yttrium or scandium, and the rare earth particles may comprise at least one such rare earth element. The rare earth particles are refined from the ores, made into a powder, and a binder or additive is added so that the firing can be made to have a suitable shape. The appropriate shape may be, for example, a spherical or similar shape, but is not limited thereto. Alternatively, the rare-earth particles can be milled from the ore and crushed into any form. Rare earth minerals can be mined in the form of bastnasite, monazite, xenotime or ion adsorption light. Such gemstones can be immersed in, for example, a sulfuric acid solution, a hydrochloric acid solution, caustic soda or a similar solution, whereby components which do not belong to rare earths can be removed. When the impurities are removed from the raw stones to an appropriate level, the raw stones can be washed and then fired at a temperature of 500 to 1200 ° C. The gemstones can then be ground to the appropriate size and made into any form of particle.

The rare earth filter layer 11 can be made of particles having various sizes and can be made of particles of the same or similar shape or particles having any shape. The rare earth particles in the form of particles may comprise at least 0.6 wt% of a rare earth component and may comprise, for example, from 0.6 wt% to 5.0 wt% of rare earth components.

The electrical or magnetic characteristics may change while the water from which the impurities are removed passes through the rare earth filter layer 11. For example, electrical or magnetic properties may be varied by the niobium, scandium, yttrium or similar rare earth components contained in the rare earth particles. The water that has passed through the rare earth filter layer 11 can be led to the two filter layers 13. 2 filter layer 13 may be a filter comprising magnesium or silica particles. For example, the magnesium or silica particles can be made independently or as a mixture with each other and made into spherical particles having an average diameter of 1.0 to 5.0 mm. 2 filter layer 13 may comprise 20 to 30 wt% of magnesium particles and 70 to 80 wt% of silica particles, and the silica particles may be porous silica particles. 2 filter layer 13 allows the alkali property of the water that has passed through the rare earth filter layer 11 to be improved. For example, the pH of the water having passed through the two filter layers 13 may be from 7.2 to 7.8, but is not limited thereto.

The rare earth filter layer 11 may be made of various structures, for example, a layer structure filter module 10a or a case structure filter module 10b. The layered filter module 10a may be formed in a layered structure together with the other filter layers 12 and 13, as shown in Fig. 1 (a). Water may be introduced into the inlet unit 15 and then discharged through the magnetization induction unit 14 through one filter layer 12, the rare earth filter layer 11 and the second filter layer 13. The magnetization induction unit 14 may be formed into a disc shape by mixing components such as niobium or a similar rare earth component, ferrite metal, or elvan. A portion of the lower portion of the lower portion of the cylindrical filter-like filter layer 13 may be inserted and fixed to the upper portion of the magnetization induction unit 14 where the fixing hole is formed in the central portion. The layered filter module 10a having such a structure can be installed in drinking water supply means such as, for example, a water purifier or a portable water bottle.

1 (b), the case structure filter module 10b may have a box-shaped or cylinder-shaped rare earth filter layer 11a, and the rare earth filter layer 11a may have a purified Rare earth particles (RG) can be arranged. An inflow lid 15a in which rare earth particles RG having different sizes and shapes are accommodated in the rare earth filter layer 11a and a plurality of inflow pores 151 are formed on the rare earth filter layer 11a, As shown in Fig. The inflow lid 15a may be a detachable structure, and for example, the inflow pores 151 may be uniformly formed into a shape penetrating the inflow lid 15a with a size of 1.0 mu m to 2.0 mm. A magnetic discharge unit 14a made of the same or similar structure as the magnetization induction unit 14 may be coupled to the bottom surface of the rare earth filter layer 11a. The self discharge unit 14a may be formed with a discharge hole similar to the inflow hole 151 formed in the inflow lid 15a.

The case structure filter module 10b can be disposed, for example, at the same place as the purified water tank, and the water inside the purified water tank can be discharged after being continuously flowed into the rare earth filter layer 11a and magnetized. Thereafter, the magnetized water can be discharged from the storage tank through the drinking water discharge means and can be drunk. The case structure filter module 10b may be disposed in various water supply facilities, such as, but not limited to, water storage areas such as storage tanks.

The filter module 10 according to the present invention basically comprises the rare earth filter layers 11 and 11a and may comprise various filters for removal of impurities or germs along with the rare earth filter layers 11 and 11a, And a filter for the generation of useful components. A filter or component having a variety of functions can be disposed in the filter module 10.

Figure 2 shows another embodiment of a filter module according to the invention.

Referring to FIG. 2, one filter layer 12 may include a zeolite layer 231 and a sand particle layer 232.

1 filter layer 12 may be disposed, for example, in the hollow cylinder-shaped layer arrangement case 21, and the inflow unit 15 may be coupled to the upper portion of the layer arrangement case 21. [ The active carbon layer 24, the zeolite layer 231 and the sand particle layer 232 can be disposed in order in the layer arrangement case 21 and the rare earth filter layer 11 can be disposed below the sand particle layer 232. [ Can be arranged. And two filter layers 13 including particles of magnesium and silica may be disposed under the rare earth filter layer 11. [ Each of the layers 24, 231, 232, 11, and 13 may be formed in a filter case having inlet pores and exhaust pores on the ceiling surface and the bottom surface, and the filter case, Respectively. And each filter element described above may be placed in each filter case.

For example, carbon filters, zeolite particles, sand particles, rare earth particles and magnesium / silica particles may be accommodated in the carbon filter case, the zeolite filter case, the sand filter case, the rare earth filter case and the two filter cases to have filter functions. have. The activated carbon layer 24 may be a carbon fiber filter, and may have the function of deodorizing, removing chemical components, or removing various types of organic components. Zeolite particles of the zeolite filter or zeolite particles, for example, the zeolite particles or the zeolite particles may have a porous structure, for example, the zeolite particles may have a large specific surface area, 1,000 m < 2 > / g, a pore area of 0.8 to 1.6 cm < 3 > / g and an average pore diameter of 30 to 60 angstroms. The zeolite particles can have an antibacterial or deodorizing function and can have a water structure in which the water molecules can be magnetized in the rare earth filter layer 11 while allowing bacteria or chemical components not removed in the activated carbon layer 24 to be removed, It is advantageous to be a structure. If the structure is out of the range, the discharge speed of the water is lowered, or the effect of the rare earth element is hardly exhibited sufficiently.

The sand particle layer 232 may be composed of one sand particle having an average diameter of 0.02 to 0.002 mm and two sand particles having an average diameter of 0.02 to 2 mm, May be mixed in a ratio of 20 to 50. [ The sand particle layer 232 may have the function of removing pathogens while controlling the speed of water flowing into the rare earth filter layer 11. [ And the rare earth filter layer 11 may be made of the components shown in FIG.

As described above, the two filter layers 13 may be made of magnesium and silica particles. Alternatively, the second filter layer 13 may be formed of magnesium or silicate minerals, silicate minerals can be a mineral form, including _{SiO 2, Fe, Ca, K} , Mg or Al. And a disk-shaped magnetic induction unit can be incorporated below the two filter layers 13 as described above. The magnetic induction unit may be a disc-shaped magnetic plate 22, and the disc-shaped magnetic plate 22 may be made of a mixture of niobium and silica. The niobium may be contained in a proportion of 0.1 to 1.5 wt% of the total weight of the disc magnetic plate 22. The disc-shaped magnetic plate 22 can function to strengthen the electric or magnetic characteristics of the changed water while passing through the rare earth filter layer 11. The disc-shaped magnetic plate 22 may be formed as a disc as a whole with a through-hole formed at the center thereof. The lower portion of the two filter layers 13 can be coupled to the through-hole of the disc-shaped magnetic plate 22 so that the disc-shaped magnetic plate 22 is positioned below the rare earth filter layer 11. According to this structure, the disc-shaped magnetic plate 22 can have a corresponding function. The disc-shaped magnetic plate 22 can be made of various structures and is not limited to the illustrated embodiment.

Figure 3 shows another embodiment of a filter module according to the invention.

The filter module 10 may include a ceramic filter 31 formed above the one filter layer 12 and formed with a through hole having an average diameter of 0.01 to 10.0 占 퐉.

A coupling portion is formed above the inlet unit 15, and the ceramic filter 31 can be made independently and coupled detachably to the coupling portion. The ceramic filter (31) includes a filter case (311) having a coupling portion formed at a lower portion thereof; A base unit 313 disposed on the bottom surface of the filter case 311; And a filter body 312 having a dome shape and coupled to a central portion of the base unit 313. The base unit 313 can be made in a structure similar to that of the magnetic induction unit described above and the filter body 312 can be formed in a hemispherical shape at a coupling portion and a cylinder portion which become a cylinder shape while being coupled to the base unit 313 Gt; can be made of an inflow site. The filter body 312 may be made of a ceramic material such as porous alumina ceramic, inorganic ceramic, or fine ceramic and may be a porous structure having an average diameter of 0.01 to 10.0 占 퐉, preferably an average diameter of 0.1 to 2.0 占 퐉 , And the pore ratio may be 30 to 60%. The filter body 312 may be made of a mixture of ceramic, silicon or silica (SiO ₂ ), for example, by firing the mixture in powder form at a temperature of 900-1,500 ° C. Silicon or silica may have the function of controlling the size of the pores while bonding the ceramic material.

The ceramic filter 31 can be made in various structures, and is not limited to the embodiment shown.

4 shows an embodiment of a water purifier according to the present invention.

Referring to FIG. 4, a water purifier 40 including a rare earth filter layer includes a ceramic filter 31 for allowing incoming water to be introduced into a through hole having an average diameter of 0.01 to 10.0 占 퐉; A filter module (10) for guiding the water that has passed through the ceramic filter (31) to a rare earth filter layer (11) made of rare earth particles containing a rare earth component of 0.6 wt% or more of the total particle weight; And a discharge tap (41) for discharging water that has passed through the filter module (10). A magnetic unit (413) made of niobium is disposed in the discharge path of the discharge tap (41).

Water can be stored inside the ceramic filter 31, and the ceramic filter 31 can be made in the manner described above. The water stored in the ceramic filter 31 can be guided to the discharge tap 41 via the filter module 10 by the operation of the discharge tab 41. [ The filter module 10 may comprise a rare earth filter layer as described above and the filtered water via the filter module 10 may be led to the discharge tab 41 through the discharge tube 42 .

The discharge tab 41 includes a discharge passage 411; And a discharge tip 412 formed at the end of the discharge passage 411. The magnetic unit 413 may be disposed along the outer circumferential surface or the inner circumferential surface of the discharge tip 412. [ The magnetic unit 413 can be made of a magnetic material such as, for example, niobium, and can be made of various magnetic materials that generate a magnetic flux of 100 to 2,000 Gauss. The magnetic unit 413 may be coupled to the discharge tip 412 in a detachable structure while being formed into a tunnel shape. Alternatively, the magnetic unit 413 can be made in such a way that it is coated on the inner circumferential surface or the outer circumferential surface of the discharge tip 412.

The magnetic unit 413 coupled to or formed in the exhaust tip 412 can be made in a variety of ways, and the present invention is not limited to the embodiments shown.

The filter module according to the present invention changes the magnetic characteristics of water passing through the rare earth filter layer so that a beneficial effect is generated by the human body. In addition, the water purifier according to the present invention can be applied to a zeolite filter or a ceramic filter to remove various types of bacteria or foreign matter. Further, the water purifier according to the present invention can be used in a state in which the alkali property of water is maintained.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: Filter module 10a: Layered filter module
10b: Case structure filter module 11, 11a: Rare earth filter layer
12: 1 filter layer 13: 2 filter layer
14: magnetization induction unit 14a: magnetic discharge unit
15: Inflow unit 15a: Inflow cover
21: Layer arrangement case 22: Disc magnetic plate
24: activated carbon layer 31: ceramic filter
40: Water purifier 41:
42: discharge pipe 151: inflow porosity
231: zeolite layer 232: sand particle layer
311: filter case 312: filter body
313: Base unit 411:
412: exhaust tip 413: magnetic unit
RG: Rare earth particles

Claims (4)

A filter layer (12) for filtering the incoming water;
A rare earth filter layer (11) made of rare earth particles containing a rare earth component for filtering water that has passed through the filter layer (12); And
And a second filter layer (13) for filtering the water passing through the rare earth filter layer (11)
Wherein said rare earth particles comprise at least 0.6 wt% rare earth components of the total particle weight. The filter module of claim 1, wherein one filter layer (12) comprises a rare earth component comprising a zeolite layer (231) and a sand particle layer (232). The filter module according to claim 1, further comprising a ceramic filter (31) formed above the one filter layer (12) and formed with a through hole having an average diameter of 0.01 to 10.0 탆. A ceramic filter (31) for allowing the incoming water to be introduced into a through hole having an average diameter of 0.01 to 0.5 mu m;
A filter module (10) for guiding the water that has passed through the ceramic filter (31) to a rare earth filter layer (11) made of rare earth particles containing a rare earth component of 0.6 wt% or more of the total particle weight; And
And a discharge tab (41) for discharging the water that has passed through the filter module (10)
And a magnetic unit (413) made of niobium is disposed in the discharge path of the discharge tap (41).

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