KR100366378B1 - Filter using a thin metal film - Google Patents

Abstract

According to the present invention, a plurality of micropores are punched in a metal thin film to be used as a filter of a filter dust collector, thereby efficiently removing dust even at a high temperature and high pressure, compared to a conventional fiber filter, and reducing the cost and extending the life. The present invention relates to a filter composed of a metal thin film.

A filter composed of a porous metal thin film according to the present invention includes a metal thin film installed in a flow path of a fluid, and a filter including a plurality of micro voids formed in the metal thin film to allow the fluid to pass through and filter only impurities. The pores form a polygon, and a plurality of metal thin films each having a different shape of micropores overlap to form a composite layer.

Description

Filter using a thin metal film {Filter using a thin metal film}

The present invention relates to a filter composed of a porous metal thin film, and more particularly, by using a plurality of micropores in the metal thin film as a filter of a filter dust collector, the dust is efficiently removed even at high temperature and high pressure and its life is extended. The present invention relates to a filter composed of a porous metal thin film.

In general, in order to remove contaminants and dust from large-capacity impregnated gas generated in various processes in industrial sites, a filter is installed in the bag filter to clean contaminated air and then discharge it into the atmosphere.

Meanwhile, the Air Quality Preservation Act is strengthening the emission standards of industrial facilities and other dust generating facilities for a pleasant atmosphere. Accordingly, industrial sites are investing a lot of treatment costs and facilities in order to effectively deal with dust generated in industrial processes at low cost in consideration of the effects of emission limit standards and environmental problems on corporate image. Moreover, research and development is being conducted on the development and application of dust collection technology in consideration of environmental friendliness.

1 is a front view showing a plate-shaped fiber filter according to the prior art, Figure 2 is a perspective view showing a cylindrical fiber filter according to the prior art. As shown in Figure 1, the fiber filter 10 is a fiber made of a ceramic material It is composed of a lattice formed by the net 15, as shown in Figure 2 may be made of a cylindrical fiber filter 20 is formed in a lattice formed by the grid (25) as needed to form a cylindrical shape.

Dust collection by the fiber filter 10 is due to dust collection and voids in the respective filter fibers and particles smaller than the size of the gaps or the gaps between the filter fibers are collected by the cake. In addition, the filter 10 may first obtain a high dust collection efficiency through a stabilization step through the filter filter material.

However, the fiber filter 10 as described above is limited to a range of temperature that can be used to 80 ~ 250 ℃ and the thermal and chemical durability is weak, a pre-treatment facility such as a cooling facility to prevent high temperature operation is required, Accordingly, there is a problem that the design and construction, maintenance, operating costs are increased.

In addition, the design problem is accompanied by a problem in the selection of the filter cloth due to the lack of complex examination of the mixed exhaust gas and the design difficulties due to the combination of the appropriate pretreatment device for the hot exhaust gas and the collected dust.

In particular, due to operational problems, bag pore clogging due to moisture in the exhaust gas caused by the wet pretreatment system used for the removal of gaseous pollutants (sulfur oxide, dioxin, etc.) occurs, and Problems with condensation and corrosion of water, increased filter bag bursts due to bag corrosion and increased differential pressures, increased operating and maintenance costs due to increased bag replacement rates, mechanical and thermal durability during long periods of operation, especially momentary bursts or accidents. There are problems such as danger.

Therefore, there is a need for a new filter bag material that is resistant to high temperature and high pressure, and has strong thermal and chemical durability, and a need for a filter bag for increasing filtration efficiency and reducing operating costs is on the rise.

The present invention has been made to solve the above problems, by forming a variety of micropores of various shapes in a metal thin film resistant to high temperature, high pressure, excellent thermal and chemical durability, the life of the filter is long and the filter is mounted Its purpose is to provide a filter composed of a porous metal thin film that can reduce the cost of design and construction, operation and disposal, and facilitate efficient dust removal because the configuration is simplified.

Another object of the present invention is to provide a filter composed of a porous metal thin film capable of simultaneously treating dust and gaseous contaminants which are particulate pollutants.

1 is a front view showing a plate-shaped fiber filter according to the prior art,

Figure 2 is a perspective view of a cylindrical fiber filter according to the prior art,

3 is a front view showing a plate-shaped porous metal thin film filter according to the present invention, FIG. 4 is a perspective view showing a cylindrical porous metal thin film filter according to the present invention, and FIG. 5 is a micropore of the porous metal thin film filter according to the present invention. 6 is a partially enlarged view illustrating another example of micropores of the porous metal thin film filter according to the present invention.

<Description of Symbols for Main Parts of Drawings>

50 plate-like metal thin film filter 55 fine pores

70: cylindrical metal thin film filter 75: cross-shaped micropores

In order to achieve the above object, a filter composed of a porous metal thin film according to the present invention includes a metal thin film installed in a flow path of a fluid, and a plurality of micropores formed in the metal thin film to allow the fluid to pass through and filter only impurities. In the filter, the micro-pores form a polygon, characterized in that a plurality of metal thin films formed with micro-pores of different shapes overlap each other to form a composite layer.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a front view showing a plate-shaped porous metal thin film filter according to the present invention, Figure 4 is a perspective view showing a cylindrical porous metal thin film filter according to the present invention.

As shown in FIG. 3, the filter according to the present invention is formed by drilling a plurality of micropores 55 on the side of the metal thin film 50, and a filter dust collecting window for treating particulate contaminants (dust). Teeth and other special purpose filtration filters.

The metal thin film 50 is manufactured in various forms according to the intended use and purpose, as shown in FIG. 4, a plurality of micropores 75 may be formed by the cylindrical porous metal thin film filter 70. Of course, the filter composed of the porous metal thin film according to the present invention can be applied in various forms such as a venturi type. In addition, the filter composed of the porous metal thin film may have a suitable thin film thickness of 20 μm to 2 mm.

In addition, as the material of the metal thin film 50, aluminum, copper, stainless, etc. may be used depending on the purpose of use (salin, strong alkali, etc.), and non-metallic materials other than metal may also be used in consideration of strength and shape. have.

The metal thin film 50 is required to be surface-treated according to the use conditions, in the case of normal temperature and general conditions are treated with coating and zinc, tin plating, etc., in the case of high temperature and high corrosion conditions nickel, chromium, aluminum, Copper plating or the like.

By performing surface treatment on the metal thin film 50 as described above, not only the durability (heat resistance and chemical resistance) of the metal thin film filter is strengthened, but the size of the micro voids 55 is further finely adjusted and the pores are made according to the thickness of the plating layer. The interval of can be adjusted appropriately.

In addition, a filter composed of a composite material is formed by adding fibers and other materials to the surface of the metal filter as a base.

By forming the metal thin film filter 50 in a composite layer or multiple layers (layer formation), the filtering effect is further improved.

FIG. 5 is a partially enlarged view of a micropore of a filter composed of a porous metal thin film according to the present invention, and FIG. 6 is a partially enlarged view of another embodiment of a micropore of a filter composed of a porous metal thin film according to the present invention. As shown in FIG. 5, the microvoids 55 are manufactured in a transverse slit in consideration of physical properties of particles (dust) to be filtered, and may be made of cross-shaped micropores as shown in FIG. 6. In addition, the micropores may have various shapes such as circular, vertical slit, and the like, and as described above, when the micropores form a composite layer in which a plurality of metal thin films overlap each other, the micropores may have different shapes. In order to improve the filtering effect, the micropores 55 may have a diameter (long length) of 20 to 100 µm, preferably 30 to 40 µm.

On the other hand, since the metal thin film 50 is very thin, in order to maintain its function and shape, one or more reinforcing metal bands may be laid horizontally or vertically on a predetermined portion of the metal thin film 50 as necessary. .

In addition, if the metal thin film filter is very long, it can be manufactured by welding each part after dividing into several parts, and the weld parts serve as reinforcing bars. In addition, in manufacturing the metal thin film filter, a method such as pressing or bending is selected in consideration of the strength and shape of the filter.

In addition, by applying a ceramic coating on the surface of the metal thin film, the thermal and chemical durability against high temperature of 600 ~ 800 ℃ is enhanced and other special use (treatment of particulate contaminants (dust) and gaseous contaminants at the same time, utilized as a heating element) Etc.) can be used.

The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the technical idea of the present invention.

According to the present invention made as described above, by collecting and removing through a metal thin film filter having a high thermal and chemical durability, its service life can be extended compared to a conventional fiber filter, and by removing the auxiliary equipment such as a cooling device And there is an effect that can reduce the operating cost.

In addition, since the filter material is made of metal, the filter material may be applied to high temperature and high pressure, thereby preventing the filter cloth from bursting during operation and a reduction in dust collection efficiency. In addition, when the waste is disposed of after use, the metal can be easily recycled, thereby saving resources. In addition, the shape of the micropores is formed into various shapes, and a plurality of metal thin films overlap to form a composite layer. By installing the micropores to correspond, there is an advantage that the filtering effect can be significantly doubled.

Claims (6)

A filter comprising a metal thin film installed in a flow path of a fluid and a plurality of micropores formed in the metal thin film to allow the fluid to pass through and filter only impurities; The micro-pores form a polygon, and each of the plurality of metal thin films formed with micro-pores of different shapes overlap the filter formed of a porous metal thin film, characterized in that to form a composite layer. The method of claim 1, The microporous filter is composed of a porous metal thin film, characterized in that formed in a slit shape. The method of claim 1, The micro-pore is a filter consisting of a porous metal thin film, characterized in that formed in the shape of a cross. delete delete delete