KR20110004722U - Pre-filter system for treating viscous dust - Google Patents

Abstract

The present invention relates to a pretreatment filter having a simple structure to increase dust collection efficiency. The present invention is a pre-filter for air purification consisting of a sheet-shaped filter media, wherein the sheet-shaped filter media, pre-filter media; A medium filter media stacked on the prefilter media; And it provides a pre-treatment filter comprising an adhesive layer for bonding the pre-filter medium and the medium filter. According to the present invention, it is possible to provide a pretreatment filter suitable for removing large particles and viscous dust with a simpler structure, to reduce the volume of the filter, and to reduce the filter manufacturing cost.

Pretreatment filter, pre-filter, medium filter, dust, dust, air purification, hot melt

Description

Pre-filter system for treating dust containing viscous material

The present invention relates to a pretreatment filter for removing particulate matter from a gas stream containing a viscous material such as paint dust and oil mist, and more particularly, to a pretreatment filter having a simple structure to increase dust collection efficiency.

In industrial sites where dust is emitted, pre-filters (or air filters), medium filters, or hepa filters, etc. have been operated alone or in combination depending on the size and concentration of dust emitted. The pre-filter and the medium filter may be used as pretreatment filters of the hepa filter, or the pre-filter and the medium filter may be used alone or in combination according to the dust size and concentration in an environment in which the hepa filter is not used.

1 illustrates a filter constituting a conventional air purification apparatus. Referring to FIG. 1, the air introduced through the inlet 20 of the filter housing 10 passes through the prefilter 11, the medium filter 12, and the hepa filter 13 sequentially and outflows to the outlet 30. do.

The pre-filter 11 is for collecting the particulate contaminants contained in the air primarily. Pre-filters are used in the form of lamination of pre-filter media on a lattice plate, which generally collects large contaminants such as large dust, foreign matter, soil dust and coal dust. The prefilter is used in the range of 0.5 ~ 3.0m / s in consideration of the filter differential pressure. In the case of large pressure loss, the filter can be bent to reduce the linear flow rate of the filter. As a pre-filter medium, glass fiber (fiber), a nonwoven fabric, etc. are used, The filter medium is suitably selected according to the collection efficiency desired.

On the other hand, the medium filter 12 is provided at the rear end of the pre-filter to secondaryly collect the particulate contaminants contained in the air. As a medium filter medium, a resin or glass fiber is used. The medium filter is an improved filter medium of the prefilter, and is configured to collect more particulate contaminants by increasing the air contact area of the medium. Medium filters are generally used by laminating a filter medium with a pocket-shaped filter.

The HEPA filter 13 is for finally collecting particulate contaminants in the air and is disposed on the inner surface of the housing 10 in which the outlet port 20 is formed. Hepa filter is the final filter mainly used in semiconductor manufacturing process, hospital, power plant, etc., it is used in the place where highly filtered air is required. Micro glass fiber is used as a media of a HEPA filter. The filter media closely overlaps paper made of very thin glass fibers to maximize the filter media area, and air flows therebetween to collect various contaminants such as particulates and dust. The HEPA filter has a collection efficiency of 99.97% based on DOP 0.3 micrometer particles.

As described above, conventionally, a pre-filter and a medium filter, which are used as pretreatment filters of the HEPA filter, are provided, respectively, to increase the volume of the air purification device more than necessary, and there is a problem that excessive cost is required for installation of the device.

In order to solve the above problems of the prior art, the present invention aims to provide a pretreatment filter that can reduce the device volume and save installation costs with a simple structure.

In order to achieve the above technical problem, the present invention provides a pre-filter for air purification composed of a sheet-shaped filter media, wherein the sheet-shaped filter media is a pre-filter media, a medium filter media stacked on the pre-filter media and the pre-filter media And it provides a pretreatment filter comprising an adhesive layer for adhering the medium filter.

In the present invention, the adhesive layer is preferably a lattice or nonwoven hot melt sheet.

In addition, in the present invention, the sheet-shaped filter media is formed in a pocket shape and mounted on the filter frame, and the pre-filter media of the sheet-shaped filter media is designed to face the air inlet.

According to the present invention, a simpler structure can provide a pretreatment filter suitable for removing large particles and large dusts, and can reduce the volume of the filter and reduce the filter manufacturing cost.

Hereinafter, the present invention will be described in detail by explaining a preferred embodiment of the present invention with reference to the drawings.

Figure 2 is an exploded perspective view conceptually showing the configuration of the media of the pre-filter for air purification of the present invention.

Referring to FIG. 2, the filter media is composed of a pre-filter media 110 and a medium filter media 130.

In the present invention, the pre-filter medium 110 is a pre-filter medium made of glass fiber, non-woven fabric or resin fiber of a conventional sheet shape, the thickness of the pre-filter medium in the present invention is a few mm ~ several tens of mm desirable. Moreover, it is preferable that the density of the said prefilter is 300 g / m <^2> or less. In the present invention, the pre-filter medium has a collection efficiency of 10 to 20% based on DOP (Di Octyl Phthalate) 0.3 micrometer (0.3 μm) particles.

In the present invention, the medium filter medium 130 may be a glass sheet or a resin fiber of a conventional sheet shape, the medium filter has a collection efficiency of 30 to 40% based on DOP 0.3 micrometer particles.

In the present invention, the pre-filter medium and the medium filter medium is bonded by interposing an adhesive layer. The adhesive layer 120 may be a sheet-like adhesive having a mesh-like, lattice shape to allow the penetration of air. In one example, the adhesive layer may be hot melt. The hot melt has the advantage of being able to easily attach both media by interposing between the pre-filter media and the medium filter media, followed by heating and pressing. When hot melt is used as the adhesive layer in the present invention, the hot melt may be a nonwoven sheet. In the case of such a thin nonwoven sheet, when heated, the adhesive is partially aggregated rather than distributed evenly over the entire surface of the sheet to provide a flow path of air.

As such, when the pre-filter media and the medium filter media are laminated and bonded, the pre-filter media have large particles and trap high-viscosity dust, and the medium filter media filters fine small amounts of particles, thereby producing It is possible to properly purify a wide distribution air. In particular, since the pre-filter filters out the viscous material, the viscous dust does not adversely affect the air permeability of the medium filter having fine ventilation holes.

In addition, since one filter functions as a pre-filter and a medium filter in the present invention, it is possible to reduce the volume of the device by reducing the volume of the pretreatment filter in front of the HEPA filter, and to reduce the filter manufacturing cost. do.

The pretreatment filter media of the present invention may be installed by being fixed in a flat sheet form on a grid plate or bent in a bent form, but preferably implemented in a pocket form. Figure 3 is a perspective view schematically showing a pretreatment filter of the present invention implemented in a pocket type.

As shown, the pretreatment filter media 210 of the present invention is fixed to the frame 200. The frame 200 divides the incoming air by sector, and each sector is provided with a pocket pretreatment filter medium 210. As shown in FIG. 2, the pretreatment filter media 210 has a laminated structure of the pre-filter media 110, the adhesive layer 120, and the medium filter media 130. At this time, the pre-filter medium 110 faces the air inlet side, and the medium filter medium 130 faces the air outlet side. Therefore, the incoming air first passes through the pre-filter medium 110 and then passes through the medium filter medium 130. Such a pocket structure can be implemented by appropriately molding the pretreatment filter media of the present invention.

In the present invention, such a filter is advantageous for removing a large amount of large dust particles. More specifically, the large particle size caught by the prefilter medium 110 falls into the pocket by gravity and accumulates from the lower surface of the pocket. In addition, the pocket-type filter is in contact with the inlet air in a larger area, it is possible to lower the loss of flow rate or pressure of the incoming air. On the other hand, a small amount of fine dust of the dust passing through the pre-filter medium 110 is filtered by a medium filter.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows the filter structure of the conventional air purification apparatus.

2 is a view showing the structure of the filter medium used in the pretreatment filter of the present invention.

3 is a view showing a preferred embodiment of the pretreatment filter of the present invention.

Claims (4)

In the pre-treatment filter for air purification composed of a sheet filter medium, The sheet filter media, Prefilter media; A medium filter media stacked on the prefilter media; And A pretreatment filter comprising an adhesive layer for adhering the prefilter media and the medium filter. The method of claim 1, The adhesive layer is lattice type and nonwoven type A pretreatment filter, characterized in that the hot melt. The method of claim 1, The sheet filter medium is molded into a pocket and mounted to the filter frame, The pretreatment filter of the sheet-shaped filter media is characterized in that the pre-filter media facing the air inlet. The method of claim 3, The sheet filter medium is a pre-filter, characterized in that the flat sheet, bent or pocket type.

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