KR20110066280A - Dust collector of a bench structure for ceramic filter - Google Patents

Abstract

PURPOSE: A stepped dust collector using a ceramic filter is provided to make treatment amount control of device, dust load amount control of the filter and miniaturization of the device possible by forming the ceramic filter mounting modules into the stepped assembling structure. CONSTITUTION: The stepped dust collector using the ceramic filter gets regular module steps(110,115,120) as stepped layer in the arrangement of ceramic filter(500). The module step and module step of the row arrangement can be assembled. By dust guiding plate(210) between the module steps the dust falling from the upper module step is induced to the center path. Each module step is protected from the dust falling from the other module step. The ceramic filter dust collector is possible of miniaturization and gets best functionality through the effective control of the generated dust and collection.

Description

Dust collector using ceramic filter {Dust collector of a bench structure for ceramic filter}

The present invention relates to a ceramic filter dust collector, and more specifically, using a method of spraying compressed air in the opposite direction as in the conventional dust collector, but the length of the filter does not reach the lower end of the filter There was always a problem during the regeneration process. However, in the dust collector using the advantages of the ceramic filter, the ceramic filter dust collector having a constant arrangement in the horizontal direction is arranged in a layer to form a unit group to form a unit group, the ceramic filter layer of the array of square modules form a step structure Into the device;

The arrangement of the filters in the row direction is a rectangular module, and the filtration area of the filter is designed to be higher than the volume and the length of the filter is short, which has the advantage of minimizing the size of the device. It relates to a filter dust collector.

In general, dust collector is installed in workshops, factories, power plants, and car repair shops where a lot of dust or pollutants are generated, and collects foreign substances (particulate matter, dust, etc.) contained in media (exhaust gas, exhaust gas, etc.). As a facility to discharge the removed or purified media to the outside, for example, auto repair shops, incinerators, thermal power plants, coal-fired power plants, high-temperature and high-pressure processes such as IGCC, PFBC, cement manufacturing process, metal melting and smelting process, It is installed in the discharge port of internal combustion engine of ship or automobile, and it is a dust collecting device that removes dust or substances and discharges purified air to the outside to prevent air pollution by dust or pollutants.

A filter is used to perform the function of the dust collector, and a candle filter may be used as a bag filter, a cartridge filter, or a ceramic mainly made of a nonwoven fabric. However, these nonwoven filters cannot be used at high temperatures, and problems arise due to breakage caused by embers, and ceramic filters are limited in size to be applied to the dust collector of a specific process with a small capacity. In addition, by increasing the capacity of the dedicated dust collector for this purpose, it is necessary to stably handle the pollutants in the process at a higher temperature.

In order to solve the problems of the prior art, the present invention avoids the conventional arrangement and structure of the filter in the dust collector, and the filtration area, which is the greatest advantage of the ceramic filter composed of one unit module, is designed to be higher than the volume. It has the advantage of minimizing the size of the device due to the short length of the filter, it is possible to operate at high temperature (about 400 degrees) using it, and the ceramic filter dust collection, characterized in that it has abrasion resistance, chemical resistance, collection efficiency and excellent breathability Relates to a device.

In order to achieve the above object, the present invention

In the ceramic filter dust collector,

A structure having a constant module stage as a stepped layer in a ceramic filter row arrangement;

A structure capable of assembling the module stage and the module stage of the row array;

A structure capable of attracting dust falling from the upper module stage to the central passage with a dust guide plate between the module stage and the module stage and protecting against dust effects falling from other modules;

The ceramic filter dust collector provides a ceramic filter dust collector comprising miniaturization and the highest functionality of the device through efficient control and collection of generated dust.

According to the ceramic filter dust collecting apparatus of the present invention, by constructing a modular stage equipped with a ceramic filter, it is possible to adjust the dust collecting capacity by making it a stepped assembly structure, and to process the dust load of the filter by treating a certain amount of dust in the mounted filter. The ceramic filter dust collecting device can control the dust collection and efficient collection and generation of dust, and can achieve the effect of smoothly operating the dust collecting device with the miniaturization of the device and the highest functionality.

Hereinafter, the present invention will be described in detail.

The ceramic filter dust collector 100 of the present invention is a ceramic filter dust collector, when the dust and the exhaust gas flows into the inlet 300 is diffused in the dust diffusion space 430 represented by the kneeling line and passes through the ceramic filter 500 Purified air exhaust space 450 indicated by the kneeling line is discharged through the outlet 330 to clean the clean air or dust exhaust gas.

Detailed description thereof will be described with reference to the accompanying drawings.

Specific examples of the ceramic filter dust collecting apparatus 100 of the present invention are as shown in Figs. That is, in the ceramic filter 500 applied to the dust collector, as the filtration process proceeds, dust accumulates on the surface of the filter, thereby degrading the filter function and increasing the differential pressure, thereby reducing the efficiency of the system. In order to solve this problem, when the dust of the filter is dedusted using the pulse bar 150 by jet pulse type back washing, the removed dust is dropped through the central passage, and most of the dust is disposed directly underneath the filter. Also attached to. If this order is repeated, the filter mounted on the lower part of the layers loses the function of the filter due to the amount of dust, and thus the filter arrangement of the ceramic filter dust collector and the stepped structure of the filter in order to solve the problem are steps (110, 115, 120). By limiting to a certain amount of dust falling during the dust removal operation and by applying the appropriate load by dust to the filter mounted in the lower position can have a sufficient period of use of the filter, the generated dust is the central passage through the dust guide 210 Collected into the lower hopper 350 and classified into a rotary valve or a sview valve 170 and collected in the dust box 190.

An example of the configuration of the ceramic filter dust collecting apparatus 100 of the present invention is to configure the mounting module of the filter as one stage (110, 115, 120) as shown in Figures 1 to 4 and stacked such a module stage A ceramic filter dust collector is constructed. The perforated intermediate plate 230 is placed between the module stage and the module stage, but does not affect the air flow, but it will be a safe working space when the ceramic filter is installed and repaired through the opening and closing hole 250.

Since the ceramic filter 500 of the ceramic filter dust collecting device 100 has an advantage of horizontal mounting, all materials having different materials may be included therein, which may use the maximum filtration area in a limited space of the filter. It is possible to miniaturize the device and has an optimal structure for filtration and dust removal.

The present invention described above is not limited to the above-described detailed description and examples, and various modifications and changes by those skilled in the art are possible without departing from the spirit and scope of the present invention as set forth in the claims below. Of course it is also included within the scope of the present invention.

1 is a schematic cross-sectional view of an embodiment of a ceramic filter dust collector of the present invention.

FIG. 2 is a view schematically showing a spatial flow of an embodiment of the ceramic filter dust collector of the present invention shown in FIG.

3 is a schematic cross-sectional view of another embodiment of the ceramic filter dust collector of the present invention.

4 is a schematic cross-sectional view of yet another embodiment of the ceramic filter dust collector of the present invention.

Fig. 5 shows a schematic cross section of an embodiment of an arrangement of ceramic filters used in the ceramic filter dust collector of the present invention.

6 is a schematic photograph of an embodiment of a ceramic filter used in the ceramic filter dust collector of the present invention.

Explanation of symbols on the main parts of the drawings

100: dust collector 105: lower dust collector

110: filter mounting module 1 stage 115: filter mounting module 2 stage

120: 3-stage filter mounting module 130: punched plate

150: pulse bar 170: rotary valve or screw

190: Dusty

210: dust guide 230: perforated intermediate plate

250: opening and closing

300: inlet 330: outlet

350: hopper

430: dust diffusion space 450: purified air exhaust space

500: ceramic filter

Claims (6)

In the ceramic filter dust collector, A structure having a constant module stage as a stepped layer in a ceramic filter row arrangement; A structure capable of assembling the module stage and the module stage of the row array; A structure capable of attracting dust falling from the upper module stage to the central passage with the dust guide plate between the module stage and the module stage and protecting it from the dust effects falling from other modules; The ceramic filter dust collector includes a miniaturization and maximum functionality of the apparatus through efficient control and collection of generated dust. The method of claim 1, The ceramic filter dust collecting device according to claim 1, wherein the ceramic filter has a structure having a predetermined module stage as a stepped layer in the ceramic filter row arrangement. The method of claim 1, The ceramic filter dust collector, characterized in that the structure of the module array and the module stage of the row arrangement is possible to assemble and the structure of the single dust collector is a calculation structure. The method of claim 1, And a plate having various shapes and structures between the module stage and the module stage to attract dust falling from the upper module stage to the central passage and to protect the dust from falling from other modules. The method according to any one of claims 1 to 4, 6 is a ceramic filter as shown in FIG. 6, and the present invention is not limited thereto, and includes a filter of another material similar in shape. The method according to any one of claims 1 to 4, 1, 2, 3, 4 and 5 as an embodiment is not limited to one embodiment, but various modifications and changes made by those skilled in the art within the scope of the present invention Ceramic filter dust collector, characterized in that included in.

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