KR20010078868A - Filter System For Good Thermal Endurance And Continuous Filtration - Google Patents

Abstract

PURPOSE: A dust collector with excellent heat resistance is provided to continuously remove hot particulate materials with durable ceramic filter having large surface area without additional equipments. CONSTITUTION: If dust containing air is flown from one direction(A), a ceramic filter(F) removes particulate material and a clean air is discharged to the other direction(D). If the particulate materials are accumulated and the pressure difference of a pressure difference indicator(G) exceeds a determined value, a motor(M1) rotates the ceramic filter(F) 180 degrees to discharge the collected particulate materials. If all the particulate materials are dedusted, the motor(M1) rotates the ceramic filter(F) 180 degrees again and collection of particulate material is resumed.

Description

Filter System For Good Thermal Endurance And Continuous Filtration

The related art of the present invention relates to a bag filter for collecting dust using chemical fibers made of polyester, polypropylene, or the like as the filter medium.

The present invention uses a ceramic filter to compensate for the weak heat resistance of the conventional filter medium and the disadvantages of small dust collection surface area, and the ceramic filter collected by using the pressure difference of the differential pressure gauge for efficient dust removal of the particulate matter contaminated Rotating to remove the collected particulate contaminants, and in conjunction with the flow of air to the zigzag flow is characterized in that designed to discharge the exhausted particulate contaminants from the hopper final.

In [Figure 1]

A is the inlet through which particulate matter is discharged,

B is a passage through which the purified air is discharged after passing through the ceramic filter,

C is the passage through which particulate matter filtered from the ceramic filter is discharged,

D is the outlet of air discharged after the particulate matter is filtered through the hopper

F is ceramic filter, G is differential pressure gauge,

H is the hopper where the filtered particulate matter gathers,

M1 is a motor to rotate the ceramic filter,

M2 is a motor for moving the rotating plate (P1) to guide the air flow in the C direction,

M3 is a motor for moving the rotating plate (P2) for inducing air in the C direction in the D direction,

N is a curtain to prevent the space created by the rotation of the ceramic filter,

P1 is a rotating plate to induce air flow in the C direction,

P2 is a rotating plate for inducing air in the C direction in the D direction,

P3 is a plate to filter particulate matter by zigzag air flow,

R1 means that P1 rotates more than 90 degrees and jaws for blocking airflow,

R2 means that P2 rotates more than 90 degrees and jaws

R3 means that P1 rotates more than 90 degrees and jaws for blocking airflow,

R4 is a jaw to prevent P2 from rotating more than 90 degrees and blocking airflow.

2 is a structure of a ceramic filter used as a filter medium

The present invention uses a ceramic filter having a structure as shown in [Fig. 2] as a filter material, when the air containing the vacuum in the A direction, particulate matter is removed from the ceramic filter (F), clean air passes through the B in the D direction Discharged. When the particulate matter continues to be collected and the pressure difference of the differential pressure gauge G is equal to or greater than the pressure difference specified, the ceramic filter F is rotated 180 degrees by the motor M1 to discharge the collected particulate matter. The rotating plate P1 is rotated 90 degrees from R3 to R1 by M2) to induce the flow of the desorbed air in the C direction, and the desorbed air collides with the plate P3 to collect particulate matter in the hopper H. . Meanwhile, the rotating plate P2 is rotated 90 degrees from R4 to R2 by the motor M3 to guide the exhausted air in the D direction. After about 5 seconds, when all the particulate matter collected in the ceramic filter F is exhausted, the ceramic filter F is rotated 180 degrees by the motor M1 to start collecting particulate matter again, and at the same time, the rotating plate is rotated by the motor M2. (P1) is rotated 90 degrees from R1 to R3, and the rotary plate (P2) is rotated 90 degrees from R2 to R4 by the motor (M3) to guide the air flow through the direction B through D to discharge clean air. . And in order to prevent the gap generated when the ceramic filter (F) rotates by reinforcing the curtain with a strong heat-resistant material to prevent the leakage of the vacuum-containing air. By repeating the above process it is characterized in that it is possible to continuously remove the particulate matter without replenishment of special equipment or manpower.

The present invention is characterized in that the particulate matter discharged at a high temperature can be removed using a ceramic filter having a large surface area in a small space, and can be continuously used without a separate facility for dedusting and has a high durability.

Claims (7)

It is configured to be dedusted by rotating 180 ° ceramic filter using filtration material In claim 1, the ceramic filter is rotated 180 degrees and exhausted, while the rotating plates P1 and P2 are rotated 90 degrees to impinge the air flow onto the plate P3 to collect the exhausted particulate matter in the hopper H, and clean air is discharged to the outside. Configured to It is configured to rotate the ceramic filter 180 degrees when a constant pressure difference occurs by measuring the pressure difference before and after the ceramic filter in claim 1 The dust removal time is controlled to be about 5 seconds, and the filter medium and the rotating plate rotate immediately after dust removal to collect particulate matter in the ceramic filter in the initial state. Consists of curtains made of materials with high heat resistance to prevent space generated by the rotation of ceramic filters used as filter media To make a jaw to block airflow when the rotating plates (P1, P2) rotate Configuring the control panel to control the process to repeat the claims 1-4