KR20150099308A - A dust-collector with filter bags - Google Patents

Abstract

The present invention is characterized in that a large number of filter dust collectors are installed in a lateral direction, and a lower hopper is installed in the lower part of the filter dust collector, and a first manned blower for discharging air collected in the filter dust collector is connected to the upper part of the filter dust collector In a filtration and dust collecting apparatus provided in a flow path of an exhaust duct to purify air containing a harmful substance and discharge it to the atmosphere,
A recycling valve provided in communication with an upper chamber on the upper surface of the filter and dust collector, a second manned blower installed between the recycle valve and the lower hopper, a chemical storage tank for introducing the chemical into the filter receiver, A main circuit valve that opens the valve when the valve is opened and opens the filter cloth to a predetermined pressure when the filter bag is opened to discharge the purified air; and a pressure sensor that senses the pressure in the filter and the pressure before and after the first and second man- A pressure detector, and a controller for opening and closing the recirculation valve and the main circuit valve with the signal of the pressure detector being inputted thereto.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a dust-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for removing harmful substances during a pulsing period of a filtering dust collector, and more particularly, to a filtering and dust collecting apparatus in which fine dust, acid gas and dioxin, Which is capable of significantly reducing the amount of pollutants discharged into the atmosphere through the filter.

FIG. 1 is a flow chart of an exhaust gas of a conventional filter. FIG. 3 is a view showing a process of dust blowing with compressed air. The filter dust collector removes various dusts contained in the exhaust gas through a filter cloth 4h, The exhaust gas is exhausted by using one induction blower (2). The exhaust gas passes through the room (13, 14, 15) through the lower hopper (3) through the intake duct (10). Thereafter, the air is discharged through the upper compartment 5 through the stack 12 by attraction of the first induction blower 2.

However, in the case of dusting off one chamber 13 using the compressed air 4f, the preliminary dust layer 4g attached to the surface of the filter cloth is not destroyed like the removed dust 4i, Fine dust passes through the small pores of the filter cloth 4h until a new preliminary dust layer 4g is formed on the surface of the filter cloth later. As a result, when the exhaust gas passes through the filter cloth, there is no harmful acidic gas neutralizing chemical layer, so that the acidic gas is not neutralized and there is no activated carbon layer necessary for adsorbing and removing dioxin, so that noxious gas such as acid gas or dioxin ), It is impossible to strictly control the pollutants and it is very difficult to satisfy the legal environmental regulation value, which causes severe air pollution.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a dust collecting apparatus, a dust collecting apparatus and a dust collecting apparatus, By allowing the exhaust gas to pass through the filter fabric, it is possible to improve the dust removal rate, maximize the neutralization reaction of the acid gas by extending the reaction time when the noxious gas passes through the preliminary dust layer, The object of the present invention is to provide a device for removing harmful substances during the pulsing period of the filter dust collector which maximizes the contact efficiency and can maintain the ultrahigh absorption rate by extending the passage time for a certain period.

According to an aspect of the present invention, there is provided a dust collecting apparatus including a plurality of filter dust collectors having a plurality of filter cloths disposed therein, the filter dust collector having a lower hopper installed at a lower portion thereof, A recirculation valve provided in communication with an upper chamber of the upper surface of the filtering and dust collecting apparatus, the recycling valve being disposed in the upper part of the upper surface of the filtering and dust collecting apparatus, A second agent blower installed between the recirculation valve and the lower hopper, a chemical storage tank for injecting the chemical into the filter and dust collector, and a pulsator for pulsing the surface of the filter cloth in a state where the recirculation valve is opened, A main circuit valve that opens as soon as the air is exhausted to purify the purified air; A pressure detector for detecting the pressure before and after the blower, and a control device for opening and closing the recirculation valve and the main circuit valve by receiving the signal of the pressure detector.

According to the present invention, the negative pressure is maintained at a value obtained by subtracting the pressure at the front end portion of the induction blower from the pressure at the rear end portion of the induction blower, so that the automatic configuration of the regenerating circuit and the preliminary dust layer formation time are shortened.

In addition, the untreated exhaust gas during the formation of the preliminary dust layer by the use of the three-directional impurity is not directly discharged to the stack 12 but is recirculated through the pressurized blower until the preliminary dust layer is formed, have.

It is also an invention that can keep the fine dust removal rate of 10 mu m or less at 99.9% at all times.

In addition, 100% is passed through the neutralization agent preliminary layer of the harmful acidic gas, so that the reaction time is prolonged.

In addition, there is an effect that the contact efficiency can be maintained at 100% and the absorption rate can be maintained at 99.9% or more when the dioxin passes through the activated carbon preliminary layer.

1 is a flow chart of an exhaust gas of a conventional filter.
2 is a flow diagram of an exhaust gas of a filter according to the present invention.
3 is a process of dust blowing into compressed air.
4 is an exhaust gas flow chart during normal dust collection.
5 is a flowchart of a control operation of the present invention.

FIG. 2 is a view showing an apparatus for removing harmful substances during the pulsing period of the filter dust collector according to the present invention. The second manhole blower 1 includes an inlet duct 10 at a front end to be distributed to each of the quadrangular filter dust collectors 4, And connected to another room separated from each other by a quadrangular pyramid-shaped lower hopper 3 of a quadrangular filter unit 4, which is branched into a plurality of ducts and assembled with various mechanical devices. In each chamber, A plurality of filter cloths 4h rounded by a special water stream are provided and connected to the top of the upper chamber 5 welded to the upper end of the filter cloth 4h.

The upper chamber 5 is again connected to a specially designed recirculation valve 7 and a main circuit valve 8 through which exhaust gas flows continuously and the recirculation valve 7 is connected to a recirculation duct 9) so that the exhaust gas is recirculated. In addition, a medicament injecting device 16 is provided in front of the pressurized air blower 1 for pushing the exhaust gas in the middle of the untreated exhaust gas recirculation duct 9, that is, in the direction of the filter dust collector 4 to form a dust preliminary layer. The pressure detectors 18 and 19 are provided at the rear end of the pressurized blower 1 and at the front end of the second manned blower 1 respectively or are installed in any room of the dust collector to detect the pressure difference, (Not shown).

The detailed structure of the filtration and dust collector 4 is connected to a screw conveyor 4a made of a steel material to transfer the dust falling from the upper filter cloth 4h and connect the rotating belt 4b to the lower portion to discharge the dropped dust out.

In the upper chamber 5, the pulsing air 4f flows periodically through the pulse valve 4c to the blow pipe 4e, where the injection nozzle 4d is connected.

Hereinafter, operations and functions of the present invention will be described with reference to the accompanying drawings.

4 is a flow chart of the exhaust gas at the time of normal dust collection. The contaminated exhaust gas passes through the inlet duct 10 through the pressurized blower 1 and flows into the lower hopper 3 The contaminated exhaust gas flow of the other chambers 14 and 15 causes the exhaust air 6 to flow from the upper chamber 5 to the outside of the chamber 13 The recirculation valve 7 is closed and the main circuit valve 8 provided at the front end of the exhaust duct 11 is opened to pass through the exhaust duct 11 through the first manned blower 2, .

On the other hand, the exhaust gas from the chamber 13 is closed until the predetermined pressure is reached and the recirculation valve 7 is opened to return to the pressurized blower 1 through the recirculation duct 9 Various chemicals are sprayed in the dry state by the suction pressure of the pressurized air blower 1 in the medicine storage tank 16 so that the dust preliminary layer can be formed at this time and flowed into the inlet duct 10, The recirculation via the chamber 13, the upper chamber 5, the exhaust port 6, and the recirculation valve 7 is continuously maintained through the valve 3.

Therefore, since the dust 13 is formed on the surface of the filter cloth when the exhaust gas is recirculated and the chemical feed is continued for a predetermined time (for example, until the pressure reaches about 80 mmH2O), the pressure in the chamber 13 is about 80 mmH2O The recirculation valve 7 is closed again and the main circuit valve 8 is opened to clean the polluted exhaust gas in the dust reserve layer 4g and then through the first induction blower 2 through the exhaust duct 11 The process of discharging to the atmosphere through the stack 12 proceeds.

Therefore, the harmful gases such as fine dust, harmful acid gas and dioxin contained in the contaminated exhaust gas can be discharged after passing through the dust reserve layer.

Also, in the chambers 14 and 15 in which the dust preliminary layer is formed, the dust blowing by the air impact is also operated in the same manner and in the same manner as described above. When the dust preliminary layer is formed after passing through the recirculation duct 9 The noxious gas of the untreated exhaust gas can be prevented from being discharged.

The value obtained by subtracting the pressure detected by the pressure detector 18 provided at the front end of the first manned blower 2 from the pressure detected by the pressure detector 19 provided at the rear end of the pressurized blower 1 is negative In this case, the inlet duct 10, the lower hopper 3, the filter 4, the upper chamber 5, the exhaust port 6, the recirculation valve 7, the recirculation duct 9, A recirculation circuit composed of the blower 1 is formed and the pressure in the room subjected to dust shearing is lowered, and at the same time, the flow of the fluid is large, so that the time for forming the preliminary dust layer can be shortened.

When the pressurized air blower 1 is not installed, the pressure of the upper chamber 10 is lower than the pressure of the filtration filter inlet duct 10 by the amount of pressure loss of the filter cloth. The exhaust gas does not flow. Therefore, it is impossible to construct a recirculation circuit by natural law. The above process is controlled by the controller 20.

5 is a flowchart illustrating a control operation of the present invention. In the initial start step 51 and the pressure detection step 52, that is, when the pressure difference detected by the pressure detector is about +20 greater than the stored value, the step of operating the dust- (54), then the recirculation valve is opened (55), and the main circuit valve is closed (56), thereby blocking the atmospheric release of the polluting gas.

If the detected pressure difference is less than +20 than the stored value and is larger than the stored value by -20, the recirculation valve is closed (59) and the main circuit valve is opened (60) . Therefore, the contaminated exhaust gas is always formed on the surface of the filter cloth, and then passes through this layer and is released to the atmosphere.

The specific embodiments of the present invention have been described above. It is to be understood, however, that the spirit and scope of the invention are not limited to these specific embodiments, but that various changes and modifications may be made without departing from the spirit of the invention, If you are a person, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

1: second manned blower 2: first manned blower
3: Lower hopper 4: Filter and dust collector
5: upper chamber 6: exhaust port
7: recirculation valve 8: main circuit valve
9: Recirculation duct 18, 19: Pressure detector

Claims (1)

A plurality of filtration and dust collecting units having a plurality of filter cloths installed therein are installed transversely, and a lower hopper is installed at a lower portion of the filtration and dust collector, and a first induction unit for discharging the air collected by the filter at a flow path of the exhaust duct, An apparatus for removing harmful substances during a pulsing period of a filtering dust collector for blowing air containing a harmful substance in a purified state by installing an air blower,
A recirculation duct communicating with an upper chamber on the upper surface of the filtration and dust collector and having a recirculation valve installed therein, a second manned blower installed between the recycle valve and the lower hopper, and a chemical agent injected into the filter chamber via the recirculation duct A main circulation valve for discharging purified air after pulsing the surface of the filter cloth in a state that the recirculation valve is opened after the pressure reaches a predetermined pressure, A plurality of pressure detectors for detecting pressure before and after the second manned blower; and a control device for opening and closing the recirculation valve and the main circuit valve by receiving the signal of the pressure detector.

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