KR100505159B1 - Cyclone type gravity sinkage dust collection apparatus - Google Patents

Abstract

According to the present invention, when the vacuum switch is driven by receiving power from the controller when the main switch is switched on, the incineration material is sucked together with the air in the suction member, and the incineration material sucked by the suction member is discharged in a tangential direction to the inner circumferential surface of the external hopper. The incineration ash and the air discharged from the discharge pipe are generated by turning air flow between the inner circumferential surface of the outer hopper and the outer circumferential surface of the inner hopper to collect the incineration ash of a certain size from the lower portion of the outer hopper by inertia. While maintaining the vacuum, the incineration material of a predetermined size or more collected in the external hopper by the first solenoid is discharged onto the second damper of the two-stage slide damper by opening the first damper of the two-stage slide damper, and the first of the two-stage slide damper. When the damper is closed, the incineration ash on the second damper of the two-stage slide damper is discharged to the outside, and the lower portion of the inner hopper Filter the incineration ashes of a certain size or more included in the rising air generated at the center of the turning air by the turning air flowing between the outer circumferential surface of the inner hopper and the inner circumferential surface of the outer hopper by the screen disposed in the formed opening. The solenoid valve is opened at regular intervals by the control signal output from the controller so that the fine dust contained in the filter is adsorbed by the filter cloth, and the incineration material attached to the screen and the fine dust attached to the filter cloth fall into the external hopper. According to the driving, the air in the inner hopper is sucked through the pipe, and the noise is attenuated by the silencer disposed on the outlet side of the vacuum pump to discharge the air.

Therefore, the present invention is simple in structure, simple in structure, can reduce the installation area, reduce the suction loss of the vacuum pump, can also prevent the generation of dust during the treatment and transportation of waste or incineration ash, Not only can it reduce manufacturing costs, but it is also mobile, making it easy to clean large factories.

Description

Rotary Gravity Settlement Dust Collector {CYCLONE TYPE GRAVITY SINKAGE DUST COLLECTION APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary gravity sedimentation dust collector, and more particularly to a rotary gravity sedimentation dust collector that can easily discharge, ash and compact (ash) generated as a by-product from an incineration plant.

Conventional dust removing apparatus of this kind is disclosed in Korean Patent No. 10-0263816 (Registration Date; May 22, 2000).

The dust removing device disclosed in the Korean Patent No. 10-0263816 is a liquid separation device (3) which is in communication with the particulate dust generating source (1) through the derivation duct (2) as shown in FIG. , A self-regenerative dust collector (4) directly connected to the upper side of the liquid separator (3), an exhaust duct (5) derived from the dust collector (4), and noxious gas interposed in the exhaust duct (5). The processing apparatus 6 and the vacuum pump 7 are provided.

The vacuum pump 7 carries gas out of the particulate dust generating source 1 via a duct 2, a liquid separator 3, a dust collector 4, an exhaust duct 5, and a noxious gas treatment device 6. It is the structure to discharge | emit to air.

The vacuum pump 7 extracts the gas from the particulate matter generating source 1, the duct 2, the liquid separator 3, the dust collector 4, the exhaust duct 5 and the noxious gas treatment device 6 When a stream of air is released to the atmosphere through the particulate matter, the particulate dust generated from the particulate dust generating source 1 and the moisture and oil infiltrating into the particulate dust generating source 1 are driven through the air stream, or are pushed to the air stream to extract the duct (2). ) Is introduced into the liquid separator (3), water, oil and relatively large particulate dust are removed from the liquid separator (3), and then introduced into the dust collector (4) to remove the remaining particulate dust.

Since the gas discharged from the dust collector 4, from which moisture, oil, and particulate dust have been removed, contains harmful gas components, the hazardous gas treatment apparatus 6 mainly uses chemical treatment such as oxidation, reduction, neutralization, activated carbon or zeolite. It is adsorbed on the back and purified, and then released into the atmosphere.

The liquid separation device 3 has a casing 31, and a liquid separation chamber 32 is formed inside the casing 31. In addition, an inlet 33 for communicating the liquid separation chamber 32 to the lead-out duct 2 is formed at a position of a predetermined height from the lower end of the casing 31, and a cylindrical opening is formed in the upper wall 34. The outlet 35 which forms the liquid separation chamber 32 and communicates with the dust collector 4 is formed.

As the liquid separation rotating brush 36 rotates, air flows in a centrifugal direction between the peripheral edge of the liquid separation rotating brush 36 and the casing 31, and the air flow flows through the liquid separation rotating brush 36 and the casing ( 31) Prevents gas from containing oil or water from rising.

When the air flow contacts the liquid separation rotary brush 36, the oil and water contained in the air flow are captured between the hairs of the liquid separation rotary brush 36 and separated from the air flow, and the liquid separation rotary brush 36 The captured oil and water are transported around the liquid separation chamber 32 by centrifugal force following the rotation of the brush 36, and the bottom of the liquid separation chamber 32 with its own weight along the peripheral wall 39 of the liquid separation chamber 32. It flows down, and oil and water separate and accumulate up and down.

In addition, a part of dust contained in the air stream, especially dust having a relatively large particle diameter, is also trapped between the hairs of the liquid separation rotary brush 36, adsorbed by oil or water attached to the rotary brush 36, or subjected to centrifugal force. It is carried along with the oil or water to the peripheral wall 39 of the liquid separation chamber 32 and flows to the bottom of the liquid separation chamber 32, and the remaining dust is taken out through the air flow passing between the hairs of the rotating brush 36 for liquid separation. It is sucked into the dust collector 4 from 35.

In addition, in order to facilitate disposal of oil, water, or oil and water, the oil-absorbing polymer 8 and the water-absorbing polymer 9 are laminated on the bottom of the liquid separation chamber 32 as necessary, so that the liquid separation chamber 32 Oil, water, or oil and water, which have flowed into the bottom of the c), can be adsorbed to these polymers, and these polymers can be extracted from the liquid separation chamber 32 and disposed of.

The dust collector 4 separates and separates the dust from the air stream between the liquid separators 3 to accumulate therein, and to prevent the occurrence of pressure loss due to flow resistance from the liquid separator 3. It is directly connected to the apparatus 3.

That is, the dust collecting device 4 has a cylindrical casing 41 having a longitudinal axis cap disposed coaxially with the casing 31 on the upper side of the liquid separation device 3, and coaxial with the casing 41. The spiral brush 42 used as the dust removal opening arranged in the inside, and the cylindrical filter 43 which contact | connects this spiral brush 42 are 43 A, 43B, 43C.

In addition, a circular gas purifying chamber 44 is formed between the filter 43 and the peripheral wall 41a of the casing 41, and the gas purifying is formed on the upper part of the casing 41. An outlet 45 for communicating the upper portion of the chamber 44 with the exhaust duct 5 is formed.

The lower surface of the casing 41 is covered with the upper wall 34 of the casing 31 of the liquid separation device 3, and in the center of the upper wall 34, in a plan view, a spiral brush for dust removal ( An outlet 35 of the liquid separation device 3 formed in a circle so as to coincide with the outline of 42 is located, and the outlet 35 is used as an introduction port of the dust collector 4.

In addition, the casing 41 has a hollow shape, and a circular gas purifying chamber 44 is formed between the filter 43 and the peripheral wall 41a of the casing 41. What is necessary is just to form 43 over the whole circumference, or it may be formed partially or continuously in the circumferential direction.

In addition, the size of the casing 41 is set in accordance with the processing capacity of the unit time required in advance, the conversion cycle of the spiral brush 42, the filter 43 and the like.

The dust removal spiral brush 42 used as the dust removal mechanism has a central axis 42a, and the hair 42b is a brush having a spiral surface around the central axis 42a. A constant spiral vent 42c is formed between the strings of 42b).

The central shaft 42a of the dust removal spiral brush 42 is connected to the driving device M mounted on the upper wall 41b of the casing 41, and a liquid separation device is provided at the lower end of the central shaft 42a. (3) the liquid separation rotary brush 36 is connected, so that the dust removal spiral brush 42 and the liquid separation rotary brush 36 of the liquid separation apparatus 3 are simultaneously driven by the driving device M in the same direction. I can drive it.

By the way, the conventional dust removal apparatus configured as described above has various problems such as not only a large size of the configuration, but also a large number of maintenance / maintenance costs, and a small size of the structure.

      The present invention has been made to solve the above various problems, and an object of the present invention is to provide a rotary gravity settling dust collector with a simple structure.

Another object of the present invention to provide a rotary gravity sedimentation dust collector that can reduce the installation area.

Still another object of the present invention is to provide a rotary gravity settling dust collector which can reduce suction loss of a vacuum pump.

Still another object of the present invention is to provide a rotary gravity settling dust collector which can prevent the generation of dust during the treatment and transportation of waste or incineration ash.

It is another object of the present invention to provide a movable rotary gravity settling dust collector.

Still another object of the present invention is to provide a rotary gravity sedimentation dust collector which can reduce manufacturing cost.

Still another object of the present invention is to provide a rotary gravity settling dust collector which can easily clean a large factory.

Still another object of the present invention is to provide a rotary gravity settling dust collector capable of collecting incineration ash with high efficiency.

In order to achieve the above object, the present invention provides a controller for controlling the overall operation by receiving power from the power supply unit when the main switch is switched on, and driven by receiving air from the controller when the main switch is switched on. A vacuum pump for discharging the gas, a suction member for sucking the incineration ash when the pump is driven, a discharge pipe for discharging the incineration ash sucked by the suction member, and an incineration ash discharged from the discharge pipe in a tangential direction of the inner circumferential surface An external hopper which collects incineration ashes of a predetermined size or more under the inertia by generating airflow, and maintains the inside of the outer hopper in a vacuum state, and is disposed at the lower outlet of the outer hopper and collected in the outer hopper. Two stage slide damper discharged to the furnace, and incineration ash discharged from the discharge pipe An inner hopper having a lower portion suspended concentrically in the outer hopper so as to form a center of the rotating air flow, including a rotating air flow disposed between the outer circumferential surface of the inner hopper and the inner circumferential surface of the outer hopper and disposed in an opening formed in the lower portion of the inner hopper; Rotary gravity settling dust collector comprising a screen for filtering the incineration material of a predetermined size or more contained in the rising air generated at the center of the swirling air, and a filter cloth disposed in the upper inside of the inner hopper to adsorb fine dust passing through the screen. The first damper of claim 2, wherein the first damper of the second stage slide damper is opened for a predetermined time by receiving a control signal outputted from the controller to discharge the incineration material collected in the external hopper onto the second damper of the second stage slide damper. When the solenoid and the first damper of the two-stage slide damper are closed, the solenoid drops on the second damper. A second solenoid for receiving a control signal output from the controller to discharge the incineration ashes to the outside and opening the second damper of the two-stage slide damper for a predetermined time; and the incineration ashes attached to the screen and the fine cloth attached to the filter cloth. A solenoid valve which is opened at regular intervals by a control signal output from the controller so that dust falls into the external hopper and discharges compressed air in the compressed air tank to the blow tube, and is discharged to the atmosphere of the discharge port of the vacuum pump. A silencer for attenuating the noise of the clean air, a first valve disposed in the discharge pipe to control the suction of the incineration material sucked from the suction member, and between the first valve and the suction member to vary the suction region of the incineration material. Consisting of flexible piping detachably connected to .

Hereinafter, a rotary gravity sedimentation dust collector according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

    2 is a structural diagram conceptually showing a rotary gravity settling dust collector according to an embodiment of the present invention, Figure 3 is a cross-sectional view taken along the line III-III in Figure 2, Figure 4 is an embodiment of the present invention The control block diagram of the rotary gravity sedimentation dust collector by

2 to 4, the rotary gravity settled dust collector according to an embodiment of the present invention is a controller 100 for controlling the overall operation by receiving power from the power supply 111 when the main switch 112 is switched on. ), A vacuum pump 110 that receives power from the controller 100 at the time of switching on the main switch 112 to drive air, and discharges the air to the outside, and an incineration material at the time of driving the vacuum pump 110. ash; the suction member 120 for sucking the 90, the discharge pipe 130 for discharging the incineration material 90 sucked by the suction member 120, and the incineration material 90 discharged from the discharge pipe 130 ) In the tangential direction of the inner circumferential surface to generate a swirling air flow (A) to maintain the outer hopper 140 and the outer hopper 140 in a vacuum state by collecting the incineration material 90 of a predetermined size or more by the inertia At the same time, the lower outlet 142 of the outer hopper 140 Slewing air flow (A) comprising a two-stage slide damper 150 disposed to discharge the incineration material 90 collected in the outer hopper 140 to the outside, and the incineration material 90 discharged from the discharge pipe 130 The outer hopper and the outer circumferential surface of the inner hopper 160 are disposed in an inner hopper 160 whose lower portion is suspended concentrically in the outer hopper 140 to form a center of the inner hopper 160. Screen 170 for filtering the incineration material 90 of a predetermined size or more contained in the rising air flow (B) generated in the center of the swinging air flow (A) by the swirling air flow (A) flowing between the inner peripheral surface of the 140, and the inside In the rotary gravity settling dust collecting device having a filter cloth 180 is disposed inside the upper hopper 160 and adsorbs the fine dust passing through the screen 170, incineration material 90 collected in the outer hopper 140 ) Is placed on the second damper 154 of the two-stage slide damper 150. A first solenoid 190 for opening a first damper 152 of the second stage slide damper 150 for a predetermined time by receiving a control signal output from the controller 100, and the second stage slide damper 150. The second stage slide damper 150 receives a control signal output from the controller 100 to discharge the incineration material 90 dropped on the second damper 154 to the outside when the first damper 152 of the second damper 152 is closed. A second solenoid 200 for opening the second damper 154 for a predetermined time, an incinerator 90 attached to the screen 170, and fine dust attached to the filter cloth 180. The solenoid valve 210 and the vacuum pump 110 which are opened at regular intervals by a control signal output from the controller 100 so as to fall into the blower tube 96 and discharge the air in the compressed air tank 94 to the blow tube 96. Of clean air discharged to the atmosphere The silencer 220 to attenuate the noise, the first valve 230 disposed in the discharge pipe 130 to control the suction of the incineration material 90 sucked by the suction member 120 and the incineration material 90 The flexible pipe 240 is detachably connected between the first valve 230 and the suction member 120 to vary the suction region.

The suction member 120 is a suction pipe 122, which also serves as a handle, a suction port 124 is formed at the front end of the suction pipe 122 to suck the incineration ash 90, and is sucked through the suction port 124 It is composed of an air control valve 126 disposed near the suction port 124 to easily suck the incineration material 90 to regulate the introduction of air.

A second valve 232 is additionally installed at the discharge pipe 130 to connect the flexible pipe 240 connected to the suction member 120.

The two-stage slide damper 150 is opened for a predetermined time when the first solenoid 190 is switched on and the first damper 152 for discharging the incineration material 90 collected in the outer hopper 140 to the bottom. When the first damper 152 is closed when the first solenoid 190 is switched off, the first damper 152 is closed, and then the second damper 152 is opened for a predetermined time to open the first damper 152. It consists of a second damper 154 for discharging the incineration material 90 discharged to the outside.

In the figure, reference numeral 98 is a side wall of an incinerator for incineration of waste.

Next, the operation and effects of the rotary gravity settling dust collector according to one embodiment of the present invention configured as described above will be described.

First, when the flexible pipe 240 is coupled to the first valve 230 installed in the discharge pipe 130 by a one-touch method, and then switching on the main switch 112, the controller (from the power supply 111) ( Power is supplied to the 100 and the operating power is applied to the vacuum pump 110 and driven to suck air in the discharge pipe 130, the external hopper 140, the internal hopper 160, and the pipe 99. Discharge to the outside through 220.

Accordingly, since the discharge pipe 130, the outer hopper 140, the inner hopper 160 and the inside of the pipe 99 has a predetermined level of vacuum, the inlet 124 of the suction member 120 is incinerated ( 90) or when the first valve 230 is opened in contact with the waste, the incineration material 90 or the waste is controlled by the suction force of the vacuum pump 110, or the waste air control valve 126 of the suction member 120. The incineration material 90 or waste material in the tangential direction of the external hopper 140 through the suction pipe 122, the flexible pipe 240, the first valve 230, and the discharge pipe 130 together with the air introduced through the air. This is introduced into the outer hopper 140.

At this time, the incineration material (90) or waste introduced into the outer hopper 140 is rotated as the swirling air flow (A) is generated around the outer circumferential surface of the inner hopper 160 by the suction force of the vacuum pump 110 In the center of the airflow A, an upward airflow B occurs.

Accordingly, the incineration material 90 or the waste of a predetermined size or more contained in the swirling air (A) is collected at a distance below the outer hopper 140, and thus, the predetermined size or more included in the rising air (B) Incinerator (90) or waste and fine dust is included in the upward air flow (B) and ascends to the upper portion of the incineration ash 90 or waste of a predetermined size is filtered by the screen 170 to fall to the bottom of the outer hopper 140 Or attached to the screen 170, the fine dust passing through the screen 170 is attached to the filter cloth 180 disposed on the upper portion of the inner hopper 160.

Clean air discharged by filtering the incineration material 90 or waste and fine dust of a predetermined size or more by the screen 170 and the filter cloth 180 is sucked through the pipe 99 according to the driving of the vacuum pump 110. The noise is attenuated by the silencer 220 and is discharged to the atmosphere.

On the other hand, the incineration material 90 or waste screened by the screen 170 or the fine dust attached to the filter cloth 180 is a solenoid valve 210 by the control signal output from the controller 100 By discharging the compressed air stored in the compressed air tank 94 to the blow tube 96 at regular intervals, the spout is blown out into the fine holes (not shown) formed in the lower portion of the blow tube 96 and the external hopper is discharged. To the bottom of 140.

Next, the incineration material 90 or waste (including fine dust) collected at the bottom of the outer hopper 140 is switched on as the first solenoid 190 is switched on by a control signal output from the controller 100. The first damper 152 of the two-stage slide damper 150 is opened to fall to an upper portion of the second damper 154 of the two-stage slide damper 150, and the second damper 154 of the two-stage slide damper 150. Incineration ash 90 or waste (including fine dust) dropped on the second solenoid valve 200 is switched on by the control signal output from the controller 100 after the switching off of the first solenoid 190. Accordingly, the second damper 154 of the two-stage slide damper 150 is opened and discharged to the collection container (or container) 92 installed outside.

In the above description, since the control signal is output to the first solenoid 190 and the second solenoid 200 at regular intervals alternately from the controller 100, the first stage of the two-stage slide damper 150. When the damper 152 is open, when the second damper 154 of the two-stage slide damper 150 is closed, and the first damper 152 of the two-stage slide damper 150 is closed. The second damper 154 of the two-stage slide damper 150 is opened so that the inside of the outer hopper 140 and the inner hopper 160 is always maintained at a certain level or more in a vacuum state, the rotary gravity settling dust collector of the present invention. Can work normally.

In addition, in the rotary gravity settling dust collector of the present invention, since the second valve 232 is additionally installed in the discharge pipe 130, the flexible pipe 240 connected to the suction member 120 is The incinerator 90 or waste far away can be easily sucked by connecting to the second valve 232 by one touch. In the drawings, the discharge pipe 130 has been described with an example of installing two sets of first and second valves 230 and 232, but it is a matter of course that three or more sets are included in the concept of the present invention.

In addition, since the air control valve 126 is installed near the inlet 124 of the suction member 120, the incineration material 90 or waste is sucked together with the air introduced through the air control valve 126. The incineration material 90 or waste can be sucked more easily.

Therefore, in the present invention, the lower portion of the inner hopper 160 is disposed concentrically in the outer hopper 140, and the fine dust included in the rising air flow B generated by the swirling air flow A in the outer hopper 140. The filter cloth 180 is installed in the inner hopper 160 so as to adsorb the same, and at least the incineration material 90 of a predetermined size included in the rising air flow B is not introduced into the inner hopper 160. Since the screen 170 is installed in the opening formed at the lower portion of the 160, the structure is simple, the structure is simple, the installation area can be reduced, the suction loss of the vacuum pump can be reduced, and the waste or incineration material 90 is also provided. It is possible to prevent the generation of dust during the processing and transportation of the waste, and to reduce the manufacturing cost, as well as to move, it is possible to easily clean a large plant, and to collect the incineration ash with high efficiency.

In the above description, the suction member 120 is used to suck the incineration material 90 as an example, but the present invention is not limited thereto. For example, the rotary gravity settling dust collector of the present invention may be used as a cleaner. In the case of use, of course, the suction member 120 may be used to suck waste generated as a by-product from a large factory.

In the above description, the specific embodiments have been shown and described, but the present invention is not limited thereto, for example, by those skilled in the art without departing from the concept of the present invention. Of course, the design can be changed in various ways.

As described above, according to the rotary gravity settling dust collector of the present invention, when the main switch receives the power from the controller and the vacuum pump is driven, the incineration material is sucked together with the air, and the suction member is sucked by the suction member. The incineration ash is discharged from the discharge pipe in a tangential direction to the inner circumferential surface of the outer hopper, and the incineration ash and air discharged from the exhaust hopper generate a swirling air flow between the inner circumference of the outer hopper and the outer circumferential surface of the inner hopper. The incineration material of a predetermined size or more collected in the outer hopper by the first solenoid is collected in the lower portion of the outer hopper while maintaining the vacuum inside the outer hopper by opening the first damper of the two-stage slide damper and the second damper of the two-stage slide damper. Two stage slide at the time of closing of the first damper of the two stage slide damper A rising air generated at the center of the swirling air by the swirling airflow flowing between the outer circumferential surface of the inner hopper and the inner circumferential surface of the outer hopper by a screen disposed in the opening formed in the lower portion of the inner hopper and discharged to the outside. Filters the incineration ashes of a certain size included in the filter, adsorbs the fine dust contained in the updraft passing through the screen by the filter cloth, and outputs the incineration ashes attached to the screen and the fine dusts attached to the filter cloth to fall into the external hopper. The solenoid valve is opened at regular intervals according to the control signal, and the air in the internal hopper is sucked through the pipe 99 according to the driving of the vacuum pump to attenuate the noise by the silencer disposed on the outlet side of the vacuum pump. Because it is configured to discharge, the structure is simple, the structure is simple, the installation area can be reduced, The suction loss of the vacuum pump can be reduced, dust can be prevented during the disposal and transportation of waste or incineration ash, and the manufacturing cost can be reduced. At the same time, there is a very good effect such as the ability to collect the incineration ash with high efficiency.

1 is a longitudinal sectional view schematically showing a conventional dust removal apparatus;

2 is a structural diagram conceptually showing a rotary gravity settling dust collecting apparatus according to an embodiment of the present invention,

3 is a cross-sectional view taken along the line III-III in FIG.

4 is a control block diagram of a rotary gravity settling dust collector according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

90: incineration ash 94: compressed air tank

96: blow tube 98: side wall

100: controller 110: vacuum pump

111: power supply 112: main switch

120: suction member 122: suction pipe

124: inlet 126: air control valve

130: discharge pipe 140: external hopper

142: bottom outlet 150: two-stage slide damper

152: first damper 154: second damper

160: internal hopper 170: screen

180: Filtration 190: The first solenoid

200: second solenoid 210: solenoid valve

220: silencer 230: first valve

232: second valve 240: flexible piping

Claims (4)

The controller 100 receives power from the power supply 111 to control the entire operation when the main switch 112 is switched on, and receives power from the controller 100 when the main switch 112 is switched on. A vacuum pump 110 that sucks air and discharges it to the outside, a suction member 120 that sucks the incineration material 90 when the vacuum pump 110 is driven, and an incineration material sucked by the suction member 120 ( 90) discharge pipe 130 for discharging and the incineration material 90 discharged from the discharge pipe 130 in the tangential direction of the inner circumferential surface to generate a swirling air flow (A) by inertia more than a predetermined size by inertia At the same time, the outer hopper 140 and the outer hopper 140 is maintained in a vacuum state, and at the same time disposed in the lower outlet 142 of the outer hopper 140 is collected in the outer hopper 140 Slide damper 150 for discharging the incineration ash 90 to the outside The inner hopper 160 suspended concentrically in the outer hopper 140 so as to form a center of the swirling air flow A including the incineration material 90 discharged from the discharge pipe 130 and the inner hopper ( 160 is formed in the opening formed in the lower portion of the rising air flow (B) generated in the center of the turning air flow (A) by the turning air flow (A) flowing between the outer circumferential surface of the inner hopper 160 and the inner circumferential surface of the outer hopper 140 A screen 170 for filtering the incineration material 90 of a predetermined size or more, and a filter cloth 180 that is disposed inside the upper portion of the inner hopper 160 and adsorbs fine dust passing through the screen 170. In the rotary gravity settling dust collector provided, the output from the controller 100 to discharge the incineration material (90) collected in the outer hopper 140 on the second damper (154) of the two-stage slide damper (150). A first dam of the two-stage slide damper 150 by receiving a control signal The incineration material 90 dropped on the second damper 154 at the closing of the first solenoid 190 and the first damper 152 of the second stage slide damper 150 for opening the 152 for a predetermined time. A second solenoid 200 for opening a second damper 154 of the two-stage slide damper 150 for a predetermined time by receiving a control signal output from the controller 100 to discharge to the outside, and the screen 170 ) By the control signal output from the controller 100 so that the incineration material (90) attached to the filter material and the fine dust attached to the filter cloth (180) fall into the outer hopper 140 is opened at a predetermined period of compressed air tank ( 94, a solenoid valve 210 for discharging air in the blow tube 96, a silencer 220 disposed on the discharge port side of the vacuum pump 110 to attenuate the noise of clean air discharged to the atmosphere, and To control the inhalation of the incineration ash (90) sucked from the suction member (120) The flexible valve is detachably connected between the first valve 230 and the suction member 120 to vary the suction region of the incineration material 90 and the first valve 230 disposed in the discharge pipe 130. Rotary gravity settling dust collector, characterized in that consisting of pipes (240). According to claim 1, The suction member 120 is a suction pipe 122, which also serves as a handle, a suction port 124 is formed in the front end of the suction pipe 122 to suck the incineration ash (90), and the suction port ( Rotary gravitational sedimentation device, characterized in that it is disposed near the suction port 124 to easily suck the incineration material (90) sucked through the 124 to control the introduction of air. According to claim 1, The discharge pipe 130 is rotatable, characterized in that the second valve 232 is further provided to connect the flexible pipe 240 connected to the suction member 120 Gravity settling dust collector. According to claim 1, The two-stage slide damper 150 is opened for a predetermined time when the switching on the first solenoid 190 for discharging the incineration material 90 collected in the outer hopper 140 to the bottom The first damper 152 and the first damper 152 are closed at the time of switching off of the first solenoid 190 and then open for a predetermined time when the second solenoid 200 is switched on to open the first damper. A rotary gravity settling dust collector comprising: a second damper 154 for discharging the incineration material 90 discharged at the time of opening 152 to the outside.