CN113926598B - Cyclone separation device and method - Google Patents

Abstract

The invention relates to the technical field of cyclone separation, in particular to a cyclone separation device and a cyclone separation method. A cyclone separation device comprises an inner barrel, wherein an air inlet is formed in the circumferential tangential direction of the inner barrel, an air outlet pipe is arranged at the top of the inner barrel, the inner barrel is arranged in the outer barrel, a filter screen for liquid-solid separation is arranged on the outer wall of the inner barrel, a cavity is formed between the outer wall of the inner barrel and the inner side wall of the outer barrel, and a blowing device for blowing solid on the filter screen down into a hollow cavity formed in the inner barrel is arranged in the cavity. After the gas mixed with solid particles and liquid enters the inner barrel, the liquid passes through the filter screen to enter the outer barrel, most of the solid particles separated by the filter screen fall into the inner barrel, a small part of the solid particles are attached to the filter screen, the blowing device can gradually blow the solid particles adhered to the filter screen down to the bottom of the inner barrel, and the entering gas is discharged through the gas outlet pipe, so that the gas-liquid-solid three-phase mixture is separated.

Description

Cyclone separation device and method

Technical Field

The invention relates to the technical field of cyclone separation, in particular to a cyclone separation device and a cyclone separation method.

Background

The cyclone separator mainly utilizes the rotation movement resulted from tangential introduction of air flow to make the solid particles or liquid drops with larger inertial centrifugal force be thrown and separated toward external wall surface, so that it is a separation equipment extensively used in industry. Most of the existing cyclone separators can only realize gas-solid separation or liquid-solid separation, but cannot realize separation of a gas-liquid-solid three-phase mixture at one time. The Chinese patent application, the publication number is: CN112191375A discloses a spray type cyclone separator, which mainly includes a separation barrel having a straight-tube upper portion and a conical-barrel lower portion, a middle tube is disposed at the center of the separation barrel, an air inlet is disposed at one side of the top of the separation barrel, a fan is disposed at the top of the separation barrel, the fan is disposed in a vertical arrangement state, an air inlet of the fan is connected to a tube opening at the top of the middle tube, and a negative pressure structure is formed inside the separation barrel, a spray component is disposed inside the separation barrel, and the spray component is connected to a pipeline and a pressure pump.

Disclosure of Invention

The invention provides a cyclone separation device and a method for overcoming the problem that a gas-liquid-solid three-phase mixture cannot be separated at one time in the prior art.

In order to solve the technical problems, the invention adopts the technical scheme that: a cyclone separation device comprises an inner barrel, wherein an air inlet is formed in the circumferential tangential direction of the inner barrel, an air outlet pipe is arranged at the top of the inner barrel, the inner barrel is arranged in the outer barrel, a filter screen for liquid-solid separation is arranged on the outer wall of the inner barrel, a cavity is formed between the outer wall of the inner barrel and the inner side wall of the outer barrel, and a blowing device for blowing solid on the filter screen down into a hollow cavity formed in the inner barrel is arranged in the cavity.

In the technical scheme, one end of an air outlet pipe extends out of the inner barrel, the other end of the air outlet pipe extends into the middle of the inner barrel, gas mixed with solid particles and liquid is input into the inner barrel through an air inlet to form rotary airflow, and the liquid passes through a filter screen to enter the outer barrel under the centrifugal action and falls to the bottom of the outer barrel along the inner wall of the outer barrel; most of solid particles blocked by the filter screen are positioned at the inner side of the filter screen and fall to the bottom of the inner barrel, and a small part of the solid particles are attached to the filter screen; the gas in the rotary airflow is discharged through the air outlet pipe inserted into the inner barrel, so that the gas-liquid-solid three-phase mixture is separated. The cyclone dust collector has a simple structure, one set of equipment is adopted to realize the three-phase separation of gas, solid and liquid at one time, especially the blowing device solves the problems of rapid failure of a filter and high energy consumption caused by rapid blockage of filter holes by sticky particles, the cost is saved, and better cyclone dust collection and gas, liquid and solid separation are achieved.

Preferably, the blowing device comprises an air inlet pipe and an air injection claw, the air inlet pipe is communicated with the air injection claw, the upper portion of the air injection claw is an annular box with an opening at the top, the annular box is sleeved with the inner barrel and is rotationally sealed through a first sealing ring, the lower portion of the air injection claw is provided with a plurality of air injection legs which are uniformly distributed and extend downwards, the air injection legs are communicated with the annular box, and air injection holes which are opposite to the filter screen are formed in the inner sides of the air injection legs.

Preferably, the outer barrel comprises a top cover and a ring sleeve which are connected, the top cover is positioned above the annular box, the ring sleeve is sleeved with the annular box and is rotationally sealed through a second sealing ring, the air inlet pipe is arranged on the top cover, one end of the air inlet pipe is communicated with the annular box, and the other end of the air inlet pipe is communicated with the external fan; the outer barrel further comprises a shell and a bottom cone, the upper end of the shell is mounted on the annular sleeve, and the lower end of the shell is mounted on the bottom cone.

Preferably, the top cover is provided with a motor and a gearbox which are connected, a gear arranged on an output shaft of the motor and the gearbox thereof and a gear ring arranged on the inner side of the annular box at the upper part of the air injection claw, and the motor and the gearbox thereof drive the annular box to rotate through the meshed gear and the gear ring.

Preferably, the air injection hole is a ventilation slit, and one side surface of the air injection claw, which is provided with the ventilation slit, is attached to the filter screen.

Preferably, a first discharging pipe is arranged at the bottom of the inner barrel and communicated with the inner barrel, a first material turning plate is arranged at a discharging port of the first discharging pipe and hinged with the first discharging pipe through an elastic piece.

Preferably, a second discharging pipe is arranged at the bottom of the outer barrel and communicated with the outer barrel, a second material turning plate is arranged at a discharging port of the second discharging pipe and hinged to the second discharging pipe through an elastic piece.

Preferably, the upper end of each gas injection leg is communicated with the bottom of the annular box, and the lower end of each gas injection leg is mounted on the first discharge pipe through a flange ring and is rotatably connected with the first discharge pipe.

Preferably, a water spray ring for spraying gas is arranged in the gas inlet.

Meanwhile, the invention also provides a cyclone separation method, which comprises the following steps:

s1: introducing gas mixed with particles and liquid into the inner barrel along the tangential direction of the inner barrel and forming rotary airflow;

s2: separating the liquid in the rotary airflow in the step S1 into an outer barrel arranged outside the inner barrel through a filter screen;

s3: separating the particles of the rotary airflow in the step S2 to an inner barrel or a filter screen through rotation, and discharging the gas in the rotary airflow through a gas outlet arranged on the inner barrel;

s4: blowing the particles on the filter screen in the step S3 into the inner barrel by using a blowing device;

s5: after solids are accumulated above a discharge port of a first discharge pipe at the bottom of the inner barrel, the first material turning plate is pushed to discharge the materials, and then the materials are quickly closed again, so that the air pressure balance in the whole cyclone separation device is not damaged;

s6: when liquid is accumulated above a discharge port of a second discharge pipe at the bottom of the outer barrel, the second material turning plate is pushed to discharge the materials, and then the materials are quickly closed again, so that the air pressure balance in the whole cyclone separation device is not damaged.

Compared with the prior art, the invention has the following beneficial effects:

in the invention, gas mixed with solid particles and liquid is input into the inner barrel through the gas inlet to form rotary airflow, and the liquid passes through the filter screen to enter the outer barrel under the centrifugal action and falls to the bottom of the outer barrel along the inner wall of the outer barrel; most of solid particles separated by the filter screen are located on the inner side of the filter screen and fall to the bottom of the inner barrel, a small part of the solid particles are attached to the filter screen, the blowing device located in the cavity can periodically and gradually blow solid particles adhered to the filter screen to the bottom of the inner barrel, and gas in rotary airflow is discharged through the gas outlet pipe at the top of the inner barrel, so that gas-liquid-solid three-phase mixture is separated. The cyclone dust collector has a simple structure, one set of equipment is adopted to realize the three-phase separation of gas, solid and liquid at one time, and the blowing device solves the problems of rapid failure of the filter and high energy consumption caused by rapid blockage of the filter holes by sticky particles, saves the cost and achieves better cyclone dust collection and gas, liquid and solid separation.

Drawings

FIG. 1 is a schematic view of a cyclone separator apparatus of the present invention with a portion of the housing removed;

FIG. 2 is a schematic structural view of the cyclone separation device of the present invention after the outer tub and the air-jet claw are removed;

FIG. 3 is a schematic view of the structure of a gas-spraying claw in the cyclone separating apparatus of the present invention;

FIG. 4 is a schematic view showing the connection between the inner tub side wall and the filter net in the cyclone separating apparatus of the present invention;

FIG. 5 is a schematic flow diagram of the cyclonic separation process of the present invention.

In the drawings: 1. an inner barrel; 2. an air inlet; 3. an air outlet pipe; 4. a filter screen; 5. an outer tub; 6. a cavity; 7. an air-jet claw; 11. an air inlet pipe; 17. air injection seam; 18. a gas injection hole; 21. a motor; 22. a gear; 23. a ring gear; 24. a gearbox; 25. a fixed shaft; 31. a water spray ring; 32. a first discharge pipe; 33. a first material turning plate; 34. a second discharge pipe; 35. a second material turning plate; 41. a through hole; 51. a top cover; 52. sleeving a ring; 53. a housing; 54. a second seal ring; 55. a bottom cone; 71. a ring-shaped case; 72. a gas injection leg; 73. a first seal ring; 81. and (4) a flange ring.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The positional relationships depicted in the drawings are for illustrative purposes only and are not to be construed as limiting the present patent.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it should be understood that if there are terms such as "upper", "lower", "left", "right", "long", "short", etc., indicating orientations or positional relationships based on the orientations or positional relationships shown in the drawings, it is only for convenience of description and simplicity of description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationships in the drawings are only used for illustrative purposes and are not to be construed as limitations of the present patent, and specific meanings of the terms may be understood by those skilled in the art according to specific situations.

The technical scheme of the invention is further described in detail by the following specific embodiments in combination with the attached drawings:

example 1

As shown in fig. 1 to 4, a cyclone separation device comprises an inner barrel 1, an air inlet 2 is arranged in the tangential direction of the peripheral surface of the inner barrel 1, an air outlet pipe 3 is arranged at the top of the inner barrel 1, the cyclone separation device further comprises an outer barrel 5, the inner barrel 1 is arranged in the outer barrel 5, the outer wall of the inner barrel 1 is a filter screen 4 for liquid-solid separation, a cavity 6 is formed between the outer wall of the inner barrel 1 and the inner side wall of the outer barrel 5, and a purging device for blowing the solid on the filter screen 4 down into a hollow cavity arranged in the inner barrel 1 is arranged in the cavity 6. In this embodiment, one end of the air outlet pipe 3 extends out of the inner barrel 1, the other end extends into the middle of the inner barrel 1, the gas mixed with solid particles and liquid enters the inner barrel 1 from the air inlet 2 and forms a rotary air flow, under the centrifugal action, the liquid passes through the filter screen 4 and enters the outer barrel 5, and falls to the bottom of the outer barrel 5 along the inner wall of the outer barrel 5, most of the solid particles blocked by the filter screen 4 are located at the inner side of the filter screen 4 and fall to the bottom of the inner barrel 1, and a small part of the solid particles are attached to the filter screen 4, and the blowing device can gradually blow the solid particles adhered to the filter screen 4 to the bottom of the inner barrel 1; the gas in the rotary airflow is discharged through an air outlet pipe 3 inserted into the inner barrel 1, and then the separation of gas-liquid-solid three-phase mixture is realized. The invention has simple structure, adopts a set of equipment to realize the three-phase separation of gas, solid and liquid at one time, particularly solves the problems of rapid failure of a filter and high energy consumption caused by rapid blockage of filter holes by sticky particles by the blowing device, saves the cost, achieves better cyclone dust removal and gas, liquid and solid separation, and simultaneously, the bottoms of the inner barrel 1 and the outer barrel 5 in the device are both provided with conical structures, thus being convenient for the device to collect liquid and solid particles.

The blowing device comprises an air inlet 11 pipe and an air injection claw 7, the air inlet 11 pipe is used for being communicated with an external fan, the air injection claw 7 is communicated with the air inlet pipe 11, the upper portion of the air injection claw 7 is an annular box 71 with an opening at the top, the annular box 71 is sleeved with the inner barrel 1 and is rotationally sealed through a first sealing ring 73, the lower portion of the air injection claw 7 is a plurality of air injection legs 72 which are uniformly distributed and extend downwards, the air injection legs 72 are communicated with the annular box 71, and air injection holes 18 which are opposite to the filter screen 4 are formed in the inner sides of the air injection legs 72. In this embodiment, the air injection leg 72 is a hollow structure, and the air injection pressure provided by the fan is greater than the air pressure of the inner barrel, and the air is blown into the annular box 71 through the air inlet pipe 11, and then blown out through the air injection hole 18 on the air injection leg 72, and the air is blown onto the filter screen 4, so that the viscous solid on the filter screen 4 and the solid particles plugged into the filter screen 4 are blown to the bottom of the inner barrel 1, and thus the problem that the viscous solid particles block the filter holes of the filter screen 4 and cause the failure of the filter device can be avoided.

In addition, the outer tub 5 comprises a top cover 51 and a ring sleeve 52 which are connected, the top cover 51 is positioned above the annular box 71, the ring sleeve 52 is sleeved with the annular box 71 and is rotationally sealed through a second sealing ring 54, the air inlet pipe 11 is arranged on the top cover 51, one end of the air inlet pipe 11 is communicated with the annular box 71, and the other end of the air inlet pipe 11 is communicated with an external fan; the outer tub 5 further includes an outer casing 53 and a bottom cone 55, an upper end of the outer casing 53 is mounted on the collar 52, and a lower end of the outer casing 53 is mounted on the bottom cone 55. In this embodiment, the upper and lower portions of the collar 52 are configured with different outer diameters and are stepped to facilitate mounting of the shell 52 on the collar 52 and the bottom cone 55.

In addition, the driving device comprises a motor 21 and a gearbox 24 which are arranged on the top cover 72 and connected with each other, a gear 22 arranged on an output shaft of the motor 21 and the gearbox 24 thereof, and a gear ring 23 arranged on the inner side of the annular box 71 on the upper part of the air injection claw 7, wherein the motor 21 and the gearbox 24 thereof drive the annular box 71 to rotate through the gear 22 and the gear ring 23 which are meshed with each other. In the present embodiment, the motor 21 is fixed to the top cover 51 of the outer tub 5 by the fixing shaft 25, the outer tub 5 is fixed, and the motor 21 drives the ring-shaped case 71 and the air spraying legs 72 mounted on the ring-shaped case 71 to rotate around the inner tub 1 through the transmission 24, the gear 22 and the ring gear 23.

Wherein, the air jet hole 18 is a ventilation slit, and one side surface of the air jet claw 7 provided with the ventilation slit is jointed with the filter screen 4. In the present embodiment, the air injection leg 72 is a hollow structure, and meanwhile, the top of the air injection leg 72 is an open structure, the bottom of the annular box 71 is provided with a through hole 41 corresponding to the open structure at the top of the air injection leg 72, and the strong airflow entering from the air inlet pipe 11 enters the hollow air injection leg 72 through the through hole 41 and is blown out from the ventilation slit where the air injection leg 72 is attached to the filter screen 4, so that the strong airflow in the air inlet pipe 11 blows off the solid particles on the filter screen 4 through the ventilation opening; this device equidistant three jet-propelled leg 72 that is provided with, jet-propelled one side of jet-propelled leg 72 is laminated with filter screen 4 mutually, when jet-propelled leg 72 jets out the air and sweeps, can make the each direction effort that jet-propelled claw 7 produced offset each other like this, and then make this cyclone separation device's operation more steady, in addition, set up like this and can enter into under the prerequisite of outer bucket 5 guaranteeing the liquid in the gyration air current, blow to each position of filter screen 4 through rotatory powerful air current that makes in the jet-propelled leg 72, and then blow the solid particle on the filter screen 4 to the bottom of interior bucket 1, even can not once only blow all solid particles to the bottom of interior bucket 1, also can make the solid particle on the filter screen 4 progressively dry and move down until the bottom of interior bucket 1.

In addition, a first discharging pipe 32 is arranged at the bottom of the inner barrel 1, the first discharging pipe 32 is communicated with the inner barrel 1, a first material turning plate 33 is arranged at a discharging port of the first discharging pipe 32, and the first material turning plate 33 is hinged with the first discharging pipe 32 through an elastic piece. In this embodiment, when the amount of solid particles stored at the bottom of the inner barrel 1 is small, the first material-turning plate 33 closes the opening of the first material-discharging pipe 32, and as the weight of the solid particles increases to a certain amount, the first material-turning plate 33 opens, the solid particles are discharged to other devices for collecting solids along the first material-discharging pipe 32, and then the solid particles are quickly closed again, so that the air pressure balance in the entire cyclone separation apparatus is not destroyed. In addition, the bottom of the outer barrel 5 is provided with a second discharge pipe 34, the second discharge pipe 34 is communicated with the outer barrel 5, a discharge port of the second discharge pipe 34 is provided with a second material turning plate 35, and the second material turning plate 35 is hinged with the second discharge pipe 34 through an elastic element. In this embodiment, when the amount of liquid stored at the bottom of the outer tub 5 is small, the second material turning plate 35 closes the opening of the second material discharging pipe 34, and as the amount of liquid increases to a certain weight, the second material turning plate 35 is opened, and the liquid is discharged to other devices for collecting liquid along the second material discharging pipe 34, and then is quickly closed again, so that the air pressure balance in the whole cyclone separation device is not damaged.

Wherein, the upper end of each air injection leg 72 is communicated with the bottom of the annular box 71, and the lower end is arranged on the first discharging structure through a flange ring 81 and is rotationally connected with the first discharging structure. In this embodiment, the bottom end of each of the gas ejection legs 72 is fixedly mounted on a flange ring 81 fixed to a bearing on the first discharge pipe 32, thereby fixing the gas ejection claws from top to bottom while allowing a driving unit to drive the gas ejection claws 7 to smoothly rotate around the inner tub 1.

Further, a water spray ring 31 for spraying gas is provided in the gas inlet 2. In this embodiment, the water spraying ring 31 can spray water or other desired atomized liquid, and the liquid sprayed from the water spraying ring 31 can spray air flow mixed with liquid and solid, so as to remove water-soluble harmful components in the gas, and the harmful components enter the outer tub 5 along with the liquid, and the atomized liquid can wet the solid particles, so that the adjacent solid particles can stick together, increase the volume of the particles, further prevent the solid particles from passing through the filter screen 4 and entering the outer tub 5, and better prevent the solid from being carried out of the gas outlet pipe 3 by the gas in the form of particles.

In addition, the annular box 71 is provided with an air injection slit 17 in a cylindrical structure sleeved on the inner barrel 1. In this embodiment, powerful air current in the intake pipe 11 can also blow to the filter screen 4 through the jet-propelled seam 17 on, when the motor 21 drives cyclic annular box 71 and around interior bucket 1 rotatory, jet-propelled leg 72 of jet-propelled seam 17 cooperation is spouted the filter screen 4 together and is swept, can further guarantee like this to sweep the comprehensive nature that the device swept the filter screen 4, and simultaneously, cyclic annular box 71 can further define the position of jet-propelled claw 7 with the flange circle 81 of fixed jet-propelled leg 72, guarantees that the filter screen 4 filters effectively.

The working principle is as follows:

in the invention, gas mixed with solid particles and liquid enters the inner barrel 1 from the gas inlet 2 and forms rotary airflow, and under the centrifugal action, the liquid passes through the filter screen 4 and enters the outer barrel 5 and falls to the bottom of the outer barrel 5 along the inner wall of the outer barrel 5; most of solid particles separated by the filter screen 4 are positioned at the inner side of the filter screen 4 and fall to the bottom of the inner barrel 1, a small part of the solid particles are attached to the filter screen 4, the rotating blowing device positioned in the cavity 6 can periodically blow solid particles adhered to the filter screen 4 to the bottom of the inner barrel 1 gradually, and gas in rotary airflow is discharged through the gas outlet pipe 3 at the top of the inner barrel 1, so that the separation of a gas-liquid-solid three-phase mixture is realized. The invention has simple structure, realizes the three-phase separation of gas, solid and liquid at one time by adopting a set of equipment, particularly solves the problems of quick failure of the filter and high energy consumption caused by that viscous particles quickly block the filter holes in the filter screen 44 by the blowing device, saves the cost and achieves better cyclone dust removal and gas, liquid and solid separation.

Example 2

As shown in fig. 5, a cyclone separation method includes the steps of:

s1: introducing the gas mixed with the particles and the liquid into the inner barrel 1 along the tangential direction of the inner barrel 1 and forming a rotary airflow;

s2: separating the liquid in the rotary airflow in the step S1 into an outer barrel 5 arranged outside the inner barrel 1 through a filter screen 4;

s3: separating the particles of the rotary airflow in the step S2 to the inner barrel 1 or the filter screen 4 through rotation, and discharging the gas in the rotary airflow through a gas outlet arranged on the inner barrel 1;

s4: blowing the particles on the filter screen 4 in the step S3 into the inner barrel 1 by using a blowing device;

s5: after solids are accumulated above a discharge port of a first discharge pipe 32 at the bottom of the inner barrel 1, a first material turning plate 33 is pushed to discharge materials, and then the materials are quickly closed again, so that the air pressure balance in the whole cyclone separation device is not damaged;

s6: when liquid is accumulated above the discharge hole of the second discharge pipe 34 at the bottom of the outer barrel 5, the second material turning plate 35 is pushed to discharge the material, and then the material is quickly closed again, so that the air pressure balance in the whole cyclone separation device is not damaged.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (7)

1. The utility model provides a cyclone separation device, includes interior bucket (1), the global tangential direction of interior bucket (1) is equipped with air inlet (2), the top of interior bucket (1) is equipped with outlet duct (3), its characterized in that: the inner barrel is characterized by further comprising an outer barrel (5), the inner barrel (1) is arranged in the outer barrel (5), the outer wall of the inner barrel (1) is a filter screen (4) for liquid-solid separation, a cavity (6) is formed between the outer wall of the inner barrel (1) and the inner side wall of the outer barrel (5), and a blowing device for blowing the solid on the filter screen (4) down to the hollow cavity arranged in the inner barrel (1) is arranged in the cavity (6); the blowing device comprises an air inlet pipe (11) and an air injection claw (7), the air inlet pipe (11) is communicated with the air injection claw (7), the upper part of the air injection claw (7) is provided with an annular box (71) with an opening at the top, the annular box (71) is sleeved with the inner barrel (1) and is rotationally sealed through a first sealing ring (73), the lower part of the air injection claw (7) is provided with a plurality of uniformly distributed air injection legs (72) extending downwards, the air injection legs (72) are communicated with the annular box (71), and the inner sides of the air injection legs (72) are provided with air injection holes (18) facing the filter screen (4); the outer barrel (5) comprises a top cover (51) and a ring sleeve (52), the top cover (51) is positioned above the annular box (71), the ring sleeve (52) is sleeved with the annular box (71) and is rotationally sealed through a second sealing ring (54), the air inlet pipe (11) is arranged on the top cover (51), one end of the air inlet pipe (11) is communicated with the annular box (71), and the other end of the air inlet pipe is communicated with the external fan; the outer barrel (5) further comprises an outer shell (53) and a bottom cone (55), the upper end of the outer shell (53) is mounted on the ring sleeve (52), and the lower end of the outer shell is mounted on the bottom cone (55); be equipped with motor (21) and gearbox (24) that link to each other on top cap (51), locate gear (22) on motor (21) and gearbox (24) output shaft and locate annular box (71) inboard ring gear (23) in upper portion of gas injection claw (7), motor (21) and gearbox (24) thereof are through meshed gear (22), ring gear (23) drive annular box (71) and rotate.

2. Cyclonic separating apparatus as claimed in claim 1, wherein: the air injection holes (18) are ventilation slits, and one side face of the air injection claw (7) provided with the ventilation slits is attached to the filter screen (4).

3. Cyclonic separating apparatus as claimed in claim 1, wherein: the bottom of the inner barrel (1) is provided with a first discharging pipe (32), the first discharging pipe (32) is communicated with the inner barrel (1), a discharging port of the first discharging pipe (32) is provided with a first material turning plate (33), and the first material turning plate (33) is hinged to the first discharging pipe (32) through an elastic piece.

4. Cyclonic separating apparatus as claimed in claim 1, wherein: the bottom of the outer barrel (5) is provided with a second discharge pipe (34), the second discharge pipe (34) is communicated with the outer barrel (5), a discharge hole of the second discharge pipe (34) is provided with a second material turning plate (35), and the second material turning plate (35) is hinged to the second discharge pipe (34) through an elastic piece.

5. Cyclonic separating apparatus as claimed in claim 3, wherein: the upper end of each air injection leg (72) is communicated with the bottom of the annular box (71), and the lower end of each air injection leg is installed on the first discharge pipe (32) through a flange ring (81) and is rotatably connected with the first discharge pipe.

6. Cyclonic separating apparatus as claimed in claim 1, wherein: and a water spraying ring (31) for spraying gas is arranged in the gas inlet (2).

7. A cyclonic separation method based on the cyclonic separation apparatus of claim 1, comprising the steps of:

s1: introducing gas mixed with particles and liquid into the inner barrel (1) along the tangential direction of the inner barrel (1) and forming rotary airflow;

s2: separating the liquid in the rotary airflow in the step S1 into an outer barrel (5) arranged outside the inner barrel (1) through a filter screen (4);

s3: separating the particles of the rotary airflow in the step S2 onto an inner barrel (1) or a filter screen (4) through rotation, and discharging the gas in the rotary airflow through a gas outlet arranged on the inner barrel (1);

s4: blowing the particles on the filter screen (4) in the step S3 into the inner barrel (1) by using a blowing device;

s5: when solids are accumulated above a discharge hole of a first discharge pipe (32) at the bottom of the inner barrel (1), a first material turning plate (33) is pushed to discharge the materials, and then the materials are quickly closed again, so that the air pressure balance in the whole cyclone separation device is not damaged;

s6: after liquid is accumulated above a discharge hole of a second discharge pipe (34) at the bottom of the outer barrel (5), the second material turning plate (35) is pushed to discharge the material and then quickly returns to be closed, so that the air pressure balance in the whole cyclone separation device is not damaged.

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