CN214598037U - A high-efficient filter equipment for flue gas removes dust - Google Patents

Abstract

The utility model discloses a high efficiency filter for flue gas removes dust, by the high efficiency filter main part, advance the mouth, the gas-liquid crosses the board, the filter, the installing port, hydrologic cycle mechanism and condensation mechanism constitute, wherein hydrologic cycle mechanism comprises first transfer line, first water pump, activated carbon filter, first storage water tank, the second transfer line, the second water pump, the second storage water tank, the third transfer line, the shower nozzle valve, the sprinkler head comprises with the inlet tube, condensation mechanism comprises condensation shell, the flue gas pipeline, the condensate, the third water pump, the liquid outlet, fourth water pump and inlet. A high-efficient filter equipment for flue gas removes dust, through the water circulating mechanism who sets up recycles after the aqueous cleaning after will removing dust, the using water wisely through the condensation mechanism that sets up, will take out the vapor condensation in the gas of smoke and dust, reduces the production of white cigarette, avoids influencing trip and air quality, has brought better use prospect.

Description

A high-efficient filter equipment for flue gas removes dust

Technical Field

The utility model relates to a flue gas filters technical field, specifically is a high-efficient filter equipment for flue gas removes dust.

Background

The smoke is a mixture of gas and smoke dust, is a main reason for polluting atmosphere of residential areas, the components of the smoke are complex, the gas comprises water vapor, SO2, N2, O2, CO2 hydrocarbon, oxynitride and the like, the smoke dust comprises ash content of fuel, coal particles, oil drops, high-temperature cracking products and the like, SO the pollution of the smoke gas to the environment is composite pollution of various poisons, the harmfulness of the smoke dust to human bodies is related to the size of particles, most of the smoke dust harms the human bodies are flying dust with the diameter of less than 10 micrometers, particularly the flying dust with the diameter of 1-2.5 micrometers is the largest, the harm to the human bodies depends on the composition, concentration, duration and action positions of pollutants on one hand and depends on the sensitivity of the human bodies on the other hand, the high smoke gas concentration can cause acute poisoning, and is manifested as cough, pharyngalgia, chest distress, asthma, headache, eye stabbing pain and the like, serious people can die, the most common is chronic poisoning, which causes irritation to respiratory mucosa to cause chronic bronchitis and the like.

The high-efficient filter equipment of current flue gas dust removal when installing and using uses, uses water to get rid of the smoke and dust, and the water that gets rid of the smoke and dust just discharges because of using the back, produces extravagantly, and contains a large amount of vapor in the gas of smoke and dust is detached to water, can produce white smoke after the direct discharge, influences trip and air quality, and the use of giving people has brought certain adverse effect, for this reason, we provide a high-efficient filter equipment for the flue gas removes dust.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides a high-efficient filter equipment for flue gas removes dust possesses hydrologic cycle and with advantages such as vapor condensation in the gas, can effectively solve the problem in the background art.

(II) technical scheme

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a high-efficient filter equipment for flue gas removes dust, includes the high-efficient filter equipment main part, the lower extreme fixed connection inlet flue of high-efficient filter equipment main part one end surface, the board is crossed to the one end surface middle part swing joint gas-liquid of high-efficient filter equipment main part, the upper end swing joint filter of high-efficient filter equipment main part one end surface, the upper end internal surface fixed connection of high-efficient filter equipment main part is a set of installing port, the upper end external surface fixed connection condensation mechanism of high-efficient filter equipment main part, another set of installing port of upper end internal surface fixed connection of condensation mechanism, the connection hydrologic cycle mechanism can be dismantled to the one end surface of high-efficient filter equipment main part.

Preferably, the water circulation mechanism comprises a first infusion tube, a first water pump, an activated carbon filter, a first water storage tank, a second infusion tube, a second water pump, a second water storage tank, a third infusion tube, a sprinkler head valve, a sprinkler head and a water inlet tube.

Preferably, the first transfer line is provided with two sets of, and is located the both ends internal surface of first water pump respectively, the active carbon filter is located the inner wall of a set of first transfer line, first storage water tank is located the one end outer wall of a set of first transfer line, the second transfer line is provided with two sets ofly, and is located the upper and lower end internal surface of second water pump respectively, and is a set of the second transfer line is located the upper end internal surface of first storage water tank, the second storage water tank is located the outer wall of another set of second transfer line, the third transfer line is located the inner wall of second storage water tank, the shower nozzle valve is located the outer wall of third transfer line, the sprinkler head is provided with six groups, and evenly is located the lower extreme surface of third transfer line, the inlet tube is located the upper end internal surface of second storage water tank.

Preferably, a mounting groove is arranged between the first infusion tube and the first water pump, the outer wall of one end of the first infusion tube is detachably connected with the inner surface of one end of the first water pump through the mounting groove, the mounting groove is arranged between the first infusion tube and the activated carbon filter, the inner wall of the first infusion tube is detachably connected with the outer wall of the activated carbon filter through the mounting groove, a fixing groove is arranged between the first infusion tube and the first water storage tank, the outer wall of the first infusion tube is fixedly connected with the inner surface of one end of the first water storage tank through the fixing groove, a fixing groove is arranged between the first water storage tank and the second infusion tube, the inner surface of the upper end of the first water storage tank is fixedly connected with the outer wall of the second infusion tube through the fixing groove, the mounting groove is arranged between the second infusion tube and the second water pump, and the outer wall of the second infusion tube is detachably connected with the inner surface of the lower end of the second water pump through the mounting groove, a fixing groove is arranged between the second infusion tube and the second water storage tank.

Preferably, the outer wall of second transfer line passes through the fixed slot and is connected with the lower extreme internal surface fixed connection of second storage water tank, be provided with the fixed slot between second storage water tank and the third transfer line, the one end internal surface of second storage water tank passes through the fixed slot and can dismantle with the outer wall of third transfer line and be connected, be provided with the fixed slot between third transfer line and the shower nozzle valve, the outer wall of third transfer line passes through the fixed slot and the inner wall fixed connection of shower nozzle valve, be provided with fixed screw thread between third transfer line and the sprinkler head, the lower extreme surface of third transfer line can dismantle with the upper end internal surface of sprinkler head through fixed screw thread and be connected, be provided with the fixed slot between second storage water tank and the inlet tube, the outer wall fixed connection of fixed slot and inlet tube is passed through to the upper end internal surface of second storage water tank.

Preferably, condensation mechanism is including condensation shell, flue gas pipeline, condensate, third water pump, liquid outlet, fourth water pump and inlet, flue gas pipeline is located the inner wall of two sets of installing ports, the condensate is located the inner wall of condensation shell, the third water pump is located flue gas pipeline's one end surface, the fourth water pump is located the one end surface of condensation shell, the liquid outlet is provided with two sets ofly, and is located the one end internal surface of third water pump and fourth water pump respectively, the inlet is located the upper end internal surface of condensation shell.

Preferably, the mounting groove is arranged between the mounting port and the flue gas pipeline, the inner wall of the mounting port is detachably connected with the outer wall of the flue gas pipeline through the mounting groove, the mounting groove is arranged between the flue gas pipeline and the third water pump, the outer surface of one end of the flue gas pipeline is detachably connected with the inner surface of one end of the third water pump through the mounting groove, the mounting groove is arranged between the third water pump and the liquid outlet, the inner surface of one end of the third water pump is detachably connected with the outer wall of one end of the liquid outlet through the mounting groove, the mounting groove is arranged between the condensation shell and the fourth water pump, the outer surface of one end of the condensation shell is detachably connected with the inner surface of one end of the fourth water pump through the mounting groove, the mounting groove is arranged between the liquid outlet and the fourth water pump, the outer surface of one end of the liquid outlet is detachably connected with the inner surface of the other end of the fourth water pump through the mounting groove, a fixing groove is formed between the condensation shell and the liquid inlet, and the inner surface of the upper end of the condensation shell is fixedly connected with the outer wall of the liquid inlet through the mounting groove.

(III) advantageous effects

Compared with the prior art, the utility model provides a high-efficient filter equipment for flue gas removes dust possesses following beneficial effect:

1. the high-efficiency filtering device for removing dust from flue gas comprises a high-efficiency filtering device main body, a smoke inlet, a gas-liquid passing plate, a filtering plate, a mounting port, a water circulation mechanism and a condensation mechanism, wherein the water circulation mechanism comprises a first liquid conveying pipe, a first water pump, an activated carbon filter, a first water storage tank, a second liquid conveying pipe, a second water pump, a second water storage tank, a third liquid conveying pipe, a spray head valve, a spray head and a water inlet pipe, water is filled in the second water storage tank through the water inlet pipe, the flue gas is placed into the high-efficiency filtering device main body from the smoke inlet, the spray head valve is opened at the same time, water in the second water storage tank is sprayed out from the spray head through the third liquid conveying pipe, and flows down from holes of the gas-liquid passing plate through the continuous spraying, the flue gas flows upwards and simultaneously enters water, the smoke in the flue gas is wetted, only the gas passes through the gas, and flows to the bottom of the high-efficiency filtering device main body, the first water pump is turned on after a period of time, water is sucked into the first water storage tank through the first infusion pipe, the water is filtered by the activated carbon filter when passing through the first infusion pipe, when the water level in the first water storage tank approximately reaches the upper part of the opening of the second infusion pipe, the second water pump is started, and the water in the first water storage tank is conveyed into the second water storage tank through the second infusion pipe again to form a circulation.

2. The high-efficiency filtering device for removing dust from flue gas comprises a high-efficiency filtering device main body, a smoke inlet, a gas-liquid passing plate, a filtering plate, a mounting port, a water circulation mechanism and a condensation mechanism, wherein the condensation mechanism comprises a condensation shell, a flue gas pipeline, condensate, a third water pump, a liquid outlet, a fourth water pump and a liquid inlet, gas continuously flows upwards and enters from the flue gas pipeline through the filtration of the filtering plate, vapor in the gas is condensed into water by the condensate in the condensation shell, the water directly falls into the high-efficiency filtering device main body through the flue gas pipeline, some condensed water is remained at the bottom of the flue gas pipeline, the third water pump is opened at the same time to suck out the water remained at the bottom of the pipe and then discharge the water through the liquid outlet, when the condensate fails, the fourth water pump is started to suck out the condensate in the condensation shell and then discharges the condensate through another group of liquid outlets, and after the old condensate is discharged, the interior of the condensing shell is filled with new condensate through the liquid inlet, so that a new round of work can be carried out.

Drawings

Fig. 1 is the overall internal structure diagram of the high-efficiency filtering device for flue gas dust removal of the present invention.

Fig. 2 is the internal structure schematic diagram of the water circulation mechanism in the high-efficiency filtering device for flue gas dust removal of the utility model.

Fig. 3 is a schematic diagram of the internal structure of the condensing mechanism in the high-efficiency filtering device for removing dust from flue gas of the present invention.

In the figure: 1. a high efficiency filter body; 2. a smoke inlet; 3. gas-liquid passing through the plate; 4. a filter plate; 5. an installation port; 6. a water circulation mechanism; 7. a condensing mechanism; 601. a first infusion tube; 602. a first water pump; 603. An activated carbon filter; 604. a first water storage tank; 605. a second infusion tube; 606. a second water pump; 607. A second water storage tank; 608. a third infusion tube; 609. a nozzle valve; 610. a sprinkler head; 611. a water inlet pipe; 701. a condensing shell; 702. a flue gas duct; 703. a condensate; 704. a third water pump; 705. a liquid outlet; 706. a fourth water pump; 707. and (4) a liquid inlet.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in figures 1-3, a high-efficiency filter device for flue gas dust removal comprises a high-efficiency filter device main body 1, wherein the lower end of the outer surface of one end of the high-efficiency filter device main body 1 is fixedly connected with a flue gas inlet 2, the middle part of the outer surface of one end of the high-efficiency filter device main body 1 is movably connected with a gas-liquid passing plate 3, the upper end of the outer surface of one end of the high-efficiency filter device main body 1 is movably connected with a filter plate 4, the inner surface of the upper end of the high-efficiency filter device main body 1 is fixedly connected with a group of mounting ports 5, the outer surface of the upper end of the high-efficiency filter device main body 1 is fixedly connected with a condensing mechanism 7, the inner surface of the upper end of the condensing mechanism 7 is fixedly connected with another group of mounting ports 5, and the outer surface of one end of the high-efficiency filter device main body 1 is detachably connected with a water circulation mechanism 6.

Further, the water circulation mechanism 6 includes a first infusion tube 601, a first water pump 602, an activated carbon filter 603, a first water storage tank 604, a second infusion tube 605, a second water pump 606, a second water storage tank 607, a third infusion tube 608, a nozzle valve 609, a sprinkler 610 and a water inlet tube 611, and the composition of the water circulation mechanism 6 is known.

Furthermore, two groups of first infusion tubes 601 are arranged and are respectively positioned on the inner surfaces of two ends of the first water pump 602, the activated carbon filters 603 are positioned on the inner wall of one group of first infusion tubes 601, the first water storage tank 604 is positioned on the outer wall of one end of one group of first infusion tubes 601, two groups of second infusion tubes 605 are arranged and are respectively positioned on the inner surfaces of the upper end and the lower end of the second water pump 606, one group of second infusion tubes 605 is positioned on the inner surface of the upper end of the first water storage tank 604, the second water storage tank 607 is positioned on the outer wall of the other group of second infusion tubes 605, the third infusion tube 608 is positioned on the inner wall of the second water storage tank 607, the spray head valve 609 is positioned on the outer wall of the third infusion tube 608, six groups of spray heads 610 are uniformly positioned on the outer surface of the lower end of the third infusion tube 608, and the water inlet tube 611 is positioned on the inner surface of the upper end of the second water storage tank 607, thereby facilitating the use of the water circulation mechanism 6.

Further, a mounting groove is arranged between the first infusion tube 601 and the first water pump 602, the outer wall of one end of the first infusion tube 601 is detachably connected with the inner surface of one end of the first water pump 602 through the mounting groove, the mounting groove is arranged between the first infusion tube 601 and the activated carbon filter 603, the inner wall of the first infusion tube 601 is detachably connected with the outer wall of the activated carbon filter 603 through the mounting groove, a fixing groove is arranged between the first infusion tube 601 and the first water storage tank 604, the outer wall of the first infusion tube 601 is fixedly connected with the inner surface of one end of the first water storage tank 604 through the fixing groove, a fixing groove is arranged between the first water storage tank 604 and the second infusion tube 605, the inner surface of the upper end of the first water storage tank 604 is fixedly connected with the outer wall of the second infusion tube 605 through the fixing groove, the mounting groove is arranged between the second infusion tube 605 and the second water pump 606, the outer wall of the second infusion tube 605 is detachably connected with the inner surface of the lower end of the second water pump 606 through the mounting groove, a fixing groove is arranged between the second infusion tube 605 and the second water storage tank 607 to absorb the water at the bottom of the high-efficiency filter device main body 1.

Further, the outer wall of the second infusion tube 605 is fixedly connected with the inner surface of the lower end of the second water storage tank 607 through a fixing groove, a fixing groove is arranged between the second water storage tank 607 and the third infusion tube 608, the inner surface of one end of the second water storage tank 607 is detachably connected with the outer wall of the third infusion tube 608 through a fixing groove, a fixing groove is arranged between the third infusion tube 608 and the spray head valve 609, the outer wall of the third infusion tube 608 is fixedly connected with the inner wall of the spray head valve 609 through a fixing groove, a fixing thread is arranged between the third infusion tube 608 and the spray head 610, the outer surface of the lower end of the third infusion tube 608 is detachably connected with the inner surface of the upper end of the spray head 610 through a fixing thread, a fixing groove is arranged between the second water storage tank 607 and the water inlet pipe 611, the inner surface of the upper end of the second water storage tank 607 is fixedly connected with the outer wall of the water inlet pipe 611 through a fixing groove, and the absorbed water is reused.

Further, the condensing mechanism 7 includes a condensing housing 701, a flue gas duct 702, a condensate 703, a third water pump 704, a liquid outlet 705, a fourth water pump 706 and a liquid inlet 707, the flue gas duct 702 is located on the inner wall of the two sets of mounting ports 5, the condensate 703 is located on the inner wall of the condensing housing 701, the third water pump 704 is located on the outer surface of one end of the flue gas duct 702, the fourth water pump 706 is located on the outer surface of one end of the condensing housing 701, the liquid outlet 705 is provided with two sets, and is located on the inner surfaces of one ends of the third water pump 704 and the fourth water pump 706 respectively, the liquid inlet 707 is located on the inner surface of the upper end of the condensing housing 701, and the condensing mechanism 7 is convenient to use.

Further, a mounting groove is arranged between the mounting port 5 and the flue gas pipeline 702, the inner wall of the mounting port 5 is detachably connected with the outer wall of the flue gas pipeline 702 through the mounting groove, a mounting groove is arranged between the flue gas pipeline 702 and the third water pump 704, the outer surface of one end of the flue gas pipeline 702 is detachably connected with the inner surface of one end of the third water pump 704 through the mounting groove, a mounting groove is arranged between the third water pump 704 and the liquid outlet 705, the inner surface of one end of the third water pump 704 is detachably connected with the outer wall of one end of the liquid outlet 705 through the mounting groove, a mounting groove is arranged between the condensing shell 701 and the fourth water pump 706, the outer surface of one end of the condensing shell 701 is detachably connected with the inner surface of one end of the fourth water pump 706 through the mounting groove, the outer surface of one end of the liquid outlet 705 is detachably connected with the inner surface of the other end of the fourth water pump 706 through the mounting groove, a fixing groove is formed between the condensation shell 701 and the liquid inlet 707, and the inner surface of the upper end of the condensation shell 701 is fixedly connected with the outer wall of the liquid inlet 707 through the mounting groove to condense water vapor in gas into water.

Principle of operation

The high-efficiency filtering device for dedusting flue gas comprises a high-efficiency filtering device main body 1, a flue gas inlet 2, a gas-liquid passing plate 3, a filtering plate 4, a mounting port 5, a water circulation mechanism 6 and a condensation mechanism 7, wherein the water circulation mechanism 6 comprises a first liquid conveying pipe 601, a first water pump 602, an activated carbon filter 603, a first water storage tank 604, a second liquid conveying pipe 605, a second water pump 606, a second water storage tank 607, a third liquid conveying pipe 608, a spray head valve 609, a spray head 610 and a water inlet pipe 611, the condensation mechanism 7 comprises a condensation shell 701, a flue gas pipeline 702, a condensate 703, a third water pump 704, a liquid outlet 705, a fourth water pump 706 and a liquid inlet 707, the second water storage tank 607 is filled with water through the water inlet pipe 611, flue gas is put into the high-efficiency filtering device main body 1 from the flue gas inlet 2, the spray head valve 609 is opened, water in the second water storage tank 607 is sprayed out from the spray head 610 through the third liquid conveying pipe 608, through continuous spraying, the gas flows down from holes of a gas-liquid passing plate 3, the gas flows upwards while water enters, smoke dust in the gas is moistened and only the gas passes through, the water flows to the bottom of the high-efficiency filtering device main body 1, a first water pump 602 is turned on after a period of time, the water is sucked into the first water storage tank 604 through the first infusion tube 601, the water is filtered by an activated carbon filter 603 when passing through the first infusion tube 601, when the water level in the first water storage tank 604 approximately reaches the upper part of a port of a second infusion tube 605, a second water pump 606 is started, the water in the first water storage tank 604 is conveyed into the second water storage tank 607 through the second infusion tube 605 again to form a circulation, the gas continuously flows upwards at the same time, the gas passes through the filtering plate 4 and enters from a gas pipeline 702, the water vapor in the gas is condensed into water by a condensate 703 in a condensing shell 701, and the water directly falls into the high-efficiency filtering device main body 1 through the gas pipeline 702, and some condensed water is remained at the bottom of the flue gas pipeline 702, the third water pump 704 is opened at the same time, the water remained at the bottom of the pipe is sucked out and then discharged through the liquid outlet 705, when the condensate 703 fails, the fourth water pump 706 is started to suck out the condensate 703 in the condensation shell 701 and then discharged through the other group of liquid outlet 705, and after the old condensate 703 is discharged, new condensate 703 is filled into the condensation shell 701 through the liquid inlet 707, so that a new round of work can be performed.

It is noted that, herein, relational terms such as first and second (a, b, etc.) and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A high efficiency filter device for flue gas dust removal, includes high efficiency filter device main part (1), its characterized in that: the efficient filtering device is characterized in that the lower end of the outer surface of one end of the efficient filtering device body (1) is fixedly connected with a smoke inlet (2), the middle part of the outer surface of one end of the efficient filtering device body (1) is movably connected with a gas-liquid passing plate (3), the upper end of the outer surface of one end of the efficient filtering device body (1) is movably connected with a filtering plate (4), the inner surface of the upper end of the efficient filtering device body (1) is fixedly connected with a group of mounting ports (5), the outer surface of the upper end of the efficient filtering device body (1) is fixedly connected with a condensing mechanism (7), the inner surface of the upper end of the condensing mechanism (7) is fixedly connected with another group of mounting ports (5), and the outer surface of one end of the efficient filtering device body (1) is detachably connected with a water circulation mechanism (6).

2. A high efficiency filtration device for flue gas dust removal as claimed in claim 1, wherein: the water circulation mechanism (6) comprises a first infusion tube (601), a first water pump (602), an activated carbon filter (603), a first water storage tank (604), a second infusion tube (605), a second water pump (606), a second water storage tank (607), a third infusion tube (608), a spray head valve (609), a spray head (610) and a water inlet tube (611).

3. A high efficiency filter device for flue gas dust removal as set forth in claim 2, wherein: the first infusion tubes (601) are provided with two groups and are respectively positioned on the inner surfaces of two ends of a first water pump (602), the activated carbon filters (603) are positioned on the inner wall of a group of first infusion tubes (601), the first water storage tank (604) is positioned on the outer wall of one end of a group of first infusion tubes (601), the second infusion tubes (605) are provided with two groups and are respectively positioned on the inner surfaces of the upper and lower ends of a second water pump (606), a group of second infusion tubes (605) is positioned on the inner surface of the upper end of the first water storage tank (604), the second water storage tank (607) is positioned on the outer wall of the other group of second infusion tubes (605), the third infusion tube (608) is positioned on the inner wall of the second water storage tank (607), the spray head valve (609) is positioned on the outer wall of the third infusion tube (608), the spray head (610) is provided with six groups and is uniformly positioned on the outer surface of the lower end of the third infusion tube (608), the water inlet pipe (611) is positioned on the inner surface of the upper end of the second water storage tank (607).

4. A high efficiency filter assembly for flue gas dust removal as set forth in claim 3, wherein: a mounting groove is formed between the first infusion tube (601) and the first water pump (602), the outer wall of one end of the first infusion tube (601) is detachably connected with the inner surface of one end of the first water pump (602) through the mounting groove, a mounting groove is formed between the first infusion tube (601) and the activated carbon filter (603), the inner wall of the first infusion tube (601) is detachably connected with the outer wall of the activated carbon filter (603) through the mounting groove, a fixing groove is formed between the first infusion tube (601) and the first water storage tank (604), the outer wall of the first infusion tube (601) is fixedly connected with the inner surface of one end of the first water storage tank (604) through the fixing groove, a fixing groove is formed between the first water storage tank (604) and the second infusion tube (605), the inner surface of the upper end of the first water storage tank (604) is fixedly connected with the outer wall of the second water storage tank (605) through the fixing groove, a mounting groove is formed between the second infusion tube (605) and the second water pump (606), the outer wall of the second infusion tube (605) is detachably connected with the inner surface of the lower end of the second water pump (606) through the mounting groove, and a fixing groove is formed between the second infusion tube (605) and the second water storage tank (607).

5. A high efficiency filtration device for flue gas dust removal as claimed in claim 4, wherein: the outer wall of the second infusion tube (605) is fixedly connected with the inner surface of the lower end of the second water storage tank (607) through a fixing groove, a fixing groove is arranged between the second water storage tank (607) and a third infusion tube (608), the inner surface of one end of the second water storage tank (607) is detachably connected with the outer wall of the third infusion tube (608) through a fixing groove, a fixing groove is arranged between the third infusion tube (608) and a spray head valve (609), the outer wall of the third infusion tube (608) is fixedly connected with the inner wall of the spray head valve (609) through a fixing groove, a fixing thread is arranged between the third infusion tube (608) and a spray head (610), the outer surface of the lower end of the third infusion tube (608) is detachably connected with the inner surface of the upper end of the spray head (610) through a fixing thread, a fixing groove is arranged between the second water storage tank (607) and a water inlet tube (611), the inner surface of the upper end of the second water storage tank (607) is fixedly connected with the outer wall of the water inlet pipe (611) through a fixing groove.

6. A high efficiency filtration device for flue gas dust removal as claimed in claim 1, wherein: condensation mechanism (7) is including condensation shell (701), flue gas pipeline (702), condensate (703), third water pump (704), liquid outlet (705), fourth water pump (706) and inlet (707), flue gas pipeline (702) is located the inner wall of two sets of installing port (5), condensate (703) is located the inner wall of condensation shell (701), third water pump (704) is located the one end surface of flue gas pipeline (702), fourth water pump (706) is located the one end surface of condensation shell (701), liquid outlet (705) are provided with two sets ofly, and are located the one end internal surface of third water pump (704) and fourth water pump (706) respectively, inlet (707) is located the upper end internal surface of condensation shell (701).

7. A high efficiency filtration device for flue gas dust removal as claimed in claim 6, wherein: the installation groove is arranged between the installation port (5) and the flue gas pipeline (702), the inner wall of the installation port (5) is detachably connected with the outer wall of the flue gas pipeline (702) through the installation groove, the installation groove is arranged between the flue gas pipeline (702) and the third water pump (704), the outer surface of one end of the flue gas pipeline (702) is detachably connected with the inner surface of one end of the third water pump (704) through the installation groove, the installation groove is arranged between the third water pump (704) and the liquid outlet (705), the inner surface of one end of the third water pump (704) is detachably connected with the outer wall of one end of the liquid outlet (705) through the installation groove, the installation groove is arranged between the condensation shell (701) and the fourth water pump (706), the outer surface of one end of the condensation shell (701) is detachably connected with the inner surface of one end of the fourth water pump (706) through the installation groove, and the installation groove is arranged between the liquid outlet (705) and the fourth water pump (706), the outer surface of one end of the liquid outlet (705) is detachably connected with the inner surface of the other end of the fourth water pump (706) through a mounting groove, a fixing groove is formed between the condensation shell (701) and the liquid inlet (707), and the inner surface of the upper end of the condensation shell (701) is fixedly connected with the outer wall of the liquid inlet (707) through the mounting groove.

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