CN114471052A - Power plant's intelligent clean system of coal dust for power generation - Google Patents

Abstract

An intelligent coal dust purification system for power generation of a power plant comprises a case, wherein one side of the case is fixedly communicated with an air inlet cylinder and an ash storage pool arranged on the other side; the dust removal chamber for filtering coal dust in the air is arranged in the case; the purifying chamber for purifying coal dust is arranged in the case, and the purifying chamber and the dust removing chamber are distributed in parallel; the spraying assembly for removing residual coal dust in the air is arranged at the top end of the purifying chamber; the dust scraping component for removing coal dust at the bottom of the case is arranged at the bottom end of the purifying chamber. According to the coal dust intelligent purification system, the dust settling and removing device of the dust settling chamber, the spraying assembly, the water collecting tank and the water filtering plate are arranged, coal dust in air is diluted in a water bath through the spraying assembly, a mixture of water and coal dust falls to the bottom of the purification chamber, water flows into the water collecting tank through the water filtering plate to be recycled, water resources are saved, the impeller is rotated by utilizing atmospheric pressure, and coal dust accumulated on the surface of the water filtering plate is scraped by the dust scraping assembly and enters the dust storage tank.

Description

Power plant's electricity generation is with intelligent clean system of coal dust

Technical Field

The invention relates to the technical field of coal dust purification systems, in particular to an intelligent coal dust purification system for power plant power generation.

Background

The development of the power industry is further promoted along with the improvement of the living standard, wherein thermal power generation is one of indispensable power generation modes in the development of the current power industry, so that heat can be generated by burning coal and further converted into electric energy, and the electric energy can be further conveyed to thousands of households.

At present, most of dust treatment modes are treated by sprinkling water, wherein continuous sprinkling is needed in the process of treating dust by utilizing the sprinkling water, and continuous sprinkling is needed in the whole power plant area, so that the waste of a large amount of water resources is caused, the dust treatment modes by sprinkling water are not suitable for treating dust, and the existing used dust cleaning equipment has not good effect on cleaning indoor dust.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides an intelligent coal dust purification system for power generation of a power plant.

In order to achieve the purpose, the invention adopts the following technical scheme:

an intelligent coal dust purification system for power generation of a power plant comprises a case, wherein one side of the case is fixedly communicated with an air inlet cylinder and an ash storage pool arranged on the other side; the dust removal chamber for filtering coal dust in the air is arranged in the case; the purifying chamber for purifying coal dust is arranged in the case, and the purifying chamber and the dust removing chamber are distributed in parallel; the spraying assembly for removing residual coal dust in the air is arranged at the top end of the purifying chamber; the dust scraping component for removing coal dust at the bottom of the case is arranged at the bottom end of the purifying chamber.

Specifically, install negative wind pressure unit in the air inlet section of thick bamboo, the fixed intercommunication in clean room one side has the clean room, machine case one side bottom is fixed with the header tank, the drainage board is installed on the header tank top, the fixed intercommunication in clean room one side has the ash storage pond, the clean room is close to ash storage pond one side below and rotates and move the connection impeller, ash storage pond top is equipped with sealed lid, is equipped with the vent on it, quick-witted case side-mounting has trachea and water pipe.

Specifically, the clean room includes first mounting panel, first mounting panel one side fixedly connected with is two strain the dirt board, install two in the clean room the bar groove, two bar inslot wall is equipped with the brush, two be provided with a plurality of ventilation hole on the bar groove, strain the dirt board and run through the bar groove and be located the clean room inside, strain the inside cavity of having seted up of dirt board, install shake mechanism in it.

Specifically, shake mechanism is including straining dirt board, spout, the spout is installed in straining dirt board, be equipped with the gasbag in the spout, the gasbag is connected with the trachea, the gasbag left side is equipped with first slider, and slides with the spout and set up, first slider is connected with first spring in the one side of keeping away from the gasbag, and the other end and the straining dirt board fixed connection of first spring, the pulley is installed to the spout below, be provided with on the pulley and connect the rope, connect the one end and the straining dirt board fixed connection of rope, it is connected with the second slider to connect the rope other end, and the other end fixedly connected with second spring of second slider, the second spring is keeping away from the one end and the straining dirt board fixed connection of second slider.

Specifically, the spraying subassembly includes second mounting panel, basin, atomising head, apopore, pull rod and third slider, the second mounting panel is installed in the purifying chamber, the atomising head is installed at second mounting panel lower wall, the basin is seted up in the second mounting panel, five the apopore is seted up at the basin inside wall, and sets up with the third slider interval, the pull rod is connected with five the third slider, apopore and water piping connection.

Specifically, scrape dirt subassembly and include pivot, conveyer belt, through-hole, scraper blade and lead to the groove, two the pivot is installed on the clean room inner wall, the conveyer belt is installed in two pivots, a plurality of through-hole has been seted up on the conveyer belt, the scraper blade is installed on the conveyer belt, logical groove has been seted up to the scraper blade.

Specifically, be connected with the transfer line in the pivot of burden wind pressure unit, the first gear of transfer line top fixedly connected with, first gear engagement is connected with first gear, first gear connection has the gag lever post between the first gear, fixedly connected with bull stick on the second gear.

Specifically, the impeller and the dust scraping component are meshed, and the air pressure in the purification chamber is increased to enable the impeller to rotate so as to drive the dust scraping component to rotate.

Specifically, every the atomising head is provided with one-way hole, every the apopore is provided with one-way hole, the water pipe inlet opening is provided with one-way hole, and the one-way hole direction that inlet opening and apopore set up is unanimous.

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

1. according to the intelligent coal dust purification system for power generation of the power plant, the negative wind pressure unit is started, so that coal dust enters the interior of the case through the air inlet cylinder and is adsorbed on the dust filter plate through the dust removal chamber, the air pressure in the purification chamber is increased when the negative wind pressure unit is started, the air bag in the chute is deformed through the air pipe to push the sliding block, the first sliding block compresses the first spring to push the dust filter plate to slide, the pulley arranged below the chute pulls the second sliding block through the connecting rope on the pulley, the second sliding block stretches the second spring to enable the dust filter plate to slide back and forth, and the dust filter plate is in contact with the hairbrush to rub and remove the dust filter plate, so that automatic dust removal is achieved.

2. According to the intelligent coal dust purification system for power generation of the power plant, the spraying assembly, the water collection tank and the water filtering plate are arranged, coal dust in air is diluted in a water bath through the spraying assembly, the mixture of water and coal dust falls to the bottom of the purification chamber under the influence of gravity, water flows into the water collection tank through the water filtering plate to recycle water resources, the impeller is rotated by utilizing atmospheric pressure, and the impeller and the dust scraping assembly are meshed to enable the dust scraping assembly to scrape coal dust accumulated on the surface of the water filtering plate to enter the dust storage tank.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of the overall structure of an intelligent purification system for coal dust for power generation in a power plant according to a preferred embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of the intelligent purification system for coal dust for power generation of the power plant shown in FIG. 1;

FIG. 3 is a schematic structural view of the dust scraping assembly shown in FIG. 2;

FIG. 4 is a schematic structural diagram of a dust filter in an intelligent purification system for coal dust for power generation in a power plant;

FIG. 5 is a schematic view of the interior of the dust filter shown in FIG. 4;

FIG. 6 is a schematic view of the gear shown in FIG. 2;

FIG. 7 is a schematic structural diagram of a spraying component in an intelligent purification system for coal dust for power generation of a power plant.

In the figure: 1 machine box, 2 air inlet drums, 3 dust chambers, 301 first mounting plate, 302 dust filter plate, 303 strip-shaped groove, 304 brush, 305 sliding groove, 306 air bag, 307 first sliding block, 308 first spring, 309 pulley, 310 connecting rope, 311 second sliding block, 312 second spring, 4 purifying chamber, 5 spraying component, 501 second mounting plate, 502 water tank, 503 spraying head, 504 water outlet hole, 505 pull rod, 506 third sliding block, 6 dust scraping component, 601 rotating shaft, 602 conveying belt, 603 through hole, 604 scraping plate, 605 through groove, 7 negative air pressure machine set, 8 dust storage tank, 9 water collecting tank, 10 water filter plate, 11 impeller, 12 air pipe, 13 water pipe, 14 transmission rod, 15 first gear, 16 second gear, 17 limiting rod, 18 rotating rod.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-7, the intelligent purification system for coal dust for power generation of a power plant of the present invention comprises a cabinet 1, a dust removal chamber 3, a purification chamber 4, a spraying assembly 5 and a dust scraping assembly 6.

Install burden wind pressure unit 7 in the air inlet section of thick bamboo 2, 3 one sides of clean room are fixed the intercommunication has clean room 4, 1 one side bottom of quick-witted case is fixed with header tank 9, water filter plate 10 is installed on the header tank 9 top, 4 one sides of clean room are fixed the intercommunication has ash storage tank 8, clean room 4 is close to ash storage tank 8 one side below and rotates and move connection impeller 11, ash storage tank 8 top is equipped with sealed lid, is equipped with the vent on it, 1 side-mounting of quick-witted case has trachea 12 and water pipe 13.

In the concrete implementation in-process, as shown in fig. 1, fig. 2 and fig. 3, the fixed intercommunication in 1 one side of machine case has an air inlet section of thick bamboo 2 and sets up the ash storage tank 8 at the opposite side, a clean room 3 for coal dust in the filtered air sets up in machine case 1, and clean room 3 includes first mounting panel 301, two dust filter boards 302 of first mounting panel 301 one side fixedly connected with, install two bar grooves 303 in the clean room 3, two bar groove 303 inside walls are equipped with brush 304, be provided with a plurality of ventilation hole on two bar grooves 303, dust filter board 302 runs through bar groove 303 and is located inside clean room 4, the inside cavity of having seted up of dust filter board 302, install shake mechanism in it.

Wherein, the shaking mechanism includes dust filter plate 302, spout 305 is installed in dust filter plate 302, be equipped with gasbag 306 in the spout 305, gasbag 306 is connected with trachea 12, gasbag 306 left side is equipped with first slider 307, and slide with spout 305 and set up, first slider 307 is connected with first spring 308 in the one side of keeping away from gasbag 306, and the other end and the dust filter plate 302 fixed connection of first spring 308, pulley 309 is installed to spout 305 below, be provided with connecting rope 310 on the pulley 309, the one end and the dust filter plate 302 fixed connection of connecting rope 310, the connecting rope 310 other end is connected with second slider 311, and the other end fixed connection of second slider 311 has second spring 312, second spring 312 is keeping away from the one end and the dust filter plate 302 fixed connection of second slider 311.

It should be noted that: the negative wind pressure unit 7 in the air inlet cylinder 2 is started to generate suction force, so that air flows to the machine case, coal dust in the air is adsorbed on the dust filter plate 302 when the air passes through the dust removal chamber 3, the purified air enters the purification chamber 4, the air pressure of the purification chamber 4 is increased in a sealed mode, the air bag 306 is deformed by the air flow through the air pipe 12 to push the first sliding block 307, the first sliding block 307 compresses the first spring 308 to push the dust filter plate 302 to slide, the pulley 309 is arranged below the sliding groove 305, the connecting rope 310 on the pulley pulls the second sliding block 311, the second sliding block 311 stretches the second spring 312, the dust filter plate 302 slides back and forth through elastic deformation, the dust filter plate 302 is in contact friction with the brush 304, and the coal dust adsorbed on the dust filter plate 302 is removed to achieve an automatic dust removal effect.

Referring to fig. 2, 6 and 7, the spray assembly 5 includes a second mounting plate 501, a water tank 502, a spray head 503, water outlets 504, a pull rod 505 and a third slider 506, the second mounting plate 501 is mounted in the clean room 4, the spray head 503 is mounted on the lower wall of the second mounting plate 501, the water tank 502 is disposed in the second mounting plate 501, five water outlets 504 are disposed on the inner side wall of the water tank 502 and spaced from the third slider 506, the pull rod 505 is connected to five third sliders 506, and the water outlets 504 are connected to the water pipe 13.

Wherein, be connected with transfer line 14 in the pivot of negative wind pressure unit 7, the top fixedly connected with first gear 15 of transfer line 14, first gear 15 meshing is connected with second gear 16, and second gear 16 is connected with gag lever post 17 between first gear 15, and fixedly connected with bull stick 18 on the second gear 16.

Wherein, each spray head 503 is provided with a one-way hole, each water outlet 504 is provided with a one-way hole, the water inlet of the water pipe 13 is provided with a one-way hole, and the direction of the water inlet is consistent with that of the one-way hole provided by the water outlet 504.

It should be noted that: when air flows out of the dust removal chamber 3, residual coal dust in the air enters the purification chamber 4, the rotating shaft of the negative wind pressure unit 7 rotates to enable the pull rod 505 to do reciprocating motion through transmission, the third sliding block 506 arranged on the pull rod 505 slides in the water tank 502 to enable the pressure in the water tank 502 to be reduced to generate suction, water in the water collection tank 9 is pumped into the water tank 502 through the water pipe 13, the water inlet hole and the water outlet hole 504 of the water pipe 13 are both provided with one-way holes to prevent water from flowing backwards, water in the water tank 502 is diluted in a coal dust water bath in the air through the spray head 503 and falls at the bottom of the purification chamber 4 under the influence of gravity, and the water flows into the water collection tank 9 through the water filter plate 10 to recycle water resources.

Referring to fig. 2 and 3, the dust scraping assembly 6 includes a rotating shaft 601, a conveyor belt 602, through holes 603, a scraper 604 and a through slot 605, the two rotating shafts 601 are installed on the inner wall of the clean room 4, the conveyor belt 602 is installed on the two rotating shafts 601, the conveyor belt 602 is provided with a plurality of through holes 603, the scraper 604 is installed on the conveyor belt 602, and the scraper 604 is provided with the through slot 605.

Wherein, the impeller 11 is meshed with the dust scraping component 6, and the air pressure in the purifying chamber 4 is increased to make the impeller 11 rotate to drive the dust scraping component 6 to rotate.

It should be noted that: the negative wind pressure unit 7 in the air inlet cylinder 2 is started to generate suction force, so that air flows to the case, the air enters the purifying chamber 4, the closed air pressure of the purifying chamber 4 is increased, the impeller 11 is forced to rotate by utilizing the atmospheric pressure, the impeller and the 11 are meshed with the dust scraping component 6, the dust scraping component 6 rotates to enable the scraper 604 to scrape coal dust accumulated on the surface of the water filtering plate 302 and enter the dust storage tank 8, the scraper 604 is provided with the through groove 605, the water is prevented from being scraped into the dust storage tank 8 by the scraper 604, and the water and coal dust mixture falls to the bottom of the purifying chamber 4 through the through hole 603 formed in the 602 conveyor belt.

The specific implementation and operation method of the intelligent coal dust purification system for power generation of the power plant comprises the following steps:

1. dust settling and removing: the negative wind pressure unit 7 in the air inlet cylinder 2 is started to generate suction force, so that air flows into the case, coal dust in the air is adsorbed on the dust filter plate 302 when the air passes through the dust removing chamber 3, the purified air enters the purifying chamber 4, the air pressure of the purifying chamber 4 is increased in a sealed mode, the air bag 306 is deformed through the air pipe 12 to push the first slide block 307, the first slide block 307 compresses the first spring 308 to push the dust filter plate 302 to slide, the pulley 309 is arranged below the sliding groove 305, the connecting rope 310 on the pulley pulls the second slide block 311, the second spring 312 is stretched by the second slide block 311, the dust filter plate 302 slides back and forth through elastic deformation, the dust filter plate 302 is in contact friction with the brush 304, and the coal dust adsorbed on the dust filter plate 302 is removed to achieve automatic dust removal.

2. Purifying air: when air flows out of the dust removal chamber 3, residual coal dust in the air enters the purification chamber 4, the rotating shaft of the negative wind pressure unit 7 rotates to enable the pull rod 505 to do reciprocating motion through transmission, the third sliding block 506 arranged on the pull rod 505 slides in the water tank 502 to enable the pressure in the water tank 502 to be reduced to generate suction, water in the water collection tank 9 is pumped into the water tank 502 through the water pipe 13, the water inlet hole and the water outlet hole 504 of the water pipe 13 are both provided with one-way holes to prevent water from flowing backwards, water in the water tank 502 is diluted in a coal dust water bath in the air through the spray head 503 and falls at the bottom of the purification chamber 4 under the influence of gravity, and the water flows into the water collection tank 9 through the water filter plate 10 to recycle water resources.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides an intelligent clean system of power plant's power generation with coal dust which characterized in that includes:

the device comprises a case (1), wherein one side of the case (1) is fixedly communicated with an air inlet cylinder (2) and an ash storage pool (8) arranged on the other side;

the dust removal chamber (3) is used for filtering coal dust in air, and the dust removal chamber (3) is arranged in the case (1);

the purifying chamber (4) is used for purifying the coal dust, the purifying chamber (4) is arranged in the case (1), and the purifying chamber (4) and the dust removing chamber (3) are distributed in parallel;

the spraying assembly (5) is used for removing residual coal dust in the air, and the spraying assembly (5) is arranged at the top end of the purifying chamber (4);

and the dust scraping component (6) is used for removing coal dust at the bottom of the case (1), and the dust scraping component (6) is arranged at the bottom end of the purifying chamber (4).

2. The intelligent coal dust purification system for power generation of power plant of claim 1, characterized in that a negative wind pressure unit (7) is installed in the air inlet cylinder (2), a clean room (4) is fixedly communicated with one side of the clean room (3), a water collecting tank (9) is fixedly arranged at the bottom of one side of the machine case (1), a water filtering plate (10) is installed at the top end of the water collecting tank (9), an ash storage pool (8) is fixedly communicated with one side of the clean room (4), the clean room (4) is close to the lower part of one side of the ash storage pool (8) and is rotatably connected with an impeller (11), a sealing cover is arranged at the top of the ash storage pool (8), a ventilation opening is formed in the top of the ash storage pool, and an air pipe (12) and a water pipe (13) are installed on the side surface of the machine case (1).

3. The intelligent purification system for the coal dust for power generation of the power plant as claimed in claim 1, wherein: dust removal chamber (3) include first mounting panel (301), first mounting panel (301) one side fixedly connected with is two strain dirt board (302), install two in dust removal chamber (3) bar groove (303), two bar groove (303) inside wall is equipped with brush (304), two be provided with a plurality of ventilation hole on bar groove (303), strain dirt board (302) and run through bar groove (303) and be located clean room (4) inside, strain inside cavity of having seted up of dirt board (302), install shake mechanism in it.

4. The intelligent purification system for the coal dust for power generation of the power plant as claimed in claim 2, characterized in that: the shaking mechanism comprises a dust filtering plate (302) and a sliding groove (305), the sliding groove (305) is installed in the dust filtering plate (302), an air bag (306) is arranged in the sliding groove (305), the air bag (306) is connected with an air pipe (12), a first sliding block (307) is arranged on the left side of the air bag (306) and is arranged in a sliding mode with the sliding groove (305), one side, far away from the air bag (306), of the first sliding block (307) is connected with a first spring (308), the other end of the first spring (308) is fixedly connected with the dust filtering plate (302), a pulley (309) is installed below the sliding groove (305), a connecting rope (310) is arranged on the pulley (309), one end of the connecting rope (310) is fixedly connected with the dust filtering plate (302), the other end of the connecting rope (310) is connected with a second sliding block (311), and the other end of the second sliding block (311) is fixedly connected with a second spring (312), the second spring (312) is fixedly connected with the dust filter plate (302) at one end far away from the second sliding block (311).

5. The intelligent purification system for the coal dust for power generation of the power plant as claimed in claim 1, wherein: spraying subassembly (5) include second mounting panel (501), basin (502), atomising head (503), apopore (504), pull rod (505) and third slider (506), install in clean room (4) second mounting panel (501), atomising head (503) are installed at second mounting panel (501) lower wall, establish in second mounting panel (501) basin (502), five apopore (504) are seted up in basin (502) inside wall, and are set up with third slider (506) interval, pull rod (505) are connected with five third slider (506), apopore (504) are connected with water pipe (13).

6. The intelligent purification system for the coal dust for power generation of the power plant as claimed in claim 1, wherein: scrape dirt subassembly (6) including pivot (601), conveyer belt (602), through-hole (603), scraper blade (604) and logical groove (605), two pivot (601) are installed on clean room (4) inner wall, install on two pivot (601) conveyer belt (602), a plurality of through-hole (603) have been seted up on conveyer belt (602), scraper blade (604) are installed on conveyer belt (602), logical groove (605) have been seted up to scraper blade (604).

7. A power plant's intelligent clean system of coal dust for electricity generation of claim 1, characterized in that, be connected with transfer line (14) in the pivot of negative wind pressure unit (7), transfer line (14) top fixedly connected with first gear (15), first gear (15) meshing is connected with second gear (16), second gear (16) are connected with gag lever post (17) between first gear (15), fixedly connected with bull stick (18) on second gear (16).

8. A power plant power generation coal dust intelligent purification system according to claim 2, characterized in that the impeller (11) is engaged with the dust scraping component (6), and the increase of the air pressure in the purification chamber (4) causes the impeller (11) to rotate to drive the dust scraping component (6) to rotate.

9. The intelligent purification system for coal dust for power generation of a power plant according to claim 2, wherein each spray head (503) is provided with a one-way hole, each water outlet hole (504) is provided with a one-way hole, the water inlet hole of the water pipe (13) is provided with a one-way hole, and the direction of the water inlet hole is consistent with the direction of the one-way hole of the water outlet hole (504).

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