阅读说明：本技术 一种自调节水平高度大气脱硝装置及其脱硝方法 (Self-adjusting horizontal height atmosphere denitration device and denitration method thereof ) 是由 冯玄 于 2021-09-15 设计创作，主要内容包括：本发明公开了一种自调节水平高度大气脱硝装置及其脱硝方法,涉及大气脱硝装置技术领域。该自调节水平高度大气脱硝装置,包括固定底板机构,所述固定底板机构的顶端靠近中心的位置固定连接有密封罩机构,所述密封罩机构的内壁靠近顶端的位置固定连接有螺旋出气挡板,所述螺旋出气挡板的外壁通过设置的密封罩机构与固定底板机构的外壁活动连接,所述密封罩机构的底端固定连接有过滤机构。该自调节水平高度大气脱硝装置及其脱硝方法,通过吸附的方式将大气中的硝吸附到电磁吸附线圈上,并且可以在该装置运行过程中,暂停局部位置进行对硝的收集,防止吸附过盛导致的溢出,该装置脱硝比较完全,比较方便使用。(The invention discloses an atmosphere denitration device with a self-adjusting horizontal height and a denitration method thereof, and relates to the technical field of atmosphere denitration devices. This self-interacting level atmosphere denitrification facility, including PMKD mechanism, the top of PMKD mechanism is close to the position fixedly connected with sealed cowling mechanism at center, the inner wall of sealed cowling mechanism is close to the position fixedly connected with spiral baffle of giving vent to anger on top, the outer wall swing joint of the sealed cowling mechanism that the outer wall of baffle was given vent to anger through setting up and PMKD mechanism, the bottom fixedly connected with filter equipment of sealed cowling mechanism. This self-interacting level height atmosphere denitrification facility and denitration method thereof, through the mode of absorption with the nitre in the atmosphere adsorb the electromagnetic adsorption coil on to can be at the device operation in-process, the collection to the nitre is carried out to the pause local position, prevents to adsorb the overflow that leads to excessively, the device denitration is more complete, more facilitates the use.)

1. The utility model provides a self-interacting level atmosphere denitrification facility, includes PMKD mechanism (1), its characterized in that: the top of PMKD mechanism (1) is close to the position fixedly connected with sealed cowling mechanism (2) at center, the inner wall of sealed cowling mechanism (2) is close to the position fixedly connected with spiral air outlet baffle (4) on top, the outer wall swing joint of sealed cowling mechanism (2) and PMKD mechanism (1) that the spiral air outlet baffle (4) was given vent to anger through the setting, the bottom fixedly connected with filter equipment (3) of sealed cowling mechanism (2), the outer wall fixed connection of sealed cowling mechanism (2) and PMKD mechanism (1) that the outer wall of filter equipment (3) is through the setting.

2. The self-adjusting level atmosphere denitration device of claim 1, wherein: the structure of the fixed bottom plate mechanism (1) comprises a first fixed plate (11) and an air inlet hole (12), the air inlet hole (12) is formed in the position, close to the center, of the outer wall of the first fixed plate (11), and the air inlet hole (12) penetrates through the first fixed plate (11).

3. The self-adjusting level atmosphere denitration device of claim 2, wherein: the structure of the sealing cover mechanism (2) comprises a fixed cover (21), an air outlet hole (22), a liquid inlet groove (23), a liquid outlet groove (24) and an atomizer (25), the top end of the first fixing plate (11) is fixedly connected with a fixing cover (21), the top end of the fixing cover (21) close to the center is fixedly connected with an air outlet hole (22), the inner wall of the air outlet hole (22) is communicated with the inner wall of the air inlet hole (12) through a fixed cover (21), a liquid inlet groove (23) is arranged on the outer wall of the fixed cover (21) near the bottom end, the inner wall of the liquid inlet groove (23) penetrates through the fixed cover (21), a liquid outlet groove (24) is arranged on the outer wall of the fixed cover (21) close to the bottom end, the inner wall of play liquid groove (24) runs through fixed cover (21), the position that the inner wall of fixed cover (21) is close to the bottom is provided with atomizing machine (25).

4. The self-adjusting level atmosphere denitration device of claim 2, wherein: the structure of the filtering mechanism (3) comprises a fixed column (31), a sliding groove (32), a sliding controller (33), a fixed barrel (34), a corrugated pipe (35) and an airflow baffle plate (36), wherein the inner wall of the air inlet hole (12) is fixedly connected with the fixed column (31), the sliding groove (32) is formed in the position, close to the top end, of the outer wall of the fixed column (31), the sliding controller (33) is movably connected with the inner wall of the sliding groove (32), the outer surface of the sliding controller (33) is movably connected with the outer wall of the fixed column (31) through the arranged sliding groove (32), the airflow baffle plate (36) is arranged on the outer wall of the sliding controller (33), the inner part of the airflow baffle plate (36) is communicated with the inner wall of the air inlet hole (12), the corrugated pipe (35) is fixedly connected with the bottom end of the airflow baffle plate (36), and the top end of the corrugated pipe (35) is movably connected with the outer wall of the fixed column (31) through the arranged airflow baffle plate (36), the bottom end of bellows (35) fixedly connected with fixed bucket (34), the top of fixed bucket (34) is through bellows (35) and the outer wall swing joint of air current fender (36) that set up, the bottom of fixed bucket (34) and the top fixed connection of first fixed plate (11).

5. The self-adjusting level atmosphere denitration device of claim 4, wherein: the outer wall of the sliding controller (33) is fixedly connected with an adsorption mechanism (38) at a position close to the airflow baffle plate (36), one side of the adsorption mechanism (38) is movably connected with the outer wall of the fixed column (31) through a sliding controller (33), the other side of the adsorption mechanism (38) is fixedly connected with the inner wall of the fixed cover (21), the position of the outer wall of the sliding controller (33) close to the airflow baffle plate (36) is fixedly connected with a reaction mechanism (37), one side of the reaction mechanism (37) is movably connected with the outer wall of the fixed column (31) through a sliding controller (33), the other side of the reaction mechanism (37) is fixedly connected with the inner wall of the fixed cover (21), a movable baffle (39) is arranged on the outer wall of the sliding controller (33) close to the airflow baffle (36), the outer wall of the movable baffle (39) is movably connected with the inner wall of the airflow baffle (36) through a sliding controller (33).

6. The self-adjusting level atmosphere denitration device of claim 5, wherein: the reaction mechanism (37) comprises a second fixing plate (371), a third fixing plate (372), a rotating shaft (373) and rotating blades (374), wherein the outer wall of the second fixing plate (371) is provided with a vent hole, the inner wall of the vent hole is fixedly connected with the third fixing plate (372), the outer wall of the third fixing plate (372) is movably connected with the rotating shaft (373), the outer wall of the rotating shaft (373) is movably connected with the outer wall of the second fixing plate (371) through the set third fixing plate (372), the outer wall of the rotating shaft (373) is fixedly connected with the rotating blades (374), and the outer wall of the rotating blades (374) is movably connected with the outer wall of the third fixing plate (372) through the set rotating shaft (373).

7. The self-adjusting level atmosphere denitration device of claim 5, wherein: the structure of adsorption mechanism (38) includes fourth fixed plate (381), electromagnetic adsorption coil (382), connects rope (383) and vibrations mechanism (384), the outer wall of fourth fixed plate (381) is close to the position fixedly connected with on top and connects rope (383), the outer wall fixedly connected with of connecting rope (383) shakes mechanism (384), the outer wall swing joint of the outer wall of vibrations mechanism (384) through the connection rope (383) that sets up and fourth fixed plate (381), the position that the outer wall of fourth fixed plate (381) is close to the bottom is provided with electromagnetic adsorption coil (382), the outer wall of electromagnetic adsorption coil (382) is through the fourth fixed plate (381) that sets up and the outer wall swing joint of vibrations mechanism (384).

8. The self-adjusting level atmosphere denitration device of claim 7, wherein: the structure of vibrations mechanism (384) includes fixed block (3841), rotates hemisphere (3842) and activity shake pole (3843), the position fixedly connected with rotation hemisphere (3842) that the inner wall of fixed block (3841) is close to the top, the outer wall swing joint that rotates hemisphere (3842) has the activity to shake pole (3843), the activity shakes the outer wall of pole (3843) and rotates the inner wall swing joint of hemisphere (3842) and fixed block (3841) through setting up.

9. A denitration method of an atmosphere denitration device with a self-adjusting horizontal height is characterized by comprising the following steps: comprises the following steps of (a) carrying out,

s1: the denitration reducing agent is input into the atomizer (25) through the liquid inlet groove (23) and then turns into a fog state to rise, and meanwhile, the gas entering the inside of the gas inlet hole (12) meets the fog state denitration reducing agent to generate denitration reaction;

s2: the rotating blade (374) rotates to increase the mixing of the mist denitration reducing agent and the nitrate-containing atmosphere, so that a denitration reaction is fully generated;

s3: in the process that the airflow jacking vibration mechanism (384) continues to move upwards, the suction force generated by the electromagnetic adsorption coil (382) adsorbs the residual saltpeter in the atmosphere;

s4: the fixed block (3841) naturally falls to impact the electromagnetic adsorption coil (382), so that the saltpeter on the outer wall of the electromagnetic adsorption coil (382) falls off, and meanwhile, the electromagnetic force generated by the electromagnetic adsorption coil (382) enables the fixed block (3841) to vibrate, so that the electromagnetic adsorption coil (382) is driven to vibrate, and the saltpeter falling speed is increased;

s5: the fallen nitre is sucked and collected by the liquid outlet groove (24) through the top end of the atomizer (25).

Technical Field

The invention relates to the technical field of atmosphere denitration devices, in particular to an atmosphere denitration device with a self-adjusting horizontal height and a denitration method thereof.

Background

At present, in the production of enterprises such as thermal power generation, metal smelting, chemical engineering and the like, flue gas is generated due to coal-fired fuel or corresponding reaction; these fumes contain pollutants such as sulfur dioxide and nitrogen oxides, which have formed the major sources of atmospheric pollution. For removing sulfur dioxide from flue gas, various ways have been disclosed in the prior art, and various desulfurizing agents for absorbing sulfur dioxide from flue gas are also disclosed, such as limestone, quicklime and slaked lime as alkaline substances, and other materials including these substances. How to remove pollutants such as nitrogen oxides in flue gas, namely denitration, is still a technical problem to be solved at present.

In the prior art, ammonia is often used as a denitration agent, but the preparation of ammonia also needs high economic and environmental costs, so that the denitration cost is too high, and the problem of environmental protection is not enough when a large amount of reduction sulfur denitration agents are used.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the self-adjusting horizontal height atmosphere denitration device and the denitration method thereof.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a self-interacting level atmosphere denitrification facility, includes PMKD mechanism, the top of PMKD mechanism is close to the position fixedly connected with sealed cowling mechanism at center, the inner wall of sealed cowling mechanism is close to the position fixedly connected with spiral baffle of giving vent to anger on top, the outer wall swing joint of the sealed cowling mechanism that the outer wall of baffle was given vent to anger through setting up and PMKD mechanism, the bottom fixedly connected with filter equipment of sealed cowling mechanism, the outer wall fixed connection of seal cowling mechanism and PMKD mechanism of filter equipment's outer wall through the sealed cowling mechanism that sets up.

Preferably, the structure of the fixed base plate mechanism comprises a first fixed plate and an air inlet, the air inlet is formed in the position, close to the center, of the outer wall of the first fixed plate, and the air inlet penetrates through the first fixed plate.

Preferably, the structure of sealed cowling mechanism includes fixed cover, venthole, feed liquor groove, liquid groove and atomizer, the fixed cover of top fixedly connected with of first fixed plate, the top of fixed cover is close to the position fixedly connected with venthole at center, the inner wall of venthole link up through the fixed cover that sets up and the inner wall of inlet port, the position that the outer wall of fixed cover is close to the bottom is provided with the feed liquor groove, the inner wall in feed liquor groove runs through fixed cover, the position that the outer wall of fixed cover is close to the bottom is provided with the liquid groove, the inner wall in liquid groove runs through fixed cover, the position that the inner wall of fixed cover is close to the bottom is provided with the atomizer.

Preferably, the structure of the filtering mechanism comprises a fixed column, a sliding groove, a sliding controller, a fixed barrel, a corrugated pipe and an airflow baffle plate, wherein the inner wall of the air inlet is fixedly connected with the fixed column, the position of the outer wall of the fixed column, which is close to the top end, is provided with the sliding groove, the inner wall of the sliding groove is movably connected with the sliding controller, the outer surface of the sliding controller is movably connected with the outer wall of the fixed column through the arranged sliding groove, the position of the outer wall of the sliding controller, which is far away from the center, is fixedly connected with the airflow baffle plate, the inner part of the airflow baffle plate is communicated with the inner wall of the air inlet, the bottom end of the airflow baffle plate is fixedly connected with the corrugated pipe, the top end of the corrugated pipe is movably connected with the outer wall of the fixed column through the arranged airflow baffle plate, the bottom end of the corrugated pipe is fixedly connected with the fixed barrel, and the top end of the fixed barrel is movably connected with the outer wall of the airflow baffle plate through the arranged corrugated pipe, the bottom end of the fixed barrel is fixedly connected with the top end of the first fixed plate.

Preferably, the outer wall of the sliding controller is fixedly connected with an adsorption mechanism close to the position of the airflow baffle, one side of the adsorption mechanism is movably connected with the outer wall of the fixed column through the sliding controller, the other side of the adsorption mechanism is fixedly connected with the inner wall of the fixed cover, the outer wall of the sliding controller is fixedly connected with a reaction mechanism close to the position of the airflow baffle, one side of the reaction mechanism is movably connected with the outer wall of the fixed column through the sliding controller, the other side of the reaction mechanism is fixedly connected with the inner wall of the fixed cover, an air hole is formed in the position of the sliding controller close to the airflow baffle, a movable baffle is arranged in the position of the outer wall of the sliding controller close to the airflow baffle, and the outer wall of the movable baffle is movably connected with the inner wall of the airflow baffle through the sliding controller.

Preferably, the structure of reaction mechanism includes second fixed plate, third fixed plate, axis of rotation and rotation leaf, the ventilation hole has been seted up to the outer wall of second fixed plate, the inner wall fixedly connected with third fixed plate in ventilation hole, the outer wall swing joint of third fixed plate has the axis of rotation, the outer wall swing joint of the outer wall of axis of rotation through the third fixed plate that sets up and second fixed plate, the outer wall fixedly connected with rotation leaf of axis of rotation, the outer wall swing joint of rotation leaf through the axis of rotation that sets up and third fixed plate.

Preferably, adsorption apparatus constructs the structure and includes fourth fixed plate, electromagnetic adsorption coil, connection rope and vibrations mechanism, the outer wall of fourth fixed plate is close to the position fixedly connected with on top and connects the rope, the outer wall fixedly connected with vibrations mechanism of connection rope, the outer wall swing joint of the outer wall of vibrations mechanism through the connection rope that sets up and fourth fixed plate, the position that the outer wall of fourth fixed plate is close to the bottom is provided with electromagnetic adsorption coil, electromagnetic adsorption coil's outer wall is through the fourth fixed plate that sets up and vibrations mechanism's outer wall swing joint.

Preferably, the structure of vibrations mechanism includes that fixed block, rotation hemisphere and activity shake the pole, the inner wall of fixed block is close to the position fixedly connected with rotation hemisphere on top, the outer wall swing joint who rotates the hemisphere shakes the pole, the outer wall swing joint of the pole is shaken in the activity through the rotation hemisphere that sets up and the inner wall swing joint of fixed block.

A denitration method of an atmospheric denitration device with a self-adjusting horizontal height comprises the following steps,

s1: the denitration reducing agent is input into the atomizer through the liquid inlet groove and then turns into a fog state to ascend, and meanwhile, the gas entering the inside of the gas inlet hole meets the fog state denitration reducing agent to generate denitration reaction;

s2: rotating the rotating blade to increase the mixing of the mist denitration reducing agent and the nitrate-containing atmosphere so as to fully generate denitration reaction;

s3: in the process that the airflow jacks up the vibration mechanism to move upwards continuously, the suction force generated by the electromagnetic adsorption coil adsorbs the residual saltpeter in the atmosphere;

s4: the fixed block naturally falls to impact the electromagnetic adsorption coil, so that the saltpeter on the outer wall of the electromagnetic adsorption coil falls off, and meanwhile, the electromagnetic force generated by the electromagnetic adsorption coil vibrates the fixed block to drive the electromagnetic adsorption coil to vibrate, so that the saltpeter falling speed is increased;

s5: the dropped nitrate is sucked and collected by the liquid outlet groove through the top end of the atomizer.

The invention provides a self-adjusting horizontal height atmosphere denitration device and a denitration method thereof. The method has the following beneficial effects:

(1) this self-interacting level atmosphere denitration device and denitration method thereof, through the mode of absorption with the nitre in the atmosphere on the electromagnetic adsorption coil to can be at the device operation in-process, the collection to the nitre is carried out to the pause local position, prevents to adsorb the overflow that leads to excessively greatly, and the device denitration is more complete, and degree of automation is than higher, more facilitates the use.

(2) According to the self-adjusting horizontal height atmosphere denitration device and the denitration method thereof, the air which is subjected to denitration and is exhausted in a sealed state can be collected through the arranged sealing cover mechanism, the denitration efficiency of the device is improved, and the practicability of the device is improved.

(3) This self-interacting level atmosphere denitrification facility and denitration method thereof, through the filter mechanism who sets up, can adsorb the nitre in the atmosphere to the desulfurization efficiency of mode increase device through increasing the air current, more facilitate the use.

(4) The self-adjusting horizontal height atmosphere denitration device and the denitration method thereof can enable the denitration reducing agent to be fully mixed with the atmosphere in a rotating mode through the arranged reaction mechanism, and the denitration reducing agent is convenient to be separated from the atmosphere.

(5) This self-interacting level height atmosphere denitration device and denitration method thereof, through the adsorption mechanism who sets up, can adsorb the not complete reaction's of reaction after to the denitration completeness that increases the device to it is environmental protection relatively.

Drawings

FIG. 1 is an isometric view of the structure of the present invention;

FIG. 2 is a schematic front view of the structure of the present invention;

FIG. 3 is a cross-sectional view of the structure of FIG. 2 taken along line A-A thereof in accordance with the present invention;

FIG. 4 is a cross-sectional view of the structure of FIG. 2 taken along line B-B;

FIG. 5 is a partial top view of a reaction mechanism according to the present invention;

FIG. 6 is an enlarged view of the structure at C in FIG. 4 according to the present invention.

In the figure: 1. a fixed base plate mechanism; 11. a first fixing plate; 12. an air inlet; 2. a seal cover mechanism; 21. a fixed cover; 22. an air outlet; 23. a liquid inlet tank; 24. a liquid outlet groove; 25. an atomizer; 3. a filtering mechanism; 31. fixing a column; 32. a sliding groove; 33. a slide controller; 34. fixing the barrel; 35. a bellows; 36. an airflow baffle; 37. a reaction mechanism; 371. a second fixing plate; 372. a third fixing plate; 373. a rotating shaft; 374. rotating the blades; 38. an adsorption mechanism; 381. a fourth fixing plate; 382. an electromagnetic adsorption coil; 383. connecting ropes; 384. a vibration mechanism; 3841. a fixed block; 3842. rotating the hemisphere; 3843. a movable shock rod; 39. a movable baffle; 4. spiral air outlet baffle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a self-interacting level atmosphere denitrification facility, including PMKD mechanism 1, PMKD mechanism 1's top is close to the position fixedly connected with sealed cowling mechanism 2 at center, the inner wall of sealed cowling mechanism 2 is close to the position fixedly connected with spiral baffle 4 of giving vent to anger on top, the outer wall swing joint of sealed cowling mechanism 2 and PMKD mechanism 1 that the spiral baffle 4 of giving vent to anger is through setting up, the bottom fixedly connected with filter mechanism 3 of sealed cowling mechanism 2, the outer wall fixed connection of seal cowling mechanism 2 and PMKD mechanism 1 that filter mechanism 3's outer wall is through setting up, PMKD mechanism 1 is sealing connection with sealed cowling mechanism 2.

The structure of the fixed base plate mechanism 1 comprises a first fixed plate 11 and an air inlet 12, the air inlet 12 is arranged at the position, close to the center, of the outer wall of the first fixed plate 11, the air inlet 12 penetrates through the first fixed plate 11, and the inner arm of the air inlet 12 is connected with a saltpeter-containing atmosphere storage device.

The structure of sealed cowling mechanism 2 includes fixed cover 21, venthole 22, feed liquor groove 23, go out liquid groove 24 and atomizer 25, the fixed cover 21 of top fixedly connected with of first fixed plate 11, the top of fixed cover 21 is close to the position fixedly connected with venthole 22 at center, the inner wall of venthole 22 link up through the fixed cover 21 that sets up and the inner wall of inlet port 12, the position that the outer wall of fixed cover 21 is close to the bottom is provided with feed liquor groove 23, the inner wall of feed liquor groove 23 runs through fixed cover 21, the position that the outer wall of fixed cover 21 is close to the bottom is provided with liquid groove 24, the inner wall of liquid groove 24 runs through fixed cover 21, the position that the inner wall of fixed cover 21 is close to the bottom is provided with atomizer 25, the inner wall of venthole 22 is connected with the air collection device after the denitration.

The structure of the filtering mechanism 3 comprises a fixed column 31, a sliding groove 32, a sliding controller 33, a fixed barrel 34, a corrugated pipe 35 and an airflow baffle plate 36, wherein the inner wall of the air inlet hole 12 is fixedly connected with the fixed column 31, the position of the outer wall of the fixed column 31 close to the top end is provided with the sliding groove 32, the inner wall of the sliding groove 32 is movably connected with the sliding controller 33, the outer surface of the sliding controller 33 is movably connected with the outer wall of the fixed column 31 through the arranged sliding groove 32, the position of the outer wall of the sliding controller 33 far away from the center is fixedly connected with the airflow baffle plate 36, the inner part of the airflow baffle plate 36 is communicated with the inner wall of the air inlet hole 12, the bottom end of the airflow baffle plate 36 is fixedly connected with the corrugated pipe 35, the top end of the corrugated pipe 35 is movably connected with the outer wall of the fixed column 31 through the arranged airflow baffle plate 36, the bottom end of the corrugated pipe 35 is fixedly connected with the fixed barrel 34, the top end of the fixed barrel 34 is movably connected with the outer wall of the airflow baffle plate 36 through the arranged corrugated pipe 35, the bottom end of the fixed barrel 34 is fixedly connected with the top end of the first fixed plate 11, the bottom end of the sliding controller 33 is connected with an electric wire, and the electric wire is connected with a power supply through the inside of the fixed column 31.

An adsorption mechanism 38 is fixedly connected to the outer wall of the sliding controller 33 at a position close to the airflow baffle 36, one side of the adsorption mechanism 38 is movably connected with the outer wall of the fixed column 31 through the arranged sliding controller 33, the other side of the adsorption mechanism 38 is fixedly connected with the inner wall of the fixed hood 21, a reaction mechanism 37 is fixedly connected to the outer wall of the sliding controller 33 at a position close to the airflow baffle 36, one side of the reaction mechanism 37 is movably connected with the outer wall of the fixed column 31 through the arranged sliding controller 33, the other side of the reaction mechanism 37 is fixedly connected with the inner wall of the fixed hood 21, an air vent is arranged at a position of the sliding controller 33 close to the airflow baffle 36, a movable baffle 39 is arranged at a position of the outer wall of the sliding controller 33 close to the air vent, the outer wall of the movable baffle 39 is movably connected with the inner wall of the airflow baffle 36 through the arranged sliding controller 33, and the reaction mechanism 37 is an extensible folding rod, the size of the air passing hole is consistent with that of the air baffle plate 36, so that the air passing hole can be sealed when the movable baffle plate 39 rotates to the position of the air passing hole along the position close to the reaction mechanism 37.

The structure of the reaction mechanism 37 includes a second fixing plate 371, a third fixing plate 372, a rotating shaft 373 and a rotating blade 374, a vent hole has been opened in the outer wall of the second fixing plate 371, the inner wall fixedly connected with third fixing plate 372 of the vent hole, the outer wall movably connected with the rotating shaft 373 of the third fixing plate 372, the outer wall of the rotating shaft 373 is movably connected with the outer wall of the second fixing plate 371 through the set third fixing plate 372, the outer wall fixedly connected with the rotating blade 374 of the rotating shaft 373, the outer wall of the rotating blade 374 is movably connected with the outer wall of the third fixing plate 372 through the set rotating shaft 373, and the third fixing plate 372 provides power for the rotation of the rotating shaft 373.

The structure of the adsorption mechanism 38 includes a fourth fixing plate 381, an electromagnetic adsorption coil 382, a connection rope 383 and a vibration mechanism 384, the outer wall of the fourth fixing plate 381 is fixedly connected with the connection rope 383 near the top end, the outer wall of the connection rope 383 is fixedly connected with the vibration mechanism 384, the outer wall of the vibration mechanism 384 is movably connected with the outer wall of the fourth fixing plate 381 through the set connection rope 383, the outer wall of the fourth fixing plate 381 is provided with the electromagnetic adsorption coil 382 near the bottom end, the outer wall of the electromagnetic adsorption coil 382 is movably connected with the outer wall of the vibration mechanism 384 through the set fourth fixing plate 381, the diameter of the vibration mechanism 384 is smaller than the inner diameter of the hole, the inside of the electromagnetic adsorption coil 382 is an electromagnetic coil, the outer wall of the electromagnetic adsorption coil is zeolite, and the zeolite has a better adsorption effect on nitre.

The structure of vibrations mechanism 384 includes fixed block 3841, rotates hemisphere 3842 and activity shake pole 3843, and the position fixedly connected with of the inner wall of fixed block 3841 near the top rotates hemisphere 3842, and the outer wall swing joint who rotates hemisphere 3842 has activity to shake pole 3843, and the outer wall of activity shake pole 3843 is through the rotation hemisphere 3842 of setting and the inner wall swing joint of fixed block 3841, and the hemisphere of activity shake pole 3843 bottom is the permanent magnet.

A denitration method of an atmosphere denitration device with a self-adjusting horizontal height comprises the following steps:

s1: the denitration reducing agent is input into the atomizer 25 through the liquid inlet groove 23 and then rises in a fog state, and meanwhile, the gas entering the inside of the gas inlet hole 12 meets the denitration reducing agent in the fog state to generate denitration reaction;

s2: the rotating blade 374 rotates to increase the mixing of the mist denitration reducing agent and the nitrate-containing atmosphere, so that a denitration reaction is fully generated;

s3: in the process that the airflow jacking vibration mechanism 384 moves upwards continuously, the suction force generated by the electromagnetic adsorption coil 382 adsorbs the residual saltpeter in the atmosphere;

s4: the fixed block 3841 naturally falls to impact the electromagnetic adsorption coil 382, so that the saltpeter on the outer wall of the electromagnetic adsorption coil 382 falls off, and meanwhile, the electromagnetic force generated by the electromagnetic adsorption coil 382 enables the fixed block 3841 to vibrate to drive the electromagnetic adsorption coil 382 to vibrate, so that the saltpeter falling speed is increased;

s5: the fallen nitre is sucked and collected by the liquid outlet groove 24 through the top end of the atomizer 25.

After the device is assembled, gas to be denitrated is conveyed into the device through the air inlet hole 12 at the bottom end of the first fixing plate 11, the liquid outlet groove 24 is connected with an input end of a denitration reducing agent, the liquid outlet groove 24 is connected with a collection end of the denitration reducing agent, when the device is used, after the denitration reducing agent enters through the liquid inlet groove 23, the denitration reducing agent turns into mist state through the atomizer 25 and rises, meanwhile, the gas entering into the air inlet hole 12 encounters the mist state denitration reducing agent after passing through the air holes in the outer wall of the air flow baffle plate 36, when the rising air flow in the air inlet hole 12 is increased, the corrugated pipe 35 at the top end of the fixing barrel 34 is driven to extend upwards, the sliding controller 33 is driven to horizontally rise in the sliding groove 32, the gas storage amount of the device is increased, meanwhile, the reaction mechanism 37 is extended, the ventilation amount of the device is increased, the mist state denitration reducing agent is cooled when encountering cold air, and simultaneously the mist state denitration reducing agent and the atmosphere generate denitration reaction, most of the saltpeter in the atmosphere is removed, the residual mist denitration reducing agent and the saltpeter-containing atmosphere continue to rise, when the temperature rises to the position of the reaction mechanism 37, the sliding controller 33 drives the rotating shaft 373 on the outer wall of the third fixing plate 372 to rotate, so that the rotating blade 374 is driven to rotate, the mist denitration reducing agent and the saltpeter-containing atmosphere are mixed to fully generate denitration reaction, then the atmosphere carries the residual saltpeter to rise, when the temperature rises to the position of the adsorption mechanism 38, the airflow jacking vibration mechanism 384 moves upwards to enable the airflow to continue to move upwards through the adsorption mechanism 38, the residual saltpeter in the atmosphere is adsorbed by the suction force generated by the electromagnetic adsorption coil 382, the airflow after denitration is discharged out of the device through the adsorption mechanism 38 and the spiral gas outlet baffle 4, when the denitration is finished, the device continues to operate, the movable baffle 39 rotates to the position of the airflow baffle 36 to block the gas passing holes, collect the nitre, when there is not the circulation of gas through fourth fixed plate 381, the fixed block 3841 of connecting rope 383 outer wall falls naturally and produces the striking to electromagnetic adsorption coil 382, the nitre that makes electromagnetic adsorption coil 382 outer wall produces and drops, the electromagnetic force that electromagnetic adsorption coil 382 produced simultaneously can make the activity shake pole 3843 that rotates hemisphere 3842 bottom produce and rotate, thereby make fixed block 3841 produce vibrations, drive electromagnetic adsorption coil 382 vibrations, the speed that the increase nitre drops, the nitre that drops is driven by the denitration reductant through the top of atomizer 25 and trickles, discharge through drain tank 24, then collect, more facilitate the use.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.