CN112316614B

CN112316614B - Dust remover for recycling renewable energy

Info

Publication number: CN112316614B
Application number: CN202010944384.8A
Authority: CN
Inventors: 吕海峰; 曹海宁
Original assignee: Jiangsu Jileng Da Environmental Energy Technology Co ltd
Current assignee: Jiangsu Jileng Da Environmental Energy Technology Co ltd
Priority date: 2020-09-10
Filing date: 2020-09-10
Publication date: 2022-02-08
Anticipated expiration: 2040-09-10
Also published as: CN112316614A

Abstract

The invention discloses a dust remover for recycling renewable energy, which comprises an air inlet and is characterized in that: the novel sulfur removal device comprises a shell, a baffle plate, a protective film and a buffer plate, wherein one end of the air inlet is connected with the shell through a welding joint, the top of the shell is connected with an air outlet through a thread, the inner wall of the air outlet is connected with a sulfur removal device through a bolt, one side of the shell is connected with a vane wheel with a shaft through a bearing, through holes are uniformly formed in two sides of a curved surface of the shell, the bottom of the shell is connected with the baffle plate through a welding joint, the inner wall of the shell is connected with the baffle plate through a welding joint, one end of the baffle plate is positioned right above the air inlet, a dust treatment system is arranged on the outer side of the bottom of the shell, the protective film is of a smooth structure, the top of the protective film is in contact connection with the through holes, and the top of the protective film is in contact connection with the baffle plate.

Description

Dust remover for recycling renewable energy

Technical Field

The invention relates to the technical field of renewable energy equipment, in particular to a dust remover for recycling renewable energy.

Background

Energy sources can be further divided into two major types, renewable energy sources and non-renewable energy sources. The renewable energy sources comprise solar energy, hydroenergy, wind energy, biomass energy, wave energy, tidal energy, ocean temperature difference energy, geothermal energy and the like. The heat energy produced and produced by human beings in activities due to the seed-seeking needs is discharged after the utilization is finished and is not utilized any more, and the heat energy is called waste heat or waste heat. With the shortage of energy resources worldwide, various countries are working on energy conservation and emission reduction, and strive for sustainable development. Based on the fact that energy is scarce, the problem of waste heat utilization is an increasingly important energy source direction, and countries are investing and researching in strengthening the aspect, and hope to obtain larger and more benefits.

The existing dust remover does not remove sulfur, when waste heat enters an expansion machine, the expansion machine is damaged, and the existing dust remover cannot well control air flow, so that the expansion machine is damaged by large impact. Therefore, it is necessary to design a dust collector for recycling renewable energy for buffering and purification.

Disclosure of Invention

The present invention is directed to a dust collector for recycling renewable energy, so as to solve the problems mentioned in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: a dust remover for recycling renewable energy sources comprises an air inlet, wherein one end of the air inlet is connected with a shell through welding, the top of the shell is connected with an air outlet through threads, the inner wall of the air outlet is connected with a sulfur remover through bolts, one side of the shell is connected with a vane wheel with a shaft through a bearing, through holes are uniformly arranged on two sides of a curved surface of the shell, the bottom of the shell is connected with a baffle through welding, the inner wall of the shell is connected with a guide plate through welding, the inner wall of the shell is connected with a baffle through welding, one end of the baffle is positioned right above the air inlet, the other end of the baffle is positioned right above the guide plate, a dust treatment system is arranged on the outer side of the bottom of the shell, gas enters the air inlet, passes through the baffle, dust in the gas reaches the bottom and the through holes of the shell, and then the gas reaches the vane wheel with the shaft through the guide plate, the vane wheel with the shaft spirally rises the gas and filters the gas, the gas is desulfurized after passing through the desulfurizer and finally is output from the gas outlet, when the dust reaches a certain amount, the baffle is bent downwards due to gravity, and the dust enters the dust treatment system.

According to the technical scheme, the dust treatment system comprises an air bag plate, the top of the air bag plate is connected with a protective film through contact, the protective film is of a smooth structure, the top of the protective film is in contact connection with a through hole, the top of the protective film is in contact connection with a baffle plate, one end of the air bag plate is provided with a blower, one end of the air bag plate is connected with a magnetic buckle through a tenon-and-mortise joint, the blower guides gas into an air bag of the air bag plate, the air bag expands to move the protective film upwards, the protective film is in contact with the through hole and the bottom end of the baffle plate, when the baffle plate is opened downwards under gravity, one side of the air bag plate is pressed by the baffle plate and dust, the magnetic buckle of the air bag plate is separated by the impact of the change of the gas in the air bag, the air bag of the air bag plate deflates, the protective film takes the dust to move downwards, and the air bag flows due to the fact that the blower blows all the time, the movement of the protective film and the dust is accelerated, when the baffle is not under the action of gravity, the magnetic button is closed, the air bag of the air bag plate is inflated again to expand, and the air bag of the air bag plate contacts a new protective film with the through hole and the baffle and pushes the baffle to return.

According to the technical scheme, the top of the air bag plate is connected with a placing frame through threads, the inner walls of two side plates of the placing frame are connected with wheel shafts through bearings, the side face of each wheel shaft is magnetically connected with a protective film, two ends of each protective film are connected with magnetic plates through threads, a recovery table is arranged right below the lower end of the air bag plate, and the two side plates of the recovery table are also connected with the wheel shafts through bearings. The device comprises a placing frame, a spring, an elastic membrane, a magnetic plate, a gas bag pushing elastic membrane, a protective film, a shell and a spring, wherein the placing frame is provided with a groove, one side of the switch structure is connected with a key core through clearance fit, the top of the switch structure is connected with the spring through threads, the bottom of the placing frame is connected with the elastic membrane through welding, one side of the elastic membrane is positioned at the bottom of the switch structure, the bottom of a recovery platform is connected with the magnetic plate through a tenon-and-mortise, the lower end of the protective film moves to the recovery platform due to insufficient gas in the gas bag of the gas bag, the magnetic plate is adhered to a wheel shaft on the recovery platform, the magnetic plate acts with the magnetic plate to enable the wheel shaft to rotate, the gas bag of the gas bag expands again, the gas bag pushes the elastic membrane to move upwards, the key core is pushed, one end of the protective film does not lock the protective film, the protective film moves downwards due to the gravity of the magnetic plate, and when the protective film contacts with the bottom of the shell, the protective film stops moving due to the extrusion of the gas bag.

According to the technical scheme, one end of the magnetic plate is uniformly provided with a circular groove, the bottom of the circular groove is also connected with a spring through a mortise-tenon joint, the spring is connected with a push rod through a contact, one end of the push rod is connected with an arc plate through a welding joint, two sides of the push rod are connected with connecting rods through welding joints, two sides of each connecting rod are connected with the spring in a contact way, two sides of the circular groove are provided with irregular grooves, when the air bag of the air bag plate is inflated too fast, the protective film is prevented from moving downwards, one end of the magnetic plate is extruded by the air bag, the arc plate is stressed downwards, the push rod drives the connecting rods to move in the irregular grooves in a track manner, the connecting rods are moved upwards to an upper fixed point by the springs, the push rod drives the arc plate to move upwards, the arc plate pops out of the circular groove to push the air bag forwards, the protective film moves downwards, when the air bag is pushed, the arc plate is stressed downwards, the connecting rods drive the connecting rods to move in the irregular grooves in a track manner, the spring moves the link up to the lower set point.

According to the technical scheme, the inner wall of air inlet has the bearing through transition fit, the bearing includes the outer loop, the outer loop has the inner ring through mortise-tenon joint, the curved surface of inner ring evenly is connected with the diaphragm pole through clearance fit, there is bearing one the one end of diaphragm pole through threaded connection, and when the air current of air inlet was too big, the diaphragm pole diaphragm atress in the bearing one was drawn close to in the middle of, made the air inlet passageway reduce, and when the air current was stable, the bearing drove the diaphragm pole return.

According to the technical scheme, the bottom both sides of casing have L type pole through threaded connection, and it is too big when the baffle open angle, lead to the unable whereabouts of dust, when the dust accumulation take the altitude, promote L type pole and remove, L type pole promotes the baffle, reduces the baffle open angle.

According to the technical scheme, two the top of baffle is connected with the float lever through the line, the one end and the casing of float lever pass through hinged joint, gaseous heliciform gets into sulphur removal ware 4, through gas filtration membrane 32, react with the sulphur removal agent in the inside of sulphur removal ware 4, produce water, waste gas and clean gas, because density reason, clean gas is from gas outlet 3 play, water downflow gets into water course 33, the floater 35 is placed gas and is discharged from water course 33, waste gas is discharged the sulphur removal ware 4 outside from waste gas port 34, discharge gas collector from blow vent 36, supply the air pocket with the ammonia after the gas collector separation.

According to the technical scheme, the inboard curved surface of sulphur removal ware is gas filtration membrane, the inside of sulphur removal ware is connected with the floater through the contact, the bottom of sulphur removal ware is equipped with the water course, there is the waste gas mouth outside curved surface of sulphur removal ware through welded connection, the blow vent has been seted up to one side of casing.

Compared with the prior art, the invention has the following beneficial effects: in the invention, the raw materials are mixed,

(1) by arranging the gas filtering membrane, gas enters the inside of the sulfur remover through the gas filtering membrane, the gas filtering membrane can filter the gas, liquid is not filtered, and the sulfur removing agent and water generated by sulfur removal cannot leak through the gas filtering membrane;

(2) the dust processing system is arranged, the blower guides gas into the air bag of the air bag plate, the air bag expands to move the protective film upwards, the protective film is in contact with the through hole and the bottom end of the baffle plate, when the baffle plate is opened downwards under the action of gravity, one side of the air bag plate is pressed by the baffle plate and dust, the magnetic buckle of the air bag plate is separated by the impact of the change of the gas in the air bag, the air bag of the air bag plate is deflated, the protective film drives the dust to move downwards, the dust processing system can automatically clean the air bag, the manpower is reduced, and the working efficiency is improved;

(3) the recycling table and the storage rack are arranged, the recycling table interacts with the magnetic plate on the protective film through the magnetic conduction plate, so that the film is recycled, the storage rack stabilizes the protective film through the lock cylinder, and the storage rack is matched with the recycling table, so that the protective film is automatically recycled and placed;

(4) by arranging the L-shaped rod, when the opening angle of the baffle is too large, dust cannot fall, when the dust is accumulated to a certain height, the L-shaped rod is pushed to move, the L-shaped rod pushes the baffle, the opening angle of the baffle is reduced, and the baffle is prevented from influencing the cleaning of the dust due to opening;

(5) by arranging the arc-shaped plate, when the air bag of the air bag plate is inflated too fast, the protective film is blocked from moving downwards, one end of the magnetic plate is extruded by the air bag, the arc-shaped plate is stressed to move downwards, the push rod drives the connecting rod to move upwards in the irregular groove, the spring moves the connecting rod to the upper fixed point, the push rod drives the arc-shaped plate to move upwards, the arc-shaped plate pops out of the circular groove to push the front air bag, the protective film moves downwards, when the air bag is pushed, the arc-shaped plate is stressed to move downwards, the push rod drives the connecting rod to move upwards in the irregular groove, and the spring moves the connecting rod to the lower fixed point, so that the situation that the protective film is blocked from moving downwards is solved, and the protective film can be completely paved;

(6) through being provided with the bearing, the diaphragm pole diaphragm atress in the bearing is drawn close to the centre, makes the air inlet passageway reduce, and when the air current is stable, the bearing drives diaphragm pole return, has solved the air current of admitting air too big.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the shelf structure of the present invention;

FIG. 3 is a schematic view of the recycling bin of the present invention;

FIG. 4 is a schematic diagram of the switchgear of the present invention;

FIG. 5 is a schematic view of the construction of the spoon core of the present invention;

FIG. 6 is a schematic view of the internal structure of the magnetic plate of the present invention;

FIG. 7 is a schematic view of an irregular groove configuration of the present invention;

FIG. 8 is a schematic view of the bearing construction of the present invention;

FIG. 9 is a schematic view of the via location of the present invention;

in the figure: 1. an air inlet; 2. a housing; 3. an air outlet; 4. a sulfur remover; 5. a bladed wheel with an axle; 6. a baffle plate; 7. a baffle; 8. a dust handling system; 9. a bearing; 10. a through hole; 11. a baffle plate; 12. an L-shaped rod; 13. a placement frame; 14. an air bag panel; 15. a protective film; 16. a switch structure; 17. a spoon core; 18. a recovery stage; 19. an elastic diaphragm; 20. an outer ring; 21. a first bearing; 22. a diaphragm rod; 23. a wheel axle; 24. an inner ring; 25. a magnetic plate; 26. a spring; 27. a push rod; 28. an arc-shaped plate; 29. a connecting rod; 30. a circular groove; 31. a float rod; 32. a gas filtration membrane; 33. a water channel; 34. an exhaust gas vent; 35. a floating ball; 36. and (4) a vent.

Detailed Description

Referring to fig. 1-9, the present invention provides the following technical solutions: a dust remover for recycling renewable energy sources comprises an air inlet 1, one end of the air inlet 1 is connected with a shell 2 through welding, the top of the shell 2 is connected with an air outlet 3 through threads, the inner wall of the air outlet 3 is connected with a sulfur remover 4 through bolts, one side of the shell 2 is connected with a vane wheel 5 with a shaft through a bearing, through holes 10 are uniformly arranged on two sides of a curved surface of the shell 2, the bottom of the shell 2 is connected with a baffle 11 through welding, the baffle 11 is a flexible plate, the inner wall of the shell 2 is connected with a guide plate 7 through welding, the inner wall of the shell 2 is connected with a baffle 6 through welding, one end of the baffle 6 is positioned right above the air inlet 1, the other end of the baffle 6 is positioned right above the guide plate 7, a dust treatment system 8 is arranged on the outer side of the bottom of the shell 2, gas enters the air inlet 1 and passes through the baffle 6, and dust in the gas reaches the bottom and the through holes 10 of the shell 2, then the gas reaches the impeller 5 with the shaft through the guide plate 7, the impeller 5 with the shaft spirally rises and filters the gas, the gas is desulfurized after passing through the desulfurizer 4 and is finally output from the gas outlet 3, when the dust reaches a certain amount, the baffle 11 bends downwards due to gravity, and the dust enters the dust treatment system 8;

the dust processing system 8 comprises an air bag plate 14, the top of the air bag plate 14 is connected with a protective film 15 through contact, the protective film 15 is of a smooth structure, the top of the protective film 15 is connected with a through hole 10 through contact, the top of the protective film 15 is connected with a baffle plate 11 through contact, one end of the air bag plate 14 is provided with a blower, one end of the air bag plate 14 is connected with a magnetic buckle through a tenon-and-mortise joint, the blower guides gas into an air bag of the air bag plate 14, the air bag expands to move the protective film 15 upwards, the protective film 15 is in contact with the through hole 10 and the bottom end of the baffle plate 11, when the baffle plate 11 is opened downwards by gravity, one side of the air bag plate 14 is pressed by the baffle plate 11 and dust, the magnetic buckle of the air bag plate 14 is separated by the impact of the gas change in the air bag, the air bag of the air bag plate 14 is deflated, the protective film 15 moves downwards with the dust, and the air bag flows due to the fact that the blower blows all the air is blown, the movement of the protective film 15 and the dust is accelerated, when the baffle 11 is not under the action of gravity, the magnetic button is closed, the air bag of the air bag plate 14 is inflated again to expand, and the air bag of the air bag plate 14 enables a new protective film 15 to be in contact with the through hole 10 and the baffle 11 and pushes the baffle 11 to return;

the top of the air bag plate 14 is connected with a placing frame 13 through threads, the inner walls of two side plates of the placing frame 13 are connected with wheel shafts 23 through bearings, the side surfaces of the wheel shafts 23 are magnetically connected with a protective film 15, two ends of the protective film 15 are connected with magnetic plates 25 through threads, a recovery table 18 is arranged right below the lower end of the air bag plate 14, the two side plates of the recovery table 18 are also connected with the wheel shafts 23 through bearings, the grooves of the placing frame 13 are both provided with switch structures 16, one side of each switch structure 16 is connected with a key core 17 through clearance fit, the top of each switch structure 16 is connected with a spring through threads, the bottom of the placing frame 13 is connected with an elastic membrane 19 through welding, one side of each elastic membrane 19 is positioned at the bottom of the switch structure 16, the bottom of the recovery table 18 is connected with a magnetic conduction plate through a tenon, because the air bag of the air bag plate 14 is insufficient, the lower end of the protective film 15 moves to the recovery table 18, the magnetic plates 25 are adhered to the wheel shafts 23 on the recovery table 18, the magnetic conduction plate and the magnetic plate 25 act to enable the wheel shaft 23 to rotate, the air bag of the air bag plate 14 expands again, the air bag pushes the elastic diaphragm 19 to move upwards, so that the key core 17 is pushed to rotate, one end of the key core 17 is not locked on the protective film 15, the protective film 15 moves downwards due to the gravity of the magnetic plate 25, and when the protective film 15 is contacted with the bottom of the shell 2, the protective film is extruded by the air bag to stop moving;

one end of the magnetic plate 25 is uniformly provided with a circular groove 30, the bottom of the circular groove 30 is also connected with a spring 26 through a mortise-tenon joint, the spring 26 is connected with a push rod 27 through a contact, one end of the push rod 27 is connected with an arc plate 28 through a welding, two sides of the push rod 27 are connected with connecting rods 29 through a welding, two sides of each connecting rod 29 are connected with the spring 26 in a contact manner, two sides of the circular groove 30 are provided with irregular grooves, when the air bag of the air bag plate 14 is inflated too fast to cause the downward movement of the protective film 15, one end of the magnetic plate 25 is extruded by the air bag, the arc plate 28 is forced to move downward, the push rod 27 drives the connecting rods 29 to move in the irregular grooves with tracks, the spring 26 moves the connecting rods 29 to an upper fixed point, the push rod 27 drives the arc plate 28 to move upward, the arc plate 28 pops out of the circular groove 30 to push the front air bag, the protective film 15 moves downward, when the air bag is pushed, the arc plate 28 is forced to move downward, the push rod 27 drives the connecting rods 29 to move in the irregular grooves with tracks, spring 26 moves link 29 up to the lower set point;

the inner wall of the air inlet 1 is in transition fit with a bearing 9, the bearing 9 comprises an outer ring 20, the outer ring 20 is connected with an inner ring 24 through a mortise-tenon joint, the curved surface of the inner ring 24 is uniformly connected with a diaphragm rod 22 through a clearance fit, one end of the diaphragm rod 22 is connected with a bearing I21 through threads, when the air flow of the air inlet 1 is too large, the diaphragm rod 22 diaphragm in the bearing 9 is forced to be close to the middle, so that the channel of the air inlet 1 is reduced, and when the air flow is stable, the bearing I21 drives the diaphragm rod 22 to return;

the two sides of the bottom of the shell 2 are connected with L-shaped rods 12 through threads, when the opening angle of the baffle plate 11 is too large, dust cannot fall down, when the dust accumulates to a certain height, the L-shaped rods 12 are pushed to move, the L-shaped rods 12 push the baffle plate 11, and the opening angle of the baffle plate 11 is reduced;

the tops of the two baffles 11 are connected with floating rods 31 through lines, one ends of the floating rods 31 are connected with the shell 2 through hinges, the baffles 11 cannot return after being free from gravity, and one ends of the two floating rods 31 move upwards due to air flow, so that the baffles 11 are driven to move upwards to return through the line connection;

the inner curved surface of the desulfurizer 4 is a gas filtering membrane 32, the inside of the desulfurizer 4 is connected with a floating ball 35 through contact, the bottom of the desulfurizer 4 is provided with a water channel 33, the outer curved surface of the desulfurizer 4 is connected with a waste gas port 34 through welding, one side of the shell is provided with a vent 36, the gas enters the desulfurizer 4 in a spiral shape, and reacts with a desulfurizing agent in the inside of the desulfurizer 4 through the gas filtering membrane 32 to generate water, waste gas and clean gas, the clean gas is discharged from the gas outlet 3 due to density, the water flows downwards to enter the water channel 33, the floating ball 35 is used for placing the gas to be discharged from the water channel 33, the waste gas is discharged to the outer side of the desulfurizer 4 from the waste gas port 34 and is discharged to a gas collector from the vent 36, and the gas collector supplies ammonia gas to an air bag after separation;

example (b): the gas enters the gas inlet 1, passes through the baffle 6, the dust in the gas reaches the bottom of the shell 2 and the through hole 10, then the gas reaches the vane wheel with shaft 5 through the guide plate 7, the vane wheel with shaft 5 spirally rises the gas and filters the gas, the gas carries out sulfur removal after passing through the sulfur remover 4, the gas spirally enters the sulfur remover 4, passes through the gas filtering membrane 32 and reacts with a sulfur removing agent in the sulfur remover 4 to generate water, waste gas and clean gas, the clean gas is discharged from the gas outlet 3 due to density, the water flows downwards to enter the water channel 33, the floating ball 35 is used for placing the gas to be discharged from the water channel 33, the waste gas is discharged to the outer side of the sulfur remover 4 from the waste gas port 34 and is discharged to the gas collector from the gas vent 36, the gas collector supplies ammonia gas to the gas bag after separation, when the dust reaches a certain amount, the baffle 11 bends downwards due to gravity, the dust enters the dust treatment system 8, the blower guides the air into the air bag of the air bag plate 14, the air bag expands to move the protective film 15 upwards, the protective film 15 is contacted with the through hole 10 and the bottom end of the baffle plate 11, when the baffle plate 11 is opened downwards under the gravity, one side of the air bag plate 14 is pressed by the baffle plate 11 and dust, the magnetic buckle of the air bag plate 14 is separated by the impact of the change of the air in the air bag, the air bag of the air bag plate 14 is deflated, the protective film 15 moves downwards with the dust, the air bag carries out air flow because the blower blows all the time, the movement of the protective film 15 and the dust is accelerated, when the baffle plate 11 is not acted by the gravity, the magnetic buckle is closed, the air bag of the air bag plate 14 is inflated and expanded again, the air bag of the air bag plate 14 contacts the new protective film 15 with the through hole 10 and the baffle plate 11 and pushes the baffle plate 11 to return, because the air bag of the air bag plate 14 is insufficient, the lower end of the protective film 15 moves to the recovery platform 18, the magnetic plate 25 is adhered to the wheel shaft 23 on the recovery platform 18, the magnetic conduction plate and the magnetic plate 25 act to enable the wheel shaft 23 to rotate, the air bag of the air bag plate 14 expands again, the air bag pushes the elastic diaphragm 19 to move upwards, so as to push the key core 17 to rotate, one end of the key core 17 is not locked to the protective film 15, the protective film 15 moves downwards due to the gravity of the magnetic plate 25, when the protective film 15 is contacted with the bottom of the shell 2, the air bag is extruded by the air bag to stop moving, when the air bag of the air bag plate 14 is inflated too fast, the protective film 15 moves downwards, one end of the magnetic plate 25 is extruded by the air bag, the arc-shaped plate 28 moves downwards under stress, the push rod 27 drives the connecting rod 29 to move with a track in the irregular groove, the spring 26 moves the connecting rod 29 upwards to an upper fixed point, the push rod 27 drives the arc-shaped plate 28 to move upwards, the arc-shaped plate 28 pops out of the circular groove 30 to push the front air bag, the protective film 15 moves downwards, when the air bag is pushed, the arc-shaped plate 28 moves downwards under stress, the push rod 27 drives the connecting rod 29 to move with a track in the irregular groove, the connecting rod 29 is moved upwards to a lower fixed point by the spring 26, when the airflow of the air inlet 1 is too large, the membrane of the membrane rod 22 in the bearing 9 is stressed to be drawn close to the middle, the channel of the air inlet 1 is reduced, when the airflow is stable, the bearing I21 drives the membrane rod 22 to return, when the opening angle of the baffle plate 11 is too large, the dust cannot fall down, when the dust accumulates to a certain height, the L-shaped rod 12 is pushed to move, the L-shaped rod 12 pushes the baffle plate 11, the opening angle of the baffle plate 11 is reduced, when the baffle plate 11 does not bear the gravity, the baffle plate cannot return, one end of the two floating rods 31 moves upwards due to the airflow reason, and therefore the baffle plate 11 is driven to move upwards to return through the wire connection.

It is noted that, herein, relational terms such as first and second, 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.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A dust separator for renewable energy recycling, comprising an air inlet (1), characterized in that: the device is characterized in that one end of the air inlet (1) is connected with a shell (2) through welding, the top of the shell (2) is connected with an air outlet (3) through threads, the inner wall of the air outlet (3) is connected with a sulfur remover (4) through bolts, one side of the shell (2) is connected with a vane wheel (5) with a shaft through a bearing, through holes (10) are uniformly formed in two sides of a curved surface of the shell (2), the bottom of the shell (2) is connected with a baffle (11) through welding, the inner wall of the shell (2) is connected with a guide plate (7) through welding, the inner wall of the shell (2) is connected with a baffle plate (6) through welding, one end of the baffle plate (6) is positioned right above the air inlet (1), the other end of the baffle plate is positioned right above the guide plate (7), a dust treatment system (8) is arranged on the outer side of the bottom of the shell (2), and the dust treatment system (8) comprises an air bag plate (14), the top of air pocket board (14) is connected with protection film (15) through the contact, protection film (15) are smooth structure, the top and through-hole (10) contact of protection film (15) are connected, the top and baffle (11) of protection film (15) are connected through the contact, the one end of air pocket board (14) is provided with the hair-dryer, the one end of air pocket board (14) has the magnetism to detain through the mortise-tenon joint.

2. A precipitator for renewable energy recycling according to claim 1, wherein: the top of the air bag plate (14) is connected with a placing frame (13) through threads, the inner walls of two side plates of the placing frame (13) are connected with a wheel shaft (23) through bearings, the side surface of the wheel shaft (23) is magnetically connected with a protective film (15), two ends of the protective film (15) are connected with magnetic plates (25) through threads, a recovery table (18) is arranged under the lower end of the air bag plate (14), the two side plates of the recovery table (18) are also connected with the wheel shaft (23) through bearings, a switch structure (16) is arranged in each groove of the placing frame (13), one side of the switch structure (16) is connected with a key core (17) through clearance fit, the top of the switch structure (16) is connected with a spring through threads, the bottom of the placing frame (13) is connected with an elastic membrane (19) through welding, one side of the elastic membrane (19) is positioned at the bottom of the switch structure (16), the bottom of the recovery platform (18) is connected with a magnetic conduction plate through a mortise and tenon joint.

3. A precipitator for renewable energy recycling according to claim 2, wherein: circular slot (30) have evenly been seted up to the one end of magnetic plate (25), the bottom of circular slot also has spring (26) through mortise-tenon joint, spring (26) are connected with push rod (27) through the contact, welded connection has arc (28) through the one end of push rod (27), welded connection has connecting rod (29) through welded connection in the both sides of push rod (27), the both sides and the contact of spring (26) of connecting rod (29) are connected, irregular groove has been seted up to the both sides of circular slot (30).

4. A precipitator for renewable energy recycling according to claim 3, wherein: the inner wall of air inlet (1) has bearing (9) through transition fit, bearing (9) include outer loop (20), outer loop (20) have inner ring (24) through mortise-tenon joint, the curved surface of inner ring (24) is evenly connected with diaphragm pole (22) through clearance fit, the one end of diaphragm pole (22) has bearing (21) through threaded connection.

5. A precipitator for renewable energy recycling according to claim 4, wherein: two sides of the bottom of the shell (2) are connected with L-shaped rods (12) through threads.

6. A precipitator for renewable energy recycling according to claim 5, wherein: the top of two baffle (11) is connected with floating rod (31) through the line, the one end and casing (2) of floating rod (31) pass through hinged joint.

7. A precipitator for renewable energy recycling according to claim 6, wherein: the inside curved surface of sulphur removal ware (4) is gas filtration membrane (32), the inside of sulphur removal ware (4) is connected with floater (35) through the contact, the bottom of sulphur removal ware (4) is equipped with water course (33), there is waste gas mouth (34) outside curved surface of sulphur removal ware (4) through welded connection, blow vent (36) have been seted up to one side of casing.