CN115007317A - Waste gas emission treatment equipment - Google Patents

Abstract

The invention discloses a waste gas emission treatment device which comprises an outer support shell, a self-cleaning electrostatic precipitation mechanism, a connecting support plate and a photocatalyst waste gas purification mechanism, wherein the outer support shell is arranged in a hollow cavity, the self-cleaning electrostatic precipitation mechanism is arranged in the outer support shell, the connecting support plate is arranged at the middle lower part of the outer side wall of the outer support shell, and the photocatalyst waste gas purification mechanism is arranged on the upper wall of the connecting support plate. The invention belongs to the field of industrial waste gas treatment, and particularly relates to a method for separating dust and gas in waste gas according to the substance form of waste gas composition, which is convenient for the later-stage waste gas treatment after separation on one hand, and reduces the influence of dust on a photocatalyst on the gas purification capacity in the subsequent waste gas treatment process on the other hand.

Description

Waste gas emission treatment equipment

Technical Field

The invention belongs to the technical field of industrial waste gas treatment, and particularly relates to waste gas emission treatment equipment.

Background

The problem of discharging waste is often produced during industrial production and manufacturing, waste gas is discharged into the atmosphere through a pipeline, the proportion of suspended particles such as soot and dust contained in the waste gas generated after combustion is relatively large, the smoke particles in the gas need to be separated, targeted classification and efficient treatment are carried out, and when the waste gas is treated by adopting a photocatalyst, the photocatalyst is covered by the smoke, so that the catalytic activity of the photocatalyst is reduced, and the effect of waste gas treatment is reduced.

Therefore, an exhaust emission treatment apparatus is required to solve the above problems.

Disclosure of Invention

In view of the above situation, in order to overcome the defects of the prior art, the invention provides a waste gas emission treatment device, which separates dust and gas in waste gas according to the substance form of the waste gas, on one hand, the waste gas is convenient to be treated in the later period after separation, and on the other hand, the dust covers a photocatalyst in the subsequent treatment process of the waste gas is reduced, and the purification capacity of the photocatalyst on the gas is influenced.

The technical scheme adopted by the invention is as follows: the invention provides a waste gas emission treatment device, which comprises an outer support shell, a self-cleaning electrostatic precipitation mechanism, a connecting support plate and a photocatalyst waste gas purification mechanism, wherein the outer support shell is arranged in a hollow cavity;

the self-cleaning electrostatic dust removal mechanism comprises a dust cleaning and collecting component, an electrostatic adsorption component and a pneumatic transmission component, wherein the electrostatic adsorption component is arranged in the outer support shell, the dust cleaning and collecting component array is arranged on the electrostatic adsorption component, the pneumatic transmission component is arranged on the upper wall in the outer support shell, and the pneumatic transmission component is arranged on the electrostatic adsorption component;

photocatalyst exhaust purification mechanism is including purifying casing, photocatalyst purification passageway and magnetism inhale the clean subassembly of formula passageway, it locates to be the cavity setting to purify the casing, purify the casing and locate the joint support upper wall, photocatalyst purification passageway is located inside purifying the casing, magnetism is inhaled the clean subassembly of formula passageway and is located on purifying the casing outer wall.

Preferably, the electrostatic adsorption component comprises a dust adsorption cylinder, a bottom plate, lower support columns, a discharge electrode and an insulator, wherein the bottom plate is arranged on the inner bottom wall of the outer support shell, the lower support columns are arranged on the upper wall of the bottom plate in a pairwise symmetry manner, the dust adsorption cylinder is arranged on the upper portion of the lower support columns, the insulator is arranged at the center of the upper wall of the bottom plate, the lower end of the discharge electrode is arranged at the upper end of the insulator, the discharge electrode is connected with a negative electrode to ionize dust, the dust adsorption cylinder is connected with a positive electrode, ionized dust particles with points move towards the dust adsorption cylinder, and the dust is gathered on the dust cleaning transmission belt.

Preferably, the dust cleaning and collecting assembly comprises a dust cleaning transmission belt, a transmission roller, a transmission support frame, a transmission worm wheel, a worm transmission shaft and a dust removing scraper, the transmission support frame is symmetrically arranged on the upper wall and the lower wall of the dust adsorption cylinder, the transmission roller is rotatably arranged between the inner side walls of the transmission support frame, the dust cleaning transmission belt is arranged on the transmission roller, the dust cleaning transmission belt is arranged on the two sides of the inner wall and the outer wall of the dust adsorption cylinder, the worm transmission shaft is symmetrically penetrated through the side wall of the transmission support frame, the worm transmission shaft is connected with the transmission roller, the transmission worm wheel is arranged on the worm transmission shaft, the transmission worm is arranged at four corners of the upper wall of the dust adsorption cylinder, the transmission worm is meshed with two adjacent transmission worm wheels, the dust removing scraper is obliquely arranged on the upper wall of the bottom plate, the dust removing scraper is arranged at the lower part of the transmission roller and is contacted with the dust cleaning transmission belt, the dust cleaning transmission belt rotates anticlockwise under the driving of the transmission roller, the dust on the dust cleaning transmission belt is scraped by the dust removing scraper, and the dust enters the dust treatment opening at the bottom of the outer support shell along the dust removing scraper.

In order to enable the dust cleaning and collecting assembly to realize motion under the condition of no external power, the pneumatic transmission assembly comprises a fan, a cross-shaped support frame, a connecting column, a speed reducer, a driving shaft, a driving gear, a driven shaft, a driven gear, a second belt pulley, a third belt pulley, a belt pulley rotating shaft and a second transmission belt, wherein the connecting column is symmetrically arranged on the inner upper wall of the outer support frame in pairs, the lower end of the connecting column is arranged on the cross-shaped support frame, the belt pulley rotating shaft is arranged on the upper wall of the cross-shaped support frame in a penetrating way, the second belt pulley is arranged on the belt pulley rotating shaft, the belt pulley rotating shaft is connected with a transmission worm through a shaft coupling, the driven shaft array is arranged on the upper wall of the cross-shaped support frame, the third belt pulley is arranged on the driven shaft, the second transmission belt pulley is arranged on the third belt pulley, the driven gear is arranged on the upper end of the driven shaft, and the fan is arranged at the center of the lower wall of the cross-shaped support frame, the fan is connected with the speed reducer, the driving shaft is arranged at the upper end of the speed reducer, the fan can drive the driving shaft to rotate by rotating, the rotating speed of the fan is reduced to a proper transmission speed, the driving gear is arranged on the driving shaft, and the driving gear is meshed with the driven gear.

In order to purify the dedusted waste gas again, the photocatalyst purification channel comprises a first light guide plate, a second light guide plate, a soft rubber layer, a cleaning scraper, an ultraviolet lamp column and a photocatalyst layer, wherein the second light guide plate is arranged at the inner bottom wall of the purification shell in an array manner, the first light guide plate is arranged at the inner upper wall of the purification shell in an array manner, the first light guide plate and the second light guide plate are arranged at intervals, the cleaning scraper is arranged in the purification shell, the cleaning scraper is vertically arranged with the first light guide plate and the second light guide plate, the side wall array of the cleaning scraper is provided with a first clamping groove, the side wall array of the cleaning scraper is provided with a second clamping groove, the first clamping groove and the second clamping groove are arranged at intervals, the first light guide plate is arranged in the first clamping groove, the second light guide plate is arranged in the second clamping groove, the first placing groove is arranged in the first light guide plate, the second placing groove is arranged in the second light guide plate, and the ultraviolet lamp column is respectively arranged in the first placing groove and the placing groove, ultraviolet lamp pole sets up in light guide plate one and light guide plate two, and the light guide plate has increased the ultraviolet irradiation area, the photocatalyst layer is located light guide plate one and the light guide plate outside wall, and the ultraviolet ray that light guide plate one and light guide plate two produced directly promotes the photocatalyst and produces catalytic action, and the inside height that highly is less than the purification casing of light guide plate one and light guide plate two, and light guide plate one and light guide plate two form continuous broken line passageway, have increased the dwell time of waste gas, play the effect of disturbance to waste gas simultaneously, finally accomplish to exhaust gas purification, a draw-in groove lateral wall on the clean scraper blade is located to the soft layer of rubber, the soft layer of rubber locates the draw-in groove two lateral walls on the clean scraper blade, prevents that the clean scraper blade from scraping the photocatalyst coating, influences exhaust-gas treatment's effect, clean scraper blade lateral wall symmetry is equipped with magnetism and inhales the piece.

In order to facilitate the movement of the cleaning scraper in the photocatalyst cleaning channel of the driving pipe, the magnetic suction type channel cleaning component comprises a support frame, a sliding support plate, a connecting support block, a magnetic suction slider, a movable threaded rod, a cleaning motor, a first belt pulley, a magnetic suction layer and a first transmission belt, wherein the connecting support block is symmetrically arranged on the outer side wall of the cleaning shell, the support frame is arranged on the periphery of the cleaning shell, the inner side wall of the support frame is arranged on the outer side wall of the connecting support block, the sliding support plate is symmetrically arranged on the inner side wall of the support frame, the movable threaded rod is symmetrically arranged between the inner side walls of the support frame, the movable threaded rod is arranged between the sliding support plate and the inner side wall of the support frame, two ends of one movable threaded rod penetrate through the side wall of the support frame, one end of the other movable threaded rod penetrates through the side wall of the support frame, the cleaning motor is arranged on the outer side wall of the support frame, and the cleaning motor is connected with the movable threaded rod, the first belt pulley is arranged at one end of the movable threaded rod, the first transmission belt is arranged on the first belt pulley, the magnetic absorption layer is arranged on the inner side wall of the magnetic absorption slider, the magnetic absorption layer and the magnetic absorption block are arranged correspondingly, and the bidirectional threaded rod of the movable threaded rod can drive the magnetic absorption slider to move back and forth on the sliding support plate.

In addition, outer support casing outer wall array is equipped with the dust disposal mouth, the dust disposal mouth corresponds the setting with the dust removal scraper blade, the timely processing of the dust of collecting after being convenient for will scraping.

Further, the outer casing upper wall that supports is equipped with the air exhauster, the upper wall of outer casing that supports is equipped with exhaust gas duct one, the air intake department of air exhauster is located to the other end of exhaust gas duct one, it is equipped with exhaust gas duct two to purify casing lateral wall lower part, the other end of exhaust gas duct two is connected with the air outlet of air exhauster, and in the exhaust gas suction after the air exhauster adsorbs the static purified the casing, and produced the negative pressure on the upper portion of a dust adsorption section of thick bamboo this moment, has avoided gas to spill over from the lower part.

The lower part of the outer support shell is eccentrically provided with a waste gas input pipe, and the waste gas input pipe penetrates through the bottom plate and extends into the dust adsorption cylinder.

In the device, the lower part of the outer support shell is provided with first support legs in pairwise symmetry, and the lower part of the connecting support plate is provided with second support legs in pairwise symmetry, so that the stability of the device is improved.

The invention with the structure has the following beneficial effects:

1. in the self-cleaning electrostatic dust removal mechanism, industrial waste gas flows in a dust adsorption cylinder to drive a fan to rotate, the fan drives a driving shaft to rotate through a speed reducer, the driving gear drives a driven gear to rotate by utilizing planetary gear transmission, a belt wheel rotating shaft and a transmission worm are driven to rotate by utilizing a belt, the transmission worm drives a vertically arranged transmission worm wheel to rotate, the dust adsorption cylinder is always kept in a dust adsorption state, and dust can be adsorbed on a dust cleaning transmission belt, so that the dust cleaning transmission belt can circularly take the adsorbed dust out of the dust adsorption cylinder and slide to the bottom of an outer support shell through a dust removal scraper blade;

2. the first light guide plate and the second light guide plate alternately form a photocatalyst purification channel, the irradiation area of ultraviolet rays is increased by the first light guide plate and the second light guide plate, the efficiency of photocatalyst catalysis is improved, the height of the first light guide plate and the height of the second light guide plate are smaller than the internal height of the purification shell, gas passes through the upper part of the first light guide plate and the lower part of the second light guide plate, and the first light guide plate and the second light guide plate form a continuous fold line channel, so that the retention time of waste gas is prolonged, meanwhile, the waste gas is disturbed, and the photocatalyst catalysis effect is improved;

3. the first light guide plate is arranged on the inner upper wall of the purifying shell, the second light guide plate is arranged on the inner bottom wall of the purifying shell, the first light guide plate and the second light guide plate are arranged, the cleaning scraper is arranged on the first light guide plate and the second light guide plate, the magnetic attraction layer and the magnetic attraction block are attracted to drive the cleaning scraper to slide on the first light guide plate and the second light guide plate, and then water vapor generated by photocatalyst and the cleaning of residual dust in the suction are cleaned, so that the effective catalytic performance of the photocatalyst on the light guide plate is guaranteed.

Drawings

Fig. 1 is a schematic perspective view of an exhaust emission treatment apparatus according to the present invention;

FIG. 2 is a top view of an exhaust emission treatment device according to the present invention;

FIG. 3 is a schematic perspective view of a magnetic attraction type channel cleaning assembly of an exhaust emission treatment device according to the present invention;

fig. 4 is a schematic perspective view of a self-cleaning electrostatic precipitation mechanism of the exhaust emission treatment device according to the present invention;

FIG. 5 is a schematic view of the internal structure of a self-cleaning electrostatic precipitation mechanism of the exhaust emission treatment device according to the present invention;

FIG. 6 is a schematic perspective view of a pneumatic drive assembly of an exhaust emission treatment device according to the present invention;

FIG. 7 is an enlarged view of portion A of FIG. 4;

FIG. 8 is an enlarged view of portion B of FIG. 5;

FIG. 9 is an enlarged view of portion C of FIG. 4;

fig. 10 is a schematic view of the internal structure of a purification casing of an exhaust emission treatment apparatus according to the present invention;

FIG. 11 is a schematic view of an internal structure of a first light guide plate of the exhaust emission treatment device according to the present invention;

fig. 12 is a schematic view of an internal structure of a second light guide plate of the exhaust emission treatment device according to the present invention;

FIG. 13 is a schematic perspective view of a cleaning blade of an exhaust gas treatment apparatus according to the present invention;

fig. 14 is a front view of a cleaning blade of an exhaust emission treatment apparatus according to the present invention.

Wherein, 1, outer supporting shell, 2, self-cleaning electrostatic dust removing mechanism, 3, connecting supporting plate, 4, photocatalyst waste gas purifying mechanism, 5, dust cleaning and collecting component, 6, electrostatic adsorbing component, 7, pneumatic transmission component, 8, purifying shell, 9, photocatalyst purifying channel, 10, magnetic type channel cleaning component, 11, dust adsorbing cylinder, 12, bottom plate, 13, lower supporting column, 14, discharging electrode, 15, insulator, 16, dust cleaning transmission belt, 17, transmission roller, 18, transmission supporting frame, 19, transmission worm, 20, transmission worm wheel, 21, worm wheel transmission shaft, 22, dust removing scraper, 23, fan, 24, cross supporting frame, 25, connecting column, 26, reducer, 27, driving shaft, 28, driving gear, 29, driven shaft, 30, driven gear, 31, belt pulley two, 32, belt pulley three, 33 and belt pulley rotating shaft, 34. the second transmission belt 35, the first light guide plate 36, the second light guide plate 37, the soft rubber layer 38, the cleaning scraper 39, the ultraviolet lamp column 40, the photocatalyst layer 41, the first clamping groove 42, the second clamping groove 43, the first placing groove 44, the second placing groove 45, the magnetic suction block 46, the support frame 47, the sliding support plate 48, the connecting support block 49, the magnetic suction slider 50, the movable threaded rod 51, the cleaning motor 52, the first belt pulley 53, the magnetic suction layer 54, the first transmission belt 55, the dust treatment port 56, the exhaust fan 57, the first exhaust gas pipeline 58, the second exhaust gas pipeline 59, the exhaust gas input pipe 60, the exhaust pipe 61, the first support leg 62 and the second support leg.

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.

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; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1, fig. 2, fig. 4, and fig. 10, the present invention provides a waste gas emission treatment apparatus, which includes an outer support housing 1, a self-cleaning electrostatic precipitation mechanism 2, a connection support plate 3, and a photocatalyst waste gas purification mechanism 4, wherein the outer support housing 1 is a hollow cavity, the self-cleaning electrostatic precipitation mechanism 2 is disposed inside the outer support housing 1, the connection support plate 3 is disposed at the middle lower portion of the outer side wall of the outer support housing 1, and the photocatalyst waste gas purification mechanism 4 is disposed on the upper wall of the connection support plate 3;

the self-cleaning electrostatic dust removal mechanism 2 comprises a dust cleaning and collecting component 5, an electrostatic adsorption component 6 and a pneumatic transmission component 7, wherein the electrostatic adsorption component 6 is arranged inside the outer support shell 1, the dust cleaning and collecting component 5 is arranged on the electrostatic adsorption component 6 in an array manner, the pneumatic transmission component 7 is arranged on the inner upper wall of the outer support shell 1, and the pneumatic transmission component 7 is arranged on the electrostatic adsorption component 6;

photocatalyst exhaust purification mechanism 4 is including purifying casing 8, photocatalyst purification passageway 9 and magnetism to inhale clean subassembly 10 of formula passageway, purifies casing 8 and locates to be the cavity setting, purifies casing 8 and locates the 3 upper walls of joint support board, and inside photocatalyst purification passageway 9 located and purifies casing 8, magnetism was inhaled clean subassembly 10 of formula passageway and is located on purifying casing 8 outer wall.

As shown in fig. 4, 5, 7, and 8, the electrostatic adsorption assembly 6 includes a dust adsorption cylinder 11, a bottom plate 12, lower support columns 13, a discharge electrode 14, and insulators 15, the bottom plate 12 is disposed on the inner bottom wall of the outer support housing 1, the lower support columns 13 are disposed on the upper wall of the bottom plate 12 in two-to-two symmetry, the dust adsorption cylinder 11 is disposed on the upper portion of the lower support columns 13, the insulators 15 are disposed at the center of the upper wall of the bottom plate 12, the lower end of the discharge electrode 14 is disposed on the upper end of the insulators 15, the discharge electrode 14 is connected to the negative electrode to ionize dust, the dust adsorption cylinder 11 is connected to the positive electrode, ionized dust particles with points move toward the dust adsorption cylinder 11, and dust is collected on the dust cleaning transmission belt 16.

As shown in fig. 4, 5, 7, 8 and 9, the dust cleaning and collecting assembly 5 includes a dust cleaning belt 16, a transmission roller 17, a transmission support frame 18, a transmission worm 19, transmission worm wheels 20, worm wheel transmission shafts 21 and a dust removing scraper 22, the transmission support frame 18 is symmetrically disposed on the upper wall and the lower wall of the dust adsorbing cylinder 11, the transmission roller 17 is rotatably disposed between the inner side walls of the transmission support frame 18, the dust cleaning belt 16 is disposed on the transmission roller 17, the dust cleaning belt 16 is disposed on both sides of the outer wall of the dust adsorbing cylinder 11, the worm wheel transmission shafts 21 are symmetrically penetrated through the side walls of the transmission support frame 18, the worm wheel transmission shafts 21 are connected with the transmission roller 17, the transmission worm wheels 20 are disposed on the worm wheel transmission shafts 21, the transmission worms 19 are disposed at four corners of the upper wall of the dust adsorbing cylinder 11, the transmission worms 19 are engaged with two adjacent transmission worm wheels 20, the dust removing scraper 22 is obliquely disposed on the upper wall of the bottom plate 12, the dust removal scraper 22 is arranged at the lower part of the transmission roller 17 and is contacted with the dust cleaning transmission belt 16, the dust cleaning transmission belt 16 rotates anticlockwise under the driving of the transmission roller 17, the dust on the dust cleaning transmission belt 16 is scraped by the dust removal scraper 22, and the dust enters the dust treatment port 55 at the bottom of the outer support shell 1 along the dust removal scraper 22.

As shown in fig. 4, 5, 6 and 7, in order to enable the dust cleaning and collecting assembly 5 to move without external power, the pneumatic transmission assembly 7 includes a fan 23, a cross support 24, a connection column 25, a reducer 26, a driving shaft 27, a driving gear 28, a driven shaft 29, a driven gear 30, a second pulley 31, a third pulley 32, a pulley rotation shaft 33 and a second transmission belt 34, wherein the connection column 25 is symmetrically arranged on the inner upper wall of the outer support housing 1 in pairs, the cross support 24 is arranged at the lower end of the connection column 25, the pulley rotation shaft 33 penetrates through the upper wall of the cross support 24, the second pulley 31 is arranged on the pulley rotation shaft 33, the pulley rotation shaft 33 is connected with the transmission worm 19 through a coupler, the driven shafts 29 are arranged on the upper wall of the cross support 24 in an array manner, the third pulley 32 is arranged on the driven shaft 29, and the second transmission belt 34 is arranged on the second pulley 31 and the third pulley 32, driven gear 30 locates the upper end of driven shaft 29, and fan 23 locates cross support frame 24 lower wall center department, and reduction gear 26 locates cross support frame 24 upper wall center department, and fan 23 is connected with reduction gear 26, and reduction shaft 27 locates the reduction gear 26 upper end, and fan 23 rotates and can drive the driving shaft 27 and rotate, slows down the rotational speed of fan 23 to suitable transmission rate, and driving gear 28 locates on driving shaft 27, and driving gear 28 meshes with driven gear 30.

As shown in fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, in order to purify the exhaust gas after dust removal again, the photocatalyst purifying channel 9 includes a first light guide plate 35, a second light guide plate 36, a soft rubber layer 37, a cleaning scraper 38, an ultraviolet lamp post 39, and a photocatalyst layer 40, the second light guide plate 36 is disposed on the inner bottom wall of the purifying housing 8, the first light guide plate 35 is disposed on the inner upper wall of the purifying housing 8, the first light guide plate 35 is disposed at an interval with the second light guide plate 36, the cleaning scraper 38 is disposed in the purifying housing 8, the cleaning scraper 38 is disposed perpendicular to the first light guide plate 35 and the second light guide plate 36, the cleaning scraper 38 is disposed on the side wall with a first slot 41, the cleaning scraper 38 is disposed on the side wall with a second slot 42, the first slot 41 is disposed at an interval with the second slot 42, the first light guide plate 35 is disposed in the first slot 41, the second light guide plate 36 is disposed in the second slot 42, a first slot 43 is disposed in the first light guide plate 35, a second slot 44 is disposed in the second light guide plate 36, the ultraviolet lamp post 39 is respectively arranged in the first placing groove 43 and the second placing groove 44, the ultraviolet lamp post 39 is arranged in the first light guide plate 35 and the second light guide plate 36, the light guide plate increases the irradiation area of ultraviolet rays, the photocatalyst layer 40 is arranged on the outer side walls of the first light guide plate 35 and the second light guide plate 36, the ultraviolet rays generated by the first light guide plate 35 and the second light guide plate 36 directly promote the photocatalyst to generate catalytic action, the heights of the first light guide plate 35 and the second light guide plate 36 are less than the internal height of the purifying shell 8, the first light guide plate 35 and the second light guide plate 36 form a continuous broken line channel, the residence time of waste gas is increased, meanwhile, the waste gas is disturbed, and finally the waste gas purification is completed, the soft rubber layer 37 is arranged on the side wall of the first clamping groove 41 on the cleaning scraper 38, the soft rubber layer 37 is arranged on the side wall of the second clamping groove 42 on the cleaning scraper 38, the cleaning scraper 38 is prevented from scraping the photocatalyst coating, and the effect of waste gas treatment is influenced, magnetic blocks 45 are symmetrically arranged on the side wall of the cleaning scraper 38.

As shown in fig. 1, 2 and 3, in order to facilitate the movement of the cleaning scraper 38 in the tube photocatalyst cleaning channel 9, the magnetic channel cleaning assembly 10 includes a support frame 46, a sliding support plate 47, a connection support block 48, a magnetic slider 49, a movable threaded rod 50, a cleaning motor 51, a first belt pulley 52, a magnetic layer 53 and a first transmission belt 54, the connection support block 48 is symmetrically disposed on the outer side wall of the cleaning housing 8, the support frame 46 is disposed on the periphery of the cleaning housing 8, the inner side wall of the support frame 46 is disposed on the outer side wall of the connection support block 48, the sliding support plate 47 is symmetrically disposed on the inner side wall of the support frame 46, the movable threaded rods 50 are symmetrically disposed between the inner side walls of the support frame 46, the movable threaded rods 50 are disposed between the sliding support plate 47 and the inner side wall of the support frame 46, two ends of one movable threaded rod 50 penetrate through the side wall of the support frame 46, one end of the other movable threaded rod 50 penetrates through the side wall of the support frame 46, clean motor 51 locates the braced frame 46 lateral wall, and clean motor 51 is connected with mobile threaded rod 50, and the one end of mobile threaded rod 50 is located to belt pulley 52, and driving belt 54 is located on belt pulley 52, and magnetism is inhaled layer 53 and is located and inhale slider 49 inside wall, and magnetism is inhaled layer 53 and is inhaled a set of correspondence with magnetism 45, and wherein the two-way threaded rod of mobile threaded rod 50 can drive magnetism and inhale slider 49 round trip movement on sliding support plate 47.

As shown in fig. 1, the outer wall array of the outer support housing 1 is provided with dust treatment ports 55, and the dust treatment ports 55 are arranged corresponding to the dust removal scrapers 22, so that dust collected after scraping can be treated in time.

As shown in fig. 1, an exhaust fan 56 is arranged on the upper wall of the outer supporting shell 1, a first exhaust gas pipeline 57 is arranged on the upper wall of the outer supporting shell 1, the other end of the first exhaust gas pipeline 57 is arranged at an air inlet of the exhaust fan 56, a second exhaust gas pipeline 58 is arranged on the lower portion of the outer side wall of the purifying shell 8, the other end of the second exhaust gas pipeline 58 is connected with an air outlet of the exhaust fan 56, the exhaust fan 56 sucks the exhaust gas after electrostatic absorption into the purifying shell 8, and at the moment, negative pressure is generated on the upper portion of the dust absorption cylinder 11, so that gas overflow from the lower portion is avoided.

As shown in fig. 1, an exhaust gas input pipe 59 is eccentrically arranged at the lower part of the outer support shell 1, the exhaust gas input pipe 59 penetrates through the bottom plate 12 and extends into the dust adsorption cylinder 11, an exhaust pipe 60 is arranged at the lower part of the side wall of the purification shell 8 far away from the exhaust gas pipeline II 58, and purified gas is discharged from the exhaust pipe 60.

As shown in figure 1, the lower part of the outer supporting shell 1 is provided with first supporting legs 61 in pairwise symmetry, and the lower part of the connecting supporting plate 3 is provided with second supporting legs 62 in pairwise symmetry, so that the stability of the device is improved.

When the dust cleaning device is used specifically, the device is placed at a waste gas outlet, then a waste gas input pipe 59 is connected with the waste gas outlet, an exhaust fan 56 is opened, the exhaust fan 56 exhausts air from a waste gas pipeline I57, waste gas enters a dust adsorption cylinder 11 from the input pipe, a discharge electrode 14 ionizes the gas, the dust is negatively charged at the moment, the dust adsorption cylinder 11 is positively charged, the dust moves towards the dust adsorption cylinder 11 and is adsorbed on a dust cleaning transmission belt 16, the air flow drives a fan 23 to rotate, the fan 23 drives a speed reducer 26 to rotate, the speed reducer 26 drives a driving shaft 27 to rotate, the driving shaft 27 drives a driving gear 28 to rotate, the driving gear 28 drives a driven gear 30 to rotate, the driven gear 30 drives a driven shaft 29 to rotate, the driven shaft 29 drives a belt pulley III 32 to rotate, the belt pulley III 32 drives a belt pulley II 31 to rotate through a transmission belt II 34, and the belt pulley II 31 drives a belt pulley rotating shaft 33 to rotate, the belt wheel rotating shaft 33 drives the transmission worm 19 to rotate, the transmission worm 19 drives the transmission worm wheel 20 to rotate, the transmission worm wheel 20 drives the worm wheel transmission shaft 21 to rotate, the worm wheel transmission shaft 21 drives the transmission roller 17 to rotate, the transmission roller 17 drives the dust cleaning transmission belt 16 to rotate, the dust adsorption cylinder 11 has adsorption effect, adsorbed dust always stays on the dust cleaning transmission belt 16, the dust cleaning transmission belt 16 rotates anticlockwise, when the dust cleaning transmission belt 16 passes through the dust cleaning scraper 22, the dust is scraped off and enters the inner bottom wall of the outer supporting shell 1 along the dust cleaning scraper 22, and the dust can be cleaned in time through the dust treatment port 55;

the exhaust fan 56 conveys the exhaust gas after electrostatic adsorption to the evolution shell through the exhaust gas pipeline two 58, the ultraviolet lamp post 39 is opened, the ultraviolet irradiation area of the first light guide plate 35 and the second light guide plate 36 is increased, the gas sequentially passes through the upper part of the first light guide plate 35 and the lower part of the second light guide plate 36, the photocatalyst added with the gas is irradiated by the ultraviolet ray to play a role of catalysis, the exhaust gas is purified and treated, the catalysis can generate water vapor, the sucked gas possibly contains a small amount of dust, the gas can be adhered to the first light guide plate 35 and the second light guide plate 36 after a long time, at the moment, the cleaning motor 51 is opened, the cleaning motor 51 drives one of the movable threaded posts to rotate, the movable threaded post drives the first belt pulley 52 to rotate, the first belt pulley 52 drives the first transmission belt 54 to rotate the second belt pulley 52, and at the moment, the two movable threaded posts keep synchronous rotation, the movable threaded rod 50 drives the magnetic suction sliding block 49 to slide back and forth on the sliding support plate 47, the magnetic suction layer 53 attracts the magnetic suction block 45 to drive the cleaning scraper 38 to move back and forth, and the rubber soft layer 37 scrapes the first light guide plate 35 and the second light guide plate 36 to keep the first light guide plate 35 and the second light guide plate 36 clean.

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.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings show only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An exhaust emission treatment device, characterized in that: comprises that

The outer supporting shell (1), the outer supporting shell (1) is arranged in a hollow cavity;

the self-cleaning electrostatic dust removal mechanism (2), the self-cleaning electrostatic dust removal mechanism (2) is arranged in the outer support shell (1);

the connecting support plate (3) is arranged at the middle lower part of the outer side wall of the outer support shell (1);

the photocatalyst waste gas purification mechanism (4), the photocatalyst waste gas purification mechanism (4) is arranged on the upper wall of the connecting support plate (3);

the self-cleaning electrostatic dust removal mechanism (2) comprises a dust cleaning and collecting component (5), an electrostatic adsorption component (6) and a pneumatic transmission component (7), wherein the electrostatic adsorption component (6) is arranged inside the outer supporting shell (1), the dust cleaning and collecting component (5) is arranged on the electrostatic adsorption component (6) in an array manner, the pneumatic transmission component (7) is arranged on the inner upper wall of the outer supporting shell (1), and the pneumatic transmission component (7) is arranged on the electrostatic adsorption component (6);

photocatalyst exhaust purification mechanism (4) are including purifying casing (8), photocatalyst purification passageway (9) and magnetism inhale clean subassembly of formula passageway (10), it is the cavity setting to locate to purify casing (8), it locates joint support board (3) upper wall to purify casing (8), photocatalyst purification passageway (9) are located and are purified inside casing (8), magnetism is inhaled clean subassembly of formula passageway (10) and is located on purifying casing (8) outer wall.

2. The exhaust emission treatment apparatus according to claim 1, characterized in that: the electrostatic adsorption component (6) comprises a dust adsorption cylinder (11), a bottom plate (12), lower support columns (13), a discharge electrode (14) and an insulator (15), the bottom plate (12) is arranged on the inner bottom wall of the outer support shell (1), the lower support columns (13) are symmetrically arranged on the upper wall of the bottom plate (12), the dust adsorption cylinder (11) is arranged on the upper portion of the lower support columns (13), the insulator (15) is arranged at the center of the upper wall of the bottom plate (12), and the lower end of the discharge electrode (14) is arranged on the upper end of the insulator (15).

3. The exhaust emission treatment apparatus according to claim 2, characterized in that: the dust cleaning and collecting assembly (5) comprises a dust cleaning transmission belt (16), a transmission roller (17), a transmission support frame (18), a transmission worm (19), a transmission worm wheel (20), a worm transmission shaft (21) and a dust removal scraper (22), wherein the transmission support frame (18) is symmetrically arranged on the upper wall and the lower wall of the dust adsorption cylinder (11), the transmission roller (17) is rotatably arranged between the inner side walls of the transmission support frame (18), the dust cleaning transmission belt (16) is arranged on the transmission roller (17), the dust cleaning transmission belt (16) is arranged on the two sides of the outer wall of the dust adsorption cylinder (11), the worm transmission shaft (21) is symmetrically penetrated through the side wall of the transmission support frame (18), the worm transmission shaft (21) is connected with the transmission roller (17), the transmission worm wheel (20) is arranged on the worm transmission shaft (21), the transmission worm (19) is arranged at four corners of the upper wall of the dust adsorption cylinder (11), the transmission worm (19) is meshed with two adjacent transmission worm wheels (20), the dust removal scraper (22) is obliquely arranged on the upper wall of the bottom plate (12), and the dust removal scraper (22) is arranged on the lower portion of the transmission roller (17) and is in contact with the dust cleaning transmission belt (16).

4. The exhaust emission treatment apparatus according to claim 3, characterized in that: pneumatic transmission assembly (7) includes fan (23), cross support frame (24), spliced pole (25), reduction gear (26), driving shaft (27), driving gear (28), driven shaft (29), driven gear (30), belt pulley two (31), belt pulley three (32), band pulley rotation axis (33) and driving belt two (34), the upper wall in outer support casing (1) is located to spliced pole (25) two bisymmetry, spliced pole (25) lower extreme is located in cross support frame (24), band pulley rotation axis (33) runs through and locates cross support frame (24) upper wall, belt pulley two (31) are located on band pulley rotation axis (33), band pulley rotation axis (33) are connected with driving worm (19) through the shaft coupling, driven shaft (29) array is located cross support frame (24) upper wall, belt pulley three (32) are located on driven shaft (29), two (34) of driving belt locate on two (31) of belt pulleys and three (32) of belt pulley, driven shaft (29) upper end is located in driven gear (30), cross support frame (24) lower wall center department is located in fan (23), cross support frame (24) upper wall center department is located in reduction gear (26), fan (23) are connected with reduction gear (26), reduction gear (26) upper end is located in driving shaft (27), driving gear (28) are located on driving shaft (27), driving gear (28) and driven gear (30) meshing.

5. The exhaust emission treatment apparatus according to claim 4, wherein: the photocatalyst purification channel (9) comprises a first light guide plate (35), a second light guide plate (36), a soft rubber layer (37), a cleaning scraper (38), an ultraviolet lamp post (39) and a photocatalyst layer (40), wherein the second light guide plate (36) is arranged at the inner bottom wall of the purification shell (8) in an array manner, the first light guide plate (35) is arranged at the inner upper wall of the purification shell (8) in an array manner, the first light guide plate (35) and the second light guide plate (36) are arranged at intervals, the cleaning scraper (38) is arranged in the purification shell (8) in an array manner, the cleaning scraper (38) is vertically arranged with the first light guide plate (35) and the second light guide plate (36), the side wall of the cleaning scraper (38) is provided with a first clamping groove (41), the side wall of the cleaning scraper (38) is provided with a second clamping groove (42), the first clamping groove (41) and the second clamping groove (42) are arranged at intervals, the first light guide plate (35) is arranged in the first clamping groove (41), the light guide plate II (36) is arranged in a clamping groove II (42), a first placing groove (43) is arranged in the light guide plate I (35), a second placing groove (44) is arranged in the light guide plate II (36), the ultraviolet lamp post (39) is respectively arranged in the first placing groove (43) and the second placing groove (44), the photocatalyst layer (40) is arranged on the outer side walls of the light guide plate I (35) and the light guide plate II (36), the soft rubber layer (37) is arranged on the side wall of the clamping groove I (41) on the cleaning scraper (38), the soft rubber layer (37) is arranged on the side wall of the clamping groove II (42) on the cleaning scraper (38), and the magnetic suction blocks (45) are symmetrically arranged on the side wall of the cleaning scraper (38).

6. The exhaust emission treatment apparatus according to claim 5, characterized in that: the clean subassembly of formula passageway (10) is inhaled to magnetism includes carriage (46), slip backup pad (47), connects supporting shoe (48), magnetism inhales slider (49), mobile threaded rod (50), clean motor (51), belt pulley (52), magnetism inhale layer (53) and driving belt (54), it locates to purify casing (8) lateral wall to connect supporting shoe (48) symmetry, it is peripheral to purify casing (8) to locate carriage (46), the lateral wall of connecting supporting shoe (48) is located to the inside wall of carriage (46), carriage (46) inside wall is located to slip backup pad (47) symmetry, mobile threaded rod (50) symmetry is located between carriage (46) inside wall, mobile threaded rod (50) are located between slip backup pad (47) and carriage (46) inside wall, carriage (46) lateral wall is run through at the both ends of one of them mobile threaded rod (50), one end of another movable threaded rod (50) runs through the lateral wall of the supporting frame (46), the outer lateral wall of the supporting frame (46) is arranged in the cleaning motor (51), the cleaning motor (51) is connected with the movable threaded rod (50), one end of the movable threaded rod (50) is arranged in the belt pulley (52), the transmission belt (54) is arranged on the belt pulley (52), the magnetic absorption layer (53) is arranged on the inner lateral wall of the magnetic absorption sliding block (49), and the magnetic absorption layer (53) and the magnetic absorption block (45) are correspondingly arranged.

7. The exhaust emission treatment apparatus according to claim 6, characterized in that: the outer wall array of outer support casing (1) is equipped with dust processing mouth (55), dust processing mouth (55) and dust removal scraper blade (22) correspond the setting.

8. The exhaust emission treatment apparatus according to claim 7, characterized in that: the air purifier is characterized in that an exhaust fan (56) is arranged on the upper wall of the outer support shell (1), a first exhaust gas pipeline (57) is arranged on the upper wall of the outer support shell (1), the other end of the first exhaust gas pipeline (57) is arranged at an air inlet of the exhaust fan (56), a second exhaust gas pipeline (58) is arranged on the lower portion of the outer side wall of the purification shell (8), and the other end of the second exhaust gas pipeline (58) is connected with an air outlet of the exhaust fan (56).

9. The exhaust emission treatment device according to claim 8, wherein: an exhaust gas input pipe (59) is eccentrically arranged at the lower part of the outer supporting shell (1), and an exhaust pipe (60) is arranged at the lower part of the side wall of the purifying shell (8) far away from the exhaust gas pipeline II (58).

10. The exhaust emission treatment apparatus according to claim 9, characterized in that: the lower part of the outer supporting shell (1) is provided with first supporting legs (61) in a pairwise symmetrical manner, and the lower part of the connecting supporting plate (3) is provided with second supporting legs (62) in a pairwise symmetrical manner.

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