CN211069512U - Double-stage high-pressure superfine atomization wet type dust removal fan - Google Patents

Double-stage high-pressure superfine atomization wet type dust removal fan Download PDF

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CN211069512U
CN211069512U CN201921656365.4U CN201921656365U CN211069512U CN 211069512 U CN211069512 U CN 211069512U CN 201921656365 U CN201921656365 U CN 201921656365U CN 211069512 U CN211069512 U CN 211069512U
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shell
water
impeller
water collecting
retaining ring
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宁海峰
王斌
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Tai'an Huanyu Dedusting Technology Co ltd
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Tai'an Huanyu Dedusting Technology Co ltd
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Abstract

The utility model provides a superfine wet-type dust removal fan that atomizes of doublestage high pressure, includes first casing, first sprinkler and impeller, first sprinkler is located the air intake position of first casing front end, sets up the seal installation cover in the first casing, and the fixed mounting panel between the periphery of seal installation cover and the first shells inner wall installs the motor in the seal installation cover, and the first casing is worn out via the mounting panel to the wire of motor. The utility model has the advantages of: the first water retaining ring and the second water collecting groove arranged at the rear end of the first shell can further adsorb and separate dust-containing liquid drops in the first shell, so that the dust removal efficiency of the whole device is improved. Still install superfine atomizing dust filter equipment in first casing rear end, superfine atomizing dust filter equipment can carry out effective adsorption and separation to the less dust of particle diameter, further improves the dust removal effect of device to guarantee site operation's normal operational environment.

Description

Double-stage high-pressure superfine atomization wet type dust removal fan
Technical Field
The utility model belongs to the technical field of the dust collecting equipment technique and specifically relates to a doublestage high pressure superfine atomizing wet dedusting fan.
Background
In mine or tunnel excavation operation, often can produce a large amount of dusts, bring the pollution for the site operation environment, influence the normal clear of operation, in order to guarantee site operation personnel's health, install wet dedusting fan at the job site usually, spray water smoke and catch the dust and then realize gas-water separation through centrifugal force via inside impeller again, thereby reach dust removal effect, but the inside impeller of current dust removal fan is limited to the adsorption efficiency of dusty liquid drop, can't satisfy established gas-water separation requirement, and to some less dust of particle diameter, its dust removal effect is also not showing, how to promote the dust collection efficiency and the dust removal effect of wet dust remover fan and be present the problem of waiting to solve urgently.
Disclosure of Invention
In order to solve the above problem, an object of the utility model is to provide a doublestage high pressure superfine atomizing wet dedusting fan, all install the wiper blade on every blade of impeller, the wiper blade can show the gas-water separation ability that improves the impeller when rotatory, and then improves dust collection efficiency, still installs superfine atomizing dust filter equipment in first casing rear end, can adsorb the separation to the dust particle of different diameters as required, has still promoted the application range of integrated device when guaranteeing dust removal effect.
The utility model provides a technical scheme that its technical problem adopted is: a double-stage high-pressure superfine atomization wet type dust removal fan comprises a first shell, a first sprayer and an impeller, wherein the first sprayer is positioned at an air inlet at the front end of the first shell, a seal installation cover is arranged in the first shell, a mounting plate is fixedly installed between the periphery of the seal installation cover and the inner wall of the first shell, a motor is installed in the seal installation cover, a lead of the motor penetrates out of the first shell through the mounting plate, an output shaft of the motor penetrates out of the seal installation cover to be connected with the impeller, the impeller is positioned at the rear side of the first sprayer, a first filter screen is fixedly installed on the inner wall of the first shell between the first sprayer and the impeller, an inclined water scraping plate is arranged on one side of each blade of the impeller, a first water collecting groove is installed on the inner wall of the first shell, a second water collecting groove is installed on the inner wall at the rear end of the first shell, a first water outlet is formed in the, a second water outlet is formed in the bottom of the second water collecting tank, a first water retaining ring with the diameter smaller than that of the first shell is further installed inside the second water collecting tank, a superfine atomized dust filtering device is fixedly installed at the air outlet position at the rear end of the first shell and comprises a second shell fixedly connected with the first shell, a second sprayer is installed at the front end inside the second shell, the diameter of water mist sprayed by the second sprayer is smaller than that of the water mist sprayed by the first sprayer, a second filter screen is fixedly installed on the rear side of the second sprayer, the diameter of meshes on the second filter screen is smaller than that of meshes on the first filter screen, mounting frames are installed on the inner wall of the second shell on the rear side of the second filter screen side by side, a rotating shaft is horizontally installed on the mounting frames, a driven impeller is sleeved on the rotating shaft in a matching mode, and a third water collecting tank is arranged at the air outlet position at the rear end of the second, and a second water retaining ring with the diameter smaller than that of the second shell is arranged in the third water collecting tank.
The front end of the first water collecting tank corresponds to the position of the middle and rear end parts of the impeller, and the rear end of the first water collecting tank is positioned behind the impeller. The wiper blade extends from the blade root to the blade end continuously along the length direction of the blade. The air inlet position of the front end of the first shell is in an open horn mouth shape. The first sprayer comprises a first water inlet pipe and an annular first spraying pipe, the first spraying pipe is matched with the inner wall of the front end of the first shell, a plurality of first nozzles are arranged on the first spraying pipe, and each first nozzle sprays water mist towards the central axis position of the impeller. The second sprinkler includes the second shower of second inlet tube and Y type, installs the booster pump on the second inlet tube, and the periphery of second shower cooperatees with the inner wall of second casing front end, set up a plurality of second nozzle on the second shower, every second nozzle all sprays water smoke towards driven impeller's axis position department. The first water retaining ring is in a straight tube shape, the distance between the outer peripheral wall of the first water retaining ring and the inner wall of the first shell is equal, the second water collecting groove is located at the rear side of the first water retaining ring, the height of the tube wall of the first water retaining ring is larger than the width of the second water collecting groove, the second water retaining ring is in a straight tube shape, the distance between the outer peripheral wall of the second water retaining ring and the inner wall of the second shell is equal, the third water collecting groove is located at the rear side of the second water retaining ring, and the height of the tube wall of the second water retaining ring is larger than the width of the third water collecting groove. The driven impeller comprises a mounting box and blades, the mounting box is equivalent to a hub of the impeller, a plurality of blades are mounted on the periphery of the mounting box, the mounting box is mounted on a rotating shaft and is positioned between two mounting frames, a plurality of first rotating shafts are arranged on the circumference in the mounting box, a first bevel gear is fixedly mounted at one end of each first rotating shaft positioned in the mounting box, the other end of each first rotating shaft penetrates out of the mounting box and is provided with one blade, a second bevel gear is mounted on one side of each first bevel gear in a matched manner, the second bevel gear is fixedly mounted at one end of each second rotating shaft, the other end of each second rotating shaft penetrates out of the mounting box and is fixedly provided with a square plate, a positioning sleeve is mounted on the periphery of one side of each second rotating shaft, which penetrates out of the rotating shaft, a square blind hole is formed in the side of the positioning sleeve, the spring is fixedly installed between the square plate and the bottom of the square blind hole, the spring always has the tendency of enabling the positioning sleeve to be in contact with the rotating shaft, the positioning pin is installed on the side face, close to the rotating shaft, of the positioning sleeve, positioning holes matched with the positioning pin are circumferentially distributed on the end face of the rotating shaft, and when the positioning pin is matched with the positioning holes in different positions, the inclination angle of the driven impeller can be correspondingly changed.
The utility model has the advantages of: a doublestage high pressure superfine atomizing wet dedusting fan, the first sprinkler of first casing front end can spray water smoke, utilizes the droplet in the water smoke to catch the dust granule in the air, later air and the water smoke flow direction impeller that contains dirt, respectively install a wiper blade on every blade of impeller. The wiper blade is positioned at the edge of the air outlet side of the blade. The water scraping plate continuously extends to the end part of the blade from the root part of the blade, a continuous reverse flow groove is formed between the water scraping plate and the blade, and the airflow flowing through each blade is forced to generate sharp turning at the reverse flow groove when being separated from the blade to continuously flow, so that most of liquid drops in the air can be remained in the reverse flow groove, the adsorption capacity of the impeller on dust-containing liquid drops can be improved, and the effect of gas-water separation is improved. In addition, the continuous reverse flow tank can collect the liquid drops retained in the continuous reverse flow tank and discharge the liquid drops into the first water collecting tank by utilizing the centrifugal force generated by the rotation of the impeller, and finally the liquid drops are discharged from the first water discharging port. First water catch bowl is located the rear end position of impeller, and the water scraping plate that the slope set up of deuterogamying plays the guide effect, can directly get rid of into first water catch bowl with adnexed most dirt-containing liquid drop on the impeller in, the width of first water catch bowl can be shortened by a wide margin to this design, the width that makes first water catch bowl is being greater than an impeller width, be less than the within range of the width of two impellers alright effectively collect most liquid drop, thereby can effectively reduce whole dust exhausting fan's volume, reduce manufacturing cost. The first water retaining ring and the second water collecting groove arranged at the rear end of the first shell can further adsorb and separate dust-containing liquid drops in the first shell, so that the dust removal efficiency of the whole device is improved. Still install superfine atomizing dust filter equipment in first casing rear end, superfine atomizing dust filter equipment can carry out effective adsorption and separation to the less dust of particle diameter, further improves the dust removal effect of device to guarantee site operation's normal operational environment.
Drawings
Fig. 1 is a schematic structural diagram of the present invention;
FIG. 2 is an enlarged view of the cross-sectional view taken along line A-A of FIG. 1;
FIG. 3 is a schematic three-dimensional structure of an impeller;
FIG. 4 is an enlarged view of the cross-sectional view taken along line B-B of FIG. 1;
fig. 5 is a schematic structural view of another embodiment of the rotating shaft and the driven impeller of the present invention;
FIG. 6 is an enlarged view of the cross-sectional view taken along line C-C of FIG. 5;
FIG. 7 is an enlarged view taken along line D-D of FIG. 5;
FIG. 8 is a schematic view showing a state where the wind resistance of the driven impeller is minimized in this embodiment;
fig. 9 is a schematic view of the driven impeller in the embodiment in the state where the wind resistance is maximum.
In the figure, 1, a first shell 2, a first sprayer 3, an impeller 4, a sealing mounting cover 5, a motor 7, a first filter screen 8, a water scraping plate 9, a first water collecting tank 10, a second water collecting tank 11, a first water outlet 12, a first water retaining ring 13, a second shell 14, a second sprayer 15, a second filter screen 16, a mounting frame 17, a driven impeller 19, a third water collecting tank 20, a second water retaining ring 20, a first water inlet pipe 22, a first spray pipe 23, a second water inlet pipe 25, a second spray pipe 26, a second water outlet 29, a boosting pump 28, a mounting box 30, a first rotating shaft 31, a first bevel gear 32, a second bevel gear 33, a square plate 35 of a rotating shaft 34, a positioning sleeve 36, a square blind hole 37, a spring 38, a positioning pin 39 and.
Detailed Description
A doublestage high pressure superfine atomizing wet dedusting fan, as shown in figure 1, includes a first casing 1, a first sprayer 2 and an impeller 3. The first sprayer 2 is located at an air inlet at the front end of the first shell 1 and used for mixing dust in the first shell 1 and sprayed water mist into dust-containing liquid drops so as to facilitate subsequent adsorption dust removal and gas-water separation operation. A sealing installation cover 4 is arranged at an intermediate position in the first casing 1, as shown in fig. 2, a hollow installation plate 5 is fixedly installed between the periphery of the sealing installation cover 4 and the inner wall of the first casing 1, and the number of the installation plates 5 can be one or more, and is preferably three or four. A motor 6 is mounted in the seal-mounting cover 4. The wires of the motor 6 are led out of the first housing 1 via the mounting plate 5. An output shaft of the motor 6 penetrates through the sealing installation cover 4 and is provided with the impeller 3, and the impeller 3 rotates to form airflow to provide power for dust removal of the whole device. The setting of seal installation cover 4 is not influencing under the prerequisite of the inside air current wind speed of first casing 1, can protect inside motor 6 not influenced by steam, prevents to wet, improves its life.
As shown in fig. 1, the impeller 3 is located at the rear side of the first sprayer 2, and a first filter screen 7 is fixedly installed on the inner wall of the first housing 1 between the first sprayer 2 and the impeller 3. Under the drive of the air flow in the first shell 1, the dust-containing liquid drops pass through the first filter screen 7 for preliminary filtration, and dust particles with larger particle sizes are filtered out. The first filter 7 may be formed by cross-weaving fine steel wires and has fine meshes. As shown in fig. 3, an inclined wiper blade 8 is provided on each blade side of the impeller 3, the wiper blade 8 is arranged along the length direction of the blade, and the wiper blade 8 is located at the edge of the air outlet side of the blade. When impeller 3 rotated, the setting of wiper blade 8 can improve the adhesive force of impeller 3 to the dirty liquid drop, borrow centrifugal force with it and get rid of it on first casing 1 inner wall and reach the gas-water separation purpose when housing dirty liquid drop, if do not set up wiper blade 8, the dirty liquid drop of adnexed on the impeller 3 can be separated with impeller 3 when its pivoted, the dirty liquid drop of a considerable part can not get rid of on first casing 1 inner wall, but follow the air current and continue to flow in first casing 1, this dust collection efficiency that will influence whole device.
Corresponding to the position of the rear end of the impeller 3, the inner wall of the first housing 1 is provided with the first water collecting tank 9, the inner wall of the rear end of the first housing 1 is provided with the second water collecting tank 10, the bottom of the first water collecting tank 9 is provided with the first water outlet 11, and the bottom of the second water collecting tank 10 is provided with the second water outlet 28, compared with the double-layer structure for collecting dust-containing liquid drops in the patent document CN200810015711.0, because the impeller 3 with the water scraping plate 8 can throw most of the dust-containing liquid drops attached to the impeller into the first water collecting tank 9, the utility model discloses the water collecting tank with the single-layer structure is adopted here, not only can avoid the blockage influence after long-time use, but also can reduce the required raw materials for manufacturing the first housing, and reduce the volume of the whole machine. The inside of the second water collecting tank 10 is also provided with a first water retaining ring 12 with a diameter smaller than that of the first shell 1, and the arrangement of the first water retaining ring 12 and the second water collecting tank 10 can further absorb and separate the dust-containing liquid drops in the first shell 1.
For guaranteeing that whole dust exhausting fan can adsorb the separation processing to the dust of the less granule of diameter superfine atomizing dust filter equipment of the air outlet position department fixed mounting of first casing 1 rear end, superfine atomizing dust filter equipment includes the second casing 13 with first casing 1 fixed connection, and second sprinkler 14 is installed to the inside front end of second casing 13, and second sprinkler 14 spun water smoke diameter is less than a 2 spun water smoke diameters of spray thrower, can catch the dust that the granule diameter is less easily and adsorb. At second sprinkler 14 rear side fixed mounting second filter screen 15, mesh diameter on second filter screen 15 is less than mesh diameter on first filter screen 7, can install two mounting brackets 16 on the second casing 13 inner wall of second filter screen 15 rear side by side, horizontal installation has pivot 17 between two mounting brackets 16, cooperation suit driven impeller 18 is gone up in pivot 17, installs third water catch bowl 19 in the air outlet position department at second casing 13 rear end, and the internally mounted diameter of third water catch bowl 19 is less than second retaining ring 20 of second casing 13.
When using a doublestage high pressure superfine atomizing wet dedusting fan, at first starting motor 6 drives impeller 3 and rotates, rotatory impeller 3 makes and produces the air current from air intake position to air outlet position direction in the first casing 1 to the gas that will have the dust is inhaled in the first casing 1. The first sprayer 2 always sprays water mist in the dust removing process, when gas with dust passes through the first sprayer 2, the dust and the water mist form dust-containing liquid drops, the dust-containing liquid drops firstly pass through the first filter screen 7 for preliminary filtering under the action of air flow, the dust-containing liquid drops adsorbed by the first filter screen 7 flow into the first water collecting tank 9 under the action of gravity and the action of the air flow, most of the dust-containing liquid drops passing through the first filter screen 7 are attached to blades of the impeller 3, the rest of the dust-containing liquid drops continuously move in the first shell 1 along with the air flow at the peripheral positions of the impeller 3, the dust-containing liquid drops attached to the impeller 3 are gradually accumulated near the water scraping plate 8 along with the rotation of the impeller 3, then the dust-containing liquid drops are thrown into the first water collecting tank 9 by centrifugal force under the guiding action of the water scraping plate 8 and the blowing of the air flow, and the dust-containing liquid drops in the first water collecting tank 9 enter the first water discharging port 11 under the action of gravity after being accumulated to a certain degree, the small part of the dust-containing liquid drops which are not attached to the impeller 3 enter between the first water retaining ring 12 and the second water collecting tank 10 along with the air flow, the air flow flows in a zigzag manner to realize the gas-water separation again, then the air flow is discharged out of the first shell 1 through the inner space of the first water retaining ring 12, when the air flow enters and exits between the first water retaining ring 12 and the second water collecting tank 10, due to the stroke lengthening of the air flow and the mutual collision of the air flow, most of the dust-containing liquid drops in the subsequent air flow are attached to the outer wall of the first water retaining ring 12 and the second water collecting tank 10, due to the trend of the air flow, the dust-containing liquid drops attached to the outer wall of the first water retaining ring 12 are blown into the second water collecting tank 10, the dust-containing liquid drops in the second water collecting tank 10 finally enter the second water outlet 28 under the action of gravity to be discharged, the water mist sprayed by the first sprayer 2 in the whole process mixes the dust, and the water-water separation is realized, thereby achieving the purpose of dust removal.
When the dust removing gas enters the superfine atomized dust filtering device from the first shell 1, the airflow in the second shell 13 drives the driven impeller 18 to rotate, the structural function in the second shell 13 is similar to that of each component in the first shell 1, the difference is that the diameter of the water mist particles sprayed by the second sprayer 14 is smaller, the diameter of the meshes on the second filter screen 15 is smaller than that of the meshes of the first filter screen 7, so that the dust with smaller particle diameter can be effectively captured, and the gas with a small amount of dust-containing liquid drops discharged from the first shell 1 is firstly absorbed and filtered by the second filter screen 15, then enters between the second water retaining ring 20 and the third water collecting groove 19 through the driven impeller 18, finally is discharged out of the second shell 13 from the inner part of the second water retaining ring 20, the dust-containing liquid droplets therein are mostly attached to the driven impeller 18 and discharged into the third water collecting tank 19. The setting of second casing 13 can carry out effective adsorption and separation to the less dust of particle diameter in the first casing 1 exhaust gas, improves the scope and the ability of whole device to dust disposal.
Preferably, in order to improve the adsorption capacity of the whole device to dust, the air inlet position at the front end of the first shell 1 is in an open horn mouth shape, so that the contact area between the air inlet position of the first shell 1 and an external space can be increased, and the dust removal efficiency of the device is improved.
Preferably, first sprinkler 2 includes first inlet tube 21 and annular first shower 22, and first shower 22 cooperatees with the inner wall of 1 front end of first casing, set up a plurality of first nozzle 23 on the first shower 22, every first nozzle 23 all sprays water smoke towards impeller 3's axis position department, and the shower 22 spun water smoke that the circumference set up can carry out the omnidirectional with the dust and mix, improves the seizure efficiency of water smoke to the dust to improve integrated device's dust collection efficiency.
Preferably, as shown in fig. 4, the second spraying device 14 includes a second water inlet pipe 24 and a Y-shaped second spraying pipe 25, a pressurizing pump 27 is installed on the second water inlet pipe 24, the outer circumference of the second spraying pipe 25 is fitted with the inner wall of the front end of the second housing 13, the second spraying pipe 25 is provided with a plurality of second nozzles 26, each second nozzle 26 sprays water mist towards the central axis of the driven impeller 18, the diameter of the second nozzle 26 is smaller than that of the first nozzle 23, under the effect of booster pump 27, second sprinkler 14 can spout the superfine atomizing water smoke of high pressure, can effectively catch the less dust of particle diameter, and subsequent adsorption separation of being convenient for, the second shower 25 that the Y type set up cooperatees with leading mounting panel 5, can reduce the resistance when dusty gas gets into second casing 13 from first casing 1, is favorable to the dust adsorption separation processing of dusty gas in superfine atomizing dust filter equipment.
Preferably, the first water retaining ring 12 is in a straight cylinder shape, the distance between the outer peripheral wall of the first water retaining ring 12 and the inner wall of the first housing 1 is equal, the second water collecting groove 10 is located at the rear side of the first water retaining ring 12, and the height of the cylinder wall of the first water retaining ring 12 is greater than the width of the second water collecting groove 10. The second water retaining ring 20 is in a straight tube shape, the distance between the outer peripheral wall of the second water retaining ring 20 and the inner wall of the second shell 13 is equal everywhere, the third water collecting groove 19 is located at the rear side of the second water retaining ring 20, the height of the tube wall of the second water retaining ring 20 is larger than the width of the third water collecting groove 19, compared with a water retaining cover obliquely arranged in patent document CN201020575594.6, the straight tube-shaped water retaining ring can reduce the wind resistance in the first shell 1 to a great extent, so that the energy consumption is reduced, the height of the tube wall of the water retaining ring is larger than the width of the water collecting groove, the stroke of air flow between the water retaining ring and the water collecting groove can be further increased, dust-containing liquid drops can be attached to the greatest extent, and the purposes of air-water separation and final dust removal are achieved.
The utility model discloses the superfine atomizing dust filter equipment who establishes that adds can carry out effective dust removal processing to the more air that contains the dust, dust quantity is not many in the air, simultaneously when not high to the dust removal required precision, first casing 1 and impeller 3 through superfine atomizing dust filter equipment front side just can effectively reach when dust removal effect, for suitably reducing the risk, reduce motor 6's load, driven impeller 18 and air current area of contact's size in the adjustable superfine atomizing dust filter equipment, and then reduce the windage of driven impeller 18 to whole device, play certain energy saving and emission reduction's effect, in order to realize above-mentioned purpose, adopt following structure in the superfine atomizing dust filter equipment:
as shown in fig. 5, the driven impeller 18 includes a mounting box 29 and blades 41, the mounting box 29 is equivalent to a hub of the impeller, a plurality of blades 41 are installed on the periphery of the mounting box 29, the mounting box 29 is installed on the rotating shaft 17, the mounting box 29 is located between the two mounting frames 16, a plurality of first rotating shafts 30 are arranged on the inner circumference of the mounting box 29, a first bevel gear 31 is fixedly installed at one end of each first rotating shaft 30 located in the mounting box 29, the other end of each first rotating shaft 30 penetrates through the mounting box 29 and is provided with one blade 41, and a thrust bearing is installed between the first bevel gear 31 and the inner wall of the mounting box 29 to limit and fix the first bevel gear 31. The second bevel gears 32 are fittingly installed on one sides of all the first bevel gears 31, all the first bevel gears 31 are circumferentially engaged on the peripheries of the second bevel gears 32, wherein the second bevel gears 32 are fixedly installed at one ends of the second rotating shafts 33, the other ends of the second rotating shafts 33 penetrate through the installation box 29 and the rotating shaft 17 and are fixedly installed with the square plates 34, the square plates 34 are located on the outer sides of one of the installation frames 16, and the positioning sleeves 35 are fittingly installed on the peripheries of the second rotating shafts 33, which penetrate through the rotating shaft 17, as shown in fig. 6, the side surfaces, far away from the rotating shaft 17, of the positioning sleeves 35 are provided with the square blind holes 36 and are provided with the rotating handles 40, and the square blind holes 36 are fittingly installed with the square plates 34, so that the second rotating shafts 33 and. A spring 37 is fixedly arranged between the square plate 34 and the bottom of the square blind hole 36, and the spring 37 always tends to make the positioning sleeve 35 contact with the rotating shaft 17. As shown in fig. 7, the positioning pin 38 is installed on the side surface of the positioning sleeve 35 close to the rotating shaft 17, positioning holes 39 matched with the positioning pin 38 are circumferentially distributed on the end surface of the rotating shaft 17, and when the positioning pin 38 is matched with the positioning holes 39 at different positions, the inclination angle of the driven impeller 18 can be changed, so that the wind resistance of the driven impeller 18 to the whole device is changed, the air output of the motor 6 is adjusted, and the effects of energy conservation and emission reduction are achieved.
As shown in fig. 5 and 8, at this time, the fan blade 41 is located at a position perpendicular to the cross section of the second housing 13, the air flow passing capacity is the largest, the corresponding wind resistance is the smallest, and the device is suitable for dust removal operation which can be completed by devices such as the front-mounted impeller 3 and the like with less dust in the air, the wind resistance of the driven impeller 18 in the ultrafine atomized dust filtering device is reduced to the lowest, and the power consumption of the motor 6 in the whole device can be reduced.
Due to the arrangement of the positioning pin 38 and the positioning hole 39, under the elastic force of the spring 37, the rotating shaft 17 and the positioning sleeve 35 keep rotating synchronously, the square blind hole 36 formed in the positioning sleeve 35 is matched with the square plate 34 on the second rotating shaft 33, i.e. the second rotating shaft 33 does not rotate relative to the positioning sleeve 35 and the rotating shaft 17, and because the mounting box 29 is fixedly connected with the rotating shaft 17, the second bevel gear 32 is stationary relative to the mounting box 29, even if the airflow in the second housing 13 has a tendency of blowing the fan blade 41 to rotate relative to the mounting box 29, the first bevel gear 31 and the second bevel gear 32 which are meshed with each other still enable the first rotating shaft 30 not to rotate, i.e. after the positions of the positioning pin 38 and the positioning hole 39 are determined, the driven impeller 18 does not deflect angularly any more.
When the dust content in the air is increased or the dust removal precision needs to be improved, when the driven impeller 18 in the superfine atomized dust filtering device needs to further play a dust removal role, the rotation angle of the driven impeller 18 needs to be adjusted, so that the dust-containing liquid drops passing through the second shell 13 are attached to the driven impeller 18, the driven impeller 18 rotates along with the axial airflow and throws the attached liquid drops onto the inner wall of the shell under the action of centrifugal force to further complete the gas-water separation of the second stage, and the operation steps of adjusting the rotation angle of the driven impeller 18 are as follows: firstly, the rotating handle 40 is pulled to drive the positioning sleeve 35 to compress the spring 37, so that the positioning sleeve 35 is separated from the end surface of the rotating shaft 17, the positioning pin 38 is separated from the positioning hole 39, then the positioning sleeve 35 is rotated to make the positioning pin 38 match with the positioning hole 39 at different positions, in the rotating process, the positioning sleeve 35 drives the second rotating shaft 33 to rotate, so that the second bevel gear 32 and the first bevel gear 31 which are meshed with each other rotate together, the angles of all the driven impellers 18 change accordingly, as shown in fig. 9, which is a schematic diagram of the state when the driven impellers 18 adsorb dust-containing liquid drops to the maximum extent, a positioning hole 39 for positioning the driven impeller 18 in different states between the figures 8 and 9 is also formed on the end surface of the rotating shaft 17, the angle of the driven impeller 18 can be adjusted according to the actual dust removal requirement, so that the power consumption of the motor 6 can be reduced to the greatest extent on the premise of effective dust removal.
Technical scheme of the utility model not be restricted to the utility model the within range of embodiment. The technical contents not described in detail in the present invention are all known techniques.

Claims (8)

1. The utility model provides a superfine wet dust removal fan that atomizes of doublestage high pressure, includes first casing (1), first sprinkler (2) and impeller (3), first sprinkler (2) are located the air intake position of first casing (1) front end, set up sealed installation cover (4), its characterized in that in first casing (1): a mounting plate (5) is fixedly mounted between the periphery of a seal mounting cover (4) and the inner wall of a first shell (1), a motor (6) is mounted in the seal mounting cover (4), a lead of the motor (6) penetrates out of the first shell (1) through the mounting plate (5), an output shaft of the motor (6) penetrates out of the seal mounting cover (4) to be connected with an impeller (3), the impeller (3) is positioned at the rear side of a first sprayer (2), a first filter screen (7) is fixedly mounted on the inner wall of the first shell (1) between the first sprayer (2) and the impeller (3), an inclined water scraping plate (8) is arranged on one side of each blade of the impeller (3), a first water collecting tank (9) is mounted on the inner wall of the first shell (1), a second water collecting tank (10) is mounted on the inner wall of the rear end of the first shell (1), a first water drain opening (11) is formed in the bottom of the first water collecting tank (9), a second water outlet (28) is formed in the bottom of the second water collecting tank (10), a first water retaining ring (12) with the diameter smaller than that of the first shell (1) is further installed inside the second water collecting tank (10), a superfine atomized dust filtering device is fixedly installed at the air outlet position at the rear end of the first shell (1), the superfine atomized dust filtering device comprises a second shell (13) fixedly connected with the first shell (1), a second sprayer (14) is installed at the front end inside the second shell (13), the diameter of water mist sprayed by the second sprayer (14) is smaller than that of water mist sprayed by the first sprayer (2), a second filter screen (15) is fixedly installed on the rear side of the second sprayer (14), the diameter of meshes on the second filter screen (15) is smaller than that of meshes on the first filter screen (7), and installation frames (16) are installed side by side on the inner wall of the second shell (13) on the rear side of the second filter screen (15), a rotating shaft (17) is horizontally mounted on the mounting frame (16), a driven impeller (18) is sleeved on the rotating shaft (17) in a matching mode, a third water collecting tank (19) is arranged at the position of an air outlet at the rear end of the second shell (13), and the diameter of the inner portion of the third water collecting tank (19) is smaller than that of a second water retaining ring (20) of the second shell (13).
2. The two-stage high-pressure ultra-fine atomizing wet dust removal fan according to claim 1, wherein: the front end of the first water collecting groove (9) corresponds to the position of the middle and rear end parts of the impeller (3), and the rear end of the first water collecting groove (9) is positioned behind the impeller (3).
3. The two-stage high-pressure ultra-fine atomizing wet dust removal fan according to claim 1, wherein: the wiper blade (8) extends continuously from the blade root to the blade end along the length direction of the blade.
4. The two-stage high-pressure ultra-fine atomizing wet dust removal fan according to claim 1, wherein: the air inlet position of the front end of the first shell (1) is in an open horn mouth shape.
5. The two-stage high-pressure ultra-fine atomizing wet dust removal fan according to claim 1, wherein: first sprinkler (2) include first inlet tube (21) and annular first shower (22), and first shower (22) cooperate with the inner wall of first casing (1) front end, set up a plurality of first nozzle (23) on first shower (22), every first nozzle (23) all spray water smoke towards the axis position department of impeller (3).
6. The two-stage high-pressure ultra-fine atomizing wet dust removal fan according to claim 1, wherein: second sprinkler (14) include second inlet tube (24) and second shower (25) of Y type, install booster pump (27) on second inlet tube (24), the periphery of second shower (25) cooperatees with the inner wall of second casing (13) front end, set up a plurality of second nozzle (26) on second shower (25), every second nozzle (26) all spray water smoke towards the axis position department of driven impeller (18).
7. The two-stage high-pressure ultra-fine atomizing wet dust removal fan according to claim 1, wherein: the first water retaining ring (12) is in a straight tube shape, the distance between the outer peripheral wall of the first water retaining ring (12) and the inner wall of the first shell (1) is equal everywhere, the second water collecting groove (10) is located at the rear side position of the first water retaining ring (12), the tube wall height of the first water retaining ring (12) is larger than the groove width of the second water collecting groove (10), the second water retaining ring (20) is in a straight tube shape, the distance between the outer peripheral wall of the second water retaining ring (20) and the inner wall of the second shell (13) is equal everywhere, the third water collecting groove (19) is located at the rear side position of the second water retaining ring (20), and the tube wall height of the second water retaining ring (20) is larger than the groove width of the third water collecting groove (19).
8. The two-stage high-pressure ultra-fine atomizing wet dust removal fan according to claim 1, wherein: the driven impeller (18) comprises a mounting box (29) and fan blades (41), the mounting box (29) is equivalent to a hub of the impeller, a plurality of fan blades (41) are mounted on the periphery of the mounting box (29), the mounting box (29) is mounted on a rotating shaft (17), the mounting box (29) is located between two mounting frames (16), a plurality of first rotating shafts (30) are arranged on the inner circumference of the mounting box (29), a first bevel gear (31) is fixedly mounted at one end of each first rotating shaft (30) located in the mounting box (29), the other end of each first rotating shaft (30) penetrates through the mounting box (29) and is provided with one fan blade (41), a second bevel gear (32) is mounted on one side of each first bevel gear (31) in a matched mode, the second bevel gear (32) is fixedly mounted at one end of a second rotating shaft (33), the other end of the second rotating shaft (33) penetrates through the mounting box (29) and the rotating shaft (17) and is fixedly provided, the locating sleeve (35) is installed in the cooperation of one side periphery that second rotation axis (33) wore out pivot (17), has seted up square blind hole (36) and installation rotation handle (40) on locating sleeve (35) keep away from the side of pivot (17), and square blind hole (36) cooperate with square board (34), fixed mounting spring (37) between square board (34) and square blind hole (36) bottom, spring (37) have the trend that makes locating sleeve (35) and pivot (17) contact all the time, install locating pin (38) on locating sleeve (35) the side that is close to pivot (17), and the circumference distributes on the terminal surface of pivot (17) has locating hole (39) with locating pin (38) matched with, and when locating pin (38) matched with locating hole (39) in different positions, the inclination ability of driven impeller (18) is corresponding to be changed.
CN201921656365.4U 2019-09-30 2019-09-30 Double-stage high-pressure superfine atomization wet type dust removal fan Active CN211069512U (en)

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113171978A (en) * 2021-06-01 2021-07-27 江西林力高新材料有限公司 Lead-zinc-vanadium concentrate wet separation process and equipment thereof
CN113634360A (en) * 2021-07-21 2021-11-12 威海创丰科技有限公司 Adjustable spinning swirler and adjustable spinning middlings washing device thereof
CN113828075A (en) * 2021-09-06 2021-12-24 白伏河 Industrial bag-type dust collector
CN113856413A (en) * 2021-09-28 2021-12-31 湖北理工学院 Dust removal desulfurization defogging integrated device
CN114392849A (en) * 2021-12-09 2022-04-26 华能伊春热电有限公司 Improved dry fog dust removal nozzle
CN116358093A (en) * 2023-06-01 2023-06-30 河南迅博机械有限公司 Air dust separation device
CN117755863A (en) * 2024-02-22 2024-03-26 北票合兴实业有限公司 dust collecting equipment for ore processing workshop
CN118110261A (en) * 2024-04-30 2024-05-31 太原市政建设集团有限公司 Road and bridge drainage pipeline cleaning device

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113171978A (en) * 2021-06-01 2021-07-27 江西林力高新材料有限公司 Lead-zinc-vanadium concentrate wet separation process and equipment thereof
CN113634360A (en) * 2021-07-21 2021-11-12 威海创丰科技有限公司 Adjustable spinning swirler and adjustable spinning middlings washing device thereof
CN113634360B (en) * 2021-07-21 2024-01-23 威海创丰科技有限公司 Spin-adjustable cyclone and spin-adjustable middling washing and selecting device thereof
CN113828075A (en) * 2021-09-06 2021-12-24 白伏河 Industrial bag-type dust collector
CN113856413A (en) * 2021-09-28 2021-12-31 湖北理工学院 Dust removal desulfurization defogging integrated device
CN114392849A (en) * 2021-12-09 2022-04-26 华能伊春热电有限公司 Improved dry fog dust removal nozzle
CN114392849B (en) * 2021-12-09 2022-12-09 华能伊春热电有限公司 Improved dry fog dust removal nozzle
CN116358093A (en) * 2023-06-01 2023-06-30 河南迅博机械有限公司 Air dust separation device
CN116358093B (en) * 2023-06-01 2023-08-18 河南迅博机械有限公司 Air dust separation device
CN117755863A (en) * 2024-02-22 2024-03-26 北票合兴实业有限公司 dust collecting equipment for ore processing workshop
CN117755863B (en) * 2024-02-22 2024-05-07 北票合兴实业有限公司 Dust collecting equipment for ore processing workshop
CN118110261A (en) * 2024-04-30 2024-05-31 太原市政建设集团有限公司 Road and bridge drainage pipeline cleaning device

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