CN208082021U - A kind of multistage efficient cyclone dust-extraction unit - Google Patents
A kind of multistage efficient cyclone dust-extraction unit Download PDFInfo
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- CN208082021U CN208082021U CN201820279762.3U CN201820279762U CN208082021U CN 208082021 U CN208082021 U CN 208082021U CN 201820279762 U CN201820279762 U CN 201820279762U CN 208082021 U CN208082021 U CN 208082021U
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Abstract
The utility model is related to a kind of multistage efficient cyclone dust-extraction units, including cyclone cylinder and deashing device, it is characterised in that:The cyclone cylinder includes the high-order cyclone cylinder being connected with each other and low order cyclone cylinder, the high-order cyclone cylinder includes the first straight tube and the first cone cylinder, the low order cyclone cylinder includes the second straight tube and the second cone cylinder, the second straight tube internal diameter is less than the first straight tube internal diameter, it is equipped with broken rotation in first straight tube and the cylinder of first cone cylinder junction and disturbs dirt device, several blades that dirt device includes rotary shaft and is distributed around axis are disturbed in the broken rotation, and the second straight tube side wall is equipped with the whirlwind speedup ventilation opening for promoting the low order cyclone cylinder whirlwind flow velocity;The dust-extraction unit can remove the dust of different-grain diameter range, and efficiency of dust collection greatly improves, and ash-removal effect is notable.
Description
Technical field
The present invention relates to a kind of dust-extraction unit more particularly to a kind of multistage efficient cyclone dust-extraction units.
Background technology
The dust removal mechanism of cyclone dust collector is that dusty gas is made to rotate, by means of centrifugal force by grit from air-flow
Simultaneously heap combines in wall for middle separation, then so that grit is fallen into deashing device by gravity.Existing dust-extraction unit is usually top
For cylinder, lower part is cone cylinder, some are equipped with dust collect plant in bottom, and when work is flowed by air inlet, and dedusting is acted on through whirlwind
It is discharged afterwards from exhaust outlet, this dust-extraction unit is although relatively simple for structure, cheap, but it is larger and be located to remove particle
The dust of whirlwind outer rim, the smaller dust with inside whirlwind of many particles can be discharged with air-flow, and efficiency of dust collection is relatively low.
Invention content
The present invention improves efficiency of dust collection and provides a kind of multistage efficient cyclone and remove to remove the dust of bigger particle size range
Dirt device, the dust-extraction unit is reasonable for structure, can remove the dust of different-grain diameter range, and efficiency of dust collection greatly improves, and deashing is imitated
Fruit is notable.
To achieve the goals above, the technical solution taken is the present invention:A kind of multistage efficient cyclone dust-extraction unit, packet
Cyclone cylinder and deashing device are included, the cyclone cylinder includes the high-order cyclone cylinder being connected with each other and low order cyclone cylinder, the high-order rotation
Air duct includes the first straight tube and the first cone cylinder, and the low order cyclone cylinder includes the second straight tube and the second cone cylinder, second straight tube
Internal diameter is less than the first straight tube internal diameter, and being equipped with broken rotation in first straight tube and the cylinder of first cone cylinder junction disturbs dirt
Several blades that dirt device includes rotary shaft and is distributed around axis are disturbed in device, the broken rotation, and the second straight tube side wall, which is equipped with, to be used
In the whirlwind speedup ventilation opening for promoting the low order cyclone cylinder whirlwind flow velocity, second straight tube and second cone cylinder junction
Cavity in be equipped with and backflow damping screen, the reflux damping screen includes that round estrade and spiral shape are distributed in the round estrade surface
Buffer fin;
The deashing device includes cavity, and the cavity wall is equipped with inlet and outlet, and clear water passes through the air inlet
It is discharged by the water outlet after the dust that mouth is rinsed into the cavity in the cavity.
Further, several blade staggers are distributed in the rotary shaft, and the rotation outer shaft sleeve is equipped with axle sleeve, the leaf
Piece is fixed on the axle sleeve, in an axial direction visual angle, and several blades are around 360 ° of gapless distributions of axis.
Further, the blade includes three groups of blades being distributed up and down, if every group of blade includes equally distributed cured leaf
Piece, three groups of blades include first group of blade being placed in the first straight tube, second group of blade being placed in the first cone cylinder and
Three groups of blades, visual angle, first group of blade, second group of blade and third group blade are distributed around 360 ° of gaplesss of axis in an axial direction.
Further, the blade is arranged with cyclone cylinder cross section in angle, and the angle is 10 °~30 °.
Further, ash discharging hole is equipped between the cyclone cylinder and the deashing device, the dust in the cyclone cylinder is logical
Cross the ash discharging hole and enter the deashing device, be equipped at the ash discharging hole every apparatus for ash, it is described every apparatus for ash include every ash cellar
And hydraulic device, the hydraulic device realize the keying of the ash discharging hole by moving forward and backward every ash cellar described in control.
Further, the long-range temperature control of ash discharging hole for detecting temperature at the ash discharging hole is equipped at the ash discharging hole to visit
Head.
Further, nitrogen inlet and nitrogen outlet are additionally provided on the deashing device, the nitrogen inlet is placed in described
The lower section of nitrogen outlet.
Further, the cavity bottom of the deashing device is equipped with cleaning door, which is the clear of hydraulic device control
Grey mouth.
Advantageous effect caused by the present invention includes:
1, the cyclone cylinder in the present invention makes dust-contained airflow rotate, and is detached from air-flow grit by means of centrifugal force
And it is trapped in wall, then so that grit is fallen into deashing device by gravity.The present invention applies multistage dedusting, medium to be revolved through high-order
After air duct removes part grit, low order cyclone cylinder is flowed to, whirlwind flow velocity is improved using the whirlwind speedup ventilation opening of low order cyclone cylinder,
In the case where low order cyclone cylinder internal diameter is relatively small so that the centrifugal force of remaining grit increases, further the remaining grit of removal,
The internal diameter of low order cyclone cylinder is smaller simultaneously, can remove the dust of smaller particle, to increase dedusting particle size range, effectively slow down
Dust raises up, and improves dust removing effects;
2, it is equipped with broken rotation in the cylinder of high-order cyclone cylinder and disturbs dirt device, blade is rotated by fluid driven in cylinder, increased
Medium rotational resistance slows down medium rotation flow velocity, and anti-interference medium rotates flow velocity flow field, increases medium disturbance, makes small to raise up
Grain returns cyclone dust removal area, in an axial direction visual angle, and several blades realize to indulge around 360 ° of gapless distributions of axis regards all standing, can subtract
Few dust raises up, and enhances dust removing effects;Broken vane piece is in free state, and Principle of Rotating is similar with windmill;
3, the damping screen that backflows of the straight tube bottom setting of low order cyclone cylinder, upper surface are equipped with spiral shape and buffer fin, prevent
Only generate reversed vortex, and then reduce the grit collected and raise up with medium rotational flow so that the grit largely collected into
Enter deashing device, further increases dust removing effects;The rotation direction of spiral shape buffering fin and the rotation direction of whirlwind are in the same direction, and whirlwind is along spiral shell
Rotation shape fin can reduce dust disturbance, and reversed vortex refers to the vortex oppositely oriented with whirlwind, and reversed vortex can inspired dust;
4, the long-range temperature probe of ash discharging hole feeds back to prison for monitoring the operating temperature at low order cyclone cylinder ash discharging hole in real time
After scaffold tower, can in time adjusting device working condition, prevent liner excessively high and impaired because of temperature, improve the service life of equipment;
5, setting should be that intermittently isolated electro hydraulic valve makes every apparatus for ash every apparatus for ash every apparatus for ash at ash discharging hole
Obtain device during the work time, ash discharging hole valve can realize that electric-controlled type intermittence switchs, and dedusting workspace and deashing area is isolated, can
It prevents the dust in deashing device from raising up, improves dust removing effects;
6, deashing uses overflow deashing and hydraulic pressure valve port two-stage substep stagewise deashing device, realizes little particle dust first
It is overflowed from water outlet by water, after overflow little particle row is quiet, lower section cleaning door, which is opened, excludes bulky grain dust, to realize deashing
Substep and classification;
7, operating temperature of the long-range temperature probe of hydraulic pressure valve port for monitoring hydraulic pressure valve port in real time, effective monitoring deashing device
Cleaning temperature, contribute to reasonably select the deashing time, harmful effect caused by avoiding valve port temperature excessively high;8, deashing device is set
Nitrogen inlet and nitrogen outlet to be set, nitrogen is led to, it is possible to provide turn power on dust granule realizes that rotation is floated in little particle followability,
It improves dust and is classified ash-removal effect;
9, exhaust tube, which is equipped with, is bubbled so that medium reduced velocity flow when flowing through bubbling, the climbing power that particle is subject to subtract
It is small, accumulation is formed, is slid under the effect of gravity along barrel, cyclone cylinder dedusting area is returned to, final dusting is carried out, further carries
High dust removing effects.
Description of the drawings
Fig. 1 is the overall structure diagram of multistage efficient cyclone dust-extraction unit;
Fig. 2 is the vertical view of multistage efficient cyclone dust-extraction unit;
Fig. 3 is the damping screen structural schematic diagram that backflows;
Fig. 4 is that dirt apparatus structure schematic diagram is disturbed in broken rotation;
Fig. 5 is that the broken vane chip architecture schematic diagram of dirt device is disturbed in broken rotation;
Fig. 6 is every apparatus for ash structural schematic diagram.
1, exhaust tube in figure, 2, air inlet, 3, high-order cyclone cylinder, 4, broken rotation disturb dirt device, 41, rotary shaft, 42, blade,
43, axle sleeve, 5, whirlwind speedup ventilation opening, 6, backflow damping screen;61, fin is buffered;62, round estrade, 7, low order cyclone cylinder, 8, every
Apparatus for ash, 81, every ash cellar, 82, drive shaft, 83, electric-controlled hydraulic transmission device, 9, nitrogen outlet, 10, deashing device, 11, nitrogen
Entrance, 12, cleaning door, 13, the long-range temperature probe of hydraulic pressure valve port, 14, water inlet, 15, ash discharging hole, 16, water outlet, 17, ash discharge
The long-range temperature probe of mouth.
Specific implementation mode
Further details of explanation is done to the present invention with reference to the accompanying drawings and detailed description, it should be appreciated that
Protection scope of the present invention is not restricted by specific implementation.
As shown in Fig. 1~2, the present invention in multistage efficient cyclone dust-extraction unit include sequentially connected high-order cyclone cylinder 3,
Low order cyclone cylinder 7, every apparatus for ash 8 and deashing device 10, high-order cyclone cylinder 3 is connected with air inlet 2 and exhaust tube 1, dust-extraction unit
The process of -- dedusting -- exhaust that is air inlet, the gas containing dust granule enter through air inlet 2 in device, after completing cyclone dust removal
It is discharged through exhaust tube 1.
High-order cyclone cylinder 3 includes the first straight tube and the first cone cylinder, and broken rotation is equipped in high-order cyclone cylinder 3 and disturbs dirt device 4, the dress
It sets including rotary shaft 41, axle sleeve 43 and blade 42, blade 42 is fixed on axle sleeve 43, and axle sleeve 43 is placed in rotary shaft 41, wind-force
Under effect, blade 42 can be rotated around rotary shaft 41.Such as Fig. 4 and Fig. 5, blade 42 divides for be distributed up and down three groups, from top to bottom according to
Secondary is first group, second group and third group, and three groups of blades 42 are interspersed, and axially sees blade 42, three groups of formation of blade 42
One circle completed, alternatively referred to as blade 42, which are distributed as indulging, regards all standing, i.e. three groups of blades 42, and every group of blade 42 covers 120 °,
Such as Fig. 4 Fig. 5, when vertical view, at a time sight is obstructed, is construed to vertical and regards all standing.Specifically being every group includes
Equally distributed 6 blades 42.First group of blade 42 is placed in the first straight tube bottom, and second group and third group blade 42 are placed in first
In cone cylinder, every group of 42 coverage area of blade is relative between the 1/2~2/3 of residing cylinder section.Blade 42 and cyclone cylinder are transversal
At an angle, and blade 42 is in free state, and the purpose of blade 42 is arranged in face:Blade 42 is pushed by uprising gas to be rotated,
The climbing power for reducing gas, raises up to reduce dust;42 rotation disturbance dust of blade, by the dust of the low centrifugal force among cylinder
Disturbance diffusion.The effect of high-order cyclone cylinder 3 be remove greater particle size dust and prevent along the dust that wall is fallen again on
It raises.
Low order cyclone cylinder 7 includes the second straight tube and the second cone cylinder, the diameter of the second straight tube and the first cone cylinder lower ending opening
Diameter is suitable, and the second straight tube side wall is equipped with whirlwind speedup ventilation opening 5, which is connected with ventilation device, and the ventilation opening is arranged
It is in order to increase fluid whirlwind flow velocity in low order cyclone cylinder 7, according to centrifugal force formula:Flow velocity v passes through whirlwind speedup
Ventilation opening 5 increases, and low order cyclone cylinder 7 is small with respect to the radius r of high-order so that centrifugal force increases, and dust removing effects are apparent.Degranulation can be removed
The dust of the smaller lighter weight of diameter.The damping screen 6 that backflows is set in the second straight tube bottom of low order cyclone cylinder 7, such as Fig. 3, reflux is slow
Punching screen includes the buffering fin 61 that round estrade 62 and spiral shape are distributed in 62 side of the round estrade, buffering fin 61 and gusset class
Seemingly, spiral shape buffering fin 61 can be described as the gusset along helical trajectory, and height is depending on whirlwind cylinder size.Spiral shape
The rotation direction of the rotation direction and whirlwind that buffer fin 61 is in the same direction, and whirlwind can reduce dust disturbance along spiral fin.Thus setting spiral shell
It revolves shape and buffers fin 61, can prevent reversely to be vortexed, and then reduce the grit collected and raise up with medium rotational flow so that
The grit largely collected enters accumulation area, further increases dust removing effects.
Low order cyclone cylinder 7 is connect with deashing device 10 by ash discharging hole 15, is equipped with every apparatus for ash 8, such as Fig. 6 at ash discharging hole 15
It is shown, every apparatus for ash 8 include every ash cellar 81 and hydraulic device, specifically every apparatus for ash 8 be the isolated electro hydraulic valve of interval every
Apparatus for ash 8, hydraulic device include electric-controlled hydraulic transmission device 83 and drive shaft 82, and hydraulic device is described every ash cellar 81 by controlling
It moves forward and backward and realizes the keying of the ash discharging hole 15.When ash cellar 81 is advanced, gradually blocks ash discharging hole 15 every ash cellar 81 and realize
When ash, retrogressing, ash discharging hole 15 is gradually opened, and cyclone cylinder is connected to deashing device 10.It can prevent from having been collected in every apparatus for ash 8 clear
The dust of apparatus for ash 10 is raised up by gas impact.The long-range temperature probe 17 of ash discharging hole is equipped at ash discharging hole 15, ash discharging hole is long-range
Temperature probe 17 after feeding back to monitor station, can be adjusted in time for monitoring the operating temperature at 7 ash discharging hole 15 of low order cyclone cylinder in real time
The working condition of finishing equipment prevents liner excessively high and impaired because of temperature, improves the service life of equipment.
Deashing device 10 uses overflow deashing and 12 two-stage substep stagewise deashing device 10 of cleaning door, that is, uses clear water clear
It washes and takes away part little particle dust, remaining bulk dust is removed by cleaning door 12.Deashing device 10 includes cavity, is set on cavity wall
There are water inlet 14, water outlet 16, nitrogen inlet 11, nitrogen outlet 9 and cleaning door 12, water inlet 14 to be placed in 16 lower section of water outlet,
Nitrogen inlet 11 is placed in the lower section of nitrogen outlet 9, and cleaning door 12 is placed in cavity bottom, when overflow deashing, closes cleaning door 12, water inlet
14 water fillings of mouth, little particle dust is as flow is from the discharge of water outlet 16, and nitrogen inlet 11 leads to nitrogen simultaneously for water filling, and agitation is sticked in device
Dust on wall, which incorporates in water, to be discharged;Finally, it opens cleaning door 12 and the dust for being accumulated in 10 bottom of deashing device, cleaning door is discharged
12 use hydraulic pressure valve port, and work of the long-range temperature probe 13 of hydraulic pressure valve port for monitoring hydraulic pressure valve port in real time is arranged at cleaning door 12
Temperature, the cleaning temperature of effective monitoring deashing device 10 help to reasonably select the deashing time, avoid valve port temperature is excessively high from causing
Harmful effect;
The course of work
Gas enters cyclone cylinder by air inlet 2, rotates in high-order cyclone cylinder 3, by centrifugal force by part dust
Barrel is detached and heaps, the dust of heap declines along barrel;When whirlwind reaches low order cyclone cylinder 7, high speed winds are by whirlwind
Speedup ventilation opening 5 is passed through, and improves the wind speed of whirlwind, and in the case where rotary inside diameter is smaller, centrifugal force increases, by formulaSimilarly, dust separation heaps to barrel and declines;When whirlwind arrival spiral shape backflows damping screen 6, flow velocity subtracts
It is small;So far, gas up flows among cyclone cylinder, and dust is along the second cone cylinder inner wall sinking heap below the damping screen 6 that backflows
Collection waits for the isolated electro hydraulic valve of interval to be opened every 8 valve of apparatus for ash and collects dust;The mistake that gas up flows among cylinder
Cheng Zhong, drives broken rotation to disturb the rotation of dirt device 4, and broken rotation disturbs dirt device 4 and rotates the residual dust particle disturbance so that in gas, part
Dust, which can enter in whirlwind, to be dusted;The gas stream intake and exhaust cylinder 1 that dirt device 4 is disturbed by broken rotation, through the drum on exhaust tube 1
Bubble, gas slows down when entering bubbling, and is accumulated at bubbling, sinks by gravity, carries out final dusting.
The dust of collection is stored in deashing device 10, is classified using overflow ash discharge and 12 ash discharge two ways substep of cleaning door
It carries out;Cleaning door 12 close when, 14 water filling of water inlet, little particle dust with flow from water outlet 16 be discharged, water filling simultaneously nitrogen
Gas entrance 11 leads to nitrogen, and agitation is sticked to be discharged in the involvement water of the dust on wall;Finally, cleaning door 12 is opened, discharge is accumulated in
The dust of 10 bottom of deashing device.
The preferred embodiment of the present invention is above are only, the present invention is not limited in the content of embodiment.For in this field
Technical staff for, can have various change and change within the scope of technical scheme of the present invention, made by it is any variation and
Change, within the scope of the present invention.
Claims (10)
1. a kind of multistage efficient cyclone dust-extraction unit, including cyclone cylinder and deashing device, it is characterised in that:The cyclone cylinder includes
The high-order cyclone cylinder and low order cyclone cylinder of interconnection, the high-order cyclone cylinder includes the first straight tube and the first cone cylinder, described low
Rank cyclone cylinder include the second straight tube and the second cone cylinder, the second straight tube internal diameter be less than the first straight tube internal diameter, described first
Be equipped with broken rotation in the cylinder of straight tube and first cone cylinder junction and disturb dirt device, the broken rotation disturb dirt device include rotary shaft and
Around several blades of axis distribution, the second straight tube side wall is equipped with the whirlwind for promoting the low order cyclone cylinder whirlwind flow velocity
Speedup ventilation opening;
The deashing device includes cavity, the cavity wall be equipped with inlet and outlet, clear water by the water inlet into
It is discharged by the water outlet after entering the dust that the cavity rinses in the cavity.
2. multistage efficient cyclone dust-extraction unit according to claim 1, it is characterised in that:Several blade staggers are distributed in institute
It states in rotary shaft, the rotation outer shaft sleeve is equipped with axle sleeve, and the blade is fixed on the axle sleeve, in an axial direction visual angle, if described
Cured leaf piece is around 360 ° of gapless distributions of axis.
3. multistage efficient cyclone dust-extraction unit according to claim 1, it is characterised in that:The blade includes distribution up and down
Three groups of blades, every group of blade includes equally distributed several blades, and three groups of blades include be placed in the first straight tube
One group of blade, second group of blade being placed in the first cone cylinder and third group blade, in an axial direction visual angle, first group of blade,
Two groups of blades and third group blade are around 360 ° of gapless distributions of axis.
4. according to the multistage efficient cyclone dust-extraction unit of claims 1 to 3 any one of them, it is characterised in that:The blade with
Cyclone cylinder cross section is arranged in angle, and the angle is 10 °~30 °.
5. multistage efficient cyclone dust-extraction unit according to claim 1, it is characterised in that:Second straight tube and described the
Be equipped with the damping screen that backflows in the cavitys of two cone cylinder junctions, the damping screen that backflows includes round estrade and spiral shape be distributed in it is described
The buffering fin on round estrade surface.
6. multistage efficient cyclone dust-extraction unit according to claim 1, it is characterised in that:The cyclone cylinder and the deashing
Ash discharging hole is equipped between device, the dust in the cyclone cylinder enters the deashing device, the ash discharge by the ash discharging hole
Mouthful place is equipped with every apparatus for ash, it is described every apparatus for ash include every ash cellar and hydraulic device, the hydraulic device by described in control every
Ash cellar, which moves forward and backward, realizes the keying of the ash discharging hole.
7. multistage efficient cyclone dust-extraction unit according to claim 6, it is characterised in that:It is equipped with and is used at the ash discharging hole
Monitor the long-range temperature probe of ash discharging hole of temperature at the ash discharging hole.
8. multistage efficient cyclone dust-extraction unit according to claim 1, it is characterised in that:It is additionally provided on the deashing device
Nitrogen inlet and nitrogen outlet, the nitrogen inlet are placed in the lower section of the nitrogen outlet.
9. multistage efficient cyclone dust-extraction unit according to claim 1, it is characterised in that:The cavity bottom of the deashing device
Portion is equipped with cleaning door.
10. multistage efficient cyclone dust-extraction unit according to claim 1, it is characterised in that:The high-order cyclone cylinder connection
There are exhaust tube, the exhaust tube side wall to outwardly protrude to form bubble structure.
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CN201820279762.3U CN208082021U (en) | 2018-02-27 | 2018-02-27 | A kind of multistage efficient cyclone dust-extraction unit |
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CN201820279762.3U CN208082021U (en) | 2018-02-27 | 2018-02-27 | A kind of multistage efficient cyclone dust-extraction unit |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108144370A (en) * | 2018-02-27 | 2018-06-12 | 南京工程学院 | A kind of multistage efficient cyclone dust-extraction unit |
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2018
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108144370A (en) * | 2018-02-27 | 2018-06-12 | 南京工程学院 | A kind of multistage efficient cyclone dust-extraction unit |
CN108144370B (en) * | 2018-02-27 | 2023-12-01 | 南京工程学院 | Multi-stage efficient cyclone dust collector |
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