CN207478762U - A kind of system for producing micropowder - Google Patents
A kind of system for producing micropowder Download PDFInfo
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- CN207478762U CN207478762U CN201721447367.3U CN201721447367U CN207478762U CN 207478762 U CN207478762 U CN 207478762U CN 201721447367 U CN201721447367 U CN 201721447367U CN 207478762 U CN207478762 U CN 207478762U
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Abstract
The utility model discloses a kind of system for producing micropowder, including elevator one, elevator two, elevator three, roll squeezer, weighing cabin, V-type powder concentrator, intelligence is double to drive powder fine grading machine, cyclone collector, wind turbine one, bag filter, integral type separate compiling ball mill, by using elevator one, elevator two, elevator three, roll squeezer, weighing cabin, V-type powder concentrator, intelligence is double to drive powder fine grading machine, cyclone collector, wind turbine one, combination connection between bag filter and integral type separate compiling ball mill, solves the irrealizable large-scale continuous production of the prior art, quality is low, the problem of production cost is high.
Description
Technical field
The utility model is related to a kind of system for producing micropowder.
Background technology
Industrial waste is used widely in building materials industry as mixing material, such as gangue in the prior art, this
Solidifying nothing is the effective way for digesting industrial waste.Research and engineering practice show industrial waste as mixing material to cement and mix
The size of solidifying soil effect is closely related with fineness, and fineness is thinner, and function and effect are better.Especially mixing material Blain specific surface is big
In or equal to 700 ㎡/㎏, average grain diameter is less than 6 μm, and the chemically and physically effect of mixing material is not fully exerted, in this way
Not only quality is high but also at low cost for the cement produced.Existing superfine powder production technology is all first to carry out powder to industrial waste
Mill, then carry out selecting powder, finally mix.Not only technology is excessively single for above-mentioned production technology, production equipment used, can not realize big
Scale continuous production, and production cost is high.
Utility model content
Technical problem to be solved in the utility model provides a kind of system for producing micropowder, and the system for producing micropowder is not
It can only realize large-scale continuous production, and quality is high, production cost is low.
In order to solve the above technical problems, a kind of system for producing micropowder of the utility model, including elevator one, elevator
2nd, elevator three, roll squeezer, weighing cabin, V-type powder concentrator, intelligence it is double drive powder fine grading machines, cyclone collector, wind turbine one,
Bag filter, integral type separate compiling ball mill, the discharge port of elevator one are connected by pipeline with the feed inlet of weighing cabin,
The discharge port of weighing cabin is connected with the feed inlet of roll squeezer, the feed inlet phase that the discharge port of roll squeezer passes through pipeline and elevator two
Even, the discharge port of elevator two is connected by pipeline with the feed inlet of V-type powder concentrator, and the air outlet of wind turbine one passes through pipeline and V
The air inlet of type powder concentrator is connected, and the air outlet of V-type powder concentrator passes through pipeline and the double air inlets for driving powder fine grading machine of intelligence
Mouth is connected, and the double air outlets for driving powder fine grading machines of intelligence are connected by pipeline with the air inlet of cyclone collector, whirlwind receipts
The air outlet of storage is connected by pipeline with the air inlet of wind turbine one, and the double coarse powder pipes for driving powder fine grading machine of intelligence pass through pipe
Road is connected with the feed inlet of weighing cabin, and the double middle coarse powder pipes for driving powder fine grading machine of intelligence distinguish powder by pipeline and integral type
The spout of abrading-ball grinding machine forepart is connected, and the discharge port of cyclone collector passes through air conveyer flume one and pipeline and integral type point
The feed inlet of the charging/discharging device at other grinding ball mill rear portion is connected, the charging/discharging device at integral type separate compiling ball mill rear portion
Discharge port be connected by air conveyer flume with the feed inlet of elevator three, the disengaging at integral type separate compiling ball mill rear portion
The air outlet of material device is connected by pipeline with the air inlet of bag filter, and the air outlet of bag filter passes through air duct and wind
The air inlet of machine two is connected, the discharge port of bag filter and the feed inlet phase by screw conveyor and pipeline and elevator three
Even, the discharge port of elevator three is connected by air conveyer flume two and pipeline with warehouse for finished product;
The integral type separate compiling ball mill, including driving device, drawing-in device, cylinder, partition panel, input and output material dress
It puts, inner cylinder, conveying device, drawing-in device and charging/discharging device are separately positioned on the front-end and back-end of cylinder, drawing-in device packet
Spout is included, cylinder disposes on the drive means, and partition panel is arranged in cylinder, and inner cylinder is arranged on cylinder by supporting rod
Rear portion internal and positioned at cylinder, one end of conveying device is arranged on one end of inner cylinder;Charging/discharging device includes housing, sky
Mandrel, roto-siofter, material guiding hopper, guide channel, opening material storing box, housing upper end is equipped with feed inlet, the lower part of housing is equipped with discharging
Mouthful, the top of housing be equipped with air outlet, hollow shaft is located at turn around in sieve, and roto-siofter is located in housing, hollow shaft and roto-siofter
One end is arranged on the rear end of cylinder, and the axial line of hollow shaft and the axial line of roto-siofter overlap, and hollow shaft is circumferentially uniformly distributed
Equipped with through-hole, guide channel includes straight tube and inclined tube, and straight tube one end is arranged on the through-hole of hollow shaft circumferential direction, the other end of straight tube
It is connected across roto-siofter with the lower end of material guiding hopper, one end of inclined tube is connected with straight tube one end, and the other end and the conveying of inclined tube fill
The charging hole put is connected, and striker plate, left plate of the opening material storing box by semi-circular shape, semi-circular shape are equipped between adjacent material guiding hopper
Right plate and semicircular arc plate form, the side point of the large semi-circular of the left plate of semi-circular shape and the right plate of semi-circular shape
It is not arranged on one opening babinet of composition, the opening box body on the two sides of semicircular arc plate and is located at the side of roto-siofter and setting
On housing, the material guiding hopper in hollow shaft side is located in the opening box body, the left side of the semi-circular shape of the opening babinet
The circular side of the smaller part of plate and the right plate of semi-circular shape and the periphery of roto-siofter match, and opening babinet is equipped with feed inlet,
The feed inlet is equipped with feed pipe, which passes through housing;Lightweight abrasive body is respectively arranged in the cylinder and inner cylinder;
Material guiding hopper includes left plate, right panel, front and rear panels, and left plate is parallel with right panel and keeps a spacing, front and rear panels
The front-end and back-end for being separately positioned on left plate and right panel form a hollow taper structure, under the material guiding hopper of hollow taper structure
Port is arranged on the through-hole of the hollow shaft circumferential direction, and the left plate and right panel of the material guiding hopper of hollow taper structure are opened respectively with described
The left plate of the semi-circular shape of mouth material storing box and the right plate of semi-circular shape are corresponding, the back plate of the material guiding hopper of hollow taper structure
Upper end with it is described opening material storing box semicircular arc plate it is corresponding;
The back plate of the material guiding hopper of the hollow taper structure is arc plate structure.
The conveying device is helix transporting device.
The axial line of the cylinder and inner cylinder overlaps.
The quantity of the material guiding hopper is three to ten.
In above-mentioned system for producing micropowder, by using elevator one, elevator two, elevator three, roll squeezer, weigh
Storehouse, V-type powder concentrator, double powder fine grading machine, cyclone collector, wind turbine one, bag filter and the integral types of driving of intelligence are distinguished
Combination connection between grinding ball mill, solves the irrealizable large-scale continuous production of the prior art, quality is low, is produced into
The problem of this is high.
Description of the drawings
Fig. 1 is the structure diagram of the utility model system for producing micropowder;
Fig. 2 is the structure diagram of integral type separate compiling ball mill;
Fig. 3 is the structure enlargement diagram of charging/discharging device in Fig. 2.
Specific embodiment
In Fig. 1, the utility model discloses a kind of system for producing micropowder, including elevator 1, elevator 22, carry
Rise the double drive powder fine grading machines 6 of machine 3 13, roll squeezer 3, weighing cabin 4, V-type powder concentrator 5, intelligence, cyclone collector 7, wind turbine
One 8, bag filter 14, integral type separate compiling ball mill 10, the discharge port of elevator 1 pass through pipeline and weighing cabin 4
Feed inlet is connected.The discharge port of weighing cabin 4 is connected with the feed inlet of roll squeezer 3, and the discharge port of roll squeezer 3 passes through pipeline and promotion
The feed inlet of machine 22 is connected, and the discharge port of elevator 22 is connected by pipeline with the feed inlet of V-type powder concentrator 5.Wind turbine 1
Air outlet is connected by pipeline with the air inlet of V-type powder concentrator 5.The air outlet of V-type powder concentrator 5 passes through pipeline and the double drive powder of intelligence
The air inlet of body fine grading machine 6 is connected, and the double air outlets for driving powder fine grading machine 6 of intelligence pass through pipeline and cyclone collector
6 air inlet is connected, and the air outlet of cyclone collector 7 is connected by pipeline with the air inlet of wind turbine 1.Intelligence is double to drive powder essence
The coarse powder pipe of close grader 6 is connected by pipeline with the feed inlet of weighing cabin 4, and intelligence is double to drive in powder fine grading machine 6 slightly
Tube cell is connected by pipeline with the spout 11 of 10 forepart of integral type separate compiling ball mill.The discharge port of cyclone collector 7 leads to
Cross the feed inlet phase of air conveyer flume 1 and pipeline and the charging/discharging device 12 at 10 rear portion of integral type separate compiling ball mill
Even.The discharge port of the charging/discharging device 12 at 10 rear portion of integral type separate compiling ball mill passes through air conveyer flume and elevator three
13 feed inlet is connected.The air outlet of the charging/discharging device 12 at 10 rear portion of integral type separate compiling ball mill passes through pipeline and cloth bag
The air inlet of deduster 14 is connected.The air outlet of bag filter 14 is connected by air duct with the air inlet of wind turbine two.Cloth bag removes
The discharge port of dirt device 14 is connected with by screw conveyor 15 and pipeline with the feed inlet of elevator 3 13, and elevator 3 13 goes out
Material mouth is connected by air conveyer flume two and pipeline with warehouse for finished product.
As shown in Figures 2 and 3, in the present embodiment, the integral type separate compiling ball mill 10 including driving device, is fed
Expect device 26, cylinder 25, partition panel, charging/discharging device 12, inner cylinder 16, conveying device 17, drawing-in device 26 and input and output material dress
Put 12 front-end and back-end for being separately positioned on cylinder 25.Drawing-in device 26 includes spout, and drawing-in device 26 is the prior art, therefore
It is not described in detail.Cylinder 25 disposes on the drive means, and driving device is the prior art, and it is also existing that cylinder 25, which is placed in driving device,
Technology, therefore be not described in detail.Partition panel is arranged in cylinder 25.Inner cylinder 16 is arranged on the inside of cylinder 25 by supporting rod and is located at
The rear portion of cylinder 25.One end of conveying device 17 is arranged on one end of inner cylinder 16.Charging/discharging device includes housing 27, hollow
Axis 19, roto-siofter 29, material guiding hopper 20, guide channel, opening material storing box 21, hollow shaft 19 are located in housing 27,27 upper end of housing
Top equipped with feed inlet 23, housing 27 is equipped with feed inlet, the lower part of housing 27 is equipped with discharge port 24, the top of housing 27 is equipped with
Air outlet.Hollow shaft 19 is located at turn around in sieve 29, and roto-siofter 29 is located in housing 27, and one end of hollow shaft 19 and roto-siofter 29 is equal
It is arranged on the rear end of cylinder 25, the axial line of hollow shaft 19 and the axial line of roto-siofter 29 overlap.Hollow shaft 19 is circumferential equal
It is laid with through-hole.Guide channel includes straight tube 28 and inclined tube 18, and 28 one end of straight tube is arranged on the circumferential through-hole of hollow shaft 19, directly
The other end of pipe 28 is connected across roto-siofter 29 with the lower end of material guiding hopper 20, and one end of inclined tube 18 is connected with 28 one end of straight tube,
The other end of inclined tube 18 is connected with the charging hole of conveying device 17, and striker plate 30 is equipped between adjacent material guiding hopper 20.Be open storing
Case 21 is made of the left plate of semi-circular shape, the right plate of semi-circular shape and semicircular arc plate, the left plate of semi-circular shape and half
The side of the large semi-circular of the right plate of circular ring shape is separately positioned on one opening babinet of composition on the two sides of semicircular arc plate,
The opening box body is located at the side of roto-siofter 29 and is arranged on housing 27, and the material guiding hopper 20 in 19 side of hollow shaft is located at institute
It states in opening babinet 21, the circular side of smaller part of the left plate of the semi-circular shape of the opening babinet 21 and the right plate of semi-circular shape
Side and the periphery of roto-siofter 29 match.The babinet 21 that is open is equipped with feed inlet, which is equipped with feed pipe 22, the feed pipe
22 pass through housing 27;Lightweight abrasive body is respectively arranged in the cylinder 25 and inner cylinder 16.
Material guiding hopper 20 includes left plate 32, right panel, foreboard 33 and back plate 31, and left plate 32 is parallel with right panel and keeps a spacing,
Foreboard 33 and back plate 31 are separately positioned on left plate 32 and the front-end and back-end of right panel form a hollow taper structure.Hollow taper
The lower port of the material guiding hopper 20 of structure is arranged on the circumferential through-hole of the hollow shaft 19, the material guiding hopper 20 of hollow taper structure
Left plate 32 and right panel are corresponding with the right plate of the left plate of the semi-circular shape of the opening material storing box 21 and semi-circular shape respectively,
The upper end of the back plate 31 of the material guiding hopper 20 of hollow taper structure and the semicircular arc plate 34 of the opening material storing box 21
It is corresponding.
For the ease of guide, the back plate 31 of the material guiding hopper 20 of the hollow taper structure is arc plate structure, the arc panel
Upper end with it is described opening material storing box 21 semicircular arc plate 34 it is corresponding.
In order to simplify structure and reduce cost, the conveying device 17 is helix transporting device,
For smooth running, the axial line of the cylinder 25 and inner cylinder 16 overlaps.
In order to improve guide effect, the quantity of the material guiding hopper 20 is three to ten.
In above-mentioned multilevel grinding superfine powder production technology, material passes through the broken of roll squeezer 10, point of V-type powder concentrator 5
It selects, after the double drive powder fine grading machines 6 of intelligence sort the collection with cyclone collector 7 again, respectively enters integral type difference powder
The front-end and back-end of abrading-ball grinding machine 10 become finished product entering cost library after being ground, and above-mentioned technique not only realizes to be connected on a large scale
Continuous production, and quality is high, production cost is low;In above-mentioned system for producing micropowder, by using elevator 1, elevator
22, elevator 3 13, roll squeezer 3, weighing cabin 4, V-type powder concentrator 5, intelligence are double drives powder fine grading machine 6, cyclone collector
7th, the combination connection between wind turbine 1, bag filter 14 and integral type separate compiling ball mill 10, solves the prior art not
The problem of large-scale continuous production that can be realized, quality is low, production cost is high.
Claims (1)
1. a kind of system for producing micropowder, which is characterized in that including elevator one, elevator two, elevator three, roll squeezer, title
Weight storehouse, V-type powder concentrator, double powder fine grading machine, cyclone collector, wind turbine one, bag filter, the integral types of driving of intelligence are distinguished
Grinding ball mill, the discharge port of elevator one are connected by pipeline with the feed inlet of weighing cabin, the discharge port of weighing cabin and roll-in
The feed inlet of machine is connected, and the discharge port of roll squeezer is connected by pipeline with the feed inlet of elevator two, the discharge port of elevator two
It is connected by pipeline with the feed inlet of V-type powder concentrator, the air inlet phase that the air outlet of wind turbine one passes through pipeline and V-type powder concentrator
Even, the air outlet of V-type powder concentrator is connected by pipeline with the double air inlets for driving powder fine grading machine of intelligence, and intelligence is double to drive powder
The air outlet of fine grading machine is connected by pipeline with the air inlet of cyclone collector, and the air outlet of cyclone collector passes through pipeline
It is connected with the air inlet of wind turbine one, the feed inlet phase that the double coarse powder pipes for driving powder fine grading machine of intelligence pass through pipeline and weighing cabin
Even, the double middle coarse powder pipes for driving powder fine grading machine of intelligence pass through pipeline and the spout of integral type separate compiling ball mill forepart
Be connected, the discharge port of cyclone collector by air conveyer flume one and pipeline and integral type separate compiling ball mill rear portion into
The feed inlet of drawing mechanism is connected, and the discharge port of the charging/discharging device at integral type separate compiling ball mill rear portion passes through air delivery
Skewed slot is connected with the feed inlet of elevator three, and the air outlet of the charging/discharging device at integral type separate compiling ball mill rear portion passes through pipe
Road is connected with the air inlet of bag filter, and the air outlet of bag filter is connected by air duct with the air inlet of wind turbine two, cloth
The discharge port of bag dust collector is connected with by screw conveyor and pipeline with the feed inlet of elevator three, the discharge port of elevator three
It is connected by air conveyer flume two and pipeline with warehouse for finished product;
The integral type separate compiling ball mill, including driving device, drawing-in device, cylinder, partition panel, charging/discharging device, interior
Cylinder, conveying device, drawing-in device and charging/discharging device are separately positioned on the front-end and back-end of cylinder, and drawing-in device includes feeding
Mouthful, cylinder dispose on the drive means, partition panel is arranged in cylinder, inner cylinder by supporting rod be arranged on cylinder inside and
Positioned at the rear portion of cylinder, one end of conveying device is arranged on one end of inner cylinder;Charging/discharging device include housing, hollow shaft,
Roto-siofter, material guiding hopper, guide channel, opening material storing box, housing upper end is equipped with feed inlet, the lower part of housing is equipped with discharge port, shell
The top of body is equipped with air outlet, and hollow shaft is located at turn around in sieve, and roto-siofter is located in housing, and one end of hollow shaft and roto-siofter is equal
It is arranged on the rear end of cylinder, the axial line of hollow shaft and the axial line of roto-siofter overlap, and hollow shaft is laid with logical in circumferential direction
Hole, guide channel include straight tube and inclined tube, and straight tube one end is arranged on the through-hole of hollow shaft circumferential direction, and the other end of straight tube passes through back
Turn sieve with the lower end of material guiding hopper to be connected, one end of inclined tube is connected with straight tube one end, the other end of inclined tube and conveying device into
Material hole is connected, and striker plate is equipped between adjacent material guiding hopper, opening material storing box is by the left plate of semi-circular shape, the right side of semi-circular shape
Plate and semicircular arc plate are formed, and the side of the large semi-circular of the left plate of semi-circular shape and the right plate of semi-circular shape is set respectively
An opening babinet is formed on the two sides of semicircular arc plate, which is located at the side of roto-siofter and is arranged on housing
On, the material guiding hopper in hollow shaft side is located in the opening box body, the left plate of the semi-circular shape of the opening babinet and half
The circular side of smaller part of the right plate of circular ring shape and the periphery of roto-siofter match, and opening babinet is equipped with feed inlet, the charging
Mouth is equipped with feed pipe, which passes through housing;Lightweight abrasive body is respectively arranged in the cylinder and inner cylinder;
The material guiding hopper includes left plate, right panel, front and rear panels, and left plate is parallel with right panel and keeps a spacing, front and rear panels
The front-end and back-end for being separately positioned on left plate and right panel form a hollow taper structure, under the material guiding hopper of hollow taper structure
Port is arranged on the through-hole of the hollow shaft circumferential direction, and the left plate and right panel of the material guiding hopper of hollow taper structure are opened respectively with described
The left plate of the semi-circular shape of mouth material storing box and the right plate of semi-circular shape are corresponding, the back plate of the material guiding hopper of hollow taper structure
Upper end with it is described opening material storing box semicircular arc plate it is corresponding;
The back plate of the material guiding hopper of the hollow taper structure is arc plate structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721447367.3U CN207478762U (en) | 2017-11-02 | 2017-11-02 | A kind of system for producing micropowder |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721447367.3U CN207478762U (en) | 2017-11-02 | 2017-11-02 | A kind of system for producing micropowder |
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Publication Number | Publication Date |
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CN207478762U true CN207478762U (en) | 2018-06-12 |
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ID=62479010
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201721447367.3U Active CN207478762U (en) | 2017-11-02 | 2017-11-02 | A kind of system for producing micropowder |
Country Status (1)
Country | Link |
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CN (1) | CN207478762U (en) |
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2017
- 2017-11-02 CN CN201721447367.3U patent/CN207478762U/en active Active
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