CN208944542U - A kind of minerals screening plant - Google Patents
A kind of minerals screening plant Download PDFInfo
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- CN208944542U CN208944542U CN201821377940.2U CN201821377940U CN208944542U CN 208944542 U CN208944542 U CN 208944542U CN 201821377940 U CN201821377940 U CN 201821377940U CN 208944542 U CN208944542 U CN 208944542U
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Abstract
The utility model provides a kind of minerals screening plant, including blanking device, vibrator and reception device, further includes control module, screening module and lifting device;The screening module includes the screening mechanism that cover layer and plural layer are arranged successively from top to bottom;The cover layer and all screening mechanisms realize linkage;When the cover layer, when all screening mechanisms drop to minimum point, it is now in close screen isloation state, the cover layer closes the screening mechanism of top, adjacent upper layer screening mechanism closes lower layer's screening mechanism, the screening mechanism of the bottom closes the reception device, so that entire screening process is in close screen isloation state, prevent the loss of screening process particulate matter, improve screening precision, it prevents that dust pollution occurs when screening simultaneously, the vibrator and lifting device are controlled by the control module simultaneously, realize automation screening, improve screening efficiency.
Description
Technical field
The utility model relates to material sieving technology field, especially a kind of minerals screening plant.
Background technique
In recent years, with the progress of the rapid growth of national economy and technology, metallurgy, coal, mine, building materials, water power etc.
There is an urgent need to the big screening machines for the treatment of capacity expeditiously to be sieved for industry, de-mediated, dehydration, desliming operation.In coal industry, adopt
Coal mechanization degree constantly improves and demand of the development of national economy to coal is increasing, so that coal mine output increasingly increases
Add, this requirement to sieving machine processing capacity is also higher and higher.Meanwhile sieving machine can reduce the use number of vibrating screen
Amount reduces cost of equipment and equipment overhead cost, brings preferable economic benefit.
Current existing screening machine has the disadvantage in that
One, operation screening, low efficiency are manually carried out using traditional, and particulate matter quantization feelings can be generated in manual operation
Condition and cannot control well, i.e., the bad control of the quantity of particulate matter in screening process, can be produced in this way to after material screening
Raw corresponding analytical error.
Two, existing screening machine uses open screening, so that screening process particulate matter simply falls out screening machine, and causes
The loss of particulate matter, causes the quantitative error of particulate matter, such as when screening machine is used for particulate count according to analysis, is just easy to make
Error is generated at the specific gravity of the particulate matter of various specifications after screening, while also be easy to causeing fugitive dust, pollutes environment.
Utility model content
The technical problems to be solved in the utility model is to provide a kind of minerals screening plant, and screening process can be realized
Automation closing screening, is in open state after the completion of screening, improves screening efficiency and screening precision, while reducing fugitive dust dirt
Dye.
The utility model is realized in this way: a kind of minerals screening plant, including blanking device, vibrator and reception dress
It sets, further includes control module, screening module and lifting device;
What the reception device can be dismantled is mounted on the vibrator upper end;
The screening module includes the screening mechanism that cover layer and plural layer are arranged successively from top to bottom;The cover layer
The surface of the screening mechanism for being connected to top of energy oscilaltion, the screening mechanism energy oscilaltion of the bottom are set up in
The upper end of the vibrator and the surface for being located at the reception device, and the connection of upper one layer of screening mechanism energy oscilaltion
In the surface of adjacent next layer of screening mechanism;
The blanking device is set up in the upper end of the vibrator and is located above the cover layer, the blanking device
The screening mechanism of the connection top of discharge port air-tightness;
The lifting device includes fixed part and lifting unit, and the fixed part is fixedly connected on the upper end of the vibrator,
The lifting unit is fixedly connected on the cover layer;The cover layer and all screening mechanisms realize linkage;When the cover board
Layer, all screening mechanisms be when dropping to minimum point, is now in close screen isloation state, and the cover layer is by the screening of top
Mechanism closing, adjacent upper layer screening mechanism closes lower layer's screening mechanism, and the screening mechanism of the bottom is by the reception device
Closing;When the cover layer, all screening mechanisms rise to highest point, it is now in open state;
The control module is communicatively coupled to the vibrator and lifting device.
It further, include fixed laminate and sieve per the screening mechanism;Bottom surface per the sieve is arc, from upper
Mesh diameter to the sieve of lower every layer of screening mechanism is sequentially reduced;Holding tank is offered among the fixed laminate, institute
Sieve is stated removably to be stuck in the holding tank;All sieves are located on same vertical axis, and the reception fills
Immediately below the sieve of the bottom;And when being in the close screen isloation state, adjacent upper one layer of fixing layer
Plate covers next layer of sieve, is closed;The sieve of top is covered closing by the cover layer;The fixation laminate of the bottom
Cover the reception device;When being in the open state, the height between adjacent two layers screening mechanism is greater than the sieve
Height.
Further, at least one first pull rod and and described first is provided between every two layers adjacent of screening mechanism
Identical first stopper of pull rod quantity;And the fixation laminate for being located at lower layer offers identical with the first pull rod quantity the
One through-hole;Diameter per first stopper is greater than the diameter per the first through hole;It is fixed vertically per first pull rod
The first through hole across next layer of fixed laminate that is connected to the lower end of one layer of fixation laminate, and can slide up and down, it is rear solid
Surely it is connected to first stopper.
Further, at least two the first symmetrical guiding are additionally provided between every two layers adjacent of screening mechanism
Column and bushing identical with first number of guide posts;It is fixedly connected on next layer vertically per first guide post
The upper surface of fixed laminate, the lower end of one layer of fixation laminate is fixedly connected on per the bushing;It is a pair of per the bushing one
What should be able to be slided up and down is sheathed on first guide post.
Further, it is arranged between every two layers adjacent of screening mechanism there are four symmetrical first guide post,
And all first guide posts are located on four vertical axis;First pull rod of every two layers adjacent of screening mechanism
Quantity is four, and four first pull rods are symmetrical set.
Further, the cover layer includes that cover board and identical second pull rod of the first pull rod quantity and second stop
Link stopper and connecting tube;The fixation laminate of top is also provided with the second through-hole identical with the second pull rod quantity, described
The diameter of second stopper is greater than the diameter of second through-hole;It is additionally provided between the cover layer and top screening mechanism
The second guide post identical with first number of guide posts and the second bushing are fixedly connected on the lid per second bushing
The bottom end of plate is fixedly connected on the upper surface of the fixation laminate of top per second guide post;On the second bushing energy
Lower slider is sheathed in second guide post;And corresponding and lower layer first guide post per second guide post
On same vertical axis;The connecting tube is fixedly connected on the cover board upper end and penetrates the institute of the cover board and top
State sieve connection;The connecting tube is connected to the discharge port of the blanking device;It is fixedly connected on per second pull rod described
Cover board lower end, and what can be slided up and down is fixedly connected with second stopper after second through-hole.
Further, the blanking device includes the first cylinder, link mechanism, support base, support plate, hopper and overturning
Lid;The discharge port air-tightness of the hopper is connected to the connecting tube;What the overturning lid can be overturn covers the hopper;Institute
State the top that support plate is set up in the cover layer;The hopper frame is set in the support plate;The support base is fixedly connected
In in the support plate;The inclination of first cylinder is connected in the support plate;One end of the link mechanism is fixedly connected on institute
Overturning lid is stated, the other end of the link mechanism is fixedly connected on the piston rod of first cylinder, and the link mechanism can turn
Dynamic is connected to the support base;First cylinder is connected to the control module.
Further, the blanking device further includes a hemispherical stock guide, and the marginal end of the hemispherical stock guide is opened
Equipped with a plurality of deflector chutes;The hopper is divided into upper chamber under in the hopper by the hemispherical stock guide back-off
Chamber, and the upper chamber and the lower chambers are connected to per the deflector chute.
Further, every first guide post and the second guide post are also arranged with a shield respectively, lead per described first
It is also arranged with a hose clamp on top respectively to column and the second guide post, is additionally provided with sealing element, the screening on every sieve
Mechanism has three layers.
Further, the lifting device is cylinder, and the quantity of the cylinder is two, and two cylinders are in symmetrically to set
It sets;The control module is PLC controller.
The utility model has the advantages that the utility model provides a kind of minerals screening plant, including blanking device,
Vibrator and reception device further include control module, screening module and lifting device;The screening module include cover layer and
The screening mechanism that plural layer is arranged successively from top to bottom;The cover layer and all screening mechanisms realize linkage;When the lid
When plate layer, all screening mechanisms drop to minimum point, it is now in close screen isloation state, the cover layer is by the sieve of top
Sub-agencies closing, adjacent upper layer screening mechanism close lower layer's screening mechanism, and the screening mechanism of the bottom fills the reception
Closing is set, so that entire screening process is in close screen isloation state, prevents the loss of screening process particulate matter, improves screening essence
Degree, while preventing from that dust pollution occurs when screening, while controlling the vibrator and lifting device by the control module, it is real
Now automation screening improves screening efficiency.
Detailed description of the invention
The utility model is further described in conjunction with the embodiments with reference to the accompanying drawings.
Fig. 1 is the perspective view of the utility model minerals screening plant.
Fig. 2 is the main view that the utility model minerals screening plant is in close screen isloation state.
Fig. 3 is the A-A cross-sectional view of Fig. 2.
Fig. 4 is the main view that the utility model minerals screening plant is in open state.
Fig. 5 is the side view of Fig. 4.
Fig. 6 is the top view of Fig. 4.
Fig. 7 is the decomposition diagram of the utility model minerals screening plant.
In figure: 1, blanking device;11, the first cylinder;111, piston rod;12, link mechanism;13, support base;14, it supports
Plate;15, hopper;16, overturning lid;17, hemispherical stock guide;171, deflector chute;2, vibrator;3, reception device;4, mould is sieved
Block;41, cover layer;411, cover board;412, the second pull rod;413, the second stopper;414, connecting tube;415, the second bushing;42,
Screening mechanism;421, fixed laminate;4211, holding tank;4212, the second through-hole;422, sieve;4221, mesh;423, it first draws
Bar;424, the first stopper;425, first through hole;426, the first guide post;427, bushing;428, the second guide post;5, it goes up and down
Device;51, fixed part;52, lifting unit;6, shield;7, hose clamp;8, sealing element.
Specific embodiment
It please refers to shown in Fig. 1 to 7, the utility model provides a kind of minerals screening plant, including blanking device 1, vibration
Device 2 and reception device 3 further include control module (not shown), screening module 4 and lifting device 5;
What the reception device 1 can be dismantled is mounted on 2 upper end of vibrator, so that can be by reception device 3 after screening
It takes out, the particulate matter of 3 the inside of reception device is taken into next process, convenient transportation;
The screening module 4 includes the screening mechanism 42 that cover layer 41 and plural layer are arranged successively from top to bottom;It is described
The surface of the screening mechanism 42 for being connected to top of 41 energy oscilaltion of cover layer, the screening mechanism 42 of the bottom can be up and down
The upper end for being set up in the vibrator 2 of lifting and the surface for being located at the reception device 3, so that vibrator 2 can be with
Vibration is passed into the screening module, carries out shaking-sieving, is also prevented from and mesh blocking occurs, and upper one layer of screening mechanism 42
The surface for being connected to adjacent next layer of screening mechanism 42 of energy oscilaltion;
The blanking device 1 is set up in the upper end of the vibrator 2 and is located at 41 top of cover layer, the blanking dress
Set the screening mechanism 42 of the connection top of 1 discharge port air-tightness;
The lifting device 5 includes fixed part 51 and lifting unit 52, and the fixed part 51 is fixedly connected on the vibrator 2
Upper end, the lifting unit 52 is fixedly connected on the cover layer 41;The cover layer 41 and all screening mechanisms 42 are realized
Linkage, so that carrying out moving up and down to drive the cover layer 41 and all screening machines by the lifting device 5
Structure 41 moves up and down;When the cover layer 41, all screening mechanisms 42 drop to minimum point, it is now in close screen
Isloation state, the cover layer 41 close the screening mechanism 42 of top, and adjacent upper layer screening mechanism 42 is by lower layer's screening machine
Structure 42 is closed, and the screening mechanism 42 of the bottom closes the reception device 3, so that entire screening process is in closing screening shape
State prevents the loss of screening process particulate matter, improves screening precision, for example, carrying out assaying matter various specifications particulate matter
When specific gravity, precision when analysis of data collected can be improved, while preventing that dust pollution occurs when screening;When the cover layer
41, when all screening mechanisms 42 rise to highest point, it is now in open state, screening is completed at this time, and vibrator 2 stops work
Make, can by the particulate matter of each screening mechanism 42 and the various specifications of reception device 3 take out carry out subsequent processing research or
Production.
The control module (not shown) is communicatively coupled to the vibrator 2 and lifting device 1, realizes automation screening,
Improve screening efficiency.
Working principle: the stroke highs and lows of the lifting device 5 have been previously set, and has realized and sets sieve
Between timesharing;When screening, Mineral feedstock is poured into the blanking device, the control module control liter (not shown)
Falling unit 5 moves downward that the cover layer 41 and all screening mechanisms 42 is driven to move to minimum point downwardly together, this
When be in close screen isloation state, the control module control vibrator 2 (not shown) is shaken, and Mineral feedstock is from institute
The screening mechanism that blanking device 1 enters top is stated, is then successively fallen down according to the size of particulate matter, is successively sieved
Choosing, final the smallest particulate matter is fallen in the reception device 3, after the completion of screening, the control module control (not shown)
It makes the vibrator 2 and stops vibration, then control module control (not shown) lifting upwards of lifting device 5, thus
The cover layer 41 and all screening mechanisms 42 are moved upwardly together to highest point, open state is now in, it can also be quiet
After setting a period of time, the control module is (not shown) by controlling the lifting movement upwards of lifting device 5, so that in opening
Put state.Whole process realizes automation screening, while sieving in sealed states, and particulate matter is avoided to drop out outside screening plant
And particulate matter quantity is caused to lose, the precision of screening is improved, while preventing dust pollution.
In specific implementation, a preferable embodiment: including fixed laminate 421 and sieve per the screening mechanism 42
422;Bottom surface per the sieve 422 is arc, so that particulate matter can also be rolled arcuately in face in screening process, into one
Step prevents to stack, while reducing by 4221 plugging rate of mesh, improves screening efficiency, from top to bottom the institute of every layer of screening mechanism 42
4221 diameter of mesh for stating sieve 422 is sequentially reduced, and can be carried out step-sizing, be screened out the particulate matter of different-diameter;It is described
Holding tank 4211 is offered among fixed laminate 421, the sieve 422 is removably stuck in the holding tank 4211, makes
The particulate matter by 422 the inside of sieve is facilitated to take out after the completion of must screening;All sieves 422 are located at same vertical axes
On line, and the reception device 3 is located at immediately below the sieve 422 of the bottom;And when in the close screen isloation state
When, upper one layer adjacent of fixation laminate 421 covers next layer of sieve 422 and is closed;The cover layer 41 will be pushed up most
The sieve 422 of layer covers closing;The fixation laminate 421 of the bottom covers the reception device 3;When in the open state
When, the height between adjacent two layers screening mechanism 42 is greater than the height of the sieve 422, allow the sieve 422 therefrom
It takes out, facilitates and take out the particulate matter after screening.
At least one first pull rod 423 and and first pull rod are provided between per adjacent two layers of screening mechanism 42
Identical first stopper 424 of 423 quantity;And the fixation laminate 421 for being located at lower layer offers and 423 quantity of the first pull rod
Identical first through hole 425;Diameter per first stopper 424 is greater than the diameter per the first through hole 425, every institute
The lower end that the first pull rod 423 is fixedly connected on one layer of fixation laminate 421 vertically is stated, and what can be slided up and down passes through next layer
The first through hole 425 of fixed laminate 421, after be fixedly connected on first stopper 424 so that upwards lifting movement when,
Can be drawn by described first, 423 and first stopper 424 carry out pulling force transmitting, every layer of screening mechanism is lifted upwards, together
When height limitation carried out by first stopper 424 by height limitation in highest point be further ensured that the precision of movement.
Per be additionally provided between adjacent two layers of screening mechanism 42 at least two the first symmetrical guide posts 426, with
And bushing 427 identical with 426 quantity of the first guide post;It is fixedly connected on vertically per first guide post 426 next
The upper surface of the fixation laminate 421 of layer is fixedly connected on the lower end of one layer of fixation laminate 421 per the bushing 427;Often
What the one-to-one correspondence of bushing 427 can slide up and down is sheathed on first guide post 426, passes through first guide post
426 are oriented to, so that movement is more accurate.
Symmetrical first guide post 426 there are four settings between per adjacent two layers of screening mechanism 42, and institute
First guide post 426 having is located on four vertical axis;First pull rod per adjacent two layers of screening mechanism 42
423 quantity is four, and four first pull rods 423 are symmetrical set.
The cover layer 41 includes the second pull rod 412 and second identical with 423 quantity of the first pull rod of cover board 411
Stopper 413 and connecting tube 414;The fixation laminate 421 of top is also provided with identical with 412 quantity of the second pull rod
The second through-hole 4212, the diameter of second stopper 413 is greater than the diameter of second through-hole 4212;The cover layer 41
The second guide post 428 identical with 426 quantity of the first guide post and are additionally provided between top screening mechanism 42
Two bushings 415 are fixedly connected on the bottom end of the cover board 411 per second bushing 415, solid per second guide post 428
Surely it is connected to the upper surface of the fixation laminate 421 of top;What second bushing 415 can slide up and down is sheathed on described
In two guide posts 428;And corresponding and lower layer first guide post 426 is located at same erect per second guide post 428
In straight axis;The connecting tube 414 is fixedly connected on 411 upper end of cover board and penetrates the institute of the cover board 411 and top
State the connection of sieve 422;The connecting tube 414 is connected to the discharge port of the blanking device 1;It is fixed per second pull rod 412
It is connected to 411 lower end of cover board, and is fixedly connected with one described the after what can be slided up and down pass through second through-hole 4212
Two stoppers 413.Pulling force transmitting is carried out by second pull rod 412 and the second stopper 413, realizes linkage lifting.Pass through
Second guide post 428 is oriented to, and guarantees kinematic accuracy.
The blanking device 1 includes the first cylinder 11, link mechanism 12, support base 13, support plate 14, hopper 15 and turns over
Hub cap 16;The discharge port air-tightness of the hopper 15 is connected to the connecting tube 414, and the discharging of the hopper 15
The length that mouth is embedded in the connecting tube is greater than the direct height of 5 highs and lows of lifting device, prevents lifting process
Discharge port is detached from the connecting tube, realizes and is tightly connected;What the overturning lid 16 can be overturn covers the hopper 15;The support
Plate 14 is set up in the top of the cover layer 41;The hopper 15 is set up in the support plate 14;The support base 13 is fixed
It is connected in the support plate 14;The inclination of first cylinder 11 is connected in the support plate 14;One end of the link mechanism 12
It is fixedly connected on the overturning lid 16, the other end of the link mechanism 12 is fixedly connected on the piston of first cylinder 11
Bar 111, what the link mechanism 12 was able to rotate is connected to the support base 13;First cylinder 11 is connected to the control mould
Block (not shown).Stretching motion up and down is carried out by the control module control cylinder 11 (not shown), to control institute
State opening or closing for overturning lid 16.In actual use, the unlatching that switch control the overturning lid 16 can be separately provided
And closure.
The blanking device 1 further includes a hemispherical stock guide 17, and the marginal end of the hemispherical stock guide 17 offers
A plurality of deflector chutes 171;The hopper 15 is divided into upper chamber in the hopper 15 by the back-off of hemispherical stock guide 17
And lower chambers, and the upper chamber and the lower chambers are connected to per the deflector chute 171.
Per first guide post 426 and the second guide post 428 is also arranged with a shield 6 respectively, can by the shield 6
To protect first guide post 426 and the second guide post 428, prevent dust from entering;Per first guide post 426 and second
Guide post 428 is also arranged with a hose clamp 7 on top respectively, bushing and guide post can be prevented to be detached from by the hose clamp 7;Every institute
It states and is additionally provided with sealing element 8 on sieve 422, make sealing tighter by the sealing element 8, in embodiment shown in the drawings
In, the screening mechanism 42 has three layers, can there is other numbers of plies in other embodiments certainly.
The lifting device 5 is cylinder, and the quantity of the cylinder 5 is two, and two cylinders 5 are symmetrical set, and are made
Stress balance is obtained, is further ensured that the precision of movement;The control module (not shown) is PLC controller (not shown);It is described
PLC controller (not shown) is existing equipment, and materials are convenient.For example, vibrator 2 uses half-wave type vibrator MB-460T, it is existing
There is equipment, it is convenient to remove.
Although those familiar with the art answers the foregoing describe specific embodiment of the present utility model
Working as understanding, we are merely exemplary described specific embodiment, rather than for the limit to the scope of the utility model
Fixed, those skilled in the art modification and variation equivalent made by the spirit according to the utility model all should
Cover in the scope of the claimed protection of the utility model.
Claims (10)
1. a kind of minerals screening plant, including blanking device, vibrator and reception device, it is characterised in that: further include control
Module, screening module and lifting device;
What the reception device can be dismantled is mounted on the vibrator upper end;
The screening module includes the screening mechanism that cover layer and plural layer are arranged successively from top to bottom;On the cover layer energy
The surface of the screening mechanism for being connected to top of lower lifting, being set up in for the screening mechanism energy oscilaltion of the bottom are described
The upper end of vibrator and the surface for being located at the reception device, and upper one layer of screening mechanism energy oscilaltion is connected to phase
The surface of adjacent next layer of screening mechanism;
The blanking device is set up in the upper end of the vibrator and is located above the cover layer, the discharging of the blanking device
The screening mechanism of the connection top of mouth air-tightness;
The lifting device includes fixed part and lifting unit, and the fixed part is fixedly connected on the upper end of the vibrator, described
Lifting unit is fixedly connected on the cover layer;The cover layer and all screening mechanisms realize linkage;When the cover layer, institute
When some screening mechanisms drop to minimum point, it is now in close screen isloation state, the cover layer is by the screening mechanism of top
Closing, adjacent upper layer screening mechanism close lower layer's screening mechanism, and the screening mechanism of the bottom closes the reception device;
When the cover layer, all screening mechanisms rise to highest point, it is now in open state;
The control module is communicatively coupled to the vibrator and lifting device.
2. a kind of minerals screening plant according to claim 1, it is characterised in that: include fixing per the screening mechanism
Laminate and sieve;Per the sieve bottom surface be arc, from top to bottom the mesh diameter of the sieve of every layer of screening mechanism according to
Secondary reduction;Holding tank is offered among the fixed laminate, the sieve is removably stuck in the holding tank;All institutes
It states sieve to be located on same vertical axis, and the reception device is located at immediately below the sieve of the bottom;And when in institute
When stating close screen isloation state, upper one layer adjacent of fixation laminate covers next layer of sieve, is closed;The cover layer will
The sieve of top covers closing;The fixation laminate of the bottom covers the reception device;When being in the open state, phase
Height between adjacent two layers of screening mechanism is greater than the height of the sieve.
3. a kind of minerals screening plant according to claim 2, it is characterised in that: per two layers adjacent of screening mechanism it
Between be provided at least one first pull rod and the first stopper identical with the first pull rod quantity;And it is located at consolidating for lower layer
Given layer plate offers first through hole identical with the first pull rod quantity;Diameter per first stopper is greater than per described
The diameter of first through hole;It is fixedly connected on the lower end of one layer of fixation laminate vertically per first pull rod, and downslide can be gone up
The dynamic first through hole across next layer of fixed laminate, after be fixedly connected on first stopper.
4. a kind of minerals screening plant according to claim 3, it is characterised in that: per two layers adjacent of screening mechanism it
Between be additionally provided at least two the first symmetrical guide posts and bushing identical with first number of guide posts;Often
First guide post is fixedly connected on the upper surface of next layer of fixation laminate vertically, is fixedly connected on one per the bushing
The lower end of the fixation laminate of layer;What per the bushing, one-to-one correspondence can be slided up and down is sheathed on first guide post.
5. a kind of minerals screening plant according to claim 4, it is characterised in that: per two layers adjacent of screening mechanism it
Between setting there are four symmetrical first guide post, and all first guide posts are located at four vertical axis
On;The quantity of first pull rod per two layers adjacent of screening mechanism is four, and four first pull rods are symmetrical set.
6. a kind of minerals screening plant according to claim 5, it is characterised in that: the cover layer include cover board and
Identical second pull rod of the first pull rod quantity and the second stopper and connecting tube;The fixation laminate of top also opens up
There is the second through-hole identical with the second pull rod quantity, the diameter of second stopper is greater than the straight of second through-hole
Diameter;The second guide post identical with first number of guide posts is additionally provided between the cover layer and top screening mechanism
With the second bushing, it is fixedly connected on the bottom end of the cover board per second bushing, is fixedly connected on per second guide post
The upper surface of the fixation laminate of top;What second bushing can slide up and down is sheathed in second guide post;And it is every
Corresponding first guide post with lower layer of second guide post is located on same vertical axis;The connecting tube is fixed to be connected
It is connected to the cover board upper end and penetrates the cover board and be connected to the sieve of top;The connecting tube is connected to the blanking
The discharge port of device;The cover board lower end is fixedly connected on per second pull rod, and what can be slided up and down passes through one described the
Second stopper is fixedly connected with after two through-holes.
7. a kind of minerals screening plant according to claim 6, it is characterised in that: the blanking device includes the first gas
Cylinder, link mechanism, support base, support plate, hopper and overturning lid;The discharge port air-tightness of the hopper is connected to the company
Adapter tube;What the overturning lid can be overturn covers the hopper;The support plate is set up in the top of the cover layer;The hopper
It is set up in the support plate;The support base is fixedly connected in the support plate;The inclination of first cylinder is connected to the branch
On fagging;One end of the link mechanism is fixedly connected on the overturning lid, and the other end of the link mechanism is fixedly connected on
The piston rod of first cylinder, what the link mechanism was able to rotate is connected to the support base;First cylinder is connected to
The control module.
8. a kind of minerals screening plant according to claim 7, it is characterised in that: the blanking device further includes half
The marginal end of spherical stock guide, the hemispherical stock guide offers a plurality of deflector chutes;Hemispherical stock guide back-off in
In the hopper, the hopper is divided into upper chamber and lower chambers, and is connected to per the deflector chute upper chamber and described
Lower chambers.
9. a kind of minerals screening plant according to claim 6, it is characterised in that: per first guide post and second
Guide post is also arranged with a shield respectively, and per first guide post and the second guide post is also arranged with a larynx on top respectively
It binds round, is additionally provided with sealing element on every sieve, the screening mechanism has three layers.
10. a kind of minerals screening plant according to claim 1, it is characterised in that: the lifting device is cylinder, institute
The quantity for stating cylinder is two, and two cylinders are symmetrical set;The control module is PLC controller.
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CN201821377940.2U CN208944542U (en) | 2018-08-24 | 2018-08-24 | A kind of minerals screening plant |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108927325A (en) * | 2018-08-24 | 2018-12-04 | 福州国化智能技术有限公司 | A kind of minerals screening plant |
CN111217079A (en) * | 2019-12-02 | 2020-06-02 | 姚笑笑 | Mineral carrier convenient to unload powdered particles |
CN111389709A (en) * | 2020-03-30 | 2020-07-10 | 中冶长天国际工程有限责任公司 | Vibration screening device |
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2018
- 2018-08-24 CN CN201821377940.2U patent/CN208944542U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108927325A (en) * | 2018-08-24 | 2018-12-04 | 福州国化智能技术有限公司 | A kind of minerals screening plant |
CN108927325B (en) * | 2018-08-24 | 2023-12-05 | 福州国化智能技术有限公司 | Mineral screening device |
CN111217079A (en) * | 2019-12-02 | 2020-06-02 | 姚笑笑 | Mineral carrier convenient to unload powdered particles |
CN111389709A (en) * | 2020-03-30 | 2020-07-10 | 中冶长天国际工程有限责任公司 | Vibration screening device |
CN111389709B (en) * | 2020-03-30 | 2021-07-20 | 中冶长天国际工程有限责任公司 | Vibration screening device |
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