A kind of high speed for carbonated rare earth sieves breaker
Technical field
The present invention relates to a kind of sieving approach device more particularly to a kind of high speed sieving approach dresses for carbonated rare earth
It sets.
Background technology
Rare earth has the laudatory title of " industrial vitamin ".Nowadays extremely important strategic resource is had become.Rare earth element aoxidizes
Object refer to period of element atom ordinal number be 57 to 71 15 kinds of lanthanide oxides, and with lanthanide series chemical property
The oxide of similar scandium and yttrium totally 17 kinds of elements.The value of rare earth oxide will be increasing.According to rare earth atoms electricity
Sublayer structure and physicochemical properties and their symbiosis situation and different ionic radius in mineral can generate heterogeneity
Feature.Rare earth element is obtained in fields such as oil, chemical industry, metallurgy, weaving, ceramics, glass, permanent-magnet materials and widely answers
With with advances in technology with the continuous breakthrough of application technology, the value of rare earth oxide will be increasing.Rare earth is manufacture quilt
The referred to as indispensable element of the various weaponrys such as the precision-guided munitions of " agile bomb ", radar and night vision goggles.Because of its day
Right abundance is small, and exists in the form of oxide or oxysalt mineral intergrowth, therefore is " rare earth ".Carbonated rare earth mainly describes dilute
Soil is existed with carbonate form.Such as La2CO3, lanthanum carbonate.Carbonic acid mischmetal.But existed with carbonate form.Sieve
It is exactly the method for detaching population by dry jet mixing piles such as the size of particle, proportion, charging property and magnetism to divide.Simultaneously
The operation for the different mixed material of granule size being divided into compass screen surface with holes various granularity level is called screening.
The existing sieving approach device for carbonated rare earth, the traditional structure of generally use, can not to carbonated rare earth into
The sieving approach of row high speed causes working efficiency low, and sieving approach effect is poor, is unfavorable for the following process processing of carbonated rare earth,
Influence the production and development of enterprise.
Invention content
(1)Technical problems to be solved
The present invention is in order to overcome the existing sieving approach device for carbonated rare earth, the traditional structure of generally use, nothing
Method carries out carbonated rare earth the shortcomings that sieving approach of high speed, and the technical problem to be solved in the present invention is to provide one kind being used for carbonic acid
The high speed of rare earth sieves breaker.
(2)Technical solution
In order to solve the above technical problem, the present invention provides such a high speed sieving approach dresses for carbonated rare earth
It sets, includes cylinder, sieve material device, feeding device, supporting leg, discharge nozzle, valve, pedestal and fixed column;The top of cylinder is spacious
Mouth formula setting is provided with sieve material device above cylinder, expects to be provided with feeding device, the lower section of cylinder above device in sieve
Symmetrical formula is provided with supporting leg, and the upper end of supporting leg and the lower sloped walls of cylinder connect by welding, cylinder just under
Side is provided with discharge nozzle, and the upper end of discharge nozzle and the bottom of cylinder connect by welding, and valve is provided on discharge nozzle
Door, is provided with pedestal on the left of cylinder, and the top of pedestal and the lower end of fixed column connect by welding, sieve material device
It is connected with fixed column with feeding device.
Preferably, sieve material device includes long stroke cylinder, long stroke telescopic rod, left and right cylinder I, guide sleeve, girth sheets, sieve
Net, push plate and left and right cylinder II;Long stroke cylinder is arranged between cylinder and pedestal, long stroke cylinder and long stroke telescopic rod
Lower end is connected, and the upper end and the bottom of left and right cylinder I of long stroke telescopic rod are bolted, the left side wall of left and right cylinder I
It is connect by welding with the right side wall of guide sleeve, guide sleeve slidingtype is sleeved in fixed column, I telescopic rod of left and right cylinder
Right end and the left side wall of girth sheets connect by welding, the madial wall of sieve and girth sheets is bolted, sieve and
Girth sheets is arranged at the top of cylinder, and push plate is provided with above sieve, and push plate is set as being flexibly connected with sieve, left and right gas
Cylinder II and the right outside sidewall of girth sheets are bolted, and the top of girth sheets right side wall is provided with hole, and the telescopic rod of left and right cylinder II is logical
The hole for crossing girth sheets right side wall top is extend into girth sheets, and the left end of II telescopic rod of left and right cylinder and the right side wall of push plate pass through welding
Mode connect.
Preferably, feeding device includes connecting plate, hopper, brace, upper and lower air cylinders I, triangle pressing plate, cannon plug
And reclaiming plate;Connecting plate is arranged in the top of left and right cylinder I, and the left end of connecting plate passes through welding with the upper end of fixed column right side wall
Mode connect, the right end of connecting plate is connect by welding with the lower part of hopper left side wall, in top of hopper or so
Symmetrical expression is provided with brace, and the upper end of skew wall connects by welding in the lower end of brace and hopper, in symmetrical formula
Upper and lower air cylinders I are provided among the brace of setting, the upper end of brace is connect by welding with the side wall of upper and lower air cylinders I,
The lower end of I telescopic rod of upper and lower air cylinders is connect by welding with the top of triangle pressing plate, and the bottom of triangle pressing plate is equal
Even formula is welded with several cannon plugs, and reclaiming plate is provided with below cannon plug, and uniform formula is opened on reclaiming plate
There are several holes, cannon plug is corresponding with the hole on reclaiming plate, and cannon plug is set as being flexibly connected with reclaiming plate, goes out
Flitch is connect by welding with the lower part of hopper madial wall, and hopper is located at the top of girth sheets and sieve.
Preferably, further include having sieve plate, triangle material-distributing tooth, movable plate, semicircle abrasive head, motor I, upper and lower air cylinders II
With connecting rod I;The middle part of sieve plate and cylinder madial wall connects by welding, and uniform formula is provided with several on sieve plate
Hole, the uniform formula in top of sieve plate are welded with several triangle material-distributing tooths, and the hole of triangle material-distributing tooth and sieve plate sets for compartment
It sets, movable plate is provided with below sieve plate, uniform formula is provided with several inverted trapezoidal holes on movable plate, and the top of movable plate is equal
Even formula is welded with several semicircle abrasive heads, and the inverted trapezoidal hole of semicircle abrasive head and movable plate is compartment setting, semicircle
The underface in the hole of sieve plate is arranged in shape abrasive head, and semicircle abrasive head is set as being flexibly connected with sieve plate, movable plate bottom
Middle part is connect by welding with the upper end of I output shaft of motor, the upper end of the bottom and II telescopic rod of upper and lower air cylinders of motor I
It is bolted, the left and right sides symmetrical expression of upper and lower air cylinders II is provided with connecting rod I, one end of connecting rod I and upper and lower gas
The side wall of cylinder II is bolted, and the other end of connecting rod I and the madial wall of cylinder connect by welding.
Preferably, further include having connecting rod II, motor II and scrubbing brush, connecting rod II, motor II and scrubbing brush are arranged at cylinder
In vivo, the left and right sides symmetrical expression of motor II is provided with connecting rod II, one end of connecting rod II and the side wall of motor II pass through
It is bolted, the other end of connecting rod II and the madial wall of cylinder connect by welding, the lower end of II output shaft of motor
It is connect by welding with the top of scrubbing brush, scrubbing brush is arranged in the top of sieve plate, and scrubbing brush is corresponding with sieve plate, scrubbing brush and sieve
Plate is set as being flexibly connected.
Preferably, the cylinder diameter of long stroke cylinder is set as 100-500mm, and the stroke of long stroke cylinder is set as 10-30m,
The cylinder diameter of left and right cylinder I is set as 50-150mm, and the stroke of left and right cylinder I is set as 3-12m, the rotating speed of motor I and motor II
It is disposed as 300-1600r/min.
Operation principle:Because the present invention includes cylinder, sieve material device, feeding device, supporting leg, discharge nozzle, valve, pedestal
And fixed column, so carbonated rare earth can be first added in feeding device by staff, then again by feeding device by carbon
Acid rare earth is added in sieve material device and carries out sieving approach, the carbonated rare earth after sieving approach is fallen into cylinder, staff
Valve is opened again, and carbonated rare earth is discharged by discharge nozzle.
Because sieve material device include long stroke cylinder, long stroke telescopic rod, left and right cylinder I, guide sleeve, girth sheets, sieve,
Push plate and left and right cylinder II, so staff can start long stroke cylinder and act, long stroke cylinder passes through long stroke
Carbonated rare earth on telescopic rod drive left and right cylinder I, girth sheets and sieve and sieve carries out the screening that teetertotters, and works at the same time
Personnel start left and right cylinder I and act, and it is left that left and right cylinder I drives the carbonated rare earth on girth sheets and sieve and sieve to carry out
Right shaking screening, sieve are jointly sieved the suitable carbonated rare earth of granule size into the cylinder of lower section by two kinds of movements, so
Staff starts left and right cylinder II and acts afterwards, and left and right cylinder II drives push plate to carry out side-to-side movement, sieve on sieve
Steel wire may be used, can avoid that excessive deformation occurs, the push plate of side-to-side movement is excessive to the granularity accumulated on sieve
Carbonated rare earth carries out attrition crushing, and the carbonated rare earth after attrition crushing is dropped downward by sieve in cylinder.
Because feeding device include connecting plate, hopper, brace, upper and lower air cylinders I, triangle pressing plate, cannon plug and
Reclaiming plate, so staff can start upper and lower air cylinders I and act, upper and lower air cylinders I drive triangle pressing plate and cylinder
Plug is moved downwards, and triangle pressing plate can carry out attrition crushing, cannon plug energy to the carbonated rare earth on reclaiming plate
It is enough inserted into the through-hole of reclaiming plate, and the carbonated rare earth on reclaiming plate is passed through into the through-hole of reclaiming plate, punching press to reclaiming plate
Lower section.Due to being fallen downwards by the through-hole of reclaiming plate into the carbonated rare earth in material bin, so when cannon plug is inserted in
When in the through-hole of reclaiming plate, the carbonated rare earth in hopper can be kept off in hopper, to realize intermittent discharge, while triangle
When pressing plate can prevent upper and lower air cylinders I from triangle pressing plate being driven to move upwards, carbonated rare earth is deposited in the top of triangle pressing plate,
It avoids triangle pressing plate from proposing carbonated rare earth out of hopper, prevents the generation of wastage of material problem.
Because further including having sieve plate, triangle material-distributing tooth, movable plate, semicircle abrasive head, motor I, II and of upper and lower air cylinders
Connecting rod I, so staff can start upper and lower air cylinders II and move, upper and lower air cylinders II drive motor I and movable plate, with
And semicircle abrasive head moves up and down, and to adjust the position of movable plate and semicircle abrasive head and sieve plate, works at the same time
Personnel start motor I and operate, and motor I drives movable plate and semicircle abrasive head to be rotated, and movable plate is ground with semicircle
Material head carries out again broken to after the separation of triangle material-distributing tooth, and by the carbonated rare earth that the hole of sieve plate falls, and is crushed
Effect is good.
Because further including having connecting rod II, motor II and scrubbing brush, connecting rod II, motor II and scrubbing brush are arranged at cylinder
Interior, so staff can start motor II and operate, motor II drives scrubbing brush to be rotated, and scrubbing brush is to sieve plate and triangle
Shape material-distributing tooth is cleaned, and carbonated rare earth can be avoided to be adhered on sieve plate and triangle material-distributing tooth, while can also improve carbon
The efficiency that acid rare earth passes through sieve plate through-hole.
Because the cylinder diameter of long stroke cylinder is set as 100-500mm, the stroke of long stroke cylinder is set as 10-30m, left and right
The cylinder diameter of cylinder I is set as 50-150mm, and the stroke of left and right cylinder I is set as 3-12m, so operation is more steady, performance is more
Adding securely and reliably, the rotating speed of motor I and motor II is disposed as 300-1600r/min, so rotation is more precisely accurate, it is convenient
Adjust its rotating speed.
(3)Advantageous effect
A kind of high speed for carbonated rare earth provided by the present invention sieves breaker, passes through feeding device and sieve material dress
The combination set can carry out carbonated rare earth the sieving approach of high speed, and work efficiency is high, and sieving approach effect is good, is conducive to carbon
The following process of acid rare earth is handled, and is conducive to the production and development of enterprise, present apparatus manufacturing cost is low, is easily installed, operation side
Just, simple in structure, maintain easily repair.
Description of the drawings
Fig. 1 is the main view schematic diagram of the present invention.
Fig. 2 is the main view schematic diagram of the upper and lower air cylinders II of the present invention.
Fig. 3 is the main view schematic diagram of the scrubbing brush of the present invention.
Label in attached drawing be:1- cylinders, 2- sieve material devices, 3- feeding devices, 4- supporting legs, 5- discharge nozzles, 6- valves, 7-
Pedestal, 8- fixed columns, 21- long stroke cylinders, 22- long stroke telescopic rods, 23- left and right cylinders I, 24- guide sleeves, 25- girth sheets,
26- sieves, 27- push plates, 28- left and right cylinders II, 31- connecting plates, 32- hoppers, 33- braces, 34- upper and lower air cylinders I, 35- triangles
Shape pressing plate, 36- cannon plugs, 37- reclaiming plates, 41- sieve plates, 42- triangle material-distributing tooths, 43- movable plates, 44- semicircles mill
Material head, 45- motors I, 46- upper and lower air cylinders II, 47- connecting rods I, 51- connecting rods II, 52- motors II, 53- scrubbing brushes.
Specific implementation mode
The present invention is further illustrated with reference to the accompanying drawings and examples.
Embodiment 1
A kind of high speed for carbonated rare earth sieves breaker, as shown in Figs. 1-3, include cylinder 1, sieve material device 2,
Feeding device 3, supporting leg 4, discharge nozzle 5, valve 6, pedestal 7 and fixed column 8;The top of cylinder 1 is arranged for opened type, in cylinder 1
Top be provided with sieve material device 2, sieve material device 2 top be provided with feeding device 3, the symmetrical formula in lower section of cylinder 1
It is provided with supporting leg 4, the upper end of supporting leg 4 is connect by welding with the lower sloped walls of cylinder 1, is arranged in the underface of cylinder 1
There are discharge nozzle 5, the upper end of discharge nozzle 5 to be connect by welding with the bottom of cylinder 1, valve is provided on discharge nozzle 5
6, the left side of cylinder 1 is provided with pedestal 7, the top of pedestal 7 is connect by welding with the lower end of fixed column 8, sieve material
Device 2 and feeding device 3 are connected with fixed column 8.
Embodiment 2
A kind of high speed for carbonated rare earth sieves breaker, as shown in Figs. 1-3, include cylinder 1, sieve material device 2,
Feeding device 3, supporting leg 4, discharge nozzle 5, valve 6, pedestal 7 and fixed column 8;The top of cylinder 1 is arranged for opened type, in cylinder 1
Top be provided with sieve material device 2, sieve material device 2 top be provided with feeding device 3, the symmetrical formula in lower section of cylinder 1
It is provided with supporting leg 4, the upper end of supporting leg 4 is connect by welding with the lower sloped walls of cylinder 1, is arranged in the underface of cylinder 1
There are discharge nozzle 5, the upper end of discharge nozzle 5 to be connect by welding with the bottom of cylinder 1, valve is provided on discharge nozzle 5
6, the left side of cylinder 1 is provided with pedestal 7, the top of pedestal 7 is connect by welding with the lower end of fixed column 8, sieve material
Device 2 and feeding device 3 are connected with fixed column 8.
Sieve material device 2 includes long stroke cylinder 21, long stroke telescopic rod 22, left and right cylinder I 23, guide sleeve 24, girth sheets
25, sieve 26, push plate 27 and left and right cylinder II 28;Long stroke cylinder 21 is arranged between cylinder 1 and pedestal 7, long stroke cylinder
21 are connected with the lower end of long stroke telescopic rod 22, and the upper end of long stroke telescopic rod 22 passes through spiral shell with the bottom of left and right cylinder I 23
It tethers and connects, the left side wall of left and right cylinder I 23 is connect by welding with the right side wall of guide sleeve 24,24 slidingtype of guide sleeve
Be sleeved in fixed column 8, the right end of I 23 telescopic rod of left and right cylinder is connect by welding with the left side wall of girth sheets 25, sieve
Net 26 and the madial wall of girth sheets 25 are bolted, and sieve 26 and girth sheets 25 are arranged at the top of cylinder 1, in sieve 26
Top is provided with push plate 27, and push plate 27 is set as being flexibly connected with sieve 26, the right outside sidewall of left and right cylinder II 28 and girth sheets 25
It is bolted, the top of 25 right side wall of girth sheets is provided with hole, and the telescopic rod of left and right cylinder II 28 passes through on 25 right side wall of girth sheets
The hole in portion is extend into girth sheets 25, and the left end of II 28 telescopic rod of left and right cylinder connects by welding with the right side wall of push plate 27
It connects.
Embodiment 3
A kind of high speed for carbonated rare earth sieves breaker, as shown in Figs. 1-3, include cylinder 1, sieve material device 2,
Feeding device 3, supporting leg 4, discharge nozzle 5, valve 6, pedestal 7 and fixed column 8;The top of cylinder 1 is arranged for opened type, in cylinder 1
Top be provided with sieve material device 2, sieve material device 2 top be provided with feeding device 3, the symmetrical formula in lower section of cylinder 1
It is provided with supporting leg 4, the upper end of supporting leg 4 is connect by welding with the lower sloped walls of cylinder 1, is arranged in the underface of cylinder 1
There are discharge nozzle 5, the upper end of discharge nozzle 5 to be connect by welding with the bottom of cylinder 1, valve is provided on discharge nozzle 5
6, the left side of cylinder 1 is provided with pedestal 7, the top of pedestal 7 is connect by welding with the lower end of fixed column 8, sieve material
Device 2 and feeding device 3 are connected with fixed column 8.
Sieve material device 2 includes long stroke cylinder 21, long stroke telescopic rod 22, left and right cylinder I 23, guide sleeve 24, girth sheets
25, sieve 26, push plate 27 and left and right cylinder II 28;Long stroke cylinder 21 is arranged between cylinder 1 and pedestal 7, long stroke cylinder
21 are connected with the lower end of long stroke telescopic rod 22, and the upper end of long stroke telescopic rod 22 passes through spiral shell with the bottom of left and right cylinder I 23
It tethers and connects, the left side wall of left and right cylinder I 23 is connect by welding with the right side wall of guide sleeve 24,24 slidingtype of guide sleeve
Be sleeved in fixed column 8, the right end of I 23 telescopic rod of left and right cylinder is connect by welding with the left side wall of girth sheets 25, sieve
Net 26 and the madial wall of girth sheets 25 are bolted, and sieve 26 and girth sheets 25 are arranged at the top of cylinder 1, in sieve 26
Top is provided with push plate 27, and push plate 27 is set as being flexibly connected with sieve 26, the right outside sidewall of left and right cylinder II 28 and girth sheets 25
It is bolted, the top of 25 right side wall of girth sheets is provided with hole, and the telescopic rod of left and right cylinder II 28 passes through on 25 right side wall of girth sheets
The hole in portion is extend into girth sheets 25, and the left end of II 28 telescopic rod of left and right cylinder connects by welding with the right side wall of push plate 27
It connects.
Feeding device 3 includes connecting plate 31, hopper 32, brace 33, upper and lower air cylinders I 34, triangle pressing plate 35, cylinder
Plug 36 and reclaiming plate 37;Connecting plate 31 is arranged on the top of left and right cylinder I 23, left end and 8 right side of fixed column of connecting plate 31
The upper end of wall connects by welding, and the lower part of the right end and 32 left side wall of hopper of connecting plate 31 connects by welding
It connects, in the top of hopper 32, symmetrical formula is provided with brace 33, and the lower end and the upper end of skew wall in hopper 32 of brace 33 pass through
The mode of welding connects, and upper and lower air cylinders I 34 are provided among the brace 33 of symmetrical formula setting, the upper end of brace 33 with it is upper
The side wall of lower cylinder I 34 connects by welding, the top of the lower end and triangle pressing plate 35 of I 34 telescopic rod of upper and lower air cylinders
It connects by welding, the uniform formula in bottom of triangle pressing plate 35 is welded with several cannon plugs 36, in cylinder
The lower section of plug 36 is provided with reclaiming plate 37, and uniform formula is provided with several holes, cannon plug 36 and discharging on reclaiming plate 37
Hole on plate 37 is corresponding, and cannon plug 36 is set as being flexibly connected with reclaiming plate 37, reclaiming plate 37 and 32 madial wall of hopper
Lower part connect by welding, hopper 32 is located at the top of girth sheets 25 and sieve 26.
Embodiment 4
A kind of high speed for carbonated rare earth sieves breaker, as shown in Figs. 1-3, include cylinder 1, sieve material device 2,
Feeding device 3, supporting leg 4, discharge nozzle 5, valve 6, pedestal 7 and fixed column 8;The top of cylinder 1 is arranged for opened type, in cylinder 1
Top be provided with sieve material device 2, sieve material device 2 top be provided with feeding device 3, the symmetrical formula in lower section of cylinder 1
It is provided with supporting leg 4, the upper end of supporting leg 4 is connect by welding with the lower sloped walls of cylinder 1, is arranged in the underface of cylinder 1
There are discharge nozzle 5, the upper end of discharge nozzle 5 to be connect by welding with the bottom of cylinder 1, valve is provided on discharge nozzle 5
6, the left side of cylinder 1 is provided with pedestal 7, the top of pedestal 7 is connect by welding with the lower end of fixed column 8, sieve material
Device 2 and feeding device 3 are connected with fixed column 8.
Sieve material device 2 includes long stroke cylinder 21, long stroke telescopic rod 22, left and right cylinder I 23, guide sleeve 24, girth sheets
25, sieve 26, push plate 27 and left and right cylinder II 28;Long stroke cylinder 21 is arranged between cylinder 1 and pedestal 7, long stroke cylinder
21 are connected with the lower end of long stroke telescopic rod 22, and the upper end of long stroke telescopic rod 22 passes through spiral shell with the bottom of left and right cylinder I 23
It tethers and connects, the left side wall of left and right cylinder I 23 is connect by welding with the right side wall of guide sleeve 24,24 slidingtype of guide sleeve
Be sleeved in fixed column 8, the right end of I 23 telescopic rod of left and right cylinder is connect by welding with the left side wall of girth sheets 25, sieve
Net 26 and the madial wall of girth sheets 25 are bolted, and sieve 26 and girth sheets 25 are arranged at the top of cylinder 1, in sieve 26
Top is provided with push plate 27, and push plate 27 is set as being flexibly connected with sieve 26, the right outside sidewall of left and right cylinder II 28 and girth sheets 25
It is bolted, the top of 25 right side wall of girth sheets is provided with hole, and the telescopic rod of left and right cylinder II 28 passes through on 25 right side wall of girth sheets
The hole in portion is extend into girth sheets 25, and the left end of II 28 telescopic rod of left and right cylinder connects by welding with the right side wall of push plate 27
It connects.
Feeding device 3 includes connecting plate 31, hopper 32, brace 33, upper and lower air cylinders I 34, triangle pressing plate 35, cylinder
Plug 36 and reclaiming plate 37;Connecting plate 31 is arranged on the top of left and right cylinder I 23, left end and 8 right side of fixed column of connecting plate 31
The upper end of wall connects by welding, and the lower part of the right end and 32 left side wall of hopper of connecting plate 31 connects by welding
It connects, in the top of hopper 32, symmetrical formula is provided with brace 33, and the lower end and the upper end of skew wall in hopper 32 of brace 33 pass through
The mode of welding connects, and upper and lower air cylinders I 34 are provided among the brace 33 of symmetrical formula setting, the upper end of brace 33 with it is upper
The side wall of lower cylinder I 34 connects by welding, the top of the lower end and triangle pressing plate 35 of I 34 telescopic rod of upper and lower air cylinders
It connects by welding, the uniform formula in bottom of triangle pressing plate 35 is welded with several cannon plugs 36, in cylinder
The lower section of plug 36 is provided with reclaiming plate 37, and uniform formula is provided with several holes, cannon plug 36 and discharging on reclaiming plate 37
Hole on plate 37 is corresponding, and cannon plug 36 is set as being flexibly connected with reclaiming plate 37, reclaiming plate 37 and 32 madial wall of hopper
Lower part connect by welding, hopper 32 is located at the top of girth sheets 25 and sieve 26.
Further include having sieve plate 41, triangle material-distributing tooth 42, movable plate 43, semicircle abrasive head 44, motor I 45, upper and lower gas
Cylinder II 46 and connecting rod I 47;Sieve plate 41 is connect by welding with the middle part of 1 madial wall of cylinder, on sieve plate 41 uniformly
Formula is provided with several holes, and the uniform formula in top of sieve plate 41 is welded with several triangle material-distributing tooths 42, triangle material-distributing tooth 42 with
The hole of sieve plate 41 is arranged for compartment, the lower section of sieve plate 41 is provided with movable plate 43, if uniform formula is provided on movable plate 43
A dry inverted trapezoidal hole, the uniform formula in top of movable plate 43 are welded with several semicircle abrasive heads 44, semicircle abrasive head 44 with
The inverted trapezoidal hole of movable plate 43 is arranged for compartment, and the underface in the hole of sieve plate 41 is arranged in semicircle abrasive head 44, semicircle
Abrasive head 44 is set as being flexibly connected with sieve plate 41, and the middle part of 43 bottom of movable plate passes through weldering with the upper end of I 45 output shaft of motor
The mode connect connects, and the bottom and the upper end of II 46 telescopic rod of upper and lower air cylinders of motor I 45 are bolted, in upper and lower air cylinders II
46 left and right sides symmetrical expression is provided with connecting rod I 47, and one end of connecting rod I 47 passes through bolt with the side wall of upper and lower air cylinders II 46
Connection, the other end of connecting rod I 47 are connect by welding with the madial wall of cylinder 1.
Further include having connecting rod II 51, motor II 52 and scrubbing brush 53, connecting rod II 51, motor II 52 and scrubbing brush 53 are respectively provided with
In cylinder 1, the left and right sides symmetrical expression of motor II 52 is provided with connecting rod II 51, one end and the motor II of connecting rod II 51
52 side wall is bolted, and the other end of connecting rod II 51 is connect by welding with the madial wall of cylinder 1, motor
The lower end of II 52 output shafts is connect by welding with the top of scrubbing brush 53, and scrubbing brush 53 is arranged in the top of sieve plate 41, plate
Brush 53 is corresponding with sieve plate 41, and scrubbing brush 53 is set as being flexibly connected with sieve plate 41.
The cylinder diameter of long stroke cylinder 21 is set as 100-500mm, and the stroke of long stroke cylinder 21 is set as 10-30m, left and right
The cylinder diameter of cylinder I 23 is set as 50-150mm, and the stroke of left and right cylinder I 23 is set as 3-12m, motor I 45 and motor II 52
Rotating speed is disposed as 300-1600r/min.
Operation principle:Because the present invention includes cylinder 1, sieve material device 2, feeding device 3, supporting leg 4, discharge nozzle 5, valve
6, then pedestal 7 and fixed column 8 pass through charging again so carbonated rare earth can be first added in feeding device 3 by staff
Carbonated rare earth is added in sieve material device 2 and carries out sieving approach by device 3, and the carbonated rare earth after sieving approach is fallen into cylinder 1
Interior, staff opens valve 6 again, and carbonated rare earth is discharged by discharge nozzle 5.
Because sieve material device 2 include long stroke cylinder 21, long stroke telescopic rod 22, left and right cylinder I 23, guide sleeve 24,
Girth sheets 25, sieve 26, push plate 27 and left and right cylinder II 28, so staff can start long stroke cylinder 21 and act,
Long stroke cylinder 21 passes through the carbon on the drive of long stroke telescopic rod 22 left and right cylinder I 23, girth sheets 25 and sieve 26 and sieve 26
Acid rare earth carries out the screening that teetertotters, and the personnel that work at the same time start left and right cylinder I 23 and act, I 23 band moving-coil of left and right cylinder
Carbonated rare earth on plate 25 and sieve 26 and sieve 26 carries out double swerve screening, and sieve 26 jointly will by two kinds of movements
In the suitable carbonated rare earth screening to the cylinder 1 of lower section of granule size, then staff starts left and right cylinder II 28 into action
Make, left and right cylinder II 28 drives push plate 27 to carry out side-to-side movement on sieve 26, and steel wire may be used in sieve 26, can avoid
Occur excessive deformation, the push plate 27 of the side-to-side movement carbonated rare earth excessive to the granularity accumulated on sieve 26 squeeze broken
Broken, the carbonated rare earth after attrition crushing is dropped downward by sieve 26 in cylinder 1.
Because feeding device 3 includes connecting plate 31, hopper 32, brace 33, upper and lower air cylinders I 34, triangle pressing plate 35, circle
Cylindrical plug 36 and reclaiming plate 37, so staff can start upper and lower air cylinders I 34 and act, upper and lower air cylinders I 34 drive
Triangle pressing plate 35 and cannon plug 36 are moved downwards, and triangle pressing plate 35 can be to the carbonated rare earth on reclaiming plate 37
Attrition crushing is carried out, cannon plug 36 is inserted into the through-hole of reclaiming plate 37, and by the carbonated rare earth on reclaiming plate 37
Pass through the through-hole of reclaiming plate 37, punching press to the lower section of reclaiming plate 37.Due to passing through reclaiming plate into the carbonated rare earth in material bin 32
37 through-hole is fallen downwards, can will be in hopper 32 so when cannon plug 36 is inserted in the through-hole of reclaiming plate 37
Carbonated rare earth is kept off in hopper 32, and to realize intermittent discharge, while triangle pressing plate 35 can prevent upper and lower air cylinders I 34 from driving
When triangle pressing plate 35 moves upwards, carbonated rare earth is deposited in the top of triangle pressing plate 35, avoids triangle pressing plate 35 by carbon
Acid rare earth is proposed out of hopper 32, prevents the generation of wastage of material problem.
Because further include have sieve plate 41, triangle material-distributing tooth 42, movable plate 43, semicircle abrasive head 44, motor I 45, on
Lower cylinder II 46 and connecting rod I 47, so staff can start upper and lower air cylinders II 46 and move, II 46 band of upper and lower air cylinders
Dynamic motor I 45 and movable plate 43, and semicircle abrasive head 44 move up and down, to adjust movable plate 43 and semicircle mill
The position of material head 44 and sieve plate 41, the personnel that work at the same time start motor I 45 and operate, and motor I 45 drives movable plate 43 and half
Round abrasive head 44 is rotated, and movable plate 43 and semicircle abrasive head 44 lead to after the separation of triangle material-distributing tooth 42
It crosses the carbonated rare earth that the hole of sieve plate 41 falls and carries out again broken, crushing effect is good.
Because further including having connecting rod II 51, motor II 52 and scrubbing brush 53, connecting rod II 51, motor II 52 and scrubbing brush 53 are equal
It is arranged in cylinder 1, so staff can start motor II 52 and operate, motor II 52 drives 53 turns of scrubbing brush
Dynamic, scrubbing brush 53 cleans sieve plate 41 and triangle material-distributing tooth 42, and carbonated rare earth can be avoided to be adhered to sieve plate 41 and triangle
On shape material-distributing tooth 42, while it can also improve efficiency of the carbonated rare earth by 41 through-hole of sieve plate.
Because the cylinder diameter of long stroke cylinder 21 is set as 100-500mm, the stroke of long stroke cylinder 21 is set as 10-30m,
The cylinder diameter of left and right cylinder I 23 is set as 50-150mm, and the stroke of left and right cylinder I 23 is set as 3-12m, so operation is more flat
Surely, performance is more safe and reliable, and the rotating speed of motor I 45 and motor II 52 is disposed as 300-1600r/min, so rotation is more
It is precisely accurate, facilitate and adjusts its rotating speed.
The preferred embodiment of the present invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously
Cannot the limitation to the scope of the claims of the present invention therefore be interpreted as.It should be pointed out that for those of ordinary skill in the art
For, without departing from the inventive concept of the premise, several deformations can also be made, improves and substitutes, these belong to this hair
Bright protection domain.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.