CN107166873B - A kind of novel dehydration device for carbonated rare earth - Google Patents

Abstract

The present invention relates to a kind of dehydration device more particularly to a kind of novel dehydration devices for carbonated rare earth.The technical problem to be solved in the present invention is to provide a kind of novel dehydration devices for carbonated rare earth.In order to solve the above-mentioned technical problems, the present invention provides such a novel dehydration devices for carbonated rare earth, include pedestal, mobile rotating device, dehydration device, sliding rail, sliding block etc.；Dehydration device is provided with above mobile rotating device, the bottom of sliding rail and the top of pedestal connect by welding, the top of sliding rail is arranged in sliding block, sliding block is set as being slidably connected with sliding rail, the left side of pedestal is arranged in supporting plate, the bottom of supporting plate is welded with several universal wheels, and rewinding cylinder is placed on supporting plate.A kind of novel dehydration device for carbonated rare earth provided by the present invention can be dehydrated carbonated rare earth using multi-motion mode by the combination of mobile rotating device and dehydration device.

Description

A kind of novel dehydration device for carbonated rare earth

Technical field

The present invention relates to a kind of dehydration device more particularly to a kind of novel dehydration devices for carbonated rare earth.

Background technique

Rare earth has the laudatory title of " industrial vitamin ".Nowadays extremely important strategic resource is had become.Rare earth element oxidation 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.Rare earth element is in petroleum, chemical industry, metallurgy, weaving, ceramics, glass, permanent magnetism material Material etc. fields be all widely used, with advances in technology with the continuous breakthrough of application technology, the valence of rare earth oxide Value will be increasing.Rare earth oxide or rare earth ore concentrate Jing Guo working process, can be used as polishing powder be widely used in optical glass, The polishing of spectacle lens, kinescope, oscilloscope tube, plate glass, plastics and metalic tableware；In glass process is melted, using two Cerium oxide has very strong oxidation to iron, reduces the iron content in glass, to achieve the purpose that remove glass Green；Addition The optical glass and special glass of different purposes can be made in rare earth oxide, including can by infrared ray, absorb it is ultraviolet The glass of line, acidproof and heat-resisting glass of glass, X-ray proof etc.；Rare earth is added in bristol glaze and enamel, glaze can be mitigated Fragmentation, and can make product that different color and gloss be presented, be widely used in ceramic industry.Carbonated rare earth, it is main to describe Rare earth is existed with carbonate form.Such as La2CO3, lanthanum carbonate, carbonic acid mischmetal, but existed with carbonate form.

The existing dehydration device for carbonated rare earth generallys use traditional structure, can only pass through single rotary motion Carbonated rare earth is dehydrated, the inefficient fruit of dehydration efficiency is poor, wastes the energy of enterprise, is unfavorable for the production and development of enterprise.

Summary of the invention

(1) technical problems to be solved

The present invention can only pass through to overcome the existing dehydration device for carbonated rare earth to generally use traditional structure The shortcomings that single rotary motion is dehydrated carbonated rare earth, the technical problem to be solved in the present invention is to provide one kind to be used for carbon The novel dehydration device of acid rare earth.

(2) technical solution

In order to solve the above-mentioned technical problems, the present invention provides such a novel dehydration device for carbonated rare earth, It include pedestal, mobile rotating device, dehydration device, sliding rail, sliding block, supporting plate, universal wheel and rewinding cylinder；It is set above pedestal It is equipped with mobile rotating device, dehydration device is provided with above mobile rotating device, the bottom of sliding rail and the top of pedestal are logical The mode for crossing welding connects, and the top of sliding rail is arranged in sliding block, and sliding block is set as being slidably connected with sliding rail, and supporting plate is arranged in pedestal Left side, the bottom of supporting plate is welded with several universal wheels, and rewinding cylinder is placed on supporting plate.

Preferably, mobile rotating device includes motor I, screw rod, bearing block I, nut, motor II and bearing block II；Electricity The bottom of machine I and the right end of base top connect by bolted connection, the left end of I output shaft of motor and the right end of screw rod It connects by welding, the right end of bearing and screw rod in bearing block I connects in such a way that interference connects, bearing block I The right side of sliding rail is set, and the bottom of bearing block I and the top of pedestal connect by bolted connection, and nut is arranged in silk On bar, nut is matched with screw rod, and the bottom of nut and the top of sliding block connect by welding, the top of nut and electricity The bottom of machine II connects by welding, and the top of motor II, bearing and silk in bearing block II is arranged in dehydration device The left end of bar connects in such a way that interference connects, and the left side of sliding rail, the bottom of bearing block II and pedestal is arranged in bearing block II Top connect by bolted connection.

Preferably, dehydration device includes annular filter pipe, oblique feed pipe, arc loading hopper, fan, drainage conduit and valve Door；The top of motor II is arranged in annular filter pipe, and the outside of the output shaft of motor II, annular drainage is arranged in annular filter pipe Be provided with several filtration holes in the circumferential wall of pipe, the inside bilateral symmetry formula of annular filter pipe be provided with oblique feed pipe, tiltedly into One end of expects pipe is connect by welding with the inner sidewall of annular filter pipe, and oblique feed pipe is connected with annular filter pipe, The oblique feed pipe of bilateral symmetry formula setting is set as splayed, is provided with motor between the oblique feed pipe of bilateral symmetry formula setting The other end of II output shaft, oblique feed pipe is connect by welding with the upper end of the side wall of II output shaft of motor, tiltedly into Arc loading hopper is welded at the top of expects pipe, arc loading hopper is connected with oblique feed pipe, the inner tubal wall of fan and oblique feed pipe It connects by bolted connection, arc loading hopper and fan are the setting of bilateral symmetry formula, and fan setting feeds in arc The inside of bucket, the bottom of annular filter pipe are welded with several drainage conduits, and drainage conduit is connected with annular filter pipe, in drainage conduit Valve is installed, the top of rewinding cylinder is arranged in drainage conduit, and drainage conduit is corresponding with rewinding cylinder.

It preferably, further include having bracket, accumulator, connecting rod, backgauge cylinder, baffle, discharge nozzle, arcuate movement pipe, connecting Fishplate bar and upper and lower air cylinders；The left side of supporting plate is arranged in bracket, and bracket is set as L shape, the upper right side of bracket and the left side of accumulator Wall connects by welding, and connecting rod and backgauge cylinder, the setting of connecting rod bilateral symmetry formula are provided in accumulator In the two sides of backgauge cylinder, one end of connecting rod and the side wall of backgauge cylinder connect by welding, connecting rod it is another End is connect by welding with the top of accumulator inner sidewall, the lower end and the middle part at the top of baffle of backgauge cylinder telescopic rod It connects by welding, for baffle plate setting in accumulator, the bottom of baffle and the interior bottom of accumulator are set as activity even It connects, the lower section of baffle is arranged in discharge nozzle, and the upper end of discharge nozzle and the bottom of accumulator connect by welding, discharge nozzle It is connected with accumulator, arcuate movement pipe sleeve is set as being slidably connected in the outside of discharge nozzle, arcuate movement pipe with discharge nozzle, arc Shape adjustable pipe and discharge nozzle are the setting of bilateral symmetry formula, and gas up and down is provided between the discharge nozzle of bilateral symmetry formula setting Cylinder, the top of upper and lower air cylinders and the bottom of accumulator connect by welding, bilateral symmetry formula setting discharge nozzle it Between be provided with connecting plate, the lower end of upper and lower air cylinders telescopic rod and the top of connecting plate connect by welding, connecting plate with The side wall of arcuate movement pipe connects by welding, and the top of arc loading hopper, arcuate movement is arranged in arcuate movement pipe Pipe is corresponding with arc loading hopper, and arcuate movement pipe is set as being flexibly connected with arc loading hopper.

It preferably, further include having stirring motor, agitating shaft and agitating paddle；The top of stirring motor and the bottom of connecting rod are logical It crosses bolted mode to connect, stirring motor is connected with the upper end of agitating shaft, the lower end of agitating shaft and the top of agitating paddle Connect by welding, stirring motor, agitating shaft and agitating paddle are arranged in accumulator, stirring motor, agitating shaft and The top of baffle is arranged in the two sides that backgauge cylinder is arranged in of agitating paddle bilateral symmetry formula, agitating paddle.

Preferably, the revolving speed of motor I is set as 300-700r/min, and the revolving speed of motor II is set as 1800-4000r/ Min, the cylinder diameter of backgauge cylinder are set as 80-200mm, and the stroke of backgauge cylinder is set as 3-17m, the cylinder diameter setting of upper and lower air cylinders Stroke for 50-180mm, upper and lower air cylinders is set as 1-8m.

Working principle: because the present invention includes pedestal, mobile rotating device, dehydration device, sliding rail, sliding block, supporting plate, ten thousand To wheel and rewinding cylinder, so carbonated rare earth can be first encased in dehydration device by staff, then staff passes through again Mobile rotating device drives dehydration device to carry out rotary dehydration, and can simultaneously by mobile rotating device drive dehydration device into Row double swerve, so that auxiliary dehydrating plant is dehydrated carbonated rare earth.After being dehydrated to carbonated rare earth, staff Dehydration device can be driven to the top to rewinding cylinder to the left by mobile rotating device, then pass through dehydration device for carbonated rare earth It is discharged in rewinding cylinder, then supporting plate and rewinding cylinder and carbonated rare earth is transported to by universal wheel the place of needs again, it is sliding Being slidably matched for block and sliding rail, can be improved the stationarity of dehydration device side-to-side movement.

Because mobile rotating device includes motor I, screw rod, bearing block I, nut, motor II and bearing block II, work It can star motor I as personnel to operate, motor I drives nut and motor II and dehydration device to carry out a left side by screw rod Right movement, so that the dehydrating operations for dehydration device provide auxiliary, and staff can drive screw rod to carry out by motor I Rotation, to drive nut that dehydration device is driven to the top to rewinding cylinder to the left, in order to which dehydration device arranges carbonated rare earth It being arrived in rewinding cylinder out, and staff can star motor II and operate, motor II drives dehydration device to be rotated, from And rotary dehydration is carried out to the carbonated rare earth in dehydration device.

Because dehydration device includes annular filter pipe, oblique feed pipe, arc loading hopper, fan, drainage conduit and valve, institute Carbonated rare earth can be added in oblique feed pipe by arc loading hopper with staff, then ring is slid by oblique feed pipe In shape filter pipe.Carbonated rare earth is deposited in oblique feed pipe in order to prevent, and staff can star fan and rotate, fan The air-flow that carbonated rare earth in oblique feed pipe is blown into annular filter pipe, while being blown when fan work also can be by carbonic acid Liquid in rare earth takes away a part, accelerates the dehydration efficiency of carbonated rare earth.When carbonated rare earth is all added to annular filter After in water pipe, staff can drive dehydration device to be dehydrated by mobile rotating device, drive annular by motor II Filter pipe is rotated, to carry out rotary dehydration to carbonated rare earth.When needing discharge, staff opens valve The carbonated rare earth in annular filter pipe is discharged by drainage conduit.

Because further including having bracket, accumulator, connecting rod, backgauge cylinder, baffle, discharge nozzle, arcuate movement pipe, connecting plate And upper and lower air cylinders, so carbonated rare earth can be first encased in accumulator by staff, then staff passes through movement again Dehydration device is moved to the underface of accumulator by rotating device, and arc loading hopper is located at the underface of arcuate movement pipe at this time, Then staff starts upper and lower air cylinders and acts, and upper and lower air cylinders drive arcuate movement pipe to be transported downwards by connecting plate It is dynamic, and arcuate movement pipe is inserted into arc loading hopper.The setting of the arc of arc loading hopper and arcuate movement pipe not only facilitates The grafting of the two, and can prevent carbonated rare earth from leaking out.Then staff starts backgauge cylinder and acts, backgauge cylinder Baffle is driven to be moved upwards, baffle opens the discharge nozzle pushed down, and the carbonated rare earth in accumulator passes through discharge nozzle and arc Shape adjustable pipe enters in arc loading hopper.

Because further including having stirring motor, agitating shaft and agitating paddle, stirring motor is connected with the upper end of agitating shaft, stirring The lower end of axis and the top of agitating paddle connect by welding, so staff starts stirring motor and operates, stir It mixes motor and drives agitating paddle to be stirred the carbonated rare earth in accumulator by agitating shaft, in order to subsequent dehydrating operations.

Because the revolving speed of motor I is set as 300-700r/min, the revolving speed of motor II is set as 1800-4000r/min, institute More accurate accurate to rotate, the cylinder diameter of backgauge cylinder is set as 80-200mm, and the stroke of backgauge cylinder is set as 3-17m, on The cylinder diameter of lower cylinder is set as 50-180mm, and the stroke of upper and lower air cylinders is set as 1-8m, so operation is more steady, performance is more Securely and reliably.

(3) beneficial effect

A kind of novel dehydration device for carbonated rare earth provided by the present invention is filled by mobile rotating device and dehydration The combination set can be dehydrated carbonated rare earth using multi-motion mode, and dehydration efficiency high effect is good, and structure composition is simple Flexibly, easy to operate, it is easy for installation, it is easy to manufacture, manufacturing cost is cheap, saves enterprise energy, maintenance easy to maintain.

Detailed description of the invention

Fig. 1 is main view schematic diagram of the invention.

Fig. 2 is the main view schematic diagram of motor II of the invention.

Fig. 3 is the main view schematic diagram of bracket of the invention.

Fig. 4 is the main view schematic diagram of backgauge cylinder of the invention.

The label in accompanying drawing is: 1- pedestal, the mobile rotating device of 2-, 3- dehydration device, 4- sliding rail, 5- sliding block, 6- supporting plate, 7- universal wheel, 8- rewinding cylinder, 21- motor I, 22- screw rod, 23- bearing block I, 24- nut, 25- motor II, 26- bearing block II, 31- annular filter pipe, the oblique feed pipe of 32-, 33- arc loading hopper, 34- fan, 35- drainage conduit, 36- valve, 41- bracket, 42- Accumulator, 43- connecting rod, 44- backgauge cylinder, 45- baffle, 46- discharge nozzle, 47- arcuate movement pipe, 48- connecting plate, on 49- Lower cylinder, 51- stirring motor, 52- agitating shaft, 53- agitating paddle.

Specific embodiment

The present invention is further illustrated with reference to the accompanying drawings and examples.

Embodiment 1

A kind of novel dehydration device for carbonated rare earth, as shown in Figs 1-4, include pedestal 1, mobile rotating device 2, Dehydration device 3, sliding rail 4, sliding block 5, supporting plate 6, universal wheel 7 and rewinding cylinder 8；The top of pedestal 1 is provided with mobile rotating device 2, the top of mobile rotating device 2 is provided with dehydration device 3, the top of the bottom of sliding rail 4 and pedestal 1 is by welding The top of sliding rail 4 is arranged in connection, sliding block 5, and sliding block 5 is set as being slidably connected with sliding rail 4, and a left side for pedestal 1 is arranged in supporting plate 6 Side, the bottom of supporting plate 6 are welded with several universal wheels 7, and rewinding cylinder 8 is placed on supporting plate 6.

Embodiment 2

A kind of novel dehydration device for carbonated rare earth, as shown in Figs 1-4, include pedestal 1, mobile rotating device 2, Dehydration device 3, sliding rail 4, sliding block 5, supporting plate 6, universal wheel 7 and rewinding cylinder 8；The top of pedestal 1 is provided with mobile rotating device 2, the top of mobile rotating device 2 is provided with dehydration device 3, the top of the bottom of sliding rail 4 and pedestal 1 is by welding The top of sliding rail 4 is arranged in connection, sliding block 5, and sliding block 5 is set as being slidably connected with sliding rail 4, and a left side for pedestal 1 is arranged in supporting plate 6 Side, the bottom of supporting plate 6 are welded with several universal wheels 7, and rewinding cylinder 8 is placed on supporting plate 6.

Mobile rotating device 2 includes motor I 21, screw rod 22, bearing block I 23, nut 24, motor II 25 and bearing block II 26；The right end at 1 top of the bottom of motor I 21 and pedestal is connect by bolted connection, the left end of I 21 output shaft of motor with The right end of screw rod 22 connects by welding, and the bearing in bearing block I 23 is connect with the right end of screw rod 22 by interference Mode connects, and the right side of sliding rail 4 is arranged in bearing block I 23, and the bottom of bearing block I 23 and the top of pedestal 1 are bolted Mode connect, nut 24 is arranged on screw rod 22, and nut 24 is matched with screw rod 22, the top of the bottom of nut 24 and sliding block 5 Portion connects by welding, and the top of nut 24 is connect by welding with the bottom of motor II 25, dehydration device 3 The top of motor II 25 is set, the bearing in bearing block II 26 connects by way of being connect with the left end of screw rod 22 interference, The left side of sliding rail 4 is arranged in bearing block II 26, and the bottom of bearing block II 26 connects by bolted connection with the top of pedestal 1 It connects.

Embodiment 3

A kind of novel dehydration device for carbonated rare earth, as shown in Figs 1-4, include pedestal 1, mobile rotating device 2, Dehydration device 3, sliding rail 4, sliding block 5, supporting plate 6, universal wheel 7 and rewinding cylinder 8；The top of pedestal 1 is provided with mobile rotating device 2, the top of mobile rotating device 2 is provided with dehydration device 3, the top of the bottom of sliding rail 4 and pedestal 1 is by welding The top of sliding rail 4 is arranged in connection, sliding block 5, and sliding block 5 is set as being slidably connected with sliding rail 4, and a left side for pedestal 1 is arranged in supporting plate 6 Side, the bottom of supporting plate 6 are welded with several universal wheels 7, and rewinding cylinder 8 is placed on supporting plate 6.

Mobile rotating device 2 includes motor I 21, screw rod 22, bearing block I 23, nut 24, motor II 25 and bearing block II 26；The right end at 1 top of the bottom of motor I 21 and pedestal is connect by bolted connection, the left end of I 21 output shaft of motor with The right end of screw rod 22 connects by welding, and the bearing in bearing block I 23 is connect with the right end of screw rod 22 by interference Mode connects, and the right side of sliding rail 4 is arranged in bearing block I 23, and the bottom of bearing block I 23 and the top of pedestal 1 are bolted Mode connect, nut 24 is arranged on screw rod 22, and nut 24 is matched with screw rod 22, the top of the bottom of nut 24 and sliding block 5 Portion connects by welding, and the top of nut 24 is connect by welding with the bottom of motor II 25, dehydration device 3 The top of motor II 25 is set, the bearing in bearing block II 26 connects by way of being connect with the left end of screw rod 22 interference, The left side of sliding rail 4 is arranged in bearing block II 26, and the bottom of bearing block II 26 connects by bolted connection with the top of pedestal 1 It connects.

Dehydration device 3 includes annular filter pipe 31, oblique feed pipe 32, arc loading hopper 33, fan 34,35 and of drainage conduit Valve 36；The top of motor II 25 is arranged in annular filter pipe 31, and the output shaft of motor II 25 is arranged in annular filter pipe 31 Outside is provided with several filtration holes in the circumferential wall of annular filter pipe 31, sets in the inside bilateral symmetry formula of annular filter pipe 31 Be equipped with oblique feed pipe 32, one end of oblique feed pipe 32 is connect by welding with the inner sidewall of annular filter pipe 31, tiltedly into Expects pipe 32 is connected with annular filter pipe 31, and the oblique feed pipe 32 of bilateral symmetry formula setting is set as splayed, in bilateral symmetry The output shaft of motor II 25 is provided between the oblique feed pipe 32 of formula setting, the other end and motor II 25 of oblique feed pipe 32 export The upper end of the side wall of axis connects by welding, and the top of oblique feed pipe 32 is welded with arc loading hopper 33, arc charging Bucket 33 is connected with oblique feed pipe 32, and fan 34 is connect by bolted connection with the inner tubal wall of oblique feed pipe 32, arc Loading hopper 33 and fan 34 are the setting of bilateral symmetry formula, and the inside of arc loading hopper 33, annular filter pipe is arranged in fan 34 31 bottom is welded with several drainage conduits 35, and drainage conduit 35 is connected with annular filter pipe 31, is equipped with valve in drainage conduit 35 Door 36, the top of rewinding cylinder 8 is arranged in drainage conduit 35, and drainage conduit 35 is corresponding with rewinding cylinder 8.

Embodiment 4

A kind of novel dehydration device for carbonated rare earth, as shown in Figs 1-4, include pedestal 1, mobile rotating device 2, Dehydration device 3, sliding rail 4, sliding block 5, supporting plate 6, universal wheel 7 and rewinding cylinder 8；The top of pedestal 1 is provided with mobile rotating device 2, the top of mobile rotating device 2 is provided with dehydration device 3, the top of the bottom of sliding rail 4 and pedestal 1 is by welding The top of sliding rail 4 is arranged in connection, sliding block 5, and sliding block 5 is set as being slidably connected with sliding rail 4, and a left side for pedestal 1 is arranged in supporting plate 6 Side, the bottom of supporting plate 6 are welded with several universal wheels 7, and rewinding cylinder 8 is placed on supporting plate 6.

Mobile rotating device 2 includes motor I 21, screw rod 22, bearing block I 23, nut 24, motor II 25 and bearing block II 26；The right end at 1 top of the bottom of motor I 21 and pedestal is connect by bolted connection, the left end of I 21 output shaft of motor with The right end of screw rod 22 connects by welding, and the bearing in bearing block I 23 is connect with the right end of screw rod 22 by interference Mode connects, and the right side of sliding rail 4 is arranged in bearing block I 23, and the bottom of bearing block I 23 and the top of pedestal 1 are bolted Mode connect, nut 24 is arranged on screw rod 22, and nut 24 is matched with screw rod 22, the top of the bottom of nut 24 and sliding block 5 Portion connects by welding, and the top of nut 24 is connect by welding with the bottom of motor II 25, dehydration device 3 The top of motor II 25 is set, the bearing in bearing block II 26 connects by way of being connect with the left end of screw rod 22 interference, The left side of sliding rail 4 is arranged in bearing block II 26, and the bottom of bearing block II 26 connects by bolted connection with the top of pedestal 1 It connects.

Dehydration device 3 includes annular filter pipe 31, oblique feed pipe 32, arc loading hopper 33, fan 34,35 and of drainage conduit Valve 36；The top of motor II 25 is arranged in annular filter pipe 31, and the output shaft of motor II 25 is arranged in annular filter pipe 31 Outside is provided with several filtration holes in the circumferential wall of annular filter pipe 31, sets in the inside bilateral symmetry formula of annular filter pipe 31 Be equipped with oblique feed pipe 32, one end of oblique feed pipe 32 is connect by welding with the inner sidewall of annular filter pipe 31, tiltedly into Expects pipe 32 is connected with annular filter pipe 31, and the oblique feed pipe 32 of bilateral symmetry formula setting is set as splayed, in bilateral symmetry The output shaft of motor II 25 is provided between the oblique feed pipe 32 of formula setting, the other end and motor II 25 of oblique feed pipe 32 export The upper end of the side wall of axis connects by welding, and the top of oblique feed pipe 32 is welded with arc loading hopper 33, arc charging Bucket 33 is connected with oblique feed pipe 32, and fan 34 is connect by bolted connection with the inner tubal wall of oblique feed pipe 32, arc Loading hopper 33 and fan 34 are the setting of bilateral symmetry formula, and the inside of arc loading hopper 33, annular filter pipe is arranged in fan 34 31 bottom is welded with several drainage conduits 35, and drainage conduit 35 is connected with annular filter pipe 31, is equipped with valve in drainage conduit 35 Door 36, the top of rewinding cylinder 8 is arranged in drainage conduit 35, and drainage conduit 35 is corresponding with rewinding cylinder 8.

It further include having bracket 41, accumulator 42, connecting rod 43, backgauge cylinder 44, baffle 45, discharge nozzle 46, arcuate movement Pipe 47, connecting plate 48 and upper and lower air cylinders 49；The left side of supporting plate 6 is arranged in bracket 41, and bracket 41 is set as L shape, the right side of bracket 41 Upper end is connect by welding with the left side wall of accumulator 42, and connecting rod 43 and backgauge cylinder are provided in accumulator 42 44, the two sides that backgauge cylinder 44 is set of 43 bilateral symmetry formula of connecting rod, one end and the side of backgauge cylinder 44 of connecting rod 43 Wall connects by welding, and the top of the other end and 42 inner sidewall of accumulator of connecting rod 43 connects by welding It connects, the lower end of 44 telescopic rod of backgauge cylinder is connect by welding with the middle part at 45 top of baffle, and the setting of baffle 45 is being stored up In material cylinder 42, the bottom of baffle 45 is set as being flexibly connected with the interior bottom of accumulator 42, and baffle 45 is arranged in discharge nozzle 46 The upper end of lower section, discharge nozzle 46 is connect by welding with the bottom of accumulator 42, and discharge nozzle 46 is connected with accumulator 42 Logical, 47 sets of the arcuate movement pipe outsides in discharge nozzle 46, arcuate movement pipe 47 is set as being slidably connected with discharge nozzle 46, and arc is living Dynamic pipe 47 and discharge nozzle 46 are the setting of bilateral symmetry formula, and gas up and down is provided between the discharge nozzle 46 of bilateral symmetry formula setting The top of cylinder 49, upper and lower air cylinders 49 is connect by welding with the bottom of accumulator 42, in going out for bilateral symmetry formula setting It is provided with connecting plate 48 between expects pipe 46, the top of the lower end of 49 telescopic rod of upper and lower air cylinders and connecting plate 48 is by welding Connection, connecting plate 48 are connect by welding with the side wall of arcuate movement pipe 47, and the setting of arcuate movement pipe 47 adds in arc The top of hopper 33, arcuate movement pipe 47 is corresponding with arc loading hopper 33, and arcuate movement pipe 47 and arc loading hopper 33 are arranged To be flexibly connected.

It further include having stirring motor 51, agitating shaft 52 and agitating paddle 53；The top of stirring motor 51 and the bottom of connecting rod 43 Portion connects by bolted connection, and stirring motor 51 is connected with the upper end of agitating shaft 52, the lower end of agitating shaft 52 with stir The top for mixing paddle 53 connects by welding, and stirring motor 51, agitating shaft 52 and agitating paddle 53 are arranged at accumulator 42 It is interior, the two sides that backgauge cylinder 44 is set of stirring motor 51, agitating shaft 52 and agitating paddle 53 bilateral symmetry formula, agitating paddle 53 The top of baffle 45 is set.

The revolving speed of motor I 21 is set as 300-700r/min, and the revolving speed of motor II 25 is set as 1800-4000r/min, gear The cylinder diameter of material cylinder 44 is set as 80-200mm, and the stroke of backgauge cylinder 44 is set as 3-17m, the cylinder diameter setting of upper and lower air cylinders 49 Stroke for 50-180mm, upper and lower air cylinders 49 is set as 1-8m.

Working principle: because the present invention includes pedestal 1, mobile rotating device 2, dehydration device 3, sliding rail 4, sliding block 5, support Plate 6, universal wheel 7 and rewinding cylinder 8, so carbonated rare earth can be first encased in dehydration device 3 by staff, then work people Member drives dehydration device 3 to carry out rotary dehydration by mobile rotating device 2 again, and can pass through mobile 2 band of rotating device simultaneously Dynamic dehydration device 3 carries out double swerve, so that auxiliary dehydrating plant 3 is dehydrated carbonated rare earth.It is dehydrated when to carbonated rare earth After, dehydration device 3 can be driven the top to rewinding cylinder 8 by staff to the left by mobile rotating device 2, then be passed through Carbonated rare earth is discharged in rewinding cylinder 8 by dehydration device 3, then passes through universal wheel 7 again for supporting plate 6 and rewinding cylinder 8 and carbonic acid Rare earth is transported to the place of needs, and being slidably matched for sliding block 5 and sliding rail 4 can be improved the steady of 3 side-to-side movement of dehydration device Property.

Because mobile rotating device 2 includes motor I 21, screw rod 22, bearing block I 23, nut 24, motor II 25 and bearing Seat II 26, so staff can star motor I 21 and operate, motor I 21 drives nut 24 and motor by screw rod 22 II 25 and dehydration device 3 carry out side-to-side movement, so that the dehydrating operations for dehydration device 3 provide auxiliary, and staff Screw rod 22 can be driven to be rotated by motor I 21, so that nut 24 be driven to drive dehydration device 3 to rewinding cylinder 8 to the left Top, in order to which carbonated rare earth is discharged in rewinding cylinder 8 by dehydration device 3, and staff can star motor II 25 It is operated, motor II 25 drives dehydration device 3 to be rotated, so that it is de- to carry out rotation to the carbonated rare earth in dehydration device 3 Water.

Because dehydration device 3 includes annular filter pipe 31, oblique feed pipe 32, arc loading hopper 33, fan 34, drainage conduit 35 and valve 36, so carbonated rare earth can be added in oblique feed pipe 32 by staff by arc loading hopper 33, then lead to Oblique feed pipe 32 is crossed to slide into annular filter pipe 31.Carbonated rare earth is deposited in oblique feed pipe 32 in order to prevent, staff It can star fan 34 to be rotated, the carbonated rare earth in oblique feed pipe 32 is blown into annular filter pipe 31 by fan 34, together When fan 34 when working the air-flow that blows also the liquid in carbonated rare earth can be taken away a part, accelerate the de- of carbonated rare earth Water efficiency.After being all added to carbonated rare earth in annular filter pipe 31, staff can pass through mobile 2 band of rotating device Dynamic dehydration device 3 is dehydrated, and drives annular filter pipe 31 to be rotated by motor II 25, to revolve to carbonated rare earth Turn dehydration.When needing discharge, staff opens valve 36, can be by drainage conduit 35 by the carbonic acid in annular filter pipe 31 Rare earth discharge.

Because further including having bracket 41, accumulator 42, connecting rod 43, backgauge cylinder 44, baffle 45, discharge nozzle 46, arc Adjustable pipe 47, connecting plate 48 and upper and lower air cylinders 49, so carbonated rare earth can be first encased in accumulator 42 by staff, so Dehydration device 3 is moved to the underface of accumulator 42 by staff by mobile rotating device 2 again afterwards, at this time arc loading hopper 33 are located at the underface of arcuate movement pipe 47, and then staff starts upper and lower air cylinders 49 and acts, and upper and lower air cylinders 49 pass through Connecting plate 48 drives arcuate movement pipe 47 to be moved downwards, and arcuate movement pipe 47 is inserted into arc loading hopper 33.Arc The setting of the arc of shape loading hopper 33 and arcuate movement pipe 47 not only facilitates the grafting of the two, and can prevent carbonated rare earth from leaking Out.Then staff starts backgauge cylinder 44 and acts, and backgauge cylinder 44 drives baffle 45 to be moved upwards, baffle 45 The discharge nozzle 46 pushed down is opened, the carbonated rare earth in accumulator 42 enters arc by discharge nozzle 46 and arcuate movement pipe 47 In loading hopper 33.

Because further including having stirring motor 51, agitating shaft 52 and agitating paddle 53, the upper end of stirring motor 51 and agitating shaft 52 It is connected, the lower end of agitating shaft 52 is connect by welding with the top of agitating paddle 53, so staff starts stirring Motor 51 is operated, and stirring motor 51 drives agitating paddle 53 to stir the carbonated rare earth in accumulator 42 by agitating shaft 52 It mixes, in order to subsequent dehydrating operations.

Because the revolving speed of motor I 21 is set as 300-700r/min, the revolving speed of motor II 25 is set as 1800-4000r/ Min, so rotation is more accurate accurate, the cylinder diameter of backgauge cylinder 44 is set as 80-200mm, the stroke setting of backgauge cylinder 44 For 3-17m, the cylinder diameter of upper and lower air cylinders 49 is set as 50-180mm, and the stroke of upper and lower air cylinders 49 is set as 1-8m, so operation is more Add steadily, performance is more safe and reliable.

The preferred embodiment of the present invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously Limitations on the scope of the patent of the present invention therefore cannot 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 scope.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (3)

1. a kind of novel dehydration device for carbonated rare earth, which is characterized in that include pedestal (1), mobile rotating device (2), dehydration device (3), sliding rail (4), sliding block (5), supporting plate (6), universal wheel (7) and rewinding cylinder (8)；In the top of pedestal (1) Mobile rotating device (2) are provided with, are provided with dehydration device (3) above mobile rotating device (2), the bottom of sliding rail (4) It is connect by welding with the top of pedestal (1), sliding block (5) is arranged in the top of sliding rail (4), sliding block (5) and sliding rail (4) It being set as being slidably connected, supporting plate (6) is arranged in the left side of pedestal (1), and the bottom of supporting plate (6) is welded with several universal wheels (7), Rewinding cylinder (8) is placed on supporting plate (6);

Mobile rotating device (2) include motor I (21), screw rod (22), bearing block I (23), nut (24), motor II (25) and Bearing block II (26)；The bottom of motor I (21) is connect by bolted connection with the right end at the top of pedestal (1), motor I (21) left end of output shaft is connect by welding with the right end of screw rod (22), bearing and screw rod in bearing block I (23) (22) right end connects in such a way that interference connects, and bearing block I (23) is arranged on the right side of sliding rail (4), bearing block I (23) Bottom is connect by bolted connection with the top of pedestal (1), nut (24) be arranged on screw rod (22), nut (24) with Screw rod (22) matches, and the bottom of nut (24) is connect by welding with the top of sliding block (5), the top of nut (24) It is connect by welding with the bottom of motor II (25), dehydration device (3) is arranged in the top of motor II (25), bearing block Bearing in II (26) connects by way of being connect with the left end of screw rod (22) interference, and bearing block II (26) is arranged in sliding rail (4) bottom in left side, bearing block II (26) is connect by bolted connection with the top of pedestal (1);

Dehydration device (3) includes annular filter pipe (31), oblique feed pipe (32), arc loading hopper (33), fan (34), discharge Manage (35) and valve (36)；In the top of motor II (25), annular filter pipe (31) is arranged in electricity for annular filter pipe (31) setting The outside of the output shaft of machine II (25) is provided with several filtration holes in the circumferential wall of annular filter pipe (31), in annular filter pipe (31) inside bilateral symmetry formula is provided with oblique feed pipe (32), and one end of oblique feed pipe (32) is interior with annular filter pipe (31) Side wall connects by welding, and oblique feed pipe (32) is connected with annular filter pipe (31), and bilateral symmetry formula is arranged oblique Feed pipe (32) is set as splayed, is provided with the defeated of motor II (25) between the oblique feed pipe (32) of bilateral symmetry formula setting The other end of shaft, oblique feed pipe (32) is connect by welding with the upper end of the side wall of motor II (25) output shaft, tiltedly It is welded at the top of feed pipe (32) arc loading hopper (33), arc loading hopper (33) is connected with oblique feed pipe (32), fan (34) it is connect by bolted connection with the inner tubal wall of oblique feed pipe (32), arc loading hopper (33) and fan (34) are The setting of bilateral symmetry formula, fan (34) are arranged in the inside of arc loading hopper (33), and the bottom of annular filter pipe (31) is welded with Several drainage conduits (35), drainage conduit (35) are connected with annular filter pipe (31), and valve (36) are equipped in drainage conduit (35), Drainage conduit (35) is arranged in the top of rewinding cylinder (8), and drainage conduit (35) is corresponding with rewinding cylinder (8);

Further include have bracket (41), accumulator (42), connecting rod (43), backgauge cylinder (44), baffle (45), discharge nozzle (46), Arcuate movement pipe (47), connecting plate (48) and upper and lower air cylinders (49)；Bracket (41) is arranged in the left side of supporting plate (6), bracket (41) It is set as L shape, the upper right side of bracket (41) is connect by welding with the left side wall of accumulator (42), in accumulator (42) It is inside provided with connecting rod (43) and backgauge cylinder (44), the setting of connecting rod (43) bilateral symmetry formula is the two of backgauge cylinder (44) One end of side, connecting rod (43) is connect by welding with the side wall of backgauge cylinder (44), the other end of connecting rod (43) It is connect by welding with the top of accumulator (42) inner sidewall, the lower end and baffle (45) of backgauge cylinder (44) telescopic rod The middle part at top connects by welding, and baffle (45) setting is in accumulator (42), the bottom of baffle (45) and storing The interior bottom of cylinder (42) is set as being flexibly connected, and discharge nozzle (46) is arranged in the lower section of baffle (45), the upper end of discharge nozzle (46) It is connect by welding with the bottom of accumulator (42), discharge nozzle (46) is connected with accumulator (42), arcuate movement pipe (47) outside in discharge nozzle (46) is covered, arcuate movement pipe (47) is set as being slidably connected with discharge nozzle (46), arcuate movement pipe (47) and discharge nozzle (46) is the setting of bilateral symmetry formula, is provided between the discharge nozzle (46) of bilateral symmetry formula setting up and down The top of cylinder (49), upper and lower air cylinders (49) is connect by welding with the bottom of accumulator (42), in bilateral symmetry formula It is provided with connecting plate (48) between the discharge nozzle (46) of setting, the lower end of upper and lower air cylinders (49) telescopic rod and the top of connecting plate (48) Portion connects by welding, and connecting plate (48) is connect by welding with the side wall of arcuate movement pipe (47), arc Adjustable pipe (47) is arranged in the top of arc loading hopper (33), and arcuate movement pipe (47) is corresponding with arc loading hopper (33), arc Shape adjustable pipe (47) is set as being flexibly connected with arc loading hopper (33).

2. a kind of novel dehydration device for carbonated rare earth according to claim 1, which is characterized in that further include stirring Mix motor (51), agitating shaft (52) and agitating paddle (53)；The top of stirring motor (51) and the bottom of connecting rod (43) pass through spiral shell It tethers the mode connect to connect, stirring motor (51) is connected with the upper end of agitating shaft (52), the lower end of agitating shaft (52) and stirring The top of paddle (53) connects by welding, and stirring motor (51), agitating shaft (52) and agitating paddle (53) are arranged at storage In material cylinder (42), the setting of stirring motor (51), agitating shaft (52) and agitating paddle (53) bilateral symmetry formula is in backgauge cylinder (44) two sides, agitating paddle (53) are arranged in the top of baffle (45).

3. a kind of novel dehydration device for carbonated rare earth according to claim 2, which is characterized in that motor I (21) Revolving speed be set as 300-700r/min, the revolving speed of motor II (25) is set as 1800-4000r/min, backgauge cylinder (44) Cylinder diameter is set as 80-200mm, and the stroke of backgauge cylinder (44) is set as 3-17m, and the cylinder diameter of upper and lower air cylinders (49) is set as 50- The stroke of 180mm, upper and lower air cylinders (49) are set as 1-8m.