Hybrid system for removing thickener impurity before feeding
Technical field
The present invention relates to graphite production technical fields, the hybrid system of removal thickener impurity more particularly, to before charging.
Background technology
In graphite production process, after being mixed with binder after coke is crushed, then is handled through milling and powdery is made
Thickener;And in the actual production process, due to the normal energy difference of upper and lower process, lead to the yield of thickener output and rear process not
Deng and cause thickener remaining, then remaining thickener is stored in ton packet, carries out charging use again in next production process;However
Because while inevitably being polluted to thickener in actual production environment, thickener causes due to storing for a long time due to ton
The weight differential up and down of thickener in packet and the mixed stirring device for generating thickener density unevenness up and down, and being driven, are mostly to rotate
Formula stirs, it is difficult to will carry out removal of impurities processing to it while being stirred evenly in the thickener of upper and lower difference.
Invention content
The purpose of the present invention is in view of the deficiencies of the prior art, provide the mixing for removing thickener impurity before feeding
System, driving mixing component moves while carrying out thickener quantitative transmission by conveying assembly, and the vibrations in conjunction with mixed organization are mixed
Conjunction mode realizes multistage mixing and the impurity screening of thickener, solves thickener existing in the prior art due to long-time stores
The technical issues of caused density unevenness up and down.
In order to solve the above technical problems, the present invention provides the hybrid systems for removing thickener impurity before feeding, including
Feeding bin, which is characterized in that further include:
Feed mechanism, the feed mechanism are connected to setting with the feeding bin comprising feeding chamber is set to the feeding chamber
The rotation that thickener in the feeding bin is transferred to the conveying assembly of next station and the conveying assembly is driven to rotate
Part;
Mixed organization, the mixed organization include the mixing bunker being connected with inside the feeding chamber, are set to the mixing
Screen assemblies in storehouse, vibrations portion and the use that output will be mixed after driving Screen assemblies movement that will be dissipated in thickener shake thereon
In the mixing component for mixing the thickener being in the feeding bin, which is driven with the conveying assembly
Connection setting.
Wherein, the feeding bin, feeding chamber, mixing bunker and vibrations portion are set gradually from top to down, and the rotating member is located at
The side of the feeding chamber, the mixing component vertically sequentially pass through the conveying assembly and Screen assemblies.
As an improvement, the Screen assemblies are fixedly installed in the mixing bunker comprising horizontally disposed sieve, with should
Sieve it is parallel and be disposed below bearing plate, several material-dropping holes being opened on the bearing plate, be freely positioned over the undertaking
Multiple jump pearls on plate and through the sieve and bearing plate for the mixing component by mobile space;The jump pearl
Diameter D and the material-dropping hole between d, D > d, the distance between the bearing plate and sieve L and the diameter D for jumping pearl
Between, 1.5D > L > D.
Specifically, the mixing bunker includes the impurities outlet being opened on its side wall and conveying mouth, the impurities outlet position
In the top of the sieve, the conveying mouth is located at the mixing bunker bottom;Impurity in thickener is exported through the impurities outlet,
Mixed thickener is exported through the conveying mouth.
As an improvement, the conveying assembly is in horizontally disposed comprising transfer roller and be opened on the transfer roller several fall
Expect that chamber, the transfer roller are equipped with the feeding chamber.
As improvement, the conveying assembly further includes being opened in the movement sky passed through through the mixing component on the transfer roller
Between and be set to the shaft being connected in the space and with the mixing component, which sets with the transfer roller bias
It sets.
As improvement, the mixing component includes vertically sliding setting and is located at the feeding bin and mixing
Mixing part in storehouse and driving section, the mixing part and driving section are rotatablely connected with the shaft.
Wherein, the mixing part includes slide bar A, the pallet that is horizontally placed on slide bar A and connects in hinged way
The connecting rod A of the slide bar A and shaft, the outer circumference surface of the pallet and the inner wall of the feeding bin are equipped with.
In addition, the driving section includes slide bar B, horizontal be sheathed on slide bar B on and be located at below the Screen assemblies
Baffle, the connecting rod B for connecting the slide bar B and shaft in hinged way and be sheathed on the slide bar B and be located at the baffle
The compression spring of lower section;The baffle is engraved structure and is provided with several block plates being equipped with the material-dropping hole.
As an improvement, the vibrations portion is arranged for vibrating motor, pass through multiple vibrations springs between the mixing bunker
It is connected, the vibrations portion is located at the lower section of the mixing bunker.
Beneficial effects of the present invention:
(1) drive mixing component to being in upper while carrying out quantitative transfer to thickener by conveying assembly in the present invention
Thickener in feed bin is stirred with upper and lower motion mode, to tentatively be mixed to the thickener for presenting lower leaf, in conjunction with mixing bunker
It drives after sieve in thickener thereon to carrying out screening removal of impurities through the vibrations portion of vibrating motor setting, is made by effect of vibration
Jump pearl the thickener in whereabouts hit in a manner of in randomized jitter realize thickener break up and secondary mixing, solve existing
There is thickener present in technology because caused by storing long-time the technical issues of upper and lower density unevenness.
(2) pearl is jumped by being arranged between sieve and bearing plate in the present invention, and jumps the sphere structure that pearl is rubber material,
It breaks up the thickener powder in falling after sieve, in fact through being moved in a manner of random motion during bearing plate drive vibrations
While existing thickener secondary uniform mixing, in conjunction with pearl rubber material characteristic is jumped, by its own resilient force while mobile
It moves up and down, the sieve above it is hit, the vibrations of sieve are coordinated, to make the thickener screening efficiency on sieve
While raising, make the thickener rapid dispersion for being adhered shape, to improve the present invention for thickener break up and mixing efficiency it is same
When, improve the mixing uniformity of thickener.
(3) it is arranged in the present invention by the special construction of mixing part and driving section on mixing component, is realized to thickener
Multistage mixing, during carrying out quantitative output to thickener through transfer roller, band moving slide-bar B moves up and down, and is pushed on baffle through spring
Lower movement, when moved on baffle contacted with bearing plate when, by the block plate on baffle to the blanking port on bearing plate into the ranks
Disconnected barrier, to make product thickener on bearing plate accumulate, uniform state of the pearl on bearing plate is jumped in cooperation, is held by jumping pearl to being in
Thickener on fishplate bar is mixed, and the mixing uniformity of thickener is further increased.
In conclusion the present invention have many advantages, such as it is simple in structure, be easy to control good mixing effect;More particularly, to feed
The hybrid system of preceding removal thickener impurity.
Description of the drawings
For the clearer technical solution for illustrating the embodiment of the present invention, required use in being described below to embodiment
Attached drawing be briefly described, it should be apparent that, drawings discussed below is only some embodiments of the present invention, for ability
For the those of ordinary skill in domain, without creative efforts, it is attached to can also be obtained according to these attached drawings other
Figure.
Fig. 1 is overall structure of the present invention;
Fig. 2 is front view of the present invention;
Fig. 3 is elevational cross-sectional view of the present invention;
Fig. 4 is side view cutaway drawing of the present invention;
Fig. 5 is bearing plate vertical view;
Fig. 6 is Screen assemblies close-up schematic view;
Fig. 7 is feed mechanism sectional view;
Fig. 8 is enlarged diagram at A in Fig. 3;
Fig. 9 is enlarged diagram at B in Fig. 4;
Figure 10 is baffle vertical view.
Specific implementation mode
Technical solution in the embodiment of the present invention is clearly and completely illustrated below in conjunction with the accompanying drawings.
Embodiment one
The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end
Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached
The embodiment of figure description is exemplary, it is intended to for explaining the present invention, and is not considered as limiting the invention.
As shown in Fig. 1,2,3 and 4, the hybrid system for removing thickener impurity before feeding, including feeding bin 1, further include:
Feed mechanism 2, the feed mechanism 2 are connected to setting with the feeding bin 1 comprising feeding chamber 21 is set to this
Thickener in the feeding bin 1 is transferred to the conveying assembly 22 of next station and drives the conveying assembly by feeding chamber 21
The rotating member 23 of 22 rotations;In the present embodiment, rotating member 23 is arranged for motor, which drives conveying assembly 22 to rotate
In the process, the thickener in feeding bin 1 quantified by the feeding chamber 21 on conveying assembly 22, be at the uniform velocity delivered to mixing bunker 31
It is interior;
Mixed organization 3, the mixed organization 3 include the mixing bunker 31 being connected with inside the feeding chamber 21, are set to
Screen assemblies 32 in the mixing bunker 31, drive the Screen assemblies 32 movement will to be dissipated in thickener shake thereon after mixing output
Vibrations portion 33 and mixing component 34 for being mixed to the thickener in the feeding bin 1, the mixing component 34 with it is described
Conveying assembly 22, which is sequentially connected, to be arranged;In the present embodiment, it drives and stirs while conveying assembly 34 carries out quantitative transfer to thickener
The movement of component 34 is mixed, by the mixing part 341 on mixing component 34 with the thickener in upper and lower motion mode feeding bin 1 to stir up and down
By the driving section 342 being arranged with 32 discontinuous connection of Screen assemblies while mode is stirred, make in handsome sizer 32
Thickener while exported with discontinuous manner, drive mixing part 341 to shake through driving section 342 by Screen assemblies 32, to avoid
The blocking of feeding bin 1.
It is stirred it should be noted that being driven while as shown in figure 4, carrying out quantitative transfer to thickener by conveying assembly 22
Component 34 stirs the thickener in feeding bin 1 with upper and lower motion mode, preliminary to be carried out to the thickener for presenting lower leaf
Mixing drives through sieve 321 in conjunction with the vibrations portion 33 that mixing bunker 31 is arranged through vibrating motor to being sieved in thickener thereon
After dividing removal of impurities, jump pearl 324 is set to carry out hitting realization paste to the thickener in whereabouts in a manner of in randomized jitter by effect of vibration
Material break up and secondary mixing, solve thickener existing in the prior art because long-time store caused by up and down density unevenness
The technical issues of.
Wherein, as shown in figure 3, the feeding bin 1, feeding chamber 21, mixing bunker 31 and vibrations portion 33 are set successively from top to down
It sets, the rotating member 23 is located at the side of the feeding chamber 21, and the mixing component 34 vertically sequentially passes through described defeated
Sending component 22 and Screen assemblies 32.
Further, as shown in Fig. 3,5 and 6, the Screen assemblies 32 are fixedly installed in the mixing bunker 31 comprising
Horizontally disposed sieve 321, it is parallel with the sieve 321 and be disposed below bearing plate 322, several be opened in the bearing plate
Material-dropping hole 323 on 322, the multiple jump pearls 324 being freely positioned on the bearing plate 322 and through the sieve 321 with
Bearing plate 322 for the mixing component 34 by mobile space 325;The diameter D for jumping pearl 324 and the material-dropping hole
Between 323 between d, between D > d, the distance between the bearing plate 322 and sieve 321 L and the diameter D for jumping pearl 324,
1.5D > L > D;In the present embodiment, the quantity for jumping pearl 324 is six, is the sphere structure of rubber material, through bearing plate
It is moved in a manner of random motion during 322 drive vibrations, the thickener powder in falling after sieve 321 is broken up, realizes paste
While expecting secondary uniform mixing, in conjunction with jumping pearl rubber material characteristic, while mobile by its own resilient force above and below
Movement, hits the sieve 321 above it, coordinates the vibrations of sieve 321, to make the thickener on sieve 321 sieve
While component efficiency improves, make the thickener rapid dispersion for being adhered shape, effect is broken up and mix for thickener to improve the present invention
While rate, the mixing uniformity of thickener is improved.
Specifically, as described in Figure 4, the mixing bunker 31 includes impurities outlet 311 and the conveying mouth being opened on its side wall
312, the impurities outlet 311 is located at the top of the sieve 321, and the conveying mouth 312 is located at 31 bottom of the mixing bunker;Paste
Impurity in material is exported through the impurities outlet 311, and mixed thickener is exported through the conveying mouth 312;In the present embodiment,
Sieve 321 is driven to move while driving mixing bunker 31 to shake by vibrations portion 33, the impurity screened out through sieve 321 is through impurity
311 output of outlet, is dispersed through uniformly mixed thickener and is exported through conveying mouth 312.
Further, as shown in figs. 3 and 6, the conveying assembly 22 is in horizontally disposed comprising transfer roller 231 and opens up
Several blanking chambers 232 on 231 outer circumference surface of transfer roller, the transfer roller 231 are equipped with the feeding chamber 21;In this reality
It applies the thickener quantitative transmission in feeding bin 1 to mixing bunker in example through several blanking chambers 232 for being uniformly arranged with rotating manner
In 31.
Embodiment two
As shown in Fig. 3,4,8 and 9, wherein identical with embodiment one or corresponding component is using corresponding with embodiment one
Reference numeral hereafter only describes the distinctive points with embodiment one for simplicity;The embodiment two it is different from embodiment one it
Be in:The conveying assembly 22 further includes being opened in the space passed through through the mixing component 34 on the transfer roller 231
233 and it is set to the shaft 234 being connected in the space 233 and with the mixing component 34, the shaft 234 and institute
State 231 eccentric setting of transfer roller;Transfer roller 231 drives shaft 234 to move in rotation process, and mixing component 34 is driven by shaft 234
It pumps.
Further, as shown in Fig. 4,8 and 9, the mixing component 34 includes vertically sliding setting and difference position
In in the feeding bin 1 and mixing bunker 31 mixing part 341 and driving section 342, the mixing part 341 and driving section 342 are and institute
State the rotation connection of shaft 234.
Wherein, as shown in FIG. 8 and 9, the mixing part 341 includes slide bar A3411, is horizontally placed on slide bar A3411
Pallet 3412 and connect the connecting rod A3413 of the slide bar A3411 and shaft 234 in hinged way, the pallet 3412
The inner wall of outer circumference surface and the feeding bin 1 is equipped with;In the present embodiment, slide bar A3411 is arranged for cylindrical structure, support
The disc structure setting that disk 3412 presents lower convexity will be in 1 lower part of feeding bin by the upper surface of pallet 3412 when work
During thickener moves up after the thickener mixing on 1 top of feeding bin, in folding process, mixed thickener is passed through into pallet
The projection portion of 3412 lower parts is dragged to the top of transfer roller 231, through its output.
In addition, as shown in Fig. 3,8,9 and 10, the driving section 342 is sheathed on the slide bar including slide bar B3421, level
B3421 is upper and is located at the baffle 3422 of 32 lower section of the Screen assemblies, connects the slide bar B3421 and shaft in hinged way
234 connecting rod B3423 and the compression spring 3424 for being sheathed on the slide bar B3421 and being located at 3422 lower section of the baffle;It is described
Baffle 3422 is engraved structure and is provided with several block plates 3425 being equipped with the material-dropping hole 323;Slide bar B3421
It pushes baffle 3422 to move up and down by spring 3424 during up and down motion, is held by the block plate 3425 on baffle 3422 to being in
Blanking port 323 on fishplate bar 322 carries out interruption barrier, and to make product thickener on bearing plate 322 accumulate, cooperation jumps pearl 324 and exists
Uniform state on bearing plate 322 mixes the thickener on bearing plate 322 by jumping pearl 324, further increases thickener
Mixing uniformity.
As an improvement, as illustrated in fig. 1 and 2, the vibrations portion 33 is arranged for vibrating motor, between the mixing bunker 31
It is connected by multiple vibrations springs 331, the vibrations portion 33 is located at the lower section of the mixing bunker 31, shakes in the present embodiment
Portion 33 is the vibrating motor used in traditional vibrating disc, and concrete mechanism is the same as those in the prior art, and does not do excessively repeating again.
In the present invention, it is to be understood that:Term "center", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness
Degree ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " clockwise ",
The orientation or position relationship of instructions such as " counterclockwise " are to be based on the orientation or positional relationship shown in the drawings, and are merely for convenience of retouching
It states the present invention and simplifies description, do not indicate or imply the indicated equipment or specific orientation that element must have, Yi Te
Fixed azimuth configuration and operation, therefore be not considered as limiting the invention.
In addition, term " first ", " second " are used for description purposes only, it is not understood to indicate or imply opposite important
Property or implicitly indicate the quantity of indicated technical characteristic.Therefore, define " first ", the feature of " second " can be expressed or
Person implicitly includes one or more this feature.In description of the invention, the meaning of " plurality " is two or two with
On, unless otherwise specifically defined.
The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto,
The change or replacement that any one skilled in the art can readily occur under the technical clarification of the present invention, such as pass through
Conveying assembly carries out driving mixing component movement while thickener quantitative transmission, real in conjunction with the vibrations hybrid mode of mixed organization
The multistage mixing and impurity screening of existing thickener, design concept, should be covered by the protection scope of the present invention.Therefore, originally
The protection domain of invention should be subject to the scope of protection of the claims.