CN204953022U - Rotatory separator of intelligence nanometer developments centrifugation - Google Patents

Abstract

The utility model relates to a grinding device field, the rotatory separator of intelligence nanometer developments centrifugation that specifically says so, it is including setting up the separation cylinder in the sand mill grinding vessel, the inside cavity that is formed with of cylinder, these cylinder axial both ends are sealed, and the hollow shaft axial that drives this cylinder rotatory is inserted the cavity, a whirlpool groove has inwards been seted up from the cylinder outer wall to the inner chamber intercommunication of this cavity and hollow shaft, this whirlpool groove with the cavity intercommunication. The utility model discloses a separator has abandoned the structure of current screen cloth formula separator completely, and the ejection of compact is accomplished to its inner chamber that makes the material get into the hollow shaft from the whirlpool groove, because it is rotatory that separator is driven by the hollow shaft, the powerful centrifugal force of production when rotatory grinds the pearl to the attrition medium and throw outside than the material of coarse grain is got rid of, avoids grinding pearl from whirlpool groove entering hollow shaft inner chamber, and can overcome centrifugal force from whirlpool groove entering cavity under the pressure effect of the material of tiny granule in the grinding vessel, and flow to the inner chamber of hollow shaft again, realize an axle ejection of compact.

Description

Intelligent nano dynamic centrifugal rotating separation device

Technical field

The utility model relates to solid-liquid separation technique field when advanced material and the grinding of wet method nanometer technology, and particularly a kind of microsphere that adopts carries out the nano-milled dynamic centrifugal separator of wet method.

Background technology

The coal fired power generation of China, cement, powder metallurgy, petroleum gas, chemical industry, food, lithium titanate, LiFePO4, paint, ink, fire retardant, photoelectricity industry TFTLCD ﹑ Jetink ﹑ Ci Cai Liao ﹑ Bao Jian Pin ﹑ bio-pharmaceuticals and the biochemical Chan Ye ﹑ chemical fibre Chan Ye ﹑ building materials Chan Ye ﹑ metal Chan Ye ﹑ soap of Xi born of the same parents Po Sui ﹑ Yangization Wu ﹑ electricity Chan Ye ﹑ Guang electricity Chan Ye ﹑ medicine, leather, electronic ceramics, electrocondution slurry, offset ink, textile, bio-pharmaceuticals, painting printing ink, chip polishing fluid, clasmatosis, cosmetics, ink-jet ink, ceramic ink jet, metal nano material, plastic material, extraordinary nanometer aeronautical material, the powder industries such as ceramic material all have employed a large amount of separator technologies.Separator is a kind of equipment of the separation for gas-solid system or liquid-solid body or gas-liquid system.Operation principle is tangentially introduce the rotary motion caused by air-flow, makes to have the solid particle of larger centrifugal force or drop and gets rid of and separate to outside wall surface.

But, owing to there is no correct understanding to the internal flow rule of separator, make the cyclone performance of China's these industries above-mentioned generally low, cause the situation of poor efficiency, high consumption.Such as, CFBB in coal-burning power plant, applies very general in coal-burning power plant of China, and in the fluidized bed jet mill of dry method in the separator of dynamic classification wheel and wet method horizontal sand mill the separator of dynamic classification wheel play critical effect.Especially the separator run under high temperature, high pressure, high rotating speed and high flow capacity, this gives the stable of separator and may run and brings great unfavorable factor.In addition, the secondary that conventional separation techniques can not solve powder at all such as to be carried under one's arms at the problem, makes separative efficiency low.The performance quality of separator has influence on the height of efficiency of combustion and coal consumption, has influence on the wearing and tearing of upstream device, dedusting and energy-conserving and environment-protective etc.Therefore, the performance promoting separator becomes problem demanding prompt solution.

Utility model content

For above-mentioned technical problem, the purpose of this utility model is to provide a kind of separative efficiency high and can uses the dynamic centrifugal rotating separation device without separate mesh of less abrasive media.

The utility model solves the problems of the technologies described above adopted technical scheme: intelligent nano dynamic centrifugal rotating separation device, comprise the separation cylinder be arranged in grinding drum of sand grinder, described column body is formed with cavity, this cylinder axis is to closed at both ends, the hollow shaft driving this cylinder to rotate axially inserts described cavity, the inner space of this cavity and hollow shaft, inwardly offers a whirlpool groove from cylinder outer wall, this whirlpool groove and described cavity connects.

As preferably, the projection of described whirlpool groove on sagittal plane in the shape of a spiral.

As preferably, the length that described whirlpool groove extends at axial direction is with equal in the length of axial direction with described cavity.

As preferably, described cylinder comprises two halves cylinder, and two halves cylinder sides adjacent all offers half whirlpool groove, and two halves whirlpool groove forms described whirlpool groove, and two halves cylinder dorsad side is all closed.

As preferably, the side dorsad of half cylinder offers stepped hole vertically, and the side dorsad of second half cylinder offers through hole vertically, and described hollow shaft is successively through through hole, cavity, and its end is resisted against on the step surface of described stepped hole.

As preferably, end-enclosed described in hollow shaft, hammers into the screw of stepped hole by fastening for the side dorsad of this end and described half cylinder.

As preferably, be provided with one in the side dorsad of second half cylinder described and be set in end cap in described hollow shaft, this end cap perisporium is being extended with flange near cylinder side, and this flange is tightly placed in the periphery wall of the side dorsad of second half cylinder described.

As preferably, described hollow shaft drives described end cap and cylinder to rotate by key.

As preferably, described cavity is by being arranged on the inner space of several discharge opening in hollow shaft and hollow shaft.

As can be known from the above technical solutions, the structure of existing screen mesh type separator abandoned completely by separator of the present utility model, and it makes material enter the inner chamber of hollow shaft from whirlpool groove, completes discharging; Because separator is by hollow shaft driven rotary, the powerful centrifugal force produced during rotation grinds pearl and more coarse grained material abrasive media and outwards throws and get rid of, and avoids mill pearl to enter hollow shaft inner chamber from whirlpool groove; And centrifugal force can be overcome under the pressure effect of the material of fine particle in sand cylinder from whirlpool groove and enter cavity, then flow to the inner chamber of hollow shaft, realize axle discharging.Obviously, the utility model achieves without filter screen, septumless, without lamination, is separated without the material pearl of screen cloth, and by the impact of mill pearl pearl footpath size, can realize the grinding of ultra-fine microballon, and the most I in mill pearl pearl footpath reaches 0.015-0.3mm.

Accompanying drawing explanation

Fig. 1 is structure cross-sectional schematic of the present utility model.

Fig. 2 is A-A sectional view in figure.

Detailed description of the invention

Intelligent nano dynamic centrifugal rotating separation device of the present utility model is introduced in detail below in conjunction with Fig. 1, Fig. 2, comprise the separation cylinder 1 be arranged in grinding drum of sand grinder, column body is formed with cavity 11, cylinder axis is to closed at both ends, the hollow shaft 2 driving this cylinder to rotate axially inserts described cavity, and this cavity is communicated with the inner chamber 21 of hollow shaft; As preferably, cavity is by being arranged on the inner space of the several discharge openings 22 in hollow shaft and hollow shaft; A whirlpool groove 12 is inwardly offered, this whirlpool groove and described cavity connects from cylinder outer wall.When material in the milling zone of sand cylinder through abrasive media grinding after, Disengagement zone is gathered under the effect of chamber pressure, the material of Disengagement zone enters the cavity of cylinder from whirlpool groove, then hollow shaft inner chamber is entered from cavity by discharge opening, thus realize the discharging of Dynamic Separation axle, improve separative efficiency and product quality.

This separator can use smaller abrasive media, not by the impact of grinding pearl pearl footpath and filter screen gap length, can reach the object that discharging flow is large, production efficiency is high; Therefore, the abrasive media of the minor diameter that the utility model is eliminated after can again fully using traditional sand mill to use, avoids unnecessary waste, reaches the object of energy-conserving and environment-protective.

In the utility model, the projection of described whirlpool groove on sagittal plane in the shape of a spiral, can reduce separating energy consumption like this; Specifically, spiral helicine whirlpool groove makes material not have pulsating nature in the groove of whirlpool, and is separated continuous, steady; Meanwhile, the whirlpool groove of rotation forms whirlpool whirlpool formula, can produce powerful centrifugal force, mill pearl and more coarse grained material outwards be thrown and gets rid of and can not enter whirlpool groove.In implementation process, the whirlpool groove hand of spiral should be consistent with cylinder direction of rotation, and such guarantee separative efficiency, reaches energy-conservation object.Under the effect of dynamic centrifugal, the discharging of original utility model is unblocked, prevents sticky material be trapped in grinding in cavity for a long time and occur the problems such as overtemperature, variable color, emulsification, the utility model especially to the grinding of thermo-sensitive material and dispersion effect better.

As preferably, the length that described whirlpool groove extends at axial direction is with equal in the length of axial direction with described cavity, and groove axially extended length in whirlpool is long as far as possible, and this can make most axial directions of cylinder all have gap, to accelerate discharging speed; Wherein, whirlpool groove circumferential width can be determined according to the quality requirement of product and rotational velocity range, and the design of whirlpool groove helix length can according to designs such as the mechanical property of fluid, separative efficiencies.

In the utility model, described cylinder 1 comprises two halves cylinder, can be with bolts between two and half cylinders, also can adopt clamping or other connected mode; Two halves cylinder sides adjacent all offers half whirlpool groove, and two halves whirlpool groove forms described whirlpool groove; That is whirlpool groove can be divided into symmetrical two halves, each half cylinder is arranged half whirlpool groove, but two halves cylinder side is all closed dorsad, prevent the material in cavity from flowing back to grinding drum.Cylinder of the present utility model adopts split-type structural, not only facilitates installing/dismounting, and convenience is cleaned, maintenance.

As preferably, the side dorsad of half cylinder offers stepped hole 13 vertically, and the side dorsad of second half cylinder offers through hole 14 vertically, and described hollow shaft is successively through through hole, cavity, its end is resisted against on the step surface of described stepped hole, improves the installation capability of hollow shaft and cylinder like this; End-enclosed described in hollow shaft, hammers into the screw 3 of stepped hole by fastening for the side dorsad of this end and described half cylinder; Make transmission more steady.

As preferably, be provided with one in the side dorsad of second half cylinder described and be set in end cap 4 in described hollow shaft, this end cap perisporium is being extended with flange 41 near cylinder side, this flange is tightly placed in the periphery wall of the side dorsad of second half cylinder described, the side of end cap is pushed against the end face of cylinder simultaneously, so not only make cylinder, end cap, hollow shaft connect more firm, and cylinder cavity is sealed more; Hollowly described in implementation process drive described end cap and cylinder to rotate by key 5, ensure that the transmission of two and half cylinders balances more, steadily.Cylinder of the present utility model, end cap, gland etc. can adopt ceramic material to make, and processing aspect, technique are simple.

The utility model is by changing internal structure and the rotation mode of conventional turbine rotor, enhance the stability of separation process, the rotating speed of material in separator can be accelerated, and rotating speed is tended towards stability, significantly reduce the fragmentation of material whirlpool and wear problem thereof, the performance of rotating separation device can be promoted.Meanwhile, the centrifugal force that whirlpool groove rotary course produces orders about material and does the motion of radial direction, axis and circumferential cycle hydrodynamics, can again to material dispersion.Adopt that this nanometer sand mill without screen mesh type separator makes grinding efficiency significantly improve, quality stability more by force, not by the impact of abrasive media diameter, abrasive product particle diameter obviously reduces, and compared with conventional mill, output can increase by 60-120%; Utilization simultaneously for little zirconium pearl serves very large effect.

Above-mentioned embodiment is only for illustration of the utility model, and be not to restriction of the present utility model, the those of ordinary skill of relevant technical field, when not departing from the utility model spirit and scope, can also make various change and modification, therefore all equivalent technical schemes also should belong to category of the present utility model.

Claims (9)

1. intelligent nano dynamic centrifugal rotating separation device, comprise the separation cylinder be arranged in grinding drum of sand grinder, it is characterized in that: described column body is formed with cavity, this cylinder axis is to closed at both ends, the hollow shaft driving this cylinder to rotate axially inserts described cavity, the inner space of this cavity and hollow shaft, inwardly offers a whirlpool groove from cylinder outer wall, this whirlpool groove and described cavity connects.

2. intelligent nano dynamic centrifugal rotating separation device according to claim 1, is characterized in that: the projection of described whirlpool groove on sagittal plane in the shape of a spiral.

3. intelligent nano dynamic centrifugal rotating separation device according to claim 2, is characterized in that: the length that described whirlpool groove extends at axial direction is with equal in the length of axial direction with described cavity.

4. intelligent nano dynamic centrifugal rotating separation device according to claim 1 or 2 or 3, it is characterized in that: described cylinder comprises two halves cylinder, two halves cylinder sides adjacent all offers half whirlpool groove, and two halves whirlpool groove forms described whirlpool groove, and two halves cylinder dorsad side is all closed.

5. intelligent nano dynamic centrifugal rotating separation device according to claim 4, it is characterized in that: the side dorsad of half cylinder offers stepped hole vertically, the side dorsad of second half cylinder offers through hole vertically, described hollow shaft is successively through through hole, cavity, and its end is resisted against on the step surface of described stepped hole.

6. intelligent nano dynamic centrifugal rotating separation device according to claim 5, is characterized in that: end-enclosed described in hollow shaft, hammers into the screw of stepped hole by fastening for the side dorsad of this end and described half cylinder.

7. intelligent nano dynamic centrifugal rotating separation device according to claim 5, it is characterized in that: be provided with one in the side dorsad of second half cylinder described and be set in end cap in described hollow shaft, this end cap perisporium is being extended with flange near cylinder side, and this flange is tightly placed in the periphery wall of the side dorsad of second half cylinder described.

8. intelligent nano dynamic centrifugal rotating separation device according to claim 7, is characterized in that: described hollow shaft drives described end cap and cylinder to rotate by key.

9. intelligent nano dynamic centrifugal rotating separation device according to claim 1, is characterized in that: described cavity is by being arranged on the inner space of several discharge opening in hollow shaft and hollow shaft.