CN205587139U - Multistage vortex flow sorting all -in -one - Google Patents

Abstract

The utility model provides a multistage vortex flow sorting all -in -one, from the top down is equipped with multistage vortex flow sorting unit in sorting unit, vortex flow sorting unit in, the tail end inboard of conveyer belt is equipped with the rotatory magnetism roller of individual drive, the linear velocity at magnetism roller edge is higher than the linear velocity of conveyer belt. Arrive head end and tail end staggered arrangement down on the multistage vortex flow sorting unit edge. Through the multistage vortex flow sorting unit who sets up, can divide the material of electing certain range of size at the vortex flow sorting unit of each grade, select separately from the material of once accomplishing multiple size, reduce floor area, reduce investment cost.

Description

Multistage eddy current separation all-in-one

Technical field

This utility model includes non-ferrous metal material sorting field, a kind of multistage eddy current separation all-in-one.

Background technology

Conventional eddy current separator only has the structure that one-level sorts, and has certain requirement to material size, can only sub-elect a part of material in client's material, if to realize the sorting to all materials, then must use multiple eddy current separator simultaneously.Each eddy current separator generally requires collocation platform, vibrosieve, input and output material belt etc. and is used together, and this just constitutes a plurality of sorting line, and floor space is big, and cost of investment is high.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of multistage eddy current separation all-in-one, it is possible to once sorting the material of sizes, floor space is little, and cost of investment is relatively low.

For solving above-mentioned technical problem, this utility model be the technical scheme is that a kind of multistage eddy current separation all-in-one, is provided with multistage eddy current separation device in sorting unit from top to bottom；

In described eddy current separation device, being provided with the independent magnetic roller driving and rotating inside the tail end of conveyer belt, the linear velocity at magnetic roller edge is higher than the linear velocity of conveyer belt.

Multistage eddy current separation device is along top to bottm head end and tail end interlaced arrangement.

In described eddy current separation device, conveyer belt walks around cylinder, driving wheel and driven roller successively, and belt drives motor is connected with driving wheel by drive mechanism, and magnetic roller is rotatably mounted in cylinder, and magnetic roller drives motor to be connected with magnetic roller.

In described eddy current separation device, conveyer belt walks around cylinder, regulating wheel and drivewheel successively, and belt drives motor is connected with drivewheel, and magnetic roller is rotatably mounted in cylinder, and magnetic roller drives motor to be connected with magnetic roller.

Adjustable sub-material baffle plate it is provided with below the tail end of eddy current separation devices at different levels.

Eddy current separation device head end at top be arranged over refining plate.

Described refining plate is in tilted layout, relatively low near one end of eddy current separation device tail end.

It is provided with vibrating device at refining plate.

Eddy current separation device head end at top be arranged over screening plant.

In eddy current separation devices at different levels, in the rotating speed of magnetic roller, diameter, magnet piece quantity and magnetic force parameter, at least one parameter differs.

The one multistage eddy current separation all-in-one that this utility model provides, by the multistage eddy current separation device arranged, the material of certain size scope can be sub-elected at the eddy current separation device of every one-level, sort from the material once completing sizes, the floor space of reduction equipment, reduces cost of investment.

Accompanying drawing explanation

The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings:

Fig. 1 is the structural representation of this utility model sorting unit.

Fig. 2 is overall structure schematic front view of the present utility model.

Fig. 3 is overall structure schematic top plan view of the present utility model.

Fig. 4 is the structural representation of eddy current separation device in this utility model.

Fig. 5 is another structural representation of eddy current separation device in this utility model.

Fig. 6 is the structural representation of eddy current separation device of the prior art.

In figure: eddy current separation device 1, cylinder 101, magnetic roller 102, driving wheel 103, magnetic roller drives motor 104, belt drives motor 105, driven roller 106, regulating wheel 107, drivewheel 108, conveyer belt 109, adjustable sub-material baffle plate 2, feed hopper 3, lifting device 4, screening plant 5, sorting unit 6, refining plate 7, vibrating device 8, blowpit 9.

Detailed description of the invention

In Fig. 1 ~ 3, a kind of multistage eddy current separation all-in-one, in sorting unit 6, it is provided with multistage eddy current separation device 1 from top to bottom；

In described eddy current separation device 1, being provided with the independent magnetic roller 102 driving and rotating inside the tail end of conveyer belt 109, the linear velocity at magnetic roller 102 edge is higher than the linear velocity of conveyer belt 109；

Multistage eddy current separation device 1, along top to bottm head end and tail end interlaced arrangement, is beneficial to the floor space of minimizing equipment.

Fig. 1 ~ 5 are only signal, only show critical component for ease of observing.Adjustable sub-material baffle plate 2 it is provided with below the tail end of eddy current separation devices 1 at different levels.Sub-material baffle plate 2 can be along the arcuate groove adjustable inclination of sidewall, consequently facilitating be adjusted according to the granular size of material.The lower section of adjustable sub-material baffle plate 2 is provided with blowpit 9.Before the adjustable sub-material baffle plate 2 times of bottom and lower rear is equipped with blowpit 9.

Tail end in this example refers to one end that the downstream of conveyer belt 109 upper surface, i.e. material are sent.

During work, magnetic roller 102 in eddy current separation device 1 rotates with higher speed, can be usually reached 3000-8000 rev/min, the surface of left magnetic roller cylinder 102 can produce the high-intensity magnetic field of high-frequency alternating, when conductive non-ferrous metal is through magnetic field, vortex flow can be induced in non-ferrous metal, inducing eddy-current can produce the magnetic field in opposite direction with former alternating magnetic field, non-ferrous metal particle is crossed adjustable sub-material baffle plate 2 under the effect of magnetic repulsion and is dropped into blowpit 9, unclassified stores then directly falls from the tail end of conveyer belt 109, thus reach to sub-elect the purpose of the non-ferrous metal in mixed material.This is the operation principle of eddy current separator.

But eddy current separation mode is relevant with the overall dimensions of non-ferrous metal particle in material, the only non-ferrous metal particle in a size range can be sorted reliably, and the non-ferrous metal particle outside another part size range is then difficult to be sorted out.

Preferably in scheme, in eddy current separation devices 1 at different levels, in the rotating speed of magnetic roller 102, diameter, magnet piece quantity and magnetic force parameter, at least one parameter differs.The scheme used in this example makes the rotating speed of magnetic roller 102 in eddy current separation device 1 at different levels different with magnetic force parameter, its medium speed is controlled by frequency conversion motor, and magnetic force parameter is then realized by the permanent magnet of selection different-thickness or the permanent magnet of unlike material.Magnetic roller 102 in this example has 8-32 magnet piece, an i.e. 8-32 independent permanent magnet, and the magnetic pole of each magnet piece circumferentially interlaced arrangement, the most adjacent magnetic pole between permanent magnet is contrary.

In this utility model, material arrives the position of magnetic roller 102 by the eddy current separation device 1 of higher level, and in the range of certain size, such as size non-ferrous metal material between a and b sorts out.Unclassified stores is fallen on the eddy current separation device 1 of next stage, and in another size range, such as size non-ferrous metal material between b and c sorts out.As in Fig. 1 on the eddy current separation device 1 of the third level, then size non-ferrous metal material between c and d is sorted out.Thus structure, it is achieved disposably size is sorted out from unclassified stores from the non-ferrous metal material of a ~ d.

In optional scheme such as Fig. 4, in described eddy current separation device 1, conveyer belt 109 walks around cylinder 101, driving wheel 103 and driven roller 106 successively, belt drives motor 105 is connected with driving wheel 103 by drive mechanism, magnetic roller 102 is rotatably mounted in cylinder 101, and magnetic roller 102 drives motor 104 to be connected with magnetic roller.

In another optional scheme such as Fig. 5, in described eddy current separation device 1, conveyer belt 109 walks around cylinder 101, regulating wheel 107 and drivewheel 108 successively, belt drives motor 105 is connected with drivewheel 108, magnetic roller 102 is rotatably mounted in cylinder 101, and magnetic roller 102 drives motor 104 to be connected with magnetic roller.Thus structure, is conducive to reducing further the height of sorting unit 6.

Preferably in scheme such as Fig. 4, eddy current separation device 1 head end at top be arranged over refining plate 7.It is further preferred that described refining plate 7 is in tilted layout, the inclination angle in this example is 3 °-5 °, relatively low near one end of eddy current separation device 1 tail end.Thus structure, it is to avoid solid accumulation and affect separating effect, make material can be uniformly distributed in the surface of conveyer belt 109.It is further preferred that be provided with vibrating device 8 at refining plate 7.Thus structure, is beneficial to make material slide and spread out even.

Preferably scheme such as Fig. 1, in 2, eddy current separation device 1 head end at top be arranged over screening plant 5.This example preferably employs double-deck screen shale shaker, with by the dimension limitation of material in the range of one.And, it is even that the double-deck screen shale shaker page of setting is conducive to making material tentatively spread out.Screening plant 5 can also be applied in combination with refining plate 7.

Such as Fig. 1, in 2, being additionally provided with feed hopper 3, the discharging opening of feed hopper 3 is connected with lifting device 4, gives sorting unit 6 feed for uniform.

The above embodiments are only optimal technical scheme of the present utility model, and are not construed as restriction of the present utility model, the embodiment in the application and the feature in embodiment in the case of not conflicting, can mutual combination in any.The technical scheme that protection domain of the present utility model should be recorded with claim, is protection domain including the equivalents of technical characteristic in the technical scheme that claim is recorded.Equivalent the most in this range is improved, also within protection domain of the present utility model.

Claims (10)

1. a multistage eddy current separation all-in-one, is characterized in that: be provided with multistage eddy current separation device (1) in sorting unit (6) from top to bottom；

In described eddy current separation device (1), being provided with the independent magnetic roller (102) driving and rotating inside the tail end of conveyer belt (109), the linear velocity at magnetic roller (102) edge is higher than the linear velocity of conveyer belt (109).

One the most according to claim 1 multistage eddy current separation all-in-one, is characterized in that: multistage eddy current separation device (1) is along top to bottm head end and tail end interlaced arrangement.

One the most according to claim 1 multistage eddy current separation all-in-one, it is characterized in that: in described eddy current separation device (1), conveyer belt (109) walks around cylinder (101), driving wheel (103) and driven roller (106) successively, belt drives motor (105) is connected with driving wheel (103) by drive mechanism, magnetic roller (102) is rotatably mounted in cylinder (101), and magnetic roller (102) drives motor (104) to be connected with magnetic roller.

One the most according to claim 1 multistage eddy current separation all-in-one, it is characterized in that: in described eddy current separation device (1), conveyer belt (109) walks around cylinder (101), regulating wheel (107) and drivewheel (108) successively, belt drives motor (105) is connected with drivewheel (108), magnetic roller (102) is rotatably mounted in cylinder (101), and magnetic roller (102) drives motor (104) to be connected with magnetic roller.

One the most according to claim 1 multistage eddy current separation all-in-one, is characterized in that: be provided with adjustable sub-material baffle plate (2) below the tail end of eddy current separation devices (1) at different levels.

One the most according to claim 1 multistage eddy current separation all-in-one, is characterized in that: eddy current separation device (1) head end at top be arranged over refining plate (7).

One the most according to claim 6 multistage eddy current separation all-in-one, is characterized in that: described refining plate (7) is in tilted layout, relatively low near one end of eddy current separation device (1) tail end.

One the most according to claim 6 multistage eddy current separation all-in-one, is characterized in that: be provided with vibrating device (8) at refining plate (7).

One the most according to claim 1 multistage eddy current separation all-in-one, is characterized in that: eddy current separation device (1) head end at top be arranged over screening plant (5).

One the most according to claim 1 multistage eddy current separation all-in-one, is characterized in that: in eddy current separation devices (1) at different levels, in the rotating speed of magnetic roller (102), diameter, magnet piece quantity and magnetic force parameter, at least one parameter differs.