CN204412445U - Non-ferrous metal separation system - Google Patents

Abstract

The utility model discloses a kind of non-ferrous metal separation system, comprise feed arrangement, the first sorting unit, the first metal collection portion, the first refuse collection portion and control device; First sorting unit comprises belt, drives the belt pulley of belt transport, the first driving mechanism that drive pulley rotates, and is arranged at bucket in the magnetic roller in belt pulley, and, drive the second driving mechanism that in magnetic roller, bucket rotates; First driving mechanism is all connected with control device signal with the second driving mechanism, contrary with the traffic direction of bucket in magnetic roller for the traffic direction controlling belt, and in control magnetic roller, whether bucket rotates.The sorting index that the utility model can improve non-ferrous metal in rubbish and the degree of purity of non-ferrous metal sub-elected, structure is simple, economical and practical, effective, is easy to promote.

Description

Non-ferrous metal separation system

Technical field

The utility model relates to the technical field of house refuse or household electrical appliances recovery, particularly relates to a kind of non-ferrous metal separation system.

Background technology

The non-ferrous metal (copper, aluminium etc.) contained in house refuse also gets more and more, if these non-ferrous metals can be sorted out, not only can improve the purity of rubbish, be conducive to next step process, the non-ferrous metal be selected also can be made to form regenerated resources, produce huge economic benefit.

At present, the technology that some are relevant is also disclosed in prior art, as Chinese patent CN101104156A, Chinese patent CN2805939Y and 202762542U etc.But all there are the following problems:

The first, the separation of prior art non-ferrous metal, all by discharging in the same way with garbage waste simultaneously, just through a point tablet simple division, non-ferrous metal is identical with garbage waste traffic direction, this just inevitably causes mixing of non-ferrous metal and rubbish material, cause in rubbish material and have part non-ferrous metal to be separated, and the non-ferrous metal separated also there is the existence of part garbage waste.

The second, because component of refuse is complicated, the shape of non-ferrous metal material, size, material, the reason such as to there are differences in the distance of magnet drum, the generation magnetic force of each non-ferrous metal is not identical, so the distance of dishing out is also different, like this, the setting for sub-material position has just become problem, if arranged near, then can not realize being separated of rubbish and non-ferrous metal; What arrange is excessively far away, then cannot realize the separation of less heavier non-ferrous metal material.Inevitable like this, the sorting index of non-ferrous metal and degree of purity can be made to reduce, even can not realize the separation of non-ferrous metal completely.

Although the 3rd can realize the separation of non-ferrous metal in rubbish according to the principle of vortex flow, but in practical application, because component of refuse is complicated, non-ferrous metal is more complicated also, magnetic force must be used larger for realizing separation, the magnetic roller that velocity of rotation is higher, which adds the manufacture difficulty of magnetic roller and runs the consumption of energy.

Briefly, it is low to there is separating purity in prior art, and separating effect is poor, the shortcoming such as the high and sorting index of sorting cost is low.

Utility model content

In view of this, the utility model is intended to propose a kind of degree of purity and sorting index that can improve non-ferrous metal sorting effectively, reduces the non-ferrous metal separation system of sorting cost.

The utility model discloses a kind of non-ferrous metal separation system, comprising: feed arrangement, the first sorting unit, the first metal collection portion, the first refuse collection portion and control device; Described first sorting unit comprises belt, drives the belt pulley of described belt transport, drives the first driving mechanism of described pulley rotation, is arranged at bucket in the magnetic roller in described belt pulley, and, drive the second driving mechanism that in described magnetic roller, bucket rotates; Described first driving mechanism is all connected with described control device signal with described second driving mechanism, contrary with the traffic direction of bucket in described magnetic roller for the traffic direction controlling described belt, and, control bucket in magnetic roller and whether rotate; Described first metal collection portion and described first refuse collection portion are arranged at below described first sorting unit.

Further, in above-mentioned non-ferrous metal separation system, the first material collecting device is also comprised; Described first material collecting device is provided with metal collection passage, refuse collection passage and collection sub-material plectrum, and described collection sub-material plectrum falls into described metal collection passage or described refuse collection passage for the material controlling to fall via described first sorting unit; Described first metal collection portion is for receiving the metal via described metal collection passage; Described first refuse collection portion is for receiving the rubbish via described refuse collection passage.

Further, in above-mentioned non-ferrous metal separation system, also comprise the second sorting unit, the second metal collection portion and the second refuse collection portion; Described second sorting unit comprises belt, drives the belt pulley of described belt transport, drives the first driving mechanism of described pulley rotation, is arranged at bucket in the magnetic roller in described belt pulley, and, drive the second driving mechanism that in described magnetic roller, bucket rotates; The traffic direction of described belt is contrary with the traffic direction of bucket in described magnetic roller; Described control device is also connected with the first driving mechanism in the second sorting unit and the second driving mechanism signal, also be connected with the first driving mechanism in the second sorting unit and the second driving mechanism signal for described control device, traffic direction for controlling described belt is contrary with the traffic direction of bucket in described magnetic roller, and, control bucket in magnetic roller and whether rotate; Described second metal collection portion and described second refuse collection portion are arranged at below described second sorting unit.。

Further, in above-mentioned non-ferrous metal separation system, the second material collecting device is also comprised; Described second material collecting device is also provided with metal collection passage, refuse collection passage and collection sub-material plectrum, and described collection sub-material plectrum falls into described metal collection passage or described refuse collection passage for the material controlling to fall via described second sorting unit; Described second metal collection portion is for receiving the metal via this metal collection passage; Described second refuse collection portion is for receiving the rubbish via this refuse collection passage.

Further, in above-mentioned non-ferrous metal separation system, in described first material collecting device and described second material collecting device, described metal collection passage is vertical cavity, and described refuse collection passage is the cavity favouring horizontal plane; Described first metal collection portion and described second metal collection portion are arranged at immediately below corresponding metal collection passage respectively; Described first refuse collection portion and described second refuse collection portion are arranged at the below of the outlet of corresponding refuse collection passage respectively.

Further, in above-mentioned non-ferrous metal separation system, described feed arrangement comprises main feeding-passage, the first sub-material passage and the second sub-material passage; Charging sub-material plectrum is provided with in described main feeding-passage; The top of described main feeding-passage is the first charging aperture, and the bottom of described first sub-material passage is the first discharging opening, and the bottom of described second sub-material passage is the second discharging opening; Described first sub-material passage is all connected with the bottom of described main feeding-passage with described second sub-material passage, and is symmetricly set in the both sides of described main feeding-passage.

Further, in above-mentioned non-ferrous metal separation system, described main feeding-passage, the first sub-material passage and the Y-shaped distribution of the second sub-material passage.

Further, in above-mentioned non-ferrous metal separation system, described first sorting unit and described second sorting unit symmetrical relative to described feed arrangement.

Further, in above-mentioned non-ferrous metal separation system, the described refuse collection passage in described first material collecting device and described second material collecting device is arranged in opposite directions.

Further, in above-mentioned non-ferrous metal separation system, described first refuse collection portion and described second refuse collection portion are integrated the refuse collection belt of design.

Operation principle of the present utility model is: the non-ferrous metal in the materials such as the magnetic force effectively catching rubbish that the first sorting unit utilizes vortex flow to produce, make non-ferrous metal realization from the separation of material, the traffic direction controlling belt due to control device is contrary with the traffic direction of bucket in described magnetic roller, and non-ferrous metal and garbage waste are discharged from both direction.

As can be seen here, the traffic direction controlling belt due to control device is contrary with the traffic direction of bucket in described magnetic roller, non-ferrous metal and garbage waste are discharged from both direction, in this way, decrease mixing of non-ferrous metal and rubbish material to greatest extent, enable the rubbish in rubbish material and non-ferrous metal realize being separated to greatest extent.

Simultaneously, although the composition of rubbish is very complicated, the shape of non-ferrous metal material, size, material is all different, but in the utility model, the magnetic force that separated non-ferrous metal produces due to vortex flow by effectively catching in belt, in left magnetic roller, bucket stops operating, pulley rotation operating mode under, non-ferrous metal is directly collected.Relative to prior art, the utility model can not produce the difference of magnetic force and the different sorting index that causes of the distance of dishing out that makes non-ferrous metal separated and the low problem of degree of purity, from this angle, also improve degree of purity and the efficiency of separation of non-ferrous metal sorting.

In addition, the utility model, under less magneticaction, can realize effective separation of non-ferrous metal, uses magnetic force larger compared to prior art for realizing being separated, the magnetic roller that velocity of rotation is higher, reduces the sorting unit manufacturing cost based on eddy current separation and operation energy consumption greatly.That is, the utility model is by simple, and the mode of low consumption realizes the separation of non-ferrous metal in garbage waste.

To sum up, can find out, the utility model can improve the degree of purity of the sorting index of non-ferrous metal and the non-ferrous metal of sorting in rubbish, and structure is simple, economical and practical, effective, is easy to promote.

Accompanying drawing explanation

The accompanying drawing forming a part of the present utility model is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows the structural representation of the utility model non-ferrous metal separation system preferred embodiment;

Fig. 2 shows in the utility model non-ferrous metal separation system preferred embodiment, the first sorting unit and

In second sorting unit, the mounting means schematic diagram of bucket in belt pulley and magnetic roller.

Description of reference numerals

1 feed arrangement

11a first feeding-passage

11b second feeding-passage

11c charging sub-material plectrum

The main feeding-passage of 11d

2A first sorting unit

2B second sorting unit

3A first material collecting device

3B second material collecting device

Sub-material plectrum is used in 31 collections

32 metal collection passages

33 refuse collection passages

4A first metal collection portion

4B second metal collection portion

5 refuse collection belts

In 6, roller supports

7 steel balls

8 outer rollers support

P1 first feeding-distribution device first side

P2 first feeding-distribution device second side

P3 second feeding-distribution device first side

P4 second feeding-distribution device second side

Detailed description of the invention

It should be noted that, when not conflicting, the embodiment in the utility model and the feature in embodiment can combine mutually.

Below in conjunction with Fig. 1 and Fig. 2, the preferred embodiment of the utility model non-ferrous metal separation system is described.

The present embodiment non-ferrous metal separation system is mainly for house refuse, non ferrous metallic material sorting problem in broken household electrical appliances material etc., comprising: feed arrangement 1, first sorting unit 2A, the first material collecting device 3A, the first metal collection portion 4A, the first refuse collection portion, the second sorting unit 2B, the second material collecting device 3B, the second metal collection portion 4B, the second refuse collection portion and control device (not shown).First refuse collection portion and the second refuse collection portion are integrated the refuse collection belt 5 of design.

The structure of above-mentioned various piece is described further.

Feed arrangement 1 comprises main feeding-passage 11d, the first sub-material passage 11a and the second sub-material passage 11b; Charging sub-material plectrum 11c is provided with in main feeding-passage 11d; This charging sub-material plectrum 11c falls from the first sub-material passage 11a also the second sub-material passage 11b for controlling rubbish material.The top of main feeding-passage 11d is the first charging aperture, and the bottom of the first sub-material passage 11a is the first discharging opening, and the bottom of the second sub-material passage 11b is the second discharging opening; First sub-material passage 11a is connected with the bottom of main feeding-passage 11d with the second sub-material passage 11b, and is symmetricly set in the both sides of main feeding-passage 11d.Preferably, main feeding-passage 11d, the first sub-material passage 11a and the Y-shaped distribution of the second sub-material passage 11b.

First sorting unit 2A is similar to the structure of the second sorting unit 2B, comprise belt respectively, drive the belt pulley of belt transport, the first driving mechanism that drive pulley rotates, be arranged at bucket in the magnetic roller in belt pulley, and, drive the second driving mechanism that in magnetic roller, bucket rotates.In magnetic roller, bucket and belt pulley are installed in supporting construction as shown in Figure 2.Inner roll stand is located on Inner roller spring bearing 6, and in magnetic roller, bucket is arranged on interior roller, and outer roller is fixed on outer roller spring bearing 8, and belt pulley is arranged on outer roller.Supported by steel ball 7 between Inner roller spring bearing 6 and outer roller spring bearing.

As aforementioned explanation, in the present embodiment, the first refuse collection portion and the second refuse collection portion unification are replaced by refuse collection belt 5, and the two unites two into one, and certainly, also can arrange respectively, the utility model is not construed as limiting this.In the present embodiment, the first sorting unit 2A and the second sorting unit 2B is symmetrical relative to feed arrangement 1, and the vertical distance of distance feed arrangement 1 can be 20-50 centimetres.

First material collecting device 3A is similar to the second material collecting device 3B structure.First material collecting device 3A is provided with metal collection passage 32, refuse collection passage 33 and collection sub-material plectrum 31, collection sub-material plectrum 31 for the material that controls to fall via the first sorting unit 2A by metal collection passage 32 or refuse collection passage 33; First metal collection portion 4A is for receiving the metal via metal collection passage 32; Refuse collection belt 5 is for receiving the rubbish via refuse collection passage 33.Second material collecting device 3B is also provided with metal collection passage 32, refuse collection passage 33 and collection sub-material plectrum 31, collection sub-material plectrum 31 for the material that controls to fall via the second sorting unit 2B by metal collection passage 32 or refuse collection passage 33; Second metal collection portion 4B is for receiving the metal via this metal collection passage 32; Refuse collection belt 5 is also for receiving the rubbish via this refuse collection passage 33.Two refuse collection passages 33 in first material collecting device 3A and the second material collecting device 3B are arranged in opposite directions.

In the present embodiment, in the first material collecting device 3A and the second material collecting device 3B, metal collection 32 passage is vertical cavity, and refuse collection passage 33 is for favouring the cavity of horizontal plane; First metal collection portion 4A and the second metal collection portion 4B is arranged at immediately below corresponding metal collection passage 32 respectively; Refuse collection belt 5 is arranged at the below of the outlet of refuse collection passage 33.

Control device is connected with the first driving mechanism and the second driving mechanism signal, contrary with the traffic direction of bucket in magnetic roller for the traffic direction controlling belt, and, also want bucket in reed time controll magnetic roller to stop operating, that is, control bucket in magnetic roller and whether rotate.

Below the operation principle of the present embodiment is described.

The grading principle of the first sorting unit 2A and the second sorting unit 2B is all eddy current separation.Belt effective length wherein can be 2 meters, belt runs from Inside To Outside, run from inside to outside with belt when rubbish falls from feed arrangement 1, because bucket in magnetic roller is contrary with vortex flow belt direction of travel, rubbish can tumble along belt, and non-ferrous metal produces due to bucket in the magnetic roller of vortex flow runs reverse magneticaction with belt, can not can be tumbled with belt by magnetic repellence, thus be retained on belt always.

In the present embodiment, the separation of non-ferrous metal is then realized by the moving in turn of belt feeder in two sorting units, is now described as follows.

In feed arrangement 1, when charging sub-material plectrum 11c is positioned at solid lateral, material enters the first sorting unit 2A and runs, now in the first sorting unit 2A, in magnetic roller, bucket normally rotates, and carries out eddy current separation, rubbish after sorting tumbles with belt, and non-ferrous metal is trapped on belt.

Run a period of time (such as, 3 minutes, this time can regulate according to material and on-the-spot operational effect) after, when charging with sub-material plectrum 11c automatic poking to dotted line side time, the material fallen from feed arrangement 1 enters the second sorting unit 2B and runs, now in the second sorting unit 2B, in magnetic roller, bucket normally rotates, carry out eddy current separation, the rubbish after sorting tumbles with belt, and non-ferrous metal is trapped on belt.Meanwhile, in the first sorting unit 2A, belt pulley drives belt normally to run, and in magnetic roller, bucket stops operating, and now non-ferrous metal is because stop being trapped about not having magnetic force because now empty flow to into, so pure non-ferrous metal tumbles with belt.

So rerun a period of time after (such as, 3 minutes), charging sub-material plectrum 11c gets back to solid lateral again, now material again enters the first sorting unit 2A and runs, now in the first sorting unit 2A, in magnetic roller, bucket rotates, and eddy current separation normally runs; Meanwhile, the belt in the second sorting unit 2B normally runs, and in magnetic roller, bucket is out of service, realizes the discharge of non-ferrous metal on the second sorting unit 2B belt.So repeatedly run, realize effective separation of non-ferrous metal.

Above the sorting of non-ferrous metal and rubbish is described, below, then further illustrate the collection of rubbish and non-ferrous metal.

Rubbish material, after sorting, tumbles from belt and enters metal collection passage 32 or refuse collection passage 33.Below first sorting unit 2A and the second sorting unit 2B, correspondence is provided with the first material collecting device 3A and the second material collecting device 3B.

As mentioned above, two material collecting devices are provided with metal collection passage 32, refuse collection passage 33, as shown in Figure 1, these two material collecting devices respectively have a charging aperture and two discharging openings, inside establish collection sub-material plectrum 31, the collection of two material collecting devices links with sub-material plectrum 31 and the charging sub-material plectrum 11c in feed arrangement 1, suitable position is entered to realize material, this interlock can adopt control device above to control, also can arrange a controller in addition, concrete steps are as follows:

When the charging sub-material plectrum 11c of feed arrangement 1 is positioned at solid lateral, the collection sub-material plectrum 31 in two material collecting devices is positioned at the first side shown in Fig. 1, comprises the first feeding-distribution device first side p1 and the second feeding-distribution device first side p3; Now, first sorting unit 2A normally runs, retain non-ferrous metal on belt, rubbish tumbles with belt, enter the first material collecting device 3A, the collection sub-material plectrum 31 of the first material collecting device 3A is positioned at the first feeding-distribution device first side p1, and rubbish enters refuse collection belt 5 through refuse collection passage 33; At this moment, the second sorting unit 2B is entered without rubbish, in the magnetic roller of the second sorting unit 2B, bucket is out of service, non-ferrous metal falls into the second material collecting device 3B with belt, now the collection sub-material plectrum 31 of the second material collecting device 3B is positioned at Qi Jia side (the second feeding-distribution device first side p3), and now non-ferrous metal enters the second metal collection portion 4B through metal collection passage 32.After running a period of time (as 3 minutes), when the charging sub-material plectrum 11c of feed arrangement 1 is allocated to dotted line side, the first of the first sorting unit 2A and the second sorting unit 2B, the collection of second side with sub-material plectrum 31 also thereupon automatic poking to second side, corresponding to comprising the first feeding-distribution device second side p2 and the second feeding-distribution device second side p4, now the non-ferrous metal that exports of the first sorting unit 2A is via metal collection passage 32 to the first metal collection portion 4A of the first material collecting device 3A, the rubbish that first sorting unit 2B exports is via refuse collection passage 33 to the refuse collection belt 5 of the second material collecting device 3B.

As can be seen here, the traffic direction controlling belt due to control device is contrary with the traffic direction of bucket in described magnetic roller, therefore, non-ferrous metal and garbage waste are discharged from both direction, in this way, decrease mixing of non-ferrous metal and rubbish material to greatest extent, enable the rubbish in rubbish material and non-ferrous metal realize being separated to greatest extent.

Simultaneously, although the composition of rubbish is very complicated, the shape of non-ferrous metal material, size, material is all different, but in the utility model, the magnetic force that separated non-ferrous metal produces due to vortex flow by effectively catching in belt, in left magnetic roller, bucket stops operating, pulley rotation operating mode under, non-ferrous metal is directly collected.Relative to prior art, the utility model can not produce the difference of magnetic force and the different sorting index that causes of the distance of dishing out that makes non-ferrous metal separated and the low problem of degree of purity, from this angle, also improve degree of purity and the efficiency of separation of non-ferrous metal sorting.

In addition, the utility model is under less magneticaction, effective separation of non-ferrous metal can be realized, (use magnetic force larger for realizing being separated compared to prior art, the magnetic roller that velocity of rotation is higher), greatly reduce the sorting unit manufacturing cost based on eddy current separation and operation energy consumption.That is, the utility model is by simple, and the mode of low consumption realizes the separation of non-ferrous metal in garbage waste.

In addition, the charging design of sub-material plectrum in the present embodiment, in the magnetic roller effectively making reverse rotation, the discharging of bucket and belt pulley solid line, realizes the effect that non-ferrous metal is automatically separated from garbage waste.

To sum up, can find out, the utility model can improve the degree of purity of the sorting index of non-ferrous metal and the non-ferrous metal of sorting in rubbish, and structure is simple, economical and practical, effective, is easy to promote.

Following points need to illustrate at this:

First; the present embodiment is only a preferred embodiment of the present utility model; in actual production; if not necessarily select two component screening devices; two groups of material collecting devices, two groups of metal collection portions, refuse collection portion, only comprise feed arrangement, sorting unit, technology collection unit, refuse collection portion and control device non-ferrous metal separation system also within protection domain of the present utility model.

Just; compared to two covering devices; its operating efficiency decreases; but set of device; the purity of its sorting index and non-ferrous metal uprises relative to prior art; as long as because the non-ferrous metal in the materials such as the magnetic force effectively catching rubbish utilizing vortex flow to produce; make non-ferrous metal realization from the separation of material; then; it is contrary with the traffic direction of bucket in described magnetic roller that control device controls the traffic direction of belt, makes non-ferrous metal and garbage waste be that the technical scheme of discharging from both direction is all within protection domain of the present utility model.

The second, in the present embodiment, first material collecting device and the second material collecting device are in order to optimize sorting index and sorting degree of purity further, that is, increase this structure and can improve non-ferrous metal sorting index and purity, even if but do not increase, also can obtain relative to the better sorting index of prior art and degree of purity.

Three, in the present embodiment, the first refuse collection portion and described second refuse collection portion are integrated the refuse collection belt of design, and this is also a kind of design of optimization, in reality, according to actual condition separately design, can use belt, also can realize the collection of rubbish with other mechanical mechanism.

Four, in the present embodiment; in the first material collecting device and the second material collecting device; metal collection passage is vertical cavity; refuse collection passage is the cavity favouring horizontal plane; facilitate discharging; this is a preferably angle design, and other structure that can realize blanking is also within protection domain of the present utility model.

These are only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a non-ferrous metal separation system, is characterized in that, comprising:

Feed arrangement, the first sorting unit, the first metal collection portion, the first refuse collection portion and control device;

Described first sorting unit comprises belt, drives the belt pulley of described belt transport, drives the first driving mechanism of described pulley rotation, is arranged at bucket in the magnetic roller in described belt pulley, and, drive the second driving mechanism that in described magnetic roller, bucket rotates;

Described first driving mechanism is all connected with described control device signal with described second driving mechanism, contrary with the traffic direction of bucket in described magnetic roller for the traffic direction controlling described belt, and, control bucket in described magnetic roller and whether rotate;

Described first metal collection portion and described first refuse collection portion are arranged at below described first sorting unit.

2. non-ferrous metal separation system according to claim 1, is characterized in that,

Also comprise the first material collecting device;

Described first material collecting device is provided with metal collection passage, refuse collection passage and collection sub-material plectrum, and described collection sub-material plectrum falls into described metal collection passage or described refuse collection passage for the material controlling to fall via described first sorting unit;

Described first metal collection portion is for receiving the metal via described metal collection passage;

Described first refuse collection portion is for receiving the rubbish via described refuse collection passage.

3. non-ferrous metal separation system according to claim 2, is characterized in that,

Also comprise the second sorting unit, the second metal collection portion and the second refuse collection portion;

Described second sorting unit comprises belt, drives the belt pulley of described belt transport, drives the first driving mechanism of described pulley rotation, is arranged at bucket in the magnetic roller in described belt pulley, and, drive the second driving mechanism that in described magnetic roller, bucket rotates; The traffic direction of described belt is contrary with the traffic direction of bucket in described magnetic roller;

Described control device is also connected with the first driving mechanism in the second sorting unit and the second driving mechanism signal, contrary with the traffic direction of bucket in described magnetic roller for the traffic direction controlling described belt, and, control bucket in magnetic roller and whether rotate;

Described second metal collection portion and described second refuse collection portion are arranged at below described first sorting unit.

4. non-ferrous metal separation system according to claim 3, is characterized in that,

Also comprise the second material collecting device;

Described second material collecting device is also provided with metal collection passage, refuse collection passage and collection sub-material plectrum, and described collection sub-material plectrum falls into described metal collection passage or described refuse collection passage for the material controlling to fall via described second sorting unit;

Described second metal collection portion is for receiving the metal via this metal collection passage;

Described second refuse collection portion is for receiving the rubbish via this refuse collection passage.

5. non-ferrous metal separation system according to claim 4, is characterized in that,

In described first material collecting device and described second material collecting device, described metal collection passage is vertical cavity, and described refuse collection passage is the cavity favouring horizontal plane;

Described first metal collection portion and described second metal collection portion are arranged at immediately below corresponding metal collection passage respectively;

Described first refuse collection portion and described second refuse collection portion are arranged at the below of the outlet of corresponding refuse collection passage respectively.

6. non-ferrous metal separation system according to claim 5, is characterized in that,

Described feed arrangement comprises main feeding-passage, the first sub-material passage and the second sub-material passage;

Charging sub-material plectrum is provided with in described main feeding-passage;

The top of described main feeding-passage is the first charging aperture, and the bottom of described first sub-material passage is the first discharging opening, and the bottom of described second sub-material passage is the second discharging opening;

Described first sub-material passage is all connected with the bottom of described main feeding-passage with described second sub-material passage, and is symmetricly set in the both sides of described main feeding-passage.

7. non-ferrous metal separation system according to claim 6, is characterized in that,

Described main feeding-passage, the first sub-material passage and the Y-shaped distribution of the second sub-material passage.

8. non-ferrous metal separation system according to claim 7, is characterized in that,

Described first sorting unit and described second sorting unit symmetrical relative to described feed arrangement.

9. non-ferrous metal separation system according to claim 8, is characterized in that,

Refuse collection passage in described first material collecting device and described second material collecting device is arranged in opposite directions.

10. non-ferrous metal separation system according to claim 9, is characterized in that,

Described first refuse collection portion and described second refuse collection portion are integrated the refuse collection belt of design.