CN208960138U - A kind of waste incineration slag sorting disposing system - Google Patents

Abstract

The utility model discloses a kind of waste incineration slag sorting disposing systems, it includes charging equipment, first magnetic separator, second magnetic separator, third magnetic separator, first crusher, second crusher, third crusher, first vibrating-dewatering screen, second vibrating-dewatering screen, third vibrating-dewatering screen, 4th vibrating-dewatering screen, first jigging machine, second jigging machine, first rotary screen, second tin roller sieve, first shaking table, second shaking table, first eddy current separator, second eddy current separator, mud pit, filter press, clinker field, clear water reserviors, metal library, battle field, mud field；The system passes through reasonable disposition screening installation, improve the waste incineration slag efficiency of separation, promote metal resource to recycle, solves the problems, such as that conventional garbage dregs of incinerator directly fills or the efficiency of separation is not high and result in waste of resources, be mainly used in waste incineration slag sorting process field.

Description

A kind of waste incineration slag sorting disposing system

Technical field

The utility model relates at waste incineration slag processing technology field more particularly to a kind of waste incineration slag sorting Reason system.

Background technique

Existing waste incineration slag processing method mainly fills, and landfill needs land occupation, causes land resource unrestrained Take, and due to containing the metals such as iron, aluminium, copper in waste incineration slag, cannot such as be recycled, then above-mentioned metal is caused to provide The waste in source.With the raising and social progress of environmental requirement, start to develop waste incineration slag recovery processing skill at present Art, but it is not perfect due to processing technique, and insufficient sorting process is still universal phenomenon.Waste incinerator residues processing technique, Main includes the techniques such as broken, magnetic separation, jigging sorting, eddy current separation, separation by shaking table, dehydration, and the Process configuration is rationally then The efficiency of separation is high, and then the efficiency of separation is low for unreasonable allocation, for example, slag treatment produces line front end clinker in prior art production Enter single crusher without magnetic separation, then crusher reduces remaining more large content of slag charge to deal with the iron of lower content Broken speed, and then cause Integral-crushing production efficiency low；For another example in prior art production, clinker uses waterwheel after jigging sorts Dehydration, waterwheel needs biggish wheel footpath that can just have certain dehydrating effect, and drives the torque-demand of waterwheel larger, usually needs Configuring two reduction gearboxes can be only achieved requirement, so that the device is complicated, high failure rate production efficiency is low；The for another example prior art In production, the sorting of level-one eddy current separator only is carried out to obtain biggish metal to clinker, and abandons lesser metal, is caused It sorts insufficient；For another example in prior art production, muddy water natural sedimentation layering dehydration, production efficiency that time-consuming in sedimentation basin It is low.It can be seen that the waste incineration slag sorting disposing system of the prior art needs technical staff constantly to create there are many deficiencies New to improve, reasonable disposition technique is to improve the efficiency of separation.

In consideration of it, how reasonable disposition screening installation, improve the waste incineration slag efficiency of separation, promote resource reclaim benefit With being the conventional garbage dregs of incinerator sorting disposing system technical issues that need to address.

Summary of the invention

In order to improve the deficiencies in the prior art, the purpose of the utility model is to provide a kind of waste incineration slag sorting processes System, the system is by reasonable disposition screening installation, to improve the waste incineration slag efficiency of separation, promotes resource reclaim benefit With.

The utility model be solve its technical problem and the technical solution adopted is that:

A kind of waste incineration slag sorting disposing system comprising charging equipment, the first magnetic separator, the second magnetic separator, Three magnetic separators, the first crusher, the second crusher, third crusher, the first vibrating-dewatering screen, the second vibrating-dewatering screen, third Vibrating-dewatering screen, the 4th vibrating-dewatering screen, the first jigging machine, the second jigging machine, the first rotary screen, second tin roller sieve, first shake Bed, the second shaking table, the first eddy current separator, the second eddy current separator, mud pit, filter press, clinker field, clear water reserviors, gold Belong to library, battle field, Ni Chang.

The clinker field by material convey connection charging equipment, the charging equipment discharge port by belt conveyor with The connection of first crusher feed-inlet, the first magnetic separator of the belt conveyor top connection inhale iron end, and first magnetic separator unloads Another belt conveyor, another second crusher feed-inlet of Belt Conveying band connection, to realize iron are connected below iron end With slag classifying crushing；Content of the iron in clinker about 3%, but since iron hardness height influences crushing efficiency, therefore use the first magnetic separator Iron in clinker is selected, and is delivered to the second crusher and is specially crushed, then inlet amount, phase can be significantly increased in the first crusher It is more broken than prior art scum mixing to greatly improve crushing efficiency.

The clear water reserviors connect the first crusher, the second crusher feed-inlet by pumping equipment, provide for assorting room Conveying water flow simultaneously cleans clinker, and first crusher, the second discharge hole of crusher connect the first jigging by Hydraulic transportation slot Machine inlet, the second magnetic separator of the Hydraulic transportation slot top connection inhale iron end, and second magnetic separator unloads connection below iron end First vibrating-dewatering screen feed inlet, the first vibrating-dewatering screen discharge port conveys connection metal library by material, to realize The sorting recycling of magnetic conductive metal level-one.

The online discharge port of first jigging machine connects the first rotary screen feed inlet, the first jigging machine discharge port off the net Connect the first shaking table feed inlet by Hydraulic transportation slot, first rotary screen sieve top discharge mouth connect the second vibrating-dewatering screen into Material mouth, the first rotary screen sieve lower discharge port connect third crusher feed-inlet, second vibration by Hydraulic transportation slot Dewatering screen discharge port connects the first eddy current separation machine inlet, and the first eddy current separator metal discharge port passes through material Conveying connection metal library, to realize non-magnetic metal level-one sorting recycling.

The first eddy current separator slag discharge port connects third crusher feed-inlet, the third discharge hole of crusher The second jigging machine inlet is connected by Hydraulic transportation slot, connection third magnetic separator inhales iron end, institute above the Hydraulic transportation slot It states third magnetic separator and unloads iron end lower section connection third vibrating-dewatering screen feed inlet, the third vibrating-dewatering screen discharge port passes through object Material conveying connection metal library, to realize the sorting recycling of magnetic conductive metal second level.

The online discharge port connection second tin roller of second jigging machine sieves feed inlet, the second jigging machine discharge port off the net Connect the second shaking table feed inlet by Hydraulic transportation slot, second tin roller sieve sieve top discharge mouth connect the 4th vibrating-dewatering screen into Material mouth, the second tin roller sieve sieve lower discharge port connect the second shaking table feed inlet by Hydraulic transportation slot, and the 4th vibration is de- Water sieve discharge port connects the second eddy current separation machine inlet, and the second eddy current separator metal discharge port is defeated by material Connection metal library is sent, thus realize non-magnetic metal second level sorting recycling, the second eddy current separator sand discharge port connection Battle field, to realize husky sorting.

First shaking table, the second shaking table metal discharge port convey connection metal library by material, to realize non-magnetic Metal level-one, second level sorting recycling, first shaking table, the second shaking table muddy water discharge port connect mud pit, and the mud pit is logical Pumping equipment connection feed opening of press filter is crossed, the filter press cake outlet connects mud field, to realize that mud sorts.

First vibrating-dewatering screen, the second vibrating-dewatering screen, third vibrating-dewatering screen, the 4th vibrating-dewatering screen, mud Pond, filter press are connect by Hydraulic transportation slot with the clear water reserviors, to realize that water recycles.

Further, first crusher, the second crusher, third crusher are hammer mill, and described first Jigging machine, the second jigging machine are sawtooth pulsation jig, and the filter press is plate and frame type filter-press.

The principles of the present invention are: realizing that iron and slag are classified by the first magnetic separator, the first crusher, the second crusher It is broken to improve crushing efficiency, guarantee that clinker partial size meets recycling and requires by two-stage crushing, iron is guaranteed by secondary magnetic separation Metalloid is guaranteed that non-magnetic metal is improved by abundant recycling by second level eddy current separation and is divided by the abundant recycling raising efficiency of separation Efficiency is selected, guarantees that non-magnetic metal improves the efficiency of separation by abundant recycling by second level jigging and second level shaking table, passes through rotary screen It is dehydrated with vibrating screen second level and guarantees that sand is sufficiently dehydrated, and improve production efficiency compared to using waterwheel dehydration, pass through filter press Dehydration guarantees that mud is sufficiently dehydrated, and improves production efficiency compared to natural sedimentation dehydration；Water can be real after filter press filters Now it is recycled.

Due to the adoption of the above technical scheme, the utility model has the following beneficial effects: the utility model passes through reasonable disposition point Optional equipment improves the waste incineration slag efficiency of separation, promotes the recycling of metal resource, and the sand sub-elected can be used for Brickmaking, the applications such as pave the way, avoid waste and environmental pollution of the landfill disposal to land resource, have to the development of economic society There is positive meaning.

Detailed description of the invention

Fig. 1 is the functional block diagram of an embodiment of the present invention.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, it below by way of specific embodiment and ties Attached drawing 1 is closed, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only used to solve The present invention is released, is not intended to limit the present invention.

In the embodiment shown in fig. 1, a kind of waste incineration slag sorting disposing system comprising charging equipment, first Magnetic separator, the second magnetic separator, third magnetic separator, the first crusher, the second crusher, third crusher, the first vibrating-dewatering screen, Second vibrating-dewatering screen, third vibrating-dewatering screen, the 4th vibrating-dewatering screen, the first jigging machine, the second jigging machine, the first roller Sieve, second tin roller sieve, the first shaking table, the second shaking table, the first eddy current separator, the second eddy current separator, mud pit, filters pressing Machine, clinker field, clear water reserviors, metal library, battle field, Ni Chang.

In the embodiment shown in fig. 1, clinker field conveys connection charging equipment by material, and charging equipment discharge port passes through Belt conveyor is connect with the first crusher feed-inlet, and the first magnetic separator of connection inhales iron end, the first magnetic separation above belt conveyor Machine, which unloads, connects another belt conveyor, another the second crusher feed-inlet of Belt Conveying band connection, to realize iron below iron end With slag classifying crushing；Content of the iron in clinker about 3%, but since iron hardness height influences crushing efficiency, therefore use the first magnetic separator Iron in clinker is selected, and is delivered to the second crusher and is specially crushed, then inlet amount, phase can be significantly increased in the first crusher It is more broken than prior art scum mixing to greatly improve crushing efficiency.

In the embodiment shown in fig. 1, clear water reserviors connect the first crusher, the second feed of crusher by pumping equipment Mouthful, conveying water flow is provided for assorting room and cleans clinker, and the first crusher, the second discharge hole of crusher pass through Hydraulic transportation slot The first jigging machine inlet is connected, the second magnetic separator of connection inhales iron end above Hydraulic transportation slot, and the second magnetic separator unloads below iron end The first vibrating-dewatering screen feed inlet is connected, the first vibrating-dewatering screen discharge port conveys connection metal library by material, to realize The sorting recycling of magnetic conductive metal level-one.

In the embodiment shown in fig. 1, the online discharge port of the first jigging machine connects the first rotary screen feed inlet, the first jigging Machine discharge port off the net connects the first shaking table feed inlet by Hydraulic transportation slot, and the first rotary screen sieves the second vibration of top discharge mouth connection Dewatering screen feed inlet, the first rotary screen sieves lower discharge port and connects third crusher feed-inlet by Hydraulic transportation slot, to realize Two-stage crushing, the second vibrating-dewatering screen discharge port connect the first eddy current separation machine inlet, the first eddy current separator metal Discharge port conveys connection metal library by material, to realize non-magnetic metal level-one sorting recycling.

In the embodiment shown in fig. 1, the first eddy current separator slag discharge port connects third crusher feed-inlet, third Discharge hole of crusher connects the second jigging machine inlet by Hydraulic transportation slot, and connection third magnetic separator is inhaled above Hydraulic transportation slot Iron end, third magnetic separator, which unloads, connects third vibrating-dewatering screen feed inlet below iron end, third vibrating-dewatering screen discharge port passes through object Material conveying connection metal library, to realize the sorting recycling of magnetic conductive metal second level.

In the embodiment shown in fig. 1, the online discharge port connection second tin roller of the second jigging machine sieves feed inlet, the second jigging Machine discharge port off the net connects the second shaking table feed inlet, the 4th vibration of second tin roller sieve sieve top discharge mouth connection by Hydraulic transportation slot Dewatering screen feed inlet, second tin roller sieve sieve lower discharge port connect the second shaking table feed inlet by Hydraulic transportation slot, and the 4th vibration is de- Water sieve discharge port connects the second eddy current separation machine inlet, and the second eddy current separator metal discharge port is conveyed by material to be connected Metal library is connect, to realize non-magnetic metal second level sorting recycling, the second eddy current separator sand discharge port connects battle field, thus Realize husky sorting.

In the embodiment shown in fig. 1, the first shaking table, the second shaking table metal discharge port convey connection metal by material Library, to realize non-magnetic metal level-one, second level sorting recycling, the first shaking table, the second shaking table muddy water discharge port connect mud pit, Mud pit connects feed opening of press filter by pumping equipment, and filter press cake outlet connects mud field, to realize that mud sorts.

In the embodiment shown in fig. 1, the first vibrating-dewatering screen, the second vibrating-dewatering screen, third vibrating-dewatering screen, the 4th Vibrating-dewatering screen, mud pit, filter press are connect by Hydraulic transportation slot with clear water reserviors, to realize that water recycles.

In the embodiment shown in fig. 1, further, first crusher, the second crusher, third crusher are Hammer mill, first jigging machine, the second jigging machine are sawtooth pulsation jig, and the filter press is plate and frame type filter-press.

The beneficial effect of the utility model embodiment is: the utility model improves rubbish by reasonable disposition screening installation The applications such as the rubbish dregs of incinerator efficiency of separation, promotes the recycling of metal resource, and the sand sub-elected can be used for brickmaking, pave the way Occasion avoids waste and environmental pollution of the landfill disposal to land resource, has positive meaning to the development of economic society.

Obviously, the above embodiments of the present invention is merely examples for clearly illustrating the present invention, and It is not limitations of the embodiments of the present invention.It can also make on the basis of the above description other various forms of Variation changes, and there is no necessity and possibility to exhaust all the enbodiments.It is all in the spirit and principles of the utility model Within made any modifications, equivalent replacements, and improvements etc., should be included in the utility model claims protection scope it It is interior.

Claims (3)

1. a kind of waste incineration slag sorting disposing system, it is characterised in that: it includes charging equipment, the first magnetic separator, second Magnetic separator, third magnetic separator, the first crusher, the second crusher, third crusher, the first vibrating-dewatering screen, the second vibration are de- Water sieve, third vibrating-dewatering screen, the 4th vibrating-dewatering screen, the first jigging machine, the second jigging machine, the first rotary screen, second tin roller Sieve, the first shaking table, the second shaking table, the first eddy current separator, the second eddy current separator, mud pit, filter press, clinker field, Clear water reserviors, metal library, battle field, Ni Chang；

The clinker field connects charging equipment, and the charging equipment discharge port passes through belt conveyor and the first crusher feed-inlet Connection, the first magnetic separator of the belt conveyor top connection inhale iron end, and it is another that first magnetic separator unloads connection below iron end Belt conveyor, another second crusher feed-inlet of Belt Conveying band connection；

The clear water reserviors connect the first crusher, the second crusher feed-inlet, first crusher, second by pumping equipment Discharge hole of crusher connects the first jigging machine inlet by Hydraulic transportation slot, connects the second magnetic separation above the Hydraulic transportation slot Machine inhales iron end, and second magnetic separator, which unloads, connects the first vibrating-dewatering screen feed inlet, first vibrating-dewatering screen below iron end Discharge port connects metal library；

The online discharge port of first jigging machine connects the first rotary screen feed inlet, and the first jigging machine discharge port off the net passes through Hydraulic transportation slot connects the first shaking table feed inlet, and the first rotary screen sieve top discharge mouth connects the charging of the second vibrating-dewatering screen Mouthful, the first rotary screen sieve lower discharge port connects third crusher feed-inlet by Hydraulic transportation slot, and second vibration is de- Water sieve discharge port connects the first eddy current separation machine inlet, and the first eddy current separator metal discharge port connects metal Library；

The first eddy current separator slag discharge port connects third crusher feed-inlet, and the third discharge hole of crusher passes through Hydraulic transportation slot connects the second jigging machine inlet, and connection third magnetic separator inhales iron end above the Hydraulic transportation slot, and described the Three magnetic separators unload and connect third vibrating-dewatering screen feed inlet below iron end, and the third vibrating-dewatering screen discharge port connects metal Library；

The online discharge port connection second tin roller of second jigging machine sieves feed inlet, and the second jigging machine discharge port off the net passes through Hydraulic transportation slot connects the second shaking table feed inlet, and the second tin roller sieve sieve top discharge mouth connects the charging of the 4th vibrating-dewatering screen Mouthful, the second tin roller sieve sieve lower discharge port connects the second shaking table feed inlet, the 4th vibration dehydration by Hydraulic transportation slot It sifting out material mouth and connects the second eddy current separation machine inlet, the second eddy current separator metal discharge port connects metal library, The second eddy current separator sand discharge port connects battle field；

First shaking table, the second shaking table metal discharge port connect metal library, first shaking table, the second shaking table muddy water discharge port Mud pit is connected, the mud pit connects feed opening of press filter by pumping equipment, and the cake outlet of the filter press connects mud ?；

First vibrating-dewatering screen, the second vibrating-dewatering screen, third vibrating-dewatering screen, the 4th vibrating-dewatering screen, mud pit, pressure Filter is connect by Hydraulic transportation slot with the clear water reserviors.

2. a kind of waste incineration slag sorting disposing system according to claim 1, it is characterised in that: described first is broken Machine, the second crusher, third crusher are hammer mill.

3. a kind of waste incineration slag sorting disposing system according to claim 1, it is characterised in that: first jigging Machine, the second jigging machine are provided with two jigging machine parallel operations.