CN204262035U - Fuel waste residue recovery and processing system - Google Patents

Abstract

The utility model discloses a kind of fuel waste residue recovery and processing system, comprise the grid screen device using conveyer belt to connect, rotary strainer device, remove iron filings magnetic separator, material water screening device, disintegrating machine, wet concentration removes scrap iron removing device, jigging machine, shaking table, disc type drags for husky device, shake formula dewaterer, materials warehouse, fuel waste residue is by can recycling after the process of the utility model technological system, turn waste into wealth, landfill is gone to change into the raw material mode that can provide for construction and decoration by originally needing to waste a large amount of land resource, first resource exploitation repeatedly utilizes, develop with greatly reducing resource, protection of the environment, and water is as just a kind of medium in production process, can not repeated contamination water source, promote the well-being of mankind.

Description

Fuel waste residue recovery and processing system

Technical field

The utility model relates to environmental protection sciemtifec and technical sphere, is a kind of fuel waste residue recovery and processing system specifically.

Background technology

The mode utilizing the chemical fuel such as coal, oil and natural gas contained energy to generate electricity is referred to as thermal power generation, in China due to coal resources comparatively horn of plenty, coal resources are utilized to generate electricity as thermal power generation mode main, although thermal power generation function-stable, but there is a lot of problem needing us constantly to go solution: such as resource consumes excessively, resource utilization is extremely low, very big to environmental disruption, causes great pollution to environment;

Wherein because coal fuel source fuel is insufficient, have some residues of some cinders.Current most of heat power station is in order to save processing cost, reduce cost payout, directly cinder residue is poured in rivers, or with land-fill method directly by cinder landfill, although soil after landfill also decently can must grow some weeds, the cinder layer essence of deep layer is constant, it is still cinder residue, cannot change, and cinder remain can invasion and attack all the year round soil originally, cause soil constituent, soil texture to be originally seriously damaged.

Cinder residue land-fill method not only spoiled soil, also can severe contamination water source, containing a lot of harmful substance in cinder residue, during rainy day, in cinder residue, harmful substance mixes with underground water source along with water flow, affect water source, if things go on like this, the life of the mankind must be affected.Therefore are objects of the utility model research for the problems referred to above.

Utility model content

The purpose of this utility model is to provide a kind of fuel waste residue recovery and processing system; fuel waste residue is by can recycling after the process of the utility model technological system; turn waste into wealth; go landfill to change into the raw material mode that can provide for construction and decoration by originally needing to waste a large amount of land resource, first resource exploitation repeatedly utilizes, and develops with greatly reducing resource; protection of the environment; and water is as just a kind of medium in production process, can not repeated contamination water source, promote the well-being of mankind.

The technical solution of the utility model is: a kind of fuel waste residue recovery and processing system, comprises and uses the grid screen device of conveyer belt connection, rotary strainer device, removal iron filings magnetic separator, material water screening device, disintegrating machine, wet concentration to go scrap iron removing device, jigging machine, shaking table, disc type to drag for husky device, shake formula dewaterer, materials warehouse;

Described grid screen device is erected on a melt pit, described grid screen device comprises a taper feed bin, above described taper feed bin, erection has an oblique grid mesh screen, described grid mesh screen side and taper feed bin hinged, opposite side is connected with taper feed bin by spring stack, described grid mesh screen is provided with a vibrating motor, and described taper feed bin bottom is provided with the discharging opening of a circle;

Described rotary strainer device comprises a rotary strainer frame, in described rotary strainer frame, crossbearer has a drum sieve, described drum sieve has been covered with the rotary strainer hole for material screening on the surface, described drum sieve periphery erection has a fines to collect cylinder, described fines collects bottom of cylinder and is provided with a fines outlet, described drum sieve one end face is coarse fodder outlet, described drum sieve other end is material inlet, the coarse fodder outlet below of described drum sieve is provided with the coarse fodder conveyer belt for carrying coarse fodder, described drum sieve center line and horizontal line angle are 5 degree, and described drum sieve is driven by motor;

Described removal iron filings magnetic separator is lifted on above conveyer belt, comprise a hoisting frame, described hoisting frame two ends have respectively been longitudinally set with a cylinder, two cylinders are set with a belt conveyor jointly, a cylindrical magnetic iron block is folded with between two cylinders in belt conveyor, be positioned at belt conveyor and be longitudinally stained with a limited slip block on the surface, be positioned at belt conveyor one side-lower and be provided with iron filings deflector chute;

Described material water screening device is the current casing of one " people " font, and both sides, described current casing upper end are respectively connected with a water inlet pipe, is connected with a floating material deflector chute on the upside of described current casing, and described current casing two end is sediment discharging opening;

Described wet concentration is inhaled iron filings device and is comprised three rectangular channels side by side, the rectangular channel being positioned at front is erected at below the discharging opening of disintegrating machine, be positioned at middle rectangular channel erection and have a cylinder, the magnet for iron filings can be held is provided with in described cylinder, be positioned at bottom middle rectangular channel is rectangle mesh screen, be provided with fines bucket below described rectangle mesh screen, the rectangular channel being positioned at rear is iron filings groove, and described iron filings groove side is connected with iron filings deflector chute;

The jolting plate that described shaking table comprises shaking table base and can teetertotter, the longitudinal intaglio of described jolting plate upper surface has many for the groove cut of material screening particle, reduce successively from jolting plate top to bottom groove cut length, described jolting plate upper left side is placed with one for importing vertical four square grooves of material, the multiple rectangular opening for flowing out material of described vertical cubic bottom land end distribution, be positioned on the right side of jolting plate top and be longitudinally set with a distribution gutter, described distribution gutter bottom is hollow out, be positioned at distribution gutter and be arranged with the diversion sheet becoming miter angle with the gutter that distributes, the jolting plate side being positioned at groove cut end is provided with shaking table coarse fodder deflector chute, be positioned at jolting plate bottom and undertake a shaking table fines deflector chute,

Described disc type is dragged for husky device and is comprised a horizontal hopper, above described horizontal hopper, husky swiveling wheel is dragged in erection, describedly drag for husky swiveling wheel and comprise a swiveling wheel, described swiveling wheel is arranged with three fishing sand buckets, describedly drag for husky bucket bottom for the mesh screen of moisture content can be filtered, described in drag for husky swiveling wheel side and be provided with and drag for husky discharge bucket;

Described shake formula dewaterer comprises a dovetail groove, described dovetail groove has a vibrations bucket by spring stack erection, a vibrations mesh screen is tiltedly covered with in described vibrations bucket, described vibrations bucket is added is provided with two vibrating motors, described vibrations bucket end is provided with dehydration discharge bucket, and current are passed to transfer pond by pipeline by described dovetail groove;

The discharging opening of grid screen device is by the material inlet of conveyer belt by mass transport to a first rotary strainer device, fine material is delivered to material water screening device by conveyer belt by the fines outlet of the first rotary strainer device, set up First above conveyer belt between first rotary strainer device and material water screening device and remove iron filings magnetic separator, thick mass transport is carried out fragmentation to First disintegrating machine by conveyer belt by the coarse fodder outlet of described first rotary strainer device, mass transport after fragmentation is returned on the grid mesh screen of grid screen device by First disintegrating machine, set up second above conveyer belt between described first rotary strainer device and First disintegrating machine and remove iron filings magnetic separator, sediment is circulated to the rectangular front groove that wet concentration inhales iron filings device by the sediment discharging opening of described material water screening device, iron filings in material are rotated by the absorption of the cylinder of intermediate rectangular groove goes out from the delivery of iron filings deflector chute to the rectangular channel of rear, leftover materials flow in the feed bin of First jigging machine by the rectangle screen filtration of intermediate rectangular trench bottom, fine granular materials flow to the feed bin of second jigging machine from the upper end discharging opening of First jigging machine, the material inlet that fine particle material flow to second rotary strainer device from second jigging machine upper end discharging screens again, coarse granule material is respectively from First, second jigging machine bottom thick material discharging opening is circulated in vertical four square grooves of first shaking table, coarseparticulate stream drops down onto on the jolting plate of first shaking table, coarse granule material is through the jolting plate vibrations screening of first shaking table, coarse granule spills out from many cuts of the first shaking table shaking table coarse fodder deflector chute of beating, fine granular materials flow to transfer pond from the fines deflector chute of the first shaking table by pipeline, material stream passed in transfer pond to disc type drags for the horizontal hopper of husky device, fine material in second rotary strainer device drags in the horizontal hopper of husky device by fines outlet stream to disc type, the material that disc type is dragged in the horizontal hopper of husky device filters out moisture content by dragging for husky swiveling wheel, the vibrations bucket being circulated to shake formula dewaterer dewaters through vibrated and dehydrated machine, materials warehouse is passed to by conveyor belt flow.

In order to extract the higher material of particle purity, the coarse fodder outlet of second rotary strainer device branches to second, the 3rd shaking table by deflector chute, and fine particle material is guided to transfer pond by the shaking table fines deflector chute of second, the 3rd shaking table.

For the ease of implementing, the material flow in transfer pond is delivered to disc type by material elevator and drags in the horizontal hopper of husky device.

The utility model has the advantage of: one is fuel waste residue by can recycling after the process of the utility model technological system, turn waste into wealth, landfill is gone to change into the raw material mode that can provide for construction and decoration by originally needing to waste a large amount of land resource, first resource exploitation repeatedly utilizes, develop with greatly reducing resource, protection of the environment, and in production process water as just a kind of medium, can not repeated contamination water source, promote the well-being of mankind, two be use conveyer belt to connect grid screen device, rotary strainer device, remove iron filings magnetic separators, material water screening device, disintegrating machine, wet concentration go that scrap iron removing device, jigging machine, shaking table, disc type drag for husky device, shake formula dewaterer, materials warehouse form a huge fuel waste residue recovery and processing system, the original innovative design of system, can process fuel waste residue expeditiously, three is that the discharging opening of grid screen device is by the material inlet of conveyer belt by mass transport to a first rotary strainer device, fine material is delivered to material water screening device by conveyer belt by the fines outlet of the first rotary strainer device, set up First above conveyer belt between first rotary strainer device and material water screening device and remove iron filings magnetic separator, thick mass transport is carried out fragmentation to First disintegrating machine by conveyer belt by the coarse fodder outlet of described first rotary strainer device, mass transport after fragmentation is returned on the grid mesh screen of grid screen device by First disintegrating machine, set up second above conveyer belt between described first rotary strainer device and First disintegrating machine and remove iron filings magnetic separator, sediment is circulated to the rectangular front groove that wet concentration inhales iron filings device by the sediment discharging opening of described material water screening device, iron filings in material are rotated by the absorption of the cylinder of intermediate rectangular groove goes out from the delivery of iron filings deflector chute to the rectangular channel of rear, leftover materials flow in the feed bin of First jigging machine by the rectangle screen filtration of intermediate rectangular trench bottom, fine granular materials flow to the feed bin of second jigging machine from the upper end discharging opening of First jigging machine, the material inlet that fine particle material flow to second rotary strainer device from second jigging machine upper end discharging screens again, coarse granule material is respectively from First, second jigging machine bottom thick material discharging opening is circulated in vertical four square grooves of first shaking table, coarseparticulate stream drops down onto on the jolting plate of first shaking table, coarse granule material is through the jolting plate vibrations screening of first shaking table, coarse granule spills out from many cuts of the first shaking table shaking table coarse fodder deflector chute of beating, fine granular materials flow to transfer pond from the fines deflector chute of the first shaking table by pipeline, material stream passed in transfer pond to disc type drags for the horizontal hopper of husky device, fine material in second rotary strainer device drags in the horizontal hopper of husky device by fines outlet stream to disc type, the material that disc type is dragged in the horizontal hopper of husky device filters out moisture content by dragging for husky swiveling wheel, the vibrations bucket being circulated to shake formula dewaterer dewaters through vibrated and dehydrated machine, materials warehouse is passed to by conveyor belt flow.This technological process of production is reasonable in design rigorous, and water, only as a kind of circulating medium, can recycle, greatly reduce water pollutions.

Accompanying drawing explanation

Fig. 1 is the fuel waste residue recovery and processing system schematic flow sheet in embodiment.

Fig. 2 is the main TV structure schematic diagram of rotary strainer device in embodiment.

Fig. 3 is the main TV structure schematic diagram of rotary strainer device in embodiment.

Fig. 4 is the rotary strainer device side-looking structural representation in embodiment.

Fig. 5 is the removal iron filings magnetic separator structural representation in embodiment.

Fig. 6 is the material water screening device structural representation in embodiment.

Fig. 7 is that the wet concentration in embodiment inhales iron filings apparatus structure schematic diagram.

Fig. 8 is the main TV structure schematic diagram of shaking table in embodiment.

Fig. 9 is the shaking table side-looking structural representation in embodiment.

Figure 10 is that the disc type in embodiment drags for the main TV structure schematic diagram of husky device.

Figure 11 is that the disc type in embodiment drags for husky device side-looking structural representation.

Figure 12 is the structural representation shaking formula dewaterer in embodiment.

Detailed description of the invention

For above-mentioned feature and advantage of the present utility model can be become apparent, special embodiment below, and coordinate accompanying drawing, be described in detail below, but the utility model is not limited to this.

With reference to legend 1 ~ 12, a kind of fuel waste residue recovery and processing system, comprises and uses the grid screen device 1 of conveyer belt connection, rotary strainer device 2, removal iron filings magnetic separator 3, material water screening device 4, disintegrating machine 10, wet concentration to go scrap iron removing device 5, jigging machine 9, shaking table 6, disc type to drag for husky device 7, shake formula dewaterer 8, materials warehouse;

Described grid screen device 1 is erected on a melt pit 101, described grid screen device comprises a taper feed bin 102, above described taper feed bin 102, erection has an oblique grid mesh screen 103, described grid mesh screen 103 side and taper feed bin 102 hinged, opposite side is connected with taper feed bin 102 by spring stack 104, described grid mesh screen 103 is provided with a vibrating motor 105, and described taper feed bin 102 bottom is provided with the discharging opening of a circle;

Described rotary strainer device 2 comprises a rotary strainer frame, in described rotary strainer frame, crossbearer has a drum sieve 201, described drum sieve 201 has been covered with the rotary strainer hole 202 for material screening on the surface, described drum sieve periphery erection has a fines to collect cylinder 203, described fines collects bottom cylinder 203 and is provided with a fines outlet 204, described drum sieve 201 1 end face is coarse fodder outlet, described drum sieve other end is material inlet, the coarse fodder outlet below of described drum sieve is provided with the coarse fodder conveyer belt 207 for carrying coarse fodder, described drum sieve 201 center line and horizontal line angle are 5 degree, described drum sieve 201 is driven by motor,

Described removal iron filings magnetic separator 3 is lifted on above conveyer belt, comprise a hoisting frame 301, described hoisting frame 301 two ends have respectively been longitudinally set with a cylinder 302, two cylinders are set with jointly a belt conveyor 303, a cylindrical magnetic iron block 304 is folded with between two cylinders 302 in belt conveyor 303, be positioned at belt conveyor 303 and be longitudinally stained with a limited slip block 305 on the surface, be positioned at belt conveyor one side-lower and be provided with iron filings deflector chute 306;

Described material water screening device 4 is the current casing 401 of one " people " font, both sides, described current casing 401 upper end are respectively connected with a water inlet pipe 402, be connected with a floating material deflector chute 403 on the upside of described current casing 401, described current casing two end is sediment discharging opening;

Described wet concentration is inhaled iron filings device 5 and is comprised three rectangular channels 501 side by side, the rectangular channel 501 being positioned at front is erected at below the discharging opening of disintegrating machine, be positioned at middle rectangular channel erection and have a cylinder 502, the magnet 503 for iron filings can be held is provided with in described cylinder 502, be positioned at bottom middle rectangular channel is rectangle mesh screen 504, be provided with fines bucket 505 below described rectangle mesh screen 504, the rectangular channel being positioned at rear is iron filings groove 506, and described iron filings groove 506 side is connected with iron filings deflector chute;

The jolting plate 602 that described shaking table 6 comprises shaking table base 601 and can teetertotter, the longitudinal intaglio of described jolting plate 602 upper surface has many for the groove cut 603 of material screening particle, reduce successively from jolting plate 602 top to bottom groove cut length, described jolting plate 602 upper left side is placed with one for importing vertical four square grooves 604 of material, the multiple rectangular opening for flowing out material of described vertical four square groove 604 bottom distribution, be positioned on the right side of jolting plate top and be longitudinally set with a distribution gutter 605, described distribution gutter 605 bottom is hollow out, be positioned at distribution gutter and be arranged with the diversion sheet 609 with the gutter 605 one-tenth miter angle that distributes, jolting plate 602 side being positioned at groove cut end is provided with shaking table coarse fodder deflector chute 606, be positioned at jolting plate 602 bottom and undertake a shaking table fines deflector chute 607,

Described disc type is dragged for husky device 7 and is comprised a horizontal hopper 701, above described horizontal hopper 701, husky swiveling wheel 702 is dragged in erection, describedly drag for husky swiveling wheel 702 and comprise a swiveling wheel 703, described swiveling wheel 703 is arranged with three fishing sand buckets 704, describedly drag for for the mesh screen of moisture content can be filtered bottom husky bucket 704, described in drag for husky swiveling wheel 702 side and be provided with and drag for husky discharge bucket;

Described shake formula dewaterer 8 comprises a dovetail groove 801, described dovetail groove 801 has a vibrations bucket 802 by spring stack erection, a vibrations mesh screen 803 is tiltedly covered with in described vibrations bucket 802, described vibrations bucket 802 is added is provided with two vibrating motors, described vibrations bucket 802 end is provided with dehydration discharge bucket 805, and current are passed to transfer pond by pipeline by described dovetail groove 801;

The discharging opening of grid screen device 1 is by the material inlet of conveyer belt by mass transport to a first rotary strainer device, fine material is delivered to material water screening device 4 by conveyer belt by the fines outlet of the first rotary strainer device, set up First above conveyer belt between first rotary strainer device and material water screening device 4 and remove iron filings magnetic separator, thick mass transport is carried out fragmentation to First disintegrating machine by conveyer belt by the coarse fodder outlet of described first rotary strainer device, mass transport after fragmentation is returned on the grid mesh screen 1 of grid screen device by First disintegrating machine, set up second above conveyer belt between described first rotary strainer device and First disintegrating machine and remove iron filings magnetic separator, sediment is circulated to the rectangular front groove that wet concentration inhales iron filings device 5 by the sediment discharging opening of described material water screening device 4, iron filings in material are rotated by the absorption of the cylinder of intermediate rectangular groove goes out from the delivery of iron filings deflector chute to the rectangular channel of rear, leftover materials flow in the feed bin of First jigging machine by the rectangle screen filtration of intermediate rectangular trench bottom, fine granular materials flow to the feed bin of second jigging machine from the upper end discharging opening of First jigging machine, the material inlet that fine particle material flow to second rotary strainer device from second jigging machine upper end discharging screens again, coarse granule material is respectively from First, second jigging machine bottom thick material discharging opening is circulated in vertical four square grooves of first shaking table, coarseparticulate stream drops down onto on the jolting plate of first shaking table, coarse granule material is through the jolting plate vibrations screening of first shaking table, coarse granule spills out from many cuts of the first shaking table shaking table coarse fodder deflector chute of beating, fine granular materials flow to transfer pond from the fines deflector chute of the first shaking table by pipeline, material stream passed in transfer pond to disc type drags for the horizontal hopper of husky device 7, fine material in second rotary strainer device drags in the horizontal hopper of husky device 7 by fines outlet stream to disc type, the material that disc type is dragged in the horizontal hopper of husky device 7 filters out moisture content by dragging for husky swiveling wheel, the vibrations bucket being circulated to shake formula dewaterer 8 dewaters through vibrated and dehydrated machine, materials warehouse is passed to by conveyor belt flow.The original innovative design of system, fuel waste residue can be processed expeditiously in one embodiment, in order to extract the higher material of particle purity, the coarse fodder outlet of second rotary strainer device branches to second, the 3rd shaking table by deflector chute, and fine particle material is guided to transfer pond by the shaking table fines deflector chute of second, the 3rd shaking table.

In one embodiment, for the ease of implementing, the material flow in transfer pond is delivered to disc type by material elevator and drags in the horizontal hopper of husky device.

This technological process of production is reasonable in design rigorous, and water, only as a kind of circulating medium, can recycle, greatly reduce water pollutions.

Fuel waste residue is become the powdered granule of recoverable, powdered granule (moisture 8%) after process adds a small amount of mud (moisture 35%), quantitative cement is added again from vertical cement storage pot, after dry companion, add water and again stir into brick-making raw material, its sandy soil, mud, cement (concrete), the mixing ratio of water is: 85:4:10:1, raw material conveyer belt after stirring is delivered in distribution cabins, utilize brick machine production line compressing, place 12 hours, stockyard is sent to stack bricks after condensation, water seasoning seven days, can be used for walling unit after 20 days to use, turn waste into wealth, discarded object is become the raw material that can reuse, huge contribution has been done to environment.

The foregoing is only preferred embodiment of the present utility model, all equalizations done according to the utility model claim change and modify, and all should belong to covering scope of the present utility model.

Claims (3)

1. a fuel waste residue recovery and processing system, comprise and use the grid screen device of conveyer belt connection, rotary strainer device, removal iron filings magnetic separator, material water screening device, disintegrating machine, wet concentration to go scrap iron removing device, jigging machine, shaking table, disc type to drag for husky device, shake formula dewaterer, materials warehouse, it is characterized in that:

Described grid screen device is erected on a melt pit, described grid screen device comprises a taper feed bin, above described taper feed bin, erection has an oblique grid mesh screen, described grid mesh screen side and taper feed bin hinged, opposite side is connected with taper feed bin by spring stack, described grid mesh screen is provided with a vibrating motor, and described taper feed bin bottom is provided with the discharging opening of a circle;

Described rotary strainer device comprises a rotary strainer frame, in described rotary strainer frame, crossbearer has a drum sieve, described drum sieve has been covered with the rotary strainer hole for material screening on the surface, described drum sieve periphery erection has a fines to collect cylinder, described fines collects bottom of cylinder and is provided with a fines outlet, described drum sieve one end face is coarse fodder outlet, described drum sieve other end is material inlet, the coarse fodder outlet below of described drum sieve is provided with the coarse fodder conveyer belt for carrying coarse fodder, described drum sieve center line and horizontal line angle are 5 degree, and described drum sieve is driven by motor;

Described removal iron filings magnetic separator is lifted on above conveyer belt, comprise a hoisting frame, described hoisting frame two ends have respectively been longitudinally set with a cylinder, two cylinders are set with a belt conveyor jointly, a cylindrical magnetic iron block is folded with between two cylinders in belt conveyor, be positioned at belt conveyor and be longitudinally stained with a limited slip block on the surface, be positioned at belt conveyor one side-lower and be provided with iron filings deflector chute;

Described material water screening device is the current casing of one " people " font, and both sides, described current casing upper end are respectively connected with a water inlet pipe, is connected with a floating material deflector chute on the upside of described current casing, and described current casing two end is sediment discharging opening;

Described wet concentration is inhaled iron filings device and is comprised three rectangular channels side by side, the rectangular channel being positioned at front is erected at below the discharging opening of disintegrating machine, be positioned at middle rectangular channel erection and have a cylinder, the magnet for iron filings can be held is provided with in described cylinder, be positioned at bottom middle rectangular channel is rectangle mesh screen, be provided with fines bucket below described rectangle mesh screen, the rectangular channel being positioned at rear is iron filings groove, and described iron filings groove side is connected with iron filings deflector chute;

The jolting plate that described shaking table comprises shaking table base and can teetertotter, the longitudinal intaglio of described jolting plate upper surface has many for the groove cut of material screening particle, reduce successively from jolting plate top to bottom groove cut length, described jolting plate upper left side is placed with one for importing vertical four square grooves of material, the multiple rectangular opening for flowing out material of described vertical cubic bottom land end distribution, be positioned on the right side of jolting plate top and be longitudinally set with a distribution gutter, described distribution gutter bottom is hollow out, be positioned at distribution gutter and be arranged with the diversion sheet becoming miter angle with the gutter that distributes, the jolting plate side being positioned at groove cut end is provided with shaking table coarse fodder deflector chute, be positioned at jolting plate bottom and undertake a shaking table fines deflector chute,

Described disc type is dragged for husky device and is comprised a horizontal hopper, above described horizontal hopper, husky swiveling wheel is dragged in erection, describedly drag for husky swiveling wheel and comprise a swiveling wheel, described swiveling wheel is arranged with three fishing sand buckets, describedly drag for husky bucket bottom for the mesh screen of moisture content can be filtered, described in drag for husky swiveling wheel side and be provided with and drag for husky discharge bucket;

Described shake formula dewaterer comprises a dovetail groove, described dovetail groove has a vibrations bucket by spring stack erection, a vibrations mesh screen is tiltedly covered with in described vibrations bucket, described vibrations bucket is added is provided with two vibrating motors, described vibrations bucket end is provided with dehydration discharge bucket, and current are passed to transfer pond by pipeline by described dovetail groove;

The discharging opening of grid screen device is by the material inlet of conveyer belt by mass transport to a first rotary strainer device, fine material is delivered to material water screening device by conveyer belt by the fines outlet of the first rotary strainer device, set up First above conveyer belt between first rotary strainer device and material water screening device and remove iron filings magnetic separator, thick mass transport is carried out fragmentation to First disintegrating machine by conveyer belt by the coarse fodder outlet of described first rotary strainer device, mass transport after fragmentation is returned on the grid mesh screen of grid screen device by First disintegrating machine, set up second above conveyer belt between described first rotary strainer device and First disintegrating machine and remove iron filings magnetic separator, sediment is circulated to the rectangular front groove that wet concentration inhales iron filings device by the sediment discharging opening of described material water screening device, iron filings in material are rotated by the absorption of the cylinder of intermediate rectangular groove goes out from the delivery of iron filings deflector chute to the rectangular channel of rear, leftover materials flow in the feed bin of First jigging machine by the rectangle screen filtration of intermediate rectangular trench bottom, fine granular materials flow to the feed bin of second jigging machine from the upper end discharging opening of First jigging machine, the material inlet that fine particle material flow to second rotary strainer device from second jigging machine upper end discharging screens again, coarse granule material is respectively from First, second jigging machine bottom thick material discharging opening is circulated in vertical four square grooves of first shaking table, coarseparticulate stream drops down onto on the jolting plate of first shaking table, coarse granule material is through the jolting plate vibrations screening of first shaking table, coarse granule spills out from many cuts of the first shaking table shaking table coarse fodder deflector chute of beating, fine granular materials flow to transfer pond from the fines deflector chute of the first shaking table by pipeline, material stream passed in transfer pond to disc type drags for the horizontal hopper of husky device, fine material in second rotary strainer device drags in the horizontal hopper of husky device by fines outlet stream to disc type, the material that disc type is dragged in the horizontal hopper of husky device filters out moisture content by dragging for husky swiveling wheel, the vibrations bucket being circulated to shake formula dewaterer dewaters through vibrated and dehydrated machine, materials warehouse is passed to by conveyor belt flow.

2. a kind of fuel waste residue recovery and processing system according to claim 1, it is characterized in that: the coarse fodder outlet of second rotary strainer device branches to second, the 3rd shaking table by deflector chute, and fine particle material is guided to transfer pond by the shaking table fines deflector chute of second, the 3rd shaking table.

3. a kind of fuel waste residue recovery and processing system according to claim 1, is characterized in that: the material flow in transfer pond is delivered to disc type by material elevator and drags in the horizontal hopper of husky device.