CN104907319A - Garbage disposal device - Google Patents

Abstract

The invention provides a garbage disposal device. The garbage disposal device comprises a feeding mechanism, a garbage reaction mechanism and a recycling mechanism, wherein the feeding mechanism is used for conveying raw material garbage to the garbage reaction mechanism; the raw material garbage performs chemical reaction in the garbage reaction mechanism so as to generate gas and solid products, and the gas and solid products can enter the recycling mechanism from the garbage reaction mechanism to recycle. By adopting the structure, the technical problems that the raw material garbage covers a large area of lands, pollutes lands and underground water, destroys air and hurts the health are solved; meanwhile, substances can be recycled and can be turned into wealth from waste, so that the energy source is saved greatly.

Description

Refuse disposal installation

Technical field

The present invention relates to the technical field of the equipment that garbage disposal uses, especially relate to refuse disposal installation.

Background technology

House refuse refers to the solid waste produced in daily life, generally comprises: recyclable rubbish, garbage and other rubbish.Existing Prediction for Solid Waste Treatment Technology mainly comprises composting technology, Landfill and incineration technology, etc.Composting technology is difficult to the quality controlling composting material, and the workload of fly eradication deodorizing is comparatively large, and the fermentation period of compost is longer; Landfill waste can take a large amount of soils, and is easy to contaminated land and underground water; Burn away the refuse, a large amount of pernicious gases can be produced, not only contaminated environment, and can damage healthy.

Summary of the invention

The object of the present invention is to provide refuse disposal installation, to solve, being difficult to of existing in prior art controls the quality of composting material, the compost fermentation cycle is longer, fly eradication deodorizing workload is comparatively large, landfill takies a large amount of soils and contaminated land and underground water, burning contaminated air and damages healthy technical problem.

A kind of refuse disposal installation provided by the invention, comprise: feeding mechanism, rubbish reaction mechanism and recovering mechanism, described feeding mechanism is used for raw material rubbish to be delivered to described rubbish reaction mechanism, described raw material rubbish carries out chemical reaction in described rubbish reaction mechanism, generate gas and solid product, and gas and solid product can enter described recovering mechanism from described rubbish reaction mechanism recycles.

Further, described rubbish reaction mechanism comprises dry distillation reactor still and heater, and described heater enters the raw material rubbish of described dry distillation reactor still for heating;

Described dry distillation reactor still is provided with charging aperture, discharging opening and blast pipe, and described charging aperture and described discharging opening are separately positioned on the two ends of described dry distillation reactor still, and described discharging opening is communicated with described recovering mechanism;

One end of described blast pipe is arranged on the sidewall of described dry distillation reactor still, and the other end is communicated with described recovering mechanism;

Described charging aperture is connected with described feeding mechanism, and raw material rubbish enters described dry distillation reactor still from described charging aperture, and the gas that after chemical reaction generates is discharged via described blast pipe, and the solid product of generation is discharged via described discharging opening.

Further, described rubbish reaction mechanism also comprises spiral propeller and the drive system for driving described spiral propeller to rotate; Described spiral propeller is arranged on the inside of described dry distillation reactor still, and can in the inner rotation of described dry distillation reactor still, for shifting the raw material rubbish entering described dry distillation reactor still onto.

Further, also comprise support, described support comprises the first gripper shoe, the second gripper shoe and the 3rd gripper shoe; Described recovering mechanism comprises gas collector and solid product recovery system;

Described gas collector is arranged in described 3rd gripper shoe, and described blast pipe is all communicated with described gas collector with described solid product recovery system;

The two ends of described 3rd gripper shoe are connected with described first gripper shoe and described second gripper shoe respectively, and described first gripper shoe is arranged between described blast pipe and described charging aperture, and described second gripper shoe is arranged between described blast pipe and described discharging opening;

Described dry distillation reactor still is successively through described first gripper shoe and described second gripper shoe;

Described discharging opening is communicated with the inside of described solid product recovery system.

Further, described solid product recovery system comprises the solid pipe of exhaust row, solid product conveyer and storage reservoir;

One end of the solid pipe of described exhaust row is connected with described gas collector, and the other end is connected with one end of described solid product conveyer, and the other end of described solid product conveyer is connected with described storage reservoir;

Described discharging opening is communicated with the described inside being vented solid pipe.

Further, described solid product recovery system also comprises heat exchanger, and described heat exchanger is set in the outside of described solid product conveyer, for cooling solid product.

Further, described feeding mechanism comprises loader, feeder and accumulator;

Described feeder runs through described gas collector, and one end of described feeder is connected with described loader, and the other end is connected with described accumulator, and described accumulator is communicated with described charging aperture.

Further, also comprise steam pipe and steam pipeline, one end of described steam pipe is arranged on the sidewall of described feeder, and the other end is communicated with one end of described steam pipeline, and the bottom that the other end and the described row of exhaust of described steam pipeline 211 consolidate pipe is communicated with.

Further, described loader comprises feed hopper, material chamber, hydraulic pressure are cut somebody's hair, resistance material knife rest and relaying hopper;

Described feed hopper is arranged on the sidewall in described material chamber, and is communicated with the inside in described material chamber; The one end in described material chamber is communicated with described relaying hopper, and described relaying hopper is communicated with described feeder;

Described resistance material knife rest is arranged on the inside in described material chamber, and between described relaying hopper and described feed hopper, for raw material rubbish is broken into fragment;

Described hydraulic pressure is cut somebody's hair and is arranged on the other end in described material chamber, for raw material rubbish is pushed to described resistance material knife rest.

Further, comprise multiple described rubbish reaction mechanism, described feeding mechanism can to each described rubbish reaction mechanism transferring raw material rubbish, and described recovering mechanism can reclaim gas and the solid product of each described rubbish reaction mechanism generation.

Compared with prior art, the beneficial effect that the present invention has is:

Refuse disposal installation provided by the invention, comprise feeding mechanism, rubbish reaction mechanism and recovering mechanism, chemical reaction can be there is in the raw material rubbish entered from feeding mechanism in rubbish reaction mechanism, form gas and solid product, these gases and solid product enter recovering mechanism, recycle; Adopt said structure, solve that raw material rubbish land occupation is more, contaminated land and underground water, destruction air and damage healthy technical problem, meanwhile, achieve recycling of material, turn waste into wealth, saved the energy widely.

Accompanying drawing explanation

In order to be illustrated more clearly in the specific embodiment of the invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in detailed description of the invention or description of the prior art below, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The structural representation of the refuse disposal installation that Fig. 1 provides for the embodiment of the present invention.

Reference numeral:

1-loader 2-feeder 3-accumulator

4-dry distillation reactor still 5-drive system 6-gas collector

7-solid product recovery system

11-feed hopper 12-expects that chamber 13-hydraulic pressure is cut somebody's hair

14-relaying hopper 15-resistance material knife rest 21-steam pipe

41-charging aperture 42-spiral propeller 43-discharging opening

44-blast pipe 45-heater 51-motor

52-decelerator 53-chain wheel set 71-is vented the solid pipe of row

72-solid product conveyer 73-storage reservoir 74-heat exchanger

211-steam pipeline

Detailed description of the invention

The structural representation of the refuse disposal installation that Fig. 1 provides for the embodiment of the present invention.As shown in Figure 1, a kind of refuse disposal installation that the present embodiment provides, comprise: feeding mechanism, rubbish reaction mechanism and recovering mechanism, feeding mechanism is used for raw material rubbish to be delivered to rubbish reaction mechanism, raw material rubbish carries out chemical reaction in rubbish reaction mechanism, generate gas and solid product, and gas and solid product can enter recovering mechanism from rubbish reaction mechanism recycles.

Raw material rubbish will first remove stone class material and metal, and then puts into feeding mechanism, enters rubbish reaction mechanism carry out chemical reaction via feeding mechanism, is then reclaimed the gas and solid product that generate by recovering mechanism.

The Main Function of feeding mechanism is inside raw material rubbish being delivered to rubbish reaction mechanism, and therefore, every mechanism that can realize above-mentioned effect can as the feeding mechanism of the present embodiment indication.

The Main Function of rubbish reaction mechanism makes raw material rubbish chemical reaction occur within it thus generates nontoxic gas and solid product, and therefore, every mechanism that can realize above-mentioned effect can as the rubbish reaction mechanism of the present embodiment indication.Rubbish reaction mechanism can have multiple, also can have one, and preferably, rubbish reaction mechanism has multiple, and in parallel between each rubbish reaction mechanism, that is, each rubbish reaction mechanism all can independent operating; Adopt multiple rubbish reaction mechanism can accelerate the treatment effeciency of rubbish, save time.It should be noted that, each rubbish reaction mechanism is all communicated with recovering mechanism with feeding mechanism.

The Main Function of recovering mechanism reclaims storage, recycling gas and solid product, it can be connected with the mechanism of other utilization gas and solid product, thus reach the object utilizing gas and solid product, therefore, every mechanism that can meet above-mentioned effect can as the recovering mechanism of the present embodiment indication.

Connection between feeding mechanism, rubbish reaction mechanism, recovering mechanism three is all sealings, thus guarantee there is no oxygen in rubbish reaction mechanism, raw material rubbish is made to carry out chemical reaction in the absence of oxygen, avoid generating dioxin, can guarantee that the gas generated is nontoxic so further, can not contaminated air.

The refuse disposal installation that the present embodiment provides, comprise feeding mechanism, rubbish reaction mechanism and recovering mechanism, chemical reaction can be there is in the raw material rubbish entered from feeding mechanism in rubbish reaction mechanism, form gas and solid product, these gases and solid product enter recovering mechanism, recycle; Solve that raw material rubbish land occupation is more, contaminated land and underground water, destruction air and damage healthy technical problem, achieve recycling of material, turn waste into wealth, saved the energy widely.

On the basis of above-described embodiment, particularly, rubbish reaction mechanism comprises dry distillation reactor still 4 and heater 45, and heater 45 is for heating the raw material rubbish entering dry distillation reactor still 4; Dry distillation reactor still 4 is provided with charging aperture 41, discharging opening 43 and blast pipe 44, charging aperture 41 and discharging opening 43 are separately positioned on the two ends of dry distillation reactor still 4, and discharging opening 43 is communicated with recovering mechanism; One end of blast pipe 44 is arranged on the sidewall of dry distillation reactor still 4, and the other end is communicated with recovering mechanism; Charging aperture 41 is connected with feeding mechanism, and raw material rubbish enters dry distillation reactor still 4 from charging aperture 41, and the gas that after chemical reaction generates is discharged via blast pipe 44, and the solid product of generation is discharged via discharging opening 43.

Under the condition of isolated air, there is kinetics, pyrolysis, condensation and carburizing reagent in raw material rubbish in dry distillation reactor still 4, thus generating steam, combustible gas, oil gas and solid-state charcoal, etc., the clean energy resource that can reuse.

The Main Function of heater 45 makes it that dry distillation reactor occur to the heating of raw material rubbish, and heater 45 can be arranged on the inside of dry distillation reactor still 4, also can be arranged on the outside of dry distillation reactor still 4; As the preferred scheme of one, heater 45 is set in the outside of dry distillation reactor still 4, can not only play the effect of heating like this, but also heater 45 can be avoided to be arranged on inside, affects the destructive distillation of raw material rubbish and destructive distillation to the corrosion of heater 45.

Heater 45 can select electrical heating, and gas also can be selected to heat; Electrical heating can adopt: electromagnetic wave, electrically heated rod, intermediate frequency furnace, plasma etc., and when adopting electrically heated rod, electrically heated rod is arranged on dry distillation reactor still 4 both sides; When adopting electromagnetic wave, preferably, electromagnetic wire is wrapped on the lateral wall of dry distillation reactor still 4; If adopt gas heating, then in the bracket heat-insulation layer is set on the component holding dry distillation reactor still 4, without the need to being arranged on each dry distillation reactor still 4.

On the basis of above-described embodiment, particularly, rubbish reaction mechanism also comprises spiral propeller 42 and the drive system 5 for driving spiral propeller 42 to rotate; Spiral propeller 42 is arranged on the inside of dry distillation reactor still 4, and can in the inner rotation of dry distillation reactor still 4, for shifting the raw material rubbish entering dry distillation reactor still 4 onto.

The Main Function of spiral propeller 42 is that the raw material rubbish entering dry distillation reactor still 4 from charging aperture 41 is transported to discharging opening 43, in the process, part gas is discharged from blast pipe 44, remaining gas and solid-state charcoal are discharged from discharging opening 43, and all gas and solid-state charcoal all enter recovering mechanism, recycle.

The Main Function of drive system provides power to spiral propeller 42, thus spiral propeller 42 is moved, and therefore, every mechanism that can function as described above can as the drive system of the present embodiment indication; Drive system can comprise motor 51, decelerator 52 and chain wheel set 53, the output shaft of motor 51 is connected with the power shaft of decelerator 52, the output shaft of decelerator 51 is connected with the power shaft of chain wheel set 53, the output shaft of chain wheel set 53 is connected with the power shaft of spiral propeller 42, thus realizes being with dynamic spiral propeller 42 to move.

Spiral propeller 42 and drive system are set, raw material rubbish, intermediate products and solid-state charcoal can be realized and automatically move in the inside of dry distillation reactor still 4, without the need to human assistance, improve the treatment effeciency of raw material rubbish.

On the basis of above-described embodiment, particularly, also comprise support, support comprises the first gripper shoe, the second gripper shoe and the 3rd gripper shoe; Recovering mechanism comprises gas collector 6 and solid product recovery system 7; Gas collector 6 is arranged in the 3rd gripper shoe, and blast pipe 44 is all communicated with gas collector 6 with solid product recovery system 7; The two ends of the 3rd gripper shoe are connected with the first gripper shoe and the second gripper shoe respectively, and the first gripper shoe is arranged between blast pipe 44 and charging aperture 41, and the second gripper shoe is arranged between blast pipe 44 and discharging opening 43; Dry distillation reactor still 4 is successively through the first gripper shoe and the second gripper shoe; Discharging opening 43 is communicated with the inside of solid product recovery system 7.

First gripper shoe and the second gripper shoe be arranged in parallel, and the 3rd gripper shoe is arranged between the first gripper shoe and the second gripper shoe, and is fixedly connected with the second gripper shoe with the first gripper shoe; Support can also comprise other three gripper shoes, such six gripper shoes are stitched together formation casing, dry distillation reactor still 4 passes the first gripper shoe and second gripper shoe of this casing, thus make the major part of dry distillation reactor still 4 all be arranged in this casing, further by dry distillation reactor still 4 and air exclusion.

Gas collector 6 is for storing the gas overflowed in dry distillation reactor still 4, in order to utilize gas better, gas collector 6 can also connect gas gathering manifold, cyclone dust collectors, cooling tower, gas storage holder, jet dynamic control successively, and combustible gas can be changed into electric energy generating online by jet dynamic control; And isolated oil pressure can be entered oil sump through equipment such as oil-water separators by the mixture of the oil entered in cooling tower and water.

Because a part of gas formed in dry distillation reactor still 4 enters gas collector 6 from blast pipe 44, another part gas can overflow from discharging opening 43 and enter solid product recovery system 7, therefore, solid product recovery system 7 is communicated with gas collector 6, thus reclaiming the gas entering solid product recovery system 7 inside, this just efficiently avoid the waste of gas.

On the basis of above-described embodiment, particularly, solid product recovery system 7 comprises exhaust row solid pipe 71, solid product conveyer 72 and storage reservoir 73; One end of the solid pipe 71 of exhaust row is connected with gas collector 6, and the other end is connected with one end of solid product conveyer 72, and the other end of solid product conveyer 72 is connected with storage reservoir 73; Discharging opening 43 is communicated with the inside of arranging solid pipe 71.

The discharging opening 43 of dry distillation reactor still 4 is arranged in the solid pipe 71 of exhaust row, gas and solid-state charcoal can be made to enter the solid pipe 71 of exhaust row, wherein gas enters gas collector 6 via the upper end of the solid pipe 71 of exhaust row, solid-state charcoal enters solid product conveyer 72 via the lower end of the solid pipe 71 of exhaust row, is then transported to storage reservoir 73 via solid product conveyer 72 and stores; Adopt said structure, can transport and store the solid-state charcoal of generation, give over to for subsequent use.

On the basis of above-described embodiment, particularly, solid product recovery system 7 also comprises heat exchanger 74, and heat exchanger 74 is set in the outside of solid product conveyer 72, for cooling solid product.

Be solid-state charcoal for solid product, be described: in heat exchanger 74, pass into cooling water, this cooling water can reduce the temperature of the solid-state charcoal in solid product conveyer 72, the temperature of solid-state charcoal is made to be reduced to below burning-point when arriving storage reservoir 73, and even room temperature, guarantee that solid-state charcoal is in storage reservoir 73 combustion, to guarantee safe storage.

On the basis of above-described embodiment, particularly, feeding mechanism comprises loader 1, feeder 2 and accumulator 3; Feeder 2 runs through gas collector 6, and one end of feeder 2 is connected with loader 1, and the other end is connected with accumulator 3, and accumulator 3 is communicated with charging aperture 41.

Raw material rubbish enters feeder 2 by loader 1, then enters accumulator 3 via feeder 2, because accumulator 3 is communicated with the charging aperture 41 of dry distillation reactor still 4, therefore, finally makes raw material rubbish enter dry distillation reactor still 4.

Due to raw material rubbish enter dry distillation reactor still 4 there is dry distillation reactor time, need to be heated, now can consume more energy, and the gas in gas collector 6 has higher temperature, therefore, gas collector 6 is set in the outside of feeder 2, above-mentioned heat can be utilized, drying and forewarm being carried out to the raw material rubbish in feeder 2, making it have certain temperature when entering dry distillation reactor still 4, thus reduce the energy ezpenditure of dry distillation reactor still 4.

On the basis of above-described embodiment, particularly, also comprise steam pipe 21 and steam pipeline 211, one end of steam pipe 21 is arranged on the sidewall of feeder 2, the other end is communicated with one end of steam pipeline 211, and the other end of steam pipeline 211 is communicated with the bottom of arranging solid pipe 71.Due to the raw material rubbish in feeder 2 carry out preheating time, a large amount of steam can be produced in the inside of feeder 2, and the use of feeder 2 when quantity of steam is larger, can be affected, therefore, the sidewall of feeder 2 arranges steam pipe 21, for drawing the steam of feeder 2 quilt; If discharge the waste that will cause the energy because above-mentioned steam is direct, therefore, steam pipeline 211 is set, steam Transportation is arranged the bottom of pipe 71 admittedly to exhaust; Now, because the solid-state charcoal in the solid pipe 71 of exhaust row has higher temperature, therefore steam can with this solid-state charcoal generation water gas reaction, generate water-gas, this part water-gas can enter gas collector 6 via the solid pipe 71 of exhaust row, recycles; Adopt said structure, energy ground utilization rate can be increased further.

Steam pipeline 211 can also be communicated with the cooling tower of outside, now, can according to the composition of steam and temperature select the quantity of steam inputted to the solid pipe 71 of exhaust row number, remaining steam is then delivered in cooling tower, by being communicated with cooling tower, the input steam having control in the solid pipe 71 of exhaust row can be realized.

On the basis of above-described embodiment, particularly, loader 1 comprises feed hopper 11, material chamber 12, hydraulic pressure cut somebody's hair 13, resistance material knife rest 15 and relaying hopper 14; Feed hopper 11 is arranged on the sidewall in material chamber 12, and is communicated with the inside in material chamber 12; The one end in material chamber 12 is communicated with relaying hopper 14, and relaying hopper 14 is communicated with feeder 2; Resistance material knife rest 15 is arranged on the inside in material chamber 12, and between relaying hopper 14 and feed hopper 11, for raw material rubbish is broken into fragment; Hydraulic pressure cut somebody's hair 13 be arranged on material chamber 12 the other end, for raw material rubbish is pushed to resistance material knife rest 15.

Raw material rubbish enters material chamber 12 from feed hopper 11, then cut somebody's hair via hydraulic pressure and 13 push to resistance material knife rest 15 place, and carry out fragmentation at resistance material knife rest 15 place, thus form material plug, after raw material rubbish constantly enters material chamber 12 from feed hopper 11, hydraulic pressure is cut somebody's hair and again raw material rubbish can be pushed to resistance material knife rest 15 place, now, a upper material plug is pushed relaying hopper 14 by raw material rubbish, and the material entering relaying hopper 14 enters feeder 2; Continuous repetition said process, just can remain that at least one material plug is positioned at resistance material knife rest 15 place, this material plug can stop air to enter relaying hopper 14, and then enters dry distillation reactor still 4, thus affects the carrying out of dry distillation reactor.

It should be noted that, hydraulic pressure cut somebody's hair 13 length answer long enough, that is, when hydraulic pressure cuts somebody's hair 13 pushing in raw material rubbish and the process that withdraws, feed hopper 11 can be closed simultaneously, stoping feed hopper 11 to continue charging; If cut somebody's hair in 13 courses of work at hydraulic pressure, if continue charging, a part of raw material rubbish will to be cut somebody's hair 13 withdraw and be brought back along with hydraulic pressure, thus occurs the incomplete problem of garbage disposal.

Relaying hopper 14 is set, can temporarily storage of raw materials rubbish, when avoiding rubbish directly to fall into feeder 2, larger impact is caused to feeder 2, destroy the stability of feeder 2.

It should be noted that, hydraulic pressure is set in the one end in material chamber 12 and cuts somebody's hair 13, can guarantee that air does not enter refuse disposal installation, dry distillation reactor still 4 is in the environment of isolated air all the time.

On the basis of above-described embodiment, particularly, also comprise control system, control system is connected with recovering mechanism with feeding mechanism, rubbish reaction mechanism, can control the running status of feeding mechanism, rubbish reaction mechanism and recovering mechanism.It should be noted that, control system comprises camera, electrical control cabinet and terminal.

Last it is noted that above each embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to foregoing embodiments to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (10)

1. a refuse disposal installation, it is characterized in that, comprise: feeding mechanism, rubbish reaction mechanism and recovering mechanism, described feeding mechanism is used for raw material rubbish to be delivered to described rubbish reaction mechanism, described raw material rubbish carries out chemical reaction in described rubbish reaction mechanism, generate gas and solid product, and gas and solid product can enter described recovering mechanism from described rubbish reaction mechanism recycles.

2. refuse disposal installation according to claim 1, is characterized in that, described rubbish reaction mechanism comprises dry distillation reactor still and heater, and described heater enters the raw material rubbish of described dry distillation reactor still for heating;

Described dry distillation reactor still is provided with charging aperture, discharging opening and blast pipe, and described charging aperture and described discharging opening are separately positioned on the two ends of described dry distillation reactor still, and described discharging opening is communicated with described recovering mechanism;

One end of described blast pipe is arranged on the sidewall of described dry distillation reactor still, and the other end is communicated with described recovering mechanism;

Described charging aperture is connected with described feeding mechanism, and raw material rubbish enters described dry distillation reactor still from described charging aperture, and the gas that after chemical reaction generates is discharged via described blast pipe, and the solid product of generation is discharged via described discharging opening.

3. refuse disposal installation according to claim 2, is characterized in that, described rubbish reaction mechanism also comprises spiral propeller and the drive system for driving described spiral propeller to rotate; Described spiral propeller is arranged on the inside of described dry distillation reactor still, and can in the inner rotation of described dry distillation reactor still, for shifting the raw material rubbish entering described dry distillation reactor still onto.

4. refuse disposal installation according to claim 2, is characterized in that, also comprises support, and described support comprises the first gripper shoe, the second gripper shoe and the 3rd gripper shoe; Described recovering mechanism comprises gas collector and solid product recovery system;

Described gas collector is arranged in described 3rd gripper shoe, and described blast pipe is all communicated with described gas collector with described solid product recovery system;

The two ends of described 3rd gripper shoe are connected with described first gripper shoe and described second gripper shoe respectively, and described first gripper shoe is arranged between described blast pipe and described charging aperture, and described second gripper shoe is arranged between described blast pipe and described discharging opening;

Described dry distillation reactor still is successively through described first gripper shoe and described second gripper shoe;

Described discharging opening is communicated with the inside of described solid product recovery system.

5. refuse disposal installation according to claim 4, is characterized in that, described solid product recovery system comprises the solid pipe of exhaust row, solid product conveyer and storage reservoir;

One end of the solid pipe of described exhaust row is connected with described gas collector, and the other end is connected with one end of described solid product conveyer, and the other end of described solid product conveyer is connected with described storage reservoir;

Described discharging opening is communicated with the described inside being vented solid pipe.

6. refuse disposal installation according to claim 5, is characterized in that, described solid product recovery system also comprises heat exchanger, and described heat exchanger is set in the outside of described solid product conveyer, for cooling solid product.

7. refuse disposal installation according to claim 5, is characterized in that, described feeding mechanism comprises loader, feeder and accumulator;

Described feeder runs through described gas collector, and one end of described feeder is connected with described loader, and the other end is connected with described accumulator, and described accumulator is communicated with described charging aperture.

8. refuse disposal installation according to claim 7, it is characterized in that, also comprise steam pipe and steam pipeline, one end of described steam pipe is arranged on the sidewall of described feeder, the other end is communicated with one end of described steam pipeline, and the bottom that the other end and the described row of exhaust of described steam pipeline 211 consolidate pipe is communicated with.

9. refuse disposal installation according to claim 7, is characterized in that, described loader comprises feed hopper, material chamber, hydraulic pressure are cut somebody's hair, resistance material knife rest and relaying hopper;

Described feed hopper is arranged on the sidewall in described material chamber, and is communicated with the inside in described material chamber; The one end in described material chamber is communicated with described relaying hopper, and described relaying hopper is communicated with described feeder;

Described resistance material knife rest is arranged on the inside in described material chamber, and between described relaying hopper and described feed hopper, for raw material rubbish is broken into fragment;

Described hydraulic pressure is cut somebody's hair and is arranged on the other end in described material chamber, for raw material rubbish is pushed to described resistance material knife rest.

10. the refuse disposal installation according to any one of claim 1-9, it is characterized in that, comprise multiple described rubbish reaction mechanism, described feeding mechanism can to each described rubbish reaction mechanism transferring raw material rubbish, and described recovering mechanism can reclaim gas and the solid product of each described rubbish reaction mechanism generation.