CN114857593A - High-efficient processing system of useless incineration ash sediment of danger - Google Patents

Abstract

The application discloses useless high-efficient processing system who burns lime-ash of danger relates to the useless processing technology field of danger, and it includes. The water-sealed slag dragging machine is used for receiving the ash slag and cooling the ash slag; the evaporation and draining device is used for draining and storing the cooled ash; and the conveying device is used for conveying the ash cooled in the water-sealed slag conveyor to the evaporation and draining device, and draining and evaporating the ash while conveying the ash. This application helps saving the manual work, and helps improving the treatment effeciency of lime-ash.

Description

High-efficient processing system of useless incineration ash sediment of danger

Technical Field

The utility model belongs to the technical field of the useless processing technique of danger and specifically relates to a high-efficient processing system of useless incineration ash sediment of danger is related to.

Background

After the hazardous waste is combusted by the incinerator, ash slag is formed and discharged from the rotary kiln, and then the hazardous waste is treated in a centralized landfill mode, so that the pollution to the environment is reduced.

At present, ash slag is treated in a manner that a slag conveyor is used for receiving the ash slag discharged from a rotary kiln, cooling water is filled in the slag conveyor and is used for cooling the high-temperature ash slag, then the cooled ash slag is conveyed out of the slag conveyor by a scraper conveyor in the slag conveyor and directly enters a transport vehicle, workers transport the ash slag to a temporary storage warehouse by the transport vehicle for draining, and the ash slag is transported again after being drained and is subjected to centralized landfill.

Aiming at the related technologies, the inventor thinks that the ash needs to be transported for many times in the process, which is troublesome and has large manual consumption.

Disclosure of Invention

In order to reduce artificial cost, raise the efficiency, this application provides a high-efficient processing system of useless incineration ash sediment of danger.

The application provides a pair of high-efficient processing system of useless incineration ash residue of danger adopts following technical scheme:

an efficient treatment system for hazardous waste incineration ash comprises a water-sealed slag conveyor for receiving the ash and cooling the ash; the evaporation and draining device is used for draining and storing the cooled ash; and the conveying device is used for conveying the ash cooled in the water-sealed slag conveyor to the evaporation and draining device, and draining and evaporating the ash while conveying the ash.

Through adopting above-mentioned technical scheme, the lime-ash that will discharge from the rotary kiln is discharged into the water seal formula and is dragged for the sediment built-in, after the cooling of water seal formula drags for the sediment machine, the water seal formula drags for the sediment chance and carries out the lime-ash and get into in the conveyor, conveyor carries the lime-ash to the evaporation draining device in, can carry out first waterlogging caused by excessive rainfall operation to the lime-ash in transportation process, the lime-ash gets into the evaporation draining device after, carry out the driping evaporation once more, make the water content of lime-ash 20% to 30% on the whole, then the staff utilizes the transport vechicle to catch the lime-ash from the evaporation device of driping, directly carry out the landfill can, need not transport to the temporary storage storehouse in, utilize this system, the number of times that the lime-ash was transported has been reduced, help saving the manual work promptly, and help improving the treatment effeciency of lime-ash.

Preferably, evaporation draining device includes the waterlogging caused by excessive rainfall storehouse, the waterlogging caused by excessive rainfall storehouse is hourglass hopper-shaped setting, the slag notch has been seted up on the upper portion in waterlogging caused by excessive rainfall storehouse, the slag notch has been seted up to the bottom in waterlogging caused by excessive rainfall storehouse, waterlogging caused by excessive rainfall storehouse inner wall week side is provided with first filter screen, the shape and the waterlogging caused by excessive rainfall storehouse inner wall of first filter screen are the adaptation mutually, just be formed with the drainage passageway between first filter screen and the waterlogging caused by excessive rainfall storehouse inner wall, the outlet that is linked together with the drainage passageway is seted up to the lower extreme in waterlogging caused by excessive rainfall storehouse.

Through adopting above-mentioned technical scheme, conveyor operates the lime-ash to the waterlogging caused by excessive rainfall storehouse in, and the lime-ash can carry out the drop evaporation in the waterlogging caused by excessive rainfall storehouse, utilizes first filter screen to make water and lime-ash separation, and water can be discharged from drainage channel in addition, experiences the driping operation after 3 to 5 days, and the water content of lime-ash can drop to between 20% to 30%, then from the slag notch with the lime-ash row to the transport vechicle on, realized the evaporation and the driping operation to the lime-ash promptly.

Preferably, two adjacent filtering holes above and below the first filtering net are obliquely distributed at 60 degrees.

Through adopting above-mentioned technical scheme, two adjacent filtration pores about first filter screen are 60 degrees slope distributions, help reducing the adjacent distance between each filtration pore, help increasing the effective filtration area of first filter screen promptly, and then help improving the filter effect to moisture.

Preferably, the device also comprises a fan, and an air suction opening of the fan is communicated with the draining bin.

Through adopting above-mentioned technical scheme, the lime-ash can produce flue gas and steam when the waterlogging caused by excessive rainfall storehouse evaporates the waterlogging caused by excessive rainfall storehouse, utilizes the fan in time to discharge along it and steam, helps preventing the inside pressure in waterlogging caused by excessive rainfall storehouse, causes the waterlogging caused by excessive rainfall storehouse explosion, and the in-process at the fan convulsions simultaneously can make the inside negative pressure that forms in waterlogging caused by excessive rainfall storehouse, helps improving the evaporation and the waterlogging caused by excessive rainfall efficiency of lime-ash.

Preferably, conveyor sets up to scraper conveyor, drain line and heat tracing steam line have been laid to scraper conveyor's below that is located the scraper blade, heat tracing steam line is located drain line.

By adopting the technical scheme, when the scraper conveyor conveys the ash, the water content of the ash is higher at the moment, and the water dropping from the ash can be collected and discharged by the drainage pipeline; let in the drain line with outside companion's heat steam line, utilize water to cool down steam line, and then can make steam form the comdenstion water, then collect the comdenstion water, carried out waste utilization to this water that drips promptly, greatly developed the device's effect.

Preferably, go up and down in the waterlogging caused by excessive rainfall storehouse and be provided with the second filter screen, be provided with the driving piece that is used for driving the second filter screen to go up and down on the waterlogging caused by excessive rainfall storehouse, the second filter screen is located the inboard of first filter screen, just the aperture of second filter screen filtration pore is less than the filtration pore aperture of first filter screen.

Through adopting above-mentioned technical scheme, when the lime-ash diameter is less, decline second filter screen for the lower extreme butt of second filter screen prevents that the lime-ash from dropping from the second filter screen on first filter screen, utilizes the second filter screen to carry out the evaporation operation of driping to the smaller lime-ash of diameter, utilizes the second filter screen promptly, helps the not dry evaporation operation of driping of size lime-ash of adaptation.

Preferably, the waterlogging caused by excessive rainfall storehouse upside is provided with a plurality of fixed pulleys, the driving piece sets up to the driving rope, the quantity that the driving rope corresponds the fixed pulley is provided with a plurality of and one-to-one, it is provided with the lift crown plate to go up and down on the lateral wall in waterlogging caused by excessive rainfall storehouse, the one end of driving rope can be dismantled with the upside of second filter screen and be connected, the fixed pulley and the lift crown plate fixed connection that correspond are walked around to the other end of driving rope, be provided with the lift piece that is used for lift crown plate on the waterlogging caused by excessive rainfall storehouse.

Through adopting above-mentioned technical scheme, utilize the lift of lifter drive lift crown plate, drive the driving rope and remove, and then realize the lift to the second filter screen.

Preferably, the outer wall in waterlogging caused by excessive rainfall storehouse is provided with a plurality of gibs along vertical direction, the cooperation that slides of lift crown plate and all gibs, the piece sets up to driving actuating cylinder, it is provided with a plurality ofly, arbitrary to drive actuating cylinder's piston rod is vertical upwards setting, and all drive actuating cylinder's piston rod end portion and lift crown plate fixed connection.

Through adopting above-mentioned technical scheme, all drive actuating cylinder of running simultaneously, drive the lift crown plate and carry out elevating movement, realized the elevating movement of second filter screen promptly.

In summary, the present application includes at least one of the following beneficial technical effects:

the ash slag is cooled by the water seal slag conveyor, then the ash slag is conveyed into the evaporation and draining device by the conveying device for draining, and then is directly discharged onto a transport vehicle for landfill;

the second filter screen is arranged in the draining bin in a lifting mode, when the diameter of ash is small, the second filter screen is lowered, and the second filter screen is used for carrying out draining and evaporating operation on the ash, so that the draining and evaporating operation on the ash with different sizes can be realized;

utilize the fan, on the one hand help taking away the flue gas and the steam in the waterlogging caused by excessive rainfall storehouse, on the other hand helps the waterlogging caused by excessive rainfall storehouse in form the negative pressure, accelerates the dribbling of lime-ash.

Drawings

Fig. 1 is a schematic overall structure diagram of a first embodiment of the present application;

fig. 2 is a schematic partial structural view of an embodiment of the present application, which mainly shows a structure of a second filter screen.

Reference numerals: 1. a water-sealed slag conveyor; 2. an evaporation draining device; 21. a draining bin; 211. a slag inlet; 212. a slag outlet; 213. a water outlet; 3. a conveying device; 31. a scraper conveyor; 4. a fan; 5. a first filter screen; 6. a water filtration channel; 7. a second filter screen; 8. a drive member; 9. a fixed pulley; 10. a guide strip; 20. a lifting ring plate; 30. a lifting member.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses high-efficient processing system of useless incineration ash of danger.

Referring to fig. 1, the high-efficiency treatment system of the dangerous waste incineration ash comprises a water-sealed slag conveyor 1, an evaporation draining device 2, a conveying device 3 and a fan 4, wherein the evaporation draining device 2 is arranged to be a draining bin 21, the conveying device 3 is arranged to be a scraper conveyor 31, and a suction opening of the fan 4 is communicated with the draining bin 21.

In fact, the ash slag discharged from the rotary kiln is discharged into the inside of the water-sealed slag conveyor 1, cooling is carried out, the ash slag is conveyed out by adopting a scraper conveying mode in the water-sealed slag conveyor 1 and enters the scraper conveyor 31, the ash slag is subjected to first-time draining operation in the scraper conveyor 31, the ash slag is conveyed into the draining bin 21 under the conveying of the scraper conveyor 31 and is subjected to second-time draining operation, in the draining process, the ash slag can generate smoke and steam, the fan 4 extracts the smoke and the steam and discharges the smoke and the steam into corresponding pipelines, meanwhile, the fan 4 generates negative pressure in the draining bin 21 in the air draft process, the draining speed of the ash slag is accelerated, the ash slag stands in the draining bin 21 for 3 to 5 days, and then a worker discharges the ash slag in the draining bin 21 into a transport vehicle, so that the landfill operation can be carried out. The system is used for treating the ash, so that the transfer times of the ash are reduced, the labor cost is reduced, and the ash treatment efficiency is improved.

Draining storehouse 21 is hopper-shaped setting, draining storehouse 21's upper portion is seted up the income cinder notch 211 that is linked together with scraper conveyor 31 delivery port, cinder notch 212 has been seted up to draining storehouse 21's bottom, first filter screen 5 has been laid along the week side of its inner wall in draining storehouse 21, be formed with drainage passageway 6 between first filter screen 5 and draining storehouse 21's the inner wall, drainage outlet 213 that is linked together with drainage passageway 6 is seted up to draining storehouse 21's lower part, two adjacent filtration pores about first filter screen 5 are 60 degrees slope distributions, 5 filtration pores of first filter screen are 60 degrees slope distributions, help increasing the effective filter area of first filter screen 5, help further improving filtration efficiency.

Scraper conveyor 31 outside is and seals the setting, fan 4's suction opening and the inside intercommunication of scraper conveyor 31, be used for extracting inside flue gas and steam, in addition, laid drainage pipe in scraper conveyor 31, be used for collecting and discharging the water that drips in the transportation process, scraper conveyor 31 is located drainage pipe and has still laid the heat tracing steam pipe way, can be when dripping into drainage pipe way on the lime-ash, can be through heat tracing steam pipe way, and then make the steam formation comdenstion water in the heat tracing steam pipe way discharge, the water that utilizes the lime-ash to drip carries out waste utilization, very big development the effect of this system.

The implementation principle of the high-efficiency treatment system for the hazardous waste incineration ash in the embodiment of the application is as follows: in practice, the ash slag is collected by a water seal slag conveyor, cooled and cooled, and then conveyed to the scraper conveyor 31, in the process of conveying the ash by the scraper conveyor 31, the first draining operation is carried out, then the ash is conveyed into the draining bin for the second draining operation, wherein the two adjacent filtering holes above and below the first filtering net 5 are obliquely distributed at 60 degrees, which is helpful to improve the filtering effect of ash and slag moisture, the water content of the ash can reach 20 to 30 percent, the ash is discharged to a transport vehicle after being kept still in the draining bin 21 for about 3 to 5 days, then can be directly filled in a landfill, the system is utilized to process ash slag, which is beneficial to reducing the transfer times of the ash slag, that is, contribute to lowering labor costs and improving treatment efficiency, and in addition contribute to lowering the water content in ash, facilitating transportation, and contribute to preventing secondary pollution to the environment.

In the second embodiment, the first embodiment of the method,

referring to fig. 2, the embodiment of the present application differs from the first embodiment in that: go up and down to be provided with second filter screen 7 in waterlogging caused by excessive rainfall storehouse 21, the filtration pore aperture of second filter screen 7 is less than the filtration pore aperture of first filter screen 5, and second filter screen 7 is located the inboard of first filter screen 5, and the shape of first filter screen 5 is the same with the 7 shapes of second filter screen, and when second filter screen 7 descends, the lower extreme and the 5 butt of first filter screen of second filter screen 7 prevent that the lime-ash from getting into between first filter screen 5 and the second filter screen 7. Be provided with on straining the sump and be used for driving piece 8 that 7 liftings of second filter screens, driving piece 8 sets up to driving rope, driving rope is provided with four, a plurality of fixed pulleys 9 are installed to the upside of waterlogging caused by excessive rainfall storehouse 21, be provided with four in the embodiment of this application, equally divide week side at waterlogging caused by excessive rainfall storehouse 21, the outer wall of waterlogging caused by excessive rainfall storehouse 21 is fixed with two gib blocks 10 along vertical direction, waterlogging caused by excessive rainfall storehouse 21 slides on two gib blocks 10 and is connected with lift crown plate 20, fixed mounting has a plurality of lifters 30 on the outer wall of waterlogging caused by excessive rainfall storehouse 21, lifter 30 sets up to driving actuating cylinder, driving actuating cylinder is provided with two, two piston rods that drive actuating cylinder are vertical upwards setting, and the tip and the lift crown plate 20 fixed connection of driving actuating cylinder's piston rod.

The four driving ropes correspond to the four fixed pulleys 9 one by one, one ends of the driving ropes are connected with the second filter screen 7 in a fastening mode to form detachable connection, and the other ends of the driving ropes are fixedly connected with the lifting annular plate 20 by bypassing the corresponding fixed pulleys 9.

In fact, the operation drives actuating cylinder, drives lift crown plate 20 and goes up and down, and then makes the drive rope take place to remove to drive second filter screen 7 and go up and down, when the lime-ash diameter is less, make second filter screen 7 descend, carry out the dribbling evaporation to the lime-ash, when the lime-ash diameter is more, make second filter screen 7 rise, the lime-ash can fall into between first filter screen 5 and the second filter screen 7 from the lower extreme of second filter screen 7, utilize first filter screen 5 to carry out the dribbling evaporation to it. Namely, the second filter screen 7 is lifted, so that the draining bin can drain and evaporate ash residues with various specifications.

In addition, a plurality of filter screens with different pore sizes can be added in the draining bin, the lifting driving mode is the same as that of the filter screens, and the ash slag with various specifications can be treated.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a high-efficient processing system of useless incineration ash of danger which characterized in that: comprises a water-sealed slag conveyor (1) for receiving ash slag and cooling the ash slag;

the evaporation and draining device (2) is used for draining and storing the cooled ash;

and the conveying device (3) is used for conveying the ash cooled in the water-sealed slag conveyor (1) into the evaporation and drainage device (2) and draining and evaporating the ash while conveying the ash.

2. The high-efficiency treatment system for hazardous waste incineration ash of claim 1, characterized in that: evaporation draining device (2) are including waterlogging caused by excessive rainfall storehouse (21), waterlogging caused by excessive rainfall storehouse (21) is hourglass hopper-shaped setting, go into slag notch (211) has been seted up on the upper portion in waterlogging caused by excessive rainfall storehouse (21), slag notch (212) have been seted up to the bottom in waterlogging caused by excessive rainfall storehouse (21), waterlogging caused by excessive rainfall storehouse (21) inner wall week side is provided with first filter screen (5), the shape and the waterlogging caused by excessive rainfall storehouse (21) inner wall looks adaptation of first filter screen (5), just be formed with drainage passageway (6) between first filter screen (5) and waterlogging caused by excessive rainfall storehouse (21) inner wall, outlet (213) that are linked together with drainage passageway (6) are seted up to the lower extreme in waterlogging caused by excessive rainfall storehouse (21).

3. The high-efficiency treatment system for hazardous waste incineration ash of claim 1, characterized in that: two adjacent straining holes are 60 degrees slope distributions about first filter screen (5).

4. The high-efficiency treatment system for hazardous waste incineration ash of claim 2, characterized in that: the water draining device is characterized by further comprising a fan (4), and an air suction opening of the fan (4) is communicated with the water draining bin (21).

5. The high-efficiency treatment system for hazardous waste incineration ash of claim 2, characterized in that: conveyor (3) set up to scraper conveyor (31), the delivery outlet of scraper conveyor (31) is linked together with income cinder notch (211) in waterlogging caused by excessive rainfall storehouse (21), drainage pipe and heat tracing steam line have been laid to scraper conveyor (31) below that is located the scraper blade, heat tracing steam line is located drainage pipe.

6. The high-efficiency treatment system for hazardous waste incineration ash of claim 2, characterized in that: go up and down in waterlogging caused by excessive rainfall storehouse (21) and be provided with second filter screen (7), be provided with driving piece (8) that are used for driving second filter screen (7) to go up and down on waterlogging caused by excessive rainfall storehouse (21), second filter screen (7) are located the inboard of first filter screen (5), just the aperture of second filter screen (7) filtration pore is less than the filtration pore aperture of first filter screen (5).

7. The high efficiency processing system of hazardous waste incineration ash of claim 6, characterized in that: the utility model discloses a water logging storehouse, including waterlogging caused by excessive rainfall storehouse (21), driving piece (8) set up to the driving rope, the quantity that the driving rope corresponds fixed pulley (9) is provided with a plurality of and one-to-one, go up and down on the lateral wall in waterlogging caused by excessive rainfall storehouse (21) and be provided with lift crown plate (20), the one end of driving rope can be dismantled with the upside of second filter screen (7) and be connected, the other end of driving rope is walked around corresponding fixed pulley (9) and lift crown plate (20) fixed connection, be provided with lift (30) that are used for lift crown plate (20) on waterlogging caused by excessive rainfall storehouse (21).

8. The high efficiency processing system of hazardous waste incineration ash of claim 7, characterized in that: the outer wall in waterlogging caused by excessive rainfall storehouse (21) is provided with a plurality of gibs (10) along vertical direction, lift crown plate (20) and all gibs (10) cooperation of sliding, lift piece (30) set up to drive actuating cylinder, it is provided with a plurality ofly to drive actuating cylinder, arbitrary it is vertical upwards setting to drive actuating cylinder's piston rod, and all drive actuating cylinder's tailpiece of the piston rod portion and lift crown plate (20) fixed connection.

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