CN205909284U - High -efficient sludge incineration processing system - Google Patents

Abstract

The utility model discloses a high -efficient sludge incineration processing system, a feeding section of thick bamboo and a pay -off section of thick bamboo set up indoor and the pay -off section of thick bamboo of process chamber lies in feeding section of thick bamboo below, and the screw mechanism middle part in the feeding section of thick bamboo is equipped with air exhaust channel, and exhaust equipment passes through air exhaust channel and feeding section of thick bamboo intercommunication, and the 2nd screw mechanism middle part in the pay -off section of thick bamboo is equipped with exhaust gas passage, and a plurality of slag discharging bucket set gradually in pay -off section of thick bamboo below, the utility model provides a high -efficient sludge incineration processing system, , on one han, the high temperature tail gas that sludge incineration produced preheats a feeding section of thick bamboo, make mud realize preheating at the feeding in -process, on the other hand, exhaust equipment draws gas to the steam that mud evaporates in the feeding through the air exhaust channel at screw mechanism middle part, thereby make the mud more thoroughly that dewaters before the burning, again on the one hand, through the 3rd screw mechanism in the slag discharging bucket, can control incineration furnace slag discharges, the burning zone height of intracavity is burned in the regulation, it burns in succession to guarantee the mud high efficiency.

Description

A kind of highly effective sludge burning processing system

Technical field

This utility model is related to technical field of sludge treatment, more particularly, to a kind of highly effective sludge burning processing system.

Background technology

Mud is the product in sewage disposal process, containing substantial amounts of Organic substance, heavy metal and mycete etc., if being not added with follow-up Place comprehend environment caused with severe contamination, therefore, often mud to be concentrated and processed, but after this process Moisture percentage in sewage sludge generally more than 70%, also need to carry out further dried to mud.In the mud of drying generally Still contain steam, therefore dried mud carries out landfill disposal mostly, and cannot be carried out other recyclings.

Utility model content

For solving technical problem present in background technology, the utility model proposes a kind of highly effective sludge burning disposal system System.

The utility model proposes a kind of highly effective sludge burning processing system, comprising: process body of heater, feed arrangement, transmission Device, slag-draining device, steam exhaust device；

It is provided with processing chamber housing, slag-draining device is arranged in described processing chamber housing and separates described processing chamber housing in treatment furnace body For burning chamber above and underlying deslagging chamber, described burning chamber side wall is provided with air inlet, offgas outlet, first enters Material mouth, steam drain, steam exhaust device is connected with described steam drain, and described deslagging bottom of chamber portion is provided with slag-drip opening；

Feed arrangement includes feeding cylinder, the first screw mechanism, the first drive mechanism, and feeding cylinder is horizontally set on described burning Intracavity, is provided with charging chamber in feeding cylinder, described charging chamber is provided with second charging aperture and the first discharging opening, second charging aperture It is located at the two ends of feeding cylinder with the first discharging opening respectively, second charging aperture is connected with first charging aperture, the first screw mechanism setting In charging within the chamber, the first drive mechanism and the first screw mechanism are connected to drive the first screw mechanism rotation, the first spiral It is provided with the exhaust passage axially penetrating through along the first screw mechanism, described exhaust passage one end is connected with steam drain and another in the middle part of mechanism One end and described charging chamber；

Pay-off includes feed cylinder, the second screw mechanism, the second drive mechanism, and feed cylinder is horizontally set on described burning Intracavity, feed cylinder spaced a predetermined distance, is provided with feeding chamber below feeding cylinder and and feeding cylinder between in feed cylinder, described Feeding chamber is provided with the 3rd charging aperture near first discharging opening one end top and feed cylinder is provided with away from first discharging opening one end Two discharging openings and gas inlet, described 3rd charging aperture is located at below described first discharging opening, and described first discharging opening exists Described 3rd charging aperture projection in the horizontal plane be located in described 3rd charging aperture, the second screw mechanism is co-axially located at and send In barrel, the second drive mechanism and the second screw mechanism are connected to drive the second screw mechanism rotation, in the second screw mechanism Portion is provided with the exhaust gas channel axially penetrating through along the second screw mechanism, and described exhaust gas channel one end is connected with offgas outlet and the other end Connect with described gas inlet；

Slag-draining device includes at least one dregs discharge tube, the 3rd screw mechanism, and dregs discharge tube is horizontally disposed with, and has inside dregs discharge tube Along dregs discharge tube axially extended storage slag cavity, described storage slag cavity top has feed openings and end is provided with the 3rd discharging opening, 3rd screw mechanism is in dregs discharge tube and axially arranged parallel to dregs discharge tube, and the 3rd screw mechanism is in described 3rd discharging opening institute Projection planar is located in described 3rd discharging opening.

Preferably, feeding cylinder and feed cylinder are arranged in parallel.

Preferably, feeding cylinder and the axis of feed cylinder are located in same perpendicular.

Preferably, the first screw mechanism is pre- away from being spaced between charging aperture one end away from first charging aperture one end and feeding cylinder Set a distance.

Preferably, slag-draining device includes multiple dregs discharge tubes, and multiple dregs discharge tubes be arranged in parallel and axis is located at same level On.

Preferably, dregs discharge tube is arranged perpendicular to feeding cylinder.

In this utility model, the highly effective sludge burning processing system that proposed, feeding cylinder and feed cylinder are arranged on described place Manage within the chamber and feed cylinder is located at below feeding cylinder, be provided with the passage that draws gas in the middle part of the first screw mechanism in feeding cylinder, steam discharge fills Put and connected with feeding cylinder by the passage that draws gas, be provided with the second screw mechanism in feed cylinder, in the middle part of the second screw mechanism, be provided with tail gas Passage, multiple dregs discharge tubes are successively set on below feed cylinder.By the highly effective sludge burning processing system of above-mentioned optimization design, tie Structure is reasonable in design, on the one hand, the high-temperature tail gas that sludge incineration produces are preheated so that mud is in fill process to feeding cylinder Realize preheating, on the other hand, steam exhaust device pass through the first screw mechanism in the middle part of draw gas what passage evaporated in charging to mud Steam is drawn gas, so that mud is dehydrated more thoroughly before combustion, thus improving sludge incineration efficiency, another further aspect, By the 3rd screw mechanism in dregs discharge tube, can control dregs of incinerator discharge, adjust burn intracavity burning layer height it is ensured that Mud high-efficiency and continuous are burned.

Brief description

Fig. 1 be the utility model proposes a kind of highly effective sludge burning processing system structural representation.

Specific embodiment

As shown in figure 1, Fig. 1 be the utility model proposes a kind of highly effective sludge burning processing system structural representation.

With reference to Fig. 1, the utility model proposes a kind of highly effective sludge burning processing system, comprising: process body of heater 1, charging Device, transporter, slag-draining device, steam exhaust device 2；

Process in body of heater 1 and be provided with processing chamber housing, slag-draining device is arranged in described processing chamber housing and divides described processing chamber housing Be divided into burning chamber above and underlying deslagging chamber, described burning chamber side wall be provided with air inlet, offgas outlet, first Charging aperture, steam drain, steam exhaust device 2 is connected with described steam drain, and described deslagging bottom of chamber portion is provided with slag-drip opening；

Feed arrangement includes feeding cylinder 31, the first screw mechanism 32, the first drive mechanism, and feeding cylinder 31 is horizontally set on institute State burning intracavity, in feeding cylinder 31, be provided with charging chamber, described charging chamber is provided with second charging aperture and the first discharging opening, the , respectively positioned at the two ends of feeding cylinder 31, second charging aperture is connected with first charging aperture, the first spiral shell for two charging apertures and the first discharging opening Rotation mechanism 32 is arranged on charging within the chamber, and the first screw mechanism 32 is away from first charging aperture one end and feeding cylinder 31 away from charging aperture Between one end spaced a predetermined distance, the first drive mechanism and the first screw mechanism 32 are connected to drive the first screw mechanism 32 to revolve Turn, in the middle part of the first screw mechanism 32, be provided with the exhaust passage axially penetrating through along the first screw mechanism 32, described exhaust passage one end Connect with steam drain and the other end and described charging chamber；

Pay-off includes feed cylinder 41, the second screw mechanism 42, the second drive mechanism, and feed cylinder 41 is horizontally set on institute State burning intracavity, feed cylinder 41 be located at feeding cylinder 31 lower section and and feeding cylinder 31 between parallel interval arrangement, feeding cylinder 31 with give The axis of barrel 41 is located in same perpendicular, is provided with feeding chamber, described feeding chamber goes out near first in feed cylinder 41 Material mouth one end top is provided with the 3rd charging aperture and feed cylinder 41 is provided with the second discharging opening away from first discharging opening one end and tail gas enters Mouthful, described 3rd charging aperture is located at below described first discharging opening, and described first discharging opening is in described 3rd charging aperture institute Projection in the horizontal plane is located in described 3rd charging aperture, and the second screw mechanism 42 is co-axially located in feed cylinder 41, and second Drive mechanism and the second screw mechanism 42 are connected to drive the second screw mechanism 42 to rotate, and are provided with the middle part of the second screw mechanism 42 The exhaust gas channel axially penetrating through along the second screw mechanism 42, described exhaust gas channel one end is connected with offgas outlet and the other end and institute State gas inlet connection；

Slag-draining device includes multiple dregs discharge tubes 51, the 3rd screw mechanism 52, and dregs discharge tube 51 is horizontally disposed with and perpendicular to charging Cylinder 31 setting, multiple dregs discharge tubes 51 be arranged in parallel and axis is located in same level, have along dregs discharge tube inside dregs discharge tube 51 51 axially extended storage slag cavitys, described storage slag cavity top has feed openings and end is provided with the 3rd discharging opening, the 3rd spiral shell Rotation mechanism 52 is in dregs discharge tube 51 and axially arranged parallel to dregs discharge tube 51, and the 3rd screw mechanism 52 is in described 3rd discharging opening Projection planar be located in described 3rd discharging opening.

In the specific work process of highly effective sludge burning processing system of the present embodiment, mud to be combusted is from first charging aperture Enter in treatment furnace body, the first drive mechanism drives the first screw mechanism rotation so that mud passes through the feed cavity in feeding cylinder Room enters in feed cylinder, and then the second drive mechanism drives the second screw mechanism rotation so that the feeding by feed cylinder for the mud Chamber drops down onto above dregs discharge tube, and air enters burning chamber by air inlet and mud is burnt in treatment furnace, and burning produces Tail gas preheats to the mud in feeding cylinder and feed cylinder；In combustion, steam exhaust device passes through drawing gas in feeding cylinder The steam evaporating during sewage sludge feed is extracted out by passage, thus reducing the moisture content in mud further, tail gas is from sending simultaneously Exhaust gas channel in the middle part of barrel is discharged, the mud removing steam is carried out inside and outside preheat simultaneously, greatly improve sludge incineration efficiency； 3rd drive mechanism drives the 3rd screw mechanism rotation, periodically discharges the residue after deslagging cylinder roasting.

In the present embodiment, the highly effective sludge burning processing system being proposed, feeding cylinder and feed cylinder are arranged on described place Manage within the chamber and feed cylinder is located at below feeding cylinder, be provided with the passage that draws gas in the middle part of the first screw mechanism in feeding cylinder, steam discharge fills Put and connected with feeding cylinder by the passage that draws gas, be provided with the second screw mechanism in feed cylinder, in the middle part of the second screw mechanism, be provided with tail gas Passage, multiple dregs discharge tubes are successively set on below feed cylinder.By the highly effective sludge burning processing system of above-mentioned optimization design, tie Structure is reasonable in design, on the one hand, the high-temperature tail gas that sludge incineration produces are preheated so that mud is in fill process to feeding cylinder Realize preheating, on the other hand, steam exhaust device pass through the first screw mechanism in the middle part of draw gas what passage evaporated in charging to mud Steam is drawn gas, so that mud is dehydrated more thoroughly before combustion, thus improving sludge incineration efficiency, another further aspect, By the 3rd screw mechanism in dregs discharge tube, can control dregs of incinerator discharge, adjust burn intracavity burning layer height it is ensured that Mud high-efficiency and continuous are burned.

In a specific embodiment, the first screw mechanism 32 away from first charging aperture one end and feeding cylinder 31 away from charging aperture Spaced a predetermined distance so that mud, when feeding cylinder enters feed cylinder, blocking does not occur it is ensured that charging is smooth between one end.

The above, only this utility model preferably specific embodiment, but protection domain of the present utility model is not Be confined to this, any those familiar with the art in the technical scope that this utility model discloses, according to this practicality New technical scheme and its utility model design in addition equivalent or change, all should cover in protection model of the present utility model Within enclosing.

Claims (6)

1. a kind of highly effective sludge burning processing system it is characterised in that include: process body of heater (1), feed arrangement, transporter, Slag-draining device, steam exhaust device (2)；

Process in body of heater (1) and be provided with processing chamber housing, slag-draining device is arranged in described processing chamber housing and separates described processing chamber housing For burning chamber above and underlying deslagging chamber, described burning chamber side wall is provided with air inlet, offgas outlet, first enters Material mouth, steam drain, steam exhaust device (2) is connected with described steam drain, and described deslagging bottom of chamber portion is provided with slag-drip opening；

Feed arrangement includes feeding cylinder (31), the first screw mechanism (32), the first drive mechanism, and feeding cylinder (31) is horizontally set on Described burning intracavity, is provided with charging chamber in feeding cylinder (31), described charging chamber is provided with second charging aperture and the first discharging Mouth, second charging aperture and the first discharging opening are located at the two ends of feeding cylinder (31) respectively, and second charging aperture is connected with first charging aperture, First screw mechanism (32) is arranged on charging within the chamber, and the first drive mechanism and the first screw mechanism (32) are connected to drive the One screw mechanism (32) rotates, and is provided with the steam discharge along the first screw mechanism (32) axially penetrates through and leads in the middle part of the first screw mechanism (32) Road, described exhaust passage one end is connected with steam drain and the other end and described charging chamber；

Pay-off includes feed cylinder (41), the second screw mechanism (42), the second drive mechanism, and feed cylinder (41) is horizontally set on Described burning intracavity, feed cylinder (41) be located at feeding cylinder (31) below and and feeding cylinder (31) between spaced a predetermined distance, feeding It is provided with feeding chamber, described feeding chamber is provided with the 3rd charging aperture and feed cylinder near first discharging opening one end top in cylinder (41) (41) it is provided with the second discharging opening and gas inlet away from first discharging opening one end, described 3rd charging aperture is located at described first discharging Below mouthful, and described first discharging opening in the projection in the horizontal plane of described 3rd charging aperture institute positioned at described 3rd charging aperture Interior, the second screw mechanism (42) is co-axially located in feed cylinder (41), and the second drive mechanism is connected with the second screw mechanism (42) For driving the second screw mechanism (42) to rotate, it is provided with the middle part of the second screw mechanism (42) and axially passes through along the second screw mechanism (42) The exhaust gas channel worn, described exhaust gas channel one end is connected with offgas outlet and the other end is connected with described gas inlet；

Slag-draining device includes at least one dregs discharge tube (51), the 3rd screw mechanism (52), and dregs discharge tube (51) is horizontally disposed with, dregs discharge tube (51) internal have along dregs discharge tube (51) axially extended storage slag cavity, and described storage slag cavity top has feed openings and end It is provided with the 3rd discharging opening, the 3rd screw mechanism (52) is in dregs discharge tube (51) and axially arranged parallel to dregs discharge tube (51), the Three screw mechanisms (52) described 3rd discharging opening projection planar be located in described 3rd discharging opening.

2. highly effective sludge burning processing system according to claim 1 is it is characterised in that feeding cylinder (31) and feed cylinder (41) it is arranged in parallel.

3. highly effective sludge burning processing system according to claim 2 is it is characterised in that feeding cylinder (31) and feed cylinder (41) axis is located in same perpendicular.

4. highly effective sludge burning processing system according to claim 1 it is characterised in that the first screw mechanism (32) away from First charging aperture one end and feeding cylinder (31) away between charging aperture one end spaced a predetermined distance.

5. highly effective sludge burning processing system according to claim 1 is it is characterised in that slag-draining device includes multiple deslagginves Cylinder (51), multiple dregs discharge tubes (51) be arranged in parallel and axis is located in same level.

6. highly effective sludge burning processing system according to claim 1 is it is characterised in that dregs discharge tube (51) is perpendicular to charging Cylinder (31) setting.