CN205909288U - Equipment of high -efficient rapidly transacting mud - Google Patents
Equipment of high -efficient rapidly transacting mud Download PDFInfo
- Publication number
- CN205909288U CN205909288U CN201620686026.0U CN201620686026U CN205909288U CN 205909288 U CN205909288 U CN 205909288U CN 201620686026 U CN201620686026 U CN 201620686026U CN 205909288 U CN205909288 U CN 205909288U
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- Prior art keywords
- rotating shaft
- housing
- mud
- equipment
- air inlet
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
The utility model provides an equipment of high -efficient rapidly transacting mud, including furnace body, hot air generator, a feed arrangement, the 2nd feed arrangement, an air exhaust device, the 2nd air exhaust device and grate, a feed arrangement includes first casing, first pivot, first body, and the extending direction of first pivot setting just first pivot in first casing is unanimous with the extending direction of first casing, is equipped with in the first pivot along its axially extended first passageway, first body cover is established in first pivot, the 2nd feed arrangement includes second casing, second pivot, second body, and the extending direction of second pivot setting just second pivot in the second casing is unanimous with the extending direction of second casing, is equipped with in the second pivot along its axially extended second channel, second body cover is established in the second pivot, is equipped with the helical coiled passage that the the central axis that uses the second body arranged as the the central axis spiral in the second body. The utility model discloses simple structure, it is effectual, fast to sludge treatment.
Description
Technical field
This utility model is related to technical field of sludge treatment, more particularly, to a kind of equipment efficiently quickly processing mud.
Background technology
With rapid development of economy, China's solid waste mud yield sharply increases, and mud is effectively located
Reason is particularly significant with disposal.The process of mud mainly has landfill disposal and burning disposal two ways at present.Due in landfill
Affected by various environmental key-elements in processing procedure, condition requires harshness, process is bad easily to be caused to subsoil water, soil etc.
Secondary pollution;Sludge incineration is processed has minimizing, stabilisation, innoxious remarkable advantage.At present, domestic commonly used doing
Change incinerating method investment big, equipment complexity, firing efficiency are generally low.
Utility model content
Based on technical problem present in background technology, the utility model proposes a kind of efficiently quickly process setting of mud
Standby.
The utility model proposes a kind of efficiently quickly process mud equipment, including body of heater, hot air generator, first
Feed arrangement, the second feed arrangement, the first air extractor, the second air extractor and fire grate, wherein:
Body of heater has combustion chamber, and body of heater is provided with the air inlet connecting with combustion chamber and air outlet;Hot air generator with
Air inlet connects;
First feed arrangement includes the first housing, first rotating shaft, the first body, and the first housing is arranged on burning intracavity, the
One housing is provided with first charging aperture and the first discharging opening and first charging aperture is located at outside body of heater;First rotating shaft is arranged on first shell
Internal and the bearing of trend of first rotating shaft is consistent with the bearing of trend of the first housing, it is provided with axially extended along it in first rotating shaft
First passage, first rotating shaft is provided with the first gas outlet connecting with first passage near first charging aperture one end, and first rotating shaft is leaned on
Nearly first discharging opening one end is provided with the first air inlet connecting with first passage, and the first air extractor is connected with the first gas outlet;
First body is set in first rotating shaft, and the external side of first pipe is provided with along its axially extended first helical blade;
Second feed arrangement includes the second housing, the second rotating shaft, the second body, and the second housing is arranged on burning intracavity and the
Two housings are located at below the first housing, and the second housing is provided with second charging aperture and the second discharging opening and second charging aperture goes out with first
Material mouth connects;Second rotating shaft be arranged in second shell body and the bearing of trend of the second rotating shaft and the second housing bearing of trend one
Cause, be provided with along its axially extended second channel in the second rotating shaft, the second rotating shaft is provided with and second near second discharging opening one end
Second air inlet of channel connection, the second rotating shaft is provided with second being connected with second channel and gives vent to anger near second charging aperture one end
Mouthful, the second air extractor is connected with the second gas outlet;Second body is set in the second rotating shaft, and the external side of second pipe is provided with along it
Axially extended second helical blade, is provided with axis screw arrangement centered on the central axis of the second body in second pipe body
First helical duct, the import of the first helical duct, outlet are all connected with second channel;
Fire grate is arranged on burning intracavity and is located at below the second discharging opening.
Preferably, it is provided with the second spiral of axis screw arrangement centered on the central axis of the first body in first pipe body
Passage, the import of the second helical duct, outlet are all connected with first passage.
Preferably, the helix pitch of the second helical duct be gradually reduced towards the first air inlet direction from the first gas outlet and
The screw diameter of the second helical duct is gradually reduced towards the first air inlet direction from the first gas outlet.
Preferably, the helix pitch of the first helical duct be gradually increased towards the second gas outlet direction from the second air inlet and
The screw diameter of the first helical duct is gradually reduced towards the second gas outlet direction from the second air inlet.
Preferably, second channel inwall is disposed with multiple annular grooves along its axially spaced-apart, along from the second air inlet direction
Second gas outlet direction, the diameter of annular groove is gradually increased.
Preferably, the helix pitch of the first helical blade is gradually reduced towards the first discharging opening direction from first charging aperture.
Preferably, the helix pitch of the second helical blade is gradually reduced towards the second discharging opening direction from second charging aperture.
Preferably, in a tubular form, first rotating shaft is coaxially disposed the first housing with the first housing, and first rotating shaft is by the first driving machine
Structure drives and is rotated.
Preferably, in a tubular form, the second rotating shaft is coaxially disposed the second housing with the second housing, and the second rotating shaft is by the second driving machine
Structure drives and is rotated.
Preferably, burning intracavity is provided with multiple taper storage slag chambeies side by side positioned at fire grate lower position, and slag chamber two ends are stored up in taper
It is equipped with slag notch, the bottom that slag chamber is stored up in each taper is provided with Double helix tapping mechanism.
The utility model proposes the equipment efficiently quickly processing mud, body of heater is provided with air inlet and air outlet, passes through
Setting hot air generator is passed through hot blast to the burning intracavity of body of heater, and combustion chamber is preheated, and last hot blast is arranged from air outlet
Go out, the first feed arrangement, the second feed arrangement are handed over by heat in the first housing, second shell body to burning intracavity charging, mud
Swap-in row preheats, and when mud reaches burning point when the second discharging opening is discharged, and fully burns on the fire grate of burning intracavity, dirty
The heat that mud burning produces preheats to combustion chamber and mud, is passed through a period of time by hot air generator to burning intracavity
After hot blast, burning intracavity can reach the self-sufficient state of heat, need not be passed through hot blast again, reduce energy expenditure.This practicality is new
In preheating, the moisture in mud can dissipate type mud, and along feedstock direction movement to the first air inlet at, by the
One setting first passage in rotating shaft, is evacuated in the first gas outlet by the first air extractor, can quickly by mud pre-
The steam dissipating when hot is taken away completely, and the heat that steam carries simultaneously can heat further to the mud in first shell body,
Make full use of resource, improve pre-heat effect and avoid steam that sludge incineration is impacted, sheathed first in first rotating shaft again
Body, when the first feed arrangement needs repairing, pulls down the first body, conveniently keeps in repair and extend the use of first rotating shaft
Life-span.This utility model passes through to arrange second channel in the second rotating shaft, by the second air extractor in the second gas outlet air inlet
Pumping, the high-temperature gas of burning intracavity is pumped into second channel the mud in second shell body is preheated;Simultaneously in second pipe
Internal setting the second helical duct, increased the time that high-temperature gas flows in the second rotating shaft, improves the preheating to mud
Effect, sheathed second body in the second rotating shaft, when the second feed arrangement needs repairing, pull down the second body, convenient
Keep in repair and extend the service life of the second rotating shaft.This utility model structure is simple, in charging, mud is preheated, preheating
Effect is good, and mud can fully burn, and, speed good to Treatment of Sludge effect is fast, makes full use of the energy, reduces energy expenditure.
Brief description
Fig. 1 be the utility model proposes a kind of efficiently quickly process mud device structure schematic diagram;
Fig. 2 be the utility model proposes a kind of efficiently quickly process mud the first rotating shaft of equipment with first body dress
Fit over structural representation together;
Fig. 3 be the utility model proposes a kind of efficiently quickly process mud the second rotating shaft of equipment with second body dress
Fit over structural representation together.
Specific embodiment
With reference to Fig. 1, Fig. 2, Fig. 3, the utility model proposes a kind of equipment efficiently quickly processing mud, including body of heater 10,
Hot air generator 20, the first feed arrangement, the second feed arrangement, the first air extractor 50, the second air extractor 60 and fire grate
70, wherein:
Body of heater 10 has combustion chamber 101, and body of heater 10 is provided with the air inlet 102 connecting with combustion chamber 101 and air outlet
103.Hot air generator 20 is connected with air inlet 102.
First feed arrangement includes the first housing 301, first rotating shaft 302, the first body 303, and the first housing 301 is arranged on
In combustion chamber 101, in a tubular form, the first housing 301 is provided with first charging aperture 304 and the first discharging opening 305 and to the first housing 301
One charging aperture 304 is located at outside body of heater 10.First rotating shaft 302 is arranged in the first housing 301 and first rotating shaft 302 and first shell
Body 301 is coaxially disposed, and first rotating shaft 302 is driven by the first drive mechanism 311 and rotated, and is provided with along it in first rotating shaft 302
Axially extended first passage 306, first rotating shaft 302 is provided near first charging aperture 304 one end and to be connected with first passage 306
First gas outlet 307, first rotating shaft 302 is provided with, near the first discharging opening 305 one end, the first air inlet connecting with first passage 306
Mouth 308, the first air extractor 50 is connected with the first gas outlet 307.First body 303 is set in first rotating shaft 302, first pipe
It is provided with outside body 303 along its axially extended first helical blade 309, be provided with the first body 303 in the first body 303
Second helical duct 310 of axis screw arrangement centered on heart axis, the import of the second helical duct 310, outlet are all with first
Passage 306 connects.
Second feed arrangement includes the second housing 401, the second rotating shaft 402, the second body 403, and the second housing 401 is in pipe
Shape, the second housing 401 is arranged in combustion chamber 101 and the second housing 401 is located at below the first housing 301, and the second housing 401 sets
There is second charging aperture 405 with the second discharging opening 404 and second charging aperture 405 is connected with the first discharging opening 305.Second rotating shaft 402
It is arranged in the second housing 401 and the second rotating shaft 402 is coaxially disposed with the second housing 401, the second rotating shaft 402 is by the second driving machine
Structure 412 drives and is rotated, and is provided with along its axially extended second channel 406, the second rotating shaft 402 is close in the second rotating shaft 402
Second discharging opening 404 one end is provided with the second air inlet 407 connecting with second channel 406, and the second rotating shaft 402 is near the second charging
Mouth 405 one end are provided with the second gas outlet 408 connecting with second channel 406, and the second air extractor 60 and the second gas outlet 408 are even
Connect.Second body 403 is set in the second rotating shaft 402, is provided with along its axially extended second helical-blade outside the second body 403
Piece 409, the first spiral being provided with axis screw arrangement centered on the central axis of the second body 403 in the second body 403 leads to
Road 410, the import of the first helical duct 410, outlet are all connected with second channel 406.
Fire grate 70 is arranged in combustion chamber 101 and is located at below the second discharging opening 404.It is located at fire grate 70 in combustion chamber 101
Lower position is provided with multiple taper storage slag chambeies 104 side by side, and taper storage slag chamber 104 two ends are equipped with slag notch, and slag chamber is stored up in each taper
104 bottom is provided with Double helix tapping mechanism 105.Quickly sludge incineration can be produced by arranging Double helix tapping mechanism 105
Raw slag is drained in time.
The utility model proposes a kind of equipment efficiently quickly processing mud, body of heater 10 is provided with air inlet 102 and goes out
Air port 103, is passed through hot blast by arranging hot air generator 20 into the combustion chamber 101 of body of heater 10, combustion chamber 101 is carried out pre-
Heat, last hot blast is discharged from air outlet 103, and the first feed arrangement, the second feed arrangement feed into combustion chamber 101, and mud exists
Preheated by heat exchange, when mud reaches combustion when the second discharging opening 404 is discharged in first housing 301, the second housing 401
Burn point, and fully burn on the fire grate 104 in combustion chamber 101, the heat that sludge incineration produces enters to combustion chamber 101 and mud
Row preheating, is passed through after a period of time hot blast in hot air generator 20 is to combustion chamber 101, can reach heat in combustion chamber 101
Measure self-sufficient state, hot blast need not be passed through again, reduce energy expenditure.This utility model mud preheating when, in mud
Moisture can dissipate, and along feedstock direction movement to the first air inlet 308 at, by first rotating shaft 302 arrange first
Passage 306, in the first body 303 arrange the first helical duct 310, by the first air extractor 50 in the first gas outlet 306
It is evacuated, the steam that quickly can dissipate mud in preheating is taken away completely, and the heat that steam carries simultaneously can be right
Mud in first housing 301 heats further, makes full use of resource, improves pre-heat effect and avoids steam to sludge incineration again
Impact.This utility model passes through setting second channel 406 the second rotating shaft 402 in, by the second air extractor 60 the
Two gas outlet 408 air inlet pumping, the high-temperature gas in combustion chamber 101 is pumped into second channel 406 to the dirt in the second housing 401
Mud is preheated;Second helical duct 410 is set in the second body 403 simultaneously, increased high-temperature gas in the second rotating shaft 402
The time of interior flowing, improve the pre-heat effect to mud.
In the present embodiment, the helix pitch of the second helical duct 310 is from the first gas outlet 307 towards the first air inlet 308
Direction be gradually reduced and the second helical duct 310 screw diameter from the first gas outlet 307 towards the first air inlet 308 direction by
Decrescence little.Designed by above, steam extended residence time in the second helical duct 310, and steam is to first charging aperture 304
The mud at place is effectively preheated.
In the present embodiment, the helix pitch of the first helical duct 410 is from the second air inlet 407 towards the second gas outlet 408
Direction be gradually increased and the first helical duct 410 screw diameter from the second air inlet 407 towards the second gas outlet 408 direction by
Decrescence little.Second channel 406 inwall is disposed with multiple annular grooves 411 along its axially spaced-apart, along from the second air inlet 407 direction
Second gas outlet 408 direction, the diameter of annular groove 411 is gradually increased.Designed by above, high-temperature gas is in second channel
406th, in the second helical duct 410, residence time extends, and high-temperature gas is carried out effectively to the mud at the second discharging opening 404
Preheating is it is ensured that the mud discharged from the second discharging opening 404 reaches burning point.
In the present embodiment, the helix pitch of the first helical blade 309 is from first charging aperture 304 towards the first discharging opening 305
Direction is gradually reduced.The helix pitch of the second helical blade 409 from second charging aperture 405 towards the second discharging opening 404 direction by
Decrescence little.Designed by above, prevent can mud first housing 301, second housing 401 in quick feeding and effectively
Pile up, result in blockage.
This utility model structure is simple, in charging, mud is preheated, pre-heat effect is good, and mud can fully burn,
, speed good to Treatment of Sludge effect is fast, makes full use of the energy, reduces energy expenditure.
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 (10)
1. a kind of equipment efficiently quickly processing mud it is characterised in that include body of heater (10), hot air generator (20), the
One feed arrangement, the second feed arrangement, the first air extractor (50), the second air extractor (60) and fire grate (70), wherein:
Body of heater (10) has combustion chamber (101), and body of heater (10) is provided with the air inlet (102) being connected with combustion chamber (101) and goes out
Air port (103);Hot air generator (20) is connected with air inlet (102);
First feed arrangement includes the first housing (301), first rotating shaft (302), the first body (303), and the first housing (301) sets
Put in combustion chamber (101), the first housing (301) is provided with first charging aperture (304) and the first discharging opening (305) and the first charging
Mouth (304) is located at outside body of heater (10);First rotating shaft (302) is arranged in the first housing (301) and the prolonging of first rotating shaft (302)
Stretch direction consistent with the bearing of trend of the first housing (301), be provided with along its axially extended first passage in first rotating shaft (302)
(306), first rotating shaft (302) is provided with, near first charging aperture (304) one end, the first gas outlet connecting with first passage (306)
(307), first rotating shaft (302) is provided with, near the first discharging opening (305) one end, the first air inlet connecting with first passage (306)
(308), the first air extractor (50) is connected with the first gas outlet (307);First body (303) is set in first rotating shaft (302)
On, it is provided with outside the first body (303) along its axially extended first helical blade (309);
Second feed arrangement includes the second housing (401), the second rotating shaft (402), the second body (403), and the second housing (401) sets
Put in combustion chamber (101) and the second housing (401) is located at below the first housing (301), the second housing (401) is provided with second and enters
With the second discharging opening (404) and second charging aperture (405) is connected material mouth (405) with the first discharging opening (305);Second rotating shaft
(402) be arranged in the second housing (401) and the bearing of trend of the second rotating shaft (402) and the second housing (401) bearing of trend
Unanimously, it is provided with the second rotating shaft (402) along its axially extended second channel (406), the second rotating shaft (402) is near the second discharging
Mouth (404) one end is provided with the second air inlet (407) connecting with second channel (406), and the second rotating shaft (402) is near the second charging
Mouth (405) one end is provided with the second gas outlet (408) connecting with second channel (406), and the second air extractor (60) goes out with second
QI KOU (408) connects;Second body (403) is set in the second rotating shaft (402), and the second body is provided with along its axle outside (403)
To the second helical blade (409) extending, the second body is provided with centered on the central axis of the second body (403) in (403)
First helical duct (410) of axis screw arrangement, the import of the first helical duct (410), outlet all with second channel (406)
Connection;
Fire grate (70) is arranged in combustion chamber (101) and is located at below the second discharging opening (404).
2. the equipment of mud that efficiently quickly processes according to claim 1 is it is characterised in that set in the first body (303)
There are second helical duct (310) of axis screw arrangement centered on the central axis of the first body (303), the second helical duct
(310) import, outlet are all connected with first passage (306).
3. the equipment of mud that efficiently quickly processes according to claim 2 is it is characterised in that the second helical duct (310)
Helix pitch be gradually reduced and the second helical duct (310) towards the first air inlet (308) direction from the first gas outlet (307)
Screw diameter be gradually reduced towards the first air inlet (308) direction from the first gas outlet (307).
4. efficiently quickly process the equipment of mud it is characterised in that the first spiral according to any one of claim 1-3
The helix pitch of passage (410) is gradually increased and the first spiral towards the second gas outlet (408) direction from the second air inlet (407)
The screw diameter of passage (410) is gradually reduced towards the second gas outlet (408) direction from the second air inlet (407).
5. efficiently quickly process the equipment of mud it is characterised in that second channel according to any one of claim 1-3
(406) inwall is disposed with multiple annular grooves (411) along its axially spaced-apart, gives vent to anger along from the second air inlet (407) towards second
Mouth (408) direction, the diameter of annular groove (411) is gradually increased.
6. efficiently quickly process the equipment of mud it is characterised in that the first spiral according to any one of claim 1-3
The helix pitch of blade (309) is gradually reduced towards the first discharging opening (305) direction from first charging aperture (304).
7. efficiently quickly process the equipment of mud it is characterised in that the second spiral according to any one of claim 1-3
The helix pitch of blade (409) is gradually reduced towards the second discharging opening (404) direction from second charging aperture (405).
8. efficiently quickly process the equipment of mud it is characterised in that the first housing according to any one of claim 1-3
(301) in a tubular form, first rotating shaft (302) and the first housing (301) are coaxially disposed, and first rotating shaft (302) is by the first drive mechanism
(311) drive and rotated.
9. efficiently quickly process the equipment of mud it is characterised in that the second housing according to any one of claim 1-3
(401) in a tubular form, the second rotating shaft (402) and the second housing (401) are coaxially disposed, and the second rotating shaft (402) is by the second drive mechanism
(412) drive and rotated.
10. efficiently quickly process the equipment of mud it is characterised in that combustion chamber according to any one of claim 1-3
(101) it is provided with multiple tapers storage slag chamber (104) side by side positioned at fire grate (70) lower position in, taper storage slag chamber (104) two ends are equal
It is provided with slag notch, the bottom that slag chamber (104) is stored up in each taper is provided with Double helix tapping mechanism (105).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620686026.0U CN205909288U (en) | 2016-06-30 | 2016-06-30 | Equipment of high -efficient rapidly transacting mud |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620686026.0U CN205909288U (en) | 2016-06-30 | 2016-06-30 | Equipment of high -efficient rapidly transacting mud |
Publications (1)
Publication Number | Publication Date |
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CN205909288U true CN205909288U (en) | 2017-01-25 |
Family
ID=57813080
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620686026.0U Withdrawn - After Issue CN205909288U (en) | 2016-06-30 | 2016-06-30 | Equipment of high -efficient rapidly transacting mud |
Country Status (1)
Country | Link |
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CN (1) | CN205909288U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105972612A (en) * | 2016-06-30 | 2016-09-28 | 安徽未名鼎和环保有限公司 | Efficient and fast sludge treatment equipment |
CN109942168A (en) * | 2019-03-29 | 2019-06-28 | 杭州小橙工业设计有限公司 | It is a kind of for quickly handling the novel system of sludge |
-
2016
- 2016-06-30 CN CN201620686026.0U patent/CN205909288U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105972612A (en) * | 2016-06-30 | 2016-09-28 | 安徽未名鼎和环保有限公司 | Efficient and fast sludge treatment equipment |
CN105972612B (en) * | 2016-06-30 | 2018-12-07 | 安徽未名鼎和环保有限公司 | A kind of equipment of quick processing sludge |
CN109942168A (en) * | 2019-03-29 | 2019-06-28 | 杭州小橙工业设计有限公司 | It is a kind of for quickly handling the novel system of sludge |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170125 Effective date of abandoning: 20181207 |
|
AV01 | Patent right actively abandoned |