CN107062257B - A kind of double adjustable type rubbish efficient process systems - Google Patents
A kind of double adjustable type rubbish efficient process systems Download PDFInfo
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- CN107062257B CN107062257B CN201710023032.7A CN201710023032A CN107062257B CN 107062257 B CN107062257 B CN 107062257B CN 201710023032 A CN201710023032 A CN 201710023032A CN 107062257 B CN107062257 B CN 107062257B
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- heating region
- heating
- detection data
- threshold
- air supply
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
- F23G5/00—Incineration of waste; Incinerator constructions; Details, accessories or control therefor
- F23G5/44—Details; Accessories
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
- F23G5/00—Incineration of waste; Incinerator constructions; Details, accessories or control therefor
- F23G5/08—Incineration of waste; Incinerator constructions; Details, accessories or control therefor having supplementary heating
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
- F23G5/00—Incineration of waste; Incinerator constructions; Details, accessories or control therefor
- F23G5/50—Control or safety arrangements
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23J—REMOVAL OR TREATMENT OF COMBUSTION PRODUCTS OR COMBUSTION RESIDUES; FLUES
- F23J1/00—Removing ash, clinker, or slag from combustion chambers
- F23J1/06—Mechanically-operated devices, e.g. clinker pushers
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
- F23G2207/00—Control
- F23G2207/10—Arrangement of sensing devices
- F23G2207/101—Arrangement of sensing devices for temperature
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Processing Of Solid Wastes (AREA)
Abstract
The invention discloses a kind of double adjustable type rubbish efficient process systems, it include: furnace body, blower device and control device, wherein: being equipped with air supply tube in furnace body and arrange layer, air supply tube row's layer is formed by several air supply tube arranged in sequence, and along the orientation of air supply tube, every N root air supply tube forms a heating region, the lower section of heating region is equipped with deslagging storehouse, deslagging storehouse has slag-drip opening, and slagging mechanism and the first detection device are equipped in deslagging storehouse, and slagging mechanism is respectively connected with driving dress;The top of heating region is equipped with second detection device;Control device is for obtaining the first detection device and the detection data of second detection device in each heating region and controlling heating device and master control valve events respectively according to the detection data of acquisition.The garbage disposal progress that the present invention can be located on the same floor in furnace time tends to be identical, and rubbish is dried with lasting, efficient, stable rhythm, the processing such as carbonization and reduction-oxidation.
Description
Technical field
The present invention relates to technical field of garbage disposal equipment more particularly to a kind of double adjustable type rubbish efficient process systems.
Background technique
Garbage pyrolysis gasification incinerator is exactly the most frequently used processing equipment of conventional garbage nuisanceless disposal.Its working principle is that sharp
It is entire furnace body heat supply with the incineration firing of bottom, since the air-flow of burning is upward, so that rubbish is from top to bottom when burning
Drying layer, destructive distillation layer, reduction zone and oxide layer are sequentially formed, it is closely coupled layer by layer, and pass step by step close until all rubbish
Finally all as the fuel of oxide layer until.It is unified heat supply since furnace inner space is larger, therefore, it is difficult to guarantee each in furnace
The harmony of the temperature in region.Influence the uniformity of garbage disposal process.Urgently improve.
Summary of the invention
Technology based on the above background, the present invention propose a kind of double adjustable type rubbish efficient process systems
System.
The invention proposes a kind of double adjustable type rubbish efficient process systems, comprising: furnace body, blower device and control dress
It sets, in which:
The top of furnace body is equipped with feeding port, is equipped with the end cap covered to feeding port at feeding port;
It is equipped with air supply tube row's layer in furnace body and positioned at the side close to its bottom, air supply tube row's layer is had by several
There is the air supply tube of wind distributing hole sequentially equidistantly to arrange, and along the orientation of air supply tube, every N root air supply tube forms one and adds
Thermal region, the N are greater than 1 and are less than the total number of air supply tube in air-supply light pipe row's layer;
Blower device is connect respectively for the air supply tube air-supply into each heating region with the air supply tube in each heating region,
And the master control valve controlled air output is equipped between blower device and each heating region;
A deslagging storehouse is equipped in furnace body and below any one heating region, deslagging storehouse has slag-drip opening,
The slagging mechanism for spreading out of material residue in storehouse by slag-drip opening is equipped in deslagging storehouse;
It is equipped in deslagging storehouse in any one described heating region for being detected to the grey quantity of slag stored in storehouse
The first detection device;
Slagging mechanism in any one described heating region is respectively connected with driving device and is filled by the driving that it is connected
Set its movement of driving;
It is equipped in furnace body and above any one heating region and the temperature in the heating region is detected
Second detection device;
Heating device is equipped in furnace body and above any one heating region, heating device is for providing heat
Amount;
Control device respectively with driving device, heating device, master control valve, the first detection device and in each heating region
The connection of two detection devices;
Control device be used for obtain the first detection device in each heating region the first detection data and will acquire first
Detection data is compared with preset first threshold;When the first detection data in any one heating region is greater than the first threshold
When value, control device controls the movement of the driving device in the heating region, to drive the slagging mechanism in the heating region to carry out
Deslagging work;
Control device be used for obtain second detection device in each heating region the second detection data and will acquire second
Detection data is compared with preset second threshold;When the second detection data in any one heating region is less than the second threshold
When value, control device controls the heating region inner heating device and carries out heating work, meanwhile, control the master control in the heating region
The aperture of valve increases;When the second detection data in any one heating region is greater than second threshold, control device control should
The aperture of master control valve in heating region reduces.
Preferably, the first detection data that the first detection device in each heating region is used to real-time detection and will test
It is sent to control device in real time;Control device is used to received first detection data and first threshold carrying out real time contrast, when
The first detection data in any one heating region is greater than first threshold, and control device controls the dress of the driving in the heating region
It sets and is acted, to drive the slagging mechanism in the heating region to carry out deslagging work;When slagging mechanism work, control device
The first detection data in the heating region is subjected to real time contrast with third threshold value, when the first testing number in the heating region
When according to being less than third threshold value, control device controls the driving device in the heating region and stops drive actions, so that the heating zone
Slagging mechanism in domain stops deslagging work.
Preferably, when the first detection data in any one heating region is greater than first threshold, in the heating region
Difference between first detection data and first threshold is bigger, and control device controls the driving of the driving device in the heating region
Power increases, so that the deslagging speed of the slagging mechanism in the heating region is speeded.
Preferably, slagging mechanism include rotary shaft and with rotary shaft be integrally formed and along the length direction spiral shell of rotary shaft
Revolve the helical runner of arrangement.
Preferably, driving device includes the motor for driving rotary shaft to rotate.
Preferably, when the second detection data in any one heating region is less than second threshold, in the heating region
The second detection data and second threshold between difference it is bigger, control device controls the heating device in the heating region in list
The heat of generation in the time of position is bigger, meanwhile, the aperture for controlling the master control valve in the heating region is bigger.
Preferably, when the second detection data in any one heating region is greater than second threshold, in the heating region
The second detection data and second threshold between difference it is bigger, control device controls the aperture of the master control valve in the heating region
It is smaller.
Preferably, heating device includes several heating mechanisms along furnace body short transverse layered arrangement.
Preferably, along furnace body short transverse, by being laterally away from the side of blast pipe row's layer, phase close to the one of blast pipe row's layer
Layer between adjacent two layers of heating mechanism is away from successively successively decreasing.
Preferably, heating mechanism is located in the same horizontal plane by several and the heating tube sequentially equidistantly arranged forms.
In the present invention, by the way that feeding port is arranged at the top of furnace body, make material by free feed at the top of furnace body;By throwing
End cap is set at material mouth and so that furnace chamber can be closed rubbish in furnace is smouldered;By the way that air supply tube is arranged in furnace
Layer is arranged, and is cooperated using blower device with air supply tube row's layer and is blown into furnace;By the way that air supply tube row's layer is arranged to multiple heating
Region, and one deslagging storehouse is set in the lower section of any one heating region, the first detection device and row are set in deslagging storehouse
Heating device and second detection device is arranged in the top of any one heating region in slag mechanism;Meanwhile make each heating region with
Independent master control valve is all had between blower device, and the slagging mechanism in each heating region is made to all have independent driving device,
It detect the first detection device in each heating region can to the grey quantity of slag in deslagging storehouse in the heating region, make each
Second detection device in heating region can detect the temperature in the heating region;Control device is set, and is made
The control device is detected with driving device, heating device, master control valve, the first detection device and second in each heating region respectively
Device connection, and utilize control device by the first detection data and the first threshold of the first detection device detection in each heating region
Value compares, compares the second detection data of the second detection device detection in each heating region and second threshold;
When the first detection data in any one heating region is greater than first threshold, controlled in the heating region using control device
Driving device movement, to drive slagging mechanism in the heating region to carry out deslagging work, to avoid in-furnace dust slag thickness mistake
Influence incineration firing effect in furnace greatly;When the second detection data of the second detection device detection in any one heating region
When less than second threshold, the heating device in the heating region is controlled using control device and carries out auxiliary heating, to realize to this
Rubbish in heating region is heated, and the rubbish in the heating region is avoided to consume self heat in furnace excessively, meanwhile, it utilizes
The aperture that control device controls the master control valve in the heating region increases, to increase the intake of the heating region, to enhance
Incineration firing effect in the heating region, is enhanced the self heat of the heating region;When in any one heating region
Second detection device detection the second detection data be greater than second threshold when, controlled in the heating region using control device
The aperture of master control valve reduces, and to reduce the intake of the heating region, to weaken incineration firing effect in the heating region, makes
The self heat of the heating region tends to be identical with the heat of other heating regions.It can be located in furnace by above-mentioned adjusting
The garbage disposal progress of same level tends to be identical, and rubbish is dried with lasting, efficient, stable rhythm, destructive distillation heat
The processing such as solution and reduction-oxidation.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of double adjustable type rubbish efficient process systems proposed by the present invention.
Specific embodiment
In the following, technical solution of the present invention is described in detail by specific embodiment.
As shown in FIG. 1, FIG. 1 is a kind of structural schematic diagrams of double adjustable type rubbish efficient process systems proposed by the present invention.
Referring to Fig.1, a kind of double adjustable type rubbish efficient process systems that the embodiment of the present invention proposes, comprising: furnace body 1, drum
Wind apparatus (being not drawn into figure) and control device (being not drawn into figure), in which:
The top of furnace body 1 is equipped with feeding port, is equipped with the end cap covered to feeding port at feeding port;In furnace body 1 and position
It is equipped with air supply tube row's layer 2 in the side close to its bottom, air supply tube row's layer 2 is by several air supply tubes with wind distributing hole
It sequentially equidistantly arranges, and along the orientation of air supply tube, every N root air supply tube forms a heating region, and the N is greater than
1 and be less than air-supply light pipe row layer in air supply tube total number;Blower device connect use with the air supply tube in each heating region respectively
In the air supply tube air-supply into each heating region, and it is equipped between blower device and each heating region and air output is controlled
Master control valve.
A deslagging storehouse 3 is equipped in furnace body 1 and below any one heating region, deslagging storehouse 3 has deslagging
Mouthful, be equipped with the slagging mechanism 4 for spread out of material residue in storehouse by slag-drip opening in deslagging storehouse 3, slagging mechanism 4 including rotary shaft, with
And the helical runner with rotary shaft integrated molding and the length direction screw arrangement along rotary shaft;Any one described heating region
The first detection device 5 for being detected to the grey quantity of slag stored in storehouse is equipped in interior deslagging storehouse 3;It is described any one
Slagging mechanism 4 in heating region is respectively connected with driving device (being not drawn into figure) and drives it by the driving device that it is connected
Movement, the driving device include the motor for driving rotary shaft to rotate.
It is equipped in furnace body 1 and above any one heating region and the temperature in the heating region is detected
Second detection device 6;Heating device 7, heating device 7 are equipped in furnace body 1 and above any one heating region
For providing heat.
Control device respectively in each heating region driving device, heating device 7, master control valve, the first detection device 5 and
Second detection device 6 connects;Control device is used to obtain the first detection data of the first detection device 5 in each heating region and will
The first detection data obtained is compared with preset first threshold;When the first detection data in any one heating region
When greater than first threshold, control device controls the movement of the driving device in the heating region, to drive the row in the heating region
Slag mechanism 4 carries out deslagging work;Control device is used to obtain the second detection data of second detection device 6 in each heating region simultaneously
The second detection data that will acquire is compared with preset second threshold;When the second testing number in any one heating region
When according to being less than second threshold, control device controls the heating region inner heating device 7 and carries out heating work, meanwhile, control should add
The aperture of master control valve in thermal region increases;When the second detection data in any one heating region is greater than second threshold,
The aperture that control device controls the master control valve in the heating region reduces.
The present invention makes material by 1 top free feed of furnace body by the way that feeding port is arranged at the top of furnace body 1;By throwing
End cap is set at material mouth and so that furnace chamber can be closed rubbish in furnace is smouldered;By the way that air supply tube is arranged in furnace
Layer 2 is arranged, and is cooperated using blower device with air supply tube row's layer 2 and is blown into furnace;By the way that air supply tube row's layer 2 is arranged to multiple add
Thermal region, and one deslagging storehouse 3 is set in the lower section of any one heating region, the first detection device 5 is set in deslagging storehouse 3
With slagging mechanism 4, heating device 7 and second detection device 6 are set in the top of any one heating region;Meanwhile making respectively to add
Independent master control valve is all had between thermal region and blower device, all has the slagging mechanism 4 in each heating region independent
Driving device, make the first detection device 5 in each heating region can to the grey quantity of slag in deslagging storehouse 3 in the heating region into
Row detection, detect the second detection device 6 in each heating region can to the temperature in the heating region;Setting control
Device processed, and fill the control device with the driving device in each heating region, heating device 7, master control valve, the first detection respectively
Set 5 and the connection of second detection device 6, and the first detection device 5 in each heating region is detected using control device first
The second detection data that detection data and first threshold compare, detects the second detection device 6 in each heating region with
Second threshold compares;When the first detection data in any one heating region is greater than first threshold, filled using control
The driving device movement controlled in the heating region is set, to drive the slagging mechanism 4 in the heating region to carry out deslagging work, with
It avoids in-furnace dust slag thickness excessive and influences incineration firing effect in furnace;Second detection device in any one heating region
When second detection data of 6 detections is less than second threshold, the heating device 7 in the heating region is controlled using control device and is carried out
Auxiliary heating, heats the rubbish in the heating region with realizing, the rubbish in the heating region is avoided to consume furnace excessively
Interior self heat, meanwhile, the aperture that the master control valve in the heating region is controlled using control device is increased, to increase the heating zone
The intake in domain is enhanced the self heat of the heating region to enhance incineration firing effect in the heating region;When
When the second detection data that second detection device 6 in any one heating region detects is greater than second threshold, filled using control
The aperture reduction for controlling the master control valve in the heating region is set, to reduce the intake of the heating region, to weaken the heating
Incineration firing effect in region makes the heat of the self heat of the heating region and other heating regions tend to be identical.By upper
It states the garbage disposal progress for adjusting and can be located on the same floor in furnace time and tends to be identical, and with lasting, efficient, stable rhythm
Rubbish is dried, the processing such as carbonization and reduction-oxidation.
In addition, in the present embodiment, the first detection device 5 in each heating region be used to real-time detection and will test
One detection data is sent to control device in real time;Control device is used to carry out received first detection data and first threshold real
When compare, when the first detection data in any one heating region is greater than first threshold, control device controls the heating region
Interior driving device is acted, to drive the slagging mechanism 4 in the heating region to carry out deslagging work;When 4 work of slagging mechanism
When making, the first detection data in the heating region is carried out real time contrast with third threshold value by control device, when the heating region
When the first interior detection data is less than third threshold value, it is dynamic that control device controls the stopping driving of the driving device in the heating region
Make, so that the slagging mechanism 4 in the heating region stops deslagging work;So as to retain the ash of certain thickness in deslagging storehouse always
Slag, to play the role of furnace bottom heat preservation.
In the present embodiment, when the first detection data in any one heating region is greater than first threshold, the heating zone
Difference in domain between the first detection data and first threshold is bigger, and control device controls the driving device in the heating region
Driving force increases, so that the deslagging speed of the slagging mechanism 4 in the heating region is speeded.
In the present embodiment, when the second detection data in any one heating region is less than second threshold, the heating zone
The second detection data in domain and the difference between second threshold are bigger, and control device controls the heating device in the heating region
The heat of 7 generation within the unit time is bigger, meanwhile, the aperture for controlling the master control valve in the heating region is bigger, so that should
The temperature of heating region is promoted rapidly.
In the present embodiment, when the second detection data in any one heating region is greater than second threshold, the heating zone
The second detection data in domain and the difference between second threshold are bigger, and control device controls the master control valve in the heating region
Aperture is smaller, with the temperature of the decrease fast heating region.
In the present embodiment, heating device 7 includes several heating mechanisms along 1 short transverse layered arrangement of furnace body, heating
Mechanism is located in the same horizontal plane by several and the heating tube sequentially equidistantly arranged forms;To realize in same heating region
Rubbish can be with leveled heating, to enhance heating effect.Simultaneously as rubbish top layer humidity is big, heat absorption capacity is strong, and most lower
Layer heat absorption capacity is weaker, therefore, along 1 short transverse of furnace body, by being laterally away from blast pipe row's layer close to the one of blast pipe row's layer
Side, layer between adjacent two layers heating mechanism is away from successively successively decreasing.
The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto,
Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its
Inventive concept is subject to equivalent replacement or the change, should be covered by the protection scope of the present invention.
Claims (10)
1. a kind of double adjustable type rubbish efficient process systems characterized by comprising furnace body (1), blower device and control dress
It sets, in which:
The top of furnace body (1) is equipped with feeding port, is equipped with the end cap covered to feeding port at feeding port;
In furnace body (1) and be located at and be equipped with air supply tube row layer (2) close to the side of its bottom, air supply tube row layer (2) if by
There is dry root the air supply tube of wind distributing hole sequentially equidistantly to arrange, and along the orientation of air supply tube, every N root air supply tube is formed
One heating region, the N are greater than 1 and are less than the total number of air supply tube in air supply tube row layer (2);
Blower device is connect respectively for the air supply tube air-supply into each heating region, and drum with the air supply tube in each heating region
The master control valve controlled air output is equipped between wind apparatus and each heating region;
A deslagging storehouse (3) is equipped in furnace body (1) and below any one heating region, deslagging storehouse (3) have row
Cinder notch is equipped with the slagging mechanism (4) for spreading out of material residue in storehouse by slag-drip opening in deslagging storehouse (3);
It is equipped in the corresponding deslagging storehouse (3) of described any one heating region for being detected to the grey quantity of slag stored in storehouse
The first detection device (5);
The corresponding slagging mechanism (4) of described any one heating region is respectively connected with driving device and is filled by the driving that it is connected
Set its movement of driving;
In furnace body (1) and it is located to be equipped with above any one heating region the temperature in the heating region is detected
Second detection device (6);
It is equipped with heating device (7) in furnace body (1) and above any one heating region, heating device (7) is for mentioning
Heating load;
Control device driving device corresponding with each heating region, heating device (7), master control valve, the first detection device (5) respectively
It is connected with second detection device (6);
Control device be used to obtain the first detection data of corresponding first detection device (5) of each heating region and will acquire the
One detection data is compared with preset first threshold;When corresponding first detection data of any one heating region is greater than the
When one threshold value, control device controls the corresponding driving device movement of the heating region, to drive the corresponding deslagging of the heating region
Mechanism (4) carries out deslagging work;
Control device be used to obtain the second detection data of the corresponding second detection device of each heating region (6) and will acquire the
Two detection datas are compared with preset second threshold;When corresponding second detection data of any one heating region is less than
When two threshold values, control device controls the corresponding heating device of the heating region (7) and carries out heating work, meanwhile, control the heating
The aperture of the corresponding master control valve in region increases;When corresponding second detection data of any one heating region is greater than second threshold
When, the aperture that control device controls the corresponding master control valve of the heating region reduces.
2. double adjustable type rubbish efficient process systems according to claim 1, which is characterized in that each heating region is corresponding
First detection device (5) is used to real-time detection and the first detection data that will test is sent to control device in real time;Control dress
It sets for received first detection data and first threshold to be carried out real time contrast, when any one heating region corresponding first
Detection data is greater than first threshold, and control device controls the corresponding driving device of the heating region and acted, and should be added with driving
The corresponding slagging mechanism of thermal region (4) carries out deslagging work;When slagging mechanism (4) work, control device is by the heating region
Corresponding first detection data and third threshold value carry out real time contrast, when corresponding first detection data of the heating region is less than the
When three threshold values, control device controls the corresponding driving device of the heating region and stops drive actions, so that the heating region is corresponding
Slagging mechanism (4) stop deslagging work.
3. double adjustable type rubbish efficient process systems according to claim 1, which is characterized in that when any one heating zone
When corresponding first detection data in domain is greater than first threshold, between corresponding first detection data of the heating region and first threshold
Difference it is bigger, control device control the corresponding driving device of the heating region driving force increase so that the heating region pair
The deslagging speed for the slagging mechanism (4) answered is speeded.
4. double adjustable type rubbish efficient process systems according to claim 1, which is characterized in that when any one heating zone
When corresponding second detection data in domain is less than second threshold, between corresponding second detection data of the heating region and second threshold
Difference it is bigger, the heat that control device controls generation of the corresponding heating device of the heating region (7) within the unit time is got over
Greatly, meanwhile, the aperture for controlling the corresponding master control valve of the heating region is bigger.
5. double adjustable type rubbish efficient process systems according to claim 1, which is characterized in that when any one heating zone
When corresponding second detection data in domain is greater than second threshold, between corresponding second detection data of the heating region and second threshold
Difference it is bigger, the aperture that control device controls the corresponding master control valve of the heating region is smaller.
6. double adjustable type rubbish efficient process systems according to claim 1, which is characterized in that heating device (7) includes
Several heating mechanisms along furnace body (1) short transverse layered arrangement.
7. double adjustable type rubbish efficient process systems according to claim 6, which is characterized in that along furnace body (1) height side
To, by being laterally away from the side of blast pipe row's layer close to the one of blast pipe row's layer, layer between adjacent two layers heating mechanism away from according to
It is secondary to successively decrease.
8. double adjustable type rubbish efficient process systems according to claim 7, which is characterized in that heating mechanism is by several
The heating tube composition for being located in the same horizontal plane and sequentially equidistantly arranging.
9. double adjustable type rubbish efficient process systems according to claim 1 to 8, which is characterized in that slag extractor
Structure (4) includes rotary shaft and the helical runner with rotary shaft integrated molding and the length direction screw arrangement along rotary shaft.
10. double adjustable type rubbish efficient process systems according to claim 9, which is characterized in that driving device includes using
In the motor of driving rotary shaft rotation.
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CN102042597B (en) * | 2010-12-10 | 2012-08-22 | 江苏三信环保设备有限公司 | Household garbage incineration and flue gas processing system and method for processing household garbage |
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