CN208824191U - Aluminium anode assembly room bitumen flue gas processing system - Google Patents
Aluminium anode assembly room bitumen flue gas processing system Download PDFInfo
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- CN208824191U CN208824191U CN201821135281.1U CN201821135281U CN208824191U CN 208824191 U CN208824191 U CN 208824191U CN 201821135281 U CN201821135281 U CN 201821135281U CN 208824191 U CN208824191 U CN 208824191U
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Abstract
The utility model provides a kind of aluminium anode assembly room bitumen flue gas processing system, including receives cigarette unit, multiple branch reactors, hot air apparatus, settlement barrel, main reactor, dust-extraction unit, carbon dust supply unit, control unit.Cigarette cell distribution is received in each equipment room;Hot air apparatus, branch reactor, settlement barrel, main reactor, deduster and blower connect into an entirety by pipeline;Carbon dust supply unit is connected on each reactor by pipeline;Control unit is mainly made of sensor and control system, sensor is distributed in entire bitumen flue gas processing system, acquisition pressure, temperature, moisture signal simultaneously send control system to, and control system is mainly to handle the start and stop of the equipment such as signal, control air-introduced machine revolving speed, the powder sending quantity for controlling carbon dust supply unit, control hot air apparatus, carbon dust conveying part, air-introduced machine.The utility model processing flue gas effect is good, realizes high standard discharge, realizes cleaning automatically inside pipeline, reduces line clogging failure.
Description
Technical field
The utility model belongs to fume treatment technical field, and in particular at a kind of bitumen flue gas of aluminium anode assembly room
Reason system.
Background technique
A large amount of bitumen flue gas can be generated in aluminium anode assembly room during production, if not at it
Reason, will seriously pollute environment, and damage the health of worker, and flue gas emission is not up to standard in workshop.The prior art is mainly
Adsorbed using black method to adsorb by each glance coal for receiving of receipts smoke pipeline in workshop, technology composition mainly have receive smoke pipeline,
Venturi reactor, feed powder cabin, deduster and dedusting fan are constituted, and disadvantage has following point:
1, using open collection, glance coal is easy to overflow, and causes to pollute in workshop, strong to the body of field personnel
Health impacts, and standard is also not achieved in discharge.
2, the specified rate of powder and the ratio of flue gas are not achieved optimal, and only one place of black powder is given, branch
Upper oil accumulation easy to form adheres to powder, ultimately causes blocking, makes systemic breakdown.
3, entire black method adsorption system does not have a fibre selection, and thickener during high temperature kneading to low temperature moulding, paste
The cooling of material is mainly sprayed water, and most steam is had during collection flue gas and also enters cigarette system of receiving, after smoke temperature reduces
Water vapor condensation Cheng Shui seriously affects the absorption of powder, and the black powder with glance coal and moisture is easy to be adhered on cloth bag, makes
Dust collector efficiency reduces, ultimate failure.
4, forming area exhaust gas volumn is less, but desired air quantity is larger, when directly receiving cigarette with open pipeline, system
Air quantity accounts for greatly, makes the reduction of whole system efficiency, and the flue gas of rest part is easy to appear excessive phenomenon, gives workshop ring
Border causes seriously to pollute, and does not finally reach requirement environmental protection.
5, using Direct Action Type pulse jet, efficiency of dust collection is low for the control of deduster, and the spoilage of cloth bag is higher.
Utility model content
The utility model is to carry out to solve the above-mentioned problems, and it is an object of the present invention to provide a kind of processing flue gas effect is good,
High standard discharge, is easy to collect flue gas, protective conduit is not easy to be blocked, the aluminium anode assembly room glance coal of high dust collection efficiency
Gas processing system.
The utility model provides a kind of aluminium anode assembly room bitumen flue gas processing system, for collecting and handling aluminium
With the glance coal and dust in anode assembly room characterized by comprising
Cigarette unit is received, glance coal, the vapor volatilized when producing anode in aluminium anode assembly room for collecting
And dust, including multiple receipts petticoat pipes, a receipts are respectively provided in the import or export for having the equipment for easily emitting glance coal or dust
Petticoat pipe, it is each receive petticoat pipe where bye-pass on be provided with semi-open type valve;
Multiple branch reactors, the glance coal for collecting the receipts cigarette unit are mixed with carbon dust in advance, with it is described
The connection of cigarette unit is received, the outlet of each branch reactor is both connected on the first pipeline;
Hot air apparatus is connect for providing hot wind with the branch reactor in cooler overhead gas exit;
Settlement barrel carries out mixing sedimentation for that will take out the mixed gas come from multiple branch reactors, and described
First piping connection;
Main reactor is arranged in the top of the settlement barrel and is connected to the settlement barrel, and being used for will be in the settlement barrel
Gas be sufficiently mixed with carbon dust;
Dust-extraction unit goes out including the deduster that connect with the outlet end of the main reactor and with the deduster
The air-introduced machine of air port connection, the deduster are used to for the mixed dust gas come out in the main reactor being filtered, institute
Air-introduced machine is stated for providing negative pressure;
Carbon dust supply unit, for carbon dust to be transported in each branch reactor and the main reactor, comprising:
Carbon dust feed hopper, intermediate bunker, multiple carbon dust weighing equipments and multiple feeding fans, the first of the carbon dust feed hopper go out
Mouthful connect with the main reactor, be provided with dosing valve on the pipeline of the first outlet, the intermediate bunker with it is described
The connection of carbon dust feed hopper, the discharge port of the intermediate bunker are located at the surface of the carbon dust weighing equipment, the feeding fan
It is connect with the discharge port of the carbon dust weighing equipment, the discharge port of the carbon dust weighing equipment is separately connected multiple institutes by pipeline
State branch reactor;
Control unit, comprising: multiple first temperature sensors, multiple smoke detectors, multiple humidity sensors, Duo Gefeng
Quantity sensor and controller,
The multiple first temperature sensor be separately positioned on the dust-extraction unit inlet and each branch it is anti-
The exit of device is answered, the multiple first temperature sensor and the hot air apparatus are connect with the controller, the control
Device controls starting or stoping for the hot air apparatus, and controls the hot wind according to the temperature of the multiple first temperature sensor
The hot wind input quantity of device,
Be respectively provided with the air flow sensor on bye-pass where each receipts petticoat pipe, each air flow sensor and
The semi-open type valve is connect with the controller, and the controller is controlled according to the production process of aluminium anode assembly room
Fifty-fifty open type valve opens or closes, and corresponding described half-open according to the control of the signal of each air flow sensor
The aperture of formula valve,
For the smoke detectors for measuring exhaust gas volumn in pipeline, the multiple smoke detectors are separately positioned on each institute
The inlet of branch reactor is stated,
The humidity sensor is used to measure the inlet gas humidity of the branch reactor, the multiple humidity sensor
Device is separately positioned on the inlet of each branch reactor,
The smoke detectors, the humidity sensor and the carbon dust supply unit are connect with the controller, institute
It states controller and controls starting and stopping for the carbon dust supply unit, according to the exhaust gas volumn and described of smoke detectors measurement
Carbon dust supply unit described in the humid control of humidity sensor measurement is the predetermined weight of the corresponding branch reactor conveying
Carbon dust,
The air-introduced machine is connect with the controller, and the controller controls starting or stoping for the air-introduced machine, and controls
Make the revolving speed of the air-introduced machine.
Further, in aluminium anode assembly room bitumen flue gas processing system provided by the utility model, can also have
Have such feature: aluminium anode assembly room bitumen flue gas processing system further includes security protection unit, comprising: is mounted on the heat
The one-way check valve on pipeline between wind apparatus and cooler is mounted between the main reactor and the dust-extraction unit
The pneumatic stopping valve that is connect on second pipe and with the controller, it is multiple be separately mounted to each branch reactor outlet end and
It hand stop valve on first pipeline and is mounted on and the fire water that on the second pipe and is connect with the controller
Water filling port and for measuring the temperature second temperature sensor in the second pipe, the fire water water filling port and described second
Temperature sensor is arranged between the pneumatic stopping valve and the main reactor.
Further, in aluminium anode assembly room bitumen flue gas processing system provided by the utility model, can also have
There is such feature: where the blowing mouth of the deduster uses built-in blow-through nozzle, and is blown using differential spray
It blows.
Further, in aluminium anode assembly room bitumen flue gas processing system provided by the utility model, can also have
Have such feature: aluminium anode assembly room bitumen flue gas processing system further includes recycling toner, of the deduster
Grain outlet is connect with the feed inlet of the recycling toner.
Further, in aluminium anode assembly room bitumen flue gas processing system provided by the utility model, can also have
There is such feature: where the hot air apparatus includes that air blower and the heat connecting with the air outlet of the air blower occur
The air outlet of device, the heater is connected by the branch reactor of pipeline and the gas outlet of cooler.
Further, in aluminium anode assembly room bitumen flue gas processing system provided by the utility model, can also have
There is such feature: being provided with the first volume damper, institute on the pipeline connected between the air blower and the heater
It states and is provided with the second volume damper on the pipeline connected between air-introduced machine and the deduster, the exit of the feeding fan
It is provided with third volume damper, first volume damper, second volume damper, the third volume damper
It is connect with the controller.
Further, in aluminium anode assembly room bitumen flue gas processing system provided by the utility model, can also have
There is such feature: being provided with particle collection trough below the ash hole of the settlement barrel.
The advantages of the utility model, is as follows:
The aluminium anode assembly room bitumen flue gas processing system according to involved in the utility model, because, in aluminium sun
In the assembly room of pole, it is respectively provided with a receipts petticoat pipe in the import or export for having each equipment for easily emitting glance coal or dust,
Therefore, the glance coal, vapor and dust of all generations can be collected, collecting effect is good, reduces pitch in workshop
The pollution of flue gas and dust, and be much less relative to open collection system air quantity dosage, system effectiveness is high;Petticoat pipe will be received
It is connect with branch reactor, and conveys the carbon dust of constant weight into branch reactor by carbon dust supply unit, adsorbed in advance
Flue gas and vapor in pipeline, while flue gas is by that can form vortex, in pipeline so as to utilize after branch reactor
Powder cleans inner wall of the pipe, prevents line clogging;Each branch reactor is connect by the first pipeline with dsah-pot, dsah-pot and
Main reactor connection, the defeated portion of carbon dust provide the carbon dust of predetermined quality to main reactor, absorb in advance by each branch reactor
Flue gas enters buffer barrel and is sufficiently mixed, and simply filters out the bulky grain in mixed gas, and glance coal and vapor exist
It is sufficiently adsorbed, makes into the dry easily conveying of the powder of deduster by carbon dust in main reactor;In the gas outlet with cooler
Branch reactor on connect hot air apparatus, hot air apparatus is to provide hot wind in the branch reactor, by the air outlet of cooler
The flue gas and vapor of discharge heat, so that flue gas and vapor remain gaseous state before entering in the first pipeline, and
Flue gas and water in the first pipeline will not be reduced after the flue gas and vapor that the air outlet of cooler is discharged enter in the first pipeline
The temperature of steam avoids reducing because of temperature, water so that flue gas and vapor remain gaseous state in the pipeline before air-introduced machine out
Devaporation Cheng Shuihou, to be adhered on tube wall, is finally led so that carbon dust, glance coal and dust form tar in pipeline
Cause line clogging, receive cigarette thrashing, and be adsorbed with the carbon dust of glance coal and water when the temperature is low, because Water vapor condensation at
Water is easily adhered on the cloth bag of deduster, is not easy to be removed in deduster deashing, is reduced dust collector efficiency, and finally lead
Cause failure.
Detailed description of the invention
Fig. 1 is the schematic diagram of aluminium anode assembly room bitumen flue gas processing system in the utility model.
Specific embodiment
In order to be easy to understand the technical means, creative features, achievement of purpose, and effectiveness of the utility model, with
Lower embodiment combination attached drawing is specifically addressed the utility model aluminium anode assembly room bitumen flue gas processing system.
As shown in Figure 1, aluminium anode assembly room include: pitch storage tank 201, it is preheating spiral machine 209, kneading machine 202, cold
But machine 203, vibratory feed unit 204, multiple molding machines 205, feed hopper 206, useless paste belt 207, pitch weighing pot 208.Pitch
Storage tank 201 is for storing pitch.Pitch weighing pot 208 is used to weigh the drip for needing to be added before pitch enters kneading machine 202
Green quality.Preheating spiral machine 209 before entering kneading machine 202, material preheat for material.Material and
Kneading machine 202 is added from two entrances respectively according to certain quality in pitch, and kneading machine 202 carries out material and pitch abundant
After reacting and mixing, from the discharge port of kneading machine 202 be discharged, from kneading machine 202 be discharged material enter in cooler 203 into
Row misting cooling, cooler 203 are connected with cold water pipe.Material after carrying out misting cooling in cooler 203 is from cooler 203
Material outlet come out after enter vibratory feed unit 204.When just starting production, the thickener come out from cooler 203 is waste material,
Vibratory feed unit 204 will turn to useless paste 207 side of belt, toward useless paste Belt Conveying thickener, is transported away by useless paste belt 207, wait paste
After material is qualified, vibratory feed unit 204 will turn to 206 side of feed hopper, and normal thickener enters feed hopper 206, and feed hopper 206 is by thickener
It is conveyed to molding machine 205.Glance coal can be volatilized when exhaust outlet, the pitch weighing pot 208 of pitch storage tank 201 weigh pitch,
Material can also volatilize during conveying between the various devices locates a large amount of glance coals, and preheating spiral machine 209 can generate a large amount of powder
Dirt.
Aluminium anode assembly room bitumen flue gas processing system 100 is waved in aluminium anode assembly room for collecting and handling
The glance coal and dust of sending.As shown in Figure 1, aluminium anode assembly room bitumen flue gas processing system 100 includes: to receive cigarette list
First, multiple branch reactors 102, settlement barrel 103, main reactor 104, dust-extraction unit 105, hot air apparatus 106, carbon dust delivery section
107, control unit.
Cigarette portion 101 is received for collecting in aluminium anode assembly room all glance coal or dust of capable of volatilizing into air
Flue gas in equipment.Receiving cigarette portion includes multiple receipts petticoat pipes, in the import for having each equipment for easily emitting glance coal or dust or
Outlet is respectively provided with a receipts petticoat pipe.In the present embodiment, all generation glance coals, vapor and powder in aluminium anode assembly room
The equipment of dirt specifically includes that pitch storage tank 201, preheating spiral machine 209, kneading machine 202, cooler 203, vibratory feed unit
204, molding machine 205, feed hopper 206, useless paste belt 207, pitch weighing pot 208.Receive cigarette portion be mainly these equipment into
Petticoat pipe is received in installation in material mouth or discharge port.In the present embodiment, receiving cigarette portion 101 includes: to be arranged in 201 top opening of pitch storage tank
The first receipts petticoat pipe 1011 at place, is arranged in pitch weighing tank 208 the second receipts petticoat pipe 1012 that 202 discharge port of kneading machine is arranged in
The third at top receives petticoat pipe 1013, the 4th be arranged in above the gas vent of cooler 203 receipts petticoat pipe (is not drawn into this receipts in figure
Petticoat pipe), the 5th receipts petticoat pipe 1015 that useless 207 top of paste belt is set, be arranged in the 6th of 204 top of vibratory feed unit and receive cigarette
Cover 1016, the 7th receipts petticoat pipe 1017 that 206 top of feed hopper is set, the 8th receipts petticoat pipe that 205 top of molding machine is set
1018, the 9th that 209 feed inlet and outlet of preheating spiral machine is arranged in receives petticoat pipe 1019.All receipts petticoat pipes are on the market may be used at present
Directly to buy the receipts petticoat pipe used, this patent does not carry out any improvement to petticoat pipe itself is received.Certainly, if aluminium anode at
It further include the equipment of other generation glance coals, vapor and dust in type workshop, then the outlet or inlet of the equipment also should
Petticoat pipe is received in installation.
It is provided with semi-open type valve 113 on bye-pass where each receipts petticoat pipe and (only identifies a molding machine in Fig. 1
205 top receive hood outlet at semi-open type valve 113, it is other it is identical with 113 symbols be semi-open type valve).It is half-open
Air quantity of the formula valve 113 on the bye-pass where controlling corresponding receipts petticoat pipe.
Multiple branch reactors 102 are connect with cigarette portion 101 is received, and are mixed for that will receive the flue gas that cigarette portion 101 is collected with carbon dust,
So that carbon dust absorbs flue gas.The outlet of each branch reactor 102 is both connected on the first pipeline 110, multiple branch reactors
Gas in 102 after hybrid reaction enters in the first pipeline 110.Due to kneading machine 202 come out temperature of charge 170 DEG C with
On, the temperature of charge that cooler 203 exports is at 145 DEG C or so, and cooler 203 carries out the material come out in kneading machine 202
Mist cooling mainly is used when cooling, therefore has a large amount of vapor and glance coal mixture from 203 gas vent of cooler,
It in order to avoid vapor condenses into water to the cold, needs to be passed through it hot wind, therefore, cooler 203 need to individually connect a branch
Reactor.In the present embodiment, each branch reactor 102 connects at least one and receives petticoat pipe, each branch reactor connection
Receive petticoat pipe quantity and the flue gas that can collect of the receipts petticoat pipe number and equipment between spatial position it is related.It is right to receive petticoat pipe institute
The glance coal that the equipment answered volatilizes is more, then the flue gas that the receipts petticoat pipe is collected is more, then should individually connect a branch reactor, or
Person's receipts petticoat pipe small with other receipts smoke connect a branch reactor jointly;Distance is close between equipment, then the distance is close sets
The receipts petticoat pipe of standby upper setting can connect the same branch reactor.Specifically, pitch storage tank 201, preheating spiral machine 209 and pitch
Weighing pot 208 connects a branch reactor, and kneading machine 202 connects a branch reactor, and give up paste belt 207 and part form
Machine 205 connects a branch reactor, and it is anti-that vibratory feed unit 204, part molding machine 205 and feed hopper 206 connect a branch
Answer device.The main function of branch reactor 102 is to mix carbon dust with flue gas, so that carbon dust elder generation absorbed portion flue gas and water steam
Gas, adsorbs flue gas in advance, at the same branch reactor 102 make flue gas after being come out in branch reactor 102 in pipeline shape
At vortex, inner wall of the pipe is cleaned using the frictional force of carbon dust.
Settlement barrel 103 is used to take out the mixed gas come from multiple branch reactors 102 and carries out hybrid separation.First pipe
Road 110 is connected on settlement barrel 103.The mixed gas come is taken out from multiple branch reactors 102 to be formed in settlement barrel 103
Spiral vortex type rotation, is sufficiently mixed the gas entered in the first pipeline 110 from different branch reactor 102, and will be in gas
Bulky grain is deposited to 103 bottom of settlement barrel, and mixed gas enters in main reactor 104.
In the present embodiment, 103 bottom of settlement barrel is provided with particle collection trough 111, is deposited to the big of 103 bottom of settlement barrel
Particle is fallen into particle collection trough 111.
Main reactor 104 is for the gas in settlement barrel 103 to be sufficiently mixed with carbon dust.The setting of main reactor 104 is heavy
It drops the top of cylinder 103 and is connected to settlement barrel 103, when the mixed gas in settlement barrel 103 is entered in main reactor 104, due to
The bore of the entrance of main reactor 104 is small, therefore wind speed is greatly improved, and mixed gas and carbon dust delivery section 107 convey
It is sufficiently mixed to the carbon dust in main reactor 104, thus by glance coal and water vapor adsorption in mixed gas.
Dust-extraction unit 105 is used to after being filtered the mixed gas after carbon dust absorption in main reactor discharge and is entire
System provides negative pressure.Dust-extraction unit 105 includes: deduster 1051 and air-introduced machine 1052.Deduster goes out with main reactor 104
Mouth end is connected by second pipe 112, and the air outlet of deduster 1051 is connect with air-introduced machine 1052.Deduster 1051 is used for will
The mixed dust gas come out in main reactor 104 is filtered, and guarantees the dustiness inside the gas of discharge lower than 10mg/
m3.Controller controls reversed injecting velocity according to the size of negative pressure in deduster 1051, by what is adhered in 1051 cloth bag of deduster
Particle is removed, and the filter efficiency of deduster 1051 is restored, and improves the deashing effect of deduster as far as possible using limited resource
Rate.Air-introduced machine is used to for whole system provide enough negative pressure, and in the present embodiment, air-introduced machine is using frequency control, according to being
The revolving speed of the data point reuse air-introduced machine of unified test amount can not only provide enough negative pressure well for system, guarantee to receive cigarette effect,
But also save electric energy.
In the present embodiment, the adjusting of the second air quantity is provided on the pipeline connected between air-introduced machine 1052 and deduster 1051
Valve 1053, the second volume damper 1053 are connect with control unit, and control unit controls the second volume damper 1053, the second wind
Amount adjusts the air quantity that 1053 valves are used to adjust air-introduced machine 1052.
In the present embodiment, the blowing mouth of deduster 1051 is using built-in blow-through nozzle, and is blown using pressure
Differential blowing, i.e. cloth bag inside and outside differential pressure driving blowing, blowback pressure when improving the efficiency of dust collection on dust-collecting bag, and being blown
Power acts on the entire inner surface of cloth bag, therefore uniform force of the Action of Wind pressure on cloth bag, protects cloth bag well, very
The service life for extending cloth bag of big degree.
Hot air apparatus 106 is used to provide hot wind, the gas outlet of the air outlet and cooler 203 of hot air apparatus 106
The connection of branch reactor.In the branch reactor for the gas outlet that the hot wind that hot air apparatus 106 provides enters cooler 203,
Flue gas and the vapor heating that the air outlet of cooler 203 is discharged, so that flue gas and vapor enter the first pipe in pipeline
Gaseous state is remained before in road 110, and enters the first pipe in the flue gas of the air outlet of cooler 203 discharge and vapor
The temperature that flue gas and vapor in the first pipeline 110 will not be reduced after in road 110, so that flue gas and vapor are in air-introduced machine out
Remain gaseous state in pipeline before 1052, avoid because temperature reduce, Water vapor condensation Cheng Shuihou so that carbon dust, glance coal and
Dust forms tar in pipeline, to be adhered on tube wall, eventually leads to line clogging, receives cigarette thrashing, and adsorb
There is the carbon dust of glance coal and water because of Water vapor condensation Cheng Shui, to be adhered on the cloth bag of deduster when the temperature is low, it is clear in deduster
It is not easy to be removed when grey, reduces dust collector efficiency, and eventually lead to failure.
In the present embodiment, hot air apparatus 106 includes: air blower 1061 and heater 1062.Air blower 1061 goes out
Air port connects heater 1062, the branch that the air outlet of heater 1062 passes through pipeline and the gas outlet of cooler 203
The connection of road reactor.The wind that air blower 1061 is blown out is blown out after being heated by heater 1062.
In the present embodiment, the first air quantity tune is provided on the pipeline connected between air blower 1061 and heater 1062
Valve 1063 is saved, the first volume damper 1063 is connect with controller, and controller controls the first volume damper 1063, the first air quantity
1063 valves are adjusted for adjusting the air quantity of air blower blowout wind.
Carbon dust supply unit 107 is used to provide carbon dust for each branch reactor 102 and main reactor 104.Carbon dust conveying
Unit 107 is connect with control unit.Carbon dust supply unit 107 includes: carbon dust feed hopper 1071, intermediate bunker 1072, multiple carbon
Powder weighing equipment 1073 and multiple feeding fans 1074.Carbon dust feed hopper 1071 is for storing carbon dust.Carbon dust feed hopper 1071
First discharge port is connect with main reactor 104, and the first discharge outlet is provided with dosing valve 1075, dosing valve 1075
It is connect with control unit, a certain amount of carbon dust is conveyed into main reactor 104 by adjustment quantitative feed valve 1075, to control
Carbon dust amount and exhaust gas volumn processed reach certain ratio, enable carbon dust to fully absorb flue gas and vapor, avoid because of carbon dust amount
Excessively, the load of wasted toner and increase deduster 1051;Or because carbon dust amount is very few, flue gas and vapor cannot be adsorbed completely,
Cause the gas being discharged at air-introduced machine 1052 not up to standard.The feed inlet of intermediate bunker 1072 goes out with the second of carbon dust feed hopper 1071
Material mouth connection, the discharge port of intermediate bunker 1072 are used to provide carbon dust, a feeding for each carbon dust weighing equipment 1073
Blower 1074 is connect with the discharge port of a carbon dust weighing equipment 1073, and the discharge port of each carbon dust weighing equipment 1073 leads to respectively
One branch reactor 102 of different piping connections is crossed, i.e., each carbon dust weighing equipment 1073 is corresponding branch reactor 102
It is individual pipeline when carbon dust is provided, there is no common conduit parts (in Fig. 1, in each carbon dust weighing equipment 1073 from out
When material mouth connects a branch reactor, a part of pipeline is shown as a pipeline, overlaps actually for multiple and different pipelines
Together, the carbon dust source merely for convenience for showing out branch reactor 102 in Fig. 1).Each feeding fan 1074 and carbon dust claim
Amount equipment 1073 is connect with control unit.Control unit controls the carbon that each carbon dust weighing equipment 1073 weighs certain mass
Powder is blowed carbon dust into corresponding branch reactor 102 by feeding fan 1074.
In the present embodiment, the exit of feeding fan 1074 is provided with third air quantity valve 1075, third air quantity valve 1075
It is connect with controller, controller controls third air quantity valve 1075, and third air quantity valve 1075 is used to adjust the wind of feeding fan blowout
Amount.
In the present embodiment, aluminium anode assembly room bitumen flue gas processing system 100 further includes recycling toner 114,
The particle discharge ports of deduster 1051 are connect with the feed inlet of recycling toner 114.It recycles toner 114 and is used for collecting dust-removing device
The carbon dust containing glance coal filtered out in 1051.The top of the particle discharge ports of deduster 1051 and recycling toner 114 into
Screw mixer 115 is additionally provided between material mouth, the carbon dust containing glance coal filtered out from deduster 1051 is stirred in spiral
It mixes and is entering recycling toner 114 after being thoroughly mixed in machine 115.
Control unit includes: multiple first temperature sensors 108, multiple smoke detectors (not shown), multiple wet
Spend sensor (not shown), multiple air flow sensor (not shown) and controller (not shown).
Multiple first temperature sensors 108 be separately positioned on dust-extraction unit 105 inlet and each branch reactor 102
Exit, wherein the first temperature sensor 108 of the inlet that dust-extraction unit 105 is set only has been marked in Fig. 1, scheme
In it is other with the 108 identical symbols of label be temperature sensor.Multiple first temperature sensors 108 and hot air apparatus 106 are equal
It is connect with controller, controller control hot air apparatus 106 starts or stops, and according to the temperature of multiple first temperature sensors
Control the hot wind input quantity of hot air apparatus 106.
The inlet of each branch reactor 102 be respectively provided with one for measure in pipeline the smoke detectors of exhaust gas volumn and
The humidity sensor of one inlet gas humidity for measuring branch reactor.Each smoke detectors, each humidity pass
Sensor and carbon dust supply unit 107 are connect with controller, and controller control carbon dust supply unit 107 starts or stops, and
Humid control carbon dust supply unit 107 according to the exhaust gas volumn of smoke detectors measurement and humidity sensor measurement is corresponding branch
The carbon dust of the predetermined quality of road reactor conveying controls the carbon dust that corresponding carbon dust weighing equipment 1073 weighs predetermined quality,
Carbon dust is transported in corresponding branch reactor by connected feeding fan 1074.
An air flow sensor, each air flow sensor and semi-open type valve are respectively provided on bye-pass where each receipts petticoat pipe
Door 113 is connect with controller, and production process when controller produces anode according to aluminium anode assembly room controls each half-open
Formula valve 113 opens or closes, and controls opening for corresponding semi-open type valve according to the signal of each air flow sensor
Degree not only reduces the air quantity of system, and improves the efficiency of air-introduced machine 1052.
Air-introduced machine 1052 is connect with controller, and controller control air-introduced machine 1052 starts and stops, and controls air-introduced machine
1052 revolving speed.
In the present embodiment, aluminium anode assembly room bitumen flue gas processing system 100 further includes security protection unit, security protection list
Member includes: one-way check valve 1091 on the pipeline being mounted between hot air apparatus 106 and cooler 203, is mounted on main reaction
The pneumatic stopping valve 1092 on second pipe 112, Anduo County between device 104 and dust-extraction unit 105 are separately mounted to each
Hand stop valve 1093 on road reactor outlet end and the first pipeline 110 (only identifies a hand stop valve in Fig. 1
In 1093, Fig. 1 it is other it is identical with 1093 symbols be hand stop valve), be mounted on and fire-fighting water filling port on second pipe 112
1094, fire-fighting water filling port 1094 is set between pneumatic stopping valve 1092 and main reactor 104, pneumatic stopping valve 1092 and master
The second temperature sensor of the temperature in the second pipe 112 for measurement, fire-fighting water filling port are additionally provided between reactor 104
1094 valve and second temperature sensor is connect with controller, and pneumatic stopping valve 1092 is connect with controller.It is unidirectional non-return
Valve 1091 for prevent cooler 203 break down when, flue gas blowback condenses to form tar after pollute hot air apparatus 106, and
Temperature is relatively high at work for hot air apparatus 106, and the tar that is easy to ignite causes fire.Pneumatic stopping valve 1092 is used in each branch
Controller can control when the temperature that the temperature sensor in the exit of reactor 102 is shown exceeds predetermined threshold closes gas in time
Dynamic shut-off valve 1092, so that the first pipeline 110 and 112 inside of second pipe and air exclusion, avoid the generation of fire.It cuts manually
Only valve 1093 is used to occur in pipeline that each shut-off valve to be turned off manually when fire, further such that pipeline inside and air exclusion.
It is off state when fire-fighting 1094 normal condition of water filling port, when pneumatic stopping valve 1092 is closed, controller is according to second temperature
Temperature in the second pipe 112 of sensor measurement opens the valve of fire-fighting water filling port 1094, the valve of fire-fighting water filling port 1094
After door is opened, fire water is injected into second pipe 112 and is put out a fire.
In aluminium anode assembly room during producing anode, aluminium anode assembly room bitumen flue gas processing system
100 operating procedure is as follows:
When aluminium anode assembly room produces, before the starting of kneading machine 202, pre-cooling deduster 1051, air-introduced machine
1052 and according to air quantity open it is each receive hood outlet semi-open type valve (in addition to the receipts on feed hopper 206 and molding machine 205
The semi-open type valve of petticoat pipe is in off state, because feed hopper 206 and molding machine 205 are in work original state without material).?
After kneading machine 202 starts, carbon dust delivery section 107 and hot air apparatus 106 are worked normally, and controller is according to each branch reactor
The exhaust gas volumn of smoke detectors measurement and the humid control carbon dust delivery section 107 of humidity sensor measurement of 102 inlet are every
A branch reactor 102 provides the carbon dust of corrresponding quality, the air flow sensor control on bye-pass where each receipts petticoat pipe
Make the aperture of the corresponding semi-open type valve for receiving petticoat pipe of each equipment.In the present embodiment, by useless paste belt 207, feed hopper 206
Molding machine region is used as with molding machine 205.Before initial production, thickener is more from the material come out in cooler 203, vibration
Initial thickener is conveyed to useless paste belt 207 by feed hopper 204, and the exhaust gas volumn main source in molding machine region is useless paste belt
At 207.Therefore, the semi-open type valve on the useless paste belt 207 in controller control molding machine region is opened, and controls molding machine region
Feed hopper 206 and molding machine 205 on receipts petticoat pipe semi-open type valve close;During normal production, it is come out from cooler 203
Material be normal material, material is conveyed to feed hopper 206 by vibratory feed unit 204, and feed hopper 206 is respectively each molding machine
205 feedings, therefore, during normal production, controller controls the semi-open type valve of the receipts petticoat pipe on the feed hopper 206 in molding machine region
It opens, and is the sequence of each 205 feeding of molding machine according to feed hopper 206, opening on the molding machine 205 being fed is
The semi-open type valve for receiving petticoat pipe greatly increases air-introduced machine 1052 to largely reduce the air quantity in molding machine region
Negative pressure utilization rate.And for each equipment, all setting receipts petticoat pipe carries out receipts cigarette to the utility model, also solves molding machine area
Domain flue gas is difficult to the problem of collecting.
During production, controller is according to the first temperature sensor 108 of the inlet that dust-extraction unit 105 is arranged in
The hot wind input quantity of hot air apparatus 106 is controlled with the temperature of the temperature sensor measurement in the exit of each branch reactor 102,
When the smoke temperature value of each temperature sensor measurement is less than given threshold, controller control hot air apparatus 106 provides more hot winds,
To improve the smoke temperature in pipeline, so that the vapor and flue gas in pipeline are always gaseous state.Controller is reacted according to each branch
The exhaust gas volumn of the corresponding smoke detectors measurement of device and the humid control carbon dust delivery section 107 of humidity sensor measurement are each
Road reactor conveys the carbon dust of predetermined quality, adsorbs flue gas and vapor in pipeline in advance.
Above embodiment is the preferred case of the utility model, is not intended to limit the protection scope of the utility model.
Claims (7)
1. a kind of aluminium anode assembly room bitumen flue gas processing system, for collecting and handling in aluminium anode assembly room
Glance coal and dust characterized by comprising
Cigarette unit is received, glance coal, vapor and the powder volatilized when producing anode in aluminium anode assembly room for collecting
Dirt, including multiple receipts petticoat pipes are respectively provided with a receipts petticoat pipe in the import or export for having the equipment for easily emitting glance coal or dust,
Semi-open type valve is provided on bye-pass where each receipts petticoat pipe;
Multiple branch reactors, the glance coal for collecting the receipts cigarette unit are mixed with carbon dust in advance, with the receipts cigarette
Unit connection, the outlet of each branch reactor is both connected on the first pipeline;
Hot air apparatus is connect for providing hot wind with the branch reactor in cooler overhead gas exit;
Settlement barrel carries out mixing sedimentation for will take out the mixed gas come from multiple branch reactors, with described first
Piping connection;
Main reactor is arranged in the top of the settlement barrel and is connected to the settlement barrel, for by the gas in the settlement barrel
Body is sufficiently mixed with carbon dust;
Dust-extraction unit, the air outlet including the deduster being connect with the outlet end of the main reactor and with the deduster
The air-introduced machine of connection, the deduster is used to for the mixed dust gas come out in the main reactor being filtered, described to draw
Blower is for providing negative pressure;
Carbon dust supply unit, for carbon dust to be transported in each branch reactor and the main reactor, comprising: carbon dust
Feed hopper, intermediate bunker, multiple carbon dust weighing equipments and multiple feeding fans, the first outlet of the carbon dust feed hopper with
The main reactor connects, and dosing valve, the intermediate bunker and the carbon dust are provided on the pipeline of the first outlet
Feed hopper connection, the discharge port of the intermediate bunker are located at the surface of the carbon dust weighing equipment, the feeding fan and institute
The discharge port connection of carbon dust weighing equipment is stated, the discharge port of the carbon dust weighing equipment is separately connected multiple branch by pipeline
Road reactor;
Control unit, comprising: multiple first temperature sensors, multiple smoke detectors, multiple humidity sensors, multiple air quantity pass
Sensor and controller,
The multiple first temperature sensor be separately positioned on the dust-extraction unit inlet and each branch reactor
Exit, the multiple first temperature sensor and the hot air apparatus connect with the controller, the controller control
Starting or stoping for the hot air apparatus is made, and the hot air apparatus is controlled according to the temperature of the multiple first temperature sensor
Hot wind input quantity,
It is respectively provided with the air flow sensor on bye-pass where each receipts petticoat pipe, each air flow sensor and described
Semi-open type valve is connect with the controller, and the controller controls fifty-fifty according to the production process of aluminium anode assembly room
Open type valve opens or closes, and controls the corresponding semi-open type valve according to the signal of each air flow sensor
The aperture of door,
For the smoke detectors for measuring exhaust gas volumn in pipeline, the multiple smoke detectors are separately positioned on each branch
The inlet of road reactor,
The humidity sensor is used to measure the inlet gas humidity of the branch reactor, the multiple humidity sensor point
The inlet of each branch reactor is not set,
The smoke detectors, the humidity sensor and the carbon dust supply unit are connect with the controller, the control
Device processed controls starting and stopping for the carbon dust supply unit, the exhaust gas volumn and the humidity measured according to the smoke detectors
Carbon dust supply unit described in the humid control of sensor measurement is the carbon of the predetermined weight of the corresponding branch reactor conveying
Powder,
The air-introduced machine is connect with the controller, and the controller controls starting or stoping for the air-introduced machine, and controls institute
State the revolving speed of air-introduced machine.
2. aluminium anode assembly room bitumen flue gas processing system according to claim 1, which is characterized in that further include:
Security protection unit, comprising: the one-way check valve that is mounted on the pipeline between the hot air apparatus and cooler is mounted on institute
Pneumatic stopping valve, the Duo Gefen for stating on the second pipe between main reactor and the dust-extraction unit and being connect with the controller
It is not mounted on each branch reactor outlet end and hand stop valve on the first pipeline and is mounted on and the second pipe
The upper and fire water water filling port that connect with the controller and for measuring the biography of the temperature second temperature in the second pipe
Sensor, the fire water water filling port and the second temperature sensor are arranged at the pneumatic stopping valve and the main reactor
Between.
3. aluminium anode assembly room bitumen flue gas processing system according to claim 1, it is characterised in that:
The blowing mouth of the deduster uses built-in blow-through nozzle, and is blown using differential blowing.
4. aluminium anode assembly room bitumen flue gas processing system according to claim 1, which is characterized in that further include:
Toner is recycled, the particle discharge ports of the deduster are connect with the feed inlet of the recycling toner.
5. aluminium anode assembly room bitumen flue gas processing system according to claim 1, it is characterised in that:
The hot air apparatus includes air blower and the heater that connect with the air outlet of the air blower, and the heat occurs
The air outlet of device is connected by the branch reactor of pipeline and the gas outlet of cooler.
6. aluminium anode assembly room bitumen flue gas processing system according to claim 5, it is characterised in that:
Be provided with the first volume damper on the pipeline connected between the air blower and the heater, the air-introduced machine and
The second volume damper is provided on the pipeline connected between the deduster, the exit of the feeding fan is provided with third
Volume damper, first volume damper, second volume damper, the third volume damper with the control
Device connection processed.
7. aluminium anode assembly room bitumen flue gas processing system according to claim 1, it is characterised in that:
Particle collection trough is provided with below the ash hole of the settlement barrel.
Priority Applications (1)
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CN201821135281.1U CN208824191U (en) | 2018-07-17 | 2018-07-17 | Aluminium anode assembly room bitumen flue gas processing system |
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CN201821135281.1U CN208824191U (en) | 2018-07-17 | 2018-07-17 | Aluminium anode assembly room bitumen flue gas processing system |
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Publication Number | Publication Date |
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CN201821135281.1U Withdrawn - After Issue CN208824191U (en) | 2018-07-17 | 2018-07-17 | Aluminium anode assembly room bitumen flue gas processing system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108686464A (en) * | 2018-07-17 | 2018-10-23 | 法利机械(上海)有限公司 | Aluminium anode assembly room bitumen flue gas processing system |
-
2018
- 2018-07-17 CN CN201821135281.1U patent/CN208824191U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108686464A (en) * | 2018-07-17 | 2018-10-23 | 法利机械(上海)有限公司 | Aluminium anode assembly room bitumen flue gas processing system |
CN108686464B (en) * | 2018-07-17 | 2023-10-03 | 法利机械(上海)有限公司 | Asphalt flue gas treatment system for aluminum anode forming workshop |
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