CN110487071A - A kind of cooling plot structure of energy-saving binary channels roller kilns - Google Patents
A kind of cooling plot structure of energy-saving binary channels roller kilns Download PDFInfo
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- CN110487071A CN110487071A CN201910803837.2A CN201910803837A CN110487071A CN 110487071 A CN110487071 A CN 110487071A CN 201910803837 A CN201910803837 A CN 201910803837A CN 110487071 A CN110487071 A CN 110487071A
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- cooling
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- 238000001816 cooling Methods 0.000 title claims abstract description 110
- 238000010583 slow cooling Methods 0.000 claims abstract description 51
- 239000010410 layer Substances 0.000 claims description 194
- 238000007664 blowing Methods 0.000 claims description 39
- 239000011449 brick Substances 0.000 claims description 33
- 238000005086 pumping Methods 0.000 claims description 30
- 239000011229 interlayer Substances 0.000 claims description 29
- 238000005098 hot rolling Methods 0.000 claims description 27
- 238000003780 insertion Methods 0.000 claims description 2
- 230000037431 insertion Effects 0.000 claims description 2
- 238000009413 insulation Methods 0.000 claims description 2
- 238000010304 firing Methods 0.000 abstract description 41
- 239000000779 smoke Substances 0.000 description 40
- 238000002485 combustion reaction Methods 0.000 description 29
- 239000003546 flue gas Substances 0.000 description 26
- UGFAIRIUMAVXCW-UHFFFAOYSA-N Carbon monoxide Chemical compound [O+]#[C-] UGFAIRIUMAVXCW-UHFFFAOYSA-N 0.000 description 25
- 239000007789 gas Substances 0.000 description 25
- 229920000742 Cotton Polymers 0.000 description 19
- 239000000919 ceramic Substances 0.000 description 11
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- 238000010586 diagram Methods 0.000 description 8
- 239000003517 fume Substances 0.000 description 8
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 6
- 229910052782 aluminium Inorganic materials 0.000 description 6
- 239000004411 aluminium Substances 0.000 description 6
- 238000004321 preservation Methods 0.000 description 6
- 239000000446 fuel Substances 0.000 description 5
- 238000004519 manufacturing process Methods 0.000 description 5
- 238000005245 sintering Methods 0.000 description 5
- 235000019504 cigarettes Nutrition 0.000 description 4
- 238000007599 discharging Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 4
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- 229910010271 silicon carbide Inorganic materials 0.000 description 2
- 239000007787 solid Substances 0.000 description 2
- 208000011580 syndromic disease Diseases 0.000 description 2
- BVKZGUZCCUSVTD-UHFFFAOYSA-L Carbonate Chemical compound [O-]C([O-])=O BVKZGUZCCUSVTD-UHFFFAOYSA-L 0.000 description 1
- QAOWNCQODCNURD-UHFFFAOYSA-L Sulfate Chemical compound [O-]S([O-])(=O)=O QAOWNCQODCNURD-UHFFFAOYSA-L 0.000 description 1
- QCWXUUIWCKQGHC-UHFFFAOYSA-N Zirconium Chemical compound [Zr] QCWXUUIWCKQGHC-UHFFFAOYSA-N 0.000 description 1
- PNEYBMLMFCGWSK-UHFFFAOYSA-N aluminium oxide Inorganic materials [O-2].[O-2].[O-2].[Al+3].[Al+3] PNEYBMLMFCGWSK-UHFFFAOYSA-N 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
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- 238000005422 blasting Methods 0.000 description 1
- 125000005587 carbonate group Chemical group 0.000 description 1
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- 229910052573 porcelain Inorganic materials 0.000 description 1
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- 239000010453 quartz Substances 0.000 description 1
- 150000003839 salts Chemical class 0.000 description 1
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N silicon dioxide Inorganic materials O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 description 1
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- 210000005239 tubule Anatomy 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
- 229910052726 zirconium Inorganic materials 0.000 description 1
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F27—FURNACES; KILNS; OVENS; RETORTS
- F27B—FURNACES, KILNS, OVENS, OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
- F27B9/00—Furnaces through which the charge is moved mechanically, e.g. of tunnel type; Similar furnaces in which the charge moves by gravity
- F27B9/12—Furnaces through which the charge is moved mechanically, e.g. of tunnel type; Similar furnaces in which the charge moves by gravity with special arrangements for preheating or cooling the charge
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F27—FURNACES; KILNS; OVENS; RETORTS
- F27B—FURNACES, KILNS, OVENS, OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
- F27B9/00—Furnaces through which the charge is moved mechanically, e.g. of tunnel type; Similar furnaces in which the charge moves by gravity
- F27B9/14—Furnaces through which the charge is moved mechanically, e.g. of tunnel type; Similar furnaces in which the charge moves by gravity characterised by the path of the charge during treatment; characterised by the means by which the charge is moved during treatment
- F27B9/20—Furnaces through which the charge is moved mechanically, e.g. of tunnel type; Similar furnaces in which the charge moves by gravity characterised by the path of the charge during treatment; characterised by the means by which the charge is moved during treatment the charge moving in a substantially straight path tunnel furnace
- F27B9/24—Furnaces through which the charge is moved mechanically, e.g. of tunnel type; Similar furnaces in which the charge moves by gravity characterised by the path of the charge during treatment; characterised by the means by which the charge is moved during treatment the charge moving in a substantially straight path tunnel furnace being carried by a conveyor
- F27B9/2407—Furnaces through which the charge is moved mechanically, e.g. of tunnel type; Similar furnaces in which the charge moves by gravity characterised by the path of the charge during treatment; characterised by the means by which the charge is moved during treatment the charge moving in a substantially straight path tunnel furnace being carried by a conveyor the conveyor being constituted by rollers (roller hearth furnace)
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F27—FURNACES; KILNS; OVENS; RETORTS
- F27B—FURNACES, KILNS, OVENS, OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
- F27B9/00—Furnaces through which the charge is moved mechanically, e.g. of tunnel type; Similar furnaces in which the charge moves by gravity
- F27B9/30—Details, accessories, or equipment peculiar to furnaces of these types
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F27—FURNACES; KILNS; OVENS; RETORTS
- F27D—DETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
- F27D3/00—Charging; Discharging; Manipulation of charge
- F27D3/02—Skids or tracks for heavy objects
- F27D3/026—Skids or tracks for heavy objects transport or conveyor rolls for furnaces; roller rails
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F27—FURNACES; KILNS; OVENS; RETORTS
- F27B—FURNACES, KILNS, OVENS, OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
- F27B9/00—Furnaces through which the charge is moved mechanically, e.g. of tunnel type; Similar furnaces in which the charge moves by gravity
- F27B9/12—Furnaces through which the charge is moved mechanically, e.g. of tunnel type; Similar furnaces in which the charge moves by gravity with special arrangements for preheating or cooling the charge
- F27B2009/124—Cooling
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F27—FURNACES; KILNS; OVENS; RETORTS
- F27M—INDEXING SCHEME RELATING TO ASPECTS OF THE CHARGES OR FURNACES, KILNS, OVENS OR RETORTS
- F27M2001/00—Composition, conformation or state of the charge
- F27M2001/15—Composition, conformation or state of the charge characterised by the form of the articles
- F27M2001/1504—Ceramic articles
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Tunnel Furnaces (AREA)
Abstract
The invention discloses a kind of cooling plot structures of energy-saving binary channels roller kilns, chilling area including being arranged successively setting, slow cooling area, tail cold-zone, the chilling area, slow cooling area, kiln body frame is provided in tail cold-zone, the chilling area, firing cavity is provided in the kiln body frame in slow cooling area, the chilling area, separate layer is provided in the firing cavity in slow cooling area, so that the chilling area, the firing cavity in slow cooling area is divided into upper cavity and lower chamber, tail cold passage is provided in the tail cold-zone, the chilling area, upper layer rollgang is provided in slow cooling area and tail cold passage, the chilling area, lower layer's rollgang is provided in the lower chamber and tail cold passage in slow cooling area, chilling component is provided in the chilling area, it is provided with heat exchanger assembly in the slow cooling area and takes out hot component, cold group of tail is provided in the tail cold passage Part, the present invention are suitable in the binary channels roller kilns with separate layer, can efficiently be cooled down in cooling zone.
Description
Technical field
The present invention relates to a kind of kiln more particularly to a kind of cooling plot structures of energy-saving binary channels roller kilns.
Background technique
The light ceramic product of regular shapes, the weight such as ceramic tile, Western-style tile, foamed ceramic brick generally uses roller kiln burning
At.In recent years, be becoming tight soil day, the influence for the factors such as energy prices, labour cost go up, Production of Ceramics cost is continuous
Soaring, Ceramics Enterprises are badly in need of the kiln that one-time investment is few, operating cost is low, to mitigate manufacturing cost, improve competitiveness.Base
Body is into free-run state is in roll surface after kiln, due to being difficult that as this kind of constraint mechanism such as ceramic baffle plate is arranged, in roller kilns
At a high temperature of can soften so that kiln is difficult to infinitely lengthen, if too long, adobe can hit wall and cause stifled kiln accident;Transmit green body
Roller stick is two o'clock support, and it is wide that load-bearing, temperature difference etc. limit kiln;The operational characteristic of ceramic post sintering, which also determines, must certain burning
At the period, cannot infinitely accelerate.These factors cause single layer roller kilns to be difficult to meet the demand of Ceramics Enterprises, therefore, have
Necessity studies a kind of double-layer roller hearth furnace.Bilayer is compared with single layer, and under similarity condition, yield at least doubles, and occupied area can
Reduce 50% or more, but the expenses such as artificial, energy are without being scaling up.
Double-layer roller hearth furnace, not simple overlapping.For now, also there is the double-layer roller hearth furnace of few quantity in market,
It is layered using cotton separate layer, but the presence of cotton separate layer easily collapses, falls the problems such as dirty, processing accident is inconvenient, and double
Cooling zone in layer roller kilns is compared with the cooling zone of single layer roller kilns, in order to preferably carry out to the product in double-layer roller hearth furnace
It cools, the cooling plot structure of double-layer roller hearth furnace must make better improvement.
Summary of the invention
The technical problem to be solved by the present invention is a kind of cooling plot structure of energy-saving binary channels roller kilns is needed, with suitable
Applied in the roller kilns with the double-deck channel.
The solution that the present invention solves its technical problem is: a kind of cooling plot structure of energy-saving binary channels roller kilns,
Chilling area, slow cooling area, tail cold-zone including being arranged successively setting, the chilling area, slow cooling area, tail are provided with kiln body in cold-zone
Frame, the chilling area, slow cooling area kiln body frame in be provided with cooling cavities, the chilling area, slow cooling area cooling chamber
It is provided with separate layer in vivo, so that the cooling cavities in the chilling area, slow cooling area is divided into upper cavity and lower chamber, the tail is cold
It is provided with tail cold passage in area, is provided with upper layer rollgang, institute in the chilling area, the upper cavity in slow cooling area and tail cold passage
It states and is provided with lower layer's rollgang in chilling area, the lower chamber in slow cooling area and tail cold passage, in the cooling cavities in the chilling area
It is provided with chilling component, is disposed in the cooling cavities in the slow cooling area along the direction of the chilling area to the tail cold-zone
Heat exchanger assembly and hot component is taken out, is provided with the cold component of tail in the tail cold passage.
As a further improvement of the above technical scheme, the chilling component includes chilling blast pipe, is connected to the urgency
The chilling of cold blast pipe one end is dried branch pipe for blower, the chilling for being connected to the chilling blast pipe other end, and the chilling blows
Wind branch pipe runs through the inner sidewall of the cooling cavities, and the chilling blowing branch pipe is provided with along the length direction of the cooling cavities
Several, the top and lower section, the top of lower layer's rollgang and lower section of the upper layer rollgang are provided with described
Chilling is dried branch pipe, is provided with several chilling blowholes on every chilling blowing branch pipe.
As a further improvement of the above technical scheme, the heat exchanger assembly includes heat exchange blast pipe, is connected to institute
It states the heat exchange exhaust fan of heat exchange blast pipe one end, the heat exchanger tube for being connected to the heat exchange blast pipe other end, be connected to
Heat exchange air-exhausting duct of the heat exchanger tube far from heat exchange blast pipe one end, the heat exchanger tube are interspersed in the cooling cavities
Inner sidewall, the heat exchanger tube is provided with several along the length direction of the cooling cavities, the upper layer rollgang it is upper
Side is provided with the heat exchanger tube with lower section, the top of lower layer's rollgang and lower section.
As a further improvement of the above technical scheme, the hot component of pumping further includes taking out air-heater, being connected to the pumping
The hot discharge pipe of pumping of air-heater air outlet is connected to the pumping hot leg pipe for taking out air-heater air inlet, by pipeline and the pumping
What hot leg pipe was interconnected takes out exhaust column on hot-rolling, by exhausting under the interconnected pumping hot-rolling of pipeline and the pumping hot leg pipe
It manages, exhaust column is provided with several along the length direction of the cooling cavities under exhaust column, pumping hot-rolling on the pumping hot-rolling, institute
State the top of upper layer rollgang, be provided with exhaust column on the pumping hot-rolling above lower layer's rollgang, it is described on
Exhaust column under the pumping hot-rolling is provided with below the layer lower section of rollgang, lower layer's rollgang.
As a further improvement of the above technical scheme, the length for taking out exhaust column on hot-rolling is greater than the cooling cavities
The half of width, the length for taking out exhaust column under hot-rolling are less than the half of the cooling cavities width.
As a further improvement of the above technical scheme, the cold component of the tail includes the cold blast main of tail, is connected to the tail
The tail of cold blast main one end it is cold for blower, be connected to the tail cold blowing air hose of the cold blast main other end of the tail, the tail coldblast
Pipe is interspersed in the inner sidewall of the tail cold passage, and the tail cold blowing air hose is provided with several along the length direction of the tail cold passage
Item, it is cold that top and lower section, the top of lower layer's rollgang and the lower section of the upper layer rollgang are provided with the tail
Blower is provided with several tail cold blowing air holes on the every tail cold blowing air hose.
As a further improvement of the above technical scheme, the cold component of the tail further include tail cooling draft machine, be connected to it is described
The cold discharge pipe of tail of tail cooling draft machine air outlet, the cold branch pipe of tail for being connected to the tail cooling draft machine air inlet, by pipeline with
Exhaust column in the interconnected tail chilling roller of the cold branch pipe of tail, under the tail chilling roller being interconnected by pipeline and the cold branch pipe of the tail
Exhaust column, in the tail chilling roller under exhaust column, tail chilling roller exhaust column be provided with along the length direction of the cooling cavities it is several
Item is provided with exhaust column in the tail chilling roller, institute above the top of the upper layer rollgang, lower layer's rollgang
It states the lower section of upper layer rollgang, be provided with exhaust column under the tail chilling roller below lower layer's rollgang.
As a further improvement of the above technical scheme, the length of exhaust column is greater than the cooling cavities in the tail chilling roller
The half of width, the length of exhaust column is less than the half of the cooling cavities width under the tail chilling roller.
As a further improvement of the above technical scheme, the separate layer includes square beam, interlayer hollow plate, interlayer heat-insulating
Blanket, insulating brick-layer, protection board, the square beam along the cooling cavities length direction it is evenly distributed be provided with several, it is described
The position of the face every square beam is provided with bearing bricks in the side wall of cooling cavities, and each bearing bricks are right against described
The side wall of square beam is provided with square hole, the both ends of every square beam be inserted into respectively in the square hole of its face, it is all
The top surface of the square beam forms a supporting surface, the interlayer hollow plate, interlayer heat-insulating blanket, insulating brick-layer, protection board by down toward
On be arranged in order on the supporting surface.
Beneficial effect using above-mentioned further scheme is: providing a kind of cooling zone knot of energy-saving binary channels roller kilns
Structure, cooling zone are divided into chilling area, slow cooling area, tail cold-zone, and chilling area, slow cooling area are divided into two up and down by separate layer
Cavity, and chilling component, slow cooling component, the cold component of tail are respectively set in chilling area, slow cooling area, tail cold-zone, with independent control
Cooling in each region is different from traditional single channel kiln cooling structure, this cooling plot structure is suitable for separate layer
In binary channels roller kilns.
Detailed description of the invention
To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment
Attached drawing is briefly described.Obviously, described attached drawing is a part of the embodiments of the present invention, rather than is all implemented
Example, those skilled in the art without creative efforts, can also be obtained according to these attached drawings other designs
Scheme and attached drawing.
Fig. 1 is the side view that smoke evacuation area of the invention omits the first drop pipe and the second drop pipe;
Fig. 2 is smoke evacuation area top view of the invention;
Fig. 3 is the A-A the schematic diagram of the section structure of Fig. 1;
Fig. 4 is firing zone side view of the invention;
Fig. 5 is the A of Fig. 4 to schematic diagram;
Fig. 6 is the B-B the schematic diagram of the section structure of Fig. 4;
Fig. 7 is tail cold-zone side view of the invention;
Fig. 8 is the C-C the schematic diagram of the section structure of Fig. 7;
Fig. 9 is the D-D the schematic diagram of the section structure of Fig. 7;
Figure 10 is chilling area cross-sectional structure schematic diagram of the invention;
Figure 11 is slow cooling area cross-sectional structure schematic diagram of the invention;
Figure 12 is separate layer cross-sectional structure schematic diagram of the invention.
In attached drawing: the upper layer 1- rollgang, 2- lower layer rollgang, 3- square beam, 4- interlayer hollow plate, 5- interlayer heat-insulating
Blanket, 6- insulating brick-layer, 7- protection board, 8- bearing bricks, 9- loose wool, 10- tampon, 11- kiln body frame, 12- side wall cotton plate, the side 13-
Wall lightweight brick layer, 14- bottom wall lightweight brick layer, 15- hanger, 16- roof heat-preservation cotton layer, 17- roof hollow plate, 18- drag hook, 19-
Branch flue, the first drop pipe of 20-, the first smoke exhaust fan of the upper layer 21- flue gas general pipeline, 22-, 23- smoke evacuation area's blower are flat on first roller
Branch flue, the second drop pipe of 26-, 27- lower layer flue gas general pipeline, 28- second under branch flue, the second roller of 25- on platform, the second roller of 24-
Smoke exhaust fan, 29- chimney, the combustion-supporting air hose in the upper layer 30-, the first gas hose of 31-, the first burner of 32-, the second burner of 33-, 34-
Third burner, the 4th burner of 35-, the combustion-supporting air hose of 36- lower layer, the second gas hose of 37-, the 5th burner of 38-, the 6th burner of 39-,
The 7th burner of 40-, the 8th burner of 41-, the high aluminium set of 42- heavy, 43- burner sleeve, 44- cotton blanket, the first flame-observing hole of 45-, 46- second
Branch flue, 48- tail cold-zone fan platform, 49- tail cooling draft machine, 50- tail are cold for blower, 51- tail under flame-observing hole, the first roller of 47-
Cold blowing air hose, 52- wind box, 53- dilatation joint, 54- cross over pipe, 55- first butterfly valve, 56- second butterfly valve, 57- third butterfly valve, 58-
First slide valve, the second slide valve of 59-, the cold blast main of 60- tail, the cold branch pipe of 61- tail, exhaust column, 63- tail are cold in 62- tail chilling roller
Exhaust column, 64- chilling blowing branch pipe, 65- heat exchanger tube, 66- third gas hose, the 4th gas hose of 67-, 68- first under roller
Thermocouple, the second thermocouple of 69-, 70- third thermocouple, the 4th thermocouple of 71-, the first motor-driven valve of 72-, the second motor-driven valve of 73-,
74- third motor-driven valve, the 4th motor-driven valve of 75-.
Specific embodiment
It is carried out below with reference to technical effect of the embodiment and attached drawing to design of the invention, specific structure and generation clear
Chu is fully described by, to be completely understood by the purpose of the present invention, feature and effect.Obviously, described embodiment is this hair
Bright a part of the embodiment, rather than whole embodiments, based on the embodiment of the present invention, those skilled in the art are not being paid
Other embodiments obtained, belong to the scope of protection of the invention under the premise of creative work.In addition, be previously mentioned in text
All connection relationships not singly refer to that component directly connects, and referring to can be according to specific implementation situation, by adding or reducing connection
Auxiliary, Lai Zucheng more preferably connection structure.Each technical characteristic in the invention, under the premise of not conflicting conflict
It can be with combination of interactions.
Adobe during fabrication, is needed by sequentially connected smoke evacuation area, preheating zone, firing zone, chilling area, slow cooling area, tail
Cold-zone, smoke evacuation area's main function is heating heel row except the mechanical water in green body and adsorbs water, and chemical change does not occur for green body, only hair
The physical changes such as raw volume contraction, moisture evaporation, this area are used to expel from kiln the flue gas that burning generates, balance furnace pressure, flue gas
It is flowed to from high temperature during discharging fume area, heat is constantly released to heating in kiln, and the temperature in area of discharging fume is generally 200 DEG C~600
Change between DEG C;In preheating zone, the temperature of adobe rises to 1050 DEG C or so from 600 DEG C, and brick can be made by suitably adjusting sintering curve
Base safely excludes constitution water, completes the physical-chemical reactions such as quartzy phase transformation, the oxidation of organic matter and the decomposition of carbonate;It is burning
At area, the temperature of adobe rises to maximum sintering temperature from 1050 DEG C, and the salts such as carbonate, sulfate in adobe are in this stage
It further decomposes, completes the physical-chemical reactions such as sintering, porcelain;The main function in chilling area is to be quickly cooled down, the system in this stage
Glass phase viscosity increases in product, and is converted into solid state by mecystasis, and hardness and strength increase to maximum, due to depositing for liquid phase
Product can offset and shrinking the stress occurred, therefore the rapid cooling that can directly dry, convection current is carried out by the cold air squeezed into and is changed
Heat, chilling can not only prevent glaze crystallization, increase product strength and whiteness, improve product quality, and can shorten firing
Period;Slow cooling area is divided into heat exchange zone again and takes out hot-zone, heat exchange zone, by the temperature of adobe from 600 DEG C of slow cooling to 400 DEG C of left sides
The right side makes quartz in adobe slowly complete crystal transition, and " frightened to split " defect, generally uses heat exchange caused by preventing the stress because of rapid cooling
The indirect type of cooling of pipe, cold wind is not direct to be contacted with product, keeps cooling more gentle, uniform, by way of heat-exchange tube
It is cooling, cause air quantity not influence kiln inner pressure fluctuation even if temperature change, takes out hot-zone centralized arrangement suction opening, mainly exhaust
Hot wind after chilling, hot wind also have " protection adobe is anti-cold split " to heat release during taking out hot-zone flowing through heat exchange zone
Effect, the control of the region exhausting amount are not only related to the furnace pressure balance of chilling band, are also related to product cooling effect, by this
The temperature of adobe can be dropped to 300 DEG C or so from 400 DEG C by area;Adobe temperature is gradually decrease to kiln discharge from 300 DEG C by tail cold-zone
The temperature needed, it is cooling by the way of directly blasting Wind Volume, it is aligned and produces in the drilling tubule of product upper and lower setting solid matter
Product blowing, which will avoid as far as possible the cold air being blown into from entering slow cooling area.Tail cold-zone is not provided with separate layer, upper and lower level connection, pipe
Line is short, and air loss is small, can reduce power consumption.
Referring to Fig.1 2, a kind of binary channels separate layer structure, including square beam 3, interlayer hollow plate 4, interlayer heat-insulating blanket 5, heat preservation
Brick layer 6, protection board 7, the bearing bricks 8 for being set to 3 both ends of square beam, the square beam 3 along longitudinal direction it is evenly distributed be provided with it is several
Item, signified longitudinal direction refers both to the length extending direction of kiln in the present invention, and each bearing bricks 8 are right against the square beam 3
Position is provided with square hole, the both ends of every square beam 3 be inserted into respectively in the square hole of its face, all sides
The top surface of beam 3 forms a supporting surface, and the interlayer hollow plate 4, interlayer heat-insulating blanket 5, insulating brick-layer 6, protection board 7 are from the bottom to top
It is arranged in order on the supporting surface.Separate layer is different from cotton separate layer on the market, using 8 load-bearing of bearing bricks, and
Square hole is set in the one side wall of bearing bricks 8, then the both ends of square beam 3 are inserted into square hole, so that the top surface of all square beams 3 is formed
One supporting surface is laid with interlayer hollow plate 4, interlayer heat-insulating blanket 5, insulating brick-layer 6, protection board 7 from the bottom to top on the support surface, every
Layer hollow plate 4 be not easy to crack, it is dirty to be not easy to fall, and insulating brick-layer 6 and interlayer heat-insulating blanket 5 form main thermal insulation structure, protects
Plate 7 can avoid flame and directly wash away the generation of interlayer heat-insulating blanket 5 falling dirty, is also possible to prevent upper layer and roll breakage stick occurs, fall the things such as product
Interlayer heat-insulating blanket 5 is smashed after therefore, such as the structure of this separate layer is applied in kiln, and one kiln is divided into two using firm structure
A independent channel can produce the yield of two kilns in the region of one kiln, save production equipment the space occupied, not only burn
It is greatly improved at efficiency, and the utilization rate of heat dramatically increases, the specific energy consumption of product declines therewith.
Preferably, square beam 3 selects high-intensitive hollow silicon carbide square beam 3, and bearing bricks 8 select heavy high-alumina brick, in interlayer
Hollow plate 4 is cordierite-mullite hollow plate, and interlayer heat-insulating blanket 5 is selected cotton blanket containing zirconium, insulating brick-layer 6 to select light-weight insulating brick, protected
Backplate 7 selects the high aluminium sheet of heavy.
It is further used as preferred embodiment, the interlayer hollow plate 4 is evenly distributed on the support surface to be provided with
Several, the stepped overlap joint of the interlayer hollow plate 4 of adjacent in the longitudinal direction two, described in adjacent in the longitudinal direction two every
The junction of layer hollow plate 4 is provided with ceramic paper, and horizontally the adjacent two interlayer hollow plates 4 are mutual by fastener
Splicing, the fastener includes the groove for being set to 4 one side wall of interlayer hollow plate, to be set to another described interlayer hollow
The raised line of 4 one side wall of plate, the raised line are inserted into the groove.Adjacent interlayer hollow plate 4 can be formed firm using fastener
Connection structure, and the adjacent stepped overlap joint of interlayer hollow plate 4 can slow down hot gas from the seam between interlayer hollow plate 4
Gap appears, and reduces separate layer top and influencing each other below separate layer.
It is further used as preferred embodiment, the insulating brick-layer 6 includes the lightweight of several pieces of evenly distributed settings
Brick is provided with dilatation joint 53 between two blocks of light-weight bricks of arbitrary neighborhood, is filled with heat-preservation cotton in the dilatation joint 53.Expansion
The space that seam 53 provides can avoid light-weight brick mutual extrusion when expanding with heat and contract with cold, and heat-preservation cotton is filled in dilatation joint 53 to be subtracted
Few hot gas leaks.
It is further used as preferred embodiment, tampon 10 is provided in the square hole, the both ends inside of the square beam 3 is
Filled with loose wool 9, it is preferred that loose wool 9 and tampon 10 are high temperature resistant material.
The present invention also provides a kind of energy-saving roller kilns, and referring to Fig.1-11, which further includes being arranged successively setting
It discharges fume area, preheating zone, firing zone, chilling area, slow cooling area, tail cold-zone, the smoke evacuation area, preheating zone are provided with burning in firing zone
At cavity, cooling cavities is provided in the chilling area, slow cooling area, the firing cavity, cooling cavities extend longitudinally
Setting, the smoke evacuation area, preheating zone, firing cavity and the chilling area of firing zone, slow cooling area cooling cavities in be respectively provided with
Have a kind of binary channels separate layer structure so that it is described smoke evacuation area, preheating zone, firing zone firing cavity and the chilling
Area, slow cooling area cooling cavities be divided into upper cavity and lower chamber, the bearing bricks 8 are set to the firing cavity and the cooling
In the side wall of cavity, direction is extended along a length thereof in the upper cavity in discharge fume area, preheating zone, firing zone, chilling area, the slow cooling area
Be provided with upper layer rollgang 1, the smoke evacuation area, preheating zone, firing zone, chilling area, slow cooling area lower chamber in along its length
Extending direction is provided with lower layer's rollgang 2.By separate layer, each firing cavity and cooling cavities are divided into upper cavity under
Cavity is provided with the upper layer rollgang 1 for conveying adobe in each upper cavity, is provided with and is used in each lower chamber
The lower layer's rollgang 2 for conveying adobe, the yield of two kilns can be so produced in the region of a kiln, greatly improves firing
Efficiency.
It is further used as preferred embodiment, the smoke evacuation area, preheating zone, firing zone, chilling area, slow cooling area include
The inner sidewall of kiln body frame 11, each kiln body frame 11 is disposed with side wall cotton plate 12, side wall lightweight from outside to inside
Brick layer 13, the inner bottom wall of each kiln body frame 11 are provided with bottom wall lightweight brick layer 14, the smoke evacuation area, preheating zone, burning
Hanger 15, the smoke evacuation area, preheating zone, firing zone, chilling area are provided at 11 inner roof wall of kiln body frame in area, chilling area
From top to bottom be disposed with roof heat-preservation cotton layer 16, roof hollow plate 17 on interior hanger 15, the smoke evacuation area, preheating zone,
Side wall lightweight brick layer 13, bottom wall lightweight brick layer 14, roof hollow plate 17 in firing zone, chilling area are respectively enclosed to the smoke evacuation
Area, preheating zone, the firing cavity of firing zone and the cooling cavities in the chilling area, the kiln body frame in the slow cooling area
11 inner roof wall of frame is provided with roof cotton plate, side wall lightweight brick layer 13, bottom wall lightweight brick layer 14 in the slow cooling area, roof cotton plate
Surround the cooling cavities in the slow cooling area.The cooling cavities in chilling area, smoke evacuation area, preheating zone, firing zone firing chamber
The cooling cavities of body and slow cooling area, main distinctive points are the difference of roof, and smoke evacuation area, preheating zone, firing zone are burnt into cavity
Cooling cavities roof with chilling area is first to be sling roof hollow plate 17 with hanger 15, then roof heat-preservation cotton layer 16 is fixed on
In roof hollow plate 17, and the cooling cavities roof in slow cooling area is provided only with roof cotton plate to save cost.
In some embodiments, no less than one is connected between the side wall lightweight brick layer 13 and the kiln body frame 11
Drag hook 18.In one end insertion side wall lightweight brick layer 13 of drag hook 18, the other end is bolted on kiln body frame 11, can be prevented
Only kiln wall collapse accident occurs for transportational process.
The smoke evacuation plot structure of the energy-saving roller kiln is as follows, is provided with upper layer smoke evacuation system in the upper cavity in smoke evacuation area,
It is provided with lower layer's smoke evacuation system in the lower chamber of induced-draft fan, the upper layer smoke evacuation system includes branch flue 19 on the first roller, the
Branch flue 47, the first drop pipe 20, upper layer flue gas general pipeline 21, the first smoke exhaust fan 22 under one roller, branch flue on first roller
19 are set to the epicoele body sidewall and are located at the top of the upper layer rollgang 1, and branch flue 47 is arranged under first roller
It is propped up in the epicoele body sidewall and under branch flue 19, the first roller on the lower section of the upper layer rollgang 1, first roller
Flue 47 is interconnected by the first drop pipe 20 and upper layer flue gas general pipeline 21, and the upper layer flue gas general pipeline 21 connects
It is connected to the air inlet of first smoke exhaust fan 22, the air outlet of first smoke exhaust fan 22 has chimney by piping connection
29.Lower layer's smoke evacuation system includes branch flue 25, the second drop pipe 26, lower layer's cigarette under branch flue 24, the second roller on the second roller
Gas general pipeline 27, the second smoke exhaust fan 28, on second roller branch flue 24 be set to the cavity of resorption body sidewall and be located at it is described under
The top of layer rollgang 2, branch flue 25 is set to the cavity of resorption body sidewall and is located at the lower layer and conveys under second roller
The lower section of roller-way 2, on second roller under branch flue 24, the second roller branch flue 25 by second drop pipe 26 with it is described
Lower layer flue gas general pipeline 27 is interconnected, and lower layer's flue gas general pipeline 27 is connected to the air inlet of second smoke exhaust fan 28, institute
The air outlet for stating the second smoke exhaust fan 28 passes through piping connection in the chimney 29.Smoke evacuation area's fan platform is equipped in induced-draft fan
23, the flue gas of 1 lower section of flue gas and upper layer rollgang of the top of upper layer rollgang 1 is respectively from branch cigarette on the first roller in area of discharging fume
Branch flue 47 is imported to the first drop pipe 20 under road 19, the first roller, and is flowed into supreme layer flue gas general pipeline 21, lower layer in area of discharging fume
The flue gas of the top of rollgang 2 and flue gas below lower layer's rollgang 2 on the second roller under branch flue 24, the second roller respectively from propping up
Flue 25 is imported to the second drop pipe 26, and is flowed into lower layer flue gas general pipeline 27, and upper layer flue gas general pipeline 21 and lower layer's flue gas are total
Pipe 27 shares the chimney 29 being arranged on smoke evacuation area's fan platform 23 and flue gas is discharged, and when smoke evacuation, cigarette directly is discharged from chimney 29
Gas is discharged after Ceramics Enterprises desulphurization denitration, and the size of exhaust gas volumn passes through smoke evacuation branch pipe butterfly valve, general pipeline butterfly valve and fan frequency conversion
Device automatically controls, and balance combustion product, stablizes furnace pressure.
It is further used as preferred embodiment, is connected between the upper layer flue gas general pipeline 21 and lower layer's flue gas general pipeline 27
It is connected to cross over pipe 54, first butterfly valve 55, the upper layer flue gas general pipeline 21 and the first smoke exhaust fan are provided in the cross over pipe 54
22 junction is provided with second butterfly valve 56, and the junction of lower layer's flue gas general pipeline 27 and second smoke exhaust fan 28 are arranged
There is third butterfly valve 57.When two smoke exhaust fans are independently discharged fume, the first butterfly valve 55 in cross over pipe 54 is closed, opens upper layer cigarette respectively
Gas general pipeline 21, the second butterfly valve 56 in lower layer flue gas general pipeline 27, third butterfly valve 57;It needs when certain smoke exhaust fan damage or only to open
Wherein one simultaneously when drawing up the flue gas in layer and lower channel, that Fans butterfly valve for needing to stop is closed, cross over pipe is opened
First butterfly valve 55 in 54.
It is further used as preferred embodiment, is provided with the first air intake vent and the second air intake vent on the cross over pipe 54,
First air intake vent is set between the first butterfly valve 55 and the second butterfly valve 56, and second air intake vent is set to institute
It states between first butterfly valve 55 and the third butterfly valve 57, the first slide valve 58, second inlet air is provided in the first air intake vent
The second slide valve 59 is provided in mouthful.Due to flue-gas temperature height, it is therefore desirable to introduce cold air and reduce the temperature to the specified temperature of blower
Under degree, respectively by the first slide valve 58 and the second slide valve 59, to control the entrance in the first air intake vent, the second air intake vent
Cold air amount.
The high-temp combustion plot structure of the energy-saving roller kiln is as follows, and the first burning is provided in the upper cavity of the firing zone
Control group and the second Combustion System group, the first Combustion System group are located at the top of the upper layer rollgang 1, and described second
Combustion System group is located at the lower section of the upper layer rollgang 1, and the first Combustion System group includes the first gas hose 31, the
One burner 32, the second burner 33, first burner 32 are set to the intracorporal one side wall of the epicoele, and second burner 33 is set
It is placed in the intracorporal another side wall of the epicoele, first burner 32, the second burner 33 are located at the upper of the upper layer rollgang 1
Side simultaneously be evenly arranged with several along the length extending direction of the upper layer rollgang 1, all first burners 32 with
All second burners 33 are staggered on same level direction, and first gas hose 31 is connected respectively by pipeline
It is connected to all first burners 32, the second burner 33, the second Combustion System group includes the second gas hose 37, third
Burner 34, the 4th burner 35, the third burner 34 are set to the one side wall of the upper cavity, and the 4th burner 35 is set to
Another side wall of the upper cavity, the third burner 34, the 4th burner 35 are located at the lower section of the upper layer rollgang 1 and edge
The length extending direction of the upper layer rollgang 1 is evenly arranged with several, all third burners 34 and all
4th burner 35 is staggered on same level direction, and second gas hose 37 is connected to institute by pipeline
The third burner 34, the 4th burner 35 having are provided with the combustion-supporting air hose 30 in upper layer on the kiln body frame 11, and the upper layer helps
It fires air hose 30 and all first burners 32, the second burner 33, third burner 34, the 4th burner is connected to by pipeline
35.First Combustion System group is mainly adjusted the firing temperature of 1 top of upper cavity upper layer rollgang, the first gas hose
31 pass through piping connection in all first burners 32, the fuel port of the second burner 33, and provide combustion gas, can be in each piping connection
Place's setting valve, for controlling the circulation of combustion gas, can separately adjustable each burner temperature, to realize complicated sintering curve,
Likewise, the second Combustion System group is mainly adjusted the firing temperature of 1 lower section of upper cavity upper layer rollgang, the second combustion gas
Hose 37 passes through piping connection in all third burners 34, the fuel port of the 4th burner 35, and provides combustion gas, the combustion-supporting air hose in upper layer
30 by piping connection in the first burner 32, the second burner 33, third burner 34, the 4th burner 35 air inlet, and provide
Combustion air.
It is further used as preferred embodiment, third Combustion System group and the is provided in the lower chamber of the firing zone
Four Combustion System groups, the third Combustion System group are located at the top of lower layer's rollgang 2, the 4th Combustion System group
Positioned at the lower section of lower layer's rollgang 2, the third Combustion System group include third gas hose 66, the 5th burner 38,
6th burner 39, the 5th burner 38 are set to the intracorporal one side wall of the cavity of resorption, and the 6th burner 39 is set to described
The intracorporal another side wall of cavity of resorption, the 5th burner 38, the 6th burner 39 are located at the top of lower layer's rollgang 2 and along institutes
The length extending direction for stating lower layer's rollgang 2 is evenly arranged with several, all the 5th burners 38 and all institutes
It states the 6th burner 39 to be staggered on same level direction, the third gas hose 66 is connected to all by pipeline
The 5th burner 38, the 6th burner 39, the 4th Combustion System group include the 4th gas hose 67, the 7th burner 40,
8th burner 41, the 7th burner 40 are set to the one side wall of the lower chamber, the 8th burner 41 be set to it is described under
Another side wall of cavity, the 7th burner 40, the 8th burner 41 are located at the lower section of lower layer's rollgang 2 and under described
The length extending direction of layer rollgang 2 is evenly arranged with several, all the 7th burners 40 and all described the
Eight burners 41 are staggered on same level direction, and the 4th gas hose 67 is connected to all institutes by pipeline
The 7th burner 40, the 8th burner 41 are stated, the combustion-supporting air hose 36 of lower layer, the combustion-supporting air hose of lower layer are provided on the kiln body frame 11
36 are connected to all the 5th burners 38, the 6th burner 39, the 7th burner 40, the 8th burner 41 by pipeline.Together
Sample, third Combustion System group is mainly adjusted the firing temperature in 2 top of lower chamber lower layer rollgang, third combustion gas
Hose 66 passes through piping connection in all 5th burners 38, the fuel port of the 6th burner 39, and provides combustion gas, can be in each pipeline
Valve is arranged in junction, for controlling the circulation of combustion gas, with the temperature of separately adjustable each burner, to realize that complicated firing is bent
Line, the 4th Combustion System group are mainly adjusted the firing temperature in 2 lower section of lower chamber lower layer rollgang, and the 4th combustion gas is soft
Pipe 67 passes through piping connection in all 7th burners 40, the fuel port of the 8th burner 41, and provides combustion gas, the combustion-supporting air hose 36 of lower layer
Then by piping connection in the 5th burner 38, the 6th burner 39, the 7th burner 40, the 8th burner 41 air inlet, and provide help
Fire wind.
In some embodiments, the firing cavity inner wall of the firing zone corresponds to first burner 32, the second burner
33, third burner 34, the 4th burner 35, the 5th burner 38, the 6th burner 39, the 7th burner 40, the position of the 8th burner 41 are equal
It is provided with receiving channel, building in the receiving channel has the high aluminium set 42 of heavy, is equipped with burner in the high aluminium set 42 of heavy
Set 43, is provided with cotton blanket 44, first burner 32, the second burner between the burner sleeve 43 and the high aluminium set 42 of the heavy
33, the corresponding installation of third burner 34, the 4th burner 35, the 5th burner 38, the 6th burner 39, the 7th burner 40, the 8th burner 41
In the burner sleeve 43.Stainless steel sleeve pipe, jet thrust and the spray wind piece of burner are mounted on the burner sleeve 43 of surrounding packet cotton blanket 44
Interior, the material of burner sleeve 43 is silicon carbide, is equivalent to combustion chamber, high after the high aluminium set 42 of heavy is for preventing burner sleeve 43 from rupturing
Warm combustion flame burns out the lightweight cotton plate of cotton blanket 44 He this area's side wall.
In some embodiments, the first Combustion System group further includes the first temperature control instrument, to be set to the upper layer defeated
The first thermocouple 68 of 1 top of roller-way is sent, is provided with the first motor-driven valve 72 on the pipeline before first gas hose 31, it is described
Second Combustion System group further includes the second temperature control instrument, the second thermocouple 69 for being set to 1 lower section of upper layer rollgang, institute
The second motor-driven valve 73 is provided on pipeline before stating the second gas hose 37, the third Combustion System group further includes third temperature control
Instrument, the third thermocouple 70 for being set to 2 top of lower layer's rollgang are set on the pipeline before the third gas hose 66
It is equipped with third motor-driven valve 74, the 4th Combustion System group further includes the 4th temperature control instrument, is set to lower layer's rollgang 2
4th thermocouple 71 of lower section is provided with the 4th motor-driven valve 75, the temperature controller on the pipeline before the 4th gas hose 67
Table respectively with all thermocouples, the first motor-driven valve 72, the second motor-driven valve 73, third motor-driven valve 74, the 4th motor-driven valve 75
Electrical connection.In each Combustion System group, further respectively have the solenoid valve for safeguard protection, after power-off can self-closing gas, burn
Combustion air before mouth is generally scale dish valve, facilitates adjusting air volume, and motor-driven valve is linear valve, can temperature based on the received
Signal Regulation valve size changes the gas supply amount of burner, so that A.T.C, passes through the first electricity in upper cavity
Dynamic valve 72 controls the temperature of 1 top of upper layer rollgang, and the temperature of 1 lower section of upper layer rollgang is controlled by the second motor-driven valve 73
Degree controls the temperature above lower layer's rollgang 2 by third motor-driven valve 74 in lower chamber, is controlled by the 4th motor-driven valve 75
The temperature of 2 lower section of lower layer's rollgang preferably adjusts temperature so that the temperature control under roller upper roller is relatively independent, reduces energy consumption.
In some embodiments, the firing zone upper cavity, lower chamber inner sidewall be provided on several rollers see fire
See firebrick under brick and roller, seen on the roller firebrick be located at the upper layer rollgang 1 top and lower layer's rollgang 2
Top is seen on the roller and is provided with the first flame-observing hole 45 in firebrick, and first flame-observing hole 45 is along close to the firing cavity
Direction tilts down setting, seen under the roller firebrick be located at the upper layer rollgang 1 lower section and lower layer's rollgang 2
Lower section, see under the roller and be provided with the second flame-observing hole 46 in firebrick, second flame-observing hole 46 is along close to the firing cavity
The setting of direction horizontal extension.It is convenient directly to observe opposite burner combustion state by the first flame-observing hole 45, it can also observe downwards
Adobe operating condition, such as whether it is crooked, and by the second flame-observing hole 46, main detection opposite burner combustion state is such as extinguished, is emitted
Black smoke etc., to facilitate adjustment combustion flame.
The cooling plot structure of the energy-saving roller kiln is as follows, tail cold passage is provided in tail cold-zone, and in tail cold passage
It is inside again provided with upper layer rollgang 1 and lower layer's rollgang 2, firing cavity and the cooling cavities being different from other areas,
There is no separate layers in this tail cold passage, and chilling component, the cooling in the slow cooling area are provided in the cooling cavities in chilling area
Heat exchanger assembly is disposed with along the direction of the chilling area to the tail cold-zone in cavity and takes out hot component, and the tail is cold logical
The cold component of tail is provided in road.By chilling component, heat exchanger assembly, take out hot component, the cold component of tail, control respectively chilling area,
Temperature in slow cooling area, tail cold-zone.
Be further used as preferred embodiment, the chilling component include chilling blast pipe, be connected to the chilling into
The chilling of air hose one end is dried branch pipe 64 for blower, the chilling for being connected to the chilling blast pipe other end, chilling blowing
Branch pipe 64 runs through the inner sidewall of the cooling cavities, and the chilling blowing branch pipe 64 is arranged along the length direction of the cooling cavities
There are several, top and lower section, the top of lower layer's rollgang 2 and the lower section of the upper layer rollgang 1 are provided with
The chilling is dried branch pipe 64, is provided with several chilling blowholes on every chilling blowing branch pipe 64.Cold wind passes through
Chilling is blown out from chilling blowhole for the conveying of blower, is carried out to the product on upper layer rollgang 1, lower layer's rollgang 2
The air quantity of blow-through, single branch chilling blowing branch pipe 64 is finely tuned by hand-operated valve.The direction of blowing can be rotated chilling blowing branch pipe 64
It adjusts.Chilling dries branch pipe 64 by both sides wind box 52 while air feed, to guarantee that each air holes outlet air is uniform in size, to reduce
Section temperature difference.
It is further used as preferred embodiment, the heat exchanger assembly includes heat exchange blast pipe, is connected to the heat
The heat exchange exhaust fan of interchange intake pipe one end, is connected to institute at the heat exchanger tube 65 for being connected to the heat exchange blast pipe other end
Heat exchange air-exhausting duct of the heat exchanger tube 65 far from heat exchange blast pipe one end is stated, the heat exchanger tube 65 is interspersed in the cooling chamber
The inner sidewall of body, the heat exchanger tube 65 are provided with several along the length direction of the cooling cavities, the upper layer rollgang 1
Top and lower section, the top of lower layer's rollgang 2 and lower section be provided with the heat exchanger tube 65.Cooling in slow cooling area
Mode is different from the type of cooling in chilling area, and room air does not enter in kiln, i.e., in 65 the inside of heat exchanger tube from 65 side of heat exchanger tube
Air inlet flows to another side along section and flows to the discharge of exhaust fan pipeline.Cold wind is in heat exchanger tube 65 in flow process, and wind-warm syndrome is gradually
It increases, and kiln temperature is then gradually reduced.It is contacted since cold wind is not direct with product, it is cooling uniformly and than directly drying
It is cooling gentle.This part hot wind is cleaner, and the clean hot wind of these discharges is used for combustion-supporting or dry and energy saving by we at present.
In some embodiments, two heat exchanger tubes 65 of arbitrary neighborhood, internal wind direction is on the contrary, make temperature more uniform.
It is further used as preferred embodiment, the hot component of pumping further includes taking out air-heater, being connected to the pumping hot wind
The hot discharge pipe of pumping of machine air outlet is connected to the pumping hot leg pipe for taking out air-heater air inlet, is propped up by pipeline and pumping heat
What pipe was interconnected takes out exhaust column on hot-rolling, by exhaust column under the interconnected pumping hot-rolling of pipeline and the pumping hot leg pipe, institute
State and take out exhaust column on hot-rolling, take out exhaust column under hot-rolling the length direction of the cooling cavities is provided with several, it is described on
The top of layer rollgang 1, the top of lower layer's rollgang 2 are provided with exhaust column on the pumping hot-rolling, the upper layer
The lower section of rollgang 1, lower layer's rollgang 2 lower section be provided with exhaust column under the pumping hot-rolling.By taking out hot-rolling
Upper exhaust column and exhaust column under hot-rolling is taken out, hot wind after cooling in chilling area can be extracted out, it, can also be into maintain kiln inner pressure to balance
The recycling of row heat, the pressure balance in chilling area are related to the height of energy consumption and the stabilization of burning zone temperature.It should prevent
Clinkering zone flue gas flows backward to cooling zone and generates sootiness defect, also to prevent hot wind after cooling from excessively flowing into clinkering zone and cause temperature
Energy consumption is caused to increase after fluctuation.
It is further used as preferred embodiment, the length for taking out exhaust column on hot-rolling is greater than the cooling cavities width
Half, it is described take out hot-rolling under exhaust column length be less than the cooling cavities width half.Exhaust column on hot-rolling is taken out to protrude into
Center line in kiln and more than kiln body guarantees section temperature difference and wind pressure size uniformly to extract hot wind out.
It is further used as preferred embodiment, the cold component of tail includes the cold blast main 60 of tail, to be connected to the tail cold
The tail of 60 one end of blast main it is cold for blower 50, be connected to the tail cold blowing air hose 51 of cold 60 other end of blast main of the tail, the tail
Cold blowing air hose 51 is interspersed in the inner sidewall of the tail cold passage, length direction of the tail cold blowing air hose 51 along the tail cold passage
Several are provided with, top and lower section, the top of lower layer's rollgang 2 and the lower section of the upper layer rollgang 1 are all provided with
It is equipped with the tail cold blowing air hose 51, is provided with several tail cold blowing air holes on the every tail cold blowing air hose 51.Tail cold-zone
The type of cooling is similar with the type of cooling in chilling area, and the material high temperature resistance of tail cold blowing air hose 51 is than chilling blowing branch pipe 64
Material high temperature resistance wants low, and cold wind is by the cold conveying for blower 50 of tail on tail cold-zone fan platform 48, from the cold total wind of tail
Pipe 60 enters the wind box 52 in kiln above and below two side roller sticks, blows out from tail cold blowing air holes after tail cold blowing air hose 51, to upper layer
Product on rollgang 1, lower layer's rollgang 2 carries out blow-through, and the air quantity of single branch tail cold blowing air hose 51 is finely tuned by hand-operated valve.
The direction of blowing can be rotated tail cold blowing air hose 51 to adjust.
It is further used as preferred embodiment, the cold component of tail further includes tail cooling draft machine 49, is connected to the tail
The cold discharge pipe of tail of 49 air outlet of cooling draft machine, passes through pipe at the cold branch pipe 61 of tail for being connected to 49 air inlet of tail cooling draft machine
Exhaust column 62 in the tail chilling roller that road and the cold branch pipe 61 of the tail are interconnected is interconnected by pipeline and the cold branch pipe 61 of the tail
Tail chilling roller under exhaust column 63, in the tail chilling roller under exhaust column 62, tail chilling roller exhaust column 63 along the length of the cooling cavities
Degree direction is provided with several, the top of the upper layer rollgang 1, lower layer's rollgang 2 top be respectively provided with
State exhaust column 62 in tail chilling roller, the lower section of the upper layer rollgang 1, lower layer's rollgang 2 lower section be respectively provided with
State exhaust column 63 under tail chilling roller.By exhaust column 63 under exhaust column 62 in tail chilling roller and tail chilling roller, can extract out cooling in tail cold-zone
Hot wind afterwards can also carry out the recycling of heat to maintain air pressure balance, tail is cold, slow cooling, each area of chilling heat successively return
After receipts, mixed wind-warm syndrome can be used for combustion-supporting, extra clean hot-air for dry brick, to reduce up to 250 DEG C or more
The fuel consumption of Production of Ceramics process.In some embodiments, exhaust column 63 passes through under exhaust column 62, tail chilling roller in tail chilling roller
Several hang on the roof of kiln frame, reduce the influence that pipeline is deformed at high temperature.
It is further used as preferred embodiment, it is wide to be greater than the cooling cavities for the length of exhaust column 62 in the tail chilling roller
The half of degree, the length of exhaust column 63 is less than the half of the cooling cavities width under the tail chilling roller.Likewise, in tail chilling roller
Exhaust column 62 protrudes into kiln and is more than the center line of kiln body, uniformly to extract hot wind out, guarantees section temperature difference and wind pressure size.
Be further used as preferred embodiment, the upper layer rollgang 1 include upper layer driving motor, be set to it is described
Intracorporal first conveying roller of epicoele, first conveying roller along the upper cavity length direction it is evenly distributed be provided with it is several
A, the upper layer driving motor and all first conveying rollers are sequentially connected, and lower layer's rollgang 2 drives including lower layer
Dynamic motor is set to intracorporal second conveying roller of the cavity of resorption, and second conveying roller is equal along the length direction of the lower chamber
Even to be disposed with several, lower layer's driving motor and all second conveying rollers are sequentially connected.It is cold logical positioned at tail
The same structure that upper layer rollgang 1 and lower layer's rollgang 2 in road use, equally the inner wall along tail cold passage is along length
Several evenly distributed first conveying rollers of direction and the second conveying roller, and pass through upper layer driving motor and lower layer's driving motor respectively
Driving.Adobe is placed on the first conveying roller, on the second conveying roller, to push forward, specifically, epicoele intracorporal first is defeated
Roller is sent to be driven by upper layer driving motor, the first conveying roller of upper cavity can be individually by a upper layer driving motor in each area
Driving, also drives the first conveying roller of upper cavity in each area using the same upper layer driving motor, and so each first is defeated
Send roller rotatable, realization pushes adobe, the driving structure of same second conveying roller and the driving structure of the first conveying roller
It is identical.
It is further used as preferred embodiment, the epicoele in discharge fume area, preheating zone, firing zone, the chilling area, slow cooling area
Direction is extended along a length thereof in vivo is provided with accident hole and accident hole under the first roller on several first rollers, thing on first roller
Therefore hole is located at the top of the upper layer rollgang 1, accident hole is located under the upper layer rollgang 1 under first roller
Side, it is described smoke evacuation area, preheating zone, firing zone, chilling area, slow cooling area lower chamber in extend along a length thereof direction be provided with it is several
Accident hole under accident hole and the second roller on a second roller, accident hole is located at the upper of lower layer's rollgang 2 on second roller
Square, accident hole is located at the lower section of lower layer's rollgang 2 under second roller.Accident hole and accident on the second roller on first roller
Hole, which is located above product, can both check adobe operating condition, also be capable of handling folded brick, under the first roller under accident hole and the second roller
Accident hole is located at below product, if roll breakage occur falls the accidents such as brick, directly can handle and clean waste residue.
Better embodiment of the invention is illustrated above, but the invention is not limited to the implementation
Example, those skilled in the art can also make various equivalent modifications on the premise of without prejudice to spirit of the invention or replace
It changes, these equivalent variation or replacement are all included in the scope defined by the claims of the present application.
Claims (9)
1. a kind of cooling plot structure of energy-saving binary channels roller kilns, it is characterised in that: including be arranged successively setting chilling area,
Slow cooling area, tail cold-zone, the chilling area, slow cooling area be provided with kiln body frame in tail cold-zone, the chilling area, slow cooling area
Be provided with cooling cavities in kiln body frame, the chilling area, slow cooling area cooling cavities in be provided with separate layer so that institute
State chilling area, the cooling cavities in slow cooling area is divided into upper cavity and lower chamber, tail cold passage, the urgency are provided in the tail cold-zone
Be provided with upper layer rollgang in cold-zone, the upper cavity in slow cooling area and tail cold passage, the chilling area, slow cooling area lower chamber with
It is provided with lower layer's rollgang in tail cold passage, chilling component, the slow cooling area are provided in the cooling cavities in the chilling area
Cooling cavities in be disposed with heat exchanger assembly along the direction of the chilling area to the tail cold-zone and take out hot component, it is described
The cold component of tail is provided in tail cold passage.
2. a kind of cooling plot structure of energy-saving binary channels roller kilns according to claim 1, it is characterised in that: the urgency
Cold component include chilling blast pipe, be connected to the chilling of chilling blast pipe one end for blower, be connected to the chilling and enter the wind
The chilling blowing branch pipe of the pipe other end, the chilling blowing branch pipe run through the inner sidewall of the cooling cavities, the chilling blowing
Branch pipe is provided with several along the length direction of the cooling cavities, the top and lower section of the upper layer rollgang, it is described under
The top and lower section of layer rollgang are provided with the chilling blowing branch pipe, are provided on every chilling blowing branch pipe
Several chilling blowholes.
3. a kind of cooling plot structure of energy-saving binary channels roller kilns according to claim 1, it is characterised in that: the heat
Exchange component include heat exchange blast pipe, the heat exchange exhaust fan for being connected to heat exchange blast pipe one end, be connected to it is described
The heat exchanger tube of the heat exchange blast pipe other end is connected to heat exchange row of the heat exchanger tube far from heat exchange blast pipe one end
Air hose, the heat exchanger tube are interspersed in the inner sidewall of the cooling cavities, length direction of the heat exchanger tube along the cooling cavities
Several are provided with, top and lower section, the top of lower layer's rollgang and the lower section of the upper layer rollgang are respectively provided with
There is the heat exchanger tube.
4. a kind of cooling plot structure of energy-saving binary channels roller kilns according to claim 3, it is characterised in that: the pumping
Hot component further includes taking out air-heater, being connected to the hot discharge pipe of pumping for taking out air-heater air outlet, be connected to the pumping air-heater
Air inlet takes out hot leg pipe, takes out exhaust column on the interconnected pumping hot-rolling of hot leg pipe, by pipeline and institute with described by pipeline
State and take out exhaust column under the interconnected pumping hot-rolling of hot leg pipe, on the pumpings hot-rolling under exhaust column, pumping hot-rolling exhaust column along described
The length direction of cooling cavities is provided with several, the top of the upper layer rollgang, lower layer's rollgang top
It is provided with exhaust column on the pumping hot-rolling, is all provided with below the lower section of the upper layer rollgang, lower layer's rollgang
It is equipped with exhaust column under the pumping hot-rolling.
5. a kind of cooling plot structure of energy-saving binary channels roller kilns according to claim 4, it is characterised in that: the pumping
The length of exhaust column is greater than the half of the cooling cavities width on hot-rolling, and the length for taking out exhaust column under hot-rolling is less than described
The half of cooling cavities width.
6. a kind of cooling plot structure of energy-saving binary channels roller kilns according to claim 1, it is characterised in that: the tail
Cold component include the cold blast main of tail, be connected to the cold blast main one end of the tail tail it is cold for blower, be connected to the cold total wind of the tail
The tail cold blowing air hose of the pipe other end, the tail cold blowing air hose are interspersed in the inner sidewall of the tail cold passage, the tail cold blowing air hose
The length direction of the tail cold passage is provided with several, the top of the upper layer rollgang and lower section, the lower layer are defeated
It send the top of roller-way and lower section to be provided with the tail cold blowing air hose, is provided with several tails on the every tail cold blowing air hose
Cold blowing air holes.
7. a kind of cooling plot structure of energy-saving binary channels roller kilns according to claim 6, it is characterised in that: the tail
Cold component further includes tail cooling draft machine, the cold discharge pipe of tail for being connected to the tail cooling draft machine air outlet, to be connected to the tail cold
Exhaust column on the cold branch pipe of the tail of exhaust fan air inlet, the tail chilling roller being interconnected by pipeline and the cold branch pipe of the tail passes through pipe
Exhaust column under the tail chilling roller that road and the cold branch pipe of the tail are interconnected, exhaust column is equal under exhaust column, tail chilling roller in the tail chilling roller
The length direction of the cooling cavities is provided with several, the top of the upper layer rollgang, lower layer's rollgang
Top be provided with exhaust column in the tail chilling roller, under the lower section of the upper layer rollgang, lower layer's rollgang
Side is provided with exhaust column under the tail chilling roller.
8. a kind of cooling plot structure of energy-saving binary channels roller kilns according to claim 7, it is characterised in that: the tail
The length of exhaust column is greater than the half of the cooling cavities width in chilling roller, and the length of exhaust column is less than described under the tail chilling roller
The half of cooling cavities width.
9. a kind of cooling plot structure of energy-saving binary channels roller kilns according to claim 1, it is characterised in that: described point
Interlayer includes square beam, interlayer hollow plate, interlayer heat-insulating blanket, insulating brick-layer, protection board, length of the square beam along the cooling cavities
Direction is evenly distributed is provided with several for degree, and the position of the face every square beam is provided in the side wall of the cooling cavities
Bearing bricks, the side wall that each bearing bricks are right against the square beam are provided with square hole, the both ends difference of every square beam
With in the square hole of its face, the top surface of all square beams forms a supporting surface for insertion, the interlayer hollow plate, every
Layer insulation blanket, insulating brick-layer, protection board are arranged in order at from the bottom to top on the supporting surface.
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CN112797786A (en) * | 2020-12-23 | 2021-05-14 | 广东新一派建材有限公司 | Firing device for ceramic rock plate and firing treatment method for ceramic rock plate |
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