CN202329072U - Transverse flame unit kiln structure utilizing heat-storage combustion technique - Google Patents

Abstract

The utility model relates to a transverse flame unit kiln structure by utilizing a heat-storage combustion technique. An independent heat storage chamber is respectively arranged at each of the left side and the right side of a kiln, a flame nozzle is arranged below a combustion-supporting air nozzle of the kiln, and a flame of a combustor is transversely arranged. The kiln runs to utilize interval combustion, and a left-side heat storage chamber is used for storing heat when a right-side combustor runs, a left-side combustor starts running and the right-side combustor stops running when heat storage requirements are realized, and the combustion-supporting air blown from an air blower flows through the heat storage chamber to absorb heat in the heat storage chamber, thus the left-side combustor and the right-side combustor are combusted reversely at an interval; simultaneously, the right-side heat storage chamber and the left-side heat storage chamber store heat at an interval so that a heat-storage combustion type transverse flame unit kiln structure. The transverse flame unit kiln structure can improve uniformity of an internal temperature field of a kiln and production quality of metallurgy auxiliary materials; and the transverse flame unit kiln structure can effectively utilize waste heat of combusted fume of the kiln so as to save energy.

Description

A kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology

Affiliated technical field

The utility model relates to a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology, and especially a kind of Regenerative Combustion Technology field that belongs to is mainly used in the uniformly-spaced furnace construction of reversing combustion heating of cross flame metallurgic auxiliary materials tank furnace.

Background technology

Metallurgic auxiliary materials is to produce the high-quality necessary raw material of steel at present, and high-quality metallurgic auxiliary materials can improve the quality of steel, produces high-quality metallurgic auxiliary materials and then must depend on the outstanding kiln of performance.Kiln temperature inside field has decisive for the production of metallurgic auxiliary materials; Kiln is the second largest power consumption industry that is only second to boiler at present simultaneously; In recent years, along with the appearance of national energy-conserving and environment-protective relevant laws and regulations, and the rising steadily of fuel price; The waste heat of flue gas absorbs the continuous attention that obtains relevant enterprise with utilization after the fuel combustion, and hope can be got up the UTILIZATION OF VESIDUAL HEAT IN in the flue gas as much as possible.

Dissimilar kilns is also adopted in the production of present domestic metallurgic auxiliary materials, and still from the situation of present application, dissimilar kilns all has various weak points.As, because of its internal temperature field and inhomogeneous, burning is insufficient, and the quality of the metallurgic auxiliary materials that causes producing is not high; Because of kiln gas fume after burning waste heat can not get effective utilization, thereby cause the increase of energy consumption, thereby cause the increase of cost; The distortion that produces because of the expanded by heating of the big arch of kiln, and then influence the safe and stable operation of whole kiln.So,, just can improve the service life and stability of kiln if the distortion that can produce the big arch of kiln because be heated control effectively; If can improve the air exit temp of regenerator, the flow path resistance that reduces as much as possible simultaneously in the fume afterheat absorption process just can be saved energy and reduce the cost.

But all safety is firm inadequately for present kiln arch roof construction; Present regenerator lattice brick structure heat storage capacity is not very strong.Though; Domestic also have the part accumulation of heat checker brick structure developing and using, but from the situation of present application, improves the flow path resistance of the increase flue gas that heating surface will be in various degree; Will increase the air-introduced machine power of kiln, cause the increase of cost indirectly.

Based on above-mentioned situation.The application is intended to propose a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology, and its inner special low-resistance checker brick structure, arch roof construction, burning structure etc. can fundamentally solve problems such as heat storage capacity is poor, burning is insufficient, structure is insecure.

The utility model content

The purpose of the utility model is; A kind of furnace construction that can improve kiln temperature inside field uniformity is provided, to improve the production quality of metallurgic auxiliary materials, simultaneously; This furnace construction can effectively utilize kiln gas fume after burning waste heat, thereby reduces the consumption of fuel.

Another purpose of the utility model is; Security when providing the firm arch roof construction of a kind of safety to move to improve kiln arch top is to solve kiln of the prior art owing to the distortion of arch top influences the stability of whole kiln operation and the problem of minimizing life cycle.

Another purpose of the utility model is; The kiln pond melting end structure that a kind of high efficiency kiln is provided to solve in the existing furnace construction since the charge door design unreasonable produces reinforced slow, be prone to obstruction, feed in raw material inhomogeneously, thermometric radiating aperture designs problems such as the thermometric of unreasonable generation is inaccurate; Owing to the unreasonable problems such as maintenance length consuming time that cause of discharging opening design.

Another purpose of the utility model is that the kiln heat accumulation chamber structure that a kind of high accumulation of heat rate is provided is to solve problems such as high owing to the unreasonable energy consumption that produces of design in the existing furnace construction, that thermal loss is big, service life is short.

Another purpose of the utility model is; Provide a kind of and can improve heating surface; Improve the needs heating air exit temp of regenerator, anistree tubular checker brick (or the regular hexagon checker brick) structure that reduces flue gas resistance simultaneously improves heating surface the two can not be taken into account and problem such as cost height with reducing the flue gas flow resistance to solve existing checker brick.

Another purpose of the utility model is that the flue structure that provides a kind of good airproof performance, waste heat energy to access effective utilization has now in the furnace flue structure owing to problems such as the unreasonable environmental pollution that produces of design, waste heat lose, service life is short to solve.

The technical scheme of the utility model is achieved in that the cross flame unit kiln structure of this employing Regenerative Combustion Technology, is furnished with independently regenerator in the left and right sides of kiln; Below the combustion air spout of kiln, be furnished with bocca (burner nozzle), burner flame adopts cross flame to arrange, when kiln moves; Adopt burning at interval, when the burner bocca (nozzle) on right side moved, the regenerator in left side was carried out accumulation of heat; When reaching the accumulation of heat requirement, the burner bocca in left side brings into operation, and the burner on right side is out of service; The combustion air that blows into from air blast flows through regenerator, and absorbs the inner heat of regenerator, like this burner of and arranged on left and right sides interval reversing combustion; Regenerator right simultaneously, left both sides is carried out accumulation of heat at interval, thereby forms a kind of cross flame unit kiln structure of heat-accumulation combustion.

Specifically; The utility model adopts the cross flame unit kiln structure of Regenerative Combustion Technology; Mainly comprise melting end structure, regenerator, burning structure, flue structure; In a plurality of regenerator of melting end structure both sides independence symmetric arrangement, be connected through burning structure between melting end structure and the regenerator, flue structure is connected with regenerator respectively.

The front side wall of both sides, back side side wall at the bottom of the pond of melting end structure by the bottom, at the bottom of the pond, constitute the kiln pond across the big arch of the kiln at the side wall two ends, side wall wherein comprises the pool wall of below and the breastwork on the pool wall again; On the side wall of both sides, also be provided with a plurality of charge doors, discharging opening, radiating aperture.

Comprise magnesite-chrome brick layer at the bottom of plate brick layer, the pond in the said melting end structure at the bottom of the pond, plate brick layer is positioned at the bottom at the bottom of the pond, and the magnesite-chrome brick layer is positioned at the upper strata at the bottom of the pond at the bottom of the pond, outside magnesite-chrome brick layer at the bottom of the pond and plate brick layer, by first channel-section steel hoop jail, forms the plate brick, stops to expect with Louing; First channel-section steel is regulated by the expansion situation of magnesite-chrome brick through first adjusting screw(rod) on first column that is arranged on both sides at the bottom of the pond; At the bottom of the pond, be reserved with dilatation joint, this dilatation joint is arranged on pool wall below and the position that joins at the bottom of the pond, leaks material to stop pond bottom structure cracking.

Pool wall is built into by the pool wall magnesite-chrome brick, and pool wall is arranged on both sides at the bottom of the pond, and the pool wall top can be provided with breastwork, and the outer hoop of pool wall has second channel-section steel, and second channel-section steel is regulated according to the expansion situation through second adjusting screw(rod) on second column that is arranged on the pool wall both sides; On pool wall, be reserved with multiple tracks pool wall longitudinal dilatation seam and pool wall lateral expansion seam, leak material to stop wall cracking, preferably, pool wall longitudinal dilatation seam is provided with three roads, and pool wall lateral expansion seam is provided with twice.

Breastwork is built into by magnesite-chrome brick, puts on pool wall, outwards chooses from the pool wall inner edge, forms a breastwork and chooses distance outward, and this set has effectively increased the kiln inner width, has improved efficiency of combustion, has strengthened port coverage, is convenient to batch melting; On breastwork, be reserved with multiple tracks breastwork longitudinal dilatation seam and breastwork lateral expansion seam.Preferably, breastwork longitudinal dilatation seam is provided with three roads, and breastwork lateral expansion seam is provided with twice.

The big arch of kiln is an arc-shaped structure, is 1/6 arch, is arranged on the top of two ends big arch spats brick; Big arch spats brick is a boss structure, is arranged on the breastwork top; Big arch pin brick (being shaped as wedge shape) is the parts that just in time can fix big arch of kiln and the space between the arch spats brick greatly; Space between big arch pin brick wedging big arch of kiln and the big arch spats brick; The big arch pin brick outside is buckled with the 3rd channel-section steel; The 3rd channel-section steel supports and regulates through the 3rd adjusting screw(rod) that is arranged on the 3rd column, again by bracket steel holder jail on the 3rd column, the front end of the 3rd adjusting screw(rod) contacts with the outside of arch pin brick the 3rd channel-section steel greatly.

In addition, big arch spats brick has bearing arc surface, bearing flat surface, three the main faces in bearing bottom surface, and wherein the bearing arc surface is positioned at the breastwork inboard, and the bearing flat surface is positioned at the breastwork outside; The bearing arc surface exceeds bearing flat surface certain distance, and the side of the raised area forms bearing boss facade; The bottom surface at the big arch of bearing arc surface and kiln two ends fits, and the bottom surface of big arch pin brick is carried on the bearing flat surface; Wherein, the bearing arc surface is identical with the bottom surface radian of the big arch of kiln, and fits with the bottom surface at two ends, because the bottom surface circular arc of this bearing arc surface and the big arch of kiln just in time coincides together, can guarantee that hot flue gas can not flow out.

Simultaneously; It is terminal that part between big arch pin brick wedging big arch of kiln and the big arch spats brick has a wedge; The height of this wedge end is identical with the height of the bearing boss facade that is contacted; Promptly when the space between big arch pin brick wedging big arch of kiln and the big arch spats brick, can fit like a glove, guarantee that further hot flue gas can not flow out; Consider that from the angle of structural stability the wedge end is usually located at the inboard of the bearing bottom surface center line of bearing bottom surface, promptly more inboard near the furnace wall.Big arch pin brick is shaped as wedge shape, and angle is 53 °, protected by big arch spats brick, does not contact flame; Big arch spats brick shape is special, can intactly protect big arch pin brick.

Be provided with a discharging opening in the front in the middle of the side wall, each evenly is provided with N charge door the discharging opening both sides, and back side side wall evenly is provided with 2N+1 charge door, and N is the positive integer less than 8.N is a positive integer, considers flame temperature and intensity, and the quantity of charge door is unsuitable too many, and N gets the positive integer less than 8 usually.

Generally, the position of radiating aperture is arranged on the middle part or the both sides of front side wall or back side side wall, and the quantity of the radiating aperture on front side wall or the back side side wall equates perhaps to differ one.

Preferably; Be provided with a discharging opening in the front in the middle of the side wall, each evenly is provided with 3 charge doors the discharging opening both sides, and back side side wall evenly is provided with 7 charge doors; Amount to 13 charge doors; One end of side wall is provided with a radiating aperture in the front, and the middle part of a side wall and radiating aperture is set with the relative other end of an end that the front side wall is provided with radiating aperture respectively amounts to 3 radiating apertures overleaf.

The charge door of the utility model is rectangle, and has a blanking slope, and this blanking slope has a blanking slope angle a; The scope of blanking slope angle a is 20 °～25 ° angles, is preferably 21 °, and the downslide of being convenient to like this expect is flowed; Shorten the blanking time, simultaneously, avoided the obstruction of material.

Above the discharging opening of the utility model, be crossed with the discharging opening arch, be similar to the big arch of kiln, such structure setting is convenient to the internal structure of discharging opening is safeguarded that the discharging opening arch of needn't dismantling again can reduce input, reduces maintenance cost.

The regenerator structure of the utility model is a cuboid; This regenerator structure mainly comprises the regenerator crown structure at top; The checker brick structure at middle part, the bar arch structure of checker brick is born in the bottom, and is arranged on regenerator peep hole, regenerator ash removing opening and inspection door on the front-back wall.

The regenerator crown structure comprises regenerator crown pin brick that is arranged on the regenerator crown two ends and the regenerator crown closure insulation that is arranged on regenerator crown top, to reduce the heat radiation of arch top; The regenerator crown pin steel of regulating through the 4th adjusting screw(rod) is arranged in regenerator crown pin brick outer setting; Regenerator crown is 1/7.5 arch, and regenerator crown pin brick is 60 °.

A plurality of regenerator peep holes of being convenient to observe the port situation are arranged on the back wall of regenerator with the regenerator ash removing opening of being convenient to remove the stifled ash of checker.The regenerator wall body structure is regenerator magnesite-chrome brick layer, regenerator insulating brick-layer and regenerator silico-calcium flaggy from the inside to the outside successively, and the wall body structure that forms complex heat-preservation helps reducing heat radiation, simultaneously, leaves dilatation joint at regenerator magnesite-chrome brick layer segment.

The checker brick structure at regenerator middle part comprises the multilayer brick laying structure that is made up of anistree tubular checker brick or regular hexagon checker brick, from top to bottom is respectively magnesium chromium-12 checker brick layer, magnesium-92 checker brick layer, high alumina checker brick layer, clay checker brick layer.

The bar arch that regenerator bottom bears in the bar arch structure of checker brick is the semicircle arch.

A plurality of inspection doors of being convenient to checker pendulum block or changing are arranged on the front wall of regenerator.Be provided with the regenerator dilatation joint that twice are convenient to light a fire and are expanded in the regenerator crown structure both sides at top, on the short transverse of the 4th column, establish the regenerator of being convenient to that twice are regulated by the 4th adjusting screw(rod) and form holistic the 4th channel-section steel.In addition, the flat arch in the regenerator is connected with oblique arch in the burning structure.

Described anistree tubular checker brick separation; The brick laying structure that formation is continued in all directions; The profile of every block of anistree tubular checker brick surrounds symmetrical anistree profile (in order to increase the stability of brick laying structure at interval by each four isometric long limit of tow sides and four isometric limits, oblique angle; The long edge lengths of anistree tubular checker brick is usually greater than the oblique angle edge lengths in the utility model; Seem that thereby whole brick body similarly is on square brick body, to remove four angles to constitute octagonal brick laying structure), every block of anistree tubular checker brick closely are connected with four blocks of anistree tubular checker brick respectively through the face that the limit, oblique angle constitutes; Have a cavity in the middle of every block of anistree tubular checker brick, this cavity can be a kind of in square cavities or the circular cavity of anistree cylindrical cavity, square cavities, band chamfering, is preferably anistree cylindrical cavity; Each is provided with two equally spaced grooves between two parties in the position perpendicular to 4 long limits the tow sides of every block of anistree tubular checker brick, amounts to 16 grooves; The cross sectional shape of groove is semicircle or half square, in the brick structure that is built into, will present cylindrical cavity or square cavities like this.

Similar with the structure and the arrangement of anistree tubular checker brick, the regular hexagon checker brick also are separation, form the cellular brick laying structure that continues in all directions, and every block of regular hexagon checker brick closely are connected with six blocks of regular hexagon checker brick respectively through six sides; Have a cavity in the middle of every block of regular hexagon checker brick, this cavity can be a kind of in square cavities or the circular cavity of regular hexagon cavity, band chamfering of regular hexagon cavity, square cavities, band chamfering, is preferably the regular hexagon cavity; The tow sides of every block of regular hexagon checker brick are provided with two equally spaced grooves between two parties perpendicular to the position of six outsides, amount to 24 grooves; The cross sectional shape of groove is semicircle or half square.

On the side of anistree tubular checker brick, also can equidistantly be vertically arranged with two through holes between two parties; And these holes be shaped as square or circle; Therefore also can form cylindrical cavity or square cavities in use; Though but the mode of this set through hole has its certain superiority, can increase the technology of pressing brick in process of production than the mode that groove is set by contrast, generally will not adopt during actual production.

Through the use of anistree tubular checker brick or regular hexagon checker brick, make regenerator have enough heat storage capacities and good actual internal area.

Burning structure inner body shape is triangular in shape, external overall shape at right angles trapezoidal (when containing external support structure), and this burning structure includes bocca arch, bocca, nozzle, oblique arch, base plate; The bocca arch is connected with oblique arch, and (tiltedly arch is connected with the interior flat arch of regenerator), base plate is arranged on oblique arch below; Cavity between base plate and the oblique arch constitutes the combustion air spout; Bocca is arranged on the end of base plate near the bocca arch, and bocca is provided with a plurality of nozzles, and one of them is the comburant oxygen nozzle at least; Burner oil can be a natural gas, also can be fuel such as heavy oil, diesel oil, coal gas generation gas; The side wall of this burning structure is provided with one or more burning structure inspection sockets.

Wherein, tiltedly arch has an oblique arch angle of declination b, and base plate has a base plate angle of declination c, and tiltedly the scope of arch angle of declination b is 20 °～30 °, is preferably 25 °, and the scope of base plate angle of declination c is 10 °～15 °, is preferably 11 °.The lateral separation of nozzle distance bocca arch is 0.5m～2m, is preferably 1m, and this distance helps natural gas and fully mixes with auxiliary air, separates out carbon granules simultaneously, increases Fire Radiation intensity; Designs of nozzles becomes trumpet type, and in order to the flame expansion, the quantity of nozzle is preferably 3, and is the comburant oxygen nozzle, to increase port coverage; In addition, the nozzle place adopts steel construction, and is of a tightly knit structure, is convenient to nozzle brick and changes.

In addition, the side wall of this burning structure is provided with one or more burning structure inspection sockets, and the quantity of burning structure inspection socket is preferably 2, so that deashing; The position that is connected with regenerator at the oblique arch of this burning structure is reserved with the burning structure dilatation joint.

Be provided with bocca arch pin brick at the two ends of bocca arch, at bocca arch pin brick, tiltedly the arch pin brick outer setting of arch all has arch pin steel, arch pin steel is regulated through the 5th adjusting screw(rod) that is arranged on the 5th outer column of burning structure both walls.The angle of bocca arch pin brick is 60 °, and the 5th column is preferably three.

Flue in the flue structure of the utility model (general name) mainly is made up of main chimney flue and two regenerator flues; Also include flashboard interchanger, flue ash removing opening, sack cleaner, waste heat boiler, chimney; Each regenerator flue one end connects regenerator, and the other end is connected to main chimney flue; The flashboard interchanger is installed between each regenerator flue; Flue is provided with a plurality of flue ash removing openings; On main chimney flue, also be disposed with sack cleaner, waste heat boiler, flue connects chimney at last.

The furnace flue structure of the utility model gathers the regenerator flue in two symmetrically arranged regenerator to main chimney flue; And control through the flashboard interchanger that is installed in correct position between each regenerator flue that (the flashboard interchanger is installed in the correct position of flue; Auxiliary air controlled automatically by the flashboard interchanger and waste gas alternately passes in and out regenerator in certain hour); Wherein two of the flashboard interchanger flashboards are cast by cast iron, and are high temperature resistant, not fragile; The secondary blower of band frequency modulation device also is housed on the flashboard interchanger, can automatic frequency adjustment, control suitable auxiliary air amount and burn energy savings.

In addition, also include a plurality of flue ash removing openings in this flue structure, to guarantee that flue is unimpeded; Flue gas in the main chimney flue at first carries out dedusting through sack cleaner, gets into waste heat boiler then and reclaims heat (waste heat boiler generally is set to get final product), and the steam that utilizes waste heat to produce is used for north heating and worker's bathing etc.; At last, flue gas carries out high altitude discharge through chimney, helps the depollution of environment, at this moment, an automatic frequency adjustment air-introduced machine can be installed before chimney, to regulate furnace pressure and the toxic emission speed in the tank furnace.

The flue of flue layer within the walls is a undercloak, and is wiped with fire clay, and skin is the common brick layer, has so both guaranteed the body of wall air-tightness, can realize insulation again.The 6th column of a plurality of supported weight can also be set outside said flue structure.

The beneficial effect of the utility model is:

(1) this furnace construction form makes the flame of fuel combustion generation and inner metallurgic auxiliary materials obtain the available heat exchange; Strengthened the heat exchange effect; Guaranteed the uniformity of kiln internal temperature field; The regenerator structure of bilateral symmetry setting simultaneously is utilized effectively the heat in the flue gas, thereby has reduced the consumption of fuel.

(2) because this kiln form is a unit structural form, unitary space structure of inner formation can make full use of the inner unitary space of kiln like this, makes that the fusing of metallurgic auxiliary materials is effectively guaranteed.

(3) the utility model left and right sides of being employed in kiln is furnished with independently regenerator; Below the combustion-supporting air port of kiln, be furnished with burner nozzle; Burner flame adopts cross flame to arrange; The inner metallurgic auxiliary materials of combustion flame and kiln obtains the available heat exchange like this, has strengthened the heat exchange effect, has guaranteed the uniformity of kiln internal temperature field.

(4) the utility model adopts burning at interval, when the right side spray gun moves when kiln moves; The regenerator in left side is carried out accumulation of heat; When reaching the accumulation of heat requirement, the burner in left side brings into operation, and the burner on right side is out of service; Heat in the flue gas is utilized effectively, thereby has reduced the consumption of fuel.

(5) the utility model has very strong adaptability for the combustion fuel of kiln, can be widely used in fuel such as natural gas, heavy oil, diesel oil, coal gas generation gas.

(6) the big arch of the kiln of the utility model is an arc-shaped structure, and bearing is that a front is the plane, and the back is the structure of circular arc, and the circular arc of this circular arc and the big arch of kiln just in time coincides together, and the refractory material of big arch of kiln and bearing employing same-type.Guaranteed the uniformity of big arch of kiln and bearing expanded by heating like this, hot flue gas can not be flowed out.

(7) wedge that adopts of the utility model is the parts that just in time can fix the space between big arch of kiln and the bearing, and simultaneously, wedge is provided with column at the back, and column is provided with the screw rod that can adjust length, and the screw rod front overlaps with wedge at the back.When the big arch of kiln produces expansion because of being heated,, can make the arch top of kiln can access effective fixing like this, become the firm arch of a kind of safety and push up through the length of adjustment column screw rod.

(8) in the kiln arch roof construction of the utility model, install owing to employing between arch top and the spats brick is similar to modular mode, and fix, be convenient to maintenance (can dismantle or change) disparate modules to whole kiln through wedge shape pin brick.Simultaneously, big arch structure can be maked somebody a mere figurehead on column (the arch knot that is arranged on the discharging opening top is similar with the big arch structure of kiln), and such structure is convenient to cold repair at the bottom of pool wall, the pond, and the big arch of needn't dismantling again can reduce input, reduces the maintenance cost of kiln.Simultaneously, the kiln arch roof construction of the utility model has very strong adaptability, can be widely used in above the different kilns.

(9) a plurality of charge doors that evenly are provided with in the utility model melting end structure not only can improve charging rate, and the material powder is evenly distributed in melting tank; Evenly spaced apart a plurality of radiating apertures can accurately detect and reflect the kiln temperature inside, so that kiln temperature is controlled.

(10) dilatation joint of reserving can effectively be stopped the leakage material phenomenon of kiln breastwork, has reduced the production loss, has improved prouctiveness; Breastwork has effectively increased inner width, has strengthened port coverage, has been convenient to batch melting from the outer structure of choosing that the pool wall inner edge outwards designs, and has improved efficiency of combustion.

When (11) kiln of the utility model moved, it was reinforced to adopt the charger that coincide with the charge door size to seal, and has avoided the dust pollution in the reinforced process; Adopt the blanking slope at 21 ° of angles, the downslide of being convenient to expect is flowed.

(12) through arch closure insulation and combined wall insulation construction are set, effectively reduced the heat radiation of regenerator; The setting of inspection door, peep hole, ash removing opening is convenient to regenerator is carried out condition monitoring and maintenance; The reservation of dilatation joint and the use of outside hoop iron have improved the overall construction intensity of regenerator, have prolonged its service life.

(13) the anistree tubular checker brick of the utility model; Inside also is anistree tubular construction; The separation that is through checker brick during use can make full use of the area of checker brick surfaces externally and internally, has increased the contact heat-exchanging area of checker brick and flue gas, makes the waste heat energy in the flue gas access abundant absorption.

(14) the anistree tubular checker brick structure of the utility model adopts per two blocks of checker brick closely to connect through an oblique angle in the outer anise of checker brick; It is fully fixing that checker brick can be accessed; Make whole accumulation of heat checker brick can become an overall structure; Guarantee accidents such as checker brick do not cave in, be fit to tall and big checker.

(15) checker brick of the utility model adopt tubular construction; Flue gas can lead to from inner anistree tubular space of checker brick and outside at interval square tubular space or the circular tubular spatial flow of checker brick; When making waste heat energy in the flue gas access abundant absorption, reduced the circulating resistance of flue gas.

(16) checker brick of the utility model adopt anistree tubular construction, because every brick all is a symmetrical structure, easy construction can not cause the construction mismatch.

(17) oblique arch in the burning structure and base plate all are provided with angle of declination, and nozzle distance bocca arch has a lateral separation, help natural gas and fully mix with auxiliary air, separate out carbon granules simultaneously, increase Fire Radiation intensity; Simultaneously, designs of nozzles becomes trumpet type, is beneficial to the flame expansion; The use of comburant oxygen has also improved efficiency of combustion; Deashing also is convenient in the setting of burning structure inspection socket, increases the service life; The arch structure can be maked somebody a mere figurehead on the 5th column, and such structure is convenient to inner cold repair, and the arch of needn't dismantling again can reduce input.

(18) the flue structure air-tightness of the utility model is good, insulating power is strong; The secondary air blast of band frequency modulation device can be controlled suitable auxiliary air amount well and burn energy savings; The a plurality of ash removing openings that are provided with can guarantee the unimpeded of flue; The waste heat boiler that is provided with can reasonably utilize waste heat, realizes exhaust gas utilization; The automatic frequency adjustment air-introduced machine of installing before the chimney can be regulated furnace pressure and the toxic emission speed in the tank furnace, has prolonged kiln service life.

(19) magnesite-chrome brick material, other refractory materials, high strength channel-section steel etc., firm and durable are adopted in the total many places of the utility model.

Description of drawings

Below in conjunction with accompanying drawing and embodiment the utility model is further specified.

Fig. 1 is the unit kiln structural representation of the utility model

Fig. 1-the 1st, melting end structure enlarged drawing among Fig. 1

Fig. 1-1-1 is the cross-section structure enlarged drawing of pond bottom structure among Fig. 1-1

Fig. 1-2-the 1st, pool wall enlarged drawing among Fig. 1-1

Fig. 1-2-the 2nd, the cross-section structure enlarged drawing of sidewall structure among Fig. 1-2-1

Fig. 1-3-1 is a breastwork enlarged drawing among Fig. 1-1

Fig. 1-4-1 is the cross-section structure enlarged drawing of the big arch of kiln among Fig. 1-1

Fig. 1-4-2 is the enlarged drawing of big arch pin brick among Fig. 1-4-1

Fig. 1-4-3 is the enlarged drawing of big arch spats brick among Fig. 1-4-1

Fig. 1-A is the Facad structure enlarged drawing (discharging opening is not shown) of melting end among Fig. 1-1

Fig. 1-B is the plan structure enlarged drawing (discharging opening is not shown) of melting end among Fig. 1-1

Fig. 1-5-1 is the front enlarged drawing of charge door among Fig. 1-1

Fig. 1-5-2 is the side enlarged drawing of charge door among Fig. 1-1

Fig. 1-5-3 be among Fig. 1-1 charge door overlook enlarged drawing

Fig. 1-6-1 is the structure enlarged drawing of discharging opening among Fig. 1-1

Fig. 2-the 1st, the arch roof construction sketch map of regenerator among Fig. 1

Fig. 2-1-1 is the enlarged drawing of regenerator crown pin brick among Fig. 2-1

Fig. 2-the 2nd, the back wall construction sketch map of regenerator among Fig. 1

Fig. 2-3-1 is the transversary sketch map that the inside checker of regenerator among Fig. 1 adopts anistree tubular checker brick

Fig. 2-3-2 is the vertical structure sketch map of the inside checker of regenerator among Fig. 1

Fig. 2-3-3 is the transversary sketch map that the inside checker of regenerator among Fig. 1 adopts the regular hexagon checker brick

Fig. 2-4-1 is the anistree tubular checker brick monomer structure sketch map among Fig. 2-3-1

Fig. 2-4-2 is the regular hexagon checker brick monomer structure sketch map among Fig. 2-3-3

Fig. 2-4-3 is anistree tubular checker brick monomer (the open semicircle shape groove) side view among Fig. 2-4-1

Fig. 2-4-4 is checker brick (open semicircle shape groove) the user mode sketch map of illustrating among Fig. 2-4-3

Fig. 2-4-5 is anistree tubular checker brick monomer (the opening half square groove) side view among Fig. 2-4-1

Fig. 2-4-6 is anistree tubular checker brick monomer (opened round hole) side view among Fig. 2-4-1

Fig. 2-the 5th, the bottom enlarged drawing of regenerator among Fig. 1

Fig. 2-5-1 is the cut-away view of Fig. 2-5

Fig. 2-the 6th, the enlarged drawing of regenerator among Fig. 1 (front wall)

Fig. 3-the 1st, the burning structure enlarged drawing of kiln among Fig. 1

Fig. 3-1-1 is the nozzle-integrated structure enlarged drawing among Fig. 3-1

Fig. 3-1-2 is the nozzle monomer structure figure among Fig. 3-1-2

Fig. 3-1-3 is the side view of the nozzle among Fig. 3-1-2

Fig. 3-the 2nd, the side view of Fig. 3-1

Fig. 3-2-1 is the arch pin brick structure figure among Fig. 3-2

Fig. 4-the 1st, the flue cross-section structure

Fig. 4-the 2nd has installed the flue structure figure of flashboard interchanger

Fig. 4-the 3rd, flashboard interchanger fundamental diagram

Fig. 4-the 4th, flue overall structure sketch map

Fig. 4-the 5th, the waste heat boiler structure chart

Fig. 4-the 6th, the side view of Fig. 4-5

Among the figure

1 melting end structure, 123 pool wall longitudinal dilatations seam

2 regenerator, 124 second columns

3 burning structures, 125 second adjusting screw(rod)s

4 flue structures, 131 breastworks are chosen distance outward

132 breastwork longitudinal dilatations seam at the bottom of 11 ponds

12 pool walls, 141 big arch spats bricks

13 breastworks, 142 bearing arc surfaces

The big arch 143 bearing flat surface of 14 kilns

15 charge doors, 144 bearing bottom surfaces

16 discharging openings, 145 bearing bottom surface center lines

17 radiating apertures, 146 bearing boss facades

18 front side walls, 147 big arch pin bricks

19 back side side walls, 148 wedges are terminal

111 plate brick layers 149 the 3rd column

Magnesite-chrome brick layer 1410 the 3rd adjusting screw(rod) at the bottom of 112 ponds

113 first columns 1411 the 3rd channel-section steel

114 first adjusting screw(rod)s, 1412 brackets are firm

115 first channel-section steels, 151 blanking slopes

121 pool wall magnesite-chrome bricks, 152 blanking slope angle a

122 second channel-section steels, 161 discharging opening arch

211 regenerator crowns 253 the 4th column

212 regenerator crown pin bricks 254 the 4th channel-section steel

213 regenerator crown closure insulations, 255 flat arch

214 regenerator crown pin steel, 30 combustion air spouts

215 the 4th adjusting screw(rod)s, 31 bocca arch

221 regenerator peep holes, 32 boccas

222 regenerator ash removing openings, 33 nozzles

223 regenerator magnesite-chrome brick layers, 34 oblique arch

224 regenerator insulating brick-layers, 341 oblique arch angle of declination b

225 regenerator silico-calcium flaggies, 35 base plates

231 magnesium chromium-12 checker brick layers, 351 base plate angle of declination c

232 magnesium-92 checker brick layer, 36 burning structure inspection socket

233 high alumina checker brick layers, 37 burning structure dilatation joint

234 clay checker brick layers, 38 bocca arch pin brick

235 anistree tubular checker brick 39 the 5th channel-section steels

236 anistree cylindrical cavity 310 the 5th columns

237 grooves 311 the 5th adjusting screw(rod)

238 regular hexagon checker brick, 41 flues (general name)

239 regular hexagon cavitys, 411 clay bricks

Article 241, arch 412 common bricks

251 inspection doors, 420 flashboard interchangers

252 regenerator dilatation joints, 421 flashboards

422 main chimney flues, 432 sack cleaners

423 regenerator flues 433 the 6th column

431 flue ash removing openings, 441 waste heat boilers

The specific embodiment

Below, with reference to the preferred embodiment of accompanying drawing detailed description the utility model.Need to prove before this; Employed term or word can not limited interpretation be common implication or the implication in the dictionary in this specification and claims, and should be based on being interpreted as implication and the notion that meets the utility model technological thought for the principle that can suitably define the notion of term with novel inventor in fact with the best mode explanation.Thereupon; The structure of representing in embodiment that this specification is put down in writing and the accompanying drawing is one of the utility model most preferred embodiment; Can not represent the technological thought of the utility model fully, therefore should be understood that for the utility model, to have various equivalents and the variation that to replace.

As shown in Figure 1; The utility model adopts the cross flame unit kiln structure of Regenerative Combustion Technology; Mainly comprise melting end structure 1, regenerator 2, burning structure 3, flue structure 4, a plurality of regenerator 2 of melting end structure 1 both sides independence symmetric arrangement (adopt in the utility model the time about the embodiment of each regenerator, as required also can about regenerator quantity be set to: about each two, each four, each eight etc.; Its principle is similar; Repeat no more here), be connected through burning structure 3 between melting end structure 1 and the regenerator 2, flue structure 4 is connected with regenerator 2 respectively that (flue structure of the utility model is positioned at the appropriate location at the regenerator back side; Its annexation designs according to actual needs, only himself structure is described here).

Shown in Fig. 1-1, Fig. 1-1-1, Fig. 1-B; Melting end structure 1 by the pond of bottom at the bottom of 11, at the bottom of the pond 11 both sides front side wall 18, back side side wall 19, constitute the kiln pond across the big arch 14 of the kiln at the side wall two ends; Side wall wherein comprises the pool wall 12 of below and the breastwork 13 on the pool wall 12 again; On the side wall of both sides, also be provided with a plurality of charge door 15, discharging opening 16, radiating aperture 17;

11 comprise magnesite-chrome brick layer 112 at the bottom of plate brick layer 111, the pond at the bottom of the pond in the said melting end structure 1; Plate brick layer 111 is positioned at the bottom of the pond 11 bottom; Magnesite-chrome brick layer 112 is positioned at the bottom of the pond 11 upper strata at the bottom of the pond; Outside magnesite-chrome brick layer at the bottom of the pond 112 and plate brick layer 111,, form the plate brick, stop Lou material by first channel-section steel, 115 hoop jails; First channel-section steel 115 is regulated by the expansion situation of magnesite-chrome brick through first adjusting screw(rod) 114 on first column 113 that is arranged on 11 both sides at the bottom of the pond; 11 are reserved with dilatation joint at the bottom of the pond, and this dilatation joint is arranged at the bottom of pool wall 12 belows and the pond the 11 position (not shown)s of joining, and leaks material to stop pond bottom structure cracking.

Shown in Fig. 1-1, Fig. 1-2-1, Fig. 1-2-2; Pool wall 12 is built into by pool wall magnesite-chrome brick 121; Pool wall 12 is arranged on 11 both sides at the bottom of the pond; Pool wall 12 tops can be provided with breastwork 13, and pool wall 12 outer hoops have second channel-section steel, 122, the second channel-section steels 122 to regulate according to the expansion situation through second adjusting screw(rod) 125 on second column 124 that is arranged on pool wall 12 both sides; On pool wall 12, be reserved with multiple tracks pool wall longitudinal dilatation seam 123 and pool wall lateral expansion seam (not shown), leak material to stop pool wall 121 crackings, preferably, pool wall longitudinal dilatation seam 123 is provided with three roads, and pool wall lateral expansion seam is provided with twice.

Shown in Fig. 1-1, Fig. 1-2-2, Fig. 1-3-1, breastwork 13 is built into by magnesite-chrome brick, puts on pool wall 12; Outwards choose from pool wall 12 inner edges; Form a breastwork and choose distance 131 outward, this set has effectively increased the kiln inner width, has improved efficiency of combustion; Strengthen port coverage, be convenient to batch melting; On breastwork 13, be reserved with multiple tracks breastwork longitudinal dilatation seam 132 and breastwork lateral expansion seam (not shown).Preferably, breastwork longitudinal dilatation seam 132 is provided with three roads, and breastwork lateral expansion seam is provided with twice.

Shown in Fig. 1-4-1, Fig. 1-4-2, Fig. 1-4-3, the big arch 14 of kiln is arc-shaped structures, is 1/6 arch, is arranged on the top of two ends big arch spats brick 141; Big arch spats brick 141 is boss structures, is arranged on breastwork 13 tops; Big arch pin brick 147 (being shaped as wedge shape) is the parts that just in time can fix big arch 14 of kiln and the space between the arch spats brick 141 greatly; Space between big arch pin brick 147 wedging big arch 14 of kiln and the big arch spats brick 141; Big arch pin brick 147 outsides are buckled with the 3rd channel-section steel 1411; The 3rd channel-section steel 1411 supports and regulates through the 3rd adjusting screw(rod) 1410 that is arranged on the 3rd column 149; Firm on the 3rd column 149 by 1412 holders of bracket steel again; The front end of the 3rd adjusting screw(rod) 1410 contacts with the outside of big arch pin brick the 3rd channel-section steel 1411 and (is state of contact not shown in the figure; Usually before the kiln igniting, reserve certain expansion distance during actual the use earlier, treat furnace heating-up after, again the 3rd adjusting screw(rod) 1410 is adjusted the thermal expansion (this regulative mode is applicable to other adjusting screw(rod)s in the utility model) to adapt to kiln when arch pin brick 147 contacts with the 3rd adjusting screw(rod) 1410 greatly).

In addition, big arch spats brick 141 has bearing arc surface 142, bearing flat surface 143,144 3 the main faces in bearing bottom surface, and wherein bearing arc surface 142 is positioned at breastwork 13 inboards, and bearing flat surface 143 is positioned at breastwork 13 outsides; Bearing arc surface 142 exceeds bearing flat surface 143 certain distances, and the side of the raised area forms bearing boss facade 146; Bearing arc surface 142 fits with the bottom surface at the big arch of kiln 14 two ends, and the bottom surface of big arch pin brick 147 is carried on the bearing flat surface 143; Wherein, bearing arc surface 142 is identical with the bottom surface radian of the big arch 14 of kiln, and fits with the bottom surface at two ends, because the bottom surface circular arc of this bearing arc surface 142 and the big arch 14 of kiln just in time coincides together, can guarantee that hot flue gas can not flow out.

Simultaneously; Part between big arch pin brick 147 wedging big arch 14 of kiln and the big arch spats brick 141 has a wedge terminal 148; The height of this wedge terminal 148 is identical with the height of the bearing boss facade 146 that is contacted; Promptly when the space between big arch pin brick 147 wedging big arch 14 of kiln and the big arch spats brick 141, can fit like a glove, guarantee that further hot flue gas can not flow out; Consider that from the angle of structural stability wedge terminal 148 is usually located at the inboard of the bearing bottom surface center line 145 of bearing bottom surface 144, promptly more inboard near the furnace wall.Big arch pin brick 147 is shaped as wedge shape, and angle is 53 °, receives big arch spats brick 141 protections, does not contact flame; Big arch spats brick 141 shapes are special, can intactly protect big arch pin brick 147.

Shown in Fig. 1-A, Fig. 1-B, be provided with a discharging opening 16 in the front in the middle of the side wall 18, each evenly is provided with N charge door 15 discharging opening 16 both sides, and back side side wall 19 evenly is provided with 2N+1 charge door 15, and N is the positive integer less than 8.N is a positive integer; Consider flame temperature and intensity; The quantity of charge door 15 is unsuitable too many; N gets the positive integer (differentiation positive, that just carry out for the ease of explanation the side only considers that the even layout of charge door and discharging opening gets final product during actual enforcement, so that the material powder can be evenly distributed) less than 8 usually here in melting tank.

Generally; The position of radiating aperture 17 is arranged on the middle part or the both sides of front side wall 18 or back side side wall 19; And the quantity of the radiating aperture 17 on front side wall 18 or the back side side wall 19 equates or differs one (size of considering discharging opening is generally greater than the size of charging aperture; Generally near the side wall discharging opening middle part is not provided with radiating aperture, and same position only is provided with radiating aperture on a side wall, so normally on the side wall of discharging opening offside, radiating aperture is set).

Preferably; Be provided with a discharging opening 16 in the front in the middle of the side wall 18, each evenly is provided with 3 charge doors 15 discharging opening 16 both sides, and back side side wall 19 evenly is provided with 7 charge doors 15; Amount to 13 charge doors 15; One end of side wall 18 is provided with a radiating aperture 17 in the front, and the middle part of side wall 19 an and radiating aperture 17 is set with the relative other end of an end that front side wall 18 is provided with radiating aperture 17 respectively amounts to 3 radiating apertures 17 overleaf.

Shown in Fig. 1-5-1, Fig. 1-5-2, Fig. 1-5-3, the charge door 15 of the utility model is rectangle, and has a blanking slope 151; This blanking slope 151 has a blanking slope angle a152, and the scope of blanking slope angle a152 is 20 °～25 ° angles, and blanking slope angle a152 size is preferably 21 °; The downslide of being convenient to like this expect is flowed; Shorten the blanking time, simultaneously, avoided the obstruction of material.

Shown in Fig. 1-6-1, above the discharging opening 16 of the utility model, be crossed with discharging opening arch 161, be similar to the big arch 14 of kiln; Such structure setting is convenient to the internal structure of discharging opening 16 is safeguarded; The discharging opening arch 161 of needn't dismantling again can reduce input, reduces maintenance cost.

Shown in Fig. 2-1, Fig. 2-1-1, Fig. 2-6; The regenerator structure of the utility model is a cuboid; This regenerator structure mainly comprises the regenerator crown structure at top; The checker brick structure at middle part, the bar arch structure of checker brick is born in the bottom, and is arranged on regenerator peep hole 221, regenerator ash removing opening 222 and inspection door 251 on the front-back wall.

The regenerator crown structure comprises regenerator crown pin brick 212 that is arranged on regenerator crown 211 two ends and the regenerator crown closure insulation 213 that is arranged on regenerator crown 211 tops, to reduce the heat radiation of arch top; The regenerator crown pin steel of regulating through the 4th adjusting screw(rod) 215 214 is arranged in regenerator crown pin brick 212 outer setting; Regenerator crown 211 is 1/7.5 arch, and regenerator crown pin brick 212 is 60 °.

Shown in Fig. 2-2, a plurality of regenerator peep holes 221 of being convenient to observe the port situation are arranged on the back wall of regenerator with the regenerator ash removing opening 222 of being convenient to remove the stifled ash of checker.The regenerator wall body structure is regenerator magnesite-chrome brick layer 223, regenerator insulating brick-layer 224 and regenerator silico-calcium flaggy 225 from the inside to the outside successively; The wall body structure that forms complex heat-preservation helps reducing heat radiation; Simultaneously, leave the dilatation joint (not shown) in regenerator magnesite-chrome brick layer 223 part.

Shown in Fig. 2-3-1, Fig. 2-3-2, Fig. 2-3-3; The checker brick structure at regenerator middle part comprises the multilayer brick laying structure that is made up of anistree tubular checker brick 235 or regular hexagon checker brick 238, from top to bottom is respectively magnesium chromium-12 checker brick layer 231, magnesium-92 checker brick layer 232, high alumina checker brick layer 233, clay checker brick layer 234.

Shown in Fig. 2-5, Fig. 2-5-1, the bar arch 241 that regenerator bottom bears in the bar arch structure of checker brick is semicircle arch.

Shown in Fig. 2-6, a plurality of inspection doors 251 of being convenient to checker pendulum block or changing are arranged on the front wall of regenerator.Be provided with the regenerator dilatation joint 252 that twice are convenient to light a fire and are expanded in the regenerator crown structure both sides at top, on the short transverse of the 4th column 253, establish the regenerator of being convenient to that twice are regulated by the 4th adjusting screw(rod) 215 and form holistic the 4th channel-section steel 254.In addition, the flat arch 255 in the regenerator is connected with oblique arch 34 in the burning structure 3.

Shown in Fig. 2-3-1, Fig. 2-4-1, Fig. 2-4-3, Fig. 2-4-4, Fig. 2-4-5; Described anistree tubular checker brick 235 separation; The brick laying structure that formation is continued in all directions; The profile of every block of anistree tubular checker brick 235 surrounds symmetrical anistree profile (in order to increase the stability of brick laying structure at interval by each four isometric long limit of tow sides and four isometric limits, oblique angle; The long edge lengths of anistree tubular checker brick 235 is usually greater than the oblique angle edge lengths in the utility model; Seem that thereby whole brick body similarly is on square brick body, to remove four angles to constitute octagonal brick laying structure), every block of anistree tubular checker brick 235 closely are connected with four blocks of anistree tubular checker brick 235 respectively through the face that the limit, oblique angle constitutes; Has a cavity in the middle of every block of anistree tubular checker brick 235; This cavity can be a kind of in square cavities or the circular cavity of anistree cylindrical cavity 236, square cavities, band chamfering; (be preferably anistree cylindrical cavity 236; Be anistree cylindrical cavity 236 shown in the 2-4-1, this cavity shape is generally and the profile spaced set, but also can design again according to actual needs); Each is provided with two equally spaced grooves 237 between two parties the tow sides of every block of anistree tubular checker brick 235 in the position perpendicular to 4 long limits, amount to 16 grooves 237; The cross sectional shape of groove 237 is semicircle or half square; In the brick structure that is built into, will present cylindrical cavity or square cavities like this and (provide the signal that forms cylindrical cavity among Fig. 2-4-4; The formation of square cavities is similar with it, here accompanying drawing no longer).

Of Fig. 2-3-3, Fig. 2-4-2; Similar with the structure and the arrangement of anistree tubular checker brick 235; Regular hexagon checker brick 238 also are separation; The cellular brick laying structure that formation is continued in all directions, every block of regular hexagon checker brick 238 closely are connected with six blocks of regular hexagon checker brick 238 respectively through six sides; Has a cavity in the middle of every block of regular hexagon checker brick 238; This cavity can be a kind of in square cavities or the circular cavity of regular hexagon cavity, band chamfering of regular hexagon cavity 239, square cavities, band chamfering; (be preferably regular hexagon cavity 239; Be orthohexagonal cavity shown in Fig. 2-4-2, this cavity shape is generally and the profile spaced set, but also can design again according to actual needs); The tow sides of every block of regular hexagon checker brick 238 are provided with two equally spaced grooves 237 between two parties perpendicular to the position of six outsides, amount to 24 grooves 237; The cross sectional shape of groove 237 is semicircle or half square.

Like Fig. 2-4-6; (the regular hexagon checker brick 238 sides situation of opening the hole is similar at anistree tubular checker brick 235; Repeat no more here) the side on also can equidistantly be vertically arranged with two through holes between two parties; And these holes be shaped as square or circle (being the situation of circular port shown in Fig. 2-4-6), therefore also can form cylindrical cavity or square cavities in use, though the mode of this set through hole has its certain superiority; Can increase the technology of pressing brick in process of production than the mode that groove is set by contrast, generally will not adopt during actual production.

Through the use of anistree tubular checker brick 235 or regular hexagon checker brick 238, make regenerator have enough heat storage capacities and good actual internal area.

Shown in Fig. 3-1, burning structure 3 inner body shapes are triangular in shape, external overall shape at right angles trapezoidal (when containing external support structure), and this burning structure 3 includes bocca arch 31, bocca 32, nozzle 33, oblique arch 34, base plate 35; Bocca arch 31 is connected with oblique arch 34, and (tiltedly arch 34 is connected with the interior flat arch 255 of regenerator), base plate 35 is arranged on oblique arch 34 belows; Cavity between base plate 35 and the oblique arch 34 constitutes combustion air spout 30; Bocca 32 is arranged on the end of base plate 35 near bocca arch 31, and bocca 32 is provided with a plurality of nozzles 33, and one of them is the comburant oxygen nozzle at least; Burner oil can be a natural gas, also can be fuel such as heavy oil, diesel oil, coal gas generation gas; The side wall of this burning structure 3 is provided with one or more burning structure inspection sockets 36.

Wherein, tiltedly arch 34 has an oblique arch angle of declination b341, and base plate 35 has a base plate angle of declination c351, and tiltedly the scope of arch angle of declination b341 is 20 °～30 °, is preferably 25 °, and the scope of base plate angle of declination c351 is 10 °～15 °, is preferably 11 °.

Shown in Fig. 3-1, Fig. 3-1-1, Fig. 3-1-2, Fig. 3-1-3, nozzle 33 is 0.5m～2m apart from the lateral separation of bocca arch 31, is preferably 1m, and this distance helps natural gas and fully mixes with auxiliary air, separates out carbon granules simultaneously, increases Fire Radiation intensity; Nozzle 33 is designed to trumpet type, and in order to the flame expansion, the quantity of nozzle 33 is preferably 3, and is the comburant oxygen nozzle, to increase port coverage; In addition, nozzle 33 places adopt steel construction, and are of a tightly knit structure, are convenient to nozzle brick and change.

In addition, the side wall of this burning structure 3 is provided with one or more burning structure inspection sockets 36, and the quantity of burning structure inspection socket 36 is preferably 2 (shown in Fig. 3-1), so that deashing; The position that is connected with regenerator 2 at the oblique arch 34 of this burning structure 3 is reserved with burning structure dilatation joint 37.

Shown in Fig. 3-2, Fig. 3-2-1; Be provided with bocca arch pin brick 38 at the two ends of bocca arch 31; Arch pin brick (not shown) outer setting at bocca arch pin brick 38, oblique arch 34 all has arch pin steel 39, and arch pin steel 39 is regulated through the 5th adjusting screw(rod) 311 that is arranged on the 5th outer column 310 of burning structure 3 both walls.The angle of bocca arch pin brick 38 is 60 °, and the 5th column 310 is preferably three.

Shown in Fig. 4-4; Flue (general name) in the flue structure 4 of the utility model mainly is made up of main chimney flue 422 and two regenerator flues 423; Also include flashboard interchanger 420, flue ash removing opening 431, sack cleaner 432, waste heat boiler 441, chimney (not shown); Each regenerator flue 423 1 end connects regenerator 2, and the other end is connected to main chimney flue 422; Flashboard interchanger 420 is installed between each regenerator flue 423; Flue 41 is provided with a plurality of flue ash removing openings 431; On main chimney flue 422, also be disposed with sack cleaner 432, waste heat boiler 441, the flue 422 last chimneys that connect.

Shown in Fig. 4-2, Fig. 4-3, Fig. 4-4; Specifically; The furnace flue structure of the utility model gathers the regenerator flue 423 in two symmetrically arranged regenerator 2 to main chimney flue 422; And control (flashboard interchanger 420 is installed in the correct position of flue 41, and flashboard interchanger 420 control auxiliary airs and waste gas automatically alternately passes in and out regenerator in certain hour) through the flashboard interchanger 420 that is installed in correct position between each regenerator flue 423, wherein two of flashboard interchanger 420 flashboards 421 are cast by cast iron; High temperature resistant, not fragile; The secondary blower of band frequency modulation device also is housed on the flashboard interchanger 420, can automatic frequency adjustment, control suitable auxiliary air amount and burn energy savings.

In addition, also include a plurality of flue ash removing openings 431 in this flue structure, to guarantee that flue is unimpeded; Flue gas in the main chimney flue 422 at first carries out dedusting through sack cleaner 432, gets into waste heat boiler 441 then and reclaims heat (waste heat boiler generally is set to get final product), and the steam that utilizes waste heat to produce is used for north heating and worker's bathing etc.; At last, flue gas carries out high altitude discharge through chimney, helps the depollution of environment, at this moment, an automatic frequency adjustment air-introduced machine can be installed before chimney, to regulate furnace pressure and the toxic emission speed in the tank furnace.

Shown in Fig. 4-1, the flue of flue 41 layer within the walls is 411 layers of clay bricks, and is wiped with fire clay, and skin is 412 layers of common bricks, has so both guaranteed the body of wall air-tightness, can realize insulation again.

Shown in Fig. 4-4, the 6th column 433 (according to the actual conditions of flue, as move towards to wait and design, repeat no more) of a plurality of supported weight can also be set here outside said flue structure.

During practical implementation, for the cross flame unit kiln structure of the employing Regenerative Combustion Technology of the utility model, adopt: the big arch 14 of kiln is 1/6 arch, and big arch pin brick 147 angles are 53 °; Regenerator crown 211 is 1/7.5 arch, and regenerator crown pin brick 212 is 60 °; Bocca arch 31 is 1/7.5 arch; First channel-section steel 115 is that 28# channel-section steel, regenerator crown pin steel 214 are 28# channel-section steels for 200# channel-section steel, second channel-section steel 122 for 200# channel-section steel, the 3rd channel-section steel 1411; In order to guarantee the uniformity of the big arch of kiln 14, big arch pin brick 147 and big arch spats brick 141 expanded by heating, the big arch of kiln 14, big arch pin brick 147, big arch spats brick 141 adopt the refractory material of same-types to process; First column 113, second column 124, the 3rd column 149, the 4th column 253, the 5th column 310, the 6th column 433 all are detachable steel frame constructions; Anistree tubular low-resistance checker brick 235, regular hexagon checker brick 238 are selected the high-quality refractory material of materials such as the magnesia brick that is fit to the regenerator technological requirement, magnesium zirconia block for use.

Especially, for the embodiment in 30 square meters combustions natural gas cross flame metallurgic auxiliary materials kiln pond, concrete design size can be referenced as: in the melting end structure 1 at the bottom of the pond 11 gross thickness be 680mm, magnesite-chrome brick layer 112 thick 340mm at the bottom of the pond; Pool wall 12 highly is 600mm; Breastwork is chosen distance 131 outward and is 135mm; Radiating aperture 17 is of a size of Φ 80mm; The wide 25mm that is of seam of pool wall longitudinal dilatation seam 123, pool wall lateral expansion seam, breastwork longitudinal dilatation seam 132, breastwork lateral expansion seam; Magnesite-chrome brick, pool wall magnesite-chrome brick, breastwork magnesite-chrome brick are the magnesite-chrome brick that size is 300 * 150 * 100mm at the bottom of the pond, at the bottom of the pond 11, pool wall 12, breastwork 13 should reduce brickwork joint in building process, stop Lou material.

The rectangular size that charge door 15 is is 230 * 200mm; During use by being used seal reinforced (the artificial and mechanical mode that matches) with charger outlet that its size is coincide; Avoided the dust pollution in the reinforced process, charge door 15 is built into by the magnesite-chrome brick that is of a size of 230 * 150 * 100mm; The profile of discharging opening 16 is a square, and square profile is of a size of 300 * 300mm, and discharging opening is built into by the magnesite-chrome brick that is of a size of 300 * 150 * 100mm and 460 * 150 * 100mm; The span of discharging opening arch 161 is 800mm;

The span that the big arch 14 of kiln is 1/6 arch is 3600mm, the high 600mm of arch;

Regenerator span 2940mm, regenerator crown 211 is 1/7.5 arch, high 392mm, regenerator crown 211 to flat arch 255 advances 1570mm in the burner, guarantees that the regenerator crown top does not receive scaling loss; Regenerator crown closure insulation 213 thickness are 120mm; The regenerator peep hole 221 of two 405 * 350mm and the regenerator ash removing opening 222 of four 405 * 350mm are set on the back wall; The thick 700mm of regenerator wall body structure is that regenerator magnesite-chrome brick layer 223 is that 230mm and regenerator silico-calcium flaggy 225 are 120mm for 350mm, regenerator insulating brick-layer 224 from the inside to the outside successively; The multilayer brick laying structure that the middle part is made up of anistree tubular checker brick 235 from top to bottom is respectively that magnesium chromium-12 checker brick layer 231 is that 10 layers, magnesium-92 checker brick layer 232 are that 10 layers, high alumina checker brick layer 233 are that 15 layers, clay checker brick layer 234 are 23 layers; The twice regenerator dilatation joint 252 that regenerator crown structure both sides are provided with is 25mm;

Bocca arch 31 is 1/7.5 arch, and span is 2400mm, the high 320mm of arch; Tiltedly arch 34 angle of declinations are 25 °, and 11 ° of base plate 35 angle of declinations have increased the auxiliary air momentum, mix better with natural gas; Combustion air spout 30 width 2400mm, its flame speed was 6m/s when high 290mm used, and helped mixing with natural gas; The flame speed of bocca 32 is 6.5m/s, flame easy burn-out nozzle (burning structure 3 is in the 1 bilateral symmetry setting of melting end structure, so its bocca 32 directions are relative) not when helping combustion of natural gas and getting into the opposite spout; Burning structure inspection socket 36 is of a size of 350 * 200mm, and quantity is two;

The Section Design of flue 41 becomes high 1200mm, wide 1000mm, and clay brick is set to 230mm for 411 layers, builds common brick outward and is 240mm for 412 layers; During actual the use, flue gas flow rate is controlled at below the 3m/s, so that fume emission; Generally about 350 ℃, the temperature when going out waste heat boiler 411 is generally about 180 ℃ temperature when flue gas advances waste heat boiler 441; At last, waste gas gets into 50 meters high chimney high altitude discharge, helps the depollution of environment.

In addition, the fire-resistant checker brick that the utility model adopted when producing, through former with refractory material compression moulding; Pass through high temperature then with the refractory material sintering, process satisfactory anistree tubular (or regular hexagon) checker work at last, when building the regenerator lattice brick body; Through the outer anistree oblique angle of checker brick two blocks of checker brick are linked together, checker brick arrange that at interval per two checker brick gap size equate; Be built into one deck to checker brick so earlier,, carry out piling up in layer then according to the structure of this one deck; Easy construction can not cause mismatch, until meeting actual requirement for height; So from the bottom up, checker brick have just formed symmetrical tubular construction, and flue gas can be from inner octagonal tubular space of checker brick and checker brick outer square tubular space or cylindrical space circulation at interval; When making waste heat energy in the flue gas access abundant absorption, reduced the circulating resistance of flue gas.Owing to adopted the technology of piling up of symmetrical octagonal brick laying structure and symmetry, make flue gas the time through the heat storage checker brick, the heating degree inside and outside the checker brick is identical; Simultaneously flue gas evenly flows between every layer of tube structure; Both reduce the resistance of motion of flue gas, and guaranteed again to be heated evenly between every layer of the cylindrical shell checker brick, thereby guaranteed the uniformity of the expanded by heating degree of checker brick; The checker Stability Analysis of Structures of building like this, firm is fit to tall and big checker.The thickness of anistree tubular checker brick can adopt different sizes according to different requirement with dimensions length, to be fit to multiple different accumulation of heat working condition requirement.

Describe and illustrate with reference to the specific embodiment although it should be noted that the utility model, and provided the concrete structure that adopts the cross flame unit kiln of Regenerative Combustion Technology.But and do not mean that the utility model is limited to the embodiment of these descriptions, those skilled in the art can therefrom derive many different variants, they all will be covered in the true spirit and scope of the utility model claim.

Claims (17)

1. cross flame unit kiln structure that adopts Regenerative Combustion Technology; This unit kiln mainly comprises melting end structure (1), regenerator (2), burning structure (3), flue structure (4); It is characterized in that: in melting end structure (1) a plurality of regenerator of both sides independence symmetric arrangement (2); Be connected through burning structure (3) between melting end structure (1) and the regenerator (2), flue structure (4) is connected with regenerator (2) respectively; Wherein,

The front side wall (18) of (11) both sides at the bottom of (11), the pond, back side side wall (19) at the bottom of the pond of melting end structure (1) by the bottom, constitute the kiln pond across the big arch of the kiln at the side wall two ends (14); Side wall wherein comprises the pool wall (12) of below again, and the breastwork (13) on the pool wall (12); On the side wall of both sides, also be provided with a plurality of charge doors (15), discharging opening (16), radiating aperture (17);

Regenerator (2) structure is a cuboid; This regenerator structure mainly comprises the regenerator crown structure at top; The checker brick structure at middle part; The bar arch structure that checker brick are born in the bottom, peripheral wall body structure and be arranged on regenerator peep hole (221), regenerator ash removing opening (222) and the inspection door (251) on the front-back wall;

Burning structure (3) inner body shape is triangular in shape, and the external overall shape is at right angles trapezoidal, and this burning structure (3) includes bocca arch (31), bocca (32), nozzle (33), oblique arch (34), base plate (35); Bocca arch (31) is connected with oblique arch (34); Base plate (35) is arranged on oblique arch (34) below; Cavity between base plate (35) and the oblique arch (34) constitutes combustion air spout (30); Below combustion air spout (30), be furnished with bocca (32), bocca (32) is arranged on the end of base plate (35) near bocca arch (31), and bocca (32) flame adopts cross flame to arrange; Bocca (32) is provided with a plurality of nozzles (33), and one of them is the comburant oxygen nozzle at least; Tiltedly arch (34) has an oblique arch angle of declination b (341), and base plate (35) has a base plate angle of declination c (351); On the side wall of this burning structure (3), also be provided with one or more burning structure inspection sockets (36);

Flue (41) in the flue structure (4) mainly is made up of main chimney flue (422) and two regenerator flues (423), also includes flashboard interchanger (420), flue ash removing opening (431), sack cleaner (432), waste heat boiler (441), chimney; Each regenerator flue (423) one end connects regenerator (2), and the other end is connected to main chimney flue (422); Flashboard interchanger (420) is installed between each regenerator flue (423); Flue (41) is provided with a plurality of flue ash removing openings (431); On main chimney flue (422), also be disposed with sack cleaner (432), waste heat boiler (441), flue (422) connects chimney at last.

2. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 1; It is characterized in that: said melting end structure (1) Zhong Chidi (11) comprises magnesite-chrome brick layer (112) at the bottom of plate brick layer (111), the pond; Plate brick layer (111) is positioned at the bottom of (11) at the bottom of the pond; Magnesite-chrome brick layer (112) is positioned at the upper strata of (11) at the bottom of the pond at the bottom of the pond; Outer all hoop of magnesite-chrome brick layer (112) at the bottom of the pond and plate brick layer (111) first channel-section steel (115) is arranged, first channel-section steel (115) is regulated through first adjusting screw(rod) (114) on first column (113) that is arranged on (11) both sides at the bottom of the pond; (11) are reserved with dilatation joint at the bottom of the pond, and this dilatation joint is arranged on below the pool wall (12) and the position that (11) join at the bottom of the pond;

Pool wall (12) is built into by pool wall magnesite-chrome brick (121); Pool wall (12) is arranged on (11) both sides at the bottom of the pond; Pool wall (12) top can be provided with breastwork (13); The outer hoop of pool wall (12) has second channel-section steel (122), and second channel-section steel (122) is regulated through second adjusting screw(rod) (125) on second column (124) that is arranged on pool wall (12) both sides; On pool wall (12), be reserved with multiple tracks pool wall longitudinal dilatation seam (123) and pool wall lateral expansion seam;

Breastwork (13) is built into by magnesite-chrome brick, puts on pool wall (12), outwards chooses from pool wall (12) inner edge, forms a breastwork and chooses distance (131) outward; On breastwork (13), be reserved with multiple tracks breastwork longitudinal dilatation seam (132) and breastwork lateral expansion seam;

The big arch of kiln (14) is an arc-shaped structure, is arranged on the top of two ends big arch spats bricks (141); Big arch spats brick (141) is a boss structure, is arranged on breastwork (13) top; Space between big arch pin brick (147) wedging big arch of kiln (14) and the big arch spats brick (141); Big arch pin brick (147) outside is buckled with the 3rd channel-section steel (1411); The 3rd channel-section steel (1411) supports and regulates through the 3rd adjusting screw(rod) (1410) that is arranged on the 3rd column (149); Firm on the 3rd column (149) by bracket steel (1412) holder again, the front end of the 3rd adjusting screw(rod) (1410) contacts with the outside of big arch pin brick the 3rd channel-section steel (1411);

Charge door (15) is rectangle, and this charge door (15) includes blanking slope (151), and blanking slope (151) have a blanking slope angle a (152), and its scope is 20 °～25 ° angles;

Discharging opening (16) top is crossed with discharging opening arch (161).

3. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 2; It is characterized in that: big arch spats brick (141) has bearing arc surface (142), bearing flat surface (143), bearing bottom surface (144); Wherein bearing arc surface (142) is positioned at breastwork (13) inboard, and bearing flat surface (143) is positioned at breastwork (13) outside; Bearing arc surface (142) exceeds bearing flat surface (143) certain distance, and the side of the raised area forms bearing boss facade (146); Bearing arc surface (142) fits with the bottom surface at the big arch of kiln (14) two ends, and the bottom surface of big arch pin brick (147) is carried on the bearing flat surface (143); Wherein, bearing arc surface (142) is identical with the bottom surface radian of the big arch of kiln (14).

4. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 3; It is characterized in that: big arch pin brick (147) is shaped as wedge shape; Part between wedging big arch of kiln (14) and the big arch spats brick (141) has a wedge terminal (148), and the height of this wedge terminal (148) is identical with the height of the bearing boss facade (146) that is contacted; The position of wedge terminal (148) is positioned at the inboard of the bearing bottom surface center line (145) of bearing bottom surface (144).

5. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 4; It is characterized in that: the arrangement of a plurality of charge doors (15), discharging opening (16), radiating aperture (17) is in the melting end structure (1): be provided with a discharging opening (16) in the middle of the side wall in the front (18); Each evenly is provided with N charge door (15) discharging opening (16) both sides; Back side side wall (19) evenly is provided with 2N+1 charge door (15), and N is the positive integer less than 8; The position of radiating aperture (17) is arranged on the middle part or the both sides of front side wall (18) or back side side wall (19).

6. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 5; It is characterized in that: be provided with a discharging opening (16) in the middle of the side wall in the front (18); Each evenly is provided with 3 charge doors (15) discharging opening (16) both sides; Back side side wall (19) evenly is provided with 7 charge doors (15), amounts to 13 charge doors (15), and an end of the side wall in the front (18) is provided with a radiating aperture (17); The middle part of side wall (a 19) and radiating aperture (17) is set with the relative other end of an end that front side wall (18) is provided with radiating aperture (17) respectively amounts to 3 radiating apertures (17) overleaf; Blanking slope angle a (152) is 21 °; Pool wall longitudinal dilatation seam (123) is provided with three roads, and pool wall lateral expansion seam is provided with twice; Breastwork longitudinal dilatation seam (132) is provided with three roads, and breastwork lateral expansion seam is provided with twice.

7. according to claim 1 or 6 described a kind of cross flame unit kiln structures that adopt Regenerative Combustion Technology; It is characterized in that: said regenerator crown structure comprises the regenerator crown pin brick (212) that is arranged on regenerator crown (211) two ends and is arranged on the regenerator crown closure insulation (213) on regenerator crown (211) top that the regenerator crown pin steel of regulating through the 4th adjusting screw(rod) (215) (214) is arranged in regenerator crown pin brick (212) outer setting;

The checker brick structure at said middle part comprises the multilayer brick laying structure that is made up of anistree tubular checker brick (235) or regular hexagon checker brick (238), from top to bottom is respectively magnesium chromium-12 checker brick layers (231), magnesium-92 checker brick layers (232), high alumina checker brick layer (233), clay checker brick layer (234);

The bar arch (241) that bear in the bar arch structure of checker brick the bottom is the semicircle arch;

A plurality of inspection doors (251) are arranged on the front wall of regenerator, and a plurality of regenerator peep holes (221) and regenerator ash removing opening (222) are arranged on the back wall of regenerator;

Regenerator crown structure both sides at the top are provided with twice regenerator dilatation joint (252), on the short transverse of the 4th column (253), establish the 4th channel-section steel (254) that twice are regulated by the 4th adjusting screw(rod) (215).

8. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 7; It is characterized in that: the regenerator wall body structure is regenerator magnesite-chrome brick layer (223), regenerator insulating brick-layer (224) and regenerator silico-calcium flaggy (225) from the inside to the outside successively, and leaves dilatation joint in regenerator magnesite-chrome brick layer (223) part.

9. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 8; It is characterized in that: described anistree tubular checker brick (235) separation; The brick laying structure that formation is continued in all directions; The profile of every block of anistree tubular checker brick (235) surrounds symmetrical anistree profile at interval by each four isometric long limit of tow sides and four isometric limits, oblique angle, and every block of anistree tubular checker brick (235) closely are connected with four blocks of anistree tubular checker brick (235) respectively through the face that the limit, oblique angle constitutes;

Has an anistree cylindrical cavity (236) in the middle of every block of anistree tubular checker brick (235); Each is provided with two equally spaced grooves (237) between two parties in the position perpendicular to 4 long limits the tow sides of every block of anistree tubular checker brick (235), amounts to 16 grooves (237); The cross sectional shape of groove (237) is semicircle or half square;

Described regular hexagon checker brick (238) separation forms the cellular brick laying structure that continues in all directions, and every block of regular hexagon checker brick (238) closely are connected with six blocks of regular hexagon checker brick (238) respectively through six sides; Has a regular hexagon cavity (239) in the middle of every block of regular hexagon checker brick (238); The tow sides of every block of regular hexagon checker brick (238) are provided with two equally spaced grooves (237) between two parties perpendicular to the position of six outsides, amount to 24 grooves (237); The cross sectional shape of groove (237) is semicircle or half square.

10. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 1 is characterized in that: tiltedly the scope of arch angle of declination b (341) is 20 °～30 °, and the scope of base plate angle of declination c (351) is 10 °～15 °.

11. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 10 is characterized in that: tiltedly the size of arch angle of declination b (341) is elected 25 ° as, and the size of base plate angle of declination c (351) is elected 11 ° as.

12. according to claim 1,10 or 11 described a kind of cross flame unit kiln structures that adopt Regenerative Combustion Technology; It is characterized in that: nozzle (33) is 0.5m～2m apart from the lateral separation of bocca arch (31), and the position that is connected with regenerator (2) at the oblique arch (34) of this burning structure (3) is reserved with burning structure dilatation joint (37).

13. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 12; It is characterized in that: nozzle (33) is 1m apart from the lateral separation of bocca arch (31); The quantity of nozzle (33) is 3, and is the comburant oxygen nozzle, and nozzle (33) is designed to trumpet type; The side wall of this burning structure (3) is provided with 2 burning structure inspection sockets (36).

14. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 13; It is characterized in that: be provided with bocca arch pin brick (38) at the two ends of bocca arch (31); Arch pin brick outer setting at bocca arch pin brick (38), oblique arch (34) all has the 5th channel-section steel (39), and the 5th channel-section steel (39) is regulated through the 5th adjusting screw(rod) (311) that is arranged on outer the 5th column (310) of burning structure (3) both walls; The angle of bocca arch pin brick (38) is 60 °, and the 5th column (310) is three.

15. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 14 is characterized in that: the flue of said flue (41) layer within the walls is clay brick (a 411) layer, and is wiped with fire clay, and outer the block has common brick (412) layer; Said flashboard interchanger (420) has two flashboards (421), and flashboard (421) is processed by cast iron; Flashboard interchanger (420) is provided with secondary blower, on this air blast frequency modulation device is housed; The automatic frequency adjustment air-introduced machine is housed before chimney; The 6th column (433) of a plurality of supported weight can also be set outside said flue structure.

16. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 15, it is characterized in that: the big arch of kiln (14) is 1/6 arch, and big arch pin brick (147) angle is 53 °; Regenerator crown (211) is 1/7.5 arch, and regenerator crown pin brick (212) is 60 °; Bocca arch (31) is 1/7.5 arch; First channel-section steel (115) is that 200# channel-section steel, second channel-section steel (122) are that 200# channel-section steel, the 3rd channel-section steel (1411) are that 28# channel-section steel, regenerator crown pin steel (214) are the 28# channel-section steels; The big arch of kiln (14), big arch pin brick (147), big arch spats brick (141) adopt the refractory material of same-type to process; First column (113), second column (124), the 3rd column (149), the 4th column (253), the 5th column (310), the 6th column (433) all are detachable steel frame constructions.

17. a kind of cross flame unit kiln structure that adopts Regenerative Combustion Technology according to claim 16, it is characterized in that: melting end structure (1) Zhong Chidi (11) gross thickness is 680mm, the thick 340mm of magnesite-chrome brick layer (112) at the bottom of the pond; Pool wall (12) highly is 600mm; Breastwork is chosen distance (131) outward and is 135mm; Radiating aperture (17) is of a size of Φ 80mm; The wide 25mm that is of seam of pool wall longitudinal dilatation seam (123), pool wall lateral expansion seam, breastwork longitudinal dilatation seam (132), breastwork lateral expansion seam; Magnesite-chrome brick, pool wall magnesite-chrome brick, breastwork magnesite-chrome brick are the magnesite-chrome brick that size is 300 * 150 * 100mm at the bottom of the pond;

The rectangular size that charge door (15) is is 230 * 200mm, and charge door (15) is built into by the magnesite-chrome brick that is of a size of 230 * 150 * 100mm; The profile of discharging opening (16) is a square, and square profile is of a size of 300 * 300mm, and discharging opening is built into by the magnesite-chrome brick that is of a size of 300 * 150 * 100mm and 460 * 150 * 100mm; The span of discharging opening arch (161) is 800mm;

The span of the big arch of kiln (14) is 3600mm, the high 600mm of arch;

Regenerator span 2940mm, the high 392mm of regenerator crown (211), regenerator crown (211) advances 1570mm in the burner to flat arch (255), and regenerator crown closure insulation (213) thickness is 120mm; The regenerator peep hole (221) of two 405 * 350mm and the regenerator ash removing opening (222) of four 405 * 350mm are set on the back wall; The thick 700mm of regenerator wall body structure; Being regenerator magnesite-chrome brick layer (223) 350mm, regenerator insulating brick-layer (224) 230mm and regenerator silico-calcium flaggy (225) the 120mm middle part multilayer brick laying structure by anistree tubular checker brick (235) formation from the inside to the outside successively, from top to bottom is respectively (231) 10 layers on magnesium chromium-12 checker brick layer, (232) 10 layers on magnesium-92 checker brick layer, (233) 15 layers on high alumina checker brick layer, (234) 23 layers on clay checker brick layer; The twice regenerator dilatation joint (252) that regenerator crown structure both sides are provided with is 25mm;

Bocca arch (31) span is 2400mm, the high 320mm of arch; Combustion air spout (30) width 2400mm, high 290mm; Burning structure inspection socket (36) is of a size of 350 * 200mm;

The Section Design of flue (41) becomes high 1200mm, wide 1000mm, and clay brick (411) layer is set to 230mm, builds common brick (412) layer outward and is 240mm;

Chimney height is 50m.

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