CN101968313A - Cylindrical tube type heating furnace capable of being assembled - Google Patents
Cylindrical tube type heating furnace capable of being assembled Download PDFInfo
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- CN101968313A CN101968313A CN2010105569222A CN201010556922A CN101968313A CN 101968313 A CN101968313 A CN 101968313A CN 2010105569222 A CN2010105569222 A CN 2010105569222A CN 201010556922 A CN201010556922 A CN 201010556922A CN 101968313 A CN101968313 A CN 101968313A
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Abstract
The invention relates to a cylindrical tube type heating furnace capable of being assembled, comprising a furnace shell, a furnace tube and a burner. The furnace tube is arranged in the furnace shell, the burner is also arranged in the furnace shell, wherein the furnace shell is composed of at least two furnace shell modules which are assembled and connected. As the heating furnace of the invention is provided with the furnace shell modules which can be assembled and connected and are applied to furnace shell, so that assembly and welding of the parts of the furnace shells can be carried out in a workshop of a manufacturing factory and then the furnace shells can be transported to the construction site to perform modularized 'block building' type construction. The mode in which the furnace shell modules are assembled to form the furnace shell changes the traditional construction mode in which a tubular heater is assembled and welded on site at the construction site, avoids the mess that various parts are scattered at the construction site, facilitates construction of large tubular heaters, leads to industrial application of the gradual implementation of modularized construction of industrial furnaces and has the characteristics of simple assemblage, low construction cost, short construction period and convenient overhauling.
Description
Technical field
The present invention relates to the heat-exchange apparatus technology, particularly relate to a kind of combinable circular tubular heater.Can be applicable to the heat-exchange apparatus of equipment industries such as petroleum refining and chemical industry, Coal Chemical Industry, chemical fertilizer, air-conditioning, air cooling, boiler, electric power facility, be particularly suitable for the flue gas heat-exchange apparatus of various chemical industry and chemical fertilizer industry stove by medium heating or cooling.
Background technology
Industrial furnace is the key equipment in the production process common in the petrochemical plant.For example, oil refining and petrochemical plant tubular heater, reburner, pyrolysis furnace; Being the gasification furnace of raw material with the coal or being the one-stage converter, secondary reformer etc. of raw material with the combustion gas of synthetic ammonia installation high temperature heating, pyroreaction.The type of the industrial furnace in the petroleum chemical industry is more, and tubular heater is one of type of furnace the most frequently used in the petroleum chemical industry.
In the prior art, tubular heater belongs to a kind of flame heat equipment that thermal source is provided, and its effect is the medium in the boiler tube to be heated to temperature required, enters next segment process process then.In tubular heater, fluid media (medium) in the heat transferred boiler tube that fuel combustion discharges, this boiler tube is positioned among the combustion chamber with refractory material encirclement, and the type of tubular heater is usually according to its construction profile, and the form of radiating furnace tube and the layout of burner are divided.Contained according to the petroleum chemical industry standard SH/T of the People's Republic of China (PRC) 3036-2003 " general oil refining apparatus flame heating furnace ", by the construction profile classification, cylindrical furnace, batch-type furnace, vertical heater and multicell box-type furnace etc. are arranged.By the radiating furnace tube formal classification: vertical pipe type, horizontal tube, helix tube type and U-shaped tubular type etc. are arranged.Arrangement classification according to burner has end burning, tipburn and side to burn.The construction profile of heating furnace can make up between the form of radiating furnace tube and the layout three of burner mutually, is illustrated in figure 1 as " U " shape box type stove 10, wherein, has furnace shell 11 and " U " shape boiler tube 12; Be illustrated in figure 2 as helix tube cylindrical furnace 20, wherein, have furnace shell 21 and coil pipe 22.
The tubular heater of prior art is made up of radiation chamber, convection cell and chimney usually, and boiler tube all is housed in radiation chamber and the convection cell, and baffle plate is housed in the chimney.Fuel burns at radiation chamber through nozzle, the thermal-flame that produces is in the radiant heat transfer mode, most of heat is passed to the medium that is flowing in the radiation chamber boiler tube, high-temperature flue gas after temperature reduces enters convection cell again, continue that with convection type the part heat is passed to the medium that is flowing in the convection cell boiler tube and carry out preheating, flue gas after the cooling finally enters flue, enters atmosphere by chimney.The flow direction of medium generally is the boiler tube of elder generation through convection cell, passes through the boiler tube of radiation chamber again.Its medium constantly absorbs the heat that high-temperature flue gas transmits through furnace wall in flow process, progressively being elevated to needed temperature becomes the high-temperature medium outflow.And in order to fully utilize the energy, part is set up residual neat recovering system between convection cell and flue and body of heater usually, adds hot-air or adds hot water, water vapour and generate steam or superheated steam, uses for producing.
The body of heater of this tubular heater of the prior art generally comprises the boiler tube of furnace shell, furnace shell inside and is arranged at the burner of furnace shell, and its contour structures is integrated.The method of construction of the tubular heater of this integral structure is normally produced accessories such as tube sheet, suspender member, boiler tube and elbow by enginerring works, be responsible at building-site these parts being assembled with the furnace wall of steel construction and be built into body of heater integral body by construction company is installed then.
Yet, the method of construction of the tubular heater of above-mentioned traditional integral structure needs a large amount of at the scene assembly weldings constructions, and the piercing into of its boiler tube, all need on-the-spot open-air high-altitude construction with technology such as spraying paint of anti-revisionist, the surperficial strictness of furnace wall of the ray detection of the assembly welding of elbow and weld seam, weld defect, this open-air high-altitude construction, give to install to build and bring inconvenience, there is bigger gap in the HSE policy that this and modern project are managed.And the wear-resisting insulated lining of furnace wall is subject to the influence of weather, strain cracking, gets loose, and inefficacy perhaps drenches with rain.Therefore, the inconvenience of this open-air high-altitude construction and various inspections easily causes the duration to be subjected to boisterous the influence, and its build guality also is difficult to guarantee that also there is hidden danger in production safety.
Along with The development in society and economy, the production scale of various chemical plant installations continues to increase, the volume of tubular heater is also more and more huger, design and construction for tubular heater with inflammable and explosive medium, the wind resistance of its tall and slender structure shake and the requirement of the intensity of seismic (seismal effect also more and more higher, and, a lot of chemical plant installations all addressing in the bigger coastal area of typhoon, make cost of investment rise significantly, this has become a noticeable techno-economic question.
In sum, the quality of each operation can be enough monitored in user and engineering management for convenience, and the demand of reduction of erection time, and at the deficiencies in the prior art, needing badly provides a kind of modularization of can carrying out to build, avoid at the building-site assembly welding, and assembling is simple, construction cost is lower, the duration is short, the combinable easily circular tubular heater of maintenance.
Summary of the invention
The objective of the invention is to avoid weak point of the prior art and provide a kind of modularization of can carrying out to build, avoid, and assembling is simple, construction cost is lower, the duration is short, the combinable easily circular tubular heater of maintenance at the building-site assembly welding.
Purpose of the present invention realizes by following technical measures:
A kind of combinable circular tubular heater is provided, includes furnace shell, boiler tube and burner, described boiler tube is arranged in the described furnace shell, and described burner is arranged at described furnace shell, and wherein, at least two the furnace shell module spliced load of serving as reasons of described furnace shell connects the furnace shell of setting.
Wherein, the furnace shell module that described furnace shell module is a circular arc, the furnace shell module of described circular arc is provided with two, and described furnace shell is for connecting the furnace shell that shape of cross section is an annular that has that is provided with by the radially mutual assembly unit of the furnace shell module of described circular arc.
Wherein, the furnace shell module that described furnace shell module is an ellipse arc, the furnace shell module of described ellipse arc is provided with four, and described furnace shell is for connecting the furnace shell that shape of cross section is an oval ring that has that is provided with by the radially mutual assembly unit of the furnace shell module of described ellipse arc.
Wherein, furnace shell module that described furnace shell module is an arc and rectilinear furnace shell module, the furnace shell module of described arc is provided with two, described rectilinear furnace shell module is provided with two, and radially mutual assembly unit is connected the furnace shell that shape of cross section is oval annular that has that is provided with to described furnace shell with described rectilinear furnace shell module for the furnace shell module by described arc.
Wherein, described furnace shell module is the furnace shell module of tubular furnace shell module or truncated cone.
Wherein, described furnace shell is to connect the furnace shell that is provided with by the in axial direction mutual assembly unit of described tubular furnace shell module.
Wherein, described furnace shell is to connect the furnace shell that is provided with by the in axial direction mutual assembly unit of the furnace shell module of described truncated cone.
Wherein, described furnace shell be by the furnace shell module of described truncated cone and described tubular furnace shell module in axial direction mutually assembly unit is connected the furnace shell of setting.
Wherein, described furnace shell module includes shaped steel, steel plate, bar for line, insulating and wearing-resistant lining and reinforcement angle steel, described shaped steel is arranged at the outer surface of described steel plate, described insulating and wearing-resistant lining is arranged at the inner surface of described steel plate by described bar for line, one side of described reinforcement angle steel is arranged at described furnace shell module, and another side of described reinforcement angle steel is arranged at the assembly unit joint face of described furnace shell module.
Wherein, be provided with the ceramic fibre mat felt between the assembly unit joint face of adjacent two described furnace shell modules.
Beneficial effect of the present invention: combinable circular tubular heater of the present invention, include furnace shell, boiler tube and burner, boiler tube is arranged in the furnace shell, and burner is arranged at furnace shell, and wherein, furnace shell at least two furnace shell module spliced load of serving as reasons connects the furnace shell of setting., combinable circular tubular heater connects the furnace shell module that is provided with because but being provided with the assembly unit that is used for the furnace shell construction, make these furnace shell modules parts assembling and the welding can in the manufactory workshop, carry out, transport to building-site then, carry out " play with building blocks " construction of formula of modularization.Furnace shell carries out the assembly unit ways of connecting by the furnace shell module, changed the mode of construction of traditional tubular heater at device building-site assembly welding, various scattered trouble waters of constructing have at the scene been avoided, help the construction of large-scale tubular heater, make the industrial furnace construction progressively carry out modular construction and obtain industrial application, have that assembling is simple, construction cost is lower, the duration is short, overhauls characteristics easily.
Description of drawings
The invention will be further described to utilize accompanying drawing, but the embodiment in the accompanying drawing does not constitute any limitation of the invention, for those of ordinary skill in the art, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to the following drawings.
Fig. 1 is the structural representation of prior art " U " shape box type stove.
Fig. 2 is the structural representation of the helix tube cylindrical furnace of prior art.
Fig. 3 is the structural representation of the embodiment 1 of a kind of combinable circular tubular heater of the present invention.
Fig. 4 is the structural representation of the embodiment 2 of a kind of combinable circular tubular heater of the present invention.
Fig. 5 is the structural representation of the embodiment 3 of a kind of combinable circular tubular heater of the present invention.
Fig. 6 is the structural representation of the embodiment 4 of a kind of combinable circular tubular heater of the present invention.
Fig. 7 is the structural representation of the embodiment 5 of a kind of combinable circular tubular heater of the present invention.
Fig. 8 is the structural representation of the embodiment 6 of a kind of combinable circular tubular heater of the present invention.
Fig. 9 is the structural representation of the embodiment 7 of a kind of combinable circular tubular heater of the present invention.
Figure 10 is the structural representation of the furnace shell module of a kind of combinable circular tubular heater of the present invention.
In Fig. 1 and Fig. 2, include:
10---" U " shape box type stove, 11---furnace shell, 12---" U " shape boiler tube,
20---helix tube cylindrical furnace, 21---furnace shell, 22---coil pipes.
In Fig. 3 to Figure 10, include:
3---insulating and wearing-resistant lining,
31---furnace shell, 32---boiler tube, 33---assembly unit joint face,
311---furnace shell module, 3111---bolt hole, 3112---reinforcement angle steel, 3113---steel plate, 3114---shaped steel, 3115---bar for line, 3116---insulating and wearing-resistant linings.
The specific embodiment
With the following Examples the present invention is further described.
Embodiment 1
One of specific embodiment of a kind of combinable circular tubular heater of the present invention, as shown in Figure 3, include furnace shell 31, boiler tube 32 and burner, boiler tube 32 is arranged in the furnace shell 31, burner is arranged at furnace shell 31, concrete, the bottom that burner can be arranged at furnace shell 31 is to burn at the end, the top that can also be arranged at furnace shell 31 is tipburn.Wherein, serve as reasons at least two furnace shell module 311 assembly units of furnace shell 31 connect the furnace shells 31 that are provided with.
Concrete, furnace shell module 311 can be the furnace shell module 311 of circular arc, the furnace shell module 311 of this circular arc is provided with two, and furnace shell 31 is for connecting the furnace shell 31 that shape of cross section is an annular that has that is provided with by the radially mutual assembly unit of the furnace shell module 311 of circular arc.Wherein, the radial direction of indication is that circumferencial direction is pointed in the center of circle of furnace shell 31, and assembly unit joint face 33 is wall radially mutually.Wherein, form that to have shape of cross section be the furnace shell module 311 that the furnace shell module 311 of circular arc of the furnace shell 31 of annular is specially semicircular ring.Be essentially the furnace shell module 311 that the furnace shell 31 of annular is divided into two semicircular ring, the mode that connects with bolt at two assembly unit joint face 33 places of its butt joint again and be welded to connect is formed the furnace shell 31 of annular, is mainly used in the construction of the bigger body of heater of diameter.The structural strength height of the furnace shell 31 of this annular can reduce reinforcement, makes it to alleviate the weight of tubular heater.Under the situation of same volume, the surface area of furnace wall subtracts about 19 ﹪, i.e. the corresponding minimizing of furnace wall heat loss helps energy-conservation and guarantees that furnace temperature is even.
Concrete, as shown in figure 10, furnace shell module 311 includes shaped steel 3114, steel plate 3113, bar for line 3115, insulating and wearing-resistant lining 3116 and strengthens angle steel 3112, shaped steel 3114 is arranged at the outer surface of steel plate 3113, insulating and wearing-resistant lining 3116 is arranged at the inner surface of steel plate 3113 by bar for line 3115, a side of strengthening angle steel 3112 is arranged at furnace shell module 311, and another side of strengthening angle steel 3112 is arranged at the assembly unit joint face 33 of furnace shell module 311.The reinforcement angle steel 3112 of this reinforcement angle steel 3112 for having " L " shape, the one side of wherein being somebody's turn to do the reinforcement angle steel 3112 of " L " shape is welded in the steel plate 3113 of furnace shell module 311 by welding manner, its another side is arranged at the extended line concordant with the assembly unit joint face 33 of furnace shell module 311, be positioned on the concordant extended line of the assembly unit joint face 33 of furnace shell module 311 at the another side of the reinforcement angle steel 3112 of " L " shape and offer bolt hole 3111, this bolt hole 3111 is used for fixedlying connected with adjacent furnace shell module 311, and the aperture of bolt hole 3111 can be 150mm.This furnace shell module 311 that is shaped by shaped steel 3114 and steel plate 3113 assembly weldings, not only light, and firmly.
Concrete, be provided with ceramic fibre mat felt 3 between the assembly unit joint face 33 of adjacent two furnace shell modules 311.Ceramic fibre mat felt 3 is with ceramic fiber paper or ceramic fiber blanket, and through being stamped to form, this ceramic fibre mat felt 3 has the characteristics of ceramic fiber paper or ceramic fiber blanket, has resistant to elevated temperatures characteristics, is desirable sealing fire-resistant heat insulating material with mould.
Embodiment 2
Two of the specific embodiment of a kind of combinable circular tubular heater of the present invention, as shown in Figure 4, the main technical schemes of present embodiment is identical with embodiment 1, unaccounted in the present embodiment feature, adopt the explanation among the embodiment 1, no longer give unnecessary details at this, and the parts identical with Fig. 3 adopt identical label in Fig. 4.The difference of present embodiment and embodiment 1 is, furnace shell module 311 is the furnace shell module 311 of ellipse arc, the furnace shell module 311 of this ellipse arc is provided with four, and furnace shell 31 is for connecting the furnace shell 31 that shape of cross section is an oval ring that has that is provided with by the radially mutual assembly unit of the furnace shell module 311 of ellipse arc.Wherein, form that to have shape of cross section be that the furnace shell module 311 of ellipse arc of the furnace shell 31 of oval ring is specifically as follows the furnace shell module 311 with elliptic arc of dividing equally 1/4th oval ring.Be essentially the furnace shell 31 of oval ring is divided equally the furnace shell module 311 that is divided into four arcs, the mode that connects with bolt at four assembly unit joint face 33 places of its butt joint and be welded to connect is formed the furnace shell 31 of oval ring, is mainly used in the construction of the bigger body of heater of diameter.This furnace shell 31 with oval ring can improve the comb rate of boiler tube 32, and then improves production capacity.
Embodiment 3
Three of the specific embodiment of a kind of combinable circular tubular heater of the present invention, as shown in Figure 5, the main technical schemes of present embodiment is identical with embodiment 1, unaccounted in the present embodiment feature, adopt the explanation among the embodiment 1, no longer give unnecessary details at this, and the parts identical with Fig. 3 adopt identical label in Fig. 5.The difference of present embodiment and embodiment 1 is, furnace shell module 311 is the furnace shell module 311 and the rectilinear furnace shell module 311 of arc, wherein, the furnace shell module 311 of arc is provided with two, rectilinear furnace shell module 311 is provided with two, and radially mutual assembly unit is connected the approximate sports filed track shape of the described oval annular of furnace shell 31(that shape of cross section is oval annular that has that is provided with to furnace shell 31 with rectilinear furnace shell module 311 for the furnace shell module 311 by arc).Wherein, form that to have shape of cross section be the furnace shell module 311 that the furnace shell module 311 of arc of the furnace shell 31 of oval annular is specifically as follows two semicircular ring, be connected with two rectilinear furnace shell modules 311 in the middle of the furnace shell module 311 of these two semicircular ring.Be essentially furnace shell module 311 and two sections rectilinear furnace shell modules 311 of the furnace shell 31 of oval annular being divided into two semicircular ring, the mode that connects with bolt at four assembly unit joint face 33 places of its butt joint and be welded to connect is formed the furnace shell 31 of oval annular, is mainly used in the construction of the bigger body of heater of diameter.This furnace shell 31 with oval annular can improve the comb rate of boiler tube 32, and then improves production capacity.
Embodiment 4
Four of the specific embodiment of a kind of combinable circular tubular heater of the present invention, as shown in Figure 6, the main technical schemes of present embodiment is identical with embodiment 1, unaccounted in the present embodiment feature, adopt the explanation among the embodiment 1, no longer give unnecessary details at this, and the parts identical with Fig. 3 adopt identical label in Fig. 6.The difference of present embodiment and embodiment 1 is that furnace shell 31 is to connect the furnace shell 31 that is provided with by the in axial direction mutual assembly unit of two tubular furnace shell modules 311, is mainly used in the construction of highly higher body of heater.Wherein, the axial direction of indication is the short transverse of furnace shell 31.Superposed tubular furnace shell module 311 can be directly and stove roof plate be welded to connect and be non-disconnectable structure, also can be connected to dismountable structure by bolt, can also be connected to non-disconnectable structure by welding and stove roof plate again for being connected to dismountable structure by bolt and stove roof plate earlier; Be positioned at the tubular furnace shell module 311 of bottom can be directly and drop-bottom be welded to connect and be non-disconnectable structure, also can be connected to dismountable structure by bolt, can also be connected to non-disconnectable structure by welding and drop-bottom again for being connected to dismountable structure by bolt and drop-bottom earlier.
Embodiment 5
Five of the specific embodiment of a kind of combinable circular tubular heater of the present invention, as shown in Figure 7, the main technical schemes of present embodiment is identical with embodiment 4, unaccounted in the present embodiment feature, adopt the explanation among the embodiment 4, no longer give unnecessary details at this, and the parts identical with Fig. 4 adopt identical label in Fig. 7.The difference of present embodiment and embodiment 4 is that furnace shell 31 is to connect the furnace shell 31 that is provided with by the in axial direction mutual assembly unit of the furnace shell module 311 of truncated cone.The furnace shell module 311 of this truncated cone has the body of heater that gradual change is shunk, it is more stable structure of a kind of tubular relatively furnace shell module 311, and this structure circulation area that can reduce flue gas keeps the flow velocity of flue gas, is a kind of structure of avoiding dust deposition.
Embodiment 6
Six of the specific embodiment of a kind of combinable circular tubular heater of the present invention, as shown in Figure 8, the main technical schemes of present embodiment is identical with embodiment 4, unaccounted in the present embodiment feature, adopt the explanation among the embodiment 4, no longer give unnecessary details at this, and the parts identical with Fig. 4 adopt identical label in Fig. 8.The difference of present embodiment and embodiment 4 is, furnace shell 31 be by the furnace shell module 311 of truncated cone and tubular furnace shell module 311 in axial direction mutually assembly unit is connected the furnace shell 31 of setting.The furnace shell module 311 that is specially truncated cone is following, and tubular furnace shell module 311 is last.This up-small and down-big stability of structure is higher.
Embodiment 7
Seven of the specific embodiment of a kind of combinable circular tubular heater of the present invention, as shown in Figure 9, the main technical schemes of present embodiment is identical with embodiment 1, unaccounted in the present embodiment feature, adopt the explanation among the embodiment 1, no longer give unnecessary details at this, and the parts identical with Fig. 3 adopt identical label in Fig. 9.The difference of present embodiment and embodiment 1 is that furnace shell 31 is to pass through axially to be connected with the assembly unit joint face 33 mutual assembly units of hoop the horizontal furnace shell 31 of level that is provided with by the furnace shell module 311 of four arcs.
Embodiment 8
Eight of the specific embodiment of a kind of combinable circular tubular heater of the present invention, the main technical schemes of present embodiment is identical with embodiment 1, and unaccounted feature adopts the explanation among the embodiment 1 in the present embodiment, no longer gives unnecessary details at this.The difference of present embodiment and embodiment 1 is, serve as reasons at least two furnace shell module 311 assembly units of furnace shell 31 connect the furnace shells 31 that are provided with, wherein constitute the physical dimension of each furnace shell module 311 of same circular tubular heater, can equate, can also be unequal, or for furnace shell module 311 more than between three the furnace shell module 311 also being that equate and unequal combination.
Embodiment 9
A kind of method of construction of combinable circular tubular heater includes following steps:
Step 1, according to traffic route and the means of transportation between manufactory and the device building site, determine the high dimension limit of length and width of each part furnace shell module 311, consider factors such as vehicle model structure, carry out the structural design of furnace shell module 311 on this basis, make appearance and size maximization under the communications and transportation permission of each part furnace shell module 311.
Step 2, the manufacturing of furnace shell 31 is carried out by the pre-assembled mode of module whole, earlier by shaped steel 3114 assembly welding frameworks, also welding between the reinforcement angle steel 3112 that each assembly of assembly unit joint face 33 is closed, carry out the mark that pairing connects, pull down the back reinforcement angle steel 3112 pairing auger shell keyholes 3111 are synchronously closed in one assembly of assembly unit joint face 33.
Step 3, assembly welding steelframe again adopts bolt to connect between the reinforcement angle steel 3112 that each assembly of assembly unit joint face 33 is at this moment closed, and spreads steel plate 3113 and weld, and welds bar for line 3115 and boiler tube journal stirrup at the inner surface of steel plate 3113.
Step 4 checks whether the assembly mark of furnace shell mould 311 is clear, and taking whole steel structure apart is furnace shell module steel structure, and casting insulating and wearing-resistant lining 3116 is assembled into furnace shell 31 by bolt then between bar for line 3115.
Step 5, pre-each furnace shell module 311 of assembling sampling observation is checked whether centering of connecting bolt hole 3111.If necessary, should adjust.
Step 6, removing surface is painted, and furnace shell module 311 is packaged transport to the building site assembling, and the boiler tube 32 of packing in furnace shell 31 builds a tubular heater.Preferred each furnace shell module 311 is directly hung oneself from automobile and is installed to mounting platform and assemble, in order to avoid the process of depositing in building site distortion is impaired.
Present embodiment is except that following technical characterictic, other parts are with embodiment 9, meet communications and transportation permission for appearance and size, the step 6 among the embodiment 9 " boiler tube 32 of packing in furnace shell 31 " can be carried out in the manufactory workshop in advance, thoroughly to carry out the principle that reduces the building-site construction.
Should be noted that at last; above embodiment is only in order to illustrate technical scheme of the present invention; but not limiting the scope of the invention; although the present invention has been done to explain with reference to preferred embodiment; those of ordinary skill in the art is to be understood that; can make amendment or be equal to replacement technical scheme of the present invention, and not break away from the essence and the scope of technical solution of the present invention.
Claims (10)
1. combinable circular tubular heater, include furnace shell, boiler tube and burner, described boiler tube is arranged in the described furnace shell, and described burner is arranged at described furnace shell, it is characterized in that: at least two the furnace shell module spliced load of serving as reasons of described furnace shell connects the furnace shell of setting.
2. combinable circular tubular heater according to claim 1, it is characterized in that: the furnace shell module that described furnace shell module is a circular arc, the furnace shell module of described circular arc is provided with two, and described furnace shell is for connecting the furnace shell that shape of cross section is an annular that has that is provided with by the radially mutual assembly unit of the furnace shell module of described circular arc.
3. combinable circular tubular heater according to claim 1, it is characterized in that: the furnace shell module that described furnace shell module is an ellipse arc, the furnace shell module of described ellipse arc is provided with four, and described furnace shell is for connecting the furnace shell that shape of cross section is an oval ring that has that is provided with by the radially mutual assembly unit of the furnace shell module of described ellipse arc.
4. combinable circular tubular heater according to claim 1, it is characterized in that: furnace shell module that described furnace shell module is an arc and rectilinear furnace shell module, the furnace shell module of described arc is provided with two, described rectilinear furnace shell module is provided with two, and radially mutual assembly unit is connected the furnace shell that shape of cross section is oval annular that has that is provided with to described furnace shell with described rectilinear furnace shell module for the furnace shell module by described arc.
5. combinable circular tubular heater according to claim 1 is characterized in that: described furnace shell module is the furnace shell module of tubular furnace shell module or truncated cone.
6. combinable circular tubular heater according to claim 5 is characterized in that: described furnace shell is for connecting the furnace shell that is provided with by the in axial direction mutual assembly unit of described tubular furnace shell module.
7. combinable circular tubular heater according to claim 5 is characterized in that: described furnace shell is for connecting the furnace shell that is provided with by the in axial direction mutual assembly unit of the furnace shell module of described truncated cone.
8. combinable circular tubular heater according to claim 5 is characterized in that: in axial direction mutual assembly unit is connected the furnace shell that is provided with to described furnace shell with described tubular furnace shell module for the furnace shell module by described truncated cone.
9. according to each described combinable circular tubular heater in the claim 1 to 8, it is characterized in that: described furnace shell module includes shaped steel, steel plate, bar for line, insulating and wearing-resistant lining and reinforcement angle steel, described shaped steel is arranged at the outer surface of described steel plate, described insulating and wearing-resistant lining is arranged at the inner surface of described steel plate by described bar for line, one side of described reinforcement angle steel is arranged at described furnace shell module, and another side of described reinforcement angle steel is arranged at the assembly unit joint face of described furnace shell module.
10. combinable circular tubular heater according to claim 9 is characterized in that: be provided with the ceramic fibre mat felt between the assembly unit joint face of adjacent two described furnace shell modules.
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| CN2010105569222A CN101968313B (en) | 2010-11-24 | 2010-11-24 | Cylindrical tube type heating furnace capable of being assembled |
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| CN2010105569222A CN101968313B (en) | 2010-11-24 | 2010-11-24 | Cylindrical tube type heating furnace capable of being assembled |
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| CN103363805A (en) * | 2012-03-26 | 2013-10-23 | 卓然(靖江)设备制造有限公司 | Novel modular device for radiant section of industrial furnace |
| CN105758182A (en) * | 2016-04-26 | 2016-07-13 | 哈尔滨工业大学 | Oppositely-opened radiative heating furnace and furnace body |
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| CN110425897A (en) * | 2019-08-23 | 2019-11-08 | 江苏诺温特热能设备有限公司 | A kind of external multiple-insulating module furnace of pin-connected panel |
| CN110763023A (en) * | 2019-10-26 | 2020-02-07 | 上海二十冶建设有限公司 | Off-line masonry construction method for refractory material of chute of rotary hearth furnace |
| CN113330265A (en) * | 2018-12-10 | 2021-08-31 | 普兰西股份有限公司 | Shielding of high temperature furnace |
| CN115306163A (en) * | 2022-09-14 | 2022-11-08 | 中化二建集团有限公司 | Modularized construction method for tubular heating furnace in petrochemical engineering |
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| CN103363805A (en) * | 2012-03-26 | 2013-10-23 | 卓然(靖江)设备制造有限公司 | Novel modular device for radiant section of industrial furnace |
| CN102788507A (en) * | 2012-09-07 | 2012-11-21 | 无锡豪特维思热能科技有限公司 | Casing structure of induction heating furnace body |
| CN102788507B (en) * | 2012-09-07 | 2014-05-14 | 无锡豪特维思热能科技有限公司 | Casing structure of induction heating furnace body |
| CN102967045A (en) * | 2012-11-15 | 2013-03-13 | 大连连重石化科技有限公司 | Modularized radiant heating furnace |
| CN102967045B (en) * | 2012-11-15 | 2015-02-04 | 大连连重石化科技有限公司 | Modularized radiant heating furnace |
| CN105758182A (en) * | 2016-04-26 | 2016-07-13 | 哈尔滨工业大学 | Oppositely-opened radiative heating furnace and furnace body |
| CN109207699A (en) * | 2018-09-12 | 2019-01-15 | 中国二十冶集团有限公司 | Annealing furnace shell modularization installation method |
| CN113330265A (en) * | 2018-12-10 | 2021-08-31 | 普兰西股份有限公司 | Shielding of high temperature furnace |
| CN113330265B (en) * | 2018-12-10 | 2023-07-28 | 普兰西股份有限公司 | Shielding of high temperature furnace |
| CN109990602A (en) * | 2019-04-28 | 2019-07-09 | 鞍山盈丰新材料科技有限公司 | A kind of refractory material preliminary working multi-layer heat preserving furnace shell |
| CN109974443A (en) * | 2019-04-29 | 2019-07-05 | 鞍山盈丰新材料科技有限公司 | A kind of refractory material preliminary working smelting arc furnace device |
| CN110425897A (en) * | 2019-08-23 | 2019-11-08 | 江苏诺温特热能设备有限公司 | A kind of external multiple-insulating module furnace of pin-connected panel |
| CN110763023A (en) * | 2019-10-26 | 2020-02-07 | 上海二十冶建设有限公司 | Off-line masonry construction method for refractory material of chute of rotary hearth furnace |
| CN115306163A (en) * | 2022-09-14 | 2022-11-08 | 中化二建集团有限公司 | Modularized construction method for tubular heating furnace in petrochemical engineering |
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| CN101968313B (en) | 2012-02-08 |
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Address after: 525024 Guangdong City, Maoming Province Ring West Road, No. 91 Patentee after: Maoming gravity Petrochemical Equipment Co Ltd Address before: 525024 Maoming City, Guangdong Province West Road, Maoming City, the gravity of the Petrochemical Machinery Manufacturing Co., Ltd., Patentee before: The Challenge Petrochemical Machinery Corporation |