CN208517476U - A kind of DX atmosphere heat treatment furnace - Google Patents

Abstract

The utility model relates to DX atmosphere heat treatment furnaces, it includes furnace body, is located at the intracorporal DX atmosphere generator of furnace, the DX atmosphere generator includes fuel element, fuel element includes radiant tube, igniter burner component and the cooling device that heat exchange cooling is carried out to DX gas in radiant tube, igniter burner component includes burner, fuel gas pipeline, radiant tube be located at furnace body preheating zone or heating zone and along generate DX gas flow direction be divided into burning zone, rectification section and current stabilization deferent segment, the internal diameter spontaneous combustion section of rectification section gradually becomes smaller to current stabilization deferent segment；DX atmosphere generator further includes nitrogen purge unit, natural gas and air pre-mixing unit and antibomb unit.The temperature that the utility model exports DX gas is relatively stable, while gas and reaction heat in furnace to heating after heat exchange, to realize that thermal energy recycles；So that the flow of DX gas output is relatively stable, while the generation of DX gas is highly-safe.

Description

A kind of DX atmosphere heat treatment furnace

Technical field

The utility model belongs to heat-treatment furnace field, and in particular to a kind of DX atmosphere heat treatment furnace.

Background technique

DX gas is mixed at normal temperature with air, and carry out insufficient combustion using natural gases such as methane or propane as raw material It burns, so that resolving into the mixed gas containing nitrogen, hydrogen, carbon monoxide and carbon dioxide.Therefore, which can use extensively In relevant treatment process such as the anaerobic annealing of metal material, protection against oxidation.

For example, China Patent Publication No. is CN204097527U, it discloses a kind of DX gas generating unit, the device packets Include: burner, cooling device, condensate filter, exhaust chimney and cooling driers, wherein burner includes combustion chamber, igniting Mouthful and with the air inlet of combustion chamber and gas outlet, which connect by connecting pipe with cooling device, cools down and fill Set and be connected to condensate filter, exhaust outlet is set on condensate filter, the exhaust outlet by valve be separately connected exhaust chimney with Cooling driers.

When the DX gas generating unit works, the mixed gas of natural gas and air enters burner from air inlet In combustion chamber, mixed gas is lighted by lighting-up tuyere, incomplete reaction occurs in the combustion chamber for natural gas and air, generates high temperature DX gas；Then, the DX gas of high temperature is entered in cooling device by connecting pipe, DX gas of the cooling device to high temperature Cool down；It is entered in condensate filter through overcooled DX gas, filters out the intracorporal moisture of DX gas and impurity；Then, Clean DX gas enters cooling driers via the exhaust outlet on condensate filter, and exhaust gas is discharged by chimney；Cooling driers are into one Step is dry to DX gas cooling, and then it is stand-by can be passed into use or storage in metal handling equipment for DX gas.

However above-mentioned DX gas generating unit has following technological deficiency:

1) before, lighting a fire, oxygen is not purged to burner piping, is not only unable to ensure the peace of the DX atmosphere generator Row for the national games, and will affect the incomplete reaction that natural gas and air occur in the combustion chamber, cause energy consumption larger；

2), the DX atmosphere generator does not include the premixing cell for premixing natural gas and air proportion, And the effect premixed is directly directly related with mixed gas burning, the DX gas for also affecting subsequent high temperature generates；

3), rear gas flow rate and gas temperature that the device generates, it is very unstable, the stabilization of gas can not be caused It feeds in heat-treatment furnace, therefore, will affect the quality of heat treatment to a certain extent.

Summary of the invention

Technical problem to be solved in the utility model is to overcome the deficiencies of the prior art and provide a kind of improved DX atmosphere Heat-treatment furnace.

In order to solve the above technical problems, the utility model adopts the following technical scheme:

A kind of DX atmosphere heat treatment furnace comprising furnace body is located at the intracorporal DX atmosphere generator of furnace, which occurs Device includes fuel element, condensing unit, cooling driers, and wherein fuel element includes radiant tube, is arranged in radiant tube air inlet end Igniter burner component, which includes the burner protruded into from radiant tube air inlet end, the combustion being connected with burner Air pipe,

Radiant tube is located at preheating zone or the heating zone of furnace body, and is divided into burning along the flow direction for generating DX gas Section, rectification section and current stabilization deferent segment, wherein the internal diameter spontaneous combustion section of rectification section gradually becomes smaller to current stabilization deferent segment；Burning is single Member further includes the cooling device that radiant tube outside or inside is arranged in and is used to carry out DX gas in radiant tube heat exchange cooling, wherein Gas of the cooling device for heat exchange is arranged into furnace body；

DX atmosphere generator further includes the nitrogen purge unit being arranged on a road of fuel gas pipeline and fuel gas pipeline Air inlet docking natural gas and air pre-mixing unit and the air pressure quick pressure releasing that the pipe is connected to and be capable of with fuel gas pipeline Antibomb unit.

A specific implementation according to the present utility model and preferred aspect, cooling device are in external-cooling type, and including being set in Radiant tube periphery and the air inlet pipe and an air outlet pipe for being formed with the cooling tube of supplied gas circulation cavity, being connected with cavity, wherein into Tracheae is located at outside furnace, and escape pipe is located in furnace, and the gas that cavity is entered from outside furnace exchanges heat with radiant tube, and from escape pipe It arranges into furnace.

Preferably, air inlet pipe and an air outlet pipe is located at the both ends of cooling tube, and heat exchange air-flow stream within the cavity To be located at radiant tube in gas flow it is opposite.

Preferably, it is additionally provided with the guiding subassembly convenient for recuperated gas flowing in the cavity, which includes that spiral twines Be wound on radiant tube periphery and be located in the flow deflector of cooling inside pipe wall, wherein flow deflector and cooling inside pipe wall, radiation pipe outer wall it Between formed spiral shape diversion cavity.

Alternatively, cooling device be in inner-cooled, and including be located at radiant tube inside cooling tube, for cooling tube to be located in Locating piece inside radiant tube and the organization of supply to cooling tube infeed cooling gas.

Preferably, cooling tube includes the first tube body extended along radiant tube length direction；Part be built in the first tube body, Remainder exposes the second tube body outside the first tube body, wherein the second tube body is connected from inner end with the first tube cavity, supplies Answer mechanism include the air inlet pipe being connected with the second tube body exposed parts, the escape pipe being connected with the first tube body and with into The gas supply assembly that tracheae is connected.

Specifically, the first tube body is arranged in parallel with the second tube body, and the second tube body is located at the middle part of the first tube body, while two The centerline collineation of person's length direction.

Preferably, cooling tube is located in burning zone and the end of the second tube body leakage is arranged close to rectification section, and escape pipe It is arranged positioned at the first tube body close to the end where air inlet pipe.

Further, it is equipped with diversion pipe far from the end where air inlet pipe in the first tube body, the diversion pipe spontaneous combustion section Outlet end is to air inlet end in the gradually smaller frustum of outer diameter or cone.

Preferably, locating piece is the flow deflector for being spirally wound on first tube body periphery, and wherein flow deflector is in burning zone Interior formation spiral shape water conservancy diversion cavity.

In addition, condensing unit includes tubular heat exchanger, the overflow tank that is connected with tubular heat exchanger, wherein arranging Fuel element is connected by tubing heat exchanger with cooling driers, and in the gas access DX of tubing heat exchanger and fuel element The convergence unit of DX gas is additionally provided between DX gas vent, which includes the height of inner space from one end to another The gradually smaller convergence chamber of one end, the connector for being connected to the high one end in convergence chamber inner space go out DX with current stabilization deferent segment Communicating pipe that gas end is connected, the bellows for connector to be connected with communicating pipe.

In this example, igniter burner has multiple, and therefore, the high one end in convergence chamber inner space is equipped with multiple corresponding connect Head, then, the gas of each burner combustion discharge pass through bellows respectively and are connected with connector, and wherein bellows can be along certainly The expansion of body length direction and gathering setting.

In addition, being communicated with the gas-guide tube imported DX gas inside heat-treatment furnace in the gas outlet of cooling driers.

Due to the implementation of above technical scheme, the utility model has the advantages that compared with prior art

The temperature that the utility model exports DX gas is relatively stable, while gas and generation DX gas after heat exchange A large amount of chemical reaction heats that body generates also can be heated and be heated up in furnace, to realize that thermal energy recycles；On the other hand make The flow of DX gas output is relatively stable, while before ignition, it is ensured that no oxygen remains in combustion gas line, and in explosion-proof list Under the pressure monitor of member, the safety that DX gas generates is improved, in addition, being more advantageous under natural gas and air pre-mixing unit Generate DX gas.

Detailed description of the invention

With reference to the accompanying drawing and specific embodiment, the utility model is described in more detail:

Fig. 1 is the schematic front view of heat-treatment furnace in embodiment 1；

Fig. 2 is the structural schematic diagram (external-cooling type) of DX atmosphere generator in Fig. 1；

Fig. 3 is the structure enlargement diagram of fuel element in Fig. 2；

Fig. 4 is the schematic front view of heat-treatment furnace in embodiment 2；

Fig. 5 is the structural schematic diagram (inner-cooled) of DX atmosphere generator in embodiment 2；

Fig. 6 is the structure enlargement diagram of fuel element in Fig. 5；

Wherein: 1, furnace body；2, DX atmosphere generator；20, fuel element；200, radiant tube；A, burning zone；B, it rectifies Section；C, current stabilization deferent segment；201, igniter burner component；E, burner；F, fuel gas pipeline；G, combustion-supporting gas pipeline；G1, air hose Road；G3, gas pipeline；202, cooling tube；203, air inlet pipe；204, escape pipe；205, guiding subassembly；D, flow deflector；21, cold Solidifying unit；210, tubular heat exchanger；211, overflow tank；22, cooling driers；24, nitrogen purge unit；240, gas pipeline； 241, flow valve；25, premixing cell；250, premix chamber；251, natural gas line；26, unit is converged；260, chamber is converged；261, Bellows；262, connector；263, communicating pipe；27, antibomb unit；270, explosion stack；271, explosion-proof valve；28, gas-guide tube；202′, Cooling device；D ', cooling tube；D1, the first tube body；D2, the second tube body；D3, diversion pipe；E ', locating piece；F ', organization of supply； F1, air inlet pipe；F2, escape pipe；F3, positioning strip.

Specific embodiment

To keep the above objects, features, and advantages of the utility model more obvious and easy to understand, with reference to the accompanying drawing with tool Body embodiment is described in detail the utility model.Many details are explained in the following description in order to abundant Understand the utility model.But the utility model can be implemented with being much different from other way described herein, this field Technical staff can do similar improvement without prejudice to the utility model connotation, therefore the utility model is not by following public affairs The limitation for the specific embodiment opened.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", The orientation or positional relationship of the instructions such as " clockwise ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " is based on the figure Orientation or positional relationship is merely for convenience of describing the present invention and simplifying the description, rather than the dress of indication or suggestion meaning It sets or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to the utility model Limitation.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include at least one this feature.The meaning of " plurality " is at least two, such as two in the description of the present invention, It is a, three etc., unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be Mechanical connection, is also possible to be electrically connected；It can be directly connected, two can also be can be indirectly connected through an intermediary The interaction relationship of connection or two elements inside element, unless otherwise restricted clearly.For the common skill of this field For art personnel, the concrete meaning of above-mentioned term in the present invention can be understood as the case may be.

In utility model unless specifically defined or limited otherwise, fisrt feature in the second feature " on " or " down " may be used To be that the first and second features directly contact or the first and second features pass through intermediary mediate contact.Moreover, fisrt feature But fisrt feature is directly above or diagonally above the second feature above the second feature " above ", " above " and " above ", or only table Show that first feature horizontal height is higher than second feature.Fisrt feature can be under the second feature " below ", " below " and " below " Fisrt feature is directly under or diagonally below the second feature, or is merely representative of first feature horizontal height less than second feature.

It should be noted that it can be directly another when element is referred to as " being fixed on " or " being set to " another element On one element or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be with It is directly to another element or may be simultaneously present centering elements.Term as used herein " vertically ", " level ", "upper", "lower", "left", "right" and similar statement for illustrative purposes only, be not offered as being uniquely to implement Mode.

Embodiment 1

As shown in Figure 1 to Figure 3, heat-treatment furnace includes furnace body 1, is arranged in furnace body 1 and is capable of forming DX protective atmosphere DX atmosphere generator 2, wherein DX atmosphere generator 2 includes fuel element 20, condensing unit 21, cooling driers 22.

In this example, fuel element 20 includes the radiant tube 200 being located in furnace body 1,200 air inlet end of radiant tube is arranged in Igniter burner component 201 is arranged in outside radiant tube 200 for carrying out the cooling device of heat exchange cooling to DX gas in radiant tube (namely external-cooling type), wherein cooling device is arranged for the gas of heat exchange into furnace body 1.

Specifically, cooling device includes the cooling tube for being set in 200 periphery of radiant tube and being formed with supplied gas circulation cavity 202, the air inlet pipe 203 and escape pipe 204 being connected with cavity, wherein radiant tube 200 is located in the preheating zone of furnace body 1, wherein Gas from outside furnace into cavity exchanges heat with radiant tube 200, and from 204 row of escape pipe into furnace.

In order to realize the steady flow of DX gas after production, in this example, in radiant tube 200 along the flowing for generating DX gas Direction is divided into burning zone a, rectification section b and current stabilization deferent segment c, and wherein the internal diameter spontaneous combustion section a of rectification section b is defeated to current stabilization Section c gradually becomes smaller out.

Specifically, the internal diameter of burning zone a is between 1.5 ~ 2 times of current stabilization deferent segment c internal diameter.It is too large or too small all unfavorable In the flowing of DX gas (in this example, the internal diameter of burning zone a is 1.77 times of current stabilization deferent segment c internal diameter).

Air inlet pipe 203 and escape pipe 204 are located at the both ends of cooling tube 202, heat exchange air-flow stream within the cavity To be located at radiant tube in gas flow it is consistent.It can be good at carrying out cooling control to the DX gas of burning production in this way, make The temperature that it is exported is relatively stable, while gas also can be heated and be heated up in furnace after heat exchange, to realize that thermal energy recycles.

Meanwhile in order to improve heat exchange efficiency and effect, be additionally provided with the diversion group convenient for recuperated gas flowing in the cavity Part 205,

Guiding subassembly 205 includes the flow deflector d for being spirally wound on 200 periphery of radiant tube and being located in 202 inner wall of cooling tube, Spiral shape diversion cavity is wherein formed between 202 inner wall of flow deflector d and cooling tube, 200 outer wall of radiant tube.Therefore, recuperated gas Flowing is more stable, and more effectively makes the contact of air-flow with 200 periphery flow deflector d and radiant tube, improves heat transfer effect.

Igniter burner component 201 includes the burner e and burn that spontaneous combustion section a is protruded into far from the end rectification section b in burning zone a The fuel gas pipeline f and combustion-supporting gas pipeline g that mouth e is connected.

Combustion-supporting gas pipeline g includes the structure feature of air pipe line g1 and gas pipeline g3 and conventional ignition burner, It is not described in detail herein.

In this example, DX atmosphere generator 2 further includes being connected to fuel gas pipeline f and capable of carrying out oxygen to fuel gas pipeline f It the gas purge unit 24 of removing and is connected to fuel gas pipeline f and can be mixed with air by natural gas in proportion Premixing cell 25.

Nitrogen purge unit 24 includes protruding into the gas pipeline 240 being connected in furnace body 1 with fuel gas pipeline f, being arranged in gas Flow valve 241 and gas provisioning component on body pipeline 240, the gas that wherein gas provisioning component is supplied are nitrogen.

Premixing cell 25 is located at the outside of furnace body 1, and it is natural to be connected including premix chamber 250, respectively with premix chamber 250 Feed channel 251 and air pipeline, and the flow control valve being separately positioned on natural gas line 251 and air pipeline, wherein Enter the ratio of natural gas and air in premix chamber 250 by flow control valve control, and forms mixed gas combustion in premix chamber 250 Material.

The overflow tank 211 that condensing unit 21 includes tubular heat exchanger 210, is connected with tubular heat exchanger 210, The air inlet (DX gas) of the tubular heat exchanger 210 is docked with the gas outlet (DX gas) of fuel element 20, the shell and tube It is docked with the air inlet (DX gas) of cooling driers 22 gas outlet (DX gas) of heat exchanger 210.As for tubular heat exchanger For direct outsourcing, belongs to this field conventional products, it is not described in detail herein.

Meanwhile the gas outlet (DX gas) of the air inlet of tubing heat exchanger 210 (DX gas) and fuel element 20 it Between be additionally provided with the convergence unit 26 of DX gas.

Specifically, convergence unit 26 includes the height of inner space from one end to the gradually smaller convergence chamber in the other end 260, wherein convergence chamber 260 is connected by bellows 261 with fuel element 20 from the high one end in inner space, converge chamber 260 are connected from the other end with the air inlet of tubing heat exchanger.

In this example, the high one end in convergence 260 inner space of chamber is equipped with multiple corresponding connectors 262, then, each burning The gas of mouth burning discharge corresponds to connector 262 with bellows 261 by communicating pipe 263 and is connected, and wherein bellows 261 can It is unfolded and collapses setting along length direction.

Meanwhile antibomb unit 27 is additionally provided on fuel gas pipeline f, which includes being connected with fuel gas pipeline f Explosion stack 270 and the explosion-proof valve 270 that is arranged on explosion stack 270, wherein by the intelligent control of explosion-proof valve 270, it is ensured that mixed Close safety when gas fuel combustion.

Then, as shown in Figure 1, fuel element 20 has four groups, therefore, with there are four connectors 262, while 263 He of communicating pipe The corresponding DX gas vent by every group of fuel element 20 of bellows 261 is connected with convergence unit 26, then, enters back into pipe Formula heat exchanger 210 carries out condensation process.

In addition, being communicated with the gas-guide tube 28 imported DX gas inside furnace body 1 in the gas outlet of cooling driers 22.

Finally, carrying out in mixed process in the application in natural gas and air, the volume ratio of natural gas and air is 1:6 ~8.

In conclusion the specific following advantage of the present embodiment:

1, temperature control is carried out to DX gas is generated by recuperated gas, so that the temperature of DX gas output is relatively stable, together Gas also can be heated and be heated up in furnace after Shi Huanre, to realize that thermal energy recycles；

2, by the design of radiant tube segmented, so that the flow of DX gas output is relatively stable, so that DX atmosphere The distribution of middle carbon monoxide is relatively uniform, it is ensured that heat treatment quality；

3, by the location layout of radiant tube, DX protective gas not only can be generated, but also can be by a large amount of chemical reactions of generation Heat is used for the heating of workpiece, makes full use of the energy, energy saving；

4, it is purged by nitrogen, remaining oxygen possible in fuel gas pipeline is thoroughly removed, the peace that DX gas generates is improved Quan Xing;

5, natural gas and volume of air ratio are that 1:7 carries out being mixed to form gaseous fuel, and therefore, natural gas is not in the combustion chamber The effect reacted completely is good, is more advantageous to and generates DX gas;

6, DX protective atmosphere can be widely applied for the heat treatment process of high-alloy steel, high-carbon steel, bearing steel and copper alloy In, and energy conservation is up to 30% or more, involved in heat treatment process include spheroidizing, recrystallization annealing, bright annealing, Light solid solution, soldering and sintering etc..

Embodiment 2

As shown in Figures 4 to 6, the heat-treatment furnace of the present embodiment is substantially the same manner as Example 1, the difference is that cooling dress Set 202 ' (inner-cooleds).

In this example, cooling device 202 ' includes cooling tube d ' inside the radiant tube 200, is used for cooling tube d ' positioning Locating piece e ' inside the radiant tube 200 and organization of supply f ' to cooling tube d ' infeed cooling gas.

Cooling tube d ' includes the first tube body d1 extended along 200 length direction of radiant tube；Part is built in the first tube body D1, remainder expose the second tube body d2 outside the first tube body d1, wherein the second tube body d2 is from inner end and the first tube body d1 Chamber is connected, and organization of supply f includes the air inlet pipe f1 being connected with the second tube body d2 exposed parts, is connected with the first tube body d1 Escape pipe f2 and the gas supply assembly (not shown) that is connected with air inlet pipe f1.

Cooling tube d ' is located in burning zone a and the end of the second tube body d2 leakage is arranged close to rectification section, and escape pipe f2 It is arranged positioned at the first tube body d1 close to the end where air inlet pipe f1.The air-flow entered outside furnace in this way is along the second tube length side To from inner end enter the second tube body, further along the second tube body flow back and arrange from escape pipe into furnace, and then can in furnace into Row heating and heating, to realize the recycling of thermal energy.

Specifically, the first tube body d1 is arranged in parallel with the second tube body d2, and the second tube body d2 is located in the first tube body d1 Portion, while the centerline collineation of the two length direction.

Meanwhile diversion pipe d3, diversion pipe d3 spontaneous combustion are equipped with far from the end where air inlet pipe f1 in the first tube body d1 The outlet end of section a is to air inlet end in the gradually smaller cone of outer diameter.The DX gas that burning is generated is uniform It disperses around, and then is convenient for thermal energy exchange.

Locating piece e ' is the flow deflector for being spirally wound on the first periphery tube body d1, and wherein flow deflector is formed in burning zone a Spiral shape water conservancy diversion cavity.The water conservancy diversion cavity makes the flowing of DX gas more stable.

Meanwhile in this example, the internal diameter of burning zone a is between 2 ~ 4 times of current stabilization deferent segment c internal diameter.It is too large or too small all It is unfavorable for the flowing of DX gas, specifically, the internal diameter of burning zone a is 2.8 times of current stabilization deferent segment c internal diameter.

The utility model is described in detail above, its object is to allow the personage for being familiar with this field technology can be much of that It solves the content of the utility model and is implemented, do not limit the protection scope of the present invention, it is all practical according to this Equivalent change or modification made by novel Spirit Essence should all cover within the protection scope of the present utility model.

Claims (10)

1. a kind of DX atmosphere heat treatment furnace comprising furnace body is located at the intracorporal DX atmosphere generator of furnace, the DX atmosphere hair Generating apparatus includes fuel element, condensing unit, cooling driers, wherein the fuel element includes radiant tube, the spoke is arranged in The igniter burner component of pipe air inlet end is penetrated, the igniter burner component includes the burning protruded into from radiant tube air inlet end Mouth, the fuel gas pipeline being connected with the burner, it is characterised in that:

The radiant tube is located at preheating zone or the heating zone of the furnace body, and is divided into along the flow direction for generating DX gas Burning zone, rectification section and current stabilization deferent segment, wherein the interior burning zone described without leave of the rectification section is exported to the current stabilization Section gradually becomes smaller；The fuel element further includes that setting is used in the radiant tube outside or inside to DX in the radiant tube Gas carries out the cooling device of heat exchange cooling, wherein gas of the cooling device for heat exchange is arranged into the furnace body；

The DX atmosphere generator further include the nitrogen purge unit being arranged on a road of the fuel gas pipeline, with it is described The natural gas and air pre-mixing unit and be connected to the fuel gas pipeline and be capable of the pipe that the air inlet of fuel gas pipeline docks The antibomb unit of air pressure quick pressure releasing.

2. DX atmosphere heat treatment furnace according to claim 1, it is characterised in that: the cooling device is in external-cooling type, and Including the air inlet for being set in the radiant tube periphery and being formed with the cooling tube of supplied gas circulation cavity, being connected with the cavity Pipe and escape pipe wherein the gas from outside furnace into the cavity exchanges heat with the radiant tube, and are arranged from the escape pipe Into furnace.

3. DX atmosphere heat treatment furnace according to claim 2, it is characterised in that: the air inlet pipe and the escape pipe point Not Wei Yu the cooling tube both ends, and be located at the intracorporal heat exchange air flow direction of the chamber and the gas in the radiant tube Flow direction is opposite.

4. DX atmosphere heat treatment furnace according to claim 2 or 3, it is characterised in that: be additionally provided be convenient in the cavity The guiding subassembly of recuperated gas flowing, the guiding subassembly include being spirally wound on the radiant tube periphery and being located in described The flow deflector of cooling inside pipe wall, wherein forming spiral between the flow deflector and the cooling inside pipe wall, the radiation pipe outer wall Shape diversion cavity.

5. DX atmosphere heat treatment furnace according to claim 1, it is characterised in that: the cooling device is in inner-cooled, and is wrapped Include the cooling tube being located inside the radiant tube, for the cooling tube is located in locating piece inside the radiant tube, And the organization of supply of cooling gas is fed to the cooling tube.

6. DX atmosphere heat treatment furnace according to claim 5, it is characterised in that: the cooling tube includes along the spoke Penetrate the first tube body of length of tube direction extension；Part is built in first tube body, remainder exposes outside first tube body The second tube body, wherein second tube body is connected from inner end with first tube cavity, the organization of supply packet Include the air inlet pipe being connected with the second tube body exposed parts, the escape pipe being connected with first tube body and with into The gas supply assembly that tracheae is connected.

7. DX atmosphere heat treatment furnace according to claim 6, it is characterised in that: the cooling tube is located at the burning zone The end of the interior and described second tube body leakage is arranged close to the rectification section, and the escape pipe is located at first tube body and leans on End setting where the nearly air inlet pipe.

8. DX atmosphere heat treatment furnace according to claim 6 or 7, it is characterised in that: in first tube body far from institute End where stating air inlet pipe is equipped with diversion pipe, and the diversion pipe is from the outlet end of the burning zone to air inlet end in outer The gradually smaller frustum of diameter or cone.

9. DX atmosphere heat treatment furnace according to claim 6, it is characterised in that: the locating piece is is spirally wound on The flow deflector of the first tube body periphery is stated, wherein the flow deflector forms spiral shape water conservancy diversion cavity in the burning zone.

10. DX atmosphere heat treatment furnace according to claim 1, it is characterised in that: the condensing unit includes shell and tube Heat exchanger, the overflow tank being connected with the tubular heat exchanger, wherein the tubular heat exchanger is by the burning Unit is connected with the cooling driers, and the DX gas in the gas access DX of the tubing heat exchanger and the fuel element It is additionally provided with the convergence unit of DX gas between body outlet, the convergence unit includes the height of inner space from one end to another The gradually smaller convergence chamber of one end is connected to the connector for converging the high one end in chamber inner space, is defeated with the current stabilization Section goes out communicating pipe, the bellows for the connector to be connected with the communicating pipe that DX gas end is connected out.