CN103317080A - Heating furnace for continuous forging production - Google Patents

Abstract

The invention provides a heating furnace for continuous forging production. The heating furnace comprises a furnace body, a heating mechanism and a frame, the furnace body and the heating mechanism are arranged on the frame, the furnace body comprises furnace walls, a hearth, a feed end and a discharge end, the hearth is enclosed by the furnace walls, a guide groove is formed in the hearth, the heating mechanism comprises a plurality of burners, the burners penetrate the furnace walls and enter the hearth, the discharge end is provided with a discharge frame, the discharge frame comprises a bottom wall, the bottom wall is connected with the bottom surface of the hearth, and an included angle is formed between the bottom wall of the discharge frame and the horizontal feeding direction of the hearth and ranges from 35 degrees to 45 degrees, so that materials cannot stick to the bottom wall and can smoothly slide out, the impact force on a furnace door is small, and the furnace door cannot deform or be damaged.

Description

Be used for forging continuously the heating furnace of producing

Technical field

The present invention relates to a kind of firing equipment, relate in particular to a kind of for forging the heating furnace of producing continuously.。

Background technology

Forging is a common technology in the mechanical processing process, in order to reach certain specific character, workpiece need through behind the high temperature forging to obtain this kind performance.Forge furnace is to forge indispensable process equipment in the processing.The more employing coal burning of existing forge furnace (having another name called red in stove) or power generation heating, small part adopts the fuel gas buring heating.Adopting fuel gas buring to add pines for, again usually because the discharging opening design is unreasonable, cause the material blanking swimmingly after the heating, the angle of the descending of discharging frame and horizontal discharging direction is too small, material is bonded on the descending easily, and the descending of discharging frame and the angle of horizontal direction are excessive, meeting blanking excessive velocities, impulsive force to the fire door that is arranged on blanking port is excessive, causes fire door yielding or damage.

Summary of the invention

In view of the above, be necessary to provide that a kind of to satisfy material heating back blanking smooth and easy and can prevent from the excessive impulsive force of fire door is used for forging continuously the heating furnace of producing.

A kind of for forging the heating furnace of producing continuously, comprise body of heater, heating arrangements and frame, body of heater and heating arrangements are arranged on the frame, body of heater offers the burner hearth of perforation, and correspondingly be formed with furnace wall, feed end and discharge end, be provided with guide groove in the described burner hearth, described heating arrangements comprises some burners, some described burners pass the furnace wall and enter in the burner hearth, described discharge end is provided with the discharging frame, and the discharging frame comprises diapire, and described diapire connects the bottom surface of burner hearth, form angle with burner hearth straight feeding direction, this angular range is between 35 degree are spent to 45.

Further, described angle is spent to 40 degree 38.

Further, the discharging opening of described discharging frame is provided with fire door and fire door support, and fire door stent support fire door is with the state of the discharging opening of keeping fire door capping discharging frame.

Further, described heating arrangements comprises gas supply mechanism, gas supply mechanism comprises gas supply source and the gas conduct pipe that is connected with the gas supply source, described gas conduct pipe comprises combustion gas house steward, combustion gas main body socket and some combustion gas arms, described combustion gas house steward one end is connected combustion gas main body socket, the other end is connected to the gas supply source, combustion gas main body socket is arranged on the body of heater over top and fixes by frame, some combustion gas arms are connected on the combustion gas main body socket, and each combustion gas arm is connected with a burner.

Further, described heating arrangements comprises combustion-supporting gas organization of supply, combustion-supporting mechanism comprises combustion-supporting gas source of supply and the combustion-supporting airway that is connected with combustion-supporting gas source of supply, combustion-supporting conductance comprises combustion-supporting gas house steward, combustion-supporting gas main body socket and some combustion-supporting gas branch pipes, combustion-supporting gas house steward one end connects combustion-supporting gas source of supply, the other end is connected to combustion-supporting gas main body socket, and some combustion-supporting gas branch pipes are connected on the combustion-supporting gas main body socket, and each combustion-supporting gas branch pipe connects on the burner.

Further, described burner comprises the burner main paragraph and send fiery section from what the burner main paragraph extended that the burner main paragraph connects a combustion gas arm and a combustion-supporting gas branch pipe, send the fiery section furnace wall of passing heating furnace body to stretch in the burner hearth.

Further, described heating arrangements comprises the burner governor motion, and described burner governor motion comprises an installing plate, and described burner is installed on the installing plate and passes installing plate and the furnace wall of body of heater is stretched in the burner hearth.

Further, described burner governor motion comprises actuator, and actuator is installed on the described frame, and the drive installation plate moves together with burner.

Further, described actuator is cylinder.

Further, described heating arrangements comprises control cabinet, is provided with control system in the control cabinet with the operation of control system of bf body, and the control cabinet surface is provided with some buttons and display screen.

Compared to prior art, the present invention is used for forging continuously the heating furnace of producing and is set in 35 degree between 45 degree by the angle with discharging frame diapire and straight feeding direction, be more conducive to directing material landing from the diapire smoothly, material can not crossed less friction because of angle and be bonded on the base plate greatly, the excessive velocities that also can not drop under the deadweight effect because angle is excessive is big and cause the fire door distortion to the impulsive force of fire door.

Description of drawings

Fig. 1 is that preferred embodiment of the present invention is looked perspective view for the master who forges the heating furnace of producing continuously;

Fig. 2 is discharge end that preferred embodiment of the present invention is used for forging continuously the heating furnace of producing perspective view when its fire door of shrouding is not set;

Fig. 3 is the direction side perspective structural representation that preferred embodiment of the present invention is used for forging continuously the heating furnace of producing;

Fig. 4 is the schematic cross-section that the heating furnace partial structurtes that are used for forging production continuously shown in Figure 3 are analysed and observe;

Fig. 5 is the other direction side perspective structural representation that preferred embodiment of the present invention is used for forging continuously the heating furnace of producing;

Fig. 6 is that preferred embodiment of the present invention is used for continuously the perspective view that the master of the heating furnace of forging production looks partial structurtes.

The specific embodiment

By describing technology contents of the present invention, structural feature in detail, being realized purpose and effect, be described in further detail for forging the heating furnace of producing continuously of the present invention below in conjunction with drawings and Examples.

See also Fig. 1, preferred embodiment of the present invention is used for forging the heating furnace of producing continuously and comprises body of heater 10, heating arrangements 20 and frame 30, and body of heater 10 is arranged on the frame 30 with heating arrangements 20.

In conjunction with consulting Fig. 3, body of heater 10 comprises preheating body of heater section 11, the heating furnace body section 12 that is connected with preheating body of heater section 11 one.Body of heater 10 has burner hearth 13 and connects preheating body of heater section 11 and heating furnace body section 12, forms feed end in preheating body of heater section 11 accordingly, forms discharge end in heating furnace body section 12.Preheating body of heater section 11 is for charging and material preheating, and heating furnace body section 12 is for material heating and discharging.

See also Fig. 4, contiguous feed end offers air discharge duct 111 at roof on the preheating body of heater section 11, discharges for the waste gas in the burner hearth 13.The top of preheating body of heater section 11 also is provided with the smokestack 112 that is communicated with air discharge duct 111, for the waste gas of discharging from air discharge duct 111 along smokestack 112 from smokestack 112 open top discharge.

Heating furnace body section 12 contiguous discharge ends offer some installing holes 121 at roof, installing hole 121 tendencies are extended down and towards feed end, it connects roof and is communicated with burner hearth 13, installing hole 121 forms included angle A with burner hearth 13 straight feeding directions, described included angle A is acute angle, preferably is chosen in 30 degree between 60 degree.

Feed end is provided with the feeding mechanism (not shown), so that material is fed through in the burner hearth 13.In addition, feed end also is provided with the closing door (not shown), sheds from feed end to stop heat.In the present embodiment, described closing door is air door, namely by a blower fan air draft, wind is blowed to the bottom from the top of feed end and the width of air door greater than the width of feed end charging aperture, so air door stops the heats in the burner hearth 13 and can not shed from the charging aperture of feed end.Be appreciated that closing door also can only keep with material entering the suitable entrance space of size, but so block heat shed from feed end by baffle plate being set at charging aperture.

Discharge end is provided with shrouding 14 and discharging frame 15.Described shrouding 14 is installed in discharge end movably, stops heat to shed from discharge end with the discharge end of capping burner hearth 13.Described discharging frame 15 is arranged on the discharge end of body of heater 10 and is positioned at the bottom of body of heater 10, and discharging frame 15 connects the material landing after burner hearth 13 is processed in order to guiding.In conjunction with consulting 1 and Fig. 2, described shrouding 14 removably is sealed on discharge end and cooperates described discharging frame 15 tops, makes the discharge end sealing, and the material landing in the burner hearth 13 after the heating drops out to discharging frame 15 and from discharging frame 15.

Described discharging frame 15 can form with described body of heater 10.See also Fig. 2, discharging frame 15 comprises diapire 151, roof 152 and two sidewalls 153.Described diapire 151 downward-sloping extensions, it connects the bottom surface of burner hearth 13, form included angle B with burner hearth 13 straight feeding directions, described included angle B between 45 degree, is more conducive to the smooth landing of directing material at 35 degree, material can be swimmingly landing from the diapire, can not cross less friction because of angle is bonded on the base plate greatly, the excessive velocities that also can under the deadweight effect, not drop because angle is excessive, big and cause the fire door distortion to the impulsive force of fire door, more preferably select 38 degree to 40 degree.High temperature resistant, wear-resisting for the ease of diapire 151, resistant to elevated temperatures guide plate 154 further is set on the diapire of discharging frame 15, guide plate 154 is made for high temperature resistant material.

See also Fig. 1 and Fig. 6, the discharging opening of discharging frame 15 is provided with a fire door 160 and fire door support 161, support fire doors 160 by fire door support 17, realize opening or closing automatically of 160 pairs of discharging openings of fire door, heat sheds from discharging opening and causes thermal waste when preventing not blanking.Described fire door support 161 comprises that two head rods 162,2 second connecting rods 163, a jointed shaft 164 and hang thing bar 165.Described fire door 160 is used for sealing discharging opening when no material drops out.Two head rods 162 are fixed on the fire door 16 with arranging.Head rod 162 is the L shape, comprise the first bar section 1621 and with the first bar section, the 1621 second bar section, 1622, the first bar sections 1621 connected vertically on contiguous junction with the second bar section 1622 offer first through hole.Offer second through hole away from the junction with the first bar section 1621 on the second bar section 1622.The first bar section 1621 of head rod 162 is fixed on the fire door 160 and is parallel with fire door 16.Second connecting rod 163 is the vertical bar shaped bar, and the one end offers hinge hole.Second connecting rod 163 is fixed on the described roof 152, and described hinge hole aligns with described first through hole, a described hinge hole and a described through hole are all passed in described jointed shaft 164 two ends, thereby head rod 162 can be around 163 swings of described jointed shaft 164 relative second connecting rods.Describedly hang second through hole that two head rods 162 are passed at thing bar 165 two ends respectively.This hangs thing bar 165 and is used for hanging articles, by hanging articles, as counterweight, makes the swaying direction of the bar section 1621 of winning be flapped toward the direction of fire door 160 closures, thereby keeps fire door 160 sealing discharging openings.By selecting the weight of hanger, can control the sealing dynamics of fire door 16, thus the adjusting of the closing velocity of the speed when realizing material fallen and fire door, the durability of raising fire door 160.

In addition, in order to reduce the temperature of discharging frame 15, also be provided with water cooling plant 17 on the discharging frame 15, water cooling plant 17 comprises water inlet pipe 171 and outlet pipe 172, water inlet pipe 171 is separately positioned on the two side 153 of discharging frame 15 with outlet pipe 172, the frame wall of discharging frame 15 is provided with inner water route in (comprising diapire 151, roof 152 and two sidewalls 153), water inlet pipe 171 is connected with the two ends in inner water route respectively with outlet pipe 172, thereby flow into from water inlet pipe 171 by cooling water, flow out from outlet pipe 172, by conducting heat, realize the cooling to discharging frame 15.

Be provided with stock guide 18 in the described burner hearth 13, stock guide 18 comprises low temperature stock guide 181 and high temperature stock guide 182, and described low temperature stock guide 181 is laid in the burner hearth of preheating body of heater section 11, and high temperature stock guide 182 is laid in the burner hearth of heating furnace body section 12.Low temperature stock guide 181 can adopt different heat-resisting materials to make with high temperature stock guide 182.Offer some guide grooves 183 on the stock guide 18, guide groove 183 quantity are 8 in the present embodiment.Guide groove 183 shapes can be rectangle guide groove, " V " shape guide groove or arc guide barrel.

See also Fig. 3, heating arrangements 20 comprises gas supply mechanism 21, combustion-supporting gas organization of supply 22, burner 23 and control cabinet 24.Gas supply mechanism 21 comprises gas supply source (not shown) and the gas conduct pipe 211 that is connected with the gas supply source.Described gas supply source can be combustion gas delivery source such as gas tank, pipe natural gas.Described gas conduct pipe 211 comprises combustion gas house steward 212, combustion gas main body socket 213 and some combustion gas arms 214.Described combustion gas house steward 212 1 ends are connected on the combustion gas main body socket 213, and the other end is divided into two connecting interfaces, can be connected respectively to two gas supply sources, perhaps one of them connection, and another is standby.Combustion gas main body socket 213 is arranged on body of heater 10 over top and fixing by frame 30.Some combustion gas arms 214 are connected on the combustion gas main body socket 213, and each combustion gas arm 214 is connected with a burner 23.Each combustion gas arm 214 comprises the flexible tube section 2141 that can come and go warpage, and flexible tube section 2141 can be aluminium foil and makes, so that when burner 23 moved and drives combustion gas arm 214 warpages, combustion gas arm 214 can not fracture.Also be provided with combustion gas displacement control valve 2142 on the arm 214, with the discharge capacity of control combustion gas.

The combustion gas mixing that combustion-supporting gas organization of supply 22 is used for providing combustion-supporting gas and fuel gas mechanism 21 to provide is burnt.See also Fig. 4, combustion-supporting mechanism 22 comprises combustion-supporting gas source of supply 221 and the combustion-supporting airway 222 that is connected with combustion-supporting gas source of supply 221.Combustion-supporting gas source of supply 221 can be air conveyance devices such as blower fan, and accordingly, combustion-supporting gas can be air.Combustion-supporting airway 222 comprises combustion-supporting gas house steward 223, combustion-supporting gas main body socket 224 and some combustion-supporting gas branch pipes 225.Combustion-supporting gas house steward 223 1 ends connect combustion-supporting gas source of supply 221, and the other end stretches into behind described smokestack 112 inner tops bending and extends downwards along smokestack 112 and is connected to the combustion-supporting gas main body socket 224 that is arranged on smokestack 112 bottoms.Some combustion-supporting gas branch pipes 225 are connected on the combustion-supporting gas main body socket 224, and pass from smokestack 112 bottoms along body of heater 10 end faces.Each combustion-supporting gas branch pipe 225 connects on a burner 23, and each combustion-supporting gas branch pipe 225 comprises the flexible tube section 2251 that can come and go warpage, in order to move and when driving combustion-supporting gas branch pipe 2251 warpages, combustion-supporting gas branch pipe 225 can not fracture at burner 23.Also be provided with combustion-supporting gas displacement control valve 2252 on the arm 225, to control the discharge capacity of combustion-supporting gas.Accordingly, each burner 23 is connected with a combustion gas arm 214 and a combustion-supporting gas branch pipe 225.

In conjunction with consulting Fig. 1 or Fig. 6, burner 23 comprises burner main paragraph 231 and send fiery section 232 from what burner main paragraph 231 extended.Send the radial dimension of fire section 232 little than burner main paragraph 231, suitable with the radial dimension of described installing hole 121.Burner main paragraph 231 connects described combustion gas arm 214 and combustion-supporting gas branch pipe 225, send fire section 232 installing holes 121 that pass heating furnace body section 12 to stretch in the burner hearth 13.In the present embodiment, eight burners 23 are parallel with the charging aperture end face one at the discharge end of contiguous body of heater and arrange and put at the body of heater top.Article eight, the material in the guide groove is by four burner combustion heating, be heated evenly to save the energy and object in order to take full advantage of calory burning, the spaced walls of sending the outlet (being the crater of burner) of fire section 232 to select to aim at 183 of adjacent guide grooves, and the heat that each burner 23 sends can make that for the heating of the material in adjacent two guide grooves the material in burner hearth 13 each guide groove is heated evenly.Be appreciated that in order to reach to add heat request, the burners of row more than also can arranging, perhaps some burners 23 are a row or multi-row layout that differs from line with the feed inlet end hand-deliver at the body of heater top.Got final product by heat request for saving energy and satisfying object, preferably select several burners 23 to be parallel with the charging aperture end face one at the body of heater top at the discharge end of contiguous body of heater and arrange and put.In addition, for material fully is heated, the crater of the burner 23 that stretches into has certain distance with guide groove 183 phase close neighbours' location point and described diapire 151 with the tie point that connects burner hearth 13 bottom surfaces, makes material enter discharging frame 15 behind the back operation certain distance that is heated, and guarantees that material is heated fully.Preferably, the distance of operation is selected 5cm to 30cm.

So, combustion gas in combustion-supporting gas in each combustion gas arm 214 and the combustion-supporting gas branch pipe 225 is emerged from the crater of burner 23 by a burner 23 ignition and flame, be implemented in combustion gas and the mixed combustion in burner hearth 13 of combustion-supporting gas, thereby the object in burner hearth 13 guide grooves is heated.Each burner 23 is by corresponding starter gate valve (not shown) control igniting.Described starter gate valve adopts the electromagnetic ignition valve, and its control button is arranged on the control cabinet 24.See also Fig. 3, in order to regulate the corresponding proportionate relationship of combustion air current amount and gas flow, be connected on the same burner 23 and be connected with ratio detector tube 233 between the combustion gas arm 214 and combustion-supporting gas branch pipe 225, passing ratio detector tube 233 detects the corresponding proportionate relationship of combustion air current amount and gas flow, the ratio that ratio detector tube 233 detects can show by the display on the casing of control cabinet 24, thereby regulate combustion gas displacement control valve 2142 or combustion-supporting gas displacement control valve 2252 according to Proportional Feedback, thereby regulate the ratio of combustion air current amount and gas flow, make combustion-supporting gas and combustion gas fully burn.

Described control cabinet 24 is installed on the frame 30, be provided with control system in the control cabinet 24, the operation of control system control system of bf body comprises the feeding mechanism of control feed end to material loading frequency and the propelling movement of material, controls the switch of air door, combustion gas, combustion-supporting gas and Flow-rate adjustment etc.The surface of control cabinet 24 (operation interface) is provided with some buttons and display screen.

In addition, for monitoring in real time and intensity and the temperature of regulating burner hearth 13 internal combustion, see also Fig. 5 and Fig. 6, body of heater 10 is provided with some temperature monitors 19.Described heating arrangements 20 comprises burner governor motion 40.Each temperature monitor 19 is installed on the furnace wall of body of heater 10, and the probe of temperature monitor 19 stretches in the burner hearth 13, can detect the real-time temperature in the burner hearth 13 in real time.Described burner governor motion 40 comprises an installing plate 41 and two actuators 42.Offer some mating holes on the described installing plate 41, with correspondence some described burners 23 are installed.Be specially, fire section 232 installing holes 121 that pass mating holes and heating furnace body section 12 that send of burner 23 stretch in the burner hearth 13, and burner main paragraph 231 supports installing plate 41.The two ends of installing plate 41 are that two actuators 42 support, and installing plate 41 can move thereby drive burner 23 mobile in the preset displacement scope under the driving of two actuators 42.Two actuators 42 are installed on the frame 30, and actuator 42 can be selected cylinder for use.Detect the temperature of heating object in the burner hearth 13 in real time by temperature monitor 19, when the temperature of heating object is too high, control system in the control cabinet 24 is sent instruction in real time, actuator 42 actions, lifting installing plate 41, make the crater that send fiery section 232 of burner 23 space out with the heating object, thereby reduce the heating-up temperature to object, the temperature maintenance of feasible heating object is to suitable heating-up temperature.When sending fire section 232 to cross far away and do not reach when needing temperature from the heating object, then drive and send fire section 232 to move its crater near the heating object, raise to heating the heating-up temperature of object.

In addition, for the ease of body of heater 10 assembling or to burner hearth 13 inner repairings, see also Fig. 5, described body of heater 10 can be bottom integrated 101 and is arranged on some blocks 102 on the bottom integrated 101 and arranges and be spliced to form.Some blocks 102 are made for exotic material, and stock guide correspondingly is installed in the burner hearth of each block 102, arrange splicing by some blocks 102 and are linked to be described burner hearth 13, also connect into whole stock guide 18 accordingly.Wherein the top of part block 102 offers repairing hole 1021, when body of heater 10 uses, repairs hole 1021 and fills or hide by baffle plate, when burner hearth 13 inside need be adjusted the position as guide groove or repair, only need remove baffle plate and can be convenient to burner hearth 13 inner maintenances.In addition, in order to strengthen the location, position to block 102, block 102 is provided with link, and is connected to frame 30 by stage clip 103, can strengthen the position of block 102 is limited, and perhaps when block 102 needs monoblock to change, can be convenient to block 102 and take out replacing.

The feeding mechanism of feed end can adopt as in the CN201110424491.9 patent application of application before or No. 201210014337.9 patent applications of CN or the feeding mechanism that adopts in the CN201210121873.9 patent application.

During heating, after material places guide groove 183, promote by feed mechanism, a material is pushed last material operation behind the material in guide groove 183, drops from discharging frame 15 in the heating back.Described material comprises that iron, copper etc. need the metal material of heats forged, and material can be the erose material of bar shaped material or globular material and other, and described guide groove can be according to the shape needs design of material.

To sum up, the present invention is used for forging continuously the heating furnace of producing and is set in 35 degree between 45 degree by the angle with discharging frame diapire and straight feeding direction, be more conducive to directing material landing from the diapire smoothly, material can not crossed less friction because of angle and be bonded on the base plate greatly, the excessive velocities that also can not drop under the deadweight effect because angle is excessive is big and cause the fire door distortion to the impulsive force of fire door.

In addition, the present invention is used for forging continuously the heating furnace produced and arranges and establish burner and stretch in the burner hearth by arrange one at the body of heater end, can reach to add the required temperature requirement of thermal material, has saved fuel; And burner and guide direction are acute angle arranges, so is convenient to burner flame and extends towards the charging aperture direction of burner hearth, namely is beneficial to heat and transmits towards feed inlet end, fully preheating is carried out in charging, and stop by air door, can prevent that heat scatters and disappears from feed end, so is convenient to saving and the utilization of heat energy.

The above, it only is preferred embodiment of the present invention, be not that the present invention is done any pro forma restriction, though the present invention discloses as above with preferred embodiment, yet be not in order to limit the present invention, any those skilled in the art, in not breaking away from the technical solution of the present invention scope, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be not break away from the technical solution of the present invention content, any simple modification that foundation technical spirit of the present invention is done above embodiment, equivalent variations and modification all still belong in the scope of technical solution of the present invention.

Claims (10)

1. one kind is used for forging continuously the heating furnace of producing, it is characterized in that: comprise body of heater, heating arrangements and frame, body of heater and heating arrangements are arranged on the frame, body of heater offers the burner hearth of perforation, and correspondingly be formed with the furnace wall, feed end and discharge end, be provided with guide groove in the described burner hearth, described heating arrangements comprises some burners, some described burners pass the furnace wall and enter in the burner hearth, described discharge end is provided with the discharging frame, and the discharging frame comprises diapire, and described diapire connects the bottom surface of burner hearth, form angle with burner hearth straight feeding direction, this angular range is between 35 degree are spent to 45.

2. as claimed in claim 1 for forging the heating furnace of producing continuously, it is characterized in that: described angle is spent to 40 degree 38.

3. as claimed in claim 1 it is characterized in that: the discharging opening of described discharging frame is provided with fire door and fire door support for forging continuously the heating furnace of producing, and fire door stent support fire door is with the state of the discharging opening of keeping fire door capping discharging frame.

4. as claimed in claim 1 for forging the heating furnace of producing continuously, it is characterized in that: described heating arrangements comprises gas supply mechanism, gas supply mechanism comprises gas supply source and the gas conduct pipe that is connected with the gas supply source, described gas conduct pipe comprises the combustion gas house steward, combustion gas main body socket and some combustion gas arms, described combustion gas house steward one end is connected combustion gas main body socket, the other end is connected to the gas supply source, combustion gas main body socket is arranged on the body of heater over top and fixes by frame, some combustion gas arms are connected on the combustion gas main body socket, and each combustion gas arm is connected with a burner.

5. as claimed in claim 1 for forging the heating furnace of producing continuously, it is characterized in that: described heating arrangements comprises combustion-supporting gas organization of supply, combustion-supporting mechanism comprises combustion-supporting gas source of supply and the combustion-supporting airway that is connected with combustion-supporting gas source of supply, combustion-supporting conductance comprises combustion-supporting gas house steward, combustion-supporting gas main body socket and some combustion-supporting gas branch pipes, combustion-supporting gas house steward one end connects combustion-supporting gas source of supply, the other end is connected to combustion-supporting gas main body socket, some combustion-supporting gas branch pipes are connected on the combustion-supporting gas main body socket, and each combustion-supporting gas branch pipe connects on the burner.

6. as claimed in claim 1 for forging the heating furnace of producing continuously, it is characterized in that: described burner comprises the burner main paragraph and send fiery section from what the burner main paragraph extended, the burner main paragraph connects a combustion gas arm and a combustion-supporting gas branch pipe, and the furnace wall of sending the fire section to pass heating furnace body is stretched in the burner hearth.

7. as claimed in claim 1 for forging the heating furnace of producing continuously, it is characterized in that: described heating arrangements comprises the burner governor motion, described burner governor motion comprises an installing plate, and described burner is installed on the installing plate and passes installing plate and the furnace wall of body of heater is stretched in the burner hearth.

8. as claimed in claim 7 for forging the heating furnace of producing continuously, it is characterized in that: described burner governor motion comprises actuator, and actuator is installed on the described frame, and the drive installation plate moves together with burner.

9. as claimed in claim 8 for forging the heating furnace of producing continuously, it is characterized in that: described actuator is cylinder.

10. as claimed in claim 1 it is characterized in that: described heating arrangements comprises control cabinet for forging the heating furnace of producing continuously, is provided with control system in the control cabinet with the operation of control system of bf body, and the control cabinet surface is provided with button and display screen.

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