CN205037293U - Multi -functional integrated combustor - Google Patents

Abstract

The utility model discloses a multi -functional integrated combustor, the technical problem that solve are convenient management, have realized heating furnace safe and reliable, and be energy -concerving and environment -protective, has reduced the volume of equipment moreover, practices thrift the space. The utility model discloses a combustor, the combustor includes the casing, is equipped with main intake pipe on the casing, and the front end of main intake pipe is equipped with governing valve, combination formula solenoid valve, vortex flowmeter, manometer, stop valve, main pneumatic valve in stretching into the inner chamber of casing in proper order in main intake pipe, the left and right sides of combination formula solenoid valve valve body be connected with pressure switch and ignition solenoid valve respectively, be equipped with the burning torch in the inner chamber of casing, the lower extreme of casing is equipped with the weeping detector, be equipped with flame watch -dog, ignition transformer and programmable logic controler respectively on the casing, flame watch -dog, ignition transformer, weeping detector are connected with programmable logic controler. Compared with the prior art, reduce the volume of equipment greatly, practiced thrift the space.

Description

Multifunctional all burner

Technical field

The utility model relates to the supporting application of a kind of oil field heating furnace, is a kind of multifunctional all burner for oil field heating furnace safety management, production management digitlization and energy efficiency management.

Background technology

At present, oil field heating furnace is in operation application process, heat medium in heating furnace can be caused to leak due to reasons such as fiery cylinder scaling loss, welding bead break, and these heating furnaces do not have by Timeliness coverage and process when damage, near and can cause in heating-furnace and flowed out tank body by the dielectric leakage that heats to the side that burner catches fire, easily cause fire disaster accident.Although the leakage detection combustion apparatus solved the problem in the prior art, pipe high-temperature detection device and oilfield heating furnace efficiency detection device, but three devices all work independently, decentralised control, scatter display, the required space of installing of equipment is larger, inconvenience centralized control and management, prior art also cannot by heating furnace safe, energy-conservation, produce and the new technology such as digitlization, internet merge.

Summary of the invention

The purpose of this utility model is to provide a kind of multifunctional all burner, and the technical problem that solve is convenient management, achieves heating furnace safe and reliable, energy-conserving and environment-protective, and reduces the volume of equipment, saves space.

For solving the problem, the utility model realizes by the following technical solutions: a kind of multifunctional all burner, comprise by Flange joint to the burner on heating furnace fire door, described burner comprises and has inner chamber and the housing that is communicated with heating furnace fire door of front end, housing is provided with main air inlet pipe, the front end of main air inlet pipe is stretched in the inner chamber of housing, main air inlet pipe is provided with control valve successively, combination solenoid valve, vortex-shedding meter, Pressure gauge, stop valve, main air valve, the left and right sides of described combined electromagnetic valve body is connected to pressure switch and igniter solenoid valve, burning torch is provided with in the inner chamber of housing, the front end of burning torch is near the fire door place of heating furnace, igniter solenoid valve is through igniting hose connecting points firelock, and in the inner chamber of the outside of burning torch, housing, be provided with shower nozzle, shower nozzle is connected with main air inlet pipe and the load meter be arranged on housing respectively, the lower end of described housing is provided with liquid leakage detector, housing is respectively equipped with the flame monitor of integration, ignition transformer and programmable logic controller (PLC), and described flame monitor, ignition transformer, liquid leakage detector are connected with programmable logic controller (PLC), the outer water side of boiler tube in described heating furnace is provided with at least one temperature element, it is outer and be connected with programmable logic controller (PLC) that the wiring of temperature element extends heating furnace through the pool, water side in heating furnace by body of heater flange, the smoke box of heating furnace is provided with the oxygen level sensor be connected with programmable logic controller (PLC), the chimney lower end of heating furnace is provided with the flue-gas temperature sensor be connected with programmable logic controller (PLC), and the body of heater of described heating furnace is provided with the furnace body temperature sensor be connected with programmable logic controller (PLC).

Burner described in the utility model also comprises man-machine interface, and the heating furnace data of collection are sent to man-machine interface by described programmable logic controller (PLC).

Housing described in the utility model is made up of with second casing with inner chamber first casing with inner chamber, be interconnected between the inner chamber of described first casing and the inner chamber of the second casing and the fire door of heating furnace, the front end of the first casing is connected with the fire door of heating furnace by flange, the front end of described main air inlet pipe is stretched in the inner chamber of the first casing, burning torch, shower nozzle are located in the inner chamber of the first casing, and described ignition transformer, flame monitor, programmable logic controller (PLC) are located on the second casing.

One side surface rear end of the second casing described in the utility model is provided with air inlet, and the inner space of air inlet and the second casing, air inlet is provided with bellows, and bellows are by being arranged on the servo-driver connection control on the second casing; On the second casing, the opposite side relative with air inlet be provided with motor on the surface, and the output shaft of motor stretches in the inner chamber of the second casing, is provided with the impeller be connected on the output shaft of motor in the inner chamber of the second casing; Described second casing is provided with blast switch, and described blast switch, motor, servo-driver are connected with programmable logic controller (PLC).

Bellows described in the utility model comprise and are arranged on outside air inlet, bellows housing on second casing, fixed dam is provided with in the inside upper part of bellows housing, the lower inside of described bellows housing is provided with the wind-tunnel with air inlet UNICOM, servo-driver is arranged on the outer lower portion of bellows, servo-driver is fixed on the second casing by servo-driver holder, the rotating shaft of servo-driver is provided with the axostylus axostyle be connected with the rotating shaft of servo-driver through shaft coupling, the left and right sides of bellows housing is crossed at the two ends of axostylus axostyle, axostylus axostyle is provided with axostylus axostyle screw, wind-tunnel is provided with the deep bead that can block wind-tunnel, the rear end face of deep bead is provided with deep bead fixed head, deep bead fixed head is laterally provided with the axostylus axostyle groove that the rear end face to deep bead fixed head protrudes, described axostylus axostyle groove is provided with the fixed head screw corresponding with axostylus axostyle screwhole position, deep bead fixed head is arranged on the rear end of axostylus axostyle by axostylus axostyle groove and is threaded with axostylus axostyle screw through fixed head screw by screw, deep bead fixed head is made to be fixed on axostylus axostyle, the rear end face of described deep bead is fixedly connected with the front end face of deep bead fixed head.

First casing described in the utility model is provided with air intake assembly, and the first casing is provided with the air door executer controlling air intake assembly intake, and air door executer connects programmable logic controller (PLC).

Air intake assembly described in the utility model comprises air intake assembly and comprises the first gear aerofoil of annular and the second gear aerofoil of annular, first gear aerofoil is arranged at intervals with the import of one week first gear aerofoil, second gear aerofoil is arranged at intervals with the import of one week second gear aerofoil, the circumference first casing is respectively equipped with along the first casing arranges the first air intake component holes of a week, second air intake component holes, the rear end of first gear aerofoil and the front end of second gear aerofoil are connected and fixed by contiguous block, after in the middle part that air intake assembly is arranged on the first casing, first gear aerofoil is placed in the first air intake component holes place, second gear aerofoil is placed in the second air intake component holes place, on second gear aerofoil, the periphery wall lower end of side relative to first gear aerofoil is provided with the tooth bar of arc, in the lower end of the first casing, rack bore is had with rack position corresponding section, air door executer is fixed on the lower end of the first casing by air door executer base plate, rack bore place, the output shaft of described air door executer is provided with the driving gear engaged with tooth bar.

Temperature element described in the utility model detects terminal box through furnace tube high temperature and is connected with programmable logic controller (PLC).

Programmable logic controller (PLC) described in the utility model adopts Delta DVP-12SA2, and man-machine interface adopts Delta DOP-B07S415.

The utility model compared with prior art, heating furnace leakage detection, pipe high temperature are detected and detects centralized Control together with interlock triplicity with stove effect, in real time every data are collected by programmable logic controller (PLC) and result is sent to man-machine interface, make operator can the change of remote monitoring duty parameter, integrate original paper, achieve centralized Control and the optimum control optimum management of checkout gear, greatly reduce the volume of equipment, save space.

Accompanying drawing explanation

Fig. 1 is the assembling schematic diagram of the utility model multifunctional all burner.

Fig. 2 is the front view of the utility model multifunctional all burner.

Fig. 3 is the left view of the utility model multifunctional all burner.

Fig. 4 is the right view of the utility model multifunctional all burner.

Fig. 5-1 is the right view of the utility model bellows.

Fig. 5-2 is front views of the utility model bellows.

Fig. 5-3 is the syndeton schematic diagrames between the utility model deep bead and axostylus axostyle.

Fig. 6-1 is the structural representation of the utility model air intake assembly.

Fig. 6-2 is syndeton schematic diagrames of the utility model first gear aerofoil and second gear aerofoil.

Fig. 6-3 is the partial enlarged drawings indicating A in Fig. 4.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described in further detail.

As shown in Figure 1, multifunctional all burner of the present utility model comprises: an inside has the housing 37 of inner chamber, the front end of housing 37 by Flange joint on heating furnace 35 fire door, housing 37 is provided with a front end and stretches into main air inlet pipe 29 in housing 37 inner chamber, main air inlet pipe 29 is provided with successively control valve 8, combination solenoid valve 6, vortex-shedding meter 4, Pressure gauge 3, stop valve 2, main air valve 1, is connected to pressure switch 5 and igniter solenoid valve 7 in the left and right sides of combined electromagnetic valve body; Burning torch 26 is provided with in the inner chamber of housing 37, the end of burning torch 26 point to the fire door of heating furnace 35 and the front end of burning torch 26 near the fire door place of heating furnace 35, igniter solenoid valve 7 is through igniting flexible pipe 27 tie point firelock 26, in the inner chamber of the front end outer side of burning torch 26, housing 37, be provided with shower nozzle 28 (shown in Fig. 4), shower nozzle 28 is connected with main air inlet pipe 29 and the load meter 15 be arranged on housing 37 respectively; Liquid leakage detector 9 is provided with in the lower end of housing 37; Housing 37 is respectively equipped with the flame monitor 24 of integration, ignition transformer 25 and programmable logic controller (PLC) 13, and flame monitor 24, ignition transformer 25, liquid leakage detector 9 are connected with programmable logic controller (PLC) 13 and real time data are sent to programmable logic controller (PLC) 13 place; The outer water side of boiler tube in heating furnace 35 is provided with at least one temperature element 38, it is outer and be connected with programmable logic controller (PLC) 13 that the wiring of temperature element 38 extends heating furnace 35 through the pool, water side in heating furnace 35 by body of heater flange, the smoke box of heating furnace 35 is provided with the oxygen level sensor 10 be connected with programmable logic controller (PLC) 13, the chimney lower end of heating furnace 35 is provided with the flue-gas temperature sensor 11 be connected with programmable logic controller (PLC) 13, and the body of heater of described heating furnace 35 is provided with the furnace body temperature sensor 34 be connected with programmable logic controller (PLC) 13;

Further, described multifunctional all burner also comprises man-machine interface 33, and the heating furnace data of collection are sent to man-machine interface 33 by described programmable logic controller (PLC) 13.

Further, conveniently overhaul, as shown in Figure 3 and Figure 4, housing 37 can be made up of with second casing 18 with inner chamber first casing 17 with inner chamber, the left and right sides of the first casing 17 and the second casing 18 joint is respectively equipped with key seat 40, key seat 40 is provided with pin-and-hole, pin A30 and pin B31 is inserted with respectively in the key seat 40 of the described left and right sides, first casing 17 and the second casing 18 are interconnected, the rear and front end of described first casing 17 all has the opening with the inner space of the first casing 17, the front end of the second casing 18 has opening, be interconnected between the inner chamber of the first casing 17 and the inner chamber of the second casing 18 and the fire door of heating furnace 35, the front end of the first casing 17 is connected by the fire door of flange with heating furnace 35, the front end of main air inlet pipe 29 is stretched into the inner chamber of the first casing 17 from the lower end of the first casing 17, burning torch 26, shower nozzle 28 is located in the inner chamber of the first casing 17, near the fire door place of heating furnace 35, ignition transformer 25, flame monitor 24 is arranged on the right side of the second casing 18, the left side of the second casing 18 is located at by programmable logic controller (PLC) 13.

As Fig. 2 and 5-1, shown in 5-2 and Fig. 5-3, the right side rear end surface of the second casing 18 is provided with bellows 21, described bellows 21 comprise and are arranged on outside air inlet 36, bellows housing 43 on second casing 18, fixed dam 44 is provided with in the inside upper part of bellows housing 43, the lower inside of described bellows housing 43 is provided with the wind-tunnel 45 with air inlet 36 UNICOM, servo-driver 22 is provided with in the outer lower portion of bellows 21, servo-driver 22 is fixed on the second casing 18 by servo-driver holder 46, the rotating shaft of servo-driver 22 is provided with the axostylus axostyle 48 be connected with the rotating shaft of servo-driver 22 through shaft coupling, the two ends of axostylus axostyle 48 are crossed and are arranged on the left and right sides of bellows housing 43, axostylus axostyle 48 is provided with axostylus axostyle screw 49, wind-tunnel 45 is provided with the deep bead 47 that can block wind-tunnel 45, distance between deep bead 47 left and right sides is equal with the distance between the left and right sides inside bellows housing 43, be against on the second casing 18 outside the lower end that the lower end of deep bead 47 extends to bellows housing 43, the rear end face of deep bead 47 is provided with deep bead fixed head 50, deep bead fixed head 50 is laterally provided with the axostylus axostyle groove 51 that the rear end face to deep bead fixed head 50 protrudes, described axostylus axostyle groove 51 is provided with the fixed head screw 52 corresponding with axostylus axostyle screw 49 position, deep bead fixed head 50 is enclosed within the rear end of axostylus axostyle 49 by axostylus axostyle groove 51 and is threaded with axostylus axostyle screw 49 through fixed head screw 52 by screw, deep bead fixed head 50 is made to be fixed on axostylus axostyle 49, the rear end face of described deep bead 47 is fixedly connected with the front end face of deep bead fixed head 50 by the mode of welding, when servo-driver 22 drives axostylus axostyle 49 to rotate, axostylus axostyle 49 drives deep bead 47 to rotate, wind is made to enter the inner chamber of the second casing 18 from the opening between deep bead 47 and wind-tunnel 45, on the second casing 18, the opposite side (left side of second casing 18) relative with air inlet 36 is provided with motor 16 on the surface, the output shaft of motor 16 stretches in the inner chamber of the second casing 18, the impeller 32 on the output shaft being connected to motor 16 is provided with in the inner chamber of the second casing 18, described blast switch 23 is arranged on the left side of the second casing 18, and blast switch 23, motor 16, servo-driver 22 are connected with programmable logic controller (PLC) 13.

The right side and left side of the second casing 18 all can be provided with the component box for placing flame monitor 24, ignition transformer 25, programmable logic controller (PLC) 13.

As shown in Figure 4, air intake assembly 39 is provided with in the middle part of the first casing 17, the air door executer 14 controlling air intake assembly 39 intake is provided with in the lower end of the first casing 17, air door executer 14 connects programmable logic controller (PLC) 13, and the circumference the first casing 17 is respectively equipped with along the first casing 17 arranges first air intake component holes 41, the second air intake component holes 42 of a week.

As Fig. 6-1, shown in 6-2 and Fig. 6-3, described air intake assembly 39 comprises the first gear aerofoil 19 of annular and the second gear aerofoil 20 of annular, first gear aerofoil 19 is arranged at intervals with one week first gear aerofoil import 54, second gear aerofoil 20 is arranged at intervals with one week second gear aerofoil import 55, the external diameter of described first gear aerofoil 19 and the first casing 17, the internal diameter being positioned at the first air intake component holes 41 place is equal, the external diameter of second gear aerofoil 20 then with the first casing 17, the internal diameter being positioned at the second air intake component holes 42 place is equal, the rear end of first gear aerofoil 19 and the front end of second gear aerofoil 20 are welded together by three pieces of contiguous blocks 53 and form air intake assembly 39, after in the middle part that air intake assembly 39 is arranged on the first casing 17, first gear aerofoil 19 is placed in the first air intake component holes 41 place, second gear aerofoil 20 is placed in the second air intake component holes 42 place, the tooth bar 59 of arc is provided with in the periphery wall lower end of second gear aerofoil 20 side relative to first gear aerofoil 19, in the lower end of the first casing 17, rack bore 57 is had with corresponding section, tooth bar 59 position, air door executer 14 is fixed on lower end rack bore 57 place of the first casing 17 by air door executer base plate 58, the output shaft of described air door executer 14 is provided with the driving gear 60 engaged with tooth bar 59, the groove of driving gear 60 stretches in rack bore 57 through rack bore 57, under normality, first gear aerofoil import 54 and second gear aerofoil import 55 respectively with the first air intake component holes 41 on the first casing 17, second air intake component holes 42 misplaces, first gear aerofoil 19 and the remainder of second gear aerofoil 20 except first gear aerofoil import 54 and second gear aerofoil import 55 is made to block the first air intake component holes 41, second air intake component holes 42, now can not air intake, when actuator 14 in fashion drives second gear aerofoil 20 to rotate, first gear aerofoil import 54 and second gear aerofoil import 55 respectively with the first air intake component holes 41 on the first casing 17, second air intake component holes 42 overlaps gradually, make wind can from first gear aerofoil import 54 and second gear aerofoil import 55 respectively with the first air intake component holes 41 the first casing 17, second air intake component holes 42 overlapping position enters in the first casing 17.

The utility model programmable logic controller (PLC) 13 adopts Delta DVP-12SA2 type programmable logic controller (PLC) 13, and man-machine interface adopts Delta DOP-B07S415 type man-machine interface, realizes collection and the transmission of data.

As shown in Figure 1, temperature element 38 detects terminal box 12 through furnace tube high temperature and is connected with programmable logic controller (PLC) 13, it is 201020130402.0 that the installation site of described furnace tube high temperature detection terminal box 12 and temperature element 38 can refer to China Patent No., and denomination of invention is furnace tube high temperature detection device.

Described multifunctional all burner has heating furnace leakage defencive function, when liquid leaks can and alarm, and stop fast the supply of burner fuel, automatically carry out coordinated signals blowing out; There is furnace tube high temperature measuring ability, utilize water side interlayer temperature detection method, detect the operating temperature of boiler tube in real time, when temperature exceedes the serviceability temperature upper limit of country's permission, send sound and light alarm, when temperature exceedes the serviceability temperature upper limit more than 10 DEG C, automatic load down, protection boiler tube; There is heating-furnace effect measuring ability, according to back balance table, when exhaust gas temperature, the too high or too low adjustment intake of taking the necessary measures of oxygen content, improve stove effect; Have automatically sweep wind, temperature automatic control, air-fuel ratio control automatically, remote auto IGNITION CONTROL, flame monitoring and blowout protection, soft manual operation control, are incubated and accompany the function such as heat, Liquid level, emergent manual ignition.

Described multifunctional all burner has safety, production and efficiency and automatically manipulates adjustment safeguard function, has the fully automatic burner of Digital Control module and coffret.

Claims (9)

1. a multifunctional all burner, comprise by Flange joint to the burner on heating furnace (35) fire door, it is characterized in that: described burner comprises and has inner chamber and the housing (37) that is communicated with heating furnace (35) fire door of front end, housing (37) is provided with main air inlet pipe (29), the front end of main air inlet pipe (29) is stretched in the inner chamber of housing (37), main air inlet pipe (29) is provided with control valve (8) successively, combination solenoid valve (6), vortex-shedding meter (4), Pressure gauge (3), stop valve (2), main air valve (1), the left and right sides of described combined electromagnetic valve body is connected to pressure switch (5) and igniter solenoid valve (7), burning torch (26) is provided with in the inner chamber of housing (37), the front end of burning torch (26) is near the fire door place of heating furnace (35), igniter solenoid valve (7) is through igniting flexible pipe (27) tie point firelock (26), in the inner chamber of the outside of burning torch (26), housing (37), be provided with shower nozzle (28), shower nozzle (28) is connected with main air inlet pipe (29) and the load meter (15) be arranged on housing (37) respectively, the lower end of described housing (37) is provided with liquid leakage detector (9), housing (37) is respectively equipped with the flame monitor (24) of integration, ignition transformer (25) and programmable logic controller (PLC) (13), and described flame monitor (24), ignition transformer (25), liquid leakage detector (9) are connected with programmable logic controller (PLC) (13), the outer water side of boiler tube in described heating furnace (35) is provided with at least one temperature element (38), the wiring of temperature element (38) extends heating furnace (35) and be connected with programmable logic controller (PLC) (13) through the pool, water side in heating furnace (35) outward by body of heater flange, the smoke box of heating furnace (35) is provided with the oxygen level sensor (10) be connected with programmable logic controller (PLC) (13), the chimney lower end of heating furnace (35) is provided with the flue-gas temperature sensor (11) be connected with programmable logic controller (PLC) (13), the body of heater of described heating furnace (35) is provided with the furnace body temperature sensor (34) be connected with programmable logic controller (PLC) (13).

2. multifunctional all burner according to claim 1, it is characterized in that: described burner also comprises man-machine interface (33), the heating furnace data of collection are sent to man-machine interface (33) by described programmable logic controller (PLC) (13).

3. multifunctional all burner according to claim 2, it is characterized in that: described housing (37) is made up of first casing (17) with inner chamber and second casing (18) with inner chamber, be interconnected between the fire door of the inner chamber of described first casing (17) and the inner chamber of the second casing (18) and heating furnace (35), the front end of the first casing (17) is connected by the fire door of flange with heating furnace (35), the front end of described main air inlet pipe (29) is stretched in the inner chamber of the first casing (17), burning torch (26), shower nozzle (28) is located in the inner chamber of the first casing (17), described ignition transformer (25), flame monitor (24), programmable logic controller (PLC) (13) is located on the second casing (18).

4. multifunctional all burner according to claim 3, it is characterized in that: a side surface rear end of described second casing (18) is provided with air inlet (36), the inner space of air inlet (36) and the second casing (18), air inlet (36) is provided with bellows (21), and bellows (21) are by being arranged on servo-driver (22) connection control on the second casing (18); , with air inlet (36) relative opposite side upper at the second casing (18) is provided with motor (16) on the surface, the output shaft of motor (16) stretches in the inner chamber of the second casing (18), is provided with the impeller (32) on the output shaft being connected to motor (16) in the inner chamber of the second casing (18); Described second casing (18) is provided with blast switch (23), and described blast switch (23), motor (16), servo-driver (22) are connected with programmable logic controller (PLC) (13).

5. multifunctional all burner according to claim 4, it is characterized in that: described bellows (21) comprise be arranged on air inlet (36) outside, bellows housing (43) on second casing (18), fixed dam (44) is provided with in the inside upper part of bellows housing (43), the lower inside of described bellows housing (43) is provided with the wind-tunnel (45) with air inlet (36) UNICOM, servo-driver (22) is arranged on the outer lower portion of bellows (21), servo-driver (22) is fixed on the second casing (18) by servo-driver holder (46), the rotating shaft of servo-driver (22) is provided with the axostylus axostyle (48) be connected with the rotating shaft of servo-driver (22) through shaft coupling, the left and right sides of bellows housing (43) is crossed at the two ends of axostylus axostyle (48), axostylus axostyle (48) is provided with axostylus axostyle screw (49), wind-tunnel (45) is provided with the deep bead (47) that can block wind-tunnel (45), the rear end face of deep bead (47) is provided with deep bead fixed head (50), deep bead fixed head (50) is upper is laterally provided with the axostylus axostyle groove (51) that the rear end face to deep bead fixed head (50) protrudes, described axostylus axostyle groove (51) is provided with the fixed head screw (52) corresponding with axostylus axostyle screw (49) position, deep bead fixed head (50) is arranged on the rear end of axostylus axostyle (49) by axostylus axostyle groove (51) and is threaded with axostylus axostyle screw (49) through fixed head screw (52) by screw, deep bead fixed head (50) is made to be fixed on axostylus axostyle (49), the rear end face of described deep bead (47) is fixedly connected with the front end face of deep bead fixed head (50).

6. the multifunctional all burner according to claim 3 to 5 any one, it is characterized in that: described first casing (17) is provided with air intake assembly (39), first casing (17) is provided with the air door executer (14) controlling air intake assembly (39) intake, and air door executer (14) connects programmable logic controller (PLC) (13).

7. multifunctional all burner according to claim 6, it is characterized in that: described air intake assembly (39) comprises air intake assembly (39) and comprises the first gear aerofoil (19) of annular and the second gear aerofoil (20) of annular, first gear aerofoil (19) is arranged at intervals with one week first gear aerofoil import (54), second gear aerofoil (20) is arranged at intervals with one week second gear aerofoil import (55), the circumference first casing (17) is respectively equipped with along the first casing (17) arranges the first air intake component holes (41) of a week, second air intake component holes (42), the rear end of first gear aerofoil (19) and the front end of second gear aerofoil (20) are connected and fixed by contiguous block (53), after in the middle part that air intake assembly (39) is arranged on the first casing (17), first gear aerofoil (19) is placed in the first air intake component holes (41) place, second gear aerofoil (20) is placed in the second air intake component holes (42) place, above be provided with the tooth bar (59) of arc with the periphery wall lower end of first gear aerofoil (19) relative side at second gear aerofoil (20), in the lower end of the first casing (17), rack bore (57) is had with tooth bar (59) corresponding section, position, air door executer (14) is fixed on the lower end of the first casing (17) by air door executer base plate (58), rack bore (57) place, the output shaft of described air door executer (14) is provided with the driving gear (60) engaged with tooth bar (59).

8. multifunctional all burner according to claim 7, is characterized in that: described temperature element (38) detects terminal box (12) through furnace tube high temperature and is connected with programmable logic controller (PLC) (13).

9. multifunctional all burner according to claim 8, is characterized in that: described programmable logic controller (PLC) (13) adopts Delta DVP-12SA2, and man-machine interface (33) adopts Delta DOP-B07S415.