CN110260305A - A kind of full height above sea level intelligence rotary-cup type oil burner - Google Patents

Abstract

The invention discloses a kind of full height above sea level intelligence rotary-cup type oil burners, this burner includes inlet air plenum and combustion chamber, wherein inlet air plenum, including entering the wind room housing, dual-axle motor and air inlet blade, dual-axle motor is arranged in the middle part of the inner cavity of air inlet room housing, air inlet blade is connected on the lower end output shaft of dual-axle motor, combustion chamber, including gallbladder outside burner hearth, burner hearth liner and revolving cup, the top of air inlet room housing is arranged in the outer gallbladder of burner hearth, and it is provided with mixing wind runner between the two, revolving cup tips upside down in the inner cavity of burner hearth liner, atomization mixed zone is formed between burner hearth liner, and combustion zone is provided in the inner cavity of burner hearth liner and positioned at the outside of revolving cup；The present invention is high to the service efficiency of oil fuel, and the yield of open fire is few, and ignition temperature is high, and full combustion of fuel is few to atmosphere pollution, and burning pressure ignition is big, and kinetic energy is powerful.

Description

A kind of full height above sea level intelligence rotary-cup type oil burner

Technical field

The present invention relates to oil burning apparatus technical field more particularly to a kind of full height above sea level intelligence rotary-cup type fuel burnings Device.

Background technique

Currently, at home and abroad industry and commercial fuel burner industry, such as boiler industry and feeding equipment industry, mainly Using horizontal spray formula (horizontal) burner of pressure atomization, this burner has insufficient, the problems such as combustion thermal efficiency is low of burning, main It is as follows that there are problems:

1, due to the structure using pressure atomization fuel oil, fuel-oil atmozation area is the mist of oil higher-pressure region formed by high pressure nozzle, Alopecia areata mixing is uneven, and the clean-burning mixability of fuel oil is not achieved, and burns insufficient；

2, within the scope of height above sea level A0~5000m working environment, Horizontal burner will appear over-emitting black exhaust in high hypo area Deng burn insufficient and combustion thermal efficiency degradation the phenomenon that, seriously affect the processing supportability of equipment；

3, not under different altitude height environment normal combustion regulatory function；It is general to can not achieve upland plain, part Have the function of manually adjusting air door size, but be only applicable to low altitude area range, it is inconvenient to adjust, inaccuracy, only one big The adjustable range of cause；

4, Horizontal burner flame size only provides single hop fire or double sections of fire, cannot accomplish multistage adjusting or step-less adjustment, It is not able to satisfy the requirement that the different duration and degree of heating are needed using equipment operation process, function adaptability is poor；

5, Horizontal burner weight weight, volume is big, due to using the installation space of equipment narrow, repairs extremely inconvenient；

6, Horizontal burner due to flame direction be horizontal spray formula, phase need to be made through energy storage block or poly- fire pot or with refractory cement The passage of flame answered heats after flame is rebounded or guided, and leading to the heating chamber of a kitchen range, structure is complicated, and partially fiery phenomenon is serious；

7, for Horizontal burner due to the form using pressure atomization, the length of flame is longer, and combustion flame directly contacts heated Body, the heat erosion phenomenon that long-term heating will lead to equipment are serious；

Revolving-cup combustor mainly uses fuel-air premixed combustion or non-premix combustion mode at present, is primarily present and asks It inscribes as follows:

1, it using the oil burner of fuel-air premixed combustion in normal combustion, although combustion efficiency is fine, deposits It is during normal combustion first, it may appear that in combustion chamber the case where detonation, safety is obtained not in several fatal defects To guarantee, this is determined by the structure of premix oil burner；Secondly, during normal combustion, due to combustion chamber The variation in interior temperature field easily causes the bounce of combustion flame to change, eventually leads to flame-out；Combustion stability and reliability obtain not To guarantee；

2, a critical defect existing for the oil burner using the non-premix combustion of fuel-air is exactly combustion chamber meeting There is oil leakage phenomenon, cause the case where being tempered in the revolving cup of fuel-oil atmozation, the kindling of Yi Yinqi equipment causes fire；

3, it is driven due to fuel-oil atmozation revolving cup and draught fan impeller using same motor, fuel-oil atmozation revolving cup and draught fan impeller are same Step rotation, therefore it is unable to independent control in different firepower gears, fuel-oil atmozation and air quantity, especially when middle small fire is burnt, due to wind Amount demand is small, and motor speed reduces, and fuel-oil atmozation rotational speed of rotor is synchronous to be reduced, and leads to fuel atomization effect degradation, finally Influence combustion efficiency；

4, since the allocation proportion of a Secondary Air of oil burner is not accurate, combustion flame is yellow or yellow-white, combustion Heat inefficient, the exhaust emissions of burning is not up to standard；

5, the oil burner duration of ignition is longer, and during lighting a fire and is flame-out, it may appear that fuel-oil atmozation particle is firing Burn intracavitary elegant everywhere and over-emitting black exhaust phenomenon；

6, it can not achieve burner in combustion, since the variation in temperature field in combustion chamber carries out the control of Dynamic Burning System；

7, the quantity of heat given up of the most small fire of oil burner is bigger than normal, and the thermal power range of output is small, cannot fully meet not With the demand of equipment.

Especially in the highlands of High aititude, since atmospheric pressure is less than normal, oxygen concentration is relatively low, common horizontal burning Device and revolving-cup combustor cannot achieve the effect that stable sustained combustion, it is therefore proposed that a kind of full height above sea level intelligence rotary-cup type fuel oil Burner.

Summary of the invention

The purpose of this section is to summarize some aspects of the embodiment of the present invention and briefly introduce some preferable implementations Example.It may do a little simplified or be omitted to avoid our department is made in this section and the description of the application and the title of the invention Point, the purpose of abstract of description and denomination of invention it is fuzzy, and this simplification or omit and cannot be used for limiting the scope of the invention.

In view of above-mentioned existing oil burning apparatus there are the problem of, propose the present invention.

Therefore, it is an object of the present invention to provide a kind of full height above sea level intelligence rotary-cup type oil burner, is used to solve how to mention The service efficiency of high oil fuel and the suitable environment of device.

In order to solve the above technical problems, the invention provides the following technical scheme: a kind of full height above sea level intelligence rotary-cup type fuel oil combustion Burner, this burner include inlet air plenum, combustion chamber and intelligence control system, wherein inlet air plenum, including air inlet room housing, twin shaft electricity Machine and air inlet blade, the dual-axle motor are arranged in the middle part of the inner cavity of air inlet room housing, and the air inlet blade is connected to described double On the lower end output shaft of spindle motor；

The top of air inlet room housing is arranged in gallbladder, burner hearth liner and revolving cup outside combustion chamber, including burner hearth, the outer gallbladder of the burner hearth Portion, and it is provided with mixing wind runner between the two, the revolving cup tips upside down in the inner cavity of the burner hearth liner, in the burner hearth Atomization mixed zone is formed between gallbladder, and is provided with combustion zone in the inner cavity of the burner hearth liner and positioned at the outside of the revolving cup.

Wherein the upper end output shaft of the dual-axle motor extends in the burner hearth in gallbladder intracavity, and connects with the revolving cup It connects, the burner hearth liner is arranged in outside the burner hearth in the inner cavity of gallbladder, and top is connected with the inner cavity top of the outer gallbladder of the burner hearth It connects, is formed with compensation wind channel area between the two.

Intelligence control system, including selftest module, reservation setup module, normal ignition module and reservation ignition module, In, the selftest module issues self-test signal, makes prompt information to the failure in own module；The reservation setup module exists After receiving the normal self-test signal, display works normally option and reservation setting options, is selected by function setting, Generate setting signal or reservation setting signal；The normal ignition module receives the setting signal and carries out lighting up procedure；It is described It reserves ignition module and receives the reservation setting signal progress late ignition.

A kind of preferred embodiment as full height above sea level intelligence rotary-cup type oil burner of the present invention, in which: the air inlet Room housing includes upper housing, lower case and fastening bolt, and the upper housing is connected at lower casing mates by fastening bolt； Wherein, the centre of the top sidewall of the upper housing offers ventilation opening, offers connectivity port on surrounding side wall；Under described The centre of the bottom sidewall of shell offers air inlet, is provided with metal mesh on the inner wall of the air inlet.

A kind of preferred embodiment as full height above sea level intelligence rotary-cup type oil burner of the present invention, in which: the twin shaft Motor is double shaft each speed regulation composition motors.

A kind of preferred embodiment as full height above sea level intelligence rotary-cup type oil burner of the present invention, in which: the air inlet Blade is located at the intracavity bottom of the lower case, and its middle part matches with air inlet.

A kind of preferred embodiment as full height above sea level intelligence rotary-cup type oil burner of the present invention, in which: the twin shaft Spreader is also successively socketed on the upper end output shaft of motor from the bottom up, shunts tabletting, revolving cup tabletting and clamp nut, it is described Revolving cup is socketed on the upper end output shaft of the dual-axle motor, and between the shunting tabletting and the revolving cup tabletting, institute State the top that clamp nut is threaded in dual-axle motor upper end output shaft.

A kind of preferred embodiment as full height above sea level intelligence rotary-cup type oil burner of the present invention, in which: the air inlet Interior further includes spray bar, including atomizer and oil pipe, and the atomizer is connected with the oil pipe, and the atomizer runs through The intracavity bottom of the outer gallbladder of the burner hearth and the burner hearth liner extends in atomization mixed zone；Fire rod, the upper end ignition part are passed through The intracavity bottom for wearing the outer gallbladder of the burner hearth and the burner hearth liner extends in the inner cavity of the burner hearth liner；Ignition detector, Its top probe extends in the inner cavity of the burner hearth liner through the intracavity bottom of the outer gallbladder of the burner hearth and the burner hearth liner.

A kind of preferred embodiment as full height above sea level intelligence rotary-cup type oil burner of the present invention, in which: the connection Fuel oil input port and signal control port are respectively arranged in port.

A kind of preferred embodiment as full height above sea level intelligence rotary-cup type oil burner of the present invention, in which: the burner hearth The bottom of outer gallbladder includes mixing windshield plate and circulation baffle, offers active wind through-hole, bottom in the middle part of the mixing windshield plate Portion and the inner cavity of the inlet air plenum form active wind and distribute area, and compensation wind air intake vent is offered in the plate face of the circulation baffle； The top port of the outer gallbladder of the burner hearth is provided with infrared thermal conductive network.

A kind of preferred embodiment as full height above sea level intelligence rotary-cup type oil burner of the present invention, in which: the burner hearth It is all provided on the surrounding side wall of liner and offers compensation wind air outlet.

A kind of preferred embodiment as full height above sea level intelligence rotary-cup type oil burner of the present invention, in which: the revolving cup Bottom margin be evenly arranged with vane, and there are gap, shapes for the intracavity bottom of the bottom of the revolving cup and the burner hearth liner Area is cast at gaseous mixture.

Beneficial effects of the present invention: area of application of the present invention is wide, high to the service efficiency of oil fuel, the yield of open fire It is few, and in light blue, ignition temperature is high, and full combustion of fuel is few to atmosphere pollution, and burning pressure ignition is big, and kinetic energy is powerful.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, required use in being described below to embodiment Attached drawing be briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for this For the those of ordinary skill of field, without any creative labor, it can also be obtained according to these attached drawings other Attached drawing.Wherein:

Fig. 1 is the overall structure diagram of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Fig. 2 is the internal structure structural schematic diagram of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Fig. 3 is the broken section side structure schematic view of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Fig. 4 is the partial enlargement structural representation of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Fig. 5 is second broken section side structure schematic view of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Fig. 6 is the external structure schematic diagram of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Fig. 7 is the outer gallbladder bottom substance schematic diagram of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Fig. 8 is the revolving cup structural schematic diagram of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Fig. 9 is the lower case structural schematic diagram of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Figure 10 is the functional areas distribution schematic diagram of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Figure 11 is distinguished and admirable to schematic diagram inside the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Figure 12 is the intelligent control process figure of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Figure 13 is the selftest module control flow schematic diagram of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Figure 14 is the reservation setup module control flow schematic diagram of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Figure 15 is the reservation ignition module control flow schematic diagram of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Figure 16 is the normal ignition module control flow schematic diagram of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Figure 17 is the intelligent control overall flow schematic diagram of the full height above sea level intelligence rotary-cup type oil burner of the present invention.

Specific embodiment

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, right with reference to the accompanying drawings of the specification A specific embodiment of the invention is described in detail.

In the following description, numerous specific details are set forth in order to facilitate a full understanding of the present invention, but the present invention can be with Implemented using other than the one described here other way, those skilled in the art can be without prejudice to intension of the present invention In the case of do similar popularization, therefore the present invention is not limited by the specific embodiments disclosed below.

Secondly, " one embodiment " or " embodiment " referred to herein, which refers to, may be included at least one realization side of the invention A particular feature, structure, or characteristic in formula." in one embodiment " that different places occur in the present specification not refers both to The same embodiment, nor the individual or selective embodiment mutually exclusive with other embodiments.

Thirdly, combination schematic diagram of the present invention is described in detail, when describing the embodiments of the present invention, for purposes of illustration only, Indicate that the sectional view of device architecture can disobey general proportion and make partial enlargement, and the schematic diagram is example, herein not The scope of protection of the invention should be limited.In addition, the three-dimensional space of length, width and depth should be included in actual fabrication.

Embodiment 1

Referring to Fig.1 with 2, it is first embodiment of the invention, provides a kind of full height above sea level intelligence rotary-cup type oil burner, This burner includes inlet air plenum and combustion chamber, wherein inlet air plenum 100, including air inlet room housing 101, dual-axle motor 102 and air inlet Blade 103, dual-axle motor 102 are arranged in the middle part of the inner cavity of air inlet room housing 101, and air inlet blade 103 is connected to dual-axle motor 102 Lower end output shaft on.

Combustion chamber 200, including gallbladder 201, burner hearth liner 202 and revolving cup 203 outside burner hearth, the outer setting of gallbladder 201 of burner hearth are being entered the wind The top of room housing 101, and it is provided with mixing wind runner A between the two, revolving cup 203 tips upside down in the inner cavity of burner hearth liner 202, Atomization mixed zone C is formed between burner hearth liner 202, and is arranged in the inner cavity of burner hearth liner 202 and positioned at the external of revolving cup 203 There is combustion zone N.

Wherein the upper end output shaft of dual-axle motor 102 extends in 202 inner cavity of burner hearth liner, and connect with revolving cup 203, Burner hearth liner 202 is arranged in outside burner hearth in the inner cavity of gallbladder 201, and top is connected with the inner cavity top of the outer gallbladder 201 of burner hearth, the two Between be formed with compensation wind channel area M.

Wherein, it is a wind chamber in inlet air plenum 100, the bottom that air inlet blade 103 is mounted on dual-axle motor 102 is exported Extraneous air is pumped into inlet air plenum 100, to mention for fuel burning in combustion chamber 200 by end by the air inlet rotation of blade 103 For sufficient oxygen.

And in combustion chamber 200, by gallbladder 201, burner hearth liner 202 and revolving cup 203 outside installation burner hearth, revolving cup 203 is used for mist Change oil fuel, the cavity in burner hearth liner 202 as fuel combustion zone N, burner hearth outside gallbladder 201 as combustion zone N shell and With heat-blocking action.

In installation process, air inlet blade 103 is connected on the bottom output shaft of dual-axle motor 102, dual-axle motor 102 is pacified Mounted in air inlet room housing 101 inner cavity in, revolving cup 203 is connected on the top output shaft of dual-axle motor 102, and its Open Side Down It is connected in the inner cavity of burner hearth liner 202, burner hearth liner 202 is fixedly mounted in the inner cavity of the outer gallbladder 201 of burner hearth, the outer gallbladder of burner hearth 201 are fixedly mounted on the top of air inlet room housing 101.

Embodiment 2

It is second embodiment of the invention referring to Fig. 2,3 and 9, which is different from one embodiment: into Air compartment shell 101 includes upper housing 101a, lower case 101b and fastening bolt 101c, and upper housing 101a and lower case 101b match It is connected at conjunction by fastening bolt 101c；Wherein, the centre of the top sidewall of upper housing 101a offers ventilation opening 101a-1, Connectivity port 101a-2 is offered on its surrounding side wall；The centre of the bottom sidewall of lower case 101b offers air inlet 101b- 1, metal mesh 101b-2 is provided on the inner wall of air inlet 101b-1.

Compared to embodiment 1, further, the intracavity sidewall of upper housing 101a and lower case 101b are designed to ellipsoid curve Shape, as it is shown in the figures, purpose is that external wind enters in air inlet room housing 101 from air inlet 101b-1, it can be along shell Inner wall is formed along wall eddy flow, since the inner cavity of shell is designed to that ellipsoid curve-like, air can rise to reserved air duct along curved surface, To increase wind pressure, unified distinguished and admirable flow direction flows out wind from ventilation opening 101a-1, and oil gas is disorderly in promoting revolving cup 203 Disorderly while mixing, protect not by high temperature ablation inside burner hearth, and then extend the life cycle of burner；Metal mesh 101b-2 Setting for completely cut off the sundries in air from air inlet 101b-1 enter air inlet room housing 101 inner cavity in, thus to burning Device has an impact or damages.

It is connected by cable with intelligent control box at the 101a-2 of connectivity port, intelligent control box is the control of external hanging type signal There are intelligent controller in box, inside, electrically control dual-axle motor 102 and each electronic device respectively.

Remaining structure is identical as the structure of embodiment 1.

In installation process, air inlet blade 103 is connected on the bottom output shaft of dual-axle motor 102, dual-axle motor 102 is pacified In the middle part of the inner cavity of lower case 101b, and upper housing 101a is fastened on by the upper of lower case 101b by fastening bolt 101c End makes the two form complete air inlet room housing 101, and revolving cup 203 is connected on the top output shaft of dual-axle motor 102, and its Open Side Down is connected in the inner cavity of burner hearth liner 202, and burner hearth liner 202 is fixedly mounted in the inner cavity of the outer gallbladder 201 of burner hearth, furnace The outer gallbladder 201 of thorax is fixedly mounted on the top of air inlet room housing 101, and connectivity port 101a-2 passes through the intelligence of cable and combustor external It can control box connection.

Embodiment 3

It is third embodiment of the invention referring to Fig. 2 and 3, which is different from second embodiment: twin shaft Motor 102 is double shaft each speed regulation composition motors.

Compared to embodiment 2, further, this dual-axle motor 102 is disclosed in patent No. CN201910048201.1 A kind of double shaft each speed regulation composition motors are arranged two rotors, are driven respectively by corresponding stator in a motor It is dynamic, the independent regulation of two output shaft revolving speeds and power may be implemented, and can precisely guarantee the relative position of two output shafts； The dual-axle motor 102 used in this burner controls two output shafts of dual-axle motor 102 by intelligent control box A respectively, The two is set to match different revolving speeds, to realize that fuel-oil atmozation is optimal with air inflow, so that burner reaches optimal combustion Burn effect.

Remaining structure is identical as the structure of embodiment 2.

In installation process, air inlet blade 103 is connected on the bottom output shaft of dual-axle motor 102, dual-axle motor 102 is pacified In the middle part of the inner cavity of lower case 101b, and upper housing 101a is fastened on by the upper of lower case 101b by fastening bolt 101c End makes the two form complete air inlet room housing 101, and revolving cup 203 is connected on the top output shaft of dual-axle motor 102, and its Open Side Down is connected in the inner cavity of burner hearth liner 202, and burner hearth liner 202 is fixedly mounted in the inner cavity of the outer gallbladder 201 of burner hearth, furnace The outer gallbladder 201 of thorax is fixedly mounted on the top of air inlet room housing 101, and connectivity port 101a-2 passes through the intelligence of cable and combustor external It can control box connection.

Embodiment 4

It is the 4th embodiment of the invention referring to Fig. 2 and 3, which is different from third embodiment: air inlet Blade 103 is located at the intracavity bottom of lower case 101b, and its middle part matches with air inlet 101b-1.

Compared to embodiment 3, further, blade 103 is entered the wind by spreader 102a and is fixedly connected on dual-axle motor 102 Bottom output shaft on, enter the wind blade 103 horizontal cross-section it is annular in shape, middle part is blade, and inner ring forms air intake vent by blade, outside Ring is air outlet, and air blade 103 is provided with 12, and equidistant symmetrical, blade is designed according to spiral of Archimedes principle, Preceding sucking angle is conducive to cut distinguished and admirable, reduction windage, can promote the external world while increasing wind flow and suck less than 35 degree It is distinguished and admirable that whirlpool is formed between wind；After dish out angle between 80-90 degree, expansion is dished out range, distinguished and admirable resistance is reduced, when sucking wind After forming eddy flow, entire blade movement is pushed, the power consumption to dual-axle motor 102 is significantly reduced.

Remaining structure is identical as the structure of embodiment 3.

In installation process, air inlet blade 103 is connected on the bottom output shaft of dual-axle motor 102, and enter the wind blade 103 Inner ring and the intaking air at middle part mouth 101b-1 of lower case 101b match, dual-axle motor 102 is mounted on the inner cavity of lower case 101b Middle part, and upper housing 101a is fastened on to by fastening bolt 101c the upper end of lower case 101b, both make to be formed completely into Air compartment shell 101, revolving cup 203 are connected on the top output shaft of dual-axle motor 102, and its Open Side Down is connected to burner hearth liner In 202 inner cavity, burner hearth liner 202 is fixedly mounted in the inner cavity of the outer gallbladder 201 of burner hearth, the outer gallbladder 201 of burner hearth be fixedly mounted on into The top of air compartment shell 101, connectivity port 101a-2 are connected by the intelligent control box of cable and combustor external.

Embodiment 5

It is the 5th embodiment of the invention referring to Fig. 4, which is different from the 4th embodiment: twin shaft electricity Also successively be socketed with from the bottom up on the upper end output shaft of machine 102 spreader 102a, shunt tabletting 102b, revolving cup tabletting 102c and Clamp nut 102d, revolving cup 203 are socketed on the upper end output shaft of dual-axle motor 102, and are located at and are shunted tabletting 102b and revolving cup Between tabletting 102c, clamp nut 102d is threaded in the top of 102 upper end output shaft of dual-axle motor.

Compared to embodiment 4, further, spreader 102a uses freshwater mussel Curve Design, it is therefore intended that reduction is distinguished and admirable to be entered Mouthful and wind pressure when revolving cup 203 not will form vortex while when wind pressure enters in inlet air plenum 200, make it is distinguished and admirable can smoothly into Enter the outer gallbladder 201 of burner hearth, reduces the dependency degree to dual-axle motor 202, reduce the power consumption of motor；Shunt tabletting 102b and revolving cup tabletting 102c is respectively used to the position of limitation spreader 102a and revolving cup 203.

Remaining structure is identical as the structure of embodiment 4.

In installation process, air inlet blade 103 is connected on the bottom output shaft of dual-axle motor 102, and enter the wind blade 103 Inner ring and the intaking air at middle part mouth 101b-1 of lower case 101b match, dual-axle motor 102 is mounted on the inner cavity of lower case 101b Middle part, and upper housing 101a is fastened on to by fastening bolt 101c the upper end of lower case 101b, both make to be formed completely into Air compartment shell 101 is socketed with spreader 102a and revolving cup 203 on the top output shaft of dual-axle motor 102, spreader 102a, turns Cup 203 is limited by shunting tabletting 102b, revolving cup tabletting 102c respectively, and at the top of upper end output shaft by compressing spiral shell Female 102d fastening limit, Open Side Down is connected in the inner cavity of burner hearth liner 202 for revolving cup 203, and burner hearth liner 202 is fixedly mounted Outside burner hearth in the inner cavity of gallbladder 201, the outer gallbladder 201 of burner hearth is fixedly mounted on the top of air inlet room housing 101, connectivity port 101a-2 It is connected by the intelligent control box of cable and combustor external.

Embodiment 6

It is the 6th embodiment of the invention referring to Fig. 4~6, which is different from the 5th embodiment: air inlet It further include spray bar 104 in room 100, including atomizer 104a and oil pipe 104b, atomizer 104a are connected with oil pipe 104b, and Atomizer 104a is extended in atomization mixed zone C through the intracavity bottom of the outer gallbladder 201 of burner hearth and burner hearth liner 202；Fire rod 105, the upper end ignition part extends to the interior of burner hearth liner 202 through the intracavity bottom of the outer gallbladder 201 of burner hearth and burner hearth liner 202 In chamber；Ignition detector 106, top probe extend to burner hearth through the intracavity bottom of the outer gallbladder 201 of burner hearth and burner hearth liner 202 In the inner cavity of liner 202.

Compared to embodiment 5, further, in spray bar 104, oil pipe 104b respectively with atomizer 104a and oil pump phase Even, continue for oil fuel to be input to atomization mixed zone C；Fire rod 105 is then used in burner use process, by burner hearth liner The atomization mixed gas of combustion zone N is lighted in 202, and gas is made to burn；Ignition detector 106 then burns for real-time detection Igniting and combustion state in area N.

Remaining structure is identical as the structure of embodiment 5.

In installation process, air inlet blade 103 is connected on the bottom output shaft of dual-axle motor 102, and enter the wind blade 103 Inner ring and the intaking air at middle part mouth 101b-1 of lower case 101b match, dual-axle motor 102 is mounted on the inner cavity of lower case 101b Middle part, and upper housing 101a is fastened on to by fastening bolt 101c the upper end of lower case 101b, both make to be formed completely into Air compartment shell 101 is socketed with spreader 102a and revolving cup 203 on the top output shaft of dual-axle motor 102, spreader 102a, turns Cup 203 is limited by shunting tabletting 102b, revolving cup tabletting 102c respectively, and at the top of upper end output shaft by compressing spiral shell Female 102d fastening limit, Open Side Down is connected in the inner cavity of burner hearth liner 202 for revolving cup 203, and burner hearth liner 202 is fixedly mounted Outside burner hearth in the inner cavity of gallbladder 201, the outer gallbladder 201 of burner hearth is fixedly mounted on the top of air inlet room housing 101, connectivity port 101a-2 It is connected by the intelligent control box of cable and combustor external.

Spray bar 104 is installed, wherein oil pipe 104b runs through outside burner hearth from the inner cavity of air inlet room housing 101 in burner The bottom sidewall of gallbladder 201 and burner hearth liner 202 extends in the inner cavity of burner hearth liner 202, and is located in the inner cavity of revolving cup 203, Atomizer 104a is installed at the top of oil pipe 104b, and fire rod 105 is mounted in the inner cavity of burner hearth liner 202, and is located at revolving cup 203 Outside, ignition detector 106 is mounted in the inner cavity of burner hearth liner 202, is similarly positioned in the outside of revolving cup 203, and position is closed It is symmetrical in the place-centric of fire rod 105.

Embodiment 7

It is the 7th embodiment of the invention referring to Fig. 6, which is different from the 6th embodiment: connecting pin Fuel oil input port 101a-21 and signal control port 101a-22 are respectively arranged in mouth 101a-2.

Compared to embodiment 6, further, connectivity port 101a-2 is the external connection port of inlet air plenum 100, oil pipe 104b is connected with fuel oil input port 101a-21, the control line of dual-axle motor 102, fire rod 105 and ignition detector 106 Cable is connected with signal control port 101a-22.

Remaining structure is identical as the structure of embodiment 6.

In installation process, air inlet blade 103 is connected on the bottom output shaft of dual-axle motor 102, and enter the wind blade 103 Inner ring and the intaking air at middle part mouth 101b-1 of lower case 101b match, dual-axle motor 102 is mounted on the inner cavity of lower case 101b Middle part, and upper housing 101a is fastened on to by fastening bolt 101c the upper end of lower case 101b, both make to be formed completely into Air compartment shell 101 is socketed with spreader 102a and revolving cup 203 on the top output shaft of dual-axle motor 102, spreader 102a, turns Cup 203 is limited by shunting tabletting 102b, revolving cup tabletting 102c respectively, and at the top of upper end output shaft by compressing spiral shell Female 102d fastening limit, Open Side Down is connected in the inner cavity of burner hearth liner 202 for revolving cup 203, and burner hearth liner 202 is fixedly mounted Outside burner hearth in the inner cavity of gallbladder 201, the outer gallbladder 201 of burner hearth is fixedly mounted on the top of air inlet room housing 101, connectivity port 101a-2 It is connected by the intelligent control box of cable and combustor external.

Spray bar 104 is installed, wherein oil pipe 104b runs through outside burner hearth from the inner cavity of air inlet room housing 101 in burner The bottom sidewall of gallbladder 201 and burner hearth liner 202 extends in the inner cavity of burner hearth liner 202, and is located in the inner cavity of revolving cup 203, Atomizer 104a is installed at the top of oil pipe 104b, and fire rod 105 is mounted in the inner cavity of burner hearth liner 202, and is located at revolving cup 203 Outside, ignition detector 106 is mounted in the inner cavity of burner hearth liner 202, is similarly positioned in the outside of revolving cup 203, and position is closed It is symmetrical in the place-centric of fire rod 105.Wherein oil pipe 104b is connected with fuel oil input port 101a-21, with external oil pump Be connected, the controlling cable of dual-axle motor 102, fire rod 105 and ignition detector 106 with signal control port 101a-22 phase Connection.

Embodiment 8

It is the 8th embodiment of the invention referring to Fig. 7, which is different from the 7th embodiment: outside burner hearth The bottom of gallbladder 201 includes mixing windshield plate 201a and circulation baffle 201b, mixes and offers active wind in the middle part of windshield plate 201a The inner cavity of through-hole 201a-1, bottom and inlet air plenum 100 forms active wind and distributes area B, opens up in the plate face of circulation baffle 201b There is compensation wind air intake vent 201b-1；The top port of the outer gallbladder 201 of burner hearth is provided with infrared thermal conductive network 201c.

Compared to embodiment 7, further, mixing windshield plate 201a is in bowl-shape, bottom margin and the circulation that Open Side Down The inner ring of baffle 201b connects, and mixes and is socketed on the top output shaft of dual-axle motor 102 in the middle part of windshield plate 201a, and its Center edge portion two sides are symmetrically opened up by active wind through-hole 201a-1, and circulation baffle 201b is for pressurizeing and shunting, in inlet air plenum shell In the inner cavity of body 101, after active eddy flow is discharged by small-bore active wind through-hole 201a-1, pressure increase, until circulation baffle It when compensation wind air intake vent 201b-1 on 201b, is divided into two, while active wind pressure is provided, provides passive wind pressure, for combustion It burns and furnace body cooling serves both functions；Compensation wind air intake vent 201b- is equidistantly uniformly opened up in the plate face of circulation baffle 201b 1, for tightening and improving the combustion efficiency of combustion zone N；The infrared thermal conductive network of the top open part installation of gallbladder 201 outside burner hearth The effect of 201c is protection stove thorax liner 202 and high-speed rotating revolving cup 203, while the uniform conductive heat in burning, increases Add the burning time of atomized fuel, strengthen burning effect.

Remaining structure is identical as the structure of embodiment 7.

In installation process, air inlet blade 103 is connected on the bottom output shaft of dual-axle motor 102, and enter the wind blade 103 Inner ring and the intaking air at middle part mouth 101b-1 of lower case 101b match, dual-axle motor 102 is mounted on the inner cavity of lower case 101b Middle part, and upper housing 101a is fastened on to by fastening bolt 101c the upper end of lower case 101b, both make to be formed completely into Air compartment shell 101, mixing windshield plate 201a of the top output shaft of dual-axle motor 102 through outer 201 bottom of gallbladder of burner hearth are extended to In the inner cavity of the outer gallbladder 201 of burner hearth, spreader 102a and revolving cup 203, spreader 102a, revolving cup are socketed on the output shaft of the upper end 203 are limited by shunting tabletting 102b, revolving cup tabletting 102c respectively, and pass through clamp nut at the top of the output shaft of upper end 102d fastening limit, Open Side Down is connected in the inner cavity of burner hearth liner 202 for revolving cup 203, and burner hearth liner 202 is fixedly mounted on furnace In the inner cavity of the outer gallbladder 201 of thorax, the outer gallbladder 201 of burner hearth is fixedly mounted on the top of air inlet room housing 101, and connectivity port 101a-2 passes through The connection of the intelligent control box of cable and combustor external.

Spray bar 104 is installed, wherein oil pipe 104b runs through outside burner hearth from the inner cavity of air inlet room housing 101 in burner The bottom sidewall of gallbladder 201 and burner hearth liner 202 extends in the inner cavity of burner hearth liner 202, and is located in the inner cavity of revolving cup 203, Atomizer 104a is installed at the top of oil pipe 104b, and fire rod 105 is mounted in the inner cavity of burner hearth liner 202, and is located at revolving cup 203 Outside, ignition detector 106 is mounted in the inner cavity of burner hearth liner 202, is similarly positioned in the outside of revolving cup 203, and position is closed It is symmetrical in the place-centric of fire rod 105.Wherein oil pipe 104b is connected with fuel oil input port 101a-21, dual-axle motor 102, the controlling cable of fire rod 105 and ignition detector 106 is connected with signal control port 101a-22.

Embodiment 9

It referring to Fig.1~6, is the 9th embodiment of the invention, which is different from the 8th embodiment: burner hearth It is all provided on the surrounding side wall of liner 202 and offers compensation wind air outlet 202a.

Compared to embodiment 8, further, burner hearth liner 202 be in opening upwards peviform, the shape of center bottom with It is similar to mix windshield plate 201a, the surrounding side wall of burner hearth liner 202 uniformly opens up compensation wind air outlet 202a, compensates wind air outlet 202a is rounded, and annular array compensates the compensation that wind is opened up from circulation baffle 201b on the surrounding side wall of burner hearth liner 202 Wind air intake vent 201b-1 enters, and passes through in compensation wind channel area M, is pierced by compensated wind air outlet 202a into burner hearth liner In 202 inner cavity；Compensation wind enters in the N of combustion zone, not only improves oxygen content when burning, but also can form brattice, every Contact from flame and 202 side wall of burner hearth liner, and flame is promoted to form fiery rotation.

Remaining structure is identical as the structure of embodiment 8.

In installation process, air inlet blade 103 is connected on the bottom output shaft of dual-axle motor 102, and enter the wind blade 103 Inner ring and the intaking air at middle part mouth 101b-1 of lower case 101b match, dual-axle motor 102 is mounted on the inner cavity of lower case 101b Middle part, and upper housing 101a is fastened on to by fastening bolt 101c the upper end of lower case 101b, both make to be formed completely into Air compartment shell 101, mixing windshield plate 201a of the top output shaft of dual-axle motor 102 through outer 201 bottom of gallbladder of burner hearth are extended to In the inner cavity of the outer gallbladder 201 of burner hearth, spreader 102a and revolving cup 203, spreader 102a, revolving cup are socketed on the output shaft of the upper end 203 are limited by shunting tabletting 102b, revolving cup tabletting 102c respectively, and pass through clamp nut at the top of the output shaft of upper end 102d fastening limit, Open Side Down is connected in the inner cavity of burner hearth liner 202 for revolving cup 203, and burner hearth liner 202 is fixedly mounted on furnace In the inner cavity of the outer gallbladder 201 of thorax, and compensation wind air outlet 202a is opened up on the surrounding side wall of burner hearth liner 202, the outer gallbladder 201 of burner hearth It is fixedly mounted on the top of air inlet room housing 101, connectivity port 101a-2 passes through the intelligent control box of cable and combustor external Connection.

Spray bar 104 is installed, wherein oil pipe 104b runs through outside burner hearth from the inner cavity of air inlet room housing 101 in burner The bottom sidewall of gallbladder 201 and burner hearth liner 202 extends in the inner cavity of burner hearth liner 202, and is located in the inner cavity of revolving cup 203, Atomizer 104a is installed at the top of oil pipe 104b, and fire rod 105 is mounted in the inner cavity of burner hearth liner 202, and is located at revolving cup 203 Outside, ignition detector 106 is mounted in the inner cavity of burner hearth liner 202, is similarly positioned in the outside of revolving cup 203, and position is closed It is symmetrical in the place-centric of fire rod 105.Wherein oil pipe 104b is connected with fuel oil input port 101a-21, dual-axle motor 102, the controlling cable of fire rod 105 and ignition detector 106 is connected with signal control port 101a-22.

Embodiment 10

It is the tenth embodiment of the invention referring to Fig. 9, which is different from the 9th embodiment: revolving cup 203 Bottom margin be evenly arranged with vane 203a, and the intracavity bottom of the bottom of revolving cup 203 and burner hearth liner 202 is there are gap, It forms gaseous mixture and casts area D.

Compared to embodiment 9, further, revolving cup 203 is desk-top 316 stainless steel type of 20 degree of angle open circles, 203 bottom of revolving cup Portion has for assisting 30 groups the cast vanes with upper aforesaid downward angle, when the disorder in revolving cup 203 of the gaseous mixture of air and fuel After mixing, umbrella screw is done under the action of high speed rotation, after touching downward shift angle, gaseous mixture is cast from gaseous mixture Area dishes out to form projectile face, is incendivity after heat source after contact.

Revolving cup 203 is driven by the upper end output shaft of dual-axle motor 102, cooperates the air inlet blade of 102 lower end of dual-axle motor 103 so that revolving cup 203 be atomized fuel oil there is always full combustion needed for oxygen, lighted through fire rod 105, the combustion of atomization Light blue flame is presented in oil.

Remaining structure is identical as the structure of embodiment 9.

In installation process, air inlet blade 103 is connected on the bottom output shaft of dual-axle motor 102, and enter the wind blade 103 Inner ring and the intaking air at middle part mouth 101b-1 of lower case 101b match, dual-axle motor 102 is mounted on the inner cavity of lower case 101b Middle part, and upper housing 101a is fastened on to by fastening bolt 101c the upper end of lower case 101b, both make to be formed completely into Air compartment shell 101, mixing windshield plate 201a of the top output shaft of dual-axle motor 102 through outer 201 bottom of gallbladder of burner hearth are extended to In the inner cavity of the outer gallbladder 201 of burner hearth, spreader 102a and revolving cup 203, spreader 102a, revolving cup are socketed on the output shaft of the upper end 203 are limited by shunting tabletting 102b, revolving cup tabletting 102c respectively, and pass through clamp nut at the top of the output shaft of upper end 102d fastening limit, Open Side Down is connected in the inner cavity of burner hearth liner 202 for revolving cup 203, and the bottom margin of revolving cup 203 is uniform Vane 203a is set, and burner hearth liner 202 is fixedly mounted in the inner cavity of the outer gallbladder 201 of burner hearth, and in four sides of burner hearth liner 202 Compensation wind air outlet 202a is opened up on wall, the outer gallbladder 201 of burner hearth is fixedly mounted on the top of air inlet room housing 101, connectivity port 101a-2 is connected by the intelligent control box of cable and combustor external.

Spray bar 104 is installed, wherein oil pipe 104b runs through outside burner hearth from the inner cavity of air inlet room housing 101 in burner The bottom sidewall of gallbladder 201 and burner hearth liner 202 extends in the inner cavity of burner hearth liner 202, and is located in the inner cavity of revolving cup 203, Atomizer 104a is installed at the top of oil pipe 104b, and fire rod 105 is mounted in the inner cavity of burner hearth liner 202, and is located at revolving cup 203 Outside, ignition detector 106 is mounted in the inner cavity of burner hearth liner 202, is similarly positioned in the outside of revolving cup 203, and position is closed It is symmetrical in the place-centric of fire rod 105.Wherein oil pipe 104b is connected with fuel oil input port 101a-21, dual-axle motor 102, the controlling cable of fire rod 105 and ignition detector 106 is connected with signal control port 101a-22.

In use process, outside air is inhaled into the inner cavity of air inlet room housing 101 under the rotation of air inlet blade 103 In, air-flow rises to form eddy flow mixing wind from the surrounding blowout of air inlet blade 103 along the curved surface sidewall for entering the wind room housing 101, and It is collected in the active wind distribution area B of the mixing bottom windshield plate 201a by the mixing wind runner A of air outlet 101a-1 surrounding, due to Circulation baffle 201b and the presence for compensating wind air intake vent 201b-1, mixing wind are divided into active wind and compensation wind, and active wind mixes certainly The active wind air intake vent 201a-1 opened up in windshield plate 201a enters in atomization mixed zone C, 203 high-speed rotation of revolving cup, by fuel oil It is atomized and is mixed with active wind, cast in area D surrounding and dished out to the N of combustion zone from gaseous mixture, under the action of fire rod 105, Atomization gaseous mixture is ignited, and forms flame combustion.Wind is compensated from the compensation wind air intake vent 201b-1 in circulation baffle 201b plate face It penetrates to compensation wind channel area M, the compensation wind air outlet 202a being then passed through on 202 surrounding side wall of burner hearth liner enters combustion zone N It is interior.

Embodiment 11

Referring to Fig.1 2~17, be the tenth one embodiment of the invention, which is different from preceding ten embodiments: Intelligence control system A, including selftest module A1, reservation setup module A2, normal ignition modules A 3 and reservation ignition module A4, In, the selftest module A1 issues self-test signal, makes prompt information to the failure in own module；The reservation setup module For A2 after receiving the normal self-test signal, display works normally option and reservation setting options, is arranged by function and is carried out Selection generates setting signal or reservation setting signal；The normal ignition modules A 3 receives the setting signal and carries out igniting step Suddenly；The reservation ignition module A4 receives the reservation setting signal and carries out late ignition.

Compared to preceding ten embodiments, further, when intelligence control system A is opened, system can first pass through self-test mould Block A1 checks that faults itself type, the failure of inspection has oil-break, oil pump, motor, power-off, program, PCB, igniting respectively Stick 105 and Ignition Detector 106；It detects to export prompt information to fault type when corresponding failure；Fault-free is judged in self-test When, judge into reservation.

The option of reservation judgement, which is divided into, works normally option and reservation setting options, respectively corresponds the normal point in main program Fiery modules A 3 and reservation ignition module A4.

In normal ignition modules A 3, setup phase igniting option is lighted a fire successfully with the unsuccessful situation of reply igniting When, the time and fuel consumption to be worked to burner in module counts, and when lighting a fire unsuccessful, export fault alarm.

Ignition module A4 points are reserved as reservation setting and reservation ignition phase, reservation setting is divided into three phases, with correspondence Different reservation setting informations, generates reservation data, and reservation data enters reservation ignition phase after processing, wherein system is complete At entering interim burning after countdown, when each stage burning, carries out the operation of detection program and time fuel consumption statistics.

It should be noted that the above examples are only used to illustrate the technical scheme of the present invention and are not limiting, although referring to preferable Embodiment describes the invention in detail, those skilled in the art should understand that, it can be to technology of the invention Scheme is modified or replaced equivalently, and without departing from the spirit and scope of the technical solution of the present invention, should all be covered in this hair In bright scope of the claims.

Claims (11)

1. a kind of intelligence rotary-cup type oil burner control system, it is characterised in that: including,

Intelligence control system (A), including selftest module (A1), reservation setup module (A2), normal ignition module (A3) and reservation Ignition module (A4), wherein

The selftest module (A1) issues self-test signal, makes feedback information to the failure in own module；

For the reservation setup module (A2) after receiving the normal feedback signal, display works normally option and reservation setting Option is selected by function setting, generates setting signal or reservation setting signal；

The normal ignition module (A3) receives the setting signal and carries out lighting up procedure；

The reservation ignition module (A4) receives the reservation setting signal and carries out predetermined delay igniting.

2. a kind of full height above sea level intelligence rotary-cup type oil burner, it is characterised in that: including,

Inlet air plenum (100), including air inlet room housing (101), dual-axle motor (102) and air inlet blade (103), the dual-axle motor (102) it is arranged in the middle part of the inner cavity of air inlet room housing (101), the air inlet blade (103) is connected to the dual-axle motor (102) Lower end output shaft on；

Combustion chamber (200), including gallbladder (201), burner hearth liner (202) and revolving cup (203) outside burner hearth, the outer gallbladder (201) of the burner hearth It is arranged at the top of air inlet room housing (101), and is provided with mixing wind runner (A) between the two, the revolving cup (203) tips upside down on In the inner cavity of the burner hearth liner (202), is formed between the burner hearth liner (202) and be atomized mixed zone (C), and the burner hearth It is provided with combustion zone (N) in the inner cavity of liner (202) and positioned at the outside of the revolving cup (203),

Wherein, the upper end output shaft of the dual-axle motor (102) extends in burner hearth liner (202) inner cavity, and with it is described Revolving cup (203) connection, the burner hearth liner (202) are arranged outside the burner hearth in the inner cavity of gallbladder (201), top and the furnace The inner cavity top of the outer gallbladder (201) of thorax is connected, and is formed with compensation wind channel area (M) between the two.

3. full height above sea level intelligence rotary-cup type oil burner as described in claim 1, it is characterised in that: the air inlet room housing It (101) include upper housing (101a), lower case (101b) and fastening bolt (101c), the upper housing (101a) and lower case The place of matching (101b) is connected by fastening bolt (101c)；

Wherein, the centre of the top sidewall of the upper housing (101a) offers ventilation opening (101a-1), opens on surrounding side wall Equipped with connectivity port (101a-2)；

The centre of the bottom sidewall of the lower case (101b) offers air inlet (101b-1), the air inlet (101b-1) Metal mesh (101b-2) is provided on inner wall.

4. full height above sea level intelligence rotary-cup type oil burner as claimed in claim 2, it is characterised in that: the dual-axle motor It (102) is double shaft each speed regulation composition motors.

5. full height above sea level intelligence rotary-cup type oil burner as claimed in claim 3, it is characterised in that: the air inlet blade (103) it is located at the intracavity bottom of the lower case (101b), and its middle part matches with air inlet (101b-1).

6. full height above sea level intelligence rotary-cup type oil burner as claimed in claim 4, it is characterised in that: the dual-axle motor (102) spreader (102a) is also successively socketed on upper end output shaft from the bottom up, shunts tabletting (102b), revolving cup tabletting (102c) and clamp nut (102d), the revolving cup (203) are socketed on the upper end output shaft of the dual-axle motor (102), and Between the shunting tabletting (102b) and the revolving cup tabletting (102c), the clamp nut (102d) is threaded in institute State the top of dual-axle motor (102) upper end output shaft.

7. full height above sea level intelligence rotary-cup type oil burner as claimed in claim 5, it is characterised in that: the inlet air plenum (100) Inside further include

Spray bar (104), including atomizer (104a) and oil pipe (104b), the atomizer (104a) and the oil pipe (104b) It is connected, and the atomizer (104a) prolongs through the intracavity bottom of the outer gallbladder (201) of the burner hearth and the burner hearth liner (202) It extends in atomization mixed zone (C)；

Fire rod (105), the upper end ignition part is through the interior bottom of chamber of the burner hearth outer gallbladder (201) and the burner hearth liner (202) Portion extends in the inner cavity of the burner hearth liner (202)；

Ignition detector (106), top probe is through the inner cavity of the burner hearth outer gallbladder (201) and the burner hearth liner (202) Bottom extends in the inner cavity of the burner hearth liner (202).

8. full height above sea level intelligence rotary-cup type oil burner as claimed in claim 6, it is characterised in that: the connectivity port Fuel oil input port (101a-21) and signal control port (101a-22) are respectively arranged in (101a-2).

9. full height above sea level intelligence rotary-cup type oil burner as claimed in claim 7, it is characterised in that: the outer gallbladder of the burner hearth (201) bottom includes mixing windshield plate (201a) and circulation baffle (201b),

Active wind through-hole (201a-1), bottom and the inlet air plenum are offered in the middle part of the mixing windshield plate (201a) (100) inner cavity forms active wind distribution area (B),

Compensation wind air intake vent (201b-1) is offered in the plate face of the circulation baffle (201b)；

The top port of the outer gallbladder (201) of the burner hearth is provided with infrared thermal conductive network (201c).

10. full height above sea level intelligence rotary-cup type oil burner as claimed in claim 8, it is characterised in that: the burner hearth liner (202) it is all provided on surrounding side wall and offers compensation wind air outlet (202a).

11. full height above sea level intelligence rotary-cup type oil burner as claimed in claim 9, it is characterised in that: the revolving cup (203) Bottom margin is evenly arranged with vane (203a), and the interior bottom of chamber of the bottom of the revolving cup (203) and the burner hearth liner (202) There are gaps in portion, form gaseous mixture and cast area (D).