CN206176374U - Ignition burner that integration point fire and ion fire were examined - Google Patents

Abstract

The utility model provides an ignition burner that integration point fire and ion fire were examined, include: the compressed air cavity body, its one end is equipped with first aperture and second aperture to and be located the compressed air interface of this distolateral face, through fixing the internal gas connecting pipe at compressed air cavity in first aperture, including the connecting pipe body, connect, just be located the external fuel gas port of compressed air cavity rather than one end to and connect, just be located the internal nozzle of compressed air cavity rather than the other end, through the second aperture fixing the internal ignition at compressed air cavity, including electrode tube, ignition and detection electrode, and the spark plug, and fix the flow controller on gas connecting pipe and ignition through first fixed orifices and second fixed orifices respectively, be provided with a plurality of orifices on the flow controller. Through the utility model provides an ignition burner that integration point fire and ion fire were examined, it is complicated to have solved current ignition burner structure, and unstable problem is examined to the use medium baking temperature.

Description

The igniter burner that integrated igniting is examined with ion fire

Technical field

The utility model is related to heat storage type combustion field, and more particularly to a kind of integrated igniting is burnt with the point of ion fire inspection Mouth.

Background technology

With developing rapidly for HTAC, regenerative combustion technology seems more in the effect of combustion field Important, igniter burner arises at the historic moment therewith, is widely used in heat storage type combustion field.

Although however, traditional igniter burner detects ionic flame being integrated together with burning torch, letter to a certain extent The structure of igniter burner is changed, but preferable flame forms has but been required when fire defector is carried out, to various mass of medium And empty gas proportion and flow velocity have higher requirements, and cannot otherwise detect flare up fire, i.e., can not carry out the burning of timely stabilization Mouth is lighted a fire and fire defector, and the combustion case to burner makees the judgement for making mistake, and influences the safe operation of equipment.

In consideration of it, being necessary that provide a kind of new integrated igniting is used to solve this problem with the igniter burner of ion fire inspection.

Utility model content

The shortcoming of prior art in view of the above, the purpose of this utility model is to provide a kind of integrated igniting and ion The igniter burner of fire inspection, for solving the problems, such as that conventional point burns mouth structure complexity and fire defector is unstable.

In order to achieve the above objects and other related objects, the utility model provides the point of a kind of integrated igniting and ion fire inspection Mouth is burnt, the igniter burner includes：

Compressed air cavity, one end of the compressed air cavity is provided with the first aperture and the second aperture, and positioned at institute State the compressed air interface of the end side surface；

Combustion gas connecting pipe in the compressed air cell body is fixed on by the first aperture, the combustion gas connecting pipe includes leading Pressure pipe body, is connected and positioned at the external combustion gas of the compressed air cell by the first aperture with described connecting pipe body one end Interface, and be connected with the connecting pipe body other end and the nozzle in the compressed air cell body；

Igniter in the compressed air cell body is fixed on by the second aperture, the igniter includes electrode Pipe, be connected with the electrode tube by the second aperture and positioned at the external spark plug of the compressed air cell, and with the electricity The pole pipe other end is connected and the igniting in the compressed air cell body and detecting electrode；

And be fixed on the combustion gas connecting pipe and igniter by the first fixing hole and the second fixing hole respectively Flow controller, is provided with some throttle orifices on the flow controller.

Preferably, the flow controller and the distance of the nozzle are 50~80mm.

Preferably, the area of some throttle orifices accounts for the 1/4~1/3 of whole flow controller area.

Preferably, the quantity of some throttle orifices is 4~6.

Preferably, the flow controller and throttle orifice are circle.

Preferably, a diameter of 3~5mm of the throttle orifice.

Preferably, the igniter also includes the high temperature insulator on the electrode tube.

Preferably, the nozzle is radial porous nozzle arrangements.

Preferably, the nozzle is heat-resisting steel part or ceramic member.

Preferably, it is additionally provided with adpting flange on the igniter burner.

As described above, integrated igniting of the present utility model and the igniter burner of ion fire inspection, have the advantages that：This Igniter burner simple structure described in utility model, and changed by the flow controller to igniter burner described in the utility model Enter, substantially increase the fire defector stability of igniter burner described in the utility model so that the flame inspection of the igniter burner Survey stability and be up to 99.9%.

Brief description of the drawings

Fig. 1 is shown as the structural representation of igniter burner described in the utility model.

Fig. 2 is shown as the structural representation of igniter burner compressed air cavity described in the utility model.

Fig. 3 is shown as the structural representation of igniter burner combustion gas wireway described in the utility model.

Fig. 4 is shown as the structural representation of igniter burner igniter described in the utility model.

Fig. 5 is shown as the structural representation of igniter burner flow controller described in the utility model.

Component label instructions

1 compressed air cavity

11 first apertures

12 second apertures

13 compressed air interfaces

2 combustion gas connecting pipes

21 connecting pipe bodys

22 combustion gas interfaces

23 nozzles

3 igniters

31 electrode tubes

32 spark plugs

33 igniting and detecting electrode

34 high temperature insulators

4 flow controllers

41 first fixing holes

42 second fixing holes

43 throttle orifices

Specific embodiment

Implementation method of the present utility model is illustrated by particular specific embodiment below, those skilled in the art can be by this Content disclosed by specification understands other advantages of the present utility model and effect easily.

Refer to Fig. 1 to Fig. 5.It should be clear that structure, ratio, size depicted in this specification institute accompanying drawings etc., is only used to Coordinate the content disclosed in specification, so that those skilled in the art understands and reads, be not limited to the utility model Enforceable qualifications, therefore do not have technical essential meaning, the modification of any structure, the change of proportionate relationship or size Adjustment, in the effect for not influenceing the utility model can be generated and under the purpose to be reached, all should still fall in the utility model In the range of disclosed technology contents are obtained and can covered.Meanwhile, in this specification it is cited as " on ", D score, " left side ", The term on " right side ", " centre " and " one " etc., is merely convenient to understanding for narration, and it is enforceable to be not used to restriction the utility model Scope, being altered or modified for its relativeness is enforceable when the utility model is also considered as under without essence change technology contents Category.

As shown in Figures 1 to 5, the utility model provides the igniter burner of a kind of integrated igniting and ion fire inspection, the point Burning mouth includes：

Compressed air cavity 1, one end of the compressed air cavity 1 is provided with the first aperture 11 and the second aperture 12, and Positioned at the compressed air interface 13 of the end side surface；

Combustion gas connecting pipe 2 in the compressed air cavity 1, the combustion gas connecting pipe 2 are fixed on by the first aperture 11 Including connecting pipe body 21, it is connected and positioned at the compressed air with described one end of connecting pipe body 21 by the first aperture 11 Combustion gas interface 22 outside cavity 1, and be connected and positioned at the compressed air cavity 1 with the other end of connecting pipe body 21 Interior nozzle 23；

Igniter 3 in the compressed air cavity 1 is fixed on by the second aperture 12, the igniter 3 includes Electrode tube 31, is connected and the spark plug outside the compressed air cavity 1 by the second aperture 12 with the electrode tube 31 32, and be connected and the igniting in the compressed air cavity 1 and detecting electrode 33 with the other end of the electrode tube 31；

And the combustion gas connecting pipe 2 and igniter be fixed on by the first fixing hole 41 and the second fixing hole 42 respectively Flow controller 4 on 3, is provided with some throttle orifices 43 on the flow controller 4.

Wherein, it is additionally provided with adpting flange on the igniter burner.

It should be noted that the adpting flange is fixed on the compressed air cavity 1, and by the adpting flange Realize the fixation of the igniter burner.

Specifically, the compressed air interface 13 arrives the spray to the distance of the nozzle 23 less than the combustion gas interface 22 The distance of mouth 23, and igniter 3 inside the compressed air cavity 1 length less than being located at the compressed air The length of the inside of the cavity 1 combustion gas connecting pipe 2.

Specifically, the nozzle 23 is radial porous nozzle arrangements, in case non-return is fiery.

Specifically, the nozzle 23 is heat-resisting steel part or ceramic member.Preferably, in the present embodiment, the nozzle 23 is Ceramic member；Certainly, in other embodiments, the nozzle 23 can also be heat-resisting steel part.

It should be noted that being set to heat-resisting steel part or ceramic member by by nozzle 23, it is ensured that nozzle 23 can be resisted The erosion of high temperature, the service life of prolonging nozzle 23.

Specifically, the igniter 3 also includes the high temperature insulator 34 on the electrode tube, to realize to electrode The high temperature protection of pipe 31.

Specifically, the distance of the flow controller 4 and the nozzle 23 is 50~80mm, and some throttle orifices 43 Area accounts for the 1/4~1/3 of the area of whole flow controller 4.

Preferably, in the present embodiment, the flow controller 4 and the distance of the nozzle 23 are 65mm；Certainly, in other realities Apply in example, the flow controller 4 can also be 50mm, 60mm, 70mm or 80mm etc. with the distance of the nozzle 23.

Preferably, in the present embodiment, the area of some throttle orifices 43 accounts for the 7/24 of the area of whole flow controller 4；When So, in other embodiments, the area that the area of some throttle orifices 43 accounts for whole flow controller 4 can also be 1/4 or 1/3.

It should be noted that 50~80mm is set to the distance of the nozzle by by the flow controller, and if described The area of dry throttle orifice accounts for the 1/4~1/3 of whole flow controller area；Cause air with combustion gas while air velocity is reduced Ratio both can guarantee that air burnt completely with combustion gas closer to complete combusted proportion, will not cross senior general's combustion gas because of air velocity again Combustion zone is taken away, leads to not carry out fire defector, and also improve the adaptability to various media.

Specifically, the quantity of some throttle orifices 43 is 4~6.Preferably, in the present embodiment, the throttle orifice 43 quantity is 5；Certainly, in other embodiments, the quantity of the throttle orifice 43 can also be 4 or 6.

Preferably, in the present embodiment, the flow controller 4 and throttle orifice 43 are circle；Certainly, in other embodiments In, the throttle orifice 43 can also be other shapes.

Specifically, a diameter of 3~5mm of the throttle orifice 43.Preferably, in the present embodiment, the throttle orifice 43 A diameter of 4mm；Certainly, in other embodiments, the diameter of the throttle orifice 43 can also be 3mm, 3.5mm, 4.5mm or 5mm Deng.

In sum, integrated igniting of the present utility model and the igniter burner of ion fire inspection, have the advantages that：This Igniter burner simple structure described in utility model, and changed by the flow controller to igniter burner described in the utility model Enter, substantially increase the fire defector stability of igniter burner described in the utility model so that the flame inspection of the igniter burner Survey stability and be up to 99.9%.

So, the utility model effectively overcomes various shortcoming of the prior art and has high industrial utilization.

Above-described embodiment only illustrative principle of the present utility model and its effect are new not for this practicality is limited Type.Any person skilled in the art can all be carried out under without prejudice to spirit and scope of the present utility model to above-described embodiment Modifications and changes.Therefore, such as those of ordinary skill in the art without departing from the essence disclosed in the utility model All equivalent modifications completed under god and technological thought or change, should be covered by claim of the present utility model.

Claims (10)

1. the igniter burner that a kind of integrated igniting is examined with ion fire, it is characterised in that the igniter burner includes：

Compressed air cavity, one end of the compressed air cavity is provided with the first aperture and the second aperture, and is somebody's turn to do positioned at described The compressed air interface of end side surface；

Combustion gas connecting pipe in the compressed air cell body is fixed on by the first aperture, the combustion gas connecting pipe includes connecting pipe Body, is connected and positioned at the external combustion gas interface of the compressed air cell by the first aperture with described connecting pipe body one end, And be connected with the connecting pipe body other end and the nozzle in the compressed air cell body；

Igniter in the compressed air cell body is fixed on by the second aperture, the igniter includes electrode tube, leads to The second aperture is crossed to be connected with the electrode tube and positioned at the external spark plug of the compressed air cell, and with the electrode tube The other end is connected and the igniting in the compressed air cell body and detecting electrode；

And the throttling on the combustion gas connecting pipe and igniter is fixed on by the first fixing hole and the second fixing hole respectively Device, is provided with some throttle orifices on the flow controller.

2. the igniter burner of integrated igniting according to claim 1 and ion fire inspection, it is characterised in that the flow controller with The distance of the nozzle is 50~80mm.

3. the igniter burner that integrated igniting according to claim 1 is examined with ion fire, it is characterised in that some throttlings The area in hole accounts for the 1/4~1/3 of whole flow controller area.

4. the igniter burner that integrated igniting according to claim 1 is examined with ion fire, it is characterised in that some throttlings The quantity in hole is 4~6.

5. the igniter burner of integrated igniting according to claim 1 and ion fire inspection, it is characterised in that the flow controller with And throttle orifice is circle.

6. the igniter burner that integrated igniting according to claim 5 is examined with ion fire, it is characterised in that the throttle orifice A diameter of 3~5mm.

7. the igniter burner that integrated igniting according to claim 1 is examined with ion fire, it is characterised in that the igniter Also include the high temperature insulator on the electrode tube.

8. the igniter burner that integrated igniting according to claim 1 is examined with ion fire, it is characterised in that the nozzle is footpath To jet rose structure.

9. the igniter burner that integrated igniting according to claim 1 is examined with ion fire, it is characterised in that the nozzle is resistance to Hot steel part or ceramic member.

10. the igniter burner that integrated igniting according to claim 1 is examined with ion fire, it is characterised in that the point is burnt Adpting flange is additionally provided with mouth.