CN202757125U - Flocculating-flow burning disk of gas burner - Google Patents

Abstract

The utility model relates to a flocculating-flow burning disk of a gas burner, in particular to third-stage dual-way diffusive burning used for a group-jet afterburning gas burner and belongs to the technical field of gas burners. The flocculating-flow burning disk comprises a multi-ring diffusion disk and a guide disk. Diffusion disk main-burning gentle-heat burning holes are arranged at the center of the multi-ring diffusion disk, diffusion disk afterburning gentle-heat burning holes are arranged on the outer rings outside the diffusion disk main-burning gentle-heat burning holes, diffusion disk main-burning medium-heat inner-ring burning holes are arranged on the outer rings outside high-density gentle-heat burning holes, and diffusion disk afterburning medium-heat post holes are arranged on the outer rings outside the diffusion disk main-burning medium-heat inner-ring burning holes. A guide disk main-burning small flame channel is arranged at the center of the guide disk, guide disk afterburning gentle-heat channels are arranged on the outer rings outside the guide disk main-burning gentle-heat channel, guide disk main-burning medium-heat channels are arranged on the outer rings outside the guide disk afterburning gentle-heat channels, and guide disk inner-ring afterburning fire pillars are arrange among the guide disk main-burning medium-heat channels. The flocculating-flow burning disk of gas burner is simple and compact in structure and reasonable; temperature of burning flame is high and burning is stable; and thermal efficiency of burning is high, and waste gas is little.

Description

The wadding stream tray for combustion of gas apparatus

Technical field

The utility model relates to a kind of wadding stream tray for combustion of gas apparatus, specifically is used for the third gear two-way diffusion combustion of volley fire stream compensation combustion type gas apparatus, belongs to the gas apparatus technical field.

Background technology

Gas apparatus is by oxygen and combustion gas mixing burning, and gas apparatus in the market is generally the blowing type gas device, advances oxygen by the driven by power air blast, makes the burning of oxygen and combustion gas mixing.During burning, need the burning of oxygen and combustion gas synchronized mixes, could produce good combustion efficiency.When air blast work occurring when slower, advance oxygen less, and oxygen content is less after the combustion gas mixing, then ignition temperature is lower, and the thermal efficiency is not high; When air blast work occurring when very fast, oxygen feeding amount is large, and oxygen content is many after the combustion gas mixing, but the strong wind speed belt that the heat energy of burning can be produced walks, and causes fuel consumption large, the consequence that the thermal efficiency is low.When occurring having a power failure, the air blast cisco unity malfunction, this moment, gas apparatus can not normally use.The undesired thermal efficiency of burning that also can cause of the supply gas pressure of combustion gas is low.Combustion gas generally is stored in the steel cylinder, and the steel cylinder internal pressure is lower when steel cylinder is full of combustion gas.After using after a while, the steel cylinder internal pressure raises; After half combustion gas, the pressure in the steel cylinder reduces again gradually in making the steel cylinder of using up.Variation in the steel cylinder before and after the gaseous-pressure causes the unstable of combustion pressure, and different with oxygen mix finally cause the thermal efficiency of burning low.Simultaneously, the variation of weather temperature also can cause the interior gaseous-pressure of steel cylinder to change.When the weather temperature was high, increased pressure in the bottle, the gas output of combustion gas were just large; When the weather temperature was hanged down, pressure reduced in the bottle, and the gas output of combustion gas is just little.Owing to some above-mentioned reasons cause the asynchronous of combustion gas and oxygen mix burning, so that the combustion thermal efficiency of blowing type gas device is low.

The tray for combustion of gas apparatus commonly used generally all only has many grades of single channel to go out gas firing, and the single channel burned flame of giving vent to anger is stable not, and temperature is not high enough, and the thermal efficiency of burning is lower.

Summary of the invention

The purpose of this utility model is to overcome above-mentioned weak point, thereby a kind of wadding stream tray for combustion of gas apparatus is provided, and can be used in the third gear two-way combustion gas diffusion combustion of volley fire stream compensation combustion type gas apparatus, the burned flame temperature is higher, flameholding, the thermal efficiency of burning is high, and waste gas is few.

The technical scheme that provides according to the utility model, the wadding stream tray for combustion of gas apparatus comprises many ring diffusion discs and flow guiding disc, many ring diffusion discs are installed on the flow guiding disc, it is characterized in that: encircle the diffusion disc center more and be provided with the diffusion disc master and fire little fiery burner port, the diffusion disc master is fired the little fiery burner port of diffusion disc afterburning that little fiery burner port outer ring is provided with a plurality of circles, and the little fiery burner port of a plurality of diffusion disc afterburnings evenly distributes centered by many rings diffusion disc center of circle.Described highly dense little fiery burner port outer ring is provided with a plurality of fan-shaped diffusion disc masters and fires ring burner port in the moderate heat, and a plurality of diffusion disc masters are fired ring burner port evenly distribution centered by many rings diffusion disc center of circle in the moderate heat.Described diffusion disc master is fired the interior ring of moderate heat burner port outer ring column of flame hole in a plurality of oblong diffusion disc afterburnings is set, and column of flame hole evenly distributes centered by many rings diffusion disc center of circle in a plurality of diffusion disc afterburnings.Outer ring, column of flame hole arranges a plurality of fan-shaped diffusion disc masters and fires moderate heat outer shroud burner port in the described diffusion disc afterburning, and a plurality of diffusion disc masters are fired moderate heat outer shroud burner port and evenly distributed centered by many rings diffusion disc center of circle.Described diffusion disc master is fired the diffusion disc afterburning moderate heat burner port that moderate heat outer shroud burner port outer ring arranges a plurality of circles, and a plurality of diffusion disc afterburning moderate heat burner ports evenly distribute centered by many rings diffusion disc center of circle.Described diffusion disc afterburning moderate heat burner port outer ring arranges a plurality of fan-shaped diffusion disc masters and fires ring burner port in the big fire, and a plurality of diffusion disc masters are fired ring burner port evenly distribution centered by many rings diffusion disc center of circle in the big fire.Described diffusion disc master is fired the interior ring of big fire burner port outer ring the large column of flame of a plurality of oblong diffusion disc afterburnings hole is set, and the large column of flame of a plurality of diffusion disc afterburnings hole evenly distributes centered by many rings diffusion disc center of circle.Outer ring, described diffusion disc afterburning large column of flame hole arranges a plurality of fan-shaped diffusion disc masters and fires big fire outer shroud burner port, and a plurality of diffusion disc masters are fired big fire outer shroud burner port and evenly distributed centered by many rings diffusion disc center of circle.Described diffusion disc master is fired the diffusion disc afterburning big fire burner port that big fire outer shroud burner port outer ring arranges a plurality of circles, and a plurality of diffusion disc afterburning big fire burner ports evenly distribute centered by many rings diffusion disc center of circle.

Described flow guiding disc center is provided with a flow guiding disc master and fires little quirk, and the outer ring that the flow guiding disc master is fired little quirk is provided with a plurality of fan-shaped little quirks of flow guiding disc afterburning, and the little quirk of a plurality of flow guiding disc afterburnings evenly distributes centered by the flow guiding disc center of circle.The little quirk of described flow guiding disc afterburning outer ring is provided with quirk in the flow guiding disc master combustion of a plurality of circles, and quirk evenly distributes centered by the flow guiding disc center of circle in a plurality of flow guiding disc masters combustions.Be provided with a plurality of flow guiding disc inner ring afterburning columns of flame between the quirk in a plurality of flow guiding disc master combustions, a plurality of flow guiding disc inner ring afterburning columns of flame evenly distribute centered by the flow guiding disc center of circle.The quirk outer ring is provided with quirk in a plurality of fan-shaped flow guiding disc afterburnings in the described flow guiding disc master combustion, and quirk evenly distributes centered by the flow guiding disc center of circle in a plurality of flow guiding disc afterburnings.The flow guiding disc master that the quirk outer ring arranges a plurality of circles in the described flow guiding disc afterburning is fired large quirk, and a plurality of flow guiding disc masters are fired large quirk and evenly distributed centered by the flow guiding disc center of circle.Described flow guiding disc master is fired between per two of the large quirk flow guiding disc outer ring afterburning column of flame is set, and the flow guiding disc master is fired large quirk outer ring a plurality of fan-shaped large quirks of flow guiding disc afterburning are set, and the large quirk of a plurality of flow guiding disc afterburnings evenly distributes centered by the flow guiding disc center of circle.

The center of circle of described many ring diffusion discs and flow guiding disc is coaxial.

The described flow guiding disc outer ring afterburning column of flame embeds in the large column of flame of the diffusion disc afterburning hole.

The described flow guiding disc inner ring afterburning column of flame embeds in the diffusion disc afterburning in the column of flame hole.

Described diffusion disc master is fired little fiery burner port and is fired little quirk with the flow guiding disc master and be communicated with.

The little fiery burner port of described diffusion disc afterburning is communicated with the little quirk of flow guiding disc afterburning.

Described diffusion disc master fires that quirk is communicated with during ring burner port, diffusion disc master are fired moderate heat outer shroud burner port and the flow guiding disc master is fired in the moderate heat.

Quirk is communicated with diffusion disc afterburning moderate heat burner port in the described flow guiding disc afterburning.

Described diffusion disc master is fired in the big fire ring burner port, diffusion disc master and is fired big fire outer shroud burner port and fire large quirk with the flow guiding disc master and be communicated with.

The large quirk of described flow guiding disc afterburning is communicated with diffusion disc afterburning big fire burner port.

Compared with the prior art the utility model has the following advantages:

The utility model is simple, compact and reasonable for structure; The flame temperature of burning is higher, flameholding; The thermal efficiency of burning is high, and waste gas is few.

Description of drawings

Fig. 1 is the utility model front view.

Fig. 2 is AA cutaway view among Fig. 1.

Fig. 3 is the utility model rearview.

Description of reference numerals: 1-encircles diffusion disc more, the 2-flow guiding disc, 3-diffusion disc master is fired little fiery burner port, the little fiery burner port of 4-diffusion disc afterburning, 5-diffusion disc master is fired ring burner port in the moderate heat, column of flame hole in the 6-diffusion disc afterburning, 7-diffusion disc master is fired moderate heat outer shroud burner port, 8-diffusion disc afterburning moderate heat burner port, 9-diffusion disc master is fired ring burner port in the big fire, the large column of flame of 10-diffusion disc afterburning hole, 11-diffusion disc master is fired big fire outer shroud burner port, 12-diffusion disc afterburning big fire burner port, 13-flow guiding disc master is fired little quirk, the little quirk of 14-flow guiding disc afterburning, quirk in the 15-flow guiding disc master combustion, quirk in the 16-flow guiding disc afterburning, 17-flow guiding disc master is fired large quirk, the large quirk of 18-flow guiding disc afterburning, the 19-flow guiding disc outer ring afterburning column of flame, the 20-flow guiding disc inner ring afterburning column of flame.

The specific embodiment

Following the utility model is further described in connection with the embodiment in the accompanying drawing:

Shown in Fig. 1 ~ 3, the utility model mainly comprises many ring diffusion discs 1 and flow guiding disc 2, described many ring diffusion discs 1 center is provided with the diffusion disc master and fires little fiery burner port 3, the diffusion disc master is fired the little fiery burner port 4 of diffusion disc afterburning 4, ten two diffusion disc afterburnings of little fiery burner port evenly distribution centered by many rings diffusion disc 1 center of circle that little fiery burner port 3 outer rings are provided with 12 circles.Described highly dense little fiery burner port 4 outer rings are provided with six fan-shaped diffusion disc masters and fire in the moderate heat 5, six diffusion disc masters of ring burner port fire that ring burner port 5 evenly distributes in the moderate heat centered by many rings diffusion disc 1 center of circle.Described diffusion disc master is fired the interior ring of moderate heat burner port 5 outer rings column of flame hole 6 evenly distribution centered by many rings diffusion disc 1 center of circle in 6, three the diffusion disc afterburnings in column of flame hole in three oblong diffusion disc afterburnings is set.6 outer rings, column of flame hole arrange six fan-shaped diffusion disc masters and fire 7, six diffusion disc masters of moderate heat outer shroud burner port and fire moderate heat outer shroud burner port 7 and evenly distribute centered by many rings diffusion disc 1 center of circle in the described diffusion disc afterburning.Described diffusion disc master is fired 16 diffusion disc afterburning moderate heat burner ports 8 of diffusion disc afterburning moderate heat burner port that moderate heat outer shroud burner port 7 outer rings arrange 36 circles 8, three and is evenly distributed centered by many rings diffusion disc 1 center of circle.Described diffusion disc afterburning moderate heat burner port 8 outer rings arrange 12 fan-shaped diffusion disc masters and fire in the big fire 9, ten two diffusion disc masters of ring burner port fire that ring burner port 9 evenly distributes in the big fire centered by many rings diffusion disc 1 center of circle.Described diffusion disc master is fired the interior ring of big fire burner port 9 outer rings 10, ten two large columns of flame of diffusion disc afterburning hole, 12 the large column of flame of oblong diffusion disc afterburning holes 10 evenly distribution centered by many rings diffusion disc 1 center of circle is set.10 outer rings, described diffusion disc afterburning large column of flame hole arrange 12 fan-shaped diffusion disc masters and fire 11, ten two diffusion disc masters of big fire outer shroud burner port and fire big fire outer shroud burner port 11 and evenly distribute centered by many rings diffusion disc 1 center of circle.Described diffusion disc master is fired 12, six ten diffusion disc afterburning big fire of diffusion disc afterburning big fire burner port burner port 12 evenly distribution centered by many rings diffusion disc 1 center of circle that big fire outer shroud burner port 11 outer rings arrange 60 circles.

Described flow guiding disc 2 centers are provided with a flow guiding disc master and fire little quirk 13, and the outer ring that the flow guiding disc master is fired little quirk 13 is provided with the evenly distribution centered by flow guiding disc 2 centers of circle of three little quirks 14 of 14, three flow guiding disc afterburnings of the little quirk of fan-shaped flow guiding disc afterburning.The little quirk of described flow guiding disc afterburning 14 outer rings are provided with in the flow guiding disc master combustion of six circles that quirk 15 evenly distributes in 15, six flow guiding disc masters combustions of quirk centered by flow guiding disc 2 centers of circle.Be provided with three flow guiding disc inner ring afterburning columns of flame 20 between the quirk 15 in six flow guiding disc master combustions.Described three flow guiding disc inner ring afterburning columns of flame 20 evenly distribute centered by flow guiding disc 2 centers of circle.Quirk 15 outer rings are provided with quirk 16 evenly distribution centered by flow guiding disc 2 centers of circle in 16, six flow guiding disc afterburnings of quirk in six fan-shaped flow guiding disc afterburnings in the described flow guiding disc master combustion.The flow guiding disc master that quirk 16 outer rings arrange 12 circles in the described flow guiding disc afterburning is fired 17, ten two flow guiding disc masters of large quirk and is fired large quirk 17 and evenly distribute centered by flow guiding disc 2 centers of circle.Described 12 flow guiding disc masters are fired large quirk 17 and a flow guiding disc outer ring afterburning column of flame 19 are set between per two.Described flow guiding disc master is fired large quirk 17 outer rings the evenly distribution centered by flow guiding disc 2 centers of circle of 18, ten two large quirks 18 of flow guiding disc afterburning of 12 large quirks of fan-shaped flow guiding disc afterburning is set.

Many ring diffusion discs 1 are installed on the flow guiding disc 2, and the center of circle of encircling diffusion disc 1 and flow guiding disc 2 coaxial more.The described flow guiding disc outer ring afterburning column of flame 19 embeds in the large column of flame of the diffusion disc afterburnings hole 10, and the flow guiding disc inner ring afterburning column of flame 20 embeds in the diffusion disc afterburnings in the column of flame hole 6.

Described diffusion disc master is fired little fiery burner port 3 and is fired little quirk 13 with the flow guiding disc master and be communicated with, the little fiery burner port 4 of diffusion disc afterburning is communicated with the little quirk 14 of flow guiding disc afterburning, the diffusion disc master fires that quirk 15 is communicated with during ring burner port 5, diffusion disc master are fired moderate heat outer shroud burner port 7 and the flow guiding disc master is fired in the moderate heat, quirk 16 is communicated with diffusion disc afterburning moderate heat burner port 8 in the flow guiding disc afterburning, the diffusion disc master is fired in the big fire ring burner port 9, diffusion disc master and is fired big fire outer shroud burner port 11 and fire large quirk 17 with the flow guiding disc master and be communicated with, and the large quirk 18 of flow guiding disc afterburning is communicated with diffusion disc afterburning big fire burner port 12.

Jet refers to that fluid relies on out the motive power of amount of flow, is injected into flowing in another fluid domain.Volley fire stream compensation combustion type gas apparatus adopts the method for multiple jet drainage according to jet current principle, provides the third gear gas consumption to select, and the main bilateral air agreement of mending encircles fuel gas buring more.The third gear combustion gas is divided into the main two-way combustion gas of mending by the air door base, and the combustion gas of afterburning gas circuit enters behind group stream device by flow guiding disc, encircle diffusion disc more ejects, and ambient air is injected into the outlet of afterburning gas circuit, with the combustion gas mixing burning out of afterburning gas circuit.Light again main combustion gas road combustion gas after the burning of afterburning gas circuit, when lighting, the afterburning gas circuit is oppressed again main combustion gas road combustion gas, prevents the too far away of main combustion gas road fuel gas injection.When burning, in stable condition during the burning of main combustion gas road, flame temperature is high, can reach 1350 ℃.

The utility model is used for volley fire stream compensation combustion type gas apparatus, the combustion gas of little fire screen afterburning gas circuit enters little fiery burner port 4 diffusion combustions of diffusion disc afterburning by the little quirk 14 of flow guiding disc afterburning, and the combustion gas on little fire screen master combustion gas road is fired little quirk 13 by the flow guiding disc master and entered the diffusion disc master and fire in the little fiery burner port 3 and by the easy combustion gas of afterburning of burning in the little fiery burner port of afterburning and light diffusion combustion.The combustion gas of middle fire screen afterburning gas circuit is at the flow guiding disc inner ring afterburning column of flame 20 and diffusion disc afterburning moderate heat burner port 8 interior diffusion combustions, and the combustion gas on middle fire screen master combustion gas road enters the diffusion disc master and fires in the moderate heat ring burner port 5 and diffusion disc master and fire in the moderate heat outer shroud burner port 7 and by the highly dense easy combustion gas of burning in the flow guiding disc inner ring afterburning column of flame 20 and the diffusion disc afterburning moderate heat burner port 8 and light diffusion combustion.The combustion gas of large fire screen afterburning gas circuit is at diffusion disc afterburning big fire burner port 12 and the flow guiding disc outer ring afterburning column of flame 19 interior diffusion combustions, and the combustion gas on large fire screen master combustion gas road enters the diffusion disc master and fires in the big fire ring burner port 9 and diffusion disc master and fire in the big fire outer shroud burner port 11 and by the easy combustion gas of afterburning of burning in diffusion disc afterburning big fire burner port 12 and the flow guiding disc outer ring afterburning column of flame 19 and light diffusion combustion.Flame temperature can reach 1350 ℃.

The utility model is applicable to various low-pressure gas source household gas ranges, compression ignite gas kitchen in the vigorous fire of dining room, high-pressure boiler.

Claims (10)

1. the wadding of a gas apparatus flows tray for combustion, comprise many ring diffusion discs (1) and flow guiding disc (2), many ring diffusion discs (1) are installed on the flow guiding disc (2), it is characterized in that: encircle diffusion disc (1) center more and be provided with the diffusion disc master and fire little fiery burner port (3), the diffusion disc master is fired the little fiery burner port of diffusion disc afterburning (4) that little fiery burner port (3) outer ring is provided with a plurality of circles, and the little fiery burner ports of a plurality of diffusion disc afterburnings (4) evenly distribute centered by many rings diffusion disc (1) center of circle; The little fiery burner port of described diffusion disc afterburning (4) outer ring is provided with a plurality of fan-shaped diffusion disc masters and fires ring burner port (5) in the moderate heat, and a plurality of diffusion disc masters are fired ring burner port (5) evenly distribution centered by many rings diffusion disc (1) center of circle in the moderate heat; Described diffusion disc master is fired the interior ring of moderate heat burner port (5) outer ring column of flame hole (6) in a plurality of oblong diffusion disc afterburnings is set, and column of flame hole (6) evenly distribute centered by many rings diffusion disc (1) center of circle in a plurality of diffusion disc afterburnings; Outer ring, column of flame hole (6) arranges a plurality of fan-shaped diffusion disc masters and fires moderate heat outer shroud burner port (7) in the described diffusion disc afterburning, and a plurality of diffusion disc masters are fired moderate heat outer shroud burner port (7) and evenly distributed centered by many rings diffusion disc (1) center of circle; Described diffusion disc master is fired the diffusion disc afterburning moderate heat burner port (8) that moderate heat outer shroud burner port (7) outer ring arranges a plurality of circles, and a plurality of diffusion disc afterburning moderate heat burner ports (8) evenly distribute centered by many rings diffusion disc (1) center of circle; Described diffusion disc afterburning moderate heat burner port (8) outer ring arranges a plurality of fan-shaped diffusion disc masters and fires ring burner port (9) in the big fire, and a plurality of diffusion disc masters are fired ring burner port (9) evenly distribution centered by many rings diffusion disc (1) center of circle in the big fire; Described diffusion disc master is fired the interior ring of big fire burner port (9) outer ring a plurality of oblong diffusion disc afterburning large column of flame holes (10) is set, and a plurality of diffusion disc afterburnings large column of flame holes (10) evenly distribute centered by many rings diffusion disc (1) center of circle; Outer ring, described diffusion disc afterburning large column of flame hole (10) arranges a plurality of fan-shaped diffusion disc masters and fires big fire outer shroud burner port (11), and a plurality of diffusion disc masters are fired big fire outer shroud burner port (11) and evenly distributed centered by many rings diffusion disc (1) center of circle; Described diffusion disc master is fired the diffusion disc afterburning big fire burner port (12) that big fire outer shroud burner port (11) outer ring arranges a plurality of circles, and a plurality of diffusion disc afterburning big fire burner ports (12) evenly distribute centered by many rings diffusion disc (1) center of circle;

Described flow guiding disc (2) center is provided with a flow guiding disc master and fires little quirk (13), the outer ring that the flow guiding disc master is fired little quirk (13) is provided with a plurality of fan-shaped little quirks of flow guiding disc afterburning (14), and the little quirks of a plurality of flow guiding disc afterburnings (14) evenly distribute centered by flow guiding disc (2) center of circle; The little quirk of described flow guiding disc afterburning (14) outer ring is provided with quirk (15) in the flow guiding disc master combustion of a plurality of circles, and quirk (15) evenly distributes centered by flow guiding disc (2) center of circle in a plurality of flow guiding disc masters combustions; Be provided with a plurality of flow guiding disc inner ring afterburning columns of flame (20) between the quirk (15) in a plurality of flow guiding disc master combustions, a plurality of flow guiding disc inner ring afterburning columns of flame (20) evenly distribute centered by flow guiding disc (2) center of circle; Quirk (15) outer ring is provided with quirk (16) in a plurality of fan-shaped flow guiding disc afterburnings in the described flow guiding disc master combustion, and quirk (16) evenly distributes centered by flow guiding disc (2) center of circle in a plurality of flow guiding disc afterburnings; The flow guiding disc master that quirk (16) outer ring arranges a plurality of circles in the described flow guiding disc afterburning is fired large quirk (17), and a plurality of flow guiding disc masters are fired large quirk (17) and evenly distributed centered by flow guiding disc (2) center of circle; Described flow guiding disc master is fired between per two of the large quirk (17) a flow guiding disc outer ring afterburning column of flame (19) is set, the flow guiding disc master is fired large quirk (17) outer ring a plurality of fan-shaped large quirks of flow guiding disc afterburning (18) is set, and the large quirks of a plurality of flow guiding disc afterburnings (18) evenly distribute centered by flow guiding disc (2) center of circle.

2. the wadding of gas apparatus flows tray for combustion as claimed in claim 1, it is characterized in that: the center of circle of described many ring diffusion discs (1) and flow guiding disc (2) is coaxial.

3. the wadding of gas apparatus flows tray for combustion as claimed in claim 1, it is characterized in that: the described flow guiding disc outer ring afterburning column of flame (19) embeds in the diffusion disc afterburning large column of flame hole (10).

4. the wadding of gas apparatus stream tray for combustion as claimed in claim 1 is characterized in that: the described flow guiding disc inner ring afterburning column of flame (20) embeds in the diffusion disc afterburning in the column of flame hole (6).

5. the wadding of gas apparatus stream tray for combustion as claimed in claim 1 is characterized in that: described diffusion disc master is fired little fiery burner port (3) and is fired little quirk (13) with the flow guiding disc master and be communicated with.

6. the wadding of gas apparatus flows tray for combustion as claimed in claim 1, and it is characterized in that: the little fiery burner port of described diffusion disc afterburning (4) is communicated with the little quirk of flow guiding disc afterburning (14).

7. the wadding of gas apparatus stream tray for combustion as claimed in claim 1 is characterized in that: described diffusion disc master fires that quirk (15) is communicated with during ring burner port (5), diffusion disc master are fired moderate heat outer shroud burner port (7) and the flow guiding disc master is fired in the moderate heat.

8. the wadding of gas apparatus flows tray for combustion as claimed in claim 1, and it is characterized in that: quirk (16) is communicated with diffusion disc afterburning moderate heat burner port (8) in the described flow guiding disc afterburning.

9. the wadding of gas apparatus stream tray for combustion as claimed in claim 1 is characterized in that: described diffusion disc master is fired in the big fire ring burner port (9), diffusion disc master and is fired big fire outer shroud burner port (11) and fire large quirk (17) with the flow guiding disc master and be communicated with.

10. the wadding of gas apparatus flows tray for combustion as claimed in claim 1, and it is characterized in that: the large quirk of described flow guiding disc afterburning (18) is communicated with diffusion disc afterburning big fire burner port (12).

Images