CN202267134U

CN202267134U - Gas heater

Info

Publication number: CN202267134U
Application number: CN2011203844795U
Authority: CN
Inventors: 陈文周
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-10-11
Filing date: 2011-10-11
Publication date: 2012-06-06
Anticipated expiration: 2021-10-11

Abstract

The utility model discloses a gas heater. The gas heater comprises a controller, a burner group, an ignition inductive electrode, a mother burner port and a control valve bank, wherein the controller is provided with an instruction part giving instruction signals from the outside and a controlling part for receiving and executing the orders given by the instruction part; the burner group consists of a plurality of burners arranged in order; the ignition inductive electrode is used for receiving the instructions from the controlling part, generating a spark and performing the function of flame induction; the mother burner port is next to one of burners, a gap is reserved between the mother burner port and the ignition inductive electrode; and the control valve bank is provided with a plurality of control valves and is used for receiving the instructions of the controlling part, taking actions according to the instructions and supplying gas for the mother burner port and the burners through a transmission system. Consequently, at least two sections of fire can be generated, the heat energy cover area can be effectively enlarged and the heat energy utilization efficiency can be increased.

Description

The combustion gas radiator

Technical field

The utility model relates to a kind of combustion gas radiator, particularly a kind of have a plurality of control valves can be to a plurality of burner air feed, and produce at least two sections firepower, to enlarge the heat energy area coverage, improve the heating of utilization efficiency of heat energy and use gas furnace.

Background technology

The igniter that existing combustion gas radiator uses is divided into two kinds haply: piezoelectric ignitor and electronic ignition device.The ignition switch that the former uses possesses throttling function, can adjust firepower.But because piezoelectric ignitor must use staff rotating switch knob to light a fire, so Gas appliance is not very convenient, also be difficult to accurately produce throttling action simultaneously in operation, promptly the firepower size is difficult for grasping.

As for the combustion gas radiator that uses electronic ignition device, it is to utilize two control valves to open individually or simultaneously and the throttling control that produces three kinds of flows in order to the mode of regulating flow, can obtain three sections firepower supplies heating needs whereby.This kind combustion gas radiator is because use Electronic Control, so aspect operation and firepower adjusting, the combustion gas radiator that uses piezoelectric type to light a fire is convenient and accurate.

Yet, no matter be to use the combustion gas radiator of piezoelectric type igniting or electronic ignition, all be to produce flame, so the heat energy area coverage is little by unique burner, utilization efficiency of heat energy is low.

Summary of the invention

For addressing the above problem and shortcoming, the purpose of the utility model is to provide a kind of combustion gas radiator of improvement, can enlarge the heat energy area coverage, improves utilization efficiency of heat energy.

For realizing above-mentioned purpose, the utility model is taked following technical scheme:

A kind of combustion gas radiator comprises a controller, has the instruction department that gives command signal from the outside, and receives the signal that instruction department gives and the control part of carrying out; A sets of burners is made up of a plurality of burner arrangement; An igniting induction electrode receives the instruction of control part, to produce the function of spark and the induction of post flame; Female nozzles are close to one of them burner, and keep a gap with the igniting induction electrode; And a control valve group, have instruction and start that a plurality of control valves receive control parts, and through an induction system to female nozzles and sets of burners air feed.

Said sets of burners comprises first, second and the 3rd burner, and said control valve group comprises major fire valve, first and second main fire valves, and said induction system comprises primary fire pipe, first and second pipelines; The two ends of this primary fire pipe connect gas outlet and female nozzles of said major fire valve respectively; One end of said first pipeline connects the gas outlet of said first main fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said second main fire valve, and the other end is provided with the second and the 3rd nozzle respectively to the said second and the 3rd burner air feed.

Said sets of burners comprises first and second burners, and said control valve group comprises major fire valve, first and second main fire valves, and said induction system comprises primary fire pipe, first and second pipelines; The two ends of this primary fire pipe connect gas outlet and female nozzles of said major fire valve respectively; One end of said first pipeline connects the gas outlet of said first main fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said second main fire valve, and the other end is provided with second nozzle to the said second burner air feed.

Said sets of burners comprises first, second and the 3rd burner, and said control valve group comprises major fire valve, first and second main fire valves, and said induction system comprises primary fire pipe, first, second and the 3rd pipeline; The two ends of this primary fire pipe connect gas outlet and female nozzles of said major fire valve respectively; One end of said first pipeline connects the gas outlet of said major fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said first main fire valve, and the other end is provided with second nozzle to the said second burner air feed; One end of said the 3rd pipeline connects the gas outlet of said second main fire valve, and the other end is provided with the 3rd nozzle to said the 3rd burner air feed.

Said sets of burners comprises first, second and the 3rd burner, and said control valve group comprises the major fire valve and first main fire valve, and said induction system comprises primary fire pipe, first and second pipelines; The two ends of this primary fire pipe connect gas outlet and female nozzles of said major fire valve respectively; One end of said first pipeline connects the gas outlet of said major fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said first main fire valve, and the other end is provided with the second and the 3rd nozzle respectively to the said second and the 3rd burner air feed.

Said sets of burners comprises first and second burners, and said control valve group comprises the major fire valve and first main fire valve, and said induction system comprises primary fire pipe, first and second pipelines; The two ends of this primary fire pipe connect gas outlet and female nozzles of said major fire valve respectively; One end of said first pipeline connects the gas outlet of said major fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said first main fire valve, and the other end is provided with second nozzle to the said second burner air feed.

Said control part makes and saidly just closes when the control valve of closing postpones a period of time when receiving little fire and change moderate heat or moderate heat and change the command signal of little fire.

Said controller comprises a remote control receiving element again.

Said induction system comprises an ignition tube again, and this ignition tube is across said sets of burners and be close to female nozzles, and connects the gas outlet of said major fire valve.

In another embodiment, this combustion gas radiator comprises a controller, has the instruction department that gives command signal from the outside, and receives the signal that instruction department gives and the control part of carrying out; A sets of burners is made up of a plurality of burner arrangement; An igniting induction electrode is close to one of them burner, and receives the instruction of control part, to produce the function of spark and the induction of post flame; And a control valve group, have instruction and start that a plurality of control valves receive control parts, and through an induction system to the sets of burners air feed.

Said sets of burners comprises first, second and the 3rd burner, and said control valve group comprises first and second main fire valves, and said induction system comprises first and second pipelines; One end of said first pipeline connects the gas outlet of said first main fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said second main fire valve, and the other end is provided with the second and the 3rd nozzle respectively to the said second and the 3rd burner air feed.

Said sets of burners comprises first, second and the 3rd burner, and said control valve group comprises first, second and the 3rd main fire valve, and said induction system comprises first, second and the 3rd pipeline; One end of said first pipeline connects the gas outlet of said first main fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said second main fire valve, and the other end is provided with second nozzle to the said second burner air feed; One end of said the 3rd pipeline connects the gas outlet of said the 3rd main fire valve, and the other end is provided with the 3rd nozzle to said the 3rd burner air feed.

Said sets of burners comprises first and second burners, and said control valve group comprises first, second and the 3rd main fire valve, and said induction system comprises first, second and the 3rd pipeline; One end of said first pipeline connects the gas outlet of said first main fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said second main fire valve, and the other end is provided with second nozzle to the said second burner air feed; One end of said the 3rd pipeline connects the gas outlet of said the 3rd main fire valve, and the other end connects second pipeline to the said second burner air feed.

Said controller comprises a remote control receiving element again.

Said induction system comprises a primary fire pipe again, and this primary fire pipe one end connects the gas outlet of said first main fire valve, and the other end is provided with the female nozzles that keep certain interval with said igniting induction electrode, supplies main fire to ignite into detecting with female fire to disengage combustion gas.

Said induction system comprises an ignition tube again, and this ignition tube is across said sets of burners and be close to said igniting induction electrode, and connects the gas outlet of said first main fire valve.

The beneficial effect of the utility model is: the effect of the habitual combustion gas radiator of the utility model contrast is; Having a plurality of control valves can independent or synchronous start; And to a burner, two burners or simultaneously to the burner air feed more than two; Produce at least two sections firepower, can effectively enlarge the heat energy area coverage, improve utilization efficiency of heat energy.

Cooperate the graphic specific embodiment explanation can be clear fully as for the technology contents of the utility model and other purposes and characteristics with reference to following.

Description of drawings

Fig. 1 is the plane of the utility model first embodiment.

Fig. 2 is the plane of the utility model second embodiment.

Fig. 3 is the plane of the utility model the 3rd embodiment.

Fig. 4 is the plane of the utility model the 4th embodiment.

Drawing reference numeral: 10,10a, 10b, 10c, combustion gas radiator; 20, controller; 21, instruction department; 22, control part; 23, power key; 24, intensification key; 25, cooling key; 26, receiving element; 30, sets of burners; 31, first burner; 32, second burner; 33, the 3rd burner; 40, igniting induction electrode; 50, female nozzles; 60, control valve group; 61, valve seat; 62, major fire valve; 63, first main fire valve; 64, second main fire valve; 65, air inlet; 66, gas outlet; 67, gas outlet; 68, gas outlet; 70, induction system; 71, primary fire pipe; 72, first pipeline; 73, second pipeline; 74, the 3rd pipeline; 75, first nozzle; 76, second nozzle; 77, the 3rd nozzle; 78, ignition tube.

The specific embodiment

Fig. 1 is the plane of the utility model combustion gas radiator 10, can supply to explain the technology contents of the utility model.This combustion gas radiator 10 includes controller 20, sets of burners 30, igniting induction electrode 40, female nozzles 50, control valve group 60, reaches induction system 70.Wherein:

Controller 20 includes instruction department 21 and control part 22.Instruction department 21 has a power key 23, in order to launch, to close combustion gas radiator 10 for give the input unit of combustion gas radiator 10 command signals from the outside; An intensification key 24 supplies the usefulness that firepower is adjusted upward; And a cooling key 25, in order to downward adjustment firepower.The command signal of control part 22 decision instruction portions 21, then to operand, the induction electrode 40 of promptly lighting a fire sends instruction with control valve group 60.Said controller 20 also can comprise a remote control receiving element 26; Be used for being sent to control part 22 after the data code decoding with a remote control transmitter (figure do not show) emission and carry out, make open and close machine and the firepower adjustment of combustion gas radiator 10 also can see through the wireless remote control mode and operate.

Sets of burners 30 is done fully to mix for making combustion gas and air, promotes the device of combustion reaction.In the present embodiment; This sets of burners 30 is rearranged by first burner 31, second burner 32 and the 3rd burner 33; It can be separately or synchronousing combustion and produce three sections firepower, and the more single burner of this design can enlarge the heat energy area coverage, improves utilization efficiency of heat energy.

Igniting induction electrode 40 receives the instruction of control part 22, to produce the function of spark and the induction of post flame.When combustion gas radiator 10 was used for heating of house, igniting induction electrode 40 was used for the anoxic detecting simultaneously, states after its effect is waited until, and shows for the time being.Need to know that also can use an ignitor and an induction electrode to carry out igniting and flame induction work respectively, this moment, the latter held the task of anoxic detecting.

Mother's nozzles 50 are close to first burner 31, and keep an appropriate gap with igniting induction electrode 40, supply the spark initiation of igniting induction electrode 40 generations to become female fire to disengage combustion gas.

Control valve group 60 includes valve seat 61, major fire valve 62, first main fire valve 63 and second main fire valve 64.Valve seat 61 provides a fuel gas path (figure does not show), and this fuel gas path has an air inlet 65 to connect fuel gas source, reaches three

gas outlets

66,67,68 and receives

major fire valve

62 and 63,64 controls of two main fire valves respectively.

Induction system 70 includes primary fire pipe 71, first pipeline 72, second pipeline 73 and a plurality of nozzle 75-77.One end of primary fire pipe 71 connects the gas outlet 66 of major fire valve 62 controls, and the other end connects female nozzles 50, and the combustion gas that disengages so that major fire valve 62 is opened is delivered to female nozzles 50, and the spark initiation that supplies igniting induction electrode 40 to produce becomes female fire.One end of first pipeline 72 connects the gas outlet 67 of first main fire valve 63 control, and the other end connects first nozzle 75, with to first burner, 31 air feed.One end of second pipeline 73 connects the gas outlet 68 of second main fire valve 64 control, and the other end connects second nozzle 76 and the 3rd nozzle 77, with respectively to second burner 32 and the 3rd burner 33 air feed.The aperture of said second nozzle 76 and the 3rd nozzle 77 and greater than the aperture of first nozzle 75; When being opened, first main fire valve 63 can produce a small amount of combustion gas that little fire needs to 31 supplies of first burner; When second main fire valve 64 is opened to the second and the 3rd burner 32; 33 supplies produce the middle amount combustion gas that moderate heat needs, and produce a large amount of combustion gas that big fire needs to first to the 3rd burner 31-33 supply when first and second

main fire valves

63,64 are opened synchronously.

When control part 22 receives power keys 23 for the command signal of On operation, be about to this signal and carry out, promptly one side orders major fire valve 62 to be opened; Combustion gas is disengaged from female nozzles 50 via primary fire pipe 71, supply high-tension current to the induction electrode 40 of lighting a fire on the one hand, make its discharge generation spark; Form female fire with ignite combustion gas and AIR MIXTURES, the induction electrode 40 of lighting a fire then makes control part 22 stop to export high-tension current to the induction electrode 40 of lighting a fire the flare up fire back coupling control part 22 that detects; Order first main fire valve 63 to be opened simultaneously; To first burner, 31 air feed, and ignite into little fire, supply heating needs by above-mentioned female fire.When pressing intensification key 24, first main fire valve 63 is closed, and stops to first burner, 31 air feed, and second main fire valve 64 is opened, and supplies with to the second and the

3rd burner

32,33 and produces the combustion gas that moderate heat needs.When pressing intensification key 24 once more, second main fire valve 64 remains on out valve position, and first main fire valve 63 is opened, and produces the combustion gas that big fire needs to first to the 3rd burner 31-33 supply simultaneously.Otherwise, when pressing cooling key 25, then can firepower be adjusted downwards.

When if female fire can't be lighted in certain safety time, i.e. powered-down and combustion gas automatically, must start shooting again and just can launch this moment.For safety, combustion gas radiator 10 is set in the pattern of little fire start, but also visual demand, and start shooting with the pattern of moderate heat, big fire or little fire commentaries on classics moderate heat.As long as change deposits the formula in the control part 22 in, just can change its power on mode.

Again, when lighting a fire induction electrode 40 when pilot flame causes impedance to become big because of the ambient oxygen deficiency or responds to less than flame, be about to this detecting signal and be added to control part 22, safety is guaranteed in automatic powered-down and combustion gas.

Be supplied to the female fire of distance the second and the 3rd burner 32 far away for making; 33 combustion gas can be ignited smoothly; Therefore in preferred embodiment; This induction system 70 further comprises an ignition tube 78, and this ignition tube 78 is across sets of burners 30 and be close to female nozzles 50, and connects the gas outlet 66 of major fire valve 62.When igniting, also can be lighted from the combustion gas that ignition tube 78 disengages by female fire, be supplied to the combustion gas of first to the 3rd burner 31-33 to ignite.Flame on said female fire and the ignition tube 78 will keep always, supply the usefulness of the anoxic detecting and the purpose of igniting, till closing combustion gas radiator 10.

Under the situation that does not have ignition tube 78; Also can receive when little fire is adjusted to the command signal of moderate heat at control part 22; 63 delay a period of times of first main fire valve are just closed; With the flame that postpones to extinguish through first burner 31 second burner 32 that ignites, again by second burner 32 the 3rd burner 33 that ignites.Otherwise, receive from the moderate heat downward modulation at control part 22 and during for the command signal of little fire, then to make 64 late releases of second main fire valve, with the flame that extinguishes through 32,33 delays of the second and the 3rd burner first burner 31 that ignites.When changeing big fire or big fire commentaries on classics moderate heat, because second main fire valve 64 still remains on out valve position, so necessity of no late release as for moderate heat.

Fig. 2 shows the combustion gas radiator 10a of another different types of the utility model.The difference of present embodiment and the foregoing description is that its sets of burners 30 is only by first and second burners 31; 32 form; Remainder is identical, and part therefore same as the previously described embodiments is all with identical symbology, and before also is applicable to present embodiment for the explanation of the foregoing description.In the present embodiment, to first burner, 31 air feed, to second burner, 32 air feed, and the aperture of second nozzle 76 is greater than the aperture of first nozzle 75 via second nozzle 76 for second pipeline 73 through first nozzle 75 for first pipeline 72.So, can, first main fire valve 63 produce the combustion gas that little fire needs when opening to 31 supplies of first burner; When second main fire valve 64 is opened, supply second burner 32 and produce the combustion gas that moderate heat needs; When first and second

main fire valves

63,64 were opened synchronously, simultaneously to first and second burners, 31,32 air feed, to produce relatively large firepower, the supply heating needed.

Again, under the basis of second embodiment, can change control part 22 for having the control function of two sections firepower, this moment second nozzle 76 the aperture can less than, be equal to or greater than the aperture of first nozzle 75.So, when first main fire valve 63 is opened, can produce the combustion gas that little fire needs to 31 supplies of first burner, when first and second

main fire valves

63,64 are opened synchronously, then simultaneously to first and second burners, 31,32 air feed, to produce desired big fire.In the present embodiment, the not start separately of second main fire valve 64, only the meeting and first main fire valve 63 are opened synchronously.

Though the foregoing description all have one independently major fire valve 62 through primary fire pipe 71 and ignition tube 78 supply igniting and the combustion gas of igniting and needing; But also can change induction system 70 a little; Make this major fire valve 62 can be simultaneously to first burner, 31 air feed, just the double as main fire valve uses.The combustion gas radiator 10b of Fig. 3 for forming according to above-mentioned variation.In the present embodiment; Sets of burners 30 is made up of first, second and the

3rd burner

31,32,33 equally; Control valve group 60 comprises major fire valve 62, first main fire valve 63 and second main fire valve 64, and induction system 70 comprises primary fire pipe 71, first pipeline 72, second pipeline 73 and the 3rd pipeline 74.The two ends of primary fire pipe 71 connect the gas outlet 66 and female nozzles 50 of major fire valve 62 controls respectively; One end of first pipeline 72 connects the gas outlet 66 of major fire valve 62 controls, the other end via first nozzle 75 to first burner, 31 air feed; One end of second pipeline 73 connects the gas outlet 67 of first main fire valve, 63 controls, and the other end passes through second nozzle 76 to second burner, 32 air feed; One end of the 3rd pipeline 74 connects the gas outlet 68 of second main fire valve, 64 controls, and the other end passes through the 3rd nozzle 77 to the 3rd burner 33 air feed.Present embodiment can produce seven sections firepower at most, and accompanying drawing is with little fire, moderate heat, three sections firepower illustrations of big fire equally.

Fig. 4 is the embodiment that is similar to Fig. 3.Combustion gas radiator 10c that present embodiment disclosed and the 3rd embodiment compare and only lack second main fire valve 64; Wherein the object of major fire valve 62 air feed is all female nozzles 50, ignition tube 78 and first burner 31; First main fire valve 63 is via the second and the 3rd nozzle 76 of second pipeline 73; 77 simultaneously to the second and the

3rd burner

32,33 air feed.So, also can produce the firepower of three sections different sizes.The 3rd burner 33 in the present embodiment and the also visual demand of the 3rd nozzle 77 and omit and do not adorn.

In addition, the combustion gas radiator 10 that Fig. 1 to Fig. 4 disclosed, 10a, 10b, 10c all are to light female fire earlier, and the combustion gas that utilizes female fire to ignite and disengage from ignition tube 78 is ignited by the flame of ignition tube 78 and is supplied to the combustion gas of sets of burners 30, forms main fire; As for the embodiment that does not have ignition tube 78, the means of above-mentioned main fire valve late release then capable of using are ignited main fiery.But the utility model also can change the embodiment of the female fire of above-mentioned point earlier slightly; Form the combustion gas radiator of directly lighting main fire; For example: the primary fire pipe 71 and female nozzles 50 that omit Fig. 3; Can directly ignite with the spark that igniting induction electrode 40 the produces combustion gas of ignition tube 78 utilizes the flame of this ignition tube 78 to ignite again and is supplied to the combustion gas of sets of burners 30, produces main fiery that heating needs.According to identical principle, also can directly be put other different embodiment of main fire from the embodiment inference of the female fire of above-mentioned point earlier.Because the embodiment of the main fire of straight point is that graphic power with the embodiment of the female fire of point earlier is for it; So above-mentioned major fire valve 62, first main fire valve 63 and second main fire valve 64 are in the embodiment of the main fire of straight point; Its corresponding title is respectively first main fire valve, second main fire valve and the 3rd main fire valve, and this explanation.Again; If the combustion gas radiator of the main fire of straight point is the same with the embodiment of the female fire of point earlier, have resident female fire can supply to light a fire usefulness that induction electrode 40 carries out anoxic detecting then can keep the primary fire pipe 71 and the female nozzles 50 that before be omitted; This primary fire pipe 71 connects the gas outlet 66 of first main fire valve, 62 controls; So that provide a detecting with mother's fire at female nozzles 50, make igniting induction electrode 40 when this detecting causes impedance to become big with pilot flame because of the ambient oxygen deficiency or responds to less than flame, can this detecting signal be added to control part 22; Automatically safety is guaranteed in powered-down and combustion gas.The combustion gas radiator of the main fire of straight point is under the state that possesses primary fire pipe 71 and/or ignition tube 78, and no matter stove fire is adjusted in any firepower, and first main fire valve 62 remains at out valve position, to continue to primary fire pipe 71 and ignition tube 78 air feed.Same, the combustion gas radiator of the main fire of straight point also can be as above-mentioned, in order to omit ignition tube 78, when little fire changes moderate heat or moderate heat and changes little fire, closes just make the main fire valve that should close postpone a period of time, to utilize just flame-out after a while burner other burner that ignites.

Certainly, the foregoing description can be under the scope that does not break away from the utility model in addition some variations, so above explanation comprises and accompanying drawing shown in whole items should be regarded as exemplary, but not in order to limit the claim of the utility model.

Claims

1. combustion gas radiator is characterized in that it comprises:

A controller has the instruction department that gives command signal from the outside, and receives the signal that instruction department gives and the control part of carrying out;

A sets of burners is made up of a plurality of burner arrangement;

An igniting induction electrode receives the instruction of control part, to produce the function of spark and the induction of post flame;

Female nozzles are close to one of them burner, and keep a gap with the igniting induction electrode; And

A control valve group has instruction and start that a plurality of control valves receive control parts, and through an induction system to female nozzles and sets of burners air feed.

2. combustion gas radiator according to claim 1; It is characterized in that; Said sets of burners comprises first, second and the 3rd burner, and said control valve group comprises major fire valve, first and second main fire valves, and said induction system comprises primary fire pipe, first and second pipelines; The two ends of this primary fire pipe connect gas outlet and female nozzles of said major fire valve respectively; One end of said first pipeline connects the gas outlet of said first main fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said second main fire valve, and the other end is provided with the second and the 3rd nozzle respectively to the said second and the 3rd burner air feed.

3. combustion gas radiator according to claim 1 is characterized in that said sets of burners comprises first and second burners, and said control valve group comprises major fire valve, first and second main fire valves, and said induction system comprises primary fire pipe, first and second pipelines; The two ends of this primary fire pipe connect gas outlet and female nozzles of said major fire valve respectively; One end of said first pipeline connects the gas outlet of said first main fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said second main fire valve, and the other end is provided with second nozzle to the said second burner air feed.

4. combustion gas radiator according to claim 1; It is characterized in that; Said sets of burners comprises first, second and the 3rd burner, and said control valve group comprises major fire valve, first and second main fire valves, and said induction system comprises primary fire pipe, first, second and the 3rd pipeline; The two ends of this primary fire pipe connect gas outlet and female nozzles of said major fire valve respectively; One end of said first pipeline connects the gas outlet of said major fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said first main fire valve, and the other end is provided with second nozzle to the said second burner air feed; One end of said the 3rd pipeline connects the gas outlet of said second main fire valve, and the other end is provided with the 3rd nozzle to said the 3rd burner air feed.

5. combustion gas radiator according to claim 1 is characterized in that, said sets of burners comprises first, second and the 3rd burner, and said control valve group comprises the major fire valve and first main fire valve, and said induction system comprises primary fire pipe, first and second pipelines; The two ends of this primary fire pipe connect gas outlet and female nozzles of said major fire valve respectively; One end of said first pipeline connects the gas outlet of said major fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said first main fire valve, and the other end is provided with the second and the 3rd nozzle respectively to the said second and the 3rd burner air feed.

6. combustion gas radiator according to claim 1 is characterized in that said sets of burners comprises first and second burners, and said control valve group comprises the major fire valve and first main fire valve, and said induction system comprises primary fire pipe, first and second pipelines; The two ends of this primary fire pipe connect gas outlet and female nozzles of said major fire valve respectively; One end of said first pipeline connects the gas outlet of said major fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said first main fire valve, and the other end is provided with second nozzle to the said second burner air feed.

7. according to each described combustion gas radiator in the claim 1 to 6, it is characterized in that said control part makes and saidly just closes when the control valve of closing postpones a period of time when receiving little fire and change moderate heat or moderate heat and change the command signal of little fire.

8. according to each described combustion gas radiator in the claim 1 to 6, it is characterized in that said controller comprises a remote control receiving element again.

9. according to each described combustion gas radiator in the claim 2 to 6, it is characterized in that said induction system comprises an ignition tube again, this ignition tube is across said sets of burners and be close to female nozzles, and connects the gas outlet of said major fire valve.

10. combustion gas radiator is characterized in that it comprises:

A sets of burners is made up of a plurality of burner arrangement;

An igniting induction electrode is close to one of them burner, and receives the instruction of control part, to produce the function of spark and the induction of post flame; And

A control valve group has instruction and start that a plurality of control valves receive control parts, and through an induction system to the sets of burners air feed.

11. combustion gas radiator according to claim 10 is characterized in that said sets of burners comprises first and second burners, said control valve group comprises first and second main fire valves, and said induction system comprises first and second pipelines; One end of said first pipeline connects the gas outlet of said first main fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said second main fire valve, and the other end is provided with second nozzle to the said second burner air feed.

12. combustion gas radiator according to claim 10 is characterized in that, said sets of burners comprises first, second and the 3rd burner, and said control valve group comprises first and second main fire valves, and said induction system comprises first and second pipelines; One end of said first pipeline connects the gas outlet of said first main fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said second main fire valve, and the other end is provided with the second and the 3rd nozzle respectively to the said second and the 3rd burner air feed.

13. combustion gas radiator according to claim 10 is characterized in that, said sets of burners comprises first, second and the 3rd burner, and said control valve group comprises first, second and the 3rd main fire valve, and said induction system comprises first, second and the 3rd pipeline; One end of said first pipeline connects the gas outlet of said first main fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said second main fire valve, and the other end is provided with second nozzle to the said second burner air feed; One end of said the 3rd pipeline connects the gas outlet of said the 3rd main fire valve, and the other end is provided with the 3rd nozzle to said the 3rd burner air feed.

14. combustion gas radiator according to claim 10 is characterized in that said sets of burners comprises first and second burners, said control valve group comprises first, second and the 3rd main fire valve, and said induction system comprises first, second and the 3rd pipeline; One end of said first pipeline connects the gas outlet of said first main fire valve, and the other end is provided with first nozzle to the said first burner air feed; One end of said second pipeline connects the gas outlet of said second main fire valve, and the other end is provided with second nozzle to the said second burner air feed; One end of said the 3rd pipeline connects the gas outlet of said the 3rd main fire valve, and the other end connects second pipeline to the said second burner air feed.

15., it is characterized in that said control part makes and saidly just closes when the control valve of closing postpones a period of time according to each described combustion gas radiator in the claim 10 to 14 when receiving little fire and change moderate heat or moderate heat and change the command signal of little fire.

16., it is characterized in that said controller comprises a remote control receiving element again according to each described combustion gas radiator in the claim 10 to 14.

17. according to each described combustion gas radiator in the claim 11 to 14; It is characterized in that; Said induction system comprises a primary fire pipe again; This primary fire pipe one end connects the gas outlet of said first main fire valve, and the other end is provided with the female nozzles that keep certain interval with said igniting induction electrode, supplies main fire to ignite into detecting with female fire to disengage combustion gas.

18. according to each described combustion gas radiator in the claim 11 to 14; It is characterized in that; Said induction system comprises an ignition tube again, and this ignition tube is across said sets of burners and be close to said igniting induction electrode, and connects the gas outlet of said first main fire valve.