CN201285039Y - Hydrogen-oxygen combustor - Google Patents

Abstract

A hydrogen-oxygen combustion apparatus comprises a flame jet unit, a blast unit communicated with the flame jet unit, a combustion gas supply unit and a control unit. The combustion gas supply unit comprises a hydrogen-oxygen machine alternated with the flame jet unit, a distribution header communicated with the hydrogen-oxygen machine and the flame jet unit, and a gas supply source communicated with the distribution header. Hydrogen and oxygen which are generated by the hydrogen-oxygen machine are used as fuel for combustion to cause no substances harmful for the human body or the environment, the hydrogen and the oxygen are innoxious and light and can avoid generating industrial safety accidents when being discharged, therefore, the price is more stable, and the production cost can be effectively lowered.

Description

Hydrogen-oxygen combustor

Technical field

The utility model relates to a kind of burner, particularly relates to a kind of Hydrogen-oxygen combustor.

Background technology

Consult Fig. 1, existing burner 1 comprises that a firn-jet head 11, is communicated with the air blast 12 and a fuel supply 13 that is communicated with this firn-jet head 11 of this firn-jet head rear end, this firn-jet head 11 has a plurality of boccas 111 and an igniter 112, and this fuel supply 13 then is in order to supply this firn-jet head 11 required fuel.

This fuel supply 13 is delivered to fuel in the bocca 111 of this firn-jet head 11, and ignited fuel is produced flame by this igniter 112, the gas that utilizes this air blast 12 to be brought into more outwards blows out flame, with heating or the cutting that is applied to various article.

Existing burner 1 still has following shortcoming and remains to be improved owing to structural design:

1. security causes anxiety: existing burner more than 1 opens and closes this fuel supply 13 with manual type, the safety device that lacks automation, if it is careless slightly that operation is gone up, causing easily that tempering is prolonged burns and causes danger, and the fuel supply more than 13 of existing burner 1 is fuel with supply heavy oil, kerosene or gas, if heavy oil, kerosene or gas leak accidentally, not only jeopardizes operating personnel's safety easily, also may cause big fire, the fear that causes contiguous resident is with uneasy.

2. seriously polluted: no matter 13 supplied fuel of fuel supply are heavy oil, kerosene or gas, all can produce toxic gas after burning, and are very huge for the harm of human body and environment.

3. cost height: earth resource day by day reduces in recent years, and crude oil price is more and more high, relatedly makes that the price of heavy oil, kerosene or gas is also surging gradually, causes the fuel cost of existing burner 1 more and more high, influences dealer's profit.

Therefore, how to improve the security of existing burner 1, reduce the harm of existing 1 pair of human body of burner or environment simultaneously, and effectively reduce cost, just become the problem that relevant dealer institute desire solves.

The utility model content

The purpose of this utility model is to provide a kind of and can improves security, and effectively reduces the Hydrogen-oxygen combustor that pollutes with production cost.

For achieving the above object, Hydrogen-oxygen combustor described in the utility model comprises flame ejection unit, blasting unit, a gas supply unit and a control module that is connected with this flame ejection unit.

This gas supply unit comprises that one is communicated with this oxyhydrogen machine is communicated with this distribution header with the distribution header and of this flame ejection unit air supply source with oxyhydrogen machine, that this flame ejection unit is provided with separately, and this distribution header has first a pipe portion that is connected with this oxyhydrogen machine, this flame of connection sprays the isocon portion of unit and the second pipe portion of this air supply source of connection.

This control module comprises that a controller, that is electrically connected the oxyhydrogen machine of this gas supply unit and flame ejection unit simultaneously is arranged at first control valve and between this first pipe portion and this oxyhydrogen machine and is arranged at second control valve between this second pipe portion and this air supply source.

Hydrogen-oxygen combustor described in the utility model, this Hydrogen-oxygen combustor also comprises a protective unit, this protective unit comprises a detector that is electrically connected with the controller of this control module, at least one first electrically-controlled valve and that is arranged in this first pipe portion is arranged at second electrically-controlled valve in this second pipe portion, this detector is to be used for detecting this flame ejection flame that the unit sent, this first electrically-controlled valve is positioned between this first control valve and this isocon portion and with this detector and is electrically connected, and this second electrically-controlled valve then is positioned between this second control valve and this isocon portion and with this controller and is electrically connected.

Hydrogen-oxygen combustor described in the utility model, the distribution header of this gas supply unit are three-way pipes, and this air supply source is an air compressor.

Hydrogen-oxygen combustor described in the utility model, the detector of this protective unit is an optical inductor, is used for detecting this flame ejection flame light that the unit sent.

Hydrogen-oxygen combustor described in the utility model, the detector of this protective unit is a temperature inductor, is used for detecting this flame ejection flame temperature that the unit sent.

Hydrogen-oxygen combustor described in the utility model, this flame ejection unit comprise a hollow body, be arranged at igniter on this body, a plurality of bocca that is arranged in this body and one from this body stretch out and spacer ring around the outer outlet body of each bocca, each bocca have a Gas Pipe and one with this Gas Pipe separately and be communicated with the wireway of this body, and the shunting house steward's of this gas supply unit isocon portion is communicated with the Gas Pipe of each bocca, and the controller of this control module is the igniter that is electrically connected on this flame ejection unit.

Hydrogen-oxygen combustor described in the utility model, this blasting unit comprise that air supply pipe and that an end is communicated with the body of this flame ejection unit is communicated with the air blast of the other end of this air supply pipe.

Effect of the present utility model: utilize oxyhydrogen machine that the oxyhydrogen that water electrolysis produced is fuel, after burning, can not produce the material of harmful human body or environment, and oxyhydrogen free from extraneous odour, nontoxic, pollution-free, the worker who is produced in the time of can avoiding leaking pacifies accident, and the oxyhydrogen that utilizes water electrolysis to produce is fuel, price steadiness can effectively reduce production costs.

Description of drawings

Fig. 1 is the stereogram of existing burner.

Fig. 2 is a stereogram, and the preferred embodiment of the utility model Hydrogen-oxygen combustor is described.

Fig. 3 is the III-III partial sectional view of Fig. 2.

Fig. 4 is the vertical view of Fig. 2.

The specific embodiment

Below by preferred embodiment and accompanying drawing the utility model Hydrogen-oxygen combustor is elaborated.

Consult Fig. 2, the preferred embodiment of the utility model Hydrogen-oxygen combustor 2 comprises flame ejection unit 3, blasting unit 4, a gas supply unit 5, a control module 6 and a protective unit 7 that is connected with this flame ejection unit 3.

Consult Fig. 2, Fig. 3, this flame ejection unit 3 comprises that a hollow body 31, is arranged at the igniter 32 on this body 31, a plurality of bocca 33 and that is arranged in this body 31 stretches out from this body 31, and spacer ring is around the outer outlet body 34 of each bocca 33 with this igniter 32, each bocca 33 have a Gas Pipe 331 and one with this Gas Pipe 331 separately and be communicated with the wireway 332 of this body 31.

This blasting unit 4 comprises that air supply pipe 41 and that an end is communicated with the body 31 of this flame ejection unit 3 is communicated with the air blast 42 of the other end of this air supply pipe 41, and this gas supply unit 5 comprises that an oxyhydrogen machine 51 that is provided with separately with the body 31 of this flame ejection unit 3 (oxyhydrogen machine 51 produce oxyhydrogen with water electrolysis), is communicated with the air supply source 53 that distribution header 52 and that this oxyhydrogen machine 51 and this flame sprays each bocca 33 of unit 3 is communicated with this distribution header 52.

Consult Fig. 3, Fig. 4, this distribution header 52 has first a pipe portion 521, that is connected with this oxyhydrogen machine 51 and is communicated with the isocon portion 522 of the Gas Pipe 331 of each bocca 33 in this flame ejection unit 3 and the second pipe portion 523 of this air supply source 53 of connection.In this preferred embodiment, this distribution header 52 is three-way pipes, and this air supply source 53 is air compressors.

Consult Fig. 2, Fig. 4, this control module 6 comprises that first control valve 62 and that a controller 61, that is electrically connected the igniter 32 of the oxyhydrogen machine 51 of this gas supply unit 5 and this flame ejection unit 3 simultaneously is arranged at 51 of this first pipe portion 521 and this oxyhydrogen machine is arranged at second control valve 63 of 53 of this second pipe portion 523 and this air supply sources.

This protective unit 7 comprises that a detector 71, two that is electrically connected with the controller 61 of this control module 6 is arranged at intervals at first electrically-controlled valve 72 and in this first pipe portion 521 and is arranged at second electrically-controlled valve 73 in this second pipe portion 523, described 2 first electrically-controlled valve 72 are positioned at this first control valve 62 and are electrically connected with 522 in this isocon portion and with this detector 71, are electrically connected with 522 in this isocon portion and with this controller 61 and this second electrically-controlled valve 73 is positioned at this second control valve 63.

In this preferred embodiment, described 2 first electrically-controlled valve 72 belong to the electrically-controlled valve of open type attitude, and this second electrically-controlled valve 73 then is the electrically-controlled valve that belongs to normally closed kenel.

Consult Fig. 2, Fig. 3, Fig. 4, when operating Hydrogen-oxygen combustor 2 of the present utility model, at first start the controller 61 of this control module 6, and open this first control valve 62, second control valve 63, control this air blast 42 simultaneously, oxyhydrogen machine 51 comes into operation with air supply source 53, make air via the air supply pipe 41 of this blasting unit 4 the flow through body 31 of this flame ejection unit 3 and the wireway 332 of each bocca 33, the oxyhydrogen that this oxyhydrogen machine 51 is produced is then flowed into the Gas Pipe 331 of each bocca 33 by the isocon portion 522 of the distribution header 52 of this gas supply unit 5.

Next, the igniter 32 of this this flame ejection unit 3 of controller 61 controls produces electric arc, lights the oxyhydrogen of each bocca 33 front end in this flame ejection unit 3, and forms flame in each bocca 33 front end.

After if igniter 32 produces electric arc, the detector 71 of this protective unit 7 does not record the flame of outer outlet body 34 front ends of this flame ejection unit 3,61 of this controllers send shutdown signal through the detector 71 of this protective unit 7 to close described 2 first electrically-controlled valve 72, effectively prevent expending of oxyhydrogen.

During use, if 51 the oxyhydrogen underfeds that can supply of this oxyhydrogen machine, or generation jumping machine, cause the oxyhydrogen deficiency to make the flame of outer outlet body 34 front ends disappear, this controller 61 also sends shutdown signal immediately to cut out described 2 first electrically-controlled valve 72 and this oxyhydrogen machine 51, and send start signal simultaneously to open this second electrically-controlled valve 73, the pressure-air of this air supply source 53 is delivered in the Gas Pipe 331 of each bocca 33 from this second pipe portion 523, discharge with the oxyhydrogen in each Gas Pipe 331 residuing in this isocon portion 522, dilution simultaneously residues in the oxyhydrogen in the first pipe portion 521 and the isocon portion 522, prevents that flame from producing tempering and prolonging burning to this oxyhydrogen machine 51 and cause danger.

In this preferred embodiment, this detector 71 is optical inductors, be used for detecting the flame light that outer outlet body 34 front ends of this flame ejection unit 3 of induction are occurred, certainly this detector 71 also can be a temperature inductor, be used for detecting flame temperature, all can reach the effect of this flame ejection unit 3 flame that sends of detecting whereby, not limit to so not should be the exposure of present embodiment.

In this preferred embodiment, this air supply source 53 is air compressors, so be to utilize pressure-air will residue in this isocon portion 522 to discharge with the oxyhydrogen in each Gas Pipe 331, dilution simultaneously residues in the oxyhydrogen in the first pipe portion 521 and the isocon portion 522, certainly this air supply source 53 also can be the nitrogen cylinder of a high pressure, utilizing high pressure nitrogen will residue in this isocon portion 522 discharges with the oxyhydrogen in each Gas Pipe 331, dilution simultaneously residues in the oxyhydrogen in the first pipe portion 521 and the isocon portion 522, can reach identical effect.

After the end to be used, at first close this oxyhydrogen machine 51, at this moment, this controller 61 cuts out described 2 first electrically-controlled valve 72 immediately, and open this second electrically-controlled valve 73 simultaneously, this air supply source 53 is delivered to pressure-air in the Gas Pipe 331 of each bocca 33 from this second pipe portion 523, extinguish the flame of each bocca 33 front end on the one hand, also will residue in this isocon portion 522 on the other hand discharges with the oxyhydrogen in each Gas Pipe 331, dilution simultaneously residues in the oxyhydrogen in the first pipe portion 521 and the isocon portion 522, prevent that flame from producing tempering and prolonging burning and cause danger to this oxyhydrogen machine 51, treat to close this first control valve 62 more in regular turn after the fray-out of flame, second control valve 63, air supply source 53, air blast 42 and this controller 61.

In sum, the oxyhydrogen that Hydrogen-oxygen combustor 2 of the present utility model utilizes the oxyhydrogen machine 51 of this gas supply unit 5 to be produced is fuel, and oxyhydrogen can not produce the material of harmful human body or environment after burning, reduce the generation of polluter, and the oxyhydrogen that oxyhydrogen machine 51 is produced is a fuel, price is comparatively stable, can effectively reduce production costs.In addition, oxyhydrogen free from extraneous odour, nontoxic, pollution-free, the worker who is produced in the time of can avoiding leaking pacifies accident, the controller 61 that cooperates this control module 6, with the detector 71 of this protective unit 7, described 2 first electrically-controlled valve 72 and this second electrically-controlled valve 73, the consume that can also effectively prevent oxyhydrogen with leak, utilize the distribution header 52 and this air supply source 53 of this three-way pipe form again, can effectively avoid tempering, promote operational security, so can reach the purpose of this utility model really.

Claims (7)

1. a Hydrogen-oxygen combustor comprises that flame ejection unit, is communicated with the blasting unit of this flame ejection unit, a gas supply unit and is electrically connected the control module that this flame sprays unit and this gas supply unit, it is characterized in that,

This gas supply unit comprises an oxyhydrogen machine that is provided with separately with this flame ejection unit, one is communicated with this oxyhydrogen machine is communicated with this distribution header with the distribution header and of this flame ejection unit air supply source, this distribution header has first a pipe portion that is connected with this oxyhydrogen machine, the one isocon portion and that is communicated with this flame ejection unit is communicated with the second pipe portion of this air supply source, and this control module comprises that one is electrically connected the oxyhydrogen machine of this gas supply unit and the controller of flame ejection unit simultaneously, one is arranged at first control valve and between this first pipe portion and this oxyhydrogen machine is arranged at second control valve between this second pipe portion and this air supply source.

2. Hydrogen-oxygen combustor according to claim 1 is characterized in that,

This Hydrogen-oxygen combustor also comprises a protective unit, this protective unit comprises that a detector that is electrically connected with the controller of this control module, at least one first electrically-controlled valve and that is arranged in this first pipe portion are arranged at second electrically-controlled valve in this second pipe portion, this detector is to be used for detecting this flame ejection flame that the unit sent, this first electrically-controlled valve is positioned between this first control valve and this isocon portion and with this detector and is electrically connected, and this second electrically-controlled valve then is positioned between this second control valve and this isocon portion and with this controller and is electrically connected.

3. Hydrogen-oxygen combustor according to claim 2 is characterized in that,

The distribution header of this gas supply unit is a three-way pipe, and this air supply source is an air compressor.

4. Hydrogen-oxygen combustor according to claim 3 is characterized in that,

The detector of this protective unit is an optical inductor, is used for detecting this flame ejection flame light that the unit sent.

5. Hydrogen-oxygen combustor according to claim 3 is characterized in that,

The detector of this protective unit is a temperature inductor, is used for detecting this flame ejection flame temperature that the unit sent.

6. according to claim 4 or 5 described Hydrogen-oxygen combustors, it is characterized in that,

This flame ejection unit comprise a hollow body, be arranged at igniter on this body, a plurality of bocca that is arranged in this body and one from this body stretch out and spacer ring around the outer outlet body of each bocca, each bocca have a Gas Pipe and one with this Gas Pipe separately and be communicated with the wireway of this body, and the shunting house steward's of this gas supply unit isocon portion is communicated with the Gas Pipe of each bocca, and the controller of this control module is the igniter that is electrically connected on this flame ejection unit.

7. Hydrogen-oxygen combustor according to claim 6 is characterized in that,

This blasting unit comprises that air supply pipe and that an end is communicated with the body of this flame ejection unit is communicated with the air blast of the other end of this air supply pipe.

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