CN218972662U - Oxyhydrogen propane composite burner - Google Patents

Abstract

The utility model discloses a oxyhydrogen propane compound burner which comprises a starting end flame arrester, wherein one side of the starting end flame arrester is connected with an oxyhydrogen gas pipeline, the other end of a hand valve is connected with a safety valve, the other end of the safety valve is connected with a propane gas pipeline, a magnetizing fan is arranged on the side wall of the oxyhydrogen propane compound burner, a rotational flow magnetizing wind disc is arranged at a combustion port of the oxyhydrogen propane compound burner, a mixing burner is arranged at the center of the rotational flow magnetizing wind disc, and a high-energy ignition needle is arranged on the front side wall of the rotational flow magnetizing wind disc. The mixed gas has high heat value, and the oxyhydrogen gas has no carbon, so that the catalysis to carbon substances is obvious, the propane burns more completely, the emission of nitrogen oxides is low, the energy is saved, the reasonable mixing of the oxyhydrogen gas and the propane is ensured, the heat value can be improved by more than 30%, and finally, the magnetization treatment is carried out before the propane and the oxyhydrogen gas are mixed, so that the oxygen activity of the propane is improved, and the propane is easy to burn.

Description

Oxyhydrogen propane composite burner

Technical Field

The utility model relates to the technical field of oxyhydrogen propane compounding, in particular to an oxyhydrogen propane compound burner.

Background

The existing propane burner has the problems that the surface of propane is fully combusted, but the heat value of the propane is not fully improved, and the reason is that the propane burns relative macromolecular chains and is fully opened, oxyhydrogen gas is imperfect in input, and can be mixed with air to form an explosive mixture, and the explosive mixture is in danger of combustion and explosion when meeting a heat source and open flame; contact with an oxidizing agent can react violently; the gas is heavier than air, can diffuse to quite far places at lower positions, and in the process of using the propane burner, the potential hazard of backfire explosion easily occurs when oxyhydrogen gas and propane are mixed and burnt, so that we propose an oxyhydrogen propane composite burner.

Disclosure of Invention

The utility model aims to provide a oxyhydrogen propane compound burner which solves the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a oxyhydrogen propane composite burner, includes the start end flame arrester, one side of start end flame arrester is connected with oxyhydrogen gas line, the opposite side of oxyhydrogen gas line is connected with the softening tank, the opposite side of softening tank is connected with terminal flame arrester, the other end of terminal flame arrester is connected with oxyhydrogen intake pipe, the lateral wall of oxyhydrogen intake pipe is connected with the propane intake pipe, the other end of propane intake pipe is connected with the solenoid valve, the other end of solenoid valve is connected with the hand valve, the other end of hand valve is connected with the relief valve, the other end of relief valve is connected with the propane gas line, oxyhydrogen propane composite burner is installed to the other end of oxyhydrogen intake pipe, the magnetization fan is installed to the lateral wall of oxyhydrogen propane composite burner, the magnetization wind dish is installed to the combustion chamber of oxyhydrogen propane composite burner, the mixed nozzle is installed to swirl magnetization wind dish center department, the high-energy ignition needle is installed to swirl magnetization wind dish front side wall.

Compared with the prior art, the utility model has the beneficial effects that: the mixed gas has high heat value, the oxyhydrogen gas has no carbon, so the catalysis of carbon substances is obvious, the propane combustion is more complete, the emission of nitrogen oxides is low, the energy is saved, the oxyhydrogen gas is the ion gas which is used along with production and has scissor cutting effect with the mixed combustion of other gases, firstly, the input of the oxyhydrogen gas is provided with a double fire-retarding device for protection, the mixed combustion of the oxyhydrogen gas and the propane is ensured to have no backfire explosion hidden trouble, secondly, a special oxyhydrogen propane mixed burner is selected, the reasonable mixing of the oxyhydrogen gas and the propane is ensured, the heat value can be improved by more than 30%, and finally, the magnetization treatment is carried out before the mixing of the propane and the oxyhydrogen gas, and the oxygen activity of the propane is improved to enable the propane to be easy to burn.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a top plan view of the configuration of the oxyhydrogen-propane composite burner of FIG. 1;

FIG. 3 is a detailed view of the structure of the spin-on magnetized wind disk of FIG. 1;

in the figure: 1. a starting end flame arrester; 2. an oxyhydrogen gas line; 3. a softening tank; 4. a terminal flame arrestor; 5. an oxyhydrogen air inlet pipe; 6. a propane gas line; 7. a safety valve; 8. a pressure reducing valve; 9. a hand valve; 10. an electromagnetic valve; 11. a propane air inlet pipe; 12. a oxyhydrogen propane compound burner; 13. a rotational flow magnetizing wind disc; 14. a high energy ignition needle; 15. mixing burners; 16. and magnetizing the fan.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the utility model provides a oxyhydrogen propane compound burner, which comprises a starting end flame arrester 1, wherein one side of the starting end flame arrester 1 is connected with an oxyhydrogen gas pipeline 2, the other side of the oxyhydrogen gas pipeline 2 is connected with a softening tank 3, the other side of the softening tank 3 is connected with a tail end flame arrester 4, the other end of the tail end flame arrester 4 is connected with an oxyhydrogen air inlet pipe 5, the side wall of the oxyhydrogen air inlet pipe 5 is connected with a propane air inlet pipe 11, the other end of the propane air inlet pipe 11 is connected with an electromagnetic valve 10, the other end of the electromagnetic valve 10 is connected with a hand valve 9, the other end of the hand valve 9 is connected with a safety valve 7, the other end of the safety valve 7 is connected with a propane gas pipeline 6, the other end of the oxyhydrogen air inlet pipe 5 is provided with an oxyhydrogen propane compound burner 12, the side wall of the oxyhydrogen propane compound burner 12 is provided with a magnetizing fan 16, a combustion port of the oxyhydrogen propane compound burner 12 is provided with a rotational flow magnetizing air disk 13, the center of the rotational flow magnetizing air disk 13 is provided with a mixing burner 15, and the front side wall of the rotational flow magnetizing air disk 13 is provided with a high-energy ignition needle 14.

Working principle: the oxyhydrogen generator direct-current power cabinet outputs electric energy to supply to the oxyhydrogen generator, oxyhydrogen gas enters softening tank 3 through start end flame arrester 1, oxyhydrogen gas is conveyed through oxyhydrogen gas pipeline 2, oxyhydrogen gas enters end flame arrester 4 through pipeline after softening agent treatment in softening tank 3, simultaneously 16 magnetization fans are opened, air sweeping furnace chamber is one minute, propane gas pipeline 6 enters propane intake pipe 11 through relief valve 7 relief valve 8 hand valve 9 solenoid valve 10, propane intake pipe 11 is mixed with oxyhydrogen gas coming out of oxyhydrogen intake pipe 5, oxyhydrogen propane mixed gas is generated and then enters oxyhydrogen propane composite burner 12, high-energy ignition needle 14 is used for electronic ignition, mixed gas is released and ignited through swirl magnetization wind disc 13 and mixed burner 15, magnetization fans 16 are adjusted according to flame size, when the heat energy supply of the burner is finished, oxyhydrogen propane composite burner 12 starts automatic shutdown, electromagnetic valve before and after softening tank 3 is closed, start end flame arrester 1 is automatically closed, hydrogen generator outlet electromagnetic valve 15 has no flame, magnetization fans 16 clean mixed burner 15 and corresponding pipeline residual gas are emptied, and propane composite burner 12 is safely stopped.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. A oxyhydrogen propane composite burner, characterized in that: including starting end flame arrester (1), one side of starting end flame arrester (1) is connected with oxyhydrogen gas line (2), the opposite side of oxyhydrogen gas line (2) is connected with softening tank (3), the opposite side of softening tank (3) is connected with terminal flame arrester (4), the other end of terminal flame arrester (4) is connected with oxyhydrogen intake pipe (5), the lateral wall of oxyhydrogen intake pipe (5) is connected with propane intake pipe (11), the other end of propane intake pipe (11) is connected with solenoid valve (10), the other end of solenoid valve (10) is connected with hand valve (9), the other end of hand valve (9) is connected with relief valve (7), the other end of relief valve (7) is connected with propane gas line (6), the other end of oxyhydrogen intake pipe (5) is installed oxyhydrogen propane combined burner (12), magnetization fan (16) are installed to the lateral wall of oxyhydrogen propane combined burner (12), magnetization wind dish (13) are installed to the combustion orifice of oxyhydrogen propane combined burner (12), swirl magnetization wind dish (13) center department installs hybrid burner (14), swirl wind dish (14) can be installed to swirl and swirl around swirl wind dish (13) can be fired.

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