CN216244259U - Energy-saving gas burner device - Google Patents

Abstract

The utility model relates to an energy-saving coal gas burner device in the field of environmental protection equipment, which comprises a device body, wherein two sides of the device body are respectively provided with an ignition end and a flame spraying end, a communicating pipeline and an upper connecting pipeline are arranged between the ignition end and the flame spraying end in a matching way, a plurality of groups of connecting flange assemblies are arranged on the communicating pipeline in a matching way, and a coal gas inlet pipeline and a coal air inlet pipeline are also arranged on the communicating pipeline in a matching way.

Description

Energy-saving gas burner device

Technical Field

The utility model relates to a gas burner in the field of environmental protection equipment.

Background

The prior Chinese patent database discloses a burner, and the patent application numbers thereof are as follows: CN201920117788.2, filed as follows: 2019.01.23, publication No. CN209605155U, publication date: 2019.11.08, the utility model discloses a nozzle is disclosed in this utility model application, including nozzle shell and efflux nozzle, the inside cavity and both ends of nozzle shell have the opening, the inner wall of nozzle shell is equipped with the installation department that is used for installing the efflux nozzle, be equipped with the jet hole that is on a parallel with the axis of nozzle shell on the efflux nozzle, this utility model internal gas mixture is insufficient when using, the increase cost of no reason.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an energy-saving gas burner device, which improves the mixing efficiency of internal gas, fully mixes the internal gas source while working, can adjust the size of internal flow, improves the working efficiency, saves the cost, has a simple structure, and is convenient for later inspection or maintenance.

The purpose of the utility model is realized as follows: the utility model provides an energy-saving coal gas burner device, includes device body (1), the both sides of device body (1) are provided with ignition end (2) and flame projecting end (3) respectively, the cooperation is provided with intercommunication pipeline (4) and upper reaches pipeline (5) between ignition end (2) and the flame projecting end (3), the cooperation is provided with a plurality of groups flange subassembly (17) on intercommunication pipeline (4), it is provided with coal gas inlet pipeline (6) and coal wind inlet pipeline (7) still to cooperate on intercommunication pipeline (4).

When the utility model works, the axial flow air valve (9) is arranged above the joint of the upper connecting pipeline (5) and the communicating pipeline (4) and fixed, the coal gas inlet pipeline (6) and the coal air inlet pipeline (7) are fixed below the communicating pipeline (4) and obliquely arranged, the direct current pipeline (14) and the rotational flow pipeline (15) are connected with the communicating pipeline (4) of the upper connecting pipeline (5), the direct current air valve (10) and the rotational flow air valve (11) are correspondingly connected and fixed with the direct current pipeline (14) and the rotational flow pipeline (15), the communicating pipeline (4) is sequentially connected and fixed through the connecting flange component (17) until the installation is finished, when the utility model works, fuel enters the communicating pipeline (4) through the coal gas inlet pipeline (6), and simultaneously the coal air inlet pipeline (7) enters combustion-supporting gas and is rotationally mixed in the communicating pipeline (4) through the turbulence blades (16), combustible air enters into in the last pipeline (5) that allies oneself with through the right side of last pipeline (5) and mixes with fuel and combustion-supporting gas through direct current pipeline (14) and whirl pipeline (15), vortex blade (16) are to fuel, combustion-supporting gas and combustible air carry out the intensive mixing, whirl blast gate (11) can stir and sweep inside gas mixture simultaneously, make mixing efficiency further improve, after the completion of mixing, ignite and erupt and burn by flame projecting end (3) through ignition pole (12), this moment work is accomplished.

The utility model has the beneficial effects that the energy-saving gas burner device is provided, the utility model improves the mixing efficiency of internal gas, enables the internal gas source to be fully mixed while working, can adjust the internal flow, improves the working efficiency, saves the cost, has simple structure and is convenient for later inspection or maintenance.

As a further improvement of the present invention, in order to increase the mixing efficiency of the apparatus body (1); intercommunication pipeline (4) and upper header pipeline (5) fit in are provided with vortex blade (16), vortex blade (16) in intercommunication pipeline (4) correspond the diameter of intercommunication pipeline (4) and crescent, vortex blade (16) encircle to set up in the inner wall setting of intercommunication pipeline (4) and upper header pipeline (5).

As a further improvement of the present invention, in order to further improve the mixing efficiency; the vortex blade (16) are equidistant from each other, the vortex blade (16) and the inner wall integrated into one piece of intercommunication pipeline (4) and upper header pipeline (5), the vortex blade (16) that upper header pipeline (5) and intercommunication pipeline (4) meet the department is reverse setting.

As a further improvement of the utility model, in order to prevent the device body (1) from expanding with heat and contracting with cold during operation; the upper connecting pipeline (5) is provided with a soft connecting pipe (8) in a matching mode, the soft connecting pipe (8) is provided with an axial flow air valve (9) in a matching mode, and the device body (1) is further provided with a direct current air valve (10) and a rotational flow air valve (11) in a matching mode.

As a further improvement of the utility model, the coal gas and the combustion-supporting gas can enter conveniently; the coal gas inlet pipeline (6) is obliquely embedded in the middle of the communicating pipeline (4) and connected with the communicating pipeline, a group of connecting flange assemblies (17) are arranged at the inlet end of the coal gas inlet pipeline (6) in a matched mode, and the coal gas inlet pipeline (7) and the coal gas inlet pipeline (6) are embedded in the communicating pipeline (4) in a parallel mode and are located on the right side of the coal gas inlet pipeline (6).

As a further improvement of the present invention, to facilitate post ignition; the diameter of intercommunication pipeline (4) is held (2) to spouting fire end (3) by the ignition and is crescent, ignition end (2) is held to spouting to cooperate in proper order on fire end (3) and is provided with flange subassembly (17), the cooperation is provided with ignition rod (12) between ignition end (2) and intercommunication pipeline (4), ignition rod (12) run through and set up inside intercommunication pipeline (4).

As a further improvement of the utility model, the inside of the device body (1) is convenient to observe during operation

The pressure of (a); the communicating pipeline (4) is at least provided with three groups of pressure gauges (13) in a matching mode, and the pressure gauges (13) are sequentially arranged on the upper surface of the communicating pipeline (4) and are fixed.

As a further improvement of the present invention, to facilitate the mixing of air with fuel; the upper connecting pipe (5)

The flexible connecting pipe is arranged above the communicating pipeline (4) and is pre-provided with a radian of 35-45 degrees at the joint of the communicating pipeline (4), the upper connecting pipeline (5) and the communicating pipeline (4) are communicated with each other, an axial flow air valve (9) is arranged above the joint of the upper connecting pipeline (5) and the communicating pipeline (4) in a matched mode, and the flexible connecting pipe (8) is arranged in the middle of the upper connecting pipeline (5) and is fixed through a connecting flange component (17).

As a further improvement of the present invention, in order to prevent gas leakage; the direct current blast gate (10)

The device is characterized in that a direct-current pipeline (14) is arranged in a matched mode, a rotational-flow pipeline (15) is arranged in a matched mode on the rotational-flow air valve (11), the direct-current air valve (10) and the rotational-flow air valve (11) are arranged between the upper connecting pipeline (5) and the communicating pipeline (4) and are communicated with the upper connecting pipeline (5) and the communicating pipeline (4) through the direct-current pipeline (14) and the rotational-flow pipeline (15), and all pipelines in the device body (1) are fixed in a welding mode.

Drawings

FIG. 1 is a perspective view of the present invention.

FIG. 2 is an enlarged view of the present invention at A.

FIG. 3 is an enlarged view of the utility model at B.

The device comprises a device body 1, an ignition end 2, a flame spraying end 3, a communication pipeline 4, an upper connecting pipeline 5, a coal gas inlet pipeline 6, a coal air inlet pipeline 7, a soft connecting pipe 8, an axial flow air valve 9, a direct current air valve 10, a rotational flow air valve 11, an ignition rod 12, a pressure gauge 13, a direct current pipeline 14, a rotational flow pipeline 15, a turbulence blade 16 and a connecting flange assembly 17.

Detailed Description

As shown in fig. 1-3, an energy-saving coal gas burner device comprises a device body 1, wherein an ignition end 2 and a flame ejection end 3 are respectively arranged at two sides of the device body 1, a communication pipeline 4 and an upper connection pipeline 5 are arranged between the ignition end 2 and the flame ejection end 3 in a matching manner, a plurality of groups of connecting flange assemblies 17 are arranged on the communication pipeline 4 in a matching manner, a coal gas inlet pipeline 6 and a coal wind inlet pipeline 7 are also arranged on the communication pipeline 4 in a matching manner, turbulence blades 16 are arranged in the communication pipeline 4 and the upper connection pipeline 5 in a matching manner, the turbulence blades 16 in the communication pipeline 4 are gradually increased corresponding to the diameter of the communication pipeline 4, the turbulence blades 16 are arranged around the inner walls of the communication pipeline 4 and the upper connection pipeline 5, the turbulence blades 16 are spaced at equal intervals, and the turbulence blades 16 are integrally formed with the inner walls of the communication pipeline 4 and the upper connection pipeline 5, the device comprises an upper connecting pipeline 5, a communicating pipeline 4, a gas inlet pipeline 6, a gas inlet pipeline 7, a gas inlet pipeline 12, a gas outlet pipeline 3, a connecting flange assembly 17, a turbulent flow blade 16, a soft connecting pipe 8, an axial flow air valve 9, a direct flow air valve 10 and a rotational flow air valve 11, wherein the turbulent flow blade 16 at the joint of the upper connecting pipeline 5 and the communicating pipeline 4 is arranged in a reverse direction, the upper connecting pipeline 5 is matched with the soft connecting pipe 8, the axial flow air valve 9 is matched with the soft connecting pipe 8, the device body 1 is also matched with the direct flow air valve 10 and the rotational flow air valve 11, the gas inlet pipeline 6 is obliquely embedded in the middle of the communicating pipeline 4 and connected with the soft connecting pipe, the inlet end of the gas inlet pipeline 6 is matched with the connecting flange assembly 17, the gas inlet pipeline 7 and the gas inlet pipeline 6 are embedded in parallel with the communicating pipeline 4 and positioned at the right side of the gas inlet pipeline 6, the diameter of the communicating pipeline 4 is gradually increased from an ignition end 2 to the ignition end 3 from the ignition end 2 to the ignition end 3 in sequence, the ignition rod 12 is arranged inside the communication pipeline 4 in a penetrating manner, at least three groups of pressure gauges 13 are arranged on the communication pipeline 4 in a matching manner, the pressure gauges 13 are sequentially arranged on the upper surface of the communication pipeline 4 and are fixed, the upper connecting pipeline 5 is arranged above the communication pipeline 4, the connecting part of the upper connecting pipeline 5 and the communication pipeline 4 is preset with an arc of 35-45 degrees, the upper connecting pipeline 5 and the communication pipeline 4 are communicated with each other, an axial flow air valve 9 is arranged above the connecting part of the upper connecting pipeline 5 and the communication pipeline 4 in a matching manner, the flexible connecting pipe 8 is arranged in the middle of the upper connecting pipeline 5 and is fixed through a connecting flange assembly 17, the direct current air valve 10 is arranged with a direct current pipeline 14 in a matching manner, the rotational flow air valve 11 is arranged with a rotational flow pipeline 15 in a matching manner, the direct current air valve 10 and the rotational flow air valve 11 are arranged between the upper connecting pipeline 5 and the communication pipeline 4 and are communicated with the upper connecting pipeline 5 and the communication pipeline 4 through the direct current pipeline 14 and the rotational flow pipeline 15, all pipelines in the device body 1 are fixed in a welding mode.

When the utility model works, the axial flow air valve 9 is arranged above the joint of the upper connecting pipeline 5 and the communicating pipeline 4 and fixed, the coal gas inlet pipeline 6 and the coal air inlet pipeline 7 are fixed below the communicating pipeline 4 and are obliquely arranged, the direct current pipeline 14 and the rotational flow pipeline 15 are connected with the communicating pipeline 4 of the upper connecting pipeline 5, the direct current air valve 10 and the rotational flow air valve 11 are correspondingly connected and fixed with the direct current pipeline 14 and the rotational flow pipeline 15, the communicating pipeline 4 is sequentially connected and fixed through the connecting flange component 17 until the installation is completed, when the utility model works, fuel enters the communicating pipeline 4 through the coal gas inlet pipeline 6, meanwhile, the coal air inlet pipeline 7 enters combustion-supporting gas and is rotationally mixed in the communicating pipeline 4 through the turbulence blades 16, combustible air enters the upper connecting pipeline 5 through the right side of the upper connecting pipeline 5 and is mixed with the fuel and the combustion-supporting gas through the direct current pipeline 14 and the rotational flow pipeline 15, the vortex blade 16 carries out intensive mixing to fuel, combustion-supporting gas and combustible air, and whirl blast gate 11 can stir and sweep inside gas mixture simultaneously for mixing efficiency further improves, when mixing the back of accomplishing, ignites and erupts and carry out the burning by firing end 3 through ignition rod 12, and work is accomplished so far.

The present invention is not limited to the above-mentioned embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some substitutions and modifications to some technical features without creative efforts according to the disclosed technical contents, and these substitutions and modifications are all within the protection scope of the present invention.

Claims (9)

1. The utility model provides an energy-saving coal gas burner device, includes device body (1), its characterized in that: the device is characterized in that an ignition end (2) and a flame spraying end (3) are respectively arranged on two sides of the device body (1), a communicating pipeline (4) and an upper connecting pipeline (5) are arranged between the ignition end (2) and the flame spraying end (3) in a matching mode, a plurality of groups of connecting flange assemblies (17) are arranged on the communicating pipeline (4) in a matching mode, and a coal gas inlet pipeline (6) and a coal air inlet pipeline (7) are further arranged on the communicating pipeline (4) in a matching mode.

2. An energy saving type coal gas burner apparatus as claimed in claim 1, characterized in that: intercommunication pipeline (4) and upper header pipeline (5) fit in are provided with vortex blade (16), vortex blade (16) in intercommunication pipeline (4) correspond the diameter of intercommunication pipeline (4) and crescent, vortex blade (16) encircle to set up in the inner wall setting of intercommunication pipeline (4) and upper header pipeline (5).

3. An energy saving type coal gas burner apparatus as claimed in claim 2, characterized in that: the vortex blade (16) are equidistant from each other, the vortex blade (16) and the inner wall integrated into one piece of intercommunication pipeline (4) and upper header pipeline (5), the vortex blade (16) that upper header pipeline (5) and intercommunication pipeline (4) meet the department is reverse setting.

4. An energy saving type coal gas burner apparatus as claimed in claim 1, characterized in that: the upper connecting pipeline (5) is provided with a soft connecting pipe (8) in a matching mode, the soft connecting pipe (8) is provided with an axial flow air valve (9) in a matching mode, and the device body (1) is further provided with a direct current air valve (10) and a rotational flow air valve (11) in a matching mode.

5. An energy saving type coal gas burner apparatus as claimed in claim 1, characterized in that: the coal gas inlet pipeline (6) is obliquely embedded in the middle of the communicating pipeline (4) and connected with the communicating pipeline, a group of connecting flange assemblies (17) are arranged at the inlet end of the coal gas inlet pipeline (6) in a matched mode, and the coal gas inlet pipeline (7) and the coal gas inlet pipeline (6) are embedded in the communicating pipeline (4) in a parallel mode and are located on the right side of the coal gas inlet pipeline (6).

6. An energy saving type coal gas burner apparatus as claimed in claim 1, characterized in that: the diameter of intercommunication pipeline (4) is held (2) to spouting fire end (3) by the ignition and is crescent, ignition end (2) is held to spouting to cooperate in proper order on fire end (3) and is provided with flange subassembly (17), the cooperation is provided with ignition rod (12) between ignition end (2) and intercommunication pipeline (4), ignition rod (12) run through and set up inside intercommunication pipeline (4).

7. An energy saving type coal gas burner apparatus as claimed in claim 1, characterized in that: the communicating pipeline (4) is at least provided with three groups of pressure gauges (13) in a matching mode, and the pressure gauges (13) are sequentially arranged on the upper surface of the communicating pipeline (4) and are fixed.

8. An energy saving type coal gas burner apparatus as claimed in claim 4, wherein: the upper connecting pipeline (5) is arranged above the communicating pipeline (4) and is pre-provided with a radian of 35-45 degrees at the connecting part with the communicating pipeline (4), the upper connecting pipeline (5) is communicated with the communicating pipeline (4), an axial flow air valve (9) is arranged above the connecting part between the upper connecting pipeline (5) and the communicating pipeline (4) in a matched mode, and the flexible connecting pipe (8) is arranged in the middle of the upper connecting pipeline (5) and is fixed through a connecting flange component (17).

9. An energy saving type coal gas burner apparatus as claimed in claim 4, wherein: the direct-current air valve (10) is provided with a direct-current pipeline (14) in a matched mode, the rotational-flow air valve (11) is provided with a rotational-flow pipeline (15) in a matched mode, the direct-current air valve (10) and the rotational-flow air valve (11) are arranged between the upper connecting pipeline (5) and the communicating pipeline (4) and communicated with the upper connecting pipeline (5) and the communicating pipeline (4) through the direct-current pipeline (14) and the rotational-flow pipeline (15), and all pipelines in the device body (1) are fixed in a welding mode.

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