HU186436B - Gas burner of flat flame - Google Patents

Abstract

1. Gas burner producing planar flames comprising a burner body (2) having an interior which widens in a diffusor like manner, an annular air supply channel (4) and a gas supply pipe (3) arranged coaxially within the air supply channel (4) gas nozzles (14) being formed at the head part (13) of the gas supply pipe and being directed into mixing grooves (9) which extend helically at an angle to the axis of the burner and into which the air supply pipe (4) empties in an axial direction, and the inner ends of the mixing grooves adjacent the mouth of the air supply pipe (4) being axially inclined relative to the burner axis, characterised in that a swirl-inducer (5) is formed in the air supply pipe (4), in that starting from the opening position of the air supply pipe (4) the interior of the burner body (2) widens arcuately and the mixing grooves (9) are develloped on the internal surface (8) of the burner body (2), and in that the gas nozzles (14) incline radially and axially relative to the burner axis.

Description

The flat-burner flame gas burner is used to heat industrial furnaces, which can be controlled in a wide range of performance without the risk of flame burst or burnback, and even at low power, gives a flat flame, even at high air temperature preheating.

There are two basic types of flame burner known in the literature and practice.

In one type, the flame of the burner is provided with deflectors made of different materials in the direction of the flow of gauze and / or air to produce a flat flame of the desired degree and nature.

The most well-known solution is the burner of a household gas stove, which is used by almost everyone, where a ribbed fence made of cast iron rests on the burner and forms a radial flat flame on the outside.

Austrian Patent No. 334,020 discloses a self-regulating burner for combustion of any type of combustible gas having a baffle located on a burner head surrounding the gas-air mixture distribution chamber. The exterior surface of the head with vertical slits is concentric upwardly tapered, the inner surface expands and determines the direction of gas flow. Adjacent to the deflector member, there is an annular cascade in the form of a U-shaped groove with the deflector housing. The lower part of the guide plate is stepped in, partly to prevent movement and partly due to flame formation.

The gas flowing out of the slits forms a series of flames of radial strands.

German Patent Publication No. 1,914,615 discloses a burner for burning all types of combustible gas, which is particularly suitable for operating a water heater such as a bathroom boyler. The burner head consists of a funnel-expanding outer wall and a baffle counter piece which has an annular gap communicated by an outer wall and a rim portion and the inlet cross-section is at least as large as the outlet annular slot. This burner is fixed to a rain which carries a mixture of combustible gas and air injected by it. The angle of the defined space of the funnel and counter-jaw defines the angle of the resulting flame.

A common disadvantage of the above-described flap injector flap injectors is the low power output and the resulting low flame retardant, low controllability and unreliability.

The drawbacks are to eliminate the drawbacks of the pressure burners where by defining the direction of the flow of large amounts of combustion air (creating a twist) the flame is formed by a baffle placed in the flow of air or combustible mixture.

From the Soviet copyright certificate 366 3J3, there is a flame-fired vaulted flame burner. The combustion air is rotated by means of a helical conveying means arranged on the gas inlet pipe, which is introduced into the combustion chamber by a ceramic radiator at one end which fits into the air pipe and at the other end is expanded by a funnel. The gas enters the air stream through channels formed perpendicular to the direction of air flow in the insert and forms a combustible mixture. The ceramic radiator and the intestine force the combustible mixture to flow so as to produce a flat flame. In the space between the vault and the ceramic radiator lik, flue gas from the non-circulating flue gas and the ceramic radiator flow through the boreholes parallel to the axis of the burner.

A deflector is arranged in the center line of the RBF-G burner at the Institute of Petroleum Engineering. The baffle plate is mounted on a support tube, which is also a gas inlet tube. There is a ribbed reducer on the baffle receptacle extension, which has two gas inlet holes perpendicular to the burner shaft and connected between two ribs.

air and the combustible mixture flow parallel to the axis of the burner and give a flame defined in the shape of a baffle.

The main disadvantage of these pre-fracture burners is that, at low power, the flame retracts inside the burner and all its internal components are burned, and partly that combustion is already in progress on the deflector, which has been clearly demonstrated by the practice to deflect the deflector. burns).

The burner disclosed in British Patent No. 1,349,539 is suitable for forming a variety of flame patterns, depending on the type of stone or refractory masonry. It is also possible to create a flat flame if this shape is curved or if the burner outlet ducts are located in front of a flat wall. The burner itself is composed of concentric arrangement tubes, the air flowing at the end in a tapered tube. gas in the surrounding pipe. Λ gas is discharged through the annular gap defined by the two tubes. The conical surface of the air duct is fitted with a conical support element with curved channels on its surface. The conical surface of the support member extends axially beyond the conical portion of the air tube. Due to the forced path, the air rotates and exits the burner and mixes with the gas flowing out parallel to the burner axis.

The basic mistake of this solution is that the air exiting the burner will only later mix with the gas outside the burner in the combustion chamber and ignition - especially in pressurized space.

Another basic type of flat-burner burner utilizes the property of non-permeable air that, due to its inertia, tends to follow the geometry of the burner, producing a flat flame when properly angled and burned.

Hungarian Patent No. 176,169 describes a gas burner with a plate flame that provides a flame and flue gas flow in a plane perpendicular to the burner axis, thereby eliminating overheating of temperature sensitive components in the burner environment. The gas burner according to the invention has a housing insert, a communicating air space of the housing and the insert, at least two rows of Langenclature openings in the insert for flushing the combustion air, a preheating burner space in the insert The gas flame burner according to the invention is obtained in a two-stage process by receiving the complete amount of combustion air in a pre-mix burner.

Because the combustion gas-air mixture is available in the interior of the burner, combustion begins here, and even at low power, the sinter is completely made here, and the internal components of the burner are quickly destroyed.

The Hungarian Patent No. 156,345 discloses a high-temperature burner with radial flame extensions, coaxial tubes for fuel and air, which at their outlet end expand in a funnel-shaped manner, and in which the air-conducting funnel portion is provided with apertures, the gas has an intensely rotating radius, which translates into a radial axial discharge relative to the burner axis. Said openings are arranged in at least three planes and the distance between the edges of the openings closest to the cylindrical part of the inlet tube and the edges of the outermost openings is at least one third of the internal diameter of the burner duct, and the outlet ends of the tubes not less than half, but not more than five times the internal diameter of the combustion duct.

Pressure drops caused by locally distributed fuel and air intake can be reduced during mixing and also the rate of discharge of the glowing gases, which increases the radial extension of the flame. The basic mistake of this burner is that at low power values - since there is already a gas-air mixture in the tapered head of the air inlet pipe, the combustion retracts and burns the internal components.

Flat flame burners with a narrow air inlet and parallel to the center of the gas inlet in the center are widely used in the USSR. The air is diverted by means of a ductile inlet and / or a spiral duct located on the gas inlet pipe. The difference is in the design and arrangement of the gas inlet nozzles and bores.

They have in common that gas inflow! its direction is perpendicular to the direction of air flow, i.e. the axis of the nozzles and bores is perpendicular to the axis of the burner.

At the beginning of the burner gas inlet pipe described in Soviet Patent Nos. 343,111 and 431,366, two rows of holes are drilled on the top of the jacket. The holes are made with an axis that is at an angle to the gas inlet radius, so that the gas also receives a slight overhang.

In the case of the burner included in the Soviet copyright certificate 561 839, as a further development of the 431 366 invention, there are not only holes but also oval slits in the gas inlet pipe. The oval slits are arranged so that their longitudinal axis and their small axis are parallel to the burner axis, including a hole. All three in a row.

The invention, which is included in the Soviet patent certificate of 544 830, is also an improvement of the invention of the 431 36C. There are already nozzles placed in the head of the gas inlet pipe. The nozzles are arranged in three rows in a plane perpendicular to the longitudinal axis of the shaft and the rows are rotated relative to one another. The nozzles are inclined at an angle to bring the gas to a small angle.

A solution known from the Soviet copyright certificate No. 595,589 is also a further development of the invention of the 431,366 lei. In this arrangement, a longitudinal and / or shorter row of nozzles arranged at an angle is provided in two planes at the end of the steam inlet pipe. Shorter nozzles are larger, longer nozzles are smaller in diameter.

Ezovjet Certificate 603 805 discloses a flat flame burner having a plurality of nozzle arrows in a plane perpendicular to the burner axis. The nozzles are in a radial direction,

-3186436, however, each of its edges is cut with an airflow direction which has an acute axis that has a curved peripheral surface closer to the burner axis in the direction of air rotation.

A common disadvantage of these burners is that the gas exiting the gas pipe through nozzles and bores flows in a plane (s) perpendicular to the axis of the gas pipe and comes into contact with the circulating flowing air. The gas-air mixing takes place very quickly and the combustion starts at the end of the gas pipe. At low power, when the flow velocity is low, the combustion is retracted into the back part of the burner and burned by its structural members (gas pipe, conveyor, etc.).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a flat flame gas burner which produces a flat flame without deflector elements by delayed premixing within the burner tube and by an extended combustion process such that neither re-ignition nor flame-retardant operating problems or structural damage occur. even with air preheating.

The invention relates to a flat flame gas burner with combustion air, a fuel feeder, an air recirculator, a gas inlet pipe having a prebendage guide channel formed at the inside surface of the burner, which angles the burner axis, and has a frontal

1 is a longitudinal section through the burner, FIG. 2 is a sectional view of the nozzle holder tube A-A with the nozzles, and FIG. 3 is a front view of the nozzle holder tube with the nozzles.

The burner housing 1 is provided with a burner stone 2 and an axially symmetrical nozzle barrel 3, which is also used for the introduction of gas. The inner air space 4 is located around the nozzle support tube 3, the conveyor 5 and the surrounding outside air space 6. The rear closure 7, which also provides insulating functions, serves to center the nozzle support tube 3.

In the inner surface 8 of the burner stone 2, which has an expanding body of rotation, a uniform distribution of the pre-mixing channels 9 is formed, depending on the size and function of the burner. The pre-mixing guide channels 9 extend from the inner front wall 10 of the burner 2 to the outer front part 11 in the form of an expanding helical line, such that the channel outlet is located on the peripheral surface 12. The cross-section of the pre-mixing-conducting channel 9 is expediently constant or may be increasing. Its center line is at an angle to the burner axis and to the inner front wall 10, which is a function of power, flame diameter, and burner training. It is desirable to tilt the channels at an angle of 45 °. The pre-mixing guide channels 9 are formed on the inner front wall 10 so that the channels have a depth approximately equal to the annular width of the inner air space 4. The smallest size of the inner surface 8 at the inner front wall 10 is approximately the same as the outer size of the nozzle support tube 3.

Thus, the recirculated air 5, which has tangentially arranged channels 17 on the inner surface of which connect the outer and inner air spaces 6, flows through the entire inlet cross-section of the pre-mixing channels 9, with only a small amount of air going in the tendinous direction. To this end, the nozzle support tube 3 extends beyond the inner front wall 10 and nearly closes the open side of the inlet cross-section of the ducts. The head 13 of the nozzle support tube 3 is configured to allow the nozzles 14 to be biased there. The axis of the nozzle 14 is parallel or at an angle to the axis of the pre-mixing channel 9 so that it is also preferably inclined at an angle cc = 45 °. Depending on the degree of premixing, the angle of inclination 3 from the axis of the nozzle support tube 3 is preferably 45 *. By varying the value of the angles s and the length of the nozzle 14, it is possible to influence the burning parameters over a wide range, taking into account the area of use of the burner. For example, in the case of nozzles located in the axis of the duct, located along its axis, mixing takes place in a laseab, and the combustion drags on to produce a soft, larger diameter flame.

The flame pattern can also be influenced by changing the position of the nozzle holder tube 3, which determines the position of the nozzles relative to the channel and changes the flame pattern accordingly. Thus, the nozzles 14 do not always extend into the pre-mixing channel 9. The ignition and re-assembly is done by means of an ignition burner 15 located in the burner shaft in the nozzle holder tube 3. For safety reasons of ignition and flame stability, holes 16 may be provided in the head 13 of the nozzle support tube through which gas is flowing and, when mixed with a small amount of air flowing out of the nozzle 3, provides a stabilizing flame.

The burner air is supplied from the air supply pipe 18 from the air supply and from the gas supply pipe 19 from the fuel supply.

It is advisable to preheat the combustion air to increase efficiency. The burner operates reliably even at high combustion air temperatures.

The flat flame burner according to the invention can advantageously be used for heating closed spaces, furnace vault burners, etc.

Claims (2)

Patent claims A flat flame burner with air and fuel supplying means, an air recirculator, a gas inlet pipe, characterized in that it has pre-mixing channels (9) formed on the inner surface (8) of the burner (2), which angles the burner axis, The tube (3) has nozzles (14) arranged in a bidirectional manner on the head (13) of the tube (3). Flat-burner gas burner 5 according to claim 1, characterized in that the mixing-conducting ducts (9) are of uniform cross-section or extend in the direction of the outer front part.