HU216592B - Gas burner, in particular for uquefied gaz - Google Patents

Abstract

The present invention relates to a gas burner, in particular a burner gas burner, which is incorporated into the flame tube (31) of a heat exchanger or pellet heat exchanger, and which burns a burner (3) with a burning surface (7) arranged in a flame chamber (31) or a combustion chamber (31), a mixing tube (15) having a nozzle (23) equipped with a gas nozzle (23) equipped with a primary air inlet opening and a circular arrangement formed around the burner (3) and formed of jet air jets (10) directed towards the combustion surface (7); wherein the burning surface (7) of the burner (3) is disposed in a recessed position relative to the vent air nozzle (10). The invention is based on the fact that the sectional air nozzles (10) have a nozzle opening (11) parallel to their hemispherical mid-axis and are arranged so that their central axis of heroine closes with a mid-pitcher burner radius 50-75, preferably 62.5, and a gas burner. one, the burner tube (1) is fitted with a burner insert having a suction air nozzle (10) in the annular pad (5), and the combustion surface (7) is provided with a cylindrical insert (6) through the insert (5) recessed. ŕ

Description

BACKGROUND OF THE INVENTION The present invention relates to a gas burner, in particular a liquid gas, which is incorporated in a flame pipe or combustion chamber of a heat exchanger or the like, and which is connected to comprising a mixing tube and a secondary air inlet assembly comprising circular secondary air nozzles arranged around the burner and directed toward the combustion surface, wherein the burn surface of the burner is recessed relative to the secondary air nozzles.

In a gas burner of this type, known from DE-PS 3327 140, a burner head is coaxially arranged in a flame tube and connected to a mixing tube for introducing gas and primary air. A secondary air supply unit is formed around this burner, which is provided with openings in the plate ring surrounding the burner which are directed towards the center of the burner to provide the necessary secondary air to the burner through the jets of air leaving them. Because the actual burner surface of the burner is arranged higher than the secondary air openings and the jets of air are deflected relatively steeply upward by a protruding cylindrical wall, the gas flame is provided with sufficient secondary air only in its peripheral region while the flame core is too small. Attempts have been made in practice to improve the introduction of secondary air by replacing the secondary air openings in the plate ring with gill-type air nozzles, the outlets of which are arranged in a manner substantially generating tangential air jets. However, this solution did not bring about any significant improvement. In the gas burner described above, the mixing tube from the gas nozzle to the burner head is formed as a ribbed hose having a constant diameter and is provided with only a short funnel-shaped expansion within the burner to a metal screen, thereby providing the mixing effect in this mixing tube.

EP-A-0223691 discloses a gas burner having the structure outlined in the preamble, wherein the flow openings of the secondary air nozzles extend at an angle of 90 ° with respect to the burner radius passing through the center of the orifice.

Volume 157 (M-227) (1302) of Patent Abstracts of Japan, Vol. 157, discloses a burner in which the combustion surface is recessed relative to the secondary air nozzles and the nozzles are also perpendicular to the radius of the burner through them.

However, these solutions do not ensure that the secondary air is supplied to the flame with optimal mixing.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a gas burner that provides greater combustion efficiency through improved air intake.

This object is solved by a gas burner having the construction according to the preamble, wherein the secondary air nozzles according to the invention have a nozzle parallel to their longitudinal central axis and arranged with a central burner radius of 75 with their longitudinal central axis.

Preferred embodiments of the invention are set forth in the dependent claims.

According to the invention, for example, it is advantageous if the gas burner is provided with a burner insert which can be mounted on the burner tube, in which the secondary air nozzles are formed in the annular insert and the combustion surface is recessed by a cylindrical insert. It is also advantageous to insert the burner insert insert into the sleeve of the mixing tube. It is also advantageous if the burn surface is submerged from 3 to 20 millimeters relative to the base.

According to a preferred embodiment of the invention, the secondary air jets have nozzles extending substantially perpendicular to the pad base and their nozzles protrude from the pad base at an angle of about 30 °.

Similarly, it is desirable to have a mixing tube having an injection funnel 20-30 mm long and having an expansion angle 20-85 ° and an intermediate injector part 50-70 mm long and having an expansion angle 1-30 °, while having an inlet section 6-10 mm long, and the angle of expansion opposite to the flow direction is 30-150 °.

By sinking the actual combustion surface according to the invention, the flame can be adequately supplied with secondary air relative to the annular pad base of the burner having circular secondary air jets, thereby providing optimum combustion. Since the air jets of the present invention are only flowing a short distance above the flame stumps along the combustion surface, they are exposed to the flame in the full cross-section of the secondary air, and not only to its outer regions. Secondary air jets set at a defined discharge angle also facilitate flame stabilization without interfering with flame development. By fully contacting the secondary air with the flame, it eliminates more or less heated air in the flange region of the flame to escape the combustion gases, which adversely affects the heat transfer through the heat exchanger treads. In addition, the combustion efficiency is further increased by the injector for the primary air of the mixing tube, since, due to its gradual expansion, it provides a more intense mixing effect with a more even distribution of the gas-air mixture. Finally, the interaction between this injector and the secondary air intake resulting from the sinking of the combustion surface contributes to further optimization of the combustion. This secondary air intake not only offers the advantage of being able to introduce this fraction of air deep into the flame core, but also results in a twist of the flame

EN 216 592 Β, which contributes to more intensive mixing in the combustion chamber.

The invention will now be described in more detail with reference to an exemplary embodiment of a gas burner integrated in a flame tube of a heat exchanger.

In the drawing, Figure 1 is a vertical sectional view of a gas burner integrated in a flame tube, Figure 2 is a sectional view of a burner insert, and Figure 3 is a top view of the burner insert of Figure 2. As shown in Fig. 1, a burner head 3 having a burner insert 4 is mounted on the end edge 2 of a burner tube 1 and fixed thereto. An annular pad 5 forms here a bearing surface which rests on the front edge 2. The burner surface 7 of the burner is recessed relative to the base 5, for example at least 3-20 mm, whereby a cylindrical core 6 forms a connection with the base 5. The combustion surface 7 comprises, in a manner known per se, a metal screen 8 and a bore ring 9, where this bore ring 9, together with the insert cover 6, can form a piece. The ring material of the liner 5 is formed in a circular arrangement with secondary air nozzles 10 having substantially rectangular nozzles 11 extending approximately perpendicular to the liner 5 and delimited by an oblique nozzle top 12 at a distance from the nozzle orifice 11 = 30 ° above the insert base 5 as shown in Figure 2. The nozzle openings 11 are not oriented radially to the center of the burner but are rotated at a defined angle relative to their respective burner radius Rs. This angle of view, as shown in Fig. 3, is, for example, e = 62.5 ° between the burner radius R through the center of the secondary air nozzle 10 and the longitudinal central axis L of the secondary air nozzle 10. This angle of pitch ε can be varied between 50 ° and 75 ° without appreciably degrading the effect of the air jet on the flame, as long as the air jets completely scan the portion of the burn surface 7 formed by the bore ring 9. Surprisingly, it has proven advantageous to keep the flame core in the region of the free metal screen 8 away from direct exposure to air rays. The nozzle design and arrangement of the present invention provides that the secondary air, on the one hand, flows directly over the insert base 5, at a short distance above the flame tips, and on the other hand, the jets of air not concentrated in the center of the burner. on. The burner insert 4 is inserted into the sleeve 17 of the primary air mixing tube 15 by the insertion skirt 6. The tabs 21 on the sleeve 17 allow this part to be screwed or bolted together with the insert base 5. The sleeve 17 is formed at the outer end of the injector funnel 16 of the mixing tube 15, which is a continuation of an intermediate injector part 19, the other end having a tapered inlet 20 through which the gas exiting the gas jet 23 enters the mixing tube 15 where the gas is mixed with the primary air. The gas nozzle 23 is fed through a gas inlet pipe 24 into which is mounted a valve 25, such as a solenoid valve. The mixing intensity in the mixing tube 15 is largely dependent on the length and tapering conditions of each mixing tube section. For example, in a particularly powerful mixing tube 15, the length of the injector funnel 16 is 1) = 25 mm, the length of the intermediate injector part is 1 ₂ = 60 mm and the length of the inlet is 1 ₃ = 8 mm. Preferred values of the flow directional expansion in each mixing tube section are as follows: a = 20-85 ° in the injector funnel 16, β = 1-30 ° in the intermediate injector portion 19, and an opposite angle of flow to the inlet 20 γ = 3Ο-15Ο. °. The length ratios can be varied within a range up to a maximum of 20%. Naturally, the burner tube 1, shown as a cylinder, may also have a rectangular, e.g. square, cross-section. The bottom of the burner tube 26 is open to provide access to primary and secondary air. If the air intake is forced, for example by means of a fan, this bottom opening must be properly connected to it. On the flange ring 27 of the burner 1 shown there is mounted a flame tube 30 to which a flame tube 31 is connected. The flame socket 30 is further complemented by a flue gas collector 32. Finally, Fig. 1 shows the ignition electrodes 34, and Fig. 3 shows the passages 35 for them in the base 5.

Claims (8)

PATENT CLAIMS A gas burner, especially for liquid gases, which is incorporated in a flame pipe (31) or combustion chamber of a heat exchanger or the like and which comprises a burner (3) coaxially arranged in the flame pipe (31) or combustion chamber with the combustion surface (7). , a mixing tube (15) having a primary air outlet and a gas nozzle (23) at the inlet (20), and a secondary air nozzle (10) arranged in a circular arrangement around the burner head (3) directed to the combustion surface (7). ) comprising a stationary secondary air inlet unit, wherein the burn surface (7) of the burner head (3) is recessed relative to the secondary air nozzles (10), characterized in that the secondary air nozzles (10) are parallel to their longitudinal central axis (L) and are arranged such that their longitudinal center axis (L) is a with a burner radius (R) passing through their center, they form an angle (ε) of 50-75 °. Gas burner according to Claim 1, characterized in that the angle (ε) of the secondary air nozzle (10) is 62.5 °. Gas burner according to Claim 1 or 2, characterized in that it is provided with a burner insert (4) which can be mounted on the burner pipe (1) and has a secondary air nozzle (10) formed in its annular insert base (5). the combustion surface (7) is recessed by a cylindrical insert (6) relative to the insert (5). HU 216,592 Β Gas burner according to Claim 3, characterized in that the insert (6) of the burner insert (4) is inserted into a socket (17) of the mixing tube (15). Gas burner according to claim 3 or 4, characterized in that the combustion surface (7) is recessed from 3 to 20 millimeters in relation to the insert base (5). 6. A gas burner according to any one of claims 1 to 4, characterized in that the secondary air nozzles (10) have nozzle openings (11) extending perpendicular to the insert base (5) and protruding from the insert base (5) at an angle of 30 °. 7. A gas burner according to any one of claims 1 to 4, characterized in that the mixing tube (15) has an injection hopper (16) having a length of 20-30 mm (11) and an expansion angle (a) of 20-85 ° and a 50-70 mm length. It has an intermediate injection part (19) having an expansion angle (β) of 5 (1 ₂ ) and an expansion angle (β) of 1 to 30 °. 8. Burner according to claim 7, characterized in that the mixing tube (15) an input member (20) is 6-10 mm in length (1 ₃₎ and opposite the direction of flow irá10-directional expansion angle (γ) from 30 to 150 °.