DE1057720B - Burner system with pulsating combustion - Google Patents

Description

GERMAN

The invention relates to a burner system with pulsating combustion, which is arranged within a housing shell and at least off a combustion chamber and an oscillating pipe, the intake chamber from the exhaust chamber is separate and has one or more openings for the inlet of fresh air. Burner systems with these features are known. In such systems, however, are due to the pulsating combustion Induced suction noise is very large.

In order to remedy this deficiency, is therefore according to the invention in the suction chamber, which by the Housing jacket and is limited by a partition between the intake chamber and the exhaust chamber, at a distance an annular wall is provided by the housing shell which has an opening which leads to the inlet opening is arranged offset in the housing shell, preferably diametrically opposite, so that a per se known ring-shaped space for the intake silencer is created. This means that with simple and ao cheap means an extraordinarily strong sound absorption achieved.

It is advantageous to arrange the ring wall concentrically in the housing jacket and to. their outer and / or inner perimeter with sound absorbing Disguise fabrics. Further soundproofing can be achieved in that the inlet opening or a suction pipe is connected directly upstream of the inlet openings in the housing jacket, which likewise is lined with sound-absorbing fabrics. It has also been found to be useful The partition between the intake chamber and the exhaust gas chamber is roughly the same as the one crossed by the diffusoT-like Ends of the vibration coupling member to lay the plane perpendicular to the axis of the combustion chambers,

An embodiment of the invention is shown in the drawing. It shows

1 shows a burner system with pulsating combustion arranged within a housing jacket with an intake silencer designed according to the invention in longitudinal section,

FIG. 2 shows a reduced cross section of the burner system along the line II-II in FIG. 1.

According to FIG. 1, the gas supply line 10 leads via a main gas valve 11 to the gas valve 15 a gas valve spring 16 is loaded in a space 17 and in gas water heaters in a known manner from operated by the water flowing to the heat exchanger. A pulse generator line goes from room 17 18 from which with a nozzle 19 in an injector tube 20 with a widened edge 21 protrudes.

Furthermore, the room 17 with a vacuum switch 22 through its vacuum valve 23 ver burner system with pulsating
combustion

Applicant:

Junkers & Co. GmbH,
Wernau / Neckar

Ernst Reimers, Wernau / Neckar,
has been named as the inventor

bundan; This valve is fastened by a rod 24 to a membrane 25, by means of which the housing of the vacuum switch 22 is divided into two chambers 26, 27 in such a way that one chamber 26 with the space 17 and the other chamber 27 through an opening 28 is related to the atmosphere. Furthermore, a spring 29, which acts on the membrane 25, is accommodated in the chamber 26. A suction line 30, in which a gas control valve 31 is provided, leads from the chamber 26 to a vibration coupling member 32 for gas, in the middle of which, namely at the mouth of the suction line 3O _3, two oppositely directed nozzles 33, 34 are installed, between which a Gap 35 is located. In addition to the vibration coupling member 32 for the supply of gas, a vibration coupling member 36 is arranged for the supply of the combustion air. This vibration coupling element consists of two diffusers 37, 38 facing one another with the narrowest cross-sections, between which a gap 39 'is provided for the inlet of combustion air and which protrude with part of their length into tube pieces 39, 40 that are widened like a diffuser. These pipe pieces are closed at the point of their largest cross-section by bottoms 41, 42 and concentrically surround the diffusers 37, 38. The pipe pieces 39, 40 intersect in the area of their smallest cross-section, at which the diffuser-like inclined at the intersection of the rotary pieces trained neck pieces 43, 44 of the combustion chambers 45, 46 connect !. Ignition openings 47, 48 are provided approximately in the area of the smallest cross section of these neck pieces 43, 44. In the vicinity of the crossing point, the diffusor-like ends of the vibration coupling element for gas also open into the pipe sections 39, 40 of the vibration coupling element 36 for air.

909 527/210

The water-controlled gas valve 15 is through a valve rod 49 with a membrane 50 of the water part 51 connected. Through this membrane 50, the water part 51 is in a back pressure chamber 52 and a vacuum chamber 53 is divided. It leads from the back pressure chamber 52 to a control channel 54 a water supply line 55, in such a way that the Control channel 54 opens from a venturi 56 built into the water supply line 55, its narrowest Place via a suction channel 57 'with the vacuum chamber 53 in connection. The water supply 55 then leads from the Venturi tube 56 to the beginning of the cylindrical part of the combustion chamber 45 and is wound as a cooling pipe coil 57 directly around the wall of the combustion chamber 45, and in such a way that there is a certain distance between all turns. The cooling pipe coil 57 is connected to a cooling pipe coil 59 at the level of the outlet opening 58 of the combustion chamber 45, which is wound around the combustion chamber 46 as a mirror image of the cooling pipe coil 57. At the beginning of the cylindrical part of the combustion chamber 46, a drain line 60 is connected to the cooling pipe coil 59, in which a hot water tap valve 61 is installed.

The cooling coils 57, 59 are surrounded by end walls 62, 63 so that the space for the oscillating coils 64, 65 is formed by the walls of the combustion chambers 45, 46, the end walls 62, 63 and the spaced-apart pipe turns of the cooling coils 57, 59 is, at the end of which a common exhaust port 66 is arranged. The transition from the combustion chambers 45, 46 to the oscillating tubes 64, 65 is created by locking _{pieces 67 J} 68 which are opposite the combustion chamber inlet and which are fastened to the end walls 62, 63.

The combustion chambers 45, 46 with the oscillating coil 64, 65, the exhaust pipe 66 and the Cooling coils 57, 59 are in an exhaust silencer room 69 arranged, via the exhaust line 70 to the chimney or directly is connected to the outside air. The exhaust silencer space 69 and the vibration coupling members 32, 36 for gas and air are installed within a housing jacket 71, with A partition 72 is provided between the intake space and the exhaust silencer space. Located between the exhaust silencer space 69 and the housing jacket 71 and the partition 72 a space 73, which is arranged in a ring around the exhaust silencing space 69 and, as Momentum space is used. This momentum space 73 communicates with the outdoors by means of a diffuser 74. Opposite the diffuser 74, the inlet opening of a pulse generator line 75 is arranged through a Valve 76 is closed. Pulse generator line 75 has an outlet opening 77 designed like a nozzle provided, which protrudes into the exhaust pipe 66 and in the flow direction of the combustion chambers 45, 46 extending exhaust gases.

In addition, the impulse chamber 73 communicates with the injector pipe 20 and the recesses 78 and the firing holes 79 which are arranged in the vicinity of the ignition orifices 47, 48, with the exhaust-muffling space 69 in \ ^r Getting Connected.

A suction chamber 80 is formed on the circumference by the housing jacket 71 and on the end faces by the Partition 72 between the intake space 80 and the exhaust space 69 and through the bottom 81 of the Housing jacket 71 limited. Instead of the bottom 81, however, a special partition between Suction space 80 and the space for the fittings can be arranged. To in the partition 72 the through openings To be able to keep as small as possible, the partition 72 is approximately in the through the crossed diffuser-like widened pipe pieces 39,40 of the vibration coupling member 36 going plane perpendicular to the axis of the combustion chambers. 45, 46 laid.

ίο For the; Fresh air is supplied in suction space 80 an inlet port 82 is provided. According to the invention is in, the suction space 80 at a distance from the Housing jacket 71 concentrically provided an annular wall 83 which has an opening 84 which the Inlet opening 82 in the housing jacket 71 is diametrically opposite. This creates a ring-shaped one Space 85 (FIG. 2), which serves as the neck of a resonator, namely the suction space 80. the Ring wall 83 is lined on its outer and inner circumference 86, 87 with sound-absorbing materials. A further sound attenuation is achieved in that the inlet opening 82 in the jacket 71 a suction pipe 88 of rectangular cross-section is connected upstream, which is also with sound-absorbing Is lined with fabrics.

The burner system shown in the drawing works as follows:

After opening the hot water dispensing valve 61, water will flow out of the drain line 60; at the same time, water will flow into the feed line 55; there is a 56 in front of the Venturi tube Back pressure arise due to the. Control channel 54 and the back pressure chamber 52 on the membrane 50 works. At the same time, the vacuum chamber 53 of the water part 51 becomes water through the suction channel 57 ' sucked off, because at the closest. Place of the Venturi tube 56, the water speed is so great that a Negative pressure occurs. Due to the corresponding pressure difference in the two chambers 52, 53, is the membrane 50 bulge strongly and thereby the gas valve 15 via the valve rod 49 against the gas valve spring 16 open.

Gas can now from the gas supply line 10 into the space 17 and from there into the pulse generator line 18 / stream. Via the nozzle 19, the gas is drawn in at the same time as air is drawn in at the widened edge 21 into the injector tube 20 and thus into the pulse space 73 blown in, so that an ignitable gas-air mixture is created in this pulse space. This Mixture is ignited by the flame of a match. Through the. when burning of the gas-air mixture in the ring-shaped pulse space 73, the excess pressure is lifted Valve 76 from the inlet opening of the pulse generator line 75 and at the same time closes the opening of the diffuser 74. The exhaust gases produced during the combustion can now enter the pulse generator line 75 flow in and leave the pulse generator line through the nozzle 77 arranged in the exhaust pipe 66.

As a result of the suction occurring in the process, a suction pipe enters the combustion chambers 45, 46 via the oscillating pipes 64, 65 strong negative pressure, which is available for sucking in fresh air and fresh gas stands.

When the gas control valve 31 is open, it is therefore also in the chamber 26 via the suction line 30 of the vacuum switch 22 on. Negative pressure arise. However, since in the adjacent chamber 27 atmospheric pressure prevails, the membrane 25 will move in the direction of the space 17 and thereby

against the spring 29 via the rod 24 the vacuum valve 23 open so that gas from space 17 through chamber 24 and suction line 30 to the suction opening 35 can stream.

If the negative pressure at the suction opening 35, then the negative pressure valve 23 is below the Close the action of the spring 29; thus the gas supply is shut off.

Due to the negative pressure in the combustion chambers 45, 46, air is sucked in through the intake pipe 88, which flows through the inlet opening 82 in the housing jacket 71 into the annular space 85 and through the Opening 84 reaches the suction chamber 80. The fresh air is now through the gap 39 'of the vibration coupling member 36 is sucked in and passes through the diffusers 37, 38 after being deflected by 180 ° into the diffuser-like widened pipe pieces 39, 40 and through the neck pieces 43, 44 into the combustion chambers 45, 46. In this way, 45, 46 creates an ignitable gas-air mixture.

After the already described ignition of the gas-air mixture in the pulse space 73 on the diffuser 74 the gas-air mixture in the pulse space 73 burns very quickly. During the combustion of the gas-air mixture in momentum space. 73 becomes the flame over the openings 78 and the ignition holes 79 the ignition openings 47, 48 reach and in one of the combustion chambers 45, 46 the gas-air mixture located therein ignite.

In the combustion chambers 45, 46 then takes place in a known Way a pulsating combustion in push-pull takes place, with fresh air and fresh gas also continue to be supplied via the vibration coupling members 36, 32 for air and gas. The combustion gases are during this oscillation process from the combustion chambers 45, 46 into the oscillating pipe coils 64, 65, flow through them and out of the exhaust connection 66 into the exhaust silencing chamber 69 are expelled and finally the space 69 through the exhaust pipe 70 leave.

The walls of the combustion chambers 45, 46 are opened by the hot exhaust gases produced during the deflagration and the oscillating pipes 64, 65 are very strongly heated, so that the cooling pipe coils 57, 59 flowing cold water is heated and flows out of the discharge line 60 as hot water.

If the nozzle 61 is closed, then the flow of water in the water supply line 55 stops.

In the water part 51 is in both. Chambers 52, 53 the full water pressure prevail and a pressure equalization to adjust. Under the pressure of the gas valve spring, the gas valve 15 will close and thus the Shut off the gas supply to room 17. The pulsating combustion stops.

Claims (6)

Patent claims: 1. Burner system with pulsating combustion, which is arranged within a housing jacket is and at least from a combustion chamber and one .; Oscillating pipe consists, the suction chamber. is separated from the exhaust space and has one or more openings for the inlet of Having fresh air, characterized in that in the suction space (80), which through the housing jacket (71) and through a partition (72) between the intake chamber (80) and the exhaust chamber (69) is limited, at a distance from the housing shell (71) an annular wall (83) is provided which has a Has opening (84) which is arranged offset to the inlet opening (82) in the housing jacket (71) is - preferably diametrically opposite - so that an annular space (85) for the suction sound attenuation arises. 2. Burner system according to claim 1, characterized in that the annular wall (83) is concentric is arranged in the housing jacket (71). 3. Burner system according to claim 1, characterized in that the annular wall (83) at its outer and / or inner circumference (86, 87) is covered with sound-absorbing material. 4. Burner system according to claim 1, characterized in that the inlet opening (82) or a suction pipe (88) is connected directly upstream of the inlet openings in the housing jacket. 5. Burner system according to claim 4, characterized in that that the suction pipe (88) is lined with sound-absorbing materials. 6. Burner system according to claim 1, characterized in that that the partition (72) between the suction chamber (80) and the exhaust gas chamber (69) approximately in the widened diffuser-like manner through the crossed Pipe pieces of the vibration coupling member going plane is placed perpendicular to the axis of the combustion chambers (45, 46). Considered publications:
German patent specification No. 688 028. 1 sheet of drawings © 909 527/210 5.5Ϊ