EP2413031A1 - Premixing combustion device - Google Patents

Abstract

The device (1) has a blower (2) which delivers a combustion mixture from an outlet opening (8) of the blower to a combustion zone through a burner cylinder (9). A mixing device (3) is arranged upstream of the blower and prepares the combustion mixture. A through flow reduction device (10) is arranged between the outlet opening and the burner cylinder. A through flow reduction element (13) is adjusted between a position at which the outlet opening is opened and a position at which the size of the outlet opening of the blower is reduced. An independent claim is included for method for starting premixing combustion device.

Description

The invention is directed to a premixing combustor for a boiler including a blower that conveys a combustion mixture of fuel and air from an exhaust port of the blower to a combustion zone via a combustion cylinder, with a mixer arranged upstream of the blower processing the combustion mixture.

Furthermore, the invention is directed to a method for starting a premixing combustion device for a boiler, wherein a formed from fuel and air combustion mixture is processed by a mixing device arranged upstream of a fan and conveyed from an outlet opening of the blower, the combustion mixture via a combustion cylinder to a combustion zone becomes.

Boilers with premixing combustion devices are known from the prior art and are used for heating of heating and / or service water in buildings and homes. In the operation of such conventional boilers, the hot combustion gases in heat exchanger tubes are passed through the heating and / or service water located in the boilers. The combustion exhaust gas cools down and finally condenses. In contrast to the conventional boilers, in condensing boilers, in addition to the heat of the combustion exhaust gases, the heat of condensation of the water vapor in the combustion exhaust gas is also utilized, whereby the energy content of the fuel used is almost completely utilized.

In the aforementioned types of boilers, the start of the combustion device is a particularly critical phase in which ignition problems of the combustion mixture can occur. It is generally known to reduce in a burning combustion device operated with combustion gas during a starting phase, the air content, so that with Fuel supersaturated combustion mixture can be safely ignited. Furthermore, regulators are known from the prior art in which during a starting phase of the combustion device, the amount of air reduced and / or the amount of fuel is increased, this process is repeated cyclically while changing the combustion mixture until a reliable ignition occurs. The measures of reducing the proportion of air and / or increasing the proportion of fuel serve primarily the purpose of being able to operate a boiler in continuous operation as low as possible, the measures are also used during the starting phase of boilers.

The disadvantage of the known measures is therefore that the combustion mixture is always set immediately to the value of a required target heat output and reduced during the starting phase of the target air content or the target gas content is increased, resulting in increased emissions of pollutants , In addition, the ignitable combustion mixture flows during the start phase almost abruptly in a combustion zone, so that the ignition represents a jump into the load operation inside. This process leads to undesirable pressure surges or pulsations in the combustion chamber of the boiler and can lead to disturbances of the combustion device.

The invention has for its object to provide a solution in a premixing combustion device of the type described above, which ensures a safe start of the boiler and prevents interference in a structurally simple manner.

In a pre-mixing combustion device of the type described, this object is achieved by a arranged between the outlet of the fan and the combustion cylinder flow reduction device with a flow reduction, the adjustable between a discharge opening of the blower opening and releasing position and the outlet opening of the blower position is.

Likewise, the above object is achieved in a method of the type described, characterized in that simultaneously with the start of the combustion device arranged between the outlet opening of the fan and the combustion cylinder flow reduction of a flow reduction device from the outlet opening of the blower opening or releasing position in a the outlet opening of the Blower reducing position is moved.

Advantageous and expedient refinements and developments of the invention will become apparent from the dependent claims.

The invention provides a possibility with which a reliable ignition of the combustion mixture is ensured in a pre-mixing combustion device in a structurally simple manner. By means of the flow reduction element of the flow reduction device, the pressure and the speed of the combustion mixture flowing toward the combustion cylinder can be regulated or controlled at the start of the premixing combustion device by changing the cross section of the outlet opening of the blower, so that conditions for reliable ignition are given. Due to the possibility of controlling or controlling the ignition conditions, a "soft" or "gentle" start of the combustion device is possible, so that pulsations can be prevented in the starting phase. In addition, the regulation or control of the ignition conditions ensures a reliable start of the combustion device even with difficult chimney conditions of the exhaust gas duct.

It has been found within the scope of the invention that for a "softer" or "gentler" start of the combustion device and to avoid starting pulsations, a higher blower pressure and a lower flow velocity of the combustion mixture are helpful. This is achieved in an embodiment of the combustion device according to the invention characterized in that the flow-reducing element at the start of the combustion device in the position reducing the outlet opening of the fan is arranged. Immediately after ignition of the combustion mixture, the flow reduction element is then moved into the position opening the outlet opening of the blower and remains in this position during operation of the combustion device.

In an embodiment of the combustion device according to the invention, it is provided that in the position of the flow reduction element which reduces the outlet opening of the fan, the remaining cross section of the outlet opening is 15% to 45% of the cross section of the outlet opening in the open position of the flow reduction element. Likewise, the invention provides in a further development of the method, that in the position of the flow reduction element reducing the outlet opening of the blower, the remaining cross section of the outlet opening is reduced to 15% to 45% of the cross section of the outlet opening when the flow reduction element is open. The cross section of the outlet opening of the fan is thus reduced by the flow reduction element, namely by 55% to 85% of the actual cross section of the outlet opening. Preferably, the remaining cross-section of the outlet opening of the blower is reduced to 30%, whereby a higher blower pressure and a lower flow rate of the combustion mixture are achieved in the combustion zone.

In an embodiment of the combustion device, the invention further provides that the flow-reducing element is a rotatably mounted flap element. As a result, a change in the flow cross-section of the outlet opening through which the combustion mixture flows and a regulation or control of the ignition conditions can be achieved in a structurally simple manner. However, the invention is not limited to a flow-reducing element in the form of a flap element. Rather, those skilled in the art will recognize that alternative embodiments are conceivable for this purpose, which cause a change in the flow rate. For example, the flow-reducing element could also be designed as a gate valve.

During operation of the premixing combustion device or the boiler, the flow reduction element is in the position opening the outlet opening of the blower. In order for this position of the flow rate reduction element to be ensured during ongoing boiler operation, the invention provides in an embodiment that the flow rate device has a return element which applies a force urging the flow rate reduction element into the position opening or releasing the outlet opening of the blower. Such a restoring element can be designed, for example, in the form of a restoring spring, which pretensions or holds the flow-reducing element in the position releasing the outlet opening of the blower.

The flow-reducing element is located only in the starting phase of the combustion device or only during the ignition phase of the combustion mixture in the position reducing the outlet opening of the blower. In order for this position to be assumed by the flow rate reduction element, it is provided according to the invention that the flow rate reduction device has an electromagnet which is coupled to the combustion device in such a way that, at the time the combustion device is started, the flow reduction element opens out of the position opening the outlet opening of the blower moved the outlet opening of the blower reducing position against the force of the return element. For this purpose, the electromagnet may be coupled, for example, with an ignition control of the combustion device. The ignition control ensures that voltages are applied in parallel or simultaneously both to an ignition transformer for activating the ignition electrode and to the electromagnet, so that the electromagnet is activated at the same time as ignition in order to cause the position of the flow reduction element to change. By the simultaneous and simultaneous activation of ignition transformer and electromagnet by means of the ignition control ensures that the solenoid, the flow reduction element actually only during the Start phase of the combustion device in which the outlet opening of the fan moves down position. After a successful start phase, no voltages are applied to the electromagnet and the ignition electrode, so that the force of the restoring element acting on the flow reduction element causes the flow reduction element to be moved back into and held in the position which opens the outlet opening of the blower.

Instead of an electromagnet, the flow-reducing device may have another suitable adjusting means to change the position or position of the flow-reducing element. For example, instead of an electromagnet, an electric motor coupled to the ignition control or a pneumatic control means coupled to the ignition control could be used to move the flow reduction element from the position opening the outlet opening of the blower to the position reducing the outlet opening of the blower and back again only during the ignition phase. The invention provides in a further development of the method that after starting the combustion device, i. after the successful start phase or successful ignition of the combustion mixture, the flow reduction element is moved from the position reducing the outlet opening of the blower into the position releasing the outlet opening of the blower. The reduction of the outlet opening of the fan is therefore only a measure that is taken at the time of startup. Once the combustion mixture is ignited, the entire or actual cross section of the outlet opening of the fan is released again.

It is understood that the features mentioned above and those yet to be explained can be used not only in the particular combination given, but also in other combinations or in isolation, without departing from the scope of the present invention. The scope of the invention is defined only by the claims.

• Figur 1 eine erfindungsgemäße vormischende Verbrennungseinrichtung in perspektivischer Darstellung,
• Figur 2 die erfindungsgemäße vormischende Verbrennungseinrichtung in einer Seitenansicht,
• Figur 3 eine Einzelteildarstellung einer Durchflussreduziervorrichtung und
• Figur 4 die Durchflussreduziervorrichtung im zusammengebauten Zustand.

Further details, features and advantages of the subject matter of the invention will become apparent from the following description taken in conjunction with the drawing, in which by way of example a preferred embodiment of the invention is shown. In the drawing shows:

• FIG. 1 a premixing combustion device according to the invention in a perspective view,
• FIG. 2 the premixing combustion device according to the invention in a side view,
• FIG. 3 an itemized view of a flow reduction device and
• FIG. 4 the flow reduction device in the assembled state.

One in the Figures 1 and 2 Premixing combustion device 1 for a boiler, not shown, which may be designed as a condensing boiler comprises a fan 2, which promotes a composite of fuel (for example gas) and air combustion mixture to a combustion zone, not shown in the figures. The blower 2 is mounted on a so-called burner door 6, which is held for maintenance and cleaning purposes by means of a holding device 7 pivotally. The combustion mixture is processed in a mixing device 3 arranged upstream of the blower 2, which is designed in the form of a Venturi tube and is conveyed through the air or combustion air. By a laterally opening into the mixing device 3 supply line 4 combustion gas is supplied to the air, wherein the proportion of the gas is adjustable by a valve 5. Homogenization of the combustion mixture is achieved by intensive mixing within the blower 2.

The combustion mixture of combustion gas and combustion air passes through an outlet opening 8 of the blower 2, the closer in FIG. 2 is shown in a arranged below the blower 2 and extending vertically below the combustion cylinder 9. The combustion mixture located in the combustion cylinder 9 then does not occur radially shown passage openings of the combustion cylinder 9 from this and flows into a combustion zone in which the combustion mixture is ignited in the starting phase of the combustion device 1 by means of a radially spaced from the combustion cylinder 9 ignition electrode. The flame monitoring is carried out with an ionization electrode also arranged outside the combustion cylinder 9 in a manner known from the prior art.

According to the present invention, the premixing combustion device 1 further includes a flow reduction device 10 disposed between the exhaust port 8 of the blower 2 and the combustion cylinder 9. The in the FIGS. 3 and 4 shown flow reduction device 10 comprises a slide-in plate 11 which is arranged between the outlet opening 8 of the blower 2 the combustion cylinder 9 and there fastened or mounted on corresponding flange portions of the blower 2 and the combustion cylinder 9. The insertion plate 11 has a passage opening 12, which corresponds to the cross section of the outlet opening 8 of the blower 2. In the passage opening 12 of the insertion plate 11, a flow-reducing element 13 is arranged in the form of a shut-off flap. The flow reduction element 13 is connected to a drive shaft 14 in a rotationally fixed manner and rotatably supported by means of this in the passage opening 12 of the insertion plate 11. By rotation of the flow reduction element 13, the cross section through which the combustion mixture flows can be changed, whereby the pressure and speed of the combustion mixture flowing to the combustion cylinder 9 can be regulated or controlled. The person skilled in the art will recognize that the flow-reducing element can alternatively also be arranged directly in the outlet opening 8 of the blower 2 and stored there, so that the component of the slide-in plate 11 would be dispensable.

The rotatably mounted flow-reducing element 13 is adjustable between a position opening the outlet opening 8 of the blower 2 and a position reducing the outlet opening 8 of the blower 2. The corresponding in FIG. 2 shown position of the flow reduction element 13 of the outlet opening 8 of the blower 2 opening or releasing position. This position takes the flow reduction element 13 in the actual operation of the combustion device 1, ie after ignition of the combustion mixture, a. In contrast, in the starting phase of the combustion device 1, the flow reduction element 13 is arranged in the position reducing the outlet opening 8 of the blower 2 and, in this position, reduces the cross section through which the combustion mixture flows.

It has been found that a reduction of the cross section of the outlet opening 8 of the blower 2 during the starting phase of the combustion device 1 or during the ignition phase of the combustion mixture causes an increase in the blower pressure and a reduction in the flow rate of the combustion mixture, which is advantageous to the ignition of the in Combustion zone located combustion mixture effect.

Accordingly, at the start of the combustion device 1, the outlet opening 8 is not completely closed, but only partially blocked by the flow reduction element 13. According to the invention, in the position of the flow reducing element 13 which reduces the outlet opening 8 of the blower 2, the free cross section of the outlet opening 8 is approximately 15% to 45% of the cross section of the outlet opening 8 in the open position of the flow reduction element 13. The height of the reduction of the cross section of the outlet opening 8 is dependent on the size or performance of the boiler, wherein a reduction of the remaining free cross section of the outlet opening 8 has proven to be about 30% of the cross section of the outlet opening 8 as particularly favorable during the start phase of the boiler.

When the combustion device 1 is started, the flow-reducing element 13 is thus arranged in the position reducing the outlet opening 8 of the blower 2. After successful ignition of the combustion mixture then the flow reduction element 13 into which the outlet opening 8 of Rotated blower 2-opening position, so that the combustion mixture conveyed by the blower 2 flows to the combustion cylinder 9 essentially without an impairment exerted by the flow reduction element 13 and pressure and velocity of the combustion mixture are determined solely by the blower 2.

The change of the position of the flow reduction element 13 into the outlet opening 8 of the blower 2 opening position is effected by a return element, not shown. The restoring element can be designed, for example, in the form of a spring element which applies a force by means of which the flow-reducing element 13 is forced into the position opening the outlet opening 8 of the blower 2. In order to rotate or pivot the flow reduction element 13 into the position reducing the outlet opening 8 of the blower, the flow reduction device 10 has an electromagnet 15, which is arranged laterally from the blower 2 and coupled to the flow reduction device 10. The electromagnet 15 is connected via a lever mechanism 16 with a projecting from the insertion plate 11 end of the drive shaft 14 and also coupled control technology with the combustion device 1 or its ignition control. When the combustion mixture is ignited or when the combustion device 1 is started, this coupling causes a voltage to be applied to the electromagnet 15 in parallel with the activation of the ignition electrode, thereby moving a fork head 17, coupled to the lever mechanism 16, of the electromagnet 15 designed in the manner of a lifting magnet. The parallel application of a voltage to ignition electrode and electromagnet 15 can be done for example by an ignition transformer 18 which is coupled to both components. When voltage is applied to the electromagnet 15, the movement of the fork head 17 is transmitted via the lever mechanism 16 to the drive shaft 14 and leads to a pivoting or rotation of the flow-reducing element 13. Thus, the flow-reducing element 13 from the outlet opening 8 of the blower 2 opening position in the the outlet opening 8 of Blower 2 reducing position moves against the force of the return element, which finally reduces the remaining free cross section of the outlet opening 8 of the blower. As soon as the voltage for the ignition transformer is no longer present, no voltage is applied to the electromagnet 15. As a result, the restoring element urges the flow rate reducing element 13 into the position opening the outlet opening 8 of the blower 2, so that the outlet opening 8 of the blower 2 is essentially free and the combustion mixture can flow through unhindered.

The person skilled in the art will recognize that instead of an electromagnet, the flow-reducing device can also have another suitable adjusting means, which changes the position of the flow-reducing element signal-dependent and / or voltage-dependent on the combustion device or its ignition control. For example, an electric motor or a pneumatic adjusting means could be used to move the valve designed as a flow reduction element, the activation of the electric motor or the pneumatic actuator may be coupled with the combustion device 1 or its ignition control control technology.

In the method according to the invention for starting the premixing combustion device 1 for a heating boiler, the combustion mixture formed from fuel or combustion gas and combustion air is conditioned by the mixing device 3 arranged upstream of the blower 2. The conditioned combustion mixture is then conveyed by means of the blower 2 from the outlet opening 8 via the combustion cylinder 9 to the combustion zone. Only during the starting phase of the combustion device 1, the flow reduction element 13 of the flow reduction device 10 arranged between the outlet opening 8 of the blower 2 and the combustion cylinder 9 is moved from the position opening the outlet opening 8 of the blower 2 into the position reducing the outlet opening 8 of the blower 2, in which case the remaining cross section of the outlet opening 8 to 15% to 45%, preferably 30%, the cross-section of the outlet opening 8 is reduced in the open position of the flow reduction 13. After starting the combustion device 1, the flow reduction element 13 is then moved out of the position reducing the outlet opening 8 of the blower 2 into the position releasing the outlet opening 8 of the blower 2. In this way, pulsations could be avoided the startup phase of the boiler, which can otherwise lead to disturbances.

Of course, the invention described above is not limited to the described and illustrated embodiment. Numerous modifications which are obvious to a person skilled in the art according to the intended use can be made in the illustrated embodiment, without departing from the scope of the invention. In this case, the invention includes everything that is contained in the description and / or shown in the drawing, including what, in deviation from the concrete embodiments, obvious to those skilled in the art.

Claims (9)

A premixing combustion device (1) for a boiler comprising a blower (2) which conveys a combustion mixture of fuel and air from an outlet opening (8) of the blower (2) via a combustion cylinder (9) to a combustion zone, upstream of which Blower (2) arranged mixing device (3) the combustion mixture prepared, characterized by a between the outlet opening (8) of the blower (2) and the combustion cylinder (9) arranged flow reduction device (10) with a flow reduction element (13), the one between the outlet opening (8) of the blower (2) opening position and a the outlet opening (8) of the blower (2) reducing position is adjustable. Premixing combustion device (1) according to claim 1, characterized in that the flow reduction element (13) at the start of the combustion device (1) in the outlet opening (8) of the blower (2) decreasing position is arranged and after ignition of the combustion mixture in the outlet opening (8) of the blower (2) opening position is arranged. Premixing combustion device (1) according to claim 1 or 2, characterized in that in the outlet opening (8) of the blower (2) decreasing position of the flow reducing element (13) of the remaining free cross section of the outlet opening (8) 15% to 45% of the cross section of Outlet opening (8) in the open position of the flow rate reduction element (13). Premixing combustion device (1) according to one of the preceding claims, characterized in that the flow- reducing element (13) is a rotatably mounted flap element. Premixing combustion device (1) according to one of the preceding claims, characterized in that the flow reduction device (10) has a return element which applies a force urging the flow reduction element (13) into the position opening the outlet opening (8) of the blower (2). Premixing combustion device (1) according to claim 5, characterized in that the flow reduction device (10) comprises an electromagnet (15) which is coupled to the combustion device (1) in such a way that when starting the combustion device (1) the electromagnet (15) Flow reduction element (13) from which the outlet opening (8) of the blower (2) opening position moves into the outlet opening (8) of the blower (2) reducing position against the force of the return element. A method for starting a premixing combustion device (1) for a boiler, wherein a combustion mixture formed from fuel and air from a upstream of a fan (2) arranged mixing device (3) is prepared and wherein from an outlet opening (8) of the blower (2) the combustion mixture is conveyed via a combustion cylinder (9) to a combustion zone, characterized in that, at the same time as the starting of the combustion device (1), a flow reduction element (13), arranged between the outlet opening (8) of the blower (2) and the combustion cylinder (9) Flow reduction device (10) is moved from a position opening the outlet opening (8) of the blower (2) into a position which reduces the outlet opening (8) of the blower (2). A method according to claim 7, characterized in that in the outlet opening (8) of the blower (2) reducing position of the flow reduction (13) of the remaining free cross section of the outlet opening (8) to 15% to 45% of the cross section the outlet opening (8) is reduced in the open position of the flow-reducing element (13). A method according to claim 7 or 8, characterized in that after starting the combustion device (1) the flow- reducing element (13) from the outlet opening (8) of the blower (2) decreasing position into which the outlet opening (8) of the blower (2). releasing position is moved.

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