DE10109808A1 - Method and device for adapting a burner-operated heater to an air-exhaust system - Google Patents

Abstract

A method and a device for adapting a burner-operated heating device to an air-exhaust gas system are proposed. The heater has a control device (30) which controls a blower (26) in such a way that an air volume flow required for a required burner output is provided, which is necessary for optimal combustion at different heating outputs, a current air volume flow in the air exhaust gas System measured and adjusted to the required air volume flow. For this purpose, an operating characteristic (40) is stored in the control device (30), which indicates the required air volume flow for optimal combustion at different burner outputs. A sensor (28) is positioned in the air-exhaust gas system and records the current air volume flow. The instantaneous air volume flow is adjusted by the control device (30) to the required air volume flow of the operating characteristic curve by tracking the power of the blower (26).

Description

The invention relates to a method and a device to adapt a burner-operated heater to Air exhaust system according to the generic term of the independent Expectations.

State of the art

For burner-operated heaters with supported air Exhaust duct has the length of the connected air exhaust Systems have a significant impact on combustion as well on the condensation and ignition behavior of the heater, because the specific flow resistances of the air supply and the exhaust gas discharge due to the location due to the pipe lengths Number of pipe bends and other structural measures of the Air-exhaust pipe system are different. thats why an adaptation of the heaters to the site-specific Air exhaust system required.

Is known for. B. by installing additional panels in the air-exhaust system, the flow resistance to one corresponding value to which the operating characteristic of the heater is set, the operating characteristic  optimal combustion with different heating capacities guaranteed.

To the installation of additional flow resistances in the To dispense with the air-exhaust gas system is known from DE 198 47 448 A1 known when the heater is started up for the first time the speed of the fan, starting from a start Speed at which the gas supply is released intended pressure value even with the shortest length of air Exhaust system is not reached, slowly increase until the intended pressure value has been reached, and from the speed of the fan at which this value was reached To determine the correction factor using the standard characteristic curves Operating characteristics are calculated, according to which the Gas control device is performed. To record the speed of the blower is a speed sensor for the blower necessary. This procedure takes place at the Commissioning the heater thus an adaptation of the Operating characteristic to the site-specific Air exhaust pipe system flow conditions.

The object of the present invention is that independent the location-specific flow resistances of the air Exhaust pipe system equal air conditions for one complete combustion exist, adjusting the Heating device to the site-specific air and exhaust gas Pipe system with a simple control device should be done.

Advantages of the invention

The inventive method and the inventive Device have the advantage of being simple Control device can be used. Through use of the air volume flow as a controlled variable and as  Functional parameter of the operating characteristic is a constant Adaptation of the current air volume flow to the required air volume flow possible without a correction the operating characteristic when installing the heater to have to perform. Consequently, it is not a speed sensor necessary for the blower.

In addition, the operation of the heater is at changing conditions, which z. B. in wind the exhaust system occurring can be improved since the Pressure conditions are continuously recorded. This will an almost constant air ratio of the exhaust gas is guaranteed. The use of a sensor to detect the Air volume flow also enables the detection of combustion-related faults and thus the implementation of countermeasures such. B. the change of Primary air ratio.

By the measures listed in the subclaims advantageous developments of the method and Device possible. It is particularly advantageous to Adjustment of the current air volume flow to the required air volume flow an operating characteristic use the burner output as a function of Air volume flow indicates. It is also useful to Determination of the current air volume flow Pressure sensor. The control behavior with large This can cause temperature differences in the combustion air be further improved if the air volume flow measurement is also combined with temperature compensation. In addition, it can be conveniently provided that save the last recorded values and if the Pressure sensor to access this, which also the Emergency running properties are guaranteed. This causes a  Failure of the pressure sensor does not necessarily mean stopping of the heater.

drawing

An embodiment of the invention is shown in the drawing and explained in more detail in the following description. The figure shows a schematic representation of a heater and FIG. 2 shows an operating characteristic curve for controlling the heater.

embodiment

The heating device in FIG. 1 has a burner 10 which is arranged in a combustion chamber 12 . The burner 10 is connected to a gas line 18 in which a gas control device 19 is installed. The fuel gas is fed to the burner 10 via the gas line 18 . An air supply 14 leads to the combustion chamber 12 , via which combustion air is supplied to the burner 10 . The air supply 14 coaxially surrounds an exhaust gas discharge 16 , for example, which is connected to an exhaust pipe, not shown, for. B. chimney, is connected to discharge the exhaust gas into the atmosphere. The air supply 14 with an air pipe and the exhaust gas discharge 16 with an exhaust pipe form an air-exhaust pipe system.

A heat exchanger 20 is acted upon by the exhaust gases and is connected to a radiator arrangement (not shown) via a feed line 21 and a return line 22 . An exhaust gas collecting hood 24 is arranged above the heat exchanger 20 , which passes to the exhaust gas discharge 16 .

A fan 26 is arranged in the exhaust gas discharge 16 , which draws the exhaust gas out of the combustion chamber 12 and feeds a corresponding volume flow of combustion air to the burner 10 through the suction. The fan 26 can also be arranged in the air supply 14 .

A pressure sensor 28 is arranged in the air supply 14 , for example, which constantly records the pressure built up by the supplied combustion air. The pressure recorded provides information about a current air volume flow that is fed to the burner 10 . However, it is also possible to arrange the pressure sensor 28 within the exhaust gas discharge 16 . It is also conceivable to use an air mass sensor instead of the pressure sensor, with which the instantaneous air volume flow can be determined directly.

The heating device further includes a control means 30, which is connected via a first signal line 31 with the gas control device 19 via a second signal line 32 to the blower 26 and via a third signal line 32 with the pressure sensor 28th Finally, a fourth signal line 34 is provided, which leads to a temperature sensor 35 .

To achieve the optimal combustion values or air ratio in the exhaust gas, the gas supply required as a function of the degree of modulation or the heating power requires a corresponding air volume flow of the combustion air, i.e. the required heating power requires a corresponding burner power Q of the burner 10 and this requires a corresponding fuel gas supply and a corresponding air volume flow combustion air.

An operating characteristic curve 40 for the required burner output Q is determined from the requirements for the air ratio in the exhaust gas of the heating device, taking into account the flame stability and, in the case of condensing boilers, also taking into account the condensation behavior as a function of the required heating output, which is necessary to cover the heat requirement.

The operating characteristic 40 shown in FIG. 2 represents the required air volume flow as a function of the pressure p over the burner output Q. The operating characteristic 40 is stored in the control device 30 .

The instantaneous air volume flow, which correlates with a corresponding pressure value, is continuously determined by means of the pressure sensor 28 . The measured pressure value is supplied via the signal line 33 of the control means 30 in the control means 30 to the required pressure value of the operating characteristic curve p compared 40 and adjusted to the required air volume flow, wherein the required pressure value represents the required air volume flow for optimal combustion.

The measured instantaneous pressure value is compared to the required pressure value p of the operating characteristic curve 40 by correspondingly adjusting the power of the blower 26 , so that the instantaneous air volume flow is constantly tracked to the required air volume flow.

This makes the combustion air ratio independent of Air-exhaust pipe system complied with. Changes too the flow conditions in the air-exhaust pipe system during the operation of the heating device taken into account and compensated. That way is a optimal operation of the heating device among the site-specific conditions of the air-exhaust system possible.

The pressure measurement carried out with the pressure sensor 28 can also contain a temperature compensation with which the control behavior at high temperatures in the combustion air is further improved. For this purpose, for example, a temperature sensor is integrated in the pressure sensor.

Claims (10)

1. A method for adapting a burner-operated heater to an air-exhaust system, which has a burner, an air supply for combustion air, an exhaust gas discharge for the exhaust gas, a blower in the air-exhaust system and a control device, the control device being the blower regulates that an air volume flow required for a required burner output is provided, characterized in that a current air volume flow is measured in the air-exhaust gas system and adjusted to the required air volume flow. 2. The method according to claim 1, characterized in that the adjustment of the current air volume flow to the required air volume flow based on a Control device stored operating characteristic takes place. 3. The method according to claim 2, characterized in that to adjust the current air volume flow to the required air volume flow of the operating characteristic the performance of the blower tracked accordingly becomes. 4. The method according to claim 2, characterized in that the operating characteristic the required  Air volume flow as a function of pressure in Depends on the burner output. 5. The method according to claim 1, characterized in that the current air volume flow is recorded as pressure becomes. 6. The method according to claim 1, characterized in that the determination of the current air volume flow with temperature compensation. 7. The method according to claim 1, characterized in that the last recorded values of the current Air volume flow can be saved and in case of failure of the sensor is used. 8. Device for adapting a burner-heated heater to an air-exhaust system, with a burner that is supplied with fuel gas and with combustion air, an air supply for the combustion air, an exhaust gas discharge for the exhaust gas, and a blower in the air-exhaust system as well as with a control device, the control device regulating the fan in such a way that an air volume flow required for a required burner output is provided, and wherein an operating characteristic curve is stored in the control unit, which indicates the required air volume flow for optimal combustion at different burner outputs, characterized in that that a sensor positioned in the air-exhaust system records an instantaneous air volume flow and that the control device ( 30 ) adjusts the instantaneous air volume flow to the required air volume flow of the operating characteristic ( 40 ) by tracking the power of the blower ( 26 ). 9. The device according to claim 7, characterized in that as a sensor to determine the current Air volume flow a pressure sensor or a Air mass sensor is provided. 10. The device according to claim 7, characterized in that the sensor ( 28 ) in the air supply ( 14 ) and / or in the exhaust gas discharge ( 16 ) is arranged.