DE102019118764A1 - Method for operating a forced draft burner - Google Patents

Abstract

The invention relates to a method for operating a forced draft burner, a fluid medium being fed to the forced draft burner with a fan (1) through a flow guide (2), a flow in the flow guide (2) being recorded quantitatively with a flow sensor (3), a backflow in the flow guide (2) opposite to the conveying direction of the fan (1) is prevented with a backflow protection device (4). According to the invention it is provided that in a phase when the fan (1) is switched off, but in which the flow sensor (3) nevertheless detects a flow above a predetermined value, the fan (1) is used to detect a defect in the non-return valve (4) ) is started, and that a signal is then generated if, when the fan (1) is started, the flow detected by the flow sensor (3) decreases at least initially in terms of amount.

Description

The invention relates to a method for operating a forced draft burner according to the preamble of claim 1.

A method of operating a forced draft burner is from the patent document DE 10 2017 110 314 A1 known. In this method, a fluid medium is fed to the forced-air burner through a flow guide using a fan. Furthermore, a flow in the flow guide is recorded quantitatively with a flow sensor. In addition, with a backflow protection device, which is not explicitly disclosed in this document, but from the patent document DE 10 2016 203 628 A1 is known per se, prevents a backflow in the flow guide against the conveying direction of the fan.

The invention is based on the object of improving a method for operating a forced draft burner of the type mentioned at the beginning. In particular, a method for operating a forced draft burner is to be created with which a defective backflow protection device can be reliably identified.

This object is achieved with a method for operating a forced draft burner by the features listed in the characterizing part of claim 1.

According to the invention, it is provided that in a phase when the fan is switched off, but in which the flow sensor still detects a flow above a predetermined amount, the fan is started to detect a defect in the backflow protection device, and a signal is then generated if, when the fan is started, the flow detected by the flow sensor decreases at least initially in terms of amount.

In other words, the method according to the invention is characterized in that in a phase when the burner is switched off when the fan starts up, it is observed whether there is a flow reversal in the flow guidance, which can be recognized by the measurement technology from the fact that the measured value of the flow, more typically In the same way, the resistance of a heating wire (a more detailed explanation of this follows below) initially decreases in amount. If this is the case, this means that the flow through the backflow protection device is in an undesired direction and is therefore obviously not in order.

Other advantageous developments of the method according to the invention for operating a forced draft burner emerge from the dependent claims.

The method according to the invention for operating a forced draft burner including its advantageous developments according to the dependent claims is explained in more detail below with reference to the drawing of a preferred exemplary embodiment.

• 1 perspektivisch und teilweise als Explosionsdarstellung einen Gebläsebrenner; und
• 2 als Diagramm den zeitlichen Verlauf der mit dem Strömungssensor gemessenen Strömung (genauer ṁ [kg/s]) und den Betriebsstatus des Gebläses (genauer P [W].

It shows

• 1 perspective and partially as an exploded view of a fan burner; and
• 2 as a diagram the time course of the flow measured with the flow sensor (more precisely ṁ [kg / s]) and the operating status of the fan (more precisely P [W].

In the method shown in the figures for operating a forced draft burner, a fan 1 a fluid medium through a flow guide 2 fed to the fan burner. It is also used with a flow sensor 3 a flow in the flow guide 2 recorded quantitatively, also with a backflow protection device 4th a backflow in the flow guide 2 contrary to the conveying direction of the fan 1 is prevented. With the fan running stationary 1 can or will also use the flow sensor 3 one towards the blower 1 flowing flow measured.

It is now essential for the method according to the invention that in a phase when the fan is switched off 1 , in which, however, from the flow sensor 3 a flow above a specified value (see A in 2 ) is determined to determine a defect in the non-return device 4th the blower 1 is started (see B in 2 ), and that a signal is generated when the fan starts up 1 the one with the flow sensor 3 detected flow at least initially decreases in amount. A defective backflow protection device 4th obviously occurs when the flow from the fan burner to the fan 1 flows or can flow.

Considered a little more closely (see 2 ), it is particularly preferred that the said signal is generated if the flow occurs within the first ten seconds from the start of the fan 1 decreases in amount by more than 30% of the specified amount (see characteristic of claim 1).

Considered very closely, the following preferably happens according to the invention: The fan 1 its speed is continuously increased during the test. A speed range of run through approx. 1000 l / min to 4000 l / min ( 2 ultimately only shows the target signal for the fan 1 , namely "on" or "off"). This corresponds to running through the possible back pressure situation (0 Pa to 150 Pa) and thus the range of the degree of backflow. Thus the fan builds 1 when slowly running up, there is an increasing pressure, which in the event of a backflow builds up the pressure equilibrium at some point; at this moment the mass flow sinks to the minimum. In the case of a train, the mass flow rises continuously as the fan speed increases.

In addition, it is particularly preferably provided that it is determined at regular intervals whether there is a defect in the backflow protection device 4th present or not.

Furthermore, after a predefined number of times, there is preferably a defect in the non-return device 4th reporting signals, preferably three successively generated signals, the fan burner is switched off. It is also particularly preferred that the fan burner has to be unlocked by a specialist via the control of the device in the event of a signal-related switch-off in order to switch it on again.

The method according to the invention is particularly advantageous when - as in the case of a so-called cascade or multiple occupancy - several heating devices connected to one another via their exhaust ducts, each with a fan burner, are operated as required. In this case it is preferably provided that each heating device has its own flow sensor 3 is monitored to ensure that no exhaust gas from a running heater has a defective backflow protection device 4th A heater that is in standby at this moment enters the room where the heater is switched off and causes problems there.

Furthermore, it is preferably provided that the flow successively one for flow guidance 2 belonging inlet section 2.1 , the blower 1 , the non-return device 4th and one leading to the forced draft burner and also to the flow guide 2 belonging end section 2.2 flows through. The flow sensor is preferably located 3 , as shown, at the end of the inlet section 2.1 just before the blower 1 . Depending on whether fuel has already been added to the air at this point, it is furthermore preferably provided that with the flow sensor 3 the flow of either a mixture of air and combustion gas or just air is monitored.

Finally, it is preferably provided that a flow sensor on the flow measurement 3 intended heating wire is used. The measuring principle of the flow sensor 3 , more precisely the mass flow sensor, is based on the change in the electrical resistance of a piece of wire a few millimeters long due to the dissipation of heat from the passing air flow. It corresponds to that of a hot wire probe. A defined current is sent through the wire and the resistance is determined by evaluating the voltage drop. The volume flow sensor assigns a mass flow to the voltage drop using a characteristic curve. Since the heat dissipation is evaluated to measure the mass flow, the measured value is independent of the direction of the air flow.

List of reference symbols

1

fan

2

Flow guidance

2.1

Inlet section

2.2

End section

3

Flow sensor

4th

Backflow protection device

A.

Signal from the flow sensor

B.

Signal from the blower

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102017110314 A1 [0002]
• DE 102016203628 A1 [0002]

Claims (10)

Method for operating a forced draft burner, wherein a fluid medium is fed to the forced draft burner with a fan (1) through a flow guide (2), a flow in the flow guide (2) being quantitatively recorded with a flow sensor (3), with a non-return device (4) a backflow in the flow guide (2) opposite to the conveying direction of the fan (1) is prevented, characterized in that in a phase when the fan (1) is switched off, but in which the flow sensor (3) shows a value above a predetermined amount horizontal flow is determined, the fan (1) is started to determine a defect in the backflow protection device (4), and that a signal is then generated if the flow detected by the flow sensor (3) at least when the fan (1) is started initially decreases in amount. Procedure according to Claim 1 , characterized in that the signal is generated when the flow decreases in amount by more than 30% of the predetermined amount within the first ten seconds from the start of the fan (1). Procedure according to Claim 1 or 2 , characterized in that it is determined at regular intervals whether there is a defect in the backflow protection device (4). Method according to one of the Claims 1 to 3 , characterized in that the fan burner is switched off after a predefined number of signals. Method according to one of the Claims 1 to 4th , characterized in that the forced draft burner must be unlocked by a specialist in the event of a signal-related switch-off in order to switch it on again. Method according to one of the Claims 1 to 5 , characterized in that several heating devices connected to one another via their exhaust gas ducts, each with a fan burner, are operated as required and that each heating device is monitored with its own flow sensor (3). Method according to one of the Claims 1 to 6th , characterized in that, with the fan (1) running stationary, the flow sensor (3) measures a flow flowing in the direction of the fan (1). Method according to one of the Claims 1 to 7th , characterized in that the flow successively flows through an inlet section (2.1) belonging to the flow guide (2), the fan (1), the backflow protection device (4) and an end section (2.2) leading to the fan burner and also belonging to the flow guide (2). Method according to one of the Claims 1 to 8th , characterized in that a heating wire provided on the flow sensor (3) is used to measure the flow. Method according to one of the Claims 1 to 9 , characterized in that the flow of a mixture of air and combustion gas or just air is monitored with the flow sensor (3).

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