[0001] The present patent application relates to a method and to a controller for operating
a gas burner appliance.
[0002] EP 2 667 097 A1 discloses a method for operating a gas burner appliance. During burner-on-phases
of the gas burner appliance, a defined gas/air mixture having a defined mixing ratio
of gas and air is provided to a burner chamber of the gas burner appliance for combusting
the defined gas/air mixture. The defined gas/air mixture is provided by a mixing device
mixing an air flow provided by an air duct with a gas flow provided by a gas duct.
The mixing device may be provided by a Venturi nozzle. The air flow flowing through
the air duct is provided by fan in such a way that the fan speed of the fan depends
on a desired burner-load of the gas burner appliance, wherein a fan speed range of
the fan defines a so-called modulation range of the gas burner appliance.
[0003] According to
EP 2 667 097 A1, the defined mixing ratio of gas and air of the defined gas/air mixture is kept constant
over the entire modulation range of the gas burner appliance by a pneumatic controller
of a gas regulation valve being positioned with the gas duct. The pneumatic controller
uses a pressure difference between the gas pressure of the gas flow in the gas duct
and a reference pressure, wherein either the air pressure of the air flow in the air
duct or the ambient pressure is used as reference pressure, and wherein the pressure
difference between the gas pressure of the gas flow in the gas duct and the reference
pressure is determined and controlled pneumatically. The combustion quality may be
monitored on basis of a signal provided by a combustion quality sensor like a flame
ionization sensor.
[0004] According to
EP 2 667 097 A1, during burner-on-phases of the gas burner appliance, the mixing ratio of the gas/air
mixture may be calibrated to different gas qualities on basis of the signal provided
by the flame ionization sensor. The flame ionization sensor is used to calibrate the
gas/air mixture to different gas qualities. The control of the mixing ratio of the
gas/air mixture over the modulation range of the gas burner is independent from the
flame ionization current.
[0005] It should be noted that calibration of such a pneumatic gas/air control is optional.
There are also pneumatic controllers in place not making use of a calibration of the
gas/air mixture to different gas qualities.
[0006] As mentioned above,
EP 2 667 097 A1 discloses a method for operating a gas burner appliance in which the defined mixing
ratio of the gas/air mixture is kept constant over the entire modulation range of
the gas burner. This is done by the pneumatic controller of the gas regulation valve
establishing a pneumatic control to keep the mixing ratio of gas and air within the
gas/air mixture constant.
[0007] It is also possible to control the mixing ratio of gas and air within the gas/air
mixture electrically or electronically.
DE 198 24 521 A1 discloses a method to control the mixing ratio of gas and air within the gas/air
mixture on basis of a signal provided by an electrical or electronic pressure sensor
or flow meter. An actual value corresponding to a pressure ratio between a gas pressure
in a gas duct and an air pressure in an air duct or corresponding to a pressure ratio
between the gas pressure in the gas duct and the air pressure at the reference point
is provided by the electrical or electronic sensor, wherein this actual value is compared
with a nominal value. A control variable for a gas valve assigned to the gas duct
is generated on basis of the control deviation between the actual value and nominal
value, wherein the gas valve is adjusted on basis of this control variable to control
the defined mixing ratio of gas and air in the gas/air mixture. A mentioned above,
the amount of the air flow and thereby the amount of the flow of the gas/air mixture
having the defined mixing ratio of gas and air provided to the burner chamber depends
on the desired burner load. The desired burner-load corresponds to a desired heat
demand. The desired burner-load defines the fan speed at which the fan is operated.
[0008] The fan speed range of the fan of the gas burner appliance defines the modulation
range of the gas burner appliance. A maximum fan speed of the fan defines the maximum
burner-load of the gas burner appliance. If a desired heat demand requires maximum
burner load, then the fan is operated at maximum fan speed. If a desired heat demand
requires burner-load being 50% of the maximum burner load, then the fan is operated
at 50% of the maximum fan speed. If a desired heat demand requires burner-load being
20% of the maximum burner load, then the fan is operated at 20% of the maximum fan
speed.
[0009] The maximum fan speed of the fan of a gas burner appliance is factory pre-set in
a controller of the gas burner appliance. When such a gas burner appliance becomes
installed in the field at a certain location or premises like a residential home,
the maximum fan speed may be adjusted manually by the installer to the geodetic or
geographic altitude of the premises to adjust the maximum fan speed to altitude dependent
oxygen content of the air and to keep thereby the capacity of the gas burner appliance
constant. If this is forgotten by the installer, the gas burner appliance may not
reach the maximum capacity which leads to complaints from end users.
[0010] Against this background a novel method and controller for operating a gas burner
are provided.
[0011] The method for operating a gas burner according to the invention is defined in the
claim 1.
[0012] The method comprises the step of determining automatically the altitude of the location
at which the gas burner appliance is operated.
[0013] The method further comprises the step of adjusting or adapting automatically the
maximum fan speed of the fan and thereby the maximum burner-load of the gas burner
appliance on basis of the determined altitude.
[0014] According to the present application, the maximum fan speed of the fan of a gas burner
appliance which is factory pre-set in the controller of the gas burner appliance becomes
automatically adjusted or adapted to the altitude of the location at which the gas
burner appliance is operated.
[0015] It is no longer necessary to adjust or adapted the maximum fan speed manually by
the installer. The gas burner appliance can reach maximum capacity during operation.
[0016] Preferably, the altitude of the location at which the gas burner appliance is operated
is automatically determined by the controller of gas burner appliance over the internet.
The controller of the gas burner appliance may directly or indirectly communicate
with an inter router to retrieve the altitude of the location over the internet. This
allows an easy and secure automatic adjustment or adaption of the maximum fan speed
of the fan to the altitude of the location at which the gas burner appliance is operated.
[0017] Preferably, the maximum fan speed of the fan is automatically adjusted or adapted
on basis of the determined altitude in such a way that the maximum fan speed increases
with increasing altitude. The gas burner appliance can always reach the maximum capacity
during operation regardless of the altitude of the location at which the gas burner
appliance is operated.
[0018] Preferably, the maximum fan speed of the fan is factory pre-set in the controller
of the gas burner appliance for an altitude of normal zero. The controller of the
gas burner appliance determines automatically the altitude of the location of the
premises at which the gas burner appliance is operated. The controller of the gas
burner appliance automatically adjusts or adapts the maximum fan speed of the fan
and thereby the maximum burner-load on basis of the determined altitude, namely in
such a way that for a determined altitude being greater than normal zero the factory
pre-set maximum fan speed is increased. This is most preferred for a secure adaption
of operation of the gas burner appliance to a altitude being different from normal
zero.
[0019] The present application further provides a controller of a gas burner appliance for
operating a gas burner appliance. The controller of a gas burner appliance is configured
to determine on basis of a heat demand a desired burner-load to provide the heat demand,
wherein the desired burner-load is a load with a modulation range of the gas burner
appliance. The controller of a gas burner appliance is further configured to determine
on basis of the desired burner-load a fan speed of a fan of the gas burner appliance
which is needed to provide the burner load, wherein a fan speed range of the fan defines
the modulation range of the gas burner appliance in such a way that a maximum fan
speed of the fan defines the maximum burner-load of the gas burner appliance. The
controller of a gas burner appliance is further configured to determine automatically
the altitude of the location at which the gas burner appliance is operated and to
adjusted or adapt automatically on basis of the determined altitude the maximum fan
speed of the fan and thereby the maximum burner-load of the gas burner appliance.
[0020] Preferred developments of the invention are provided by the dependent claims and
the description which follows. Exemplary embodiments are explained in more detail
on the basis of the drawing, in which:
- Figure 1
- shows a schematic view of an exemplary gas burner appliance.
[0021] Figure 1 shows a schematic view of an exemplary gas burner appliance 10. The same
comprises a gas burner chamber 11 in which combustion of a defined gas/air mixture
having a defined mixing ratio of gas and air takes place during burner-on phases of
the gas burner appliance 10.
[0022] The combustion of the gas/air mixture results into flames 12 and may be monitored
by a combustion quality sensor, e.g. by a flame rod 13.
[0023] The defined gas/air mixture is provided to the burner chamber 11 of the gas burner
appliance 10 by mixing an air flow with a gas flow. A fan 14 sucks in air flowing
through an air duct 15 and gas flowing though a gas duct 16. A gas regulating valve
18 for adjusting the gas flow through the gas duct 16 and preferably a gas safety
valve 19 are assigned to the gas duct 16. The defined gas/air mixture having the defined
mixing ratio of gas and air is provided to the burner chamber 11 of the gas burner
appliance 10. The defined gas/air mixture is provided by mixing the air flow provided
by an air duct 15 with a gas flow provided by a gas duct 16. The air flow and the
gas flow become preferably mixed by a mixing device 23.
[0024] The quantity of the air flow and thereby the quantity of the gas/air mixture flow
is adjusted by the fan 14, namely by the speed of the fan 14. The fan speed can be
adjusted by an actuator 22 of the fan 14 on basis of a desired burner-load. The fan
speed of the fan 14 is controlled by a controller 20 of the gas burner appliance generating
a control variable for the actuator 22 of the fan 14.
[0025] The defined mixing ratio of the defined gas/air mixture is controlled by the gas
regulating valve 18. The shown exemplary gas burner appliance 10 the gas regulating
valve 18 is controlled by a pneumatic controller 24.
[0026] The pneumatic controller 24 of the gas regulating valve 18 controls the opening/closing
position of the gas valve 18. The position of the gas regulating valve 18 is adjusted
by the pneumatic controller 24 on basis of a pressure difference between the gas pressure
of the gas flow in the gas duct 16 and a reference pressure. The gas regulating valve
18 is controlled by the pneumatic controller 24 in such a way that at the outlet pressure
of the gas valve 18 is equal to the reference pressure. In Figure 1, the ambient pressure
serves as reference pressure. However, it is also possible to use the air pressure
of the air flow in the air duct 15 as reference pressure.
[0027] The pressure difference between the gas pressure and the reference pressure is determined
pneumatically by pneumatic sensor of the pneumatic controller 24. The mixing ratio
of the defined gas/air mixture is controlled by the pneumatic controller 24 in such
a way that over the entire modulation range of the gas burner appliance 10 the defined
mixing ratio of the defined gas/air mixture is kept constant.
[0028] Alternatively, the constant mixing ratio of gas and air within the gas/air mixture
may be controlled electrically or electronically on basis of a signal provided by
an electrical or electronic pressure sensor or flow meter (not shown). In this case
the electrical or electronic sensor may provide to the controller 20 an actual value
corresponding to a pressure ratio between a gas pressure in a gas duct and an air
pressure in an air duct or corresponding to a pressure ratio between the gas pressure
in the gas duct and the air pressure at the reference point, wherein the controller
20 may compare said actual value with a nominal value. In this case, the controller
may generate a control variable for the gas regulation valve 18 on basis of the control
deviation between the actual value and the nominal value, wherein the gas regulation
valve may be operated on basis of this control variable to keep over the entire modulation
range of the gas burner appliance 10 the defined mixing ratio of gas and air in the
gas/air mixture constant.
[0029] A modulation of "1" means that the fan 14 is operated at maximum fan speed (100%
of maximum fay speed) and thereby at a full-load of the gas burner appliance 10. A
modulation of "2" means that the fan 14 is operated at 50% of the maximum fan speed
and a modulation of "5" means that the fan 14 is operated at 20% of the maximum fan
speed. By changing the fan speed of the fan 14, the burner-load of the gas burner
appliance 10 can be adjusted. Over the entire modulation range of the gas burner appliance
10 the defined mixing ratio of gas and air within the defined gas/air mixture is kept
constant.
[0030] As described above, the mixing ratio of the defined gas/air mixture is controlled
during burner-on phases so that over the entire modulation range of the gas burner
appliance 10 the defined mixing ratio of the gas/air mixture is kept constant. During
burner-on phases the defined mixing ratio of gas and air of the defined gas/air mixture
may be calibrated. The calibration may be performed by adjusting a position of a throttle
17 within the gas duct 16. The throttle 17 may be an integral element of the gas regulation
valve 18. The throttle position of the throttle 17 can be adjusted by an actuator
21 assigned to the throttle 17. The controller 20 may control the actuator 21 and
thereby the throttle position of the throttle 17 during calibration. Calibration is
optional and not mandatory for the present invention.
[0031] The gas burner appliance 10 is installed at a certain location or premises like a
residential home. The maximum fan speed of the fan 14 of a gas burner appliance 10
is factory pre-set in the controller 20 of the gas burner appliance.
[0032] According to the present application, the geodetic or geographic altitude of the
location at which the gas burner appliance 10 is operated is determined automatically.
Further on, the maximum fan speed of the fan 14 and thereby the maximum burner-load
of the gas burner appliance 10 is automatically adjusted or adapted on basis of the
determined geodetic or geographic altitude. Preferably, the geodetic or geographic
altitude of the location at which the gas burner appliance 10 is operated is automatically
determined by the controller 20 of gas burner appliance 10 over the internet 30.
[0033] The geodetic or geographic altitude of the location at which the gas burner appliance
10 is operated may be determined automatically by the controller 20 of gas burner
appliance 10 in such a way that the controller 20 communicates directly with an internet
router 29 installed at the same location or premises as the gas burner appliance 10.
[0034] Alternatively, said geodetic or geographic altitude may be determined automatically
by the controller 20 in such a way that the controller 20 communicates indirectly
through another device like a room thermostat 31 with the internet router 29 installed
at the same location or premises as the gas burner appliance 10.
[0035] The internet router 29 can retrieve the geodetic or geographic altitude of the location
at which the same is installed in known manner from the internet 30.
[0036] The internet router 29 connects to the internet 30 through a so-called dial-in node
of a telecommunication network. From said dial-in node the geodetic or geographic
altitude may be retrieved.
[0037] It is also possible that the controller 20 of gas burner appliance 10 may have an
own internet connectivity like a mobile phone. In this case the controller 20 as such
may communicate with the internet 30 without needing an internet router 29. In this
case the controller 20 can also retrieve the geodetic or geographic altitude of the
location at which the same is installed in known manner from the internet 30 using
a dial-in node of a mobile network.
[0038] It is also possible that the controller 20 may have GPS connectivity like a mobile
phone. In this case the controller 20 as such may can retrieve the geodetic or geographic
altitude of the location at which the same is installed in known manner from the internet
30 using GPS data.
[0039] The maximum fan speed of the fan 14 is automatically adjusted on basis of the determined
geodetic or geographic altitude in such a way that the maximum fan speed increases
with increasing altitude. The maximum fan speed of the fan 14 may be adjusted by discrete
steps depending from the determined geodetic or geographic altitude. Alternatively,
the maximum fan speed of the fan 14 may be adjusted by a steady function depending
from the determined geodetic or geographic altitude.
[0040] Preferably, the maximum fan speed of the fan 14 of the gas burner appliance 10 is
factory pre-set in the controller 20 for an geodetic or geographic altitude of normal
zero. Said factory pre-set maximum fan speed of the fan 14 is stored in a data memory
28 of the controller 20.
[0041] The controller 20 determines automatically the geodetic or geographic altitude of
the location or premises at which the gas burner appliance 10 is operated. The controller
20 comprises a data interface 26, especially with direct or indirect communication
with the internet router 29.
[0042] The controller 20 automatically adjusts the maximum fan speed of the fan 14 and thereby
the maximum burner-load for the gas burner appliance 10 on basis of the determined
geodetic or geographic altitude, namely in such a way that for a determined geodetic
or geographic altitude being greater than normal zero the factory pre-set maximum
fan speed is increased. This increase of the maximum fan speed of the fan 14 can be
done by discrete steps or by a steady function depending from the determined geodetic
or geographic altitude.
[0043] The method according to the present invention may be automatically executed by the
controller 20 of the gas burner appliance 10 after installation of the gas burner
appliance 10 and/or after a reset of the gas burner appliance 10 and/or after a service
interval of the gas burner appliance 10.
List of reference signs
[0044]
- 10
- gas burner appliance
- 11
- gas burner chamber
- 12
- flame
- 13
- flame rod
- 14
- fan
- 15
- air duct
- 16
- gas duct
- 17
- throttle
- 18
- gas valve / regulating valve
- 19
- gas valve / safety valve
- 20
- controller
- 21
- actuator
- 22
- actuator
- 23
- mixing device
- 24
- pneumatic controller
- 25
- exhaust gas chimney
- 26
- data interface
- 27
- data processor
- 28
- data memory
- 29
- internet router
- 30
- internet
- 31
- room thermostat
1. Method for operating a gas burner appliance (10), by
providing during burner-on-phases of the gas burner appliance (10) a flow of a gas/air
mixture having a defined mixing ratio of gas and air to a burner chamber (11) of the
gas burner appliance (10) for combusting the defined gas/air mixture within the burner
chamber (11),
wherein said gas/air mixture is provided by a mixing device (23) of the gas burner
appliance (10) mixing an air flow with a gas flow,
wherein the air flow or the flow of the gas/air mixture is provided by a fan (14)
of the gas burner appliance (10) in such a way that the fan speed of the fan (14)
depends on a desired burner-load of the gas burner appliance (10),
wherein the fan speed range of the fan (14) defines a modulation range of the gas
burner appliance (10) in such a way that a maximum fan speed of the fan (14) defines
the maximum burner-load of the gas burner appliance (10);
wherein said defined mixing ratio of gas and air of the gas/air mixture is controlled
over the modulation range of the gas burner appliance (10) using a gas regulating
valve (18) in order to keep the defined mixing ratio of gas and air constant over
the modulation range of the gas burner appliance (10),
characterized by
determining automatically the altitude of the location at which the gas burner appliance
(10) is operated,
adjusting automatically the maximum fan speed of the fan (14) and thereby the maximum
burner-load of the gas burner appliance (10) on basis of the determined altitude.
2. Method as claimed in claim 1, characterized in that the altitude of the location at which the gas burner appliance (10) is operated is
automatically determined by a controller (20) of gas burner appliance (10) over the
internet (30).
3. Method as claimed in claim 2, characterized in that the altitude of the location is automatically determined by the controller (20) in
such a way that the controller (20) communicates with an internet router (29) installed
at the same location as the gas burner appliance (10).
4. Method as claimed in claim 2, characterized in that the altitude of the location is operated is automatically determined by the controller
(20) in such a way that the controller (20) communicates through another device like
a room thermostat (31) with an internet router (29) installed at the same location
as the gas burner appliance (10).
5. Method as claimed in one of claims 1 to 4, characterized in that the maximum fan speed of the fan (14) is automatically adjusted on basis of the determined
altitude in such a way that the maximum fan speed of the fan (14) increases with increasing
altitude.
6. Method as claimed in one of claims 1 to 5,
characterized in that
the maximum fan speed of the fan (14) is factory pre-set in a controller (20) of gas
burner appliance (10) for an altitude of normal zero,
the controller (20) determines automatically the altitude of the location of the location
at which the gas burner appliance is operated,
the controller (20) automatically adjust the maximum fan speed of the fan (14) and
thereby the maximum burner-load on basis of the determined altitude, namely in such
a way that for a determined altitude being greater than normal zero the factory pre-set
maximum fan speed is increased.
7. Method as claimed in one of claims 1-6, characterized in that the maximum fan speed of the fan (14) is adjusted by discrete steps depending from
the determined altitude.
8. Method as claimed in one of claims 1-6, characterized in that the maximum fan speed of the fan (14) is adjusted by a steady function depending
from the determined altitude.
9. Controller (20) of a gas burner appliance (10) for operating the gas burner appliance
(10), the controller (20) being configured to
determine on basis of a heat demand a desired burner-load to provide the heat demand,
wherein the desired burner-load is a load with a modulation range of the gas burner
appliance (10),
determine on basis of the desired burner-load a fan speed of a fan (14) of the gas
burner appliance (10) which is needed to provide the burner load,
wherein a fan speed range of the fan (14) defines the modulation range of the gas
burner appliance (10) in such a way that a maximum fan speed of the fan (14) defines
the maximum burner-load of the gas burner appliance (10),
characterized in that
the controller (20) is further configured to
determine the altitude of the location at which the gas burner appliance (10) is operated,
adjusted on basis of the determined altitude the maximum fan speed of the fan (14)
and thereby the maximum burner-load of the gas burner appliance (10).
10. Controller of claim 9, characterized in that the same is configured to determine the altitude of the location at which the gas
burner appliance (10) is operated over the internet (30).
11. Controller of claim 9 or 10,
characterized in that the same has
a data memory (28) in which a factory pre-set maximum fan speed of the fan (14) for
an altitude of normal zero is stored,
a data interface (26) for communicating directly or indirectly with an internet router
(29) in order to determine the altitude of the location at which the gas burner appliance
(10) is operated,
a data processor (27) for adjusting the maximum fan speed of the fan (14) on basis
of the determined altitude, namely in such a way that for a determined altitude being
greater than normal zero the factory pre-set maximum fan speed is increased.
12. Controller of one of claims 9 to 11, characterized in that the same configured to execute the method of one of claims 1 to 8.