This application claims priority to Spanish Patent Application No. P200802834, filed Oct. 2, 2008.
The present invention relates to control systems for the ignition of a gas burner, and more specifically to a burner used in domestic gas appliances such as cookers and driers, which comprise an incandescent element for causing the ignition.
Different control systems for the ignition of a burner in domestic gas appliances are already known. In some of the systems an incandescent element or an igniter (a glowbar) is used for such a purpose. The incandescent element is disposed adjacent to the burner and is heated up to a temperature suitable for gas combustion, the incandescent element causing, when it reaches the temperature, the gas that reaches the burner to light.
U.S. Pat. No. 3,826,605 discloses a control system of this type, the control system comprising a thermoelectric valve to enable the passage of gas towards the burner. The thermoelectric valve comprises a bimetallic element and a resistive element that keeps the passage of gas closed at ambient temperature, this being opened when the bimetallic element is heated by the power supply current of the igniter. The choice of material of the elements and their arrangement is essential in ensuring the system functions correctly and that the valve does not open too early, for example, or open too late after the incandescent element has reached the combustion temperature. In addition, as it is dependent upon the temperature of the elements in order to close, the thermoelectric valve may remain open for a period of time after the command to switch off the burner has been sent, with gas reaching the burner during the period of time. In a second embodiment disclosed in the document, the control system also comprises an electromagnetic valve, it being necessary for both the thermoelectric and the electromagnetic valve to be open to enable the passage of gas. The thermoelectric valve continues to control the opening of the passage of gas, whereas the electromagnetic valve controls the closure of the passage.
It is an object of the invention to provide a control system for the ignition of a gas burner, as described herein and as set forth in the claims.
The control system for the ignition of a gas burner in one implementation comprises at least one incandescent element that is designed to be heated until it reaches the gas combustion temperature and which is disposed adjacent to a burner in order to light the gas that reaches the burner, a power source for powering the incandescent element and thereby cause it to heat up, an electromagnetic valve to allow the passage of gas towards the burner, and an activation coil associated to the electromagnetic valve in order to open the valve.
The control system also comprises an additional coil associated to the electromagnetic valve and disposed electrically in series with the incandescent element, the additional coil and the incandescent element forming a branch electrically parallel to the activation coil, the valve being closed when power no longer reaches the additional coil.
When the incandescent element reaches the gas combustion temperature and both coils are powered; the electromagnetic valve opens to allow the passage of gas to the burner. The burner may be switched off by preventing power from being supplied to the coils, and, as the electromagnetic valve is not dependent upon the temperature as it would be if it were a thermoelectric valve, the valve thus is closed preventing the passage of gas towards the burner.
As a result, the use of a thermoelectric valve is not necessary in order to control the point at which the passage of gas towards the burner is opened, the control being performed through the electromagnetic valve that also controls the point at which the passage is prevented. Thus, the control system requires fewer elements and may also be more compact.
These and other advantages and characteristics of the invention will be made evident in the light of the drawings and the detailed description thereof.
The control system 100 is designed for domestic gas appliances 200, such as a cooker as shown in
In one embodiment, the electromagnetic valve comprises a rod 10 upon which at least two coils 41 and 42 are wound. When the coils are activated or powered with sufficient current, the rod 10 is moved, thereby opening the valve at the same time. Thus, in one embodiment, the control system 100 comprises activation coils 41 and 42 associated to the valve 3 in order to open the valve 3, the opening enabling the valve 3 to allow the passage of gas to the burner 5. As shown in the Figures, coil 41 is disposed electrically in series with the incandescent element 1, the coil 41 and the incandescent element 1 forming a branch RI electrically parallel to the activation coil 42. As a result, if the incandescent element 1 breaks down, the current stops circulating through the coil 41 due to the fact that it is disposed on the same branch as the incandescent element 1, and the valve 3 closes preventing the passage of gas to the burner 5.
In the embodiment of
The burner 5 may be switched off by turning off the power supply, thereby preventing power from being supplied to the coils 41 and 42, the valve 3 thus closing straightaway, preventing the passage of gas to the burner 5.
In the embodiment, the control system 100 may also operate without the activation coil 42, although the additional coil 41 would have to be adapted in order to allow it to open the valve 3 by itself, which would involve a much larger size of coil, preventing the obtaining of a compact control system 100 as is the case with the activation coil 42.
In a preferred embodiment shown in
The activator preferably comprises a switch 61 disposed electrically in series with the activation coil 42, forming, along with the activation coil 42, a second branch R2 parallel to the branch R1 formed by the additional coil 41 and the incandescent element 1. In one embodiment, the switch 61 is normally open, preventing the activation coil 42 from being powered, and closing when the burner 5 is to be lit and the incandescent element 1 has reached the gas combustion temperature. The switch 61 preferably comprises a thyristor as shown in
The activator may also comprise a control device 60 that acts on the switch 61 when a predetermined time equal to or greater than the time necessary for the incandescent element 1 to reach the gas combustion temperature has elapsed, the switch 61 allowing the activation coil 42 to be powered. This guarantees that the valve 3 opens when the incandescent element 1 has reached the gas combustion temperature.
The control device 60 acts on the switch 61, preferably by means of an activation pulse, the switch 61 allowing the activation coil 42 to be powered only during the activation pulse, given that the additional coil 41 may keep the valve open by itself. In addition, if the incandescent element 1 breaks down, for example, the additional coil 41 is no longer powered and as power is prevented from reaching the activation coil 42, the valve 3 does not allow the passage of gas to the burner 5. The control device 60 may also generate, for example, at least one additional pulse for the purposes of safety to ensure that the valve 3 has opened.
Instead of a control device 60 and a thyristor, the activator may comprise, for example, a temperature sensor (not shown in the Figures) that activates the switch 61 when it detects that the incandescent element 1 has reached the gas combustion temperature, thus allowing power to be supplied to the activation coil 42, permitting valve 3 to be opened.
In a preferred embodiment, in order to switch the burner 5 off, the power supply is switched off, thereby preventing power from being supplied to the coil 41, the valve 3 thus closing straightaway, preventing the passage of gas to the burner 5.
The control system 100 may be comprised in the domestic gas appliance 200 in a variety of different arrangements. In a first preferred arrangement shown in
In a second preferred arrangement not shown in the Figures, the appliance 200 may comprise a control module 7 that comprises the valve 3, the coils 41 and 42 and the activator. The control module 7 may comprise two power inputs through which the power supply reaches the coils 41 and 42 and the activator from the power source 2 which may be disposed on the control plate of the appliance 200.
In a third preferred arrangement not shown in the figures, the control module 7 comprises only the coils 41 and 42 and the switch 60 of the activator, the control module 7 comprising two or three power inputs through which the power supply reaches the coils 41 and 42 and the switch means from the power source 2 which may be disposed on the control plate of the appliance 200, and an additional input for carrying the activation pulse or the signal generated by the control means 60 to the switch means.
Number | Date | Country | Kind |
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P200802834 | Oct 2008 | ES | national |