The present invention relates to a device for lighting and controlling a burner in a household appliance, in particular a barbecue range.
It is known that household appliance provided with burners fed with a combustible gas (e.g. cooking ranges, barbecue ranges, boilers, gas ovens, etc.) are today essentially all provided with manually or automatically controlled electronic lighting devices, acting on each burner or on a flame of a pilot burner, which produces in use the lighting of burners when gas is fed to each one of them.
The known lighting devices are generally supplied by the electrical mains in alternating current and for this reason are cumbersome and non adapted to barbecue ranges, which are generally used in the open (fed by gas, e.g. LPG, cylinders), far away from electrical mains sockets; this problem is overcome by using piezoelectric or battery generators, which however increase the dimensions of the device and/or make it more complex, specifically from the circuital point of view, without adding any essential advantage.
Furthermore, none of the known devices allow to provide a clear and precise indication of the actual lighting status of the burners to the user; consequently, in practice, the user is not able, specifically for uses in the open or however in conditions of burners not in view (barbecue ranges), to understand if the burners of the household appliance are actually on, i.e. whether they are producing a flame (and, for example, the corresponding consequent heating of the food being cooked), or not. The fact the burners are provided with safety, devices based on thermal sensors, which shut off the combustible gas feed (e.g. by means of a solenoid valve or a thermocouple with valve tap) if the flame goes out, does obviously not solve this drawback.
It is the object of the present invention to avoid the aforesaid drawbacks by providing a lighting and control device for a burner of a household appliance, specifically for a barbecue range, which, in addition to allowing the manual or automatic lighting and relighting of the household appliance burners, also indicates to the user in a clear and visible manner if the flame is lit or not on each burner (or on a pilot lighting burner of the burners).
It is a further object of the invention to provide a lighting and control device of the aforesaid type which is simple, reliable, displays low cost and ensures reduced dimensions.
The present invention thus relates to a device for lighting and controlling the burner of a household appliance as defined in claim 1.
Specifically, the lighting and controlling device according to the invention comprises electrical supply means, a lighting circuit, a casing made of non-conducting material and fastenable in use to the household appliance, carrying the electrical supply means and the lighting circuit, and at least one spark plug electrically connected to the lighting circuit and fastenable to the household appliance in proximity of burner means (the burner to be lit or a pilot lighting burner of the burners) carried by the household appliance so as to be electrically connected to earth, the electrode of the spark plug being immersed in use in the flame.
As in all the known lighting devices, the spark plug is adapted to generate a spark between itself and the burner means to produce the lighting of a flame when the lighting circuit supplies high voltage alternating current, e.g. consequent to the feeding of a flow of combustible gas to the burner means. However, according to the invention the device further comprises a control circuit electrically connected to the spark plug and a light indicator fastenable in use to the household appliance, the control circuit being adapted to selectively turn said indicator on or off in consequence of a flow or interruption of a dispersion current to earth which said control circuit is adapted to make flow to the spark plug exclusively when the flame is lit.
In this manner, it is obtained in a simple, reliable and compact manner, an indication, positive or negative (in the sense that the light indicator may be operated indifferently so as to be on when the flame is lit and off when the flame is absent or on when the flame is absent and off when the flame is lit, in this latter case working as an alarm indicator), of actual lighting of the burner (or pilot burner) controlled by the device itself.
In general, the lighting circuit, the control circuit and the electrical supply means are in use electrically connected together through corresponding contacts carried by the casing and electrically connectable in use to the opposite terminals of a switch controlled by hydraulic feeding means of a combustible gas flow to the burner means.
According to one aspect of the invention, moreover, the electrical supply means are direct current low voltage generator means carried by and accommodated in the casing, which supply in parallel the lighting circuit through ac/dc transformer means and the control circuit through electrical disconnection means from the lighting circuit.
In this manner, the light indicator used is a LED indicator whose first power terminal is connected to the control circuit and whose second power terminal is in use connected to earth through the household appliance itself.
The drawback of needing an electrical mains supply socket or cumbersome piezoelectric generators is thus overcome at the same time by using the necessary additional electrical circuit parts for the supply of the indicator means, specific object of the invention.
Further features and advantages of the present invention will be apparent in the description that follows of a non-limitative example of embodiment, with reference to the accompanying drawing, in which:
With reference specifically to
Device 1 is of the type comprising electrical supply means 5 (also see
In the case in point, such connection to earth is obtained simply through household appliance 3 itself, a supporting structure of which, or “chassis”, 13 is metallic and electrically conducting and carries burners 2, spark plug 10 and burner means 11. The latter in the non-limitative case in point shown consist of an pilot burner carried by structure 13, for example next to one (or more) burners 2 to be lit but, according to a possible variant (not showed), may consist directly of burners 2 to be lit. Spark plug 10 is adapted to generate a spark 10a (
Specifically, the flow of combustible gas to burner means 11 is controlled in a known manner by hydraulic feeding means 18 (
According to the invention, within casing 7, specifically within a hollow cup-shaped portion 23 filled in use with an insulating resin 24 (
In all cases, control circuit 26 must be made so as to be adapted, according to the invention, to selectively produce either the turning on or off of indicator 27 in consequence of a passage or interruption of a dispersion current to earth (very low, in the order of a few micro ampere) which control circuit 26 is adapted to make flow in use to spark plug 10 exclusively when flame 15 is lit.
In practice, the invention is based on the fact that flame 15, due to the ionisation which is produced in the surrounding air, electrically behaves as a high voltage diode placed in series to a resistor of high order (e.g. of tens of Mega Ω); and on the fact that spark plug 10 appears in use lapped by flame 15 (
It is apparent that according to a possible variant (not shown), it is possible to make circuit 26 so that indicator 27 is supplied only when, on the contrary, flame 15 is absent (out).
In any case, according to a further aspect of the invention, electrical power means 5 are direct current low voltage generators (e.g. formed by a 9V battery) carried by and accommodated within casing 7, in a specific cup-shaped seat 32 fluid-tightly sealable by means of a snappingly closable lid 33 provided with sealing means 34.
In this manner, lighting circuit 6, control circuit 26 and electrical supply means 5 are in use electrically connected together by means of contacts 22 when these are electrically connected, by means of wires 21, to terminals 20 of switch 19, so that battery 5 supplies in parallel lighting circuit 6 through ac/dc transformer means 35, for example of the rectified diode type (FIG. 5), and control circuit 26 through electrical disconnection means 37 (indicated for the sake of simplicity with a block in
In order to advantageously exploit the aforesaid features, light indicator 27 consists of a LED (Light Emitting Diode) indicator a first supply terminal 41 of which is connected to control circuit 26 and a second supply terminal 42 of which is in use connected to earth through household appliance 3 itself, in the case in point through the same general circuit 28 carried by board 25, which is connected to an earth wire 45 protruding from resin 24 and one of whose eyelets 46 is available in use at one of eyelets 9 to be connected to carrying and conductive structure 13 by the screws which fasten casing 7 themselves. It is apparent that, specifically in the case in which casing 7 is fastened to structure 13 through means other than screws and by eyelets 9 (e.g. snappingly), wire 45 is advantageously replaced by another earthing system, for example by means of elastic spring or rigid metallic jumper, to be “imprisoned” between casing 7 and chassis 13 of barbecue 3.
According to a first possibility (of higher simplicity and lower cost), lighting circuit 6 comprises a button switch 50 (of known type) arranged between ac/dc transformer means 35 and booster coil means 40, which button switch 50 is fastenable in use onto household appliance 3, preferably integrated onto a same support 51 with light indicator 27 (
According to the variant shown with a dotted line in
Although device 1 described may work with one only spark plug 10 for each burning means 11 to be lit, according to a possible variant device 1 (
Finally, on the basis of the description, it is apparent that, if device 1 comprises one spark plug 10 (and possibly an additional spark plug 100) for each burner 2, whereas burner means 11 consist of burners 2 themselves, lighting circuit 6 will comprise a plurality of high voltage output contacts 101 (
On the other hand, in the case in which lighting and control device 1 comprises one only spark plug 10, plus only one possible additional spark plug 100, this/these will be arranged at a pilot burner 11 for lighting all burners 2 of household appliance 3.
On the basis of the description, it is apparent that, with the use of electronic means of common use, such as transistors, diodes, capacitors and resistors (i.e. with necessarily the use of microprocessors), it is possible to implement at low cost, by means of circuit 28, the block diagram of
When hydraulic control means 18, these being either one single tap per burner 2 or a general supply valve for pilot burner 11 and burners 2, in turn controlled by single taps (not shown) arranged downstream of hydraulic control means 18, are closed (off), switch 19 is open and therefore (blocks 200 and 201–
On the other hand, when hydraulic control means are on (open), switch 19 is closed and circuits 6 and 26 are supplied (blocks 202, 203—
In the presence of manual switch 50, for producing the lighting of burner means 11 (burners 2) it is necessary to press button switch 50 to close it and supply current to circuit 6, generating sparks 10a which trigger the lighting of flame 15 (block 204); during such step the aforesaid dispersion current to earth passes intermittently in circuit 26 (because sparks 10a are intermittent since circuit 6 is supplied by half-waves) through spark plug 10 and LED 27 consequently blinks, but does not light up; when flame 15 is stabilised, on the other hand, LED 27 stops blinking and the user shall be informed that button 50 may be released (flame 15 on); if flame 15 accidentally goes out (e.g. due to a gust of wind or because it gets wet), LED 27 goes off, informing the user that flame 15 must be re-lit by pressing switch 50 again (obviously, in addition to the lighting of LED 27 in this case it may be contemplated that circuit 26 further comprises an alarm buzzer, which at this point would be operated (switched on, until either button 50 is pressed or switch 19 is open).
In the case of presence of electronic switch 55, on the other hand, the lighting of burner means 11 (burners 2) is produced automatically as soon as switch 19 is closed; indeed, battery 5 supplies in such case current to circuit 26 which, in absence of flame 15 (no dispersion current to earth) operates electronic switching means 55 to generate sparks 10a; in such step (blocks 205, 206) LED 27 blinks but does not light up. At this point, as soon as flame 15 is on, the above-mentioned dispersion current starts passing to earth which closes through flame 15 itself and thus LED 17 is on (block 208).
It is possible at this step, by means of an appropriate branch of circuit 28, also to implement blocks 209, 210, 211, according to which, if spark plug 10 is still cold (condition of flame 15 just lit), for which displays a different electrical resistance with respect to warm, circuit 26 operates switching means 55 again for a certain time continuing the generation of sparks (e.g. for 10 seconds), for safety reasons, to then definitively deactivate circuit 6 interrupting the generation of sparks 10a.
In these conditions, the system is in stand-by or “monitoring” status, indicated by the steady lighting (in the example shown) of LED 27. If flame 15 goes out, dispersion current to earth to spark plug 10 immediately ceases and circuit 26 consequently produces a new activation of switching means 55 (blocks 220, 221) to produce the generation of sparks 10a again. LED 27 blinks during such step.
Number | Date | Country | Kind |
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TO2006A000168 | Mar 2006 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB07/00529 | 3/6/2007 | WO | 00 | 8/20/2008 |