FR2493476A2 - Automatic flame detector and ignition controller for gas burner - uses programmable unijunction transistors driving thyristors and relays to provide flame detection and controlled delays before re-ignition - Google Patents

Abstract

The power stage is connected to the AC mains and includes the solenoid valve and the ignitor, which are connected through relay contacts. The validation stage is supplied via transformer from the AC mains. A programmable uni-junction transistor is used to detect the flame using electrodes in the flame. The transistor removes the trigger voltage from a thyristor, releasing two AC supplied relays, thus closing the solenoid valve. Simultaneously, contacts on one of the relays initiate a timing circuit comprising a second transistor, whose anode is grounded viaa capacitor which requires a set time to charge, triggering another thyristor and activating two relays which open the solenoid valve and attempt re-ignition.

Description

 The present addition relates to improvements made to an automatic device for detecting a flame of a bradeur, for example, with a view to triggering or not triggering security systems as a function of the detected characteristics of the flame.

The main patent describes a method and a device which included a power stage, a stage for validating the ignition of the flame, a stage for detecting the presence or absence of a flame, and a setting device. in safety of the device, characterized in that the stage for validating the ignition of the flame included a first capacitor connected to
the emitter of a first programmable unijunction transistor whose output was connected to the coil of a first relay which, when energized, controlled the switching of a second relay which controlled a gas valve and a flame igniter device , in that the detection device included an electrode, a second capacitor charged by said current rectified by the flame and connected to the emitter of a second programmable unijunction transistor whose base was connected to the trigger of a control thyristor a third relay and a fourth relay mounted in parallel on the relay these two relays ensuring the continuation of the gas supply to the burner of the appliance short-circuiting the igniter device and ensuring 1 1 auto-al imentation of the first relay.

 The Applicant has found that during automatic re-ignition, the purge time was random and of duration less than the initial purge time, and that there was no possibility of having a safety device without possible re-ignition.

 The purpose of this addition is to avoid the aforementioned drawbacks by providing a solution which makes it possible, during a re-ignition cycle, to have a new purge time of duration equal to the initial purge time and to have the possibility of '' a safety device without re-ignition possible.

To this end, the present addition consists of a device for automatically controlling a flame of an appliance of the type claimed in the main patent and comprising in particular a power stage, a stage for validating the ignition of the flame. , a stage for detecting the presence or absence of a flame, and a device for securing the appliance, the stage for validating the ignition of the flame comprising a first capacitor connected to 17 emitting a first programmable unijunction transistor whose output is connected to the coil of a first relay which when energized controls the switching of a second relay which controls a gas valve and a flame igniter device, characterized in that provision is made for switch means connected in parallel on said capacitor to cause the substantially complete discharge thereof, after the appearance of the flame
According to another characteristic of the addition, in the event of an extinction of the flame of the burner, the aforementioned switch means remains on and pockets the charge of the capacitor to thereby eliminate any attempt to re-ignite.

According to yet another characteristic of the addition, the aforementioned switching means is a thyristor
According to another characteristic of the addition, the thyristor control means is provided by a resistive bridge connected to the output of the above-mentioned first programmable unijunction transistor.

According to another characteristic, the aforementioned thyristor is connected in series with a resistor and the capacitor - is. connected in parallel to the thyristor via a diode
The addition will be better understood, other objects, characteristics, details and advantages thereof will appear more clearly during the explanatory description which follows, made with reference to the appended schematic drawings, given only by way of non-illustrative examples. illustrating a currently preferred embodiment of the addition, and in which
- The single figure shows the electrical diagram of the automatic counter flame device.

According to the addition, the automatic flame control device described in detail in the main patent, comprises in particular
- a power stage 2,
a validation stage 3 for lighting a flame 4, and
- a stage 5 for detecting the presence or absence of the flame 4.

 In the example shown, it involves controlling a flame 4 obtained by means of an igniter device 6 with its ignition electrode 7, and supplied, at the level of a burner 8, by a gas source (not shown) via at least one solenoid valve 9.

Power stage:
The power stage is of the type described in detail in the main patent, and in particular comprises a power source (for example 220 volts, 50 Hz) which supplies the primary winding 10 of a transformer II with the interposition of a push button 12 and a fuse 13. In parallel on the primary 10 of the transformer There is an indicator light 14 which against the state of the push button 12 (on-off).

In parallel on the primary 10 of the transformer 11 is mounted the solenoid valve 9 with a control lamp 16 in parallel thereon. This solenoid valve 9 is in fact controlled via
- a first contact 17 (working position b) of a relay A,
- a first contact 18 (working position b) of a relay D,
- a first contact 19 of a relay D and a first contact 20 of a relay C, when the two contacts 19 and 20 are in the rest position (a) or in the working position (b) .

 Also in p 2 Relative to the primary 10 of the transformer 11, there is the igniter device 6 countered by an indicator light 21. This igniter 6 can only be powered if the contacts 19 and 20 of the relays B and C respectively are in the rest position (at). The first contact 17 of the relay A, when it is in the rest position (a), ensures the lighting of an indicator light 22 countering a purge system (not shown) of the device whose flame is to be checked, the igniter device is not energized.

Validation stage 3 for lighting the flame 4:
The secondary of the transformer consists of a coil 30 divided into two substantially equal windings 30a, 30b.

 On the winding 30a, and more precisely between the midpoint P1 of the two windings 30a, 30b and the other end P2 of the winding 30a, a rectifier and filtering circuit is mounted, by the diary intern of a fuse 31 by a diode 32 and a capacitor 33 (for example 100 pf).

At the terminals of the capacitor 33 are mounted in series a resistor 84 and a thyristor 83. The connection point between the resistor 84 and the thyristor 83 is connected to the emitter.
tor of a solid-state transistor Programmable junction T1 via a diode 82. The thyristor control 83 is connected to the connection point between two resistors 80 and 81, the other end of the resistance 81 is connected to point P2 of the winding 30a> the second end of the resistor 80 is connected to the connection point between the second base of the programmable unijunction transistor T1 and the resistor 36 via a diode 85.

 At the terminals of the capacitor 33 are mounted in series two resistors 34 (for example of 39 Kohms) and 35 (for example of 100 Kohms). The connection point between these two resistors 34 and 35 is connected to the first base of the programmable unijunction transistor T1, the second output base of which is connected to point P2 of the winding 30a by means of a resistor 36 (for example of 1 K ohm) and the coil of relay A.

 The emitter of transistor T1 is connected to point P2 of secondary winding 30a by means of a capacitor 37, and to the junction point between diode 32 and capacitor 33 by a resistor 38, by a second contact 39 of the relay. D (in rest position a), and by the second contact 40 of relay B (in rest position a).

 In the rest position of the contacts 39 and 40, the connection point between the output or second base of the transistor T1 and the resistor 36 is in the air, while in the working position of these contacts, this point is connected to the point of connection between the diode 32 and the capacitor 33 of the rectifier circuit.

In parallel on relay A is mounted, in series, relay D and a second contact 41 of relay A. This relay D is excited by relay A, and this contact 41 (in working position d) makes it possible to connect this relay
D at the connection point of the diode 32 and the capacitor 33 to supply the relay.

Detection circuit 5
This circuit is identical to the circuit described in detail in the main patent, and reference will be made to this for the detailed description of this sub-assembly.

 According to a first embodiment of the present addition, the operation of the control device which has just been described is as follows.

 In this first embodiment, the resistor 84 is eliminated.

For the noslmaa operation of the device since it is put into operation, until the ignition of the flame, reference will easily be made to the main patent, in which this operation is perfectly described.
In particular, the second contact 40 of the repais B, ensures the self-supply of the relay A. In other words, until the moment when the relay B is energized, the relay A is maintained by means of the discharge of the capacitor 37 through the first unijunction transistor T1 and the resistor 36.

As the bridge resists 80-81 which commands the
thyristor 83, is connected in parallel to the coil of relay A and the resistor 36, the diode 85 emaching the capacitor 37 to discharge through the resistive bridge 80-81, the thyristor 83 becomes conducting when closing (b) of the contact 40 of relay B.

 Thus, the capacitor 37 can, through the diode 82, discharge to a substantially zero value.

Which, during a new re-ignition attempt, makes it possible to have a charging time of the capacitor 37 equivalent to the initial charging time, hence a new purging time of duration equal to the initial purging time.

 According to a second embodiment in accordance with this addition, the resistor 84 is present in the circuit.

 As we have seen previously, the supply of the resistive bridge 80-81 via the second contact 40 of the relay D makes it possible to control the thyristor 83 to turn it on and cause current to flow through the resistor 84.

 If for one reason or another, the flame 4 disappears, the rectified current passing through the flame by ionization effect no longer exists, so that the second transistor T2 is no longer excited and falls out.

As a result, relays B and C will be triggered. By triggering as described in the main patent, the contacts of relay B and C then cause tripping of relays A and D, which causes one solenoid valve 9 and the igniter device are no longer under voltage. The second contact 41 of the relay A re-switches to go into the rest position (position a), which causes the switching of the relay D with return to the rest position of its first contact 18 (power stage side 2), and its second contact 39.

 In this state of the device, if for example this anomaly is only temporary, the device can no longer operate again by re-controlling the charge of the capacitor 37.

 Indeed, the fact that the relays B, C, A, and D are no longer energized does not disturb. not the passage of current through resistor 84 through thyristor 83.

As a result, the thyristor 83 has remained on and somehow "short-circuited" via the diode 82 the capacitor 37, preventing it from charging, which excludes any further re-ignition.

 To restore the control device to working order, it is normally necessary to go back to the starting point with resetting at push button 12 after having, as the case may be, overcome the fault which did not allow the triggering of fBmme 4.

 it is important to note that all the advantages resulting from the device which is the subject of the main patent are retained in the device which is the subject of this addition.

 Of course, the addition is in no way limited to the embodiment described and shown which has been given only by way of example. In particular, it includes all the means constituting technical equivalents of the means described, as well as their combinations, if these are executed according to the spirit and implemented within the framework of protection as claimed.

Claims (5)

 1. Device for automatically countering a flame of an electrical household appliance, and of the type claimed in the main patent according to one of claims 2 to 8, comprising in particular a power stage, an ignition validation stage of the flame, a stage for detecting the presence or absence of a flame, and a device for securing the device, and further comprising a first capacitor connected to the emitter of a first programmable uniJunction transistor whose. the output is connected to the coil of a first relay which, when energized controls the tilting of a second relay which controls a gas valve and a flame igniter device, characterized in that a switching means is provided connected in parallel on said capacitor to cause substantially complete discharge thereof after the appearance of the flame  2. Device according to claim 1, characterized in that, in the event of an extinction of the flame of the grinder, the aforementioned switch means remains on and pockets the charge of the capacitor (37), to thus suppress any attempt to re- ignition.  3. Device according to claim 1 or 2, characterized in that the aforementioned switching means is a thyristor (83).  4. Device according to claim 3, characterized in that the thyristor control means (83) is provided by a resistive bridge (80-81) connected to the output of the above-mentioned first programmable unijunction transistor (T1).  5. Device according to one of claims 2, 3 or 4, characterized in that the aforementioned thyristor (83) is connected in series with a resistor (84) and in that the capacitor (37) is connected in parallel to the thyristor (83) via a diode (82).