DE2453170A1 - CONTROL DEVICE FOR A BURNER SYSTEM - Google Patents

Description

9478-74 / Sch / Ba
Case 553

USSN 414,268

Filed: November9,1973

Electronics Corporation of America Cambridge, Mass. (V.St.A.)

Control device for a burner system

The invention relates to a control device for a burner system.

Large burner systems, such as those for burning petroleum or natural gas in power plants, are usually equipped with control devices to operate the burner in accordance with the requirements of the system and to monitor the burner system in with regard to dangerous conditions. The monitoring plays a very important role because the fuel is normally located inside a combustion chamber and thus the possibility of an explosion in the event of incorrect operation consists. In particular, there are three states in which there is such a great risk that the burner system will be shut down is justified. The first condition occurs when, immediately before the burner starts to operate, a flame is in the combustion chamber is determined. In this case it is either failed to achieve the desired state before ignition without supplying fuel to the combustion chamber - that is, the state still without flame - to generate, or there may be a fault in the flame sensor circuit. The second condition concerns one

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unexpected failure of an already ignited flame and the associated need to turn off the fuel supply to the combustion chamber so that there is no explosive amount of fuel accumulates in it. The third condition occurs when, despite attempts, it is not possible to light a flame, so that an explosion can also occur, provided that the ignition attempt is not interrupted after a certain period of time and at least one faulty function occurs in the facility.

While it is important that the torch not be operated until the above conditions are resolved, it is also desirable to limit the number of burner failures so that the operation of the power plant is not interrupted will. For this reason, the control device should work with the highest reliability, both when it comes to a fix dangerous condition as well when it comes to prevention of malfunctions so that the burner is switched off unnecessarily. The reliability in both of these cases leaves a lot to be desired in many existing control devices in which relay contacts are used in the control circuit. Such contacts can easily stick in the closed position, providing shutdown circuits for the torch, too remain closed after a dangerous situation has been remedied and the circuits are no longer required. Furthermore, contacts can become so dirty that they close the shutdown circuits is prevented if necessary.

A major problem with the existing control device designs is related to the fact that they are switched to the shutdown state after a power failure, provided that the When the flow returns, a flame is present in the combustion chamber, even though the flame is the remaining fuel consumed before a dangerous situation arises when the burner operation is restored. Instead of an automatic

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245317Q

The burner remains switched off until the The reason for the shutdown can be investigated and the shutdown mechanism can be reset.

Based on these relationships, there is an object of the invention is to improve the control device for a burner system so that they both with respect to a possibly required shutdown of the burner system as well as to prevent unnecessary shutdowns to a high degree reliably is working. Another improvement is said to be that the control device has alternating circuits for excitation the shutdown mechanism for the burner is working, in which the circuits are cross-coupled during operation in order to prevent disruptive shutdown processes. After all, the Control device do not have the problems associated with sticking and dirt as they arise when using Relay contacts can occur in the control device.

The control device according to the invention is for use with a burner system is provided together with a combustion chamber, a device for supplying a combustion start signal for the control device, a device for switching on the burner and for the supply of fuel, and a flame sensor circuit is equipped. The control device comprises a switch for switching off the burner operation, an actuator for the switch, control means for the supply of fuel to the combustion chamber and the operation of one located therein Ignition device, and a circuit controlled by the flame sensor for generating a flame signal. To excite the actuator for the switch, two circuits are provided, which respond to a specific group of burner states. The first excitation circuit contains a lockable one Switching device (safety switch), which when set in a closed, conductive state for the duration a burner start signal remains closed. The second stream

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circle contains two switches in series, of which the first is controlled by a burner start signal to close or open depending on the presence or the Absence of said signal, while the second is controlled by the flame sensor to close or open depending on from the display of a flame or a non-existent flame. The lockable switching device and the first switches are cross-coupled by means of a trigger and a feedback branch. The trigger circuit switches the lockable Sphaltvorrichtung in a closed position in response to the first switch, which is below the Influence of a signal mentioned closes the first branch, independently of this burn start signal, during the feedback branch Resets switch to an open position when the lockable switching device closes.

According to another embodiment of the invention, the second Switch, when it is closed in response to a flame indicator signal, switched in such a way that it activates the trigger circuit passes over and the triggering of the lockable switching device and a resulting resetting of the first switch prevented. The second excitation circuit is thereby enabled, the circuit for exciting the actuating device for the switch to close only if the burner is in operation before the occurrence of a signal Flame signal is present.

According to yet another embodiment, an additional switch is provided which, as a function of the flame signal closes or opens in the opposite direction to the one above mentioned second switch in the second excitation circuit, the additional switch in the first excitation circuit in series with the lockable switching device is switched. The excitation circuit of the actuator for the switch-off for a flame fault in the combustion chamber and for a failed ignition attempt is thus closed by the first excitation circuit.

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According to yet another embodiment, the lockable switching device is also in the excitation circuit of the control device switched for fuel supply and ignition. This control device is thus locked in the energized state when the switching device is locked, while the lockable switching device is during the duration of a burner start signal is kept switched on by transmitting this signal to the switching device by the control device.

In a particular embodiment, a plague body circuit is used used. The lockable switching device comprises a silicon-controlled rectifier (SCR), its anode-cathode path with the collector-emitter path of a switching transistor is in series, which as an additional switch in the first Excitation circuit is used. The switches in the second excitation circuit are formed by two switching transistors in series, wherein a voltage divider is connected in series with the first of the two transistors to provide a trigger signal to the rectifier to be supplied when the first transistor is put into the conductive state by the burner start signal. The rectifier is also connected in a ground circuit between the base of the first transistor and ground, with a gate signal is removed from the first transistor and that transistor which is reset by grounding its base when the rectifier is switched to the conductive state. The second transistor is in a low-resistance grounding circuit, which bridges the voltage divider circuit, whereby the voltage across the voltage divider to a level below the output? release level for the rectifier is limited when the second transistor is conductive, whereby an excitation of the control device fuel supply and ignition is prevented if there is a flame in the combustion chamber is when there is a demand for burner operation.

The following is an embodiment of the invention Control device explained in more detail with reference to the drawing, which

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represents a circuit diagram of the control device.

In the drawing, a control device with two terminals 10 and 12 is shown, which for connection to an alternating current source are determined. A primary winding 14 of a transformer 16 is connected to the two terminals 10 and 12, which has two secondary windings 18 and 20. A conventional control unit is also connected to the terminals 10 and 12, which includes a limit switch 22 and an operation control element such as a thermostat 24, an alarm device 26, a fan motor 28, an igniter 30, a pilot fuel valve 32, and a main fuel valve 34. Of the Operation of the various elements in the control section is controlled by a number of relay contacts, which are detailed below to be discribed.

One flow switch 36 and the primary winding of a second Transformers 40 are in series on the one hand with the limit switch 22 and the thermostat 24 and on the other hand with the terminal 12 connected. The two terminals 44 and 46 of the secondary winding 42 of the transformer 40 are each connected to a full-wave rectifier 48 connected, which is formed by diodes 50, 52, 54 and 56. The rectifier 48 has terminals 58 and 60, Via which a rectified current is supplied to the control circuit to be described.

The transformer 16 feeds a conventional flame sensor circuit, which contains a capacitor 62 which is connected in parallel with a resistor 64 between the high-voltage terminal 66 of the Winding 18 and an ultraviolet flame sensor 68 connected is. The flame sensor 68 is connected to the low-voltage terminal via a second RC element made up of a resistor 74 and a capacitor 72 70 of the secondary winding 20 is connected.

With the low-voltage terminal 76 of the winding 18, a coil 78 is also connected, which with two terminals 80 and 82 and

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two taps 84 and 86 is provided. The clamp 82 and the Taps 86 are connected to a common output line 92 via diodes 88 and 90. The capacitor 94 is between of terminal 80 and tap 84, which are also connected to earth is.

The line 92 is connected to an amplifier via a resistor 96 for the output of the flame sensor 68, which includes two transistors 98 and 100. The output of the transistor 100 is connected to the control circuit for displaying the state of the flame in the combustion chamber.

The main control circuit is connected to terminals 58 and 60, To which an Sleb. member made of a resistor 102 and a capacitor 104 is also connected. A delay order e.g., a timing relay 106, is connected between terminal 58 and the remainder of the control circuit to enable it to be energized during a short interval, which is dimensioned so that the flame sensor circuit only after a burner start signal can act. A heating element 108 for the actuator (Safety switch) is connected to the other side of the timing relay 106. It controls a normally closed one On-off switch 108-1, which is arranged between the thermostat and the control unit 28-34 for the combustion chamber, wherein a normally open switch 108-2 is located in the alarm circuit 26. The off switch or lock switch 108-1 opens, when the heating element 108 is heated to a predetermined temperature, which the control unit 28-34 so long ineffective until the switch is turned back on manually. A control switch 110, which is also controlled by the timing relay 106 is connected to the input terminal 58, controls a make contact 110-1 between the switch 108-1 and the Control unit 30-34. Another relay actuator 112 is connected to transistor 100 in the flame sensor amplifier and is shown in FIG Dependent on the flame sensor 68 excited, which detects a flame in the combustion chamber. The flame relay actuator 112 controls

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There is a normally open contact 112-1 in the main fuel relay circuit 34 for the oil supply and also the opening contact 112-2 in the circuit for the spark ignition device 30.

Two alternating circuits are provided to energize the circuit breaker 108 and turn off the burner if one is faulty Working method or a dangerous condition occurs. The first excitation circuit contains a lockable switch, e.g. a silicon-controlled rectifier (SCR) 114, which is connected to the collector-emitter circuit of a switching transistor 116 and the Heating element 108 is connected in parallel. The second excitation circuit has two switching transistors 118 and 120, their collector-emitter paths are also connected in series with heating element 108, with a bias circuit made up of resistors and 123 is connected to the base of transistor 118. Each excitation circuit is connected to ground through a diode 124. While the transistor 116 as a pnp type and the transistors 118 and 120 are shown as npn-type, the polarities of the transistors can be interchanged and suitable settings in the control circuit can be performed without affecting the basic operation of the present controller.

The bases of transistors 116 and 120 are connected to actuator 112, and transistor 116 then becomes conductive, when actuator 112 is de-energized and transistor 120 is rendered conductive if actuator 112 is energized. The transistor 118 will then be turned on State shifted when a request for a burner start signal (burner operation desired) is sent to the control relay actuator is fed. The anode-cathode path of rectifier 114 is also in series with control relay actuator 110 and, together with a diode 124, completes a low-resistance Excitation circuit for this relay.

A voltage divider made up of two resistors 126 and 128 is in between Earth and the junction of the emitter of the transit

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stors 118 to the collector of transistor 120 and provides a Output voltage through line 130 to rectifier 114, when the transistor begins to conduct and sends a signal to terminal 58 to the voltage divider. The resistance is in a feedback branch from the anode of the rectifier 114 to the base of the transistor 118, thus one on the transistor 118 pending gate or actuation signal removed and the Transistor 118 is reset to its blocking state when the rectifier 114 begins to conduct, once the rectifier is triggered, it is held on by actuator 110 for the duration of a torch start signal. the end the drawing shows, however, that the series connection of the transistor 120 with the diode 124, the voltage divider trigger circuit bridged for the rectifier or .. SCR 114 ', the triggering of rectifier 114 is prevented when transistor 120 is triggered by a flame indication signal on the flame relay actuator 112 is put into the conductive state, the voltage divider is practically short-circuited during these periods.

During operation, terminals 10 and 12 are mostly live, so that the flame sensor 68 is energized via the transformer 16 is. The main control circuit and the amplifier for the flame sensor are energized via the transformer 40, its primary winding is controlled by the operation controller 24. When the thermostat 24 gives a burner start signal, the fan 28 is turned on is switched on and creates a flow of air through the combustion chamber so that the switch 36 closes and the primary winding 38 of the transformer 40 is applied to voltage. The electronic components of the flame scanner are from the secondary winding 42 of the transformer fed during the delay which the switch 106 delivers, and if safe States, i.e. no flame is present and the circuit is functioning properly, the flame relay 112 remains de-energized. In in this case and at this point in time, the rectifier 114 and the transistors 118 and 120 are non-conductive

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State while transistor 116 is conductive. One at the Burner start signal occurring at terminal 58 passes through the Control relay actuator 110, when delay relay 106 closes, is divided down through resistors 122 and 123 and generates a voltage at the base of transistor 118 which sufficient to put the transistor in the conductive state. The transistor 118 then completes a circuit through actuator 108 as well as voltage divider resistors 126 and 128 to trigger rectifier 4, which then by control relay actuator 110 for the duration of the Burner start signal is locked. A low-resistance circuit is thus from the base of transistor 118 through resistor 122, rectifier 114 and diode 124 to Earth is formed, the voltage at the base of the transistor 118 drops to a level at which the transistor is out of its Line state is reset to its blocking states.

When the rectifier 114 is triggered, low-resistance Excitation circuits for the switch actuator 108 via the transistor 116, the rectifier 114 and the diode 124, as well as for control relay actuator 110 via each rectifier 114 and the Diode 124 is formed. The actuator 108 begins to heat up while the actuator 110 for the control relay causes that the contact 110-1 closes and thus triggers an ignition attempt. If the flame formation is successful before the heating sequence of the actuator 108 has expired, which according to FIG is normally set to a duration of 5 to 30 seconds in accordance with the requirements of the present control device, becomes a signal to energize the flame relay actuator 112 Supplied by the flame sensor amplifier, causing the ignition contacts 112-2 opened or 112-1 closed to open the main fuel supply. At the same time, the tension across the Flame relay actuator 112 applied to the base of transistor 116, so that it is brought out of the conductive state and the heating circuit for the cut-off actuator 108 is interrupted, never the same voltage brings transistor 120 into the conductive state

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State, but the non-conductive transistor prevents it from closing an alternating switch-off actuation circuit.

The operating states of transistors 116, 118 and 120 and des Rectifier 114 during the normal, previously described The firing order is summarized in a table below. A conductive (ON) or a non-conductive (OFF) state is for each of the named elements immediately after the closing of the relay 106, immediately before the triggering of the Rectifier 114, just after the triggering of the rectifier 114 and after the ignition of the fuel in the combustion chamber and the corresponding determination by the flame sensor 68 indicated.

Normal firing order

right away
after this
Conclude
of the relay
106 right away
before the trig
like that
Rectification
ters 114 right away
after the trig
like that
Rectifier
114 fuel
ignited 114 THE END THE END A A 116 A A A THE END 118 THE END A THE END THE END 120 THE END • THE END THE END A

If the fuel does not run during the cut-off actuator heating sequence 108 ignites, the control circuit of the rectifier 114 and the transistor 116 remain unaffected, and the actuator 108 is in operation. The circuit breaker 108-1 will then open, de-energize the burner controller 28-34 and de-energize the burner switch off. At the same time the contact 108-2 closes, whereby the alarm 26 is triggered.

If a flame forms but later extinguishes while the transformer 40 still as a result of the burner start signal

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453170

= 12 =

voltage is present, does the plasma sensor 68 interrupt the line condition? thereby locking the transistors 98 and 100 of the amplifier circuit and de-energizing the flame relay actuator 112. The transistor 116 then begins to conduct zn and, together with the locked rectifier 114, closes a circuit for exciting the actuating element 108 and shutting down the burner system.

In the event of a third " dangerous" condition, ie that a signal indicates a flame is present in the combustion chamber when the burner is to be initially turned on, an excitation circuit for the shut-off switch actuator 108 is established by transistors 108 and 120 in the following manner . The transistor 118 is switched to the conductive state as a result of the burner start signal, as in the previous case »At the point in time at which this takes place, however, the transistor 120 is already conductive due to the flame relay actuator 112, which is already excited under the influence of the flame signal» The transistor 120, together with the diode 124, closes a low-resistance circuit in order to short-circuit the trigger circuit with the resistors 126 and 128 so that the rectifier 114 cannot be triggered. As a result, the feedback path through the resistor 122 remains ungrounded, and the two transistors 118 and 120 conduct until the off switch actuator 108 is in operation.

The modes of operation of transistors 116, 118 and 120 as well as des Rectifier 114 during 'each of the three turn-off states is recorded in the following table.

Ignition error
A Plam failure11
A Pre-existing 114 A SIN Flame signal
THE END 116 THE END THE END THE END 118 THE END THE END A 120 A

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The control circuit also offers the advantage of repeating the firing sequence instead of switching it off if one Temporary flame after a power failure in the combustion chamber remains, but is cleared before the shutdown actuator 108 took effect. A shutdown occurs under these conditions Circuit initially formed by transistors 118 and 120 while the flame continues to burn, the trigger circuit for the rectifier 114 from the transistor 120 and the Diode 124 is shorted. When the flame goes out, transistor 120 stops conducting, transistor 116 begins to conduct and the rectifier 114 is triggered so that the Control relay actuator 110 is energized and transistor 118 resets. The actuating member 108 heats up further due to the current from the rectifier 114 and the transistor 116 formed circuit. Switching off is prevented by transistor 116, which is brought out of the conductive state if a flame is formed before the remainder of the heating sequence has expired.

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Claims (13)

453170 -14- Claims 'Control device for a burner system with a combustion chamber _r with a circuit for supplying a burner start signal to the control device, with a device for supplying fuel to the combustion chamber and for igniting the fuel, and with a flame sensor "furthermore with a burner switch-off and an actuator for the same and a control device for the ignition and Hauptbrennstoffsufuhr soxfie with a display device that a first and a second excitation circuit for the Äfoschalter-BetätigHngsglied (108) (Secure = heitsabschalter) are provided g produced under control of the flame detector, a flame signal, characterized , of which the first has a lockable switch element (SCR 114) which in the triggered state remains conductive for the duration of a burner start signal and of which the second excitation circuit has first and second circuit elements (118, 120) which are connected in series with one another and the like nd the first (118) of which closes or opens depending on the presence or absence of a burner start signal and the second of which closes or opens depending on the display of a flame or a non-existent flame through the display device and that a cross-coupling branch ( 126,128) is provided for the lockable switch element (SCR 114) with the first circuit element (118), which comprises a trigger circuit which, when the first circuit element (118) is closed, responds to triggering of the lockable switch element (114), while a feedback branch ( 122) is responsive to the closing of the lockable switch © element (114) to return the first circuit element (118) to the open position. 2) Control device according to claim 1, characterized in that that the second circuit element (120) with a circuit (120,124) to bypass the trigger circuit and sum prevent 509820/08 * 7 the triggering of the lockable switch element (SCR 114) is equipped when the second circuit element (120) is closed. 3) control device according to claim 1, characterized in that that in the first excitation circuit an additional circuit element (116) is connected in series with the lockable switch element (114) and as a function of the display of the presence of a flame by the display device, the first excitation circuit closes or prevents closure of the same. 4) Control device according to claim 1, characterized in that that the lockable switch element (114) in such a way to the control device is connected that this is held in the response state when the switch element is switched on. 5) Control device for a burner system with a combustion chamber, with each device for supplying a burner start signal to the control device, with a device for fuel supply and ignition, and with a flame sensor as well as with a cut-off switch and an actuator for this, furthermore with a control device for said ignition and fuel supply and having a flame sensor circuit for generating a flame signal, characterized that first and second circuit elements (114,116) connected in series with one another for closing a first excitation circuit for the actuator (108) are present and the first circuit element (114) further to the control device is connected and is provided for locking the same for the duration of a burner start signal, and the second circuit element (116) for closing or opening in response to an indication of the absence or presence a flame is determined by the display device, and that third and fourth switching means (118,120) contain which are connected in series with one another in order to close a second excitation circuit for the actuating element (108), 509820/0827 and that said third switch (118) is further in a trigger circuit for the first switch element (114) is connected and is responsive to a burner start signal for closing the trigger circuit, and that the fourth circuit element (116) for closing or opening depending on the presence or the absence the flame is switched by the display device. 6) Control device according to claim 5, characterized in that that the fourth circuit element (120) is connected in such a way that the trigger circuit for preventing the triggering of the switch element (114) is bypassed-e 7) Control device for a burner system with a combustion chamber, with a device for supplying a burner start signal to the control device ,, with a control device for the fuel supply and ignition with a flame sensor, with a burner switch and an actuator for this, characterized in that a first Circuit is provided ^ which on the simultaneous occurrence a burner start signal and a flame failure signal of the flame sensor is responsive to excitation circuits for the actuator (108) of the safety switch (108,108a, 108b) and the control device to close that further the first circuit a lockable solid-state switch (114) which during the duration of a torch start signal, the circuit for the control device that keeps a second circuit on the common occurrence of a burner start signal and a flame signal responds and an excitation circuit for the actuating member (108) of the safety cut-out closes, and that the lockable switch element (114) with the second Circuit is coupled to a supplied burner start signal, that is fed to the second circuit, to pass over and thus the closing of an excitation circuit for the actuator (108) through the second circuit to prevent ^ the only then an excitation circuit for the actuator (108) depending on 609820/0827 from a burner start signal if the Flame signal occurs before the burner start signal. 8) Control device according to claim 7, characterized in that that a trigger circuit for the lockable switch element (114) is provided, which the second circuit with the element couples, and that the trigger circuit as a function of the common occurrence of a burner start signal and a flame sensor signal can be actuated. 9) Control device according to claim 8, characterized in that the second circuit contains an arrangement (120), which responds to a flame signal and bypasses the trigger circuit to prevent triggering. 10) Control device for a burner system with a combustion chamber, with a device for feeding a Burner start signal to the control device, with a device for fuel supply and ignition, with a flame sensor and a flame sensor circuit for generating a flame signal, with an input terminal for the burner start signal, a switch for the burner and an actuator for the switch, which is connected to the input terminal and is energized by the burner start signal, with a control device for fuel supply and ignition, characterized in that the control device is connected to the input terminal for excitation is that the anode-cathode path of a controlled silicon rectifier in a first excitation circuit for the actuator (108) is connected in series with it, that a locking circuit is connected to the anode of the rectifier (114) and for supplying a locking signal thereto it is determined by said input terminal during the duration of the burner start signal that the collector-emitter paths a first and a second switching transistor (118,120) in 509820/0827 .a second excitation circuit for the actuator (108) in Are connected in series and the first switching transistor (118) of those
is switched so that A conducts when a burner start signal occurs at the input terminal, while the second switching transistor (T2O) is connected to the flame sensor circuit and conducts a voltage divider when a flame signal occurs
(126,128) is connected to the collector-emitter path of the first switching transistor (118) and when the first
Switching transistor (118) supplies a trigger signal to the control electrode of the silicon rectifier, and that the anode-cathode path of the rectifier (114) is also connected to a ground circuit between the base of the first switching transistor (118) and ground potential and closes the grounding circuit in the conductive state , .and removes the blocking signal from the first switching transistor (118) and resets it to the blocking state. 11) Control device according to claim 10, characterized in that the second switching transistor (120) is connected to a low-resistance grounding circuit, which bridges the voltage divider (126,128), such that when the second switching transistor (120) is conductive, the divider voltage on the non-triggering
Level for the rectifier is limited. 12) Control device according to claim 10, characterized in that an additional switching transistor (116) in the first excitation circuit with the anode-cathode path of the controlled silicon rectifier is connected in series with the
Flame detector circuit is connected that it occurs when
a flame error signal is blocked and thereby the closing of the first when the Silizirangleichriefater (114) is conductive
Excitation circuit enables » 13) Control device according to claim 10, characterized in that the anode-cathode line of the rectifier (114)
with dar mentioned control device in the locking circuit for
the rectifier is connected in series. 509820/0827