DE2640931B2 - Control and monitoring device for oil or gas burners - Google Patents

Description

Between the armature 14 of the flame relay 1 and the second contact spring 23 of the failure trigger contact set 22 consists of a spring 24 and an elastically and dynamically overshooting coupling mass 25 formed connection 26. The coupling mass 25 encloses the second contact spring 23, as shown in FIG Fig.2 can be seen without the contact spring 23 in the Touch rest position.

When the armature 14 of the flame relay 1 is attracted or dropped, the coupling mass becomes via the spring 24 25 accelerated to the right or to the left in egg Fig. 2. The coupling mass 25 swings through their inertia and, through the spring 24, the tightening or falling position of the armature 14 corresponding rest position. This is exploited when the anchor falls, by then the Coupling mass 25 abuts with a nose 27 on the second contact spring 23 and this from the first Contact spring 21 lifts off, that is, seeks to bring it into the open position. For holding the contact spring 23 in the open position is a device consisting of two mutually attractive permanent magnets 28 and 29, One of which is fixed and the other is arranged on the second contact spring 23. It can also there should only be a single magnet working against an iron pole piece.

To influence the device for holding the contact spring 23 in the open position tr Working bimetal 5 an arm 30 made of insulating material, which the possible movement of the second contact spring 23 with special needs. The length of the arm 30 is matched so that the permanent magnets 28 and 29 only outside of the Cold position of the timer 3 can come into contact by the arm 30 holding the permanent magnets 28 and 29 in the cold position of the bimetal separates and thus an S5 Interrupting the contact between the two contact springs 21 and 23 by the falling armature 14 prevented.

Instead of the spring 24 and the Koppclmassc 25, two mutually can be used for the connection 26 while overcoming a frictional force longitudinally displaceable parts according to FIG. J can be used: a with the second contact spring 23 firmly connected spring 40 comprises with bias a sliding body 41, the is in turn connected to the armature 14.

A third contact spring 31 is used to display the alarm, and a reset button 32 is used for manual resetting provided after a disturbance solution.

Instead of the thermal timer described, one could also be from a motor via a gearbox eccentric shaft driven against the force of a return spring to generate the necessary longitudinal movement can be used on the plunger 8.

Instead of the magnetic holder described, the second contact spring 23 could also by a Pawl are held in the open position, the timer triggers this pawl in its rest position.

The drawing also shows:

A phase lead 33, a thermostat switch 34, a Nulleiteranschliiß 35, an ignition transformer 36, a to Solenoid valve 37, a fan J8 and a fault lamp 39.

The electrical connections are described below along with a description of how it works explains: bi

When turning on the therniostat switch 34 results see an electrical circuit via the first contact spring 21 of the interference release mechanism 22, via the closed one second contact spring 23 to the fan 38 and at the same time to the flame monitor 2, via the middle contact spring 11 of the contact spring set 7 to the rocker i0 and from there to the ignition transformer 36 and the heating winding 6 of the thermal switch 3, as well as various connections of the individual consumers back to the neutral connection 35.

The flame monitor 2 generates a pick-up pulse for the flame relay 1 when the voltage is applied. Whose armature 14 attracts and falls off again immediately, provided that no extraneous light is present. Of the falling armature 14 accelerates in the example of FIG.] and 2 via the spring 24, the coupling mass 25. which by its inertia with its nose 27 on the second contact spring 23 abuts and this from the power supply line through the first contact spring 21 to seeks to separate.

In the example in FIG. 3, when the armature 14 is tightened, the spring 40 and the sliding body 41 slide on each other by the resulting frictional force from the one supported on the first contact spring 21 second contact spring 23 is added. When the anchor 14 falls off, it acts through the Frictional force in the opposite direction on the second contact spring 23 and tries to pull this from the to lift off the first contact spring 21, that is, to bring it into the Offenstellur.g.

When the thermal switch 3 is cold, the arm 30 prevents such a separation. However, 1st the working bimetal 5 is still warm according to a previous start attempt, then the two come Permanent magnets 28 and 29 for contact and prevent continued commissioning until the cooled working bimetal separates the permanent magnets 28 and 29 and thus the contact springs 21 and 23 again closes and thus triggers a full restart. During such a restart, the plunger 8 moves by the action of the heated bimetal in the direction of the flame relay 1 and causes after a Pre-ventilation time - during which the fan 38 and the ignition transformer 36 are in operation - a tilting of the Rocker 10 of the contact spring set 7. Its minimal contact spring 11 now touches the inner contact spring 12 and supplies voltage to the solenoid valve 37; this releases fuel.

The flame monitor 2 reports the formation of a flame, and the armature 14 attracts, separates with his Arm 13, the middle contact spring II from the contact of the Rocker 10 and now keeps the connection to the solenoid valve 37 closed independently of the rocker 10. As a result, the ignition transformer 36 and the heating winding 6 are de-energized; the operating position is achieved.

Each time the flame goes out, the armature 14 falls off Contact spring 12, the solenoid valve 37 without tension, and, if the thermal switch 3 is not completely has cooled down, the contact spring also open!) 21 and 23 of the interference trigger contact set 22 and prevent an instant relapse.

If no flame is formed when starting, the thermal switch 3 moves the stop 17 via the Disturbance release pawl 19 until its waste chamber 20 the first contact spring 21 can swing out against the third contact leather 31, the power supply / ur / widen Contact spring 23 interrupts and switches to the Slörmeldel.impe J9. Mn dem Entslörkiiopl 12 mull J.him the burner control is re-enisinri by hand

will.

The arrangement described makes it possible to use a previously only permissible for small burner capacities Automatic burner control systems without working relays can also be used for larger burner outputs by for everyone Operating status, a full start program is offered without adding up the pre-ventilation and safety times and in the event of a flame failure from operation, the fuel supply is switched off immediately, followed by full novelty takes place.

1 sheet of drawings

Claims (8)

Patent claims: 1. Control and monitoring device for oil or gas burners, with one when the Voltage a pick-up pulse to a flame relay with a flame detector emitting armature, a timer and a contact spring set that can be influenced by both the timer and the flame relay to achieve a pre-purge or pre-ignition time as well as a fault trigger contact set with at least two contact springs, the first of which is pretensioned on a release pawl rests and the second contact spring is supported on the first, characterized in that that between the armature (14) of the flame relay (1) and one in the voltage supply line (33) to the control and monitoring device arranged switching contact spring (23) a force-fit connection consists, through which the switching contact spring only when the flame relay drops into the open position can be brought, and that one of the timer (3) can be influenced, but only outside of the rest position the timer effective means (28, 29) for holding the switch contact spring (23) in their Open position is available. 2. Control and monitoring device according to claim 1, characterized in that the non-positive Connection of a spring (24) and an elastically and dynamically overshooting coupling mass (25) exists. 3. Control and monitoring device according to claim 1, characterized in that the non-positive Connection of two mutually longitudinally displaceable unier overcoming a frictional force Divide (40,41) consists. 4. Control and monitoring device according to one of claims 1 to 3, characterized in that that the switching contact spring (23) arranged in the voltage supply line (33) simultaneously the on the first switching contact spring (21) of the failure triggering contact set (22) supported second Contact spring (23) is. 5. Control and monitoring device according to one of claims 1 to 4, characterized in that that a thermal switch (3) is used as a timer. 6. Control and monitoring device according to one of claims I to 4, characterized in that that the timer consists of a motor that is driven by a gear against the force of a Return spring drives an eccentric shaft to generate the necessary longitudinal movement for the Influence on the contact spring set. 7. Control and monitoring device according to one of claims 1 to 6, characterized in that that as a device for holding the switch contact spring (23) in the open position at least a permanent magnet (28,29) is present. 8. Control and monitoring device according to one of claims t to 6, characterized in that that as a device for holding the switch contact spring (23) in the Offenstelliing a There is a latch that can be triggered by the timer in its rest position. The invention relates to a control and monitoring device for oil or gas burners according to the preamble of claim 1. With automatic burner control there is a requirement that each start-up of the burner by a complete program sequence is initiated. This can be done with a motor-driven programmer can easily be fulfilled by the fact that it has to run back to its starting position before each restart. ίο From DE-OS 22 28 212 is an arrangement known, in which a short power failure after the start up to the end of the post-ignition time is not a complete one Repetition of the start program, but only an immediate continuation of the previous one expired program causes. The same applies to the subject of CH-PS 4 48 357. There, however, is already with the Flame formation is a guarantee for a complete program repetition. During the However, this is not the case until the pre-ventilation time and until the flame forms or until the end of the safety time. The invention is based on the object of only one consisting of a flame relay and a timer Automatic firing systems to be supplemented so that with a minimum number of contact elements and without needing a working relay, a complete program flow for every start in every possible one Operating state - even after a prematurely aborted start attempt - is guaranteed. The object is achieved according to the invention by the measures specified in the characterizing part of claim 1. Advantageous further developments result from the subclaims. ^J5 An exemplary embodiment of the invention is explained in more detail below with reference to the drawing. It shows Fig. 1 is a schematic representation of a Keuerungsautomaien, F i g. 2 as a detail a section along the line Α-Λ of FIG . 1 and 3 shows a structurally different arrangement of the arrangement shown in FIG. 2 details shown.
1 with a flame relay is designated that is controlled by a flame monitor 2. A thermal switch 3, which consists of a Kompcnsations- and an Arbcitsbimetall 4 or 5 and a heating coil 6, serves as a timer. One influenced by both the flame relay 1 and the thermal switch 3 ™ Contact spring set 7 stands with the working bimetal 5 Via a plunger 8, an Omuga spring 9 and a rocker 10 forming the outermost contact spring. A middle contact spring 11 of the contact spring set 7 rests on the rocker 10, while an inner one "> ^r > contact spring 12 does not touch the middle contact spring 11 in the starting position shown. The flame relay 1 engages with an arm 13 of his Armature 14 also enters contact spring set 7 when its winding 15 is excited. ^{h (l} A hook 16 of the plunger 8 is operated at the end of its possible longitudinal movement of a stop 17 of a rotatably mounted at a bearing point 18 Auslösckiinke 19, at the falling edge 20, a first contact spring 21 of a Störauslöse-Kontakisai / .cs 22 with bias ί "'rests. A second, on the first contact spring 21 supporting contact spring 2.1 of the interference triggering contact salt 22 simultaneously forms the in the phascn / ulciliing lying scarf Ikon I a kl feiler.