DE8230065U1 - FUEL HEATED SOURCE - Google Patents

Description

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Johi Vaiiiant GmbH U »Co | ί

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Fuel-heated heat source

The present invention relates to a fuel-heated Heat source according to the preamble of the main claim.

Such fuel-heated heat sources ^ be it continuous water heaters, Circulating water heaters or boilers have a handle on the thermoelectric ignition fuse with which both a valve lying in the fuel path open as the armature is also applied to the electromagnet of the thermoelectric ignition fuse. This application must be carried out for as long as until a thermocouple heated by the main or pilot burner is able to deliver a thermal voltage, which feeds a coil of the electromagnet and is sufficient in strength, the holding function of the thermoelectric ignition fuse to take over, so that the handle can be released

can. Since the heating of the thermocouple takes more or less long and often depends on the strength of the pilot flame Depending on the pilot burner, "periods of time of about half a minute result for which the application has to be carried out and maintained manually.

The present invention is based on the object of providing a fuel-heated heat source with a thermoelectric To create ignition protection in which the manual application of the thermoelectric ignition protection is not necessary.

The solution to this problem lies in a fuel-heated one Heat source of the type specified at the outset according to the invention in the characterizing features of the main claim.

Further refinements and particularly advantageous developments of the invention are the subject of the subclaims or emerge from the description below, which explains an embodiment of the invention with reference to the figure of the drawing.

The drawing shows a basic representation of a fuel-heated Heat source with an ignition fuse and an electrical circuit.

The fuel-heated heat source 1 essentially has a heat exchanger 3 heated by a main burner 2, the water of a circulation from a return line 4 draw-

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leads and is discharged via a feed line 5. In the course of a Venturi nozzle 5 is arranged on the return line 4 a water switch 6 is connected via two measuring lines 7 to form a water shortage protection device. To the Forward is a consumer 8, consisting of a large number Radiators connected in parallel and / or in series or a domestic water heater, connected, from the consumer 8 leads a connecting line 9 to a circulation pump 10, in whose Drucketutsen the Venturi nozzle 5 is. Whether it is with the fuel-heated heat source 1 is a circulating water heater or a boiler is irrelevant. If the fuel-heated heat source as a continuous water heater for Preparation of sanitary water for use ends

»Line 5 in a nozzle, while the return line

formed by a feeding cold water network.

The main burner 2 is fed from a gas line 11 in which a water shortage safety valve 12 is arranged, the is actuated via an actuating rod 13 which can be actuated by the water switch 6 and which is provided with a normally open contact 1Ί which is located in a supply line 15 to a current source j 52.

The gas line 11 is located downstream of the water deficiency safety valve 12 and leads to a branch 15, from the one ignition gas line 17 leading to a pilot burner 16 and a main gas line 18 leading to the main burner 2 branches off. In the main gas line 18, a valve 19 is one

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thermoeiektrischön ignition fuse 20 arranged, which is essentially from an electromagnet 21, an armature 22 and the already mentioned valve 19 is made. The anchor 22 is I with the valve body of the valve 19 Via a rod 23 VeP-f tied on the side facing away from the armature 22 of the Veh =

I tils 19 leads to a break contact 2k , which in the course of an eiek-

1 tric line 25 is arranged, which is immediately attached

J the working contact Ik on which the line 15 facing & n side \ of the contact connects.

I The thermoelectric ignition fuse is under effect I a spring, not shown, which seeks to convert the I thermoelectric ignition fuse into the position shown in the figure

i set position to transfer, that is, the armature 22 is withdrawn from the jj electromagnet 21, the valve 19 and the rest |> contact 2k are closed.

I The electromagnet has a first winding, the so-called

! called holding winding 26, which is connected via lines 27 and I 28 with a thermocouple 29, which is the ignition. burner 16 is assigned, which in turn is so adjacent to the main burner \ 2 that its flame is able to '' ignite the main burner. The electromagnet is also provided with a second winding, the so-called pull-in winding 30, which is provided with a branch point 32 via a first lead 31 and a branch point 3k via a second lead 33, and both of these, except via the contact winding 30 via the primary winding 35 of a

Ignition transformer 36 are electrically connected in parallel. A secondary winding 37 of the ignition transformer is grounded on the one hand, and connected via a line 38 to an ignition electrode 39 on the other hand, which is assigned to the pilot burner 16, which is also grounded.

The normally closed contact 24 is on the side facing away from the line 25 via a further line 40 with a timing element 41 connected, the output of which is placed at a branch point 42 is. The branch point 42 is connected to the point by means of a line 43 into which a resistor 44 is looped 32 connected. However, the point 42 is connected to a line 45 into which a resistor 46 is looped, to another Junction point 47 connected. At the branch point there is a capacitor 48 and a Zener diode 49 connected. On its side facing away from the branch point 47, the capacitor 48 is at another branch point 50 connected, from which a line 51 goes to the other pole of the current source 52.

The Zener diode 49 is on the one facing away from the branch point 47 Side connected to a control electrode 53 of a thyristor 54, one electrode of which is connected to the branch point 34 and the third electrode of which is connected via a line 55 to a branching point 56 which is connected via a line 57 is connected to the branch point 50. A capacitor 58 is connected to the connection point 56, the other connection of which is at junction point 32.

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Although the embodiment describes a gas-fired heat source, it would just as well be possible to use an oil-fired one instead Provide heat source.

The fuel-heated heat source just described has the following function:

It is assumed that the state of rest shown in the drawing that is, the water switch 6 is due to the action of the return spring, not shown, in the position that the Wasserraangel safety valve 12 is closed and the normally open contact 14 is open. The thermoelectric Ignition safety valve 19 is likewise closed, as is contact 24. The circuit of the power source 52 is interrupted. This power source can be either a battery or the tent member 41 contains one Voltage multiplier, it can also be a mains voltage source with rectifier, then there is Element 41 as a pure delay element.

In the case of the circulating water heater, the pump 10 goes through Heat request signal from a room not shown or flow thermostats in operation, this builds up on the Venturi nozzle 5 A differential pressure due to the water flow on, which brings the water switch 6 to respond, so that the water shortage safety valve 12 is opened and the contact 14 is closed. Nunmehp 1st the circuit for that

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Current source 52 is closed, capacitor 48 is charged via resistor 46 and capacitor 58 is charged via resistor 44. The timer 41 begins to run for a delay time of about 10 seconds. After the 10 seconds have elapsed, the timer interrupts the further current circuit in the line 40. The voltage on the capacitor 48 rises relatively quickly, after the voltage specified by the Zener diode 49 has been reached, the thyristor 54 is ignited , so that a current flow pulse in the contact winding 30 of the electromagnet 21 results. At the same time, the ignition transformer 36 is supplied with voltage. As a result, ignition sparks are generated via the ignition electrode 39 to the housing of the ignition burner 16. Since the ignition gas path is open via the lines 11, 15 and 17, ignition gas flows immediately when the low-water safety valve 12 e.us, which is supplied by the Ignition spark is ignited and the thermocouple 29 begins to heat. Thus, in addition to the electromagnetic flux generated in the contact winding 30, a further additional rectified electromagnetic flux begins to build up, to be precise via the lines 27 and 28 in the holding winding 26.

When the armature is tightened, the contact 24 is opened, so that the current flow from the current source 52 via the timer 41 is stopped. Has to open during this time of the contact 24 the ignition of the pilot burner and the heating of the thermocouple have taken place and is a sufficiently large one Holding current via lines 271 28 from the thermocouple 20 has been built up in the holding winding 26, so holds

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the thermoelectric ignition fuse due to the thermal current, even if the application pulse is now from the application winding , 30 is switched off. The ignition is also de-energized.

If ignition and monitoring have not taken place, then it falls the armature 22 of the thermoelectric ignition fuse from the electromagnet from, the contact 24 is closed, and another!; Attempts to apply and ignite can take place. Finally will the heat source 1 go into operation by the holding circuit for the thermocouple in the electromagnet 21 is closed and so that the thermoelectric ignition safety valve 19 is opened. Gas can now flow in the main gas line 18, which is ignited by the pilot burner 16 on the main burner 2

* and burns and heats the heat exchanger 3.

^; A cessation of the operation of the heat source 1 caused by Stromloswerden of the motor of the pump 10, which is no longer exclusively * ■ reaching water flow rate can switch the water indicator speak f include the water deficiency safety valve 12 and

open contact 14. This is the circuit for the power source 52 interrupted, but also the gas path. Main and pilot burners go out immediately, for the thermocouple 20 a cooling phase begins, while the an'.ter 22 the thermoelectric Ignition fuse is still tightened, but contact 24 is open. The pump 10 would start up again ineffective, since the circuit for the power source is impossible because the contact 24 is still open. Got a waste

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the thermoelectric ignition fuse closes the contact 24 and makes it possible to restart heat source 1,

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Claims (1)

s α c a c β * Expectations Brennatoffoehelzte heat source with a heat exchanger heated by a main burner and with a pilot burner monitored by a thermoelectric ignition fuse, characterized by a electromagnetic application device (21, 30, 54, Ί1) for the armature (22) of the thermoelectric, Ignition fuse (20). Fuel-heated heat source according to claim one, characterized in that the electromagnet (21) of the thermoelectric ignition fuse (20) next to the holding winding (26) fed by the thermocouple (19) one from a current source (52) Has pull-in winding (30). -2 - • · 4 · »« * 0144 · * β «I · '« · ft · I * ί φ Joh.Valllant GmbH and Go GM 441 May 9, 1984 Fuel-heated heat source according to Claim one or two, characterized in that an electrical circuit is provided which has an electronic switch (5 10 ⁾ . Fuel-coated heat source according to one of the claims one to three, characterized in that a timing element (41) for the electronic switch (54) is provided to limit the time of the current pulses. Fuel-heated heat source according to one of the claims one to four, characterized in that the timing element in the circuit is a working contact trained water shortage safety contact and a normally closed contact of the thermoelectric ignition fuse are provided.