DE519750C - Heating device for liquid fuels with mechanical temperature control - Google Patents

Description

There are already heating devices for liquid fuels, especially for gardens and greenhouses with mechanical, automatic temperature control is provided, wherein the heat regulator is effective at a predetermined temperature and. Ignition means by means of a switching device, controls in such a way that it controls the heating device or put the furnace into operation. On the other hand

to one knows similar devices in which the switching device ignites several firings. The disadvantage of these known devices is that you do not have Has means in hand, so that the next one after lighting a fire then automatically put into operation when the first furnace to generate the desired Temperature is insufficient. According to the invention, this disadvantage is eliminated by that in the ignition circuit controlled by the heat regulator for a furnace an electromagnet is switched on, which, when excited, unlocks a clockwork, which after a certain time the electrical ignition circuit closes for another firing. The drawing illustrates an embodiment the invention.

Fig. Ι shows the side view of the heat regulator with electrical contact device as well as part of a heating device.

Figure 2 is a top plan view of part of Figure i.

Fig. 3 shows the side view of an electrically controlled clockwork, which in cooperation is brought to the thermostat and its contact device.

The heat regulator consists of a bimetal strip with two slats 1 of different Expansion coefficients, which are fixed at one end to a holder 2 at a distance from each other, while at their opposite ends are connected to each other. With temperature changes carries out the freely movable end 3 of the heat regulator movements, the size of which of depends on the temperature changes. The movements are transmitted by levers 4 and 5 to a pivoted lever 6, the movable end of which is arranged opposite an adjusting screw 7 which is adjustable and is provided with a pointer, which cooperates with a scale 8, whereby the device can be set for certain temperatures. The lever 6

and the adjusting screw 7 Hegen in the circuit of the electrical element 9, which is, for example, a drying element such as for flashlights common, can be. When the temperature drops, the end 3 of the Thermo moves staten 1 upwards and consequently the free end of the lever 6 also upwards, whereby the lever 6 comes into contact with the adjusting screw 7 at the set temperature. The circuit 14 of the Element 9 is thereby closed and causes an ignition body 10 to ignite, which in turn ignites the fuel of the furnace 24 in question. In Fig. 3 the control device is shown, through which the thermostat 1 one or more additional firing systems in Operation continues. The control device contains an electromagnet 29 which, when the Lever 6 moved by the thermostat touches the screw contact 7 and the first Firing 24 puts into operation, is excited and attracts the armature 30, on which a lever arm 30 ″ which is normally in engagement with an impeller 31 and this locked. The impeller 31 has one or more radially extending blades and forms the final link of a clockwork, which has an intermediate gear 32, its opposite The final link forms the gear wheel 3 2 ″, on the axis of which a spiral spring 33 sits, which is raised in the usual way. As soon as the anchor 30 is tightened, the impeller 31 is released so that the clockwork is started and the impeller in Rotation is offset. If the armature 30 is in the rest position shown, in which the Electromagnet 29 is not energized, the clockwork is at a standstill. The gear 32 °, which after unlocking the impeller rotates very slowly, carries a pin 32 *, at a certain position of the gear 32 ° comes into contact with a conductor 34, which is attached to the insulated base plate 35 and leads to the clamp 38. the Base plate 3 5 also carries terminals 36,37 and 39. The electrical connections are the following:

Two lines 40 lead from terminals 15, 16 in the ignition circuit for the first furnace to terminals 36, 37 of the control device. A conductor leads 41 from the terminal 36 to the terminal 42 which ^{he s} is above the metal mass of the movement 32 with the wheel 32 'and the pin 32 in conductive connection. One end 29 ° of the coil winding of the electromagnet 29 is in connection with the conductor 41 and the other end 29 ^{s of} the coil winding with the terminal 37. A conductor 43 also connects the terminal 37 with the terminal 39, whereby of the two terminals 38, 39 two conductors 44 go off, which, in a manner similar to the conductors 14 in Fig. 1, lead to an ignition body which can put the second firing device into operation. Now bring. the thermostat 1 the arm 6 in contact with the screw 7 to put the ignition body 10 and the furnace 24 in operation, the electromagnet 29 is excited and the armature 30 is attracted at the same time, whereby the impeller 31 of the clockwork and this clockwork itself released will. The wheel 32 ″ now starts to rotate slowly and rotates without interruption as long as the armature 30 remains attracted by the electromagnet 29, ie as long as the lever 6 contacts the screw 7. Continuous contact between the lever 6 and the screw 7 occurs when the cold is so great that the firing device 24, which is lit immediately after contact is made, is insufficient to raise the temperature in the vicinity of the heat regulator sufficiently. In this case, after a certain time, the contact pin 32 ^O comes into contact with the conductor 34, whereby the circuit is closed, so that current passes through the conductor 44 and the second ignition body and the second firing device are ignited. Further circuits, including an ignition body and a further firing device, can be switched on, namely these circuits can be closed in series, one after the other, following, or in a different predetermined order and at predetermined time intervals by opening in In a manner known per se, further contact arms or strips 34 are arranged, which serve the relevant circuits and are touched one by one by the contact pin 32 *.

If, however, the heat given off by the first or initial firing device 24 is sufficient to raise the temperature in the required manner, the heat regulator 1 will bring the lever 6 out of contact with the screw 7, whereby the circuit 40 is interrupted and the electromagnet 29 out of action Excitement comes. This releases the armature 30 and the lever 30 ^s stops the rapidly rotating impeller 31, thereby stopping the clockwork. However, as soon as the temperature falls below a certain value again, the heat regulator starts the clockwork.

Claims (1)

Claim: Heating device for liquid fuels with mechanical temperature control, especially for gardens and greenhouses, with one of a thermal regulator-controlled switching device, which puts several furnaces into operation, thereby characterized in that in the ignition circuit for a furnace controlled by the thermostat, an electromagnet (29) is switched on, which unlocks a clockwork (32-33) when excited, which after a certain time closes the electrical ignition circuit (44) for further firing. Here are sheets of drawings