DE680611C - Device for controlling the heat supply to devices - Google Patents

Description

Device for controlling the supply of heat to devices The invention refers to a device for controlling the supply of heat with one of the supplied thermal energy heated thermocouple, in its thermal circuit a Electromagnet is arranged, which when cooling down the. Thermoelem @ entes the heat source shut off. According to the invention, one of these devices is known per se the supplied thermal energy influenced additional device provided which if there is no thermal energy, at least before the 'Flhermo # eleinentes has cooled down, interrupts the thermal current flowing through the electromagnet. The heat source can be a pilot and guard flame or an electric one. As long as the thermocouple is has a certain temperature, so it can generate a certain voltage, is sufficient the force generated by the electromagnet opens a valve for the fuel to keep.

If the heat source heating the welding point is interrupted, then As the temperature of the welding point decreases, so does the tension and thus the force the electromagnet is getting smaller until this z. B. not the fuel valve can hold more so that the latter closes.

The time between the unexpected absence of the heat source elapses for the thermocouple and closing the fuel valve is optional relatively long and kömite with high energy loads on the device to be secured mean a danger.

This closing time is reduced by the subject matter of the invention.

In one embodiment, a known contact is made in the thermal circuit by said heat source by means of a heat sensitive membrane during the Operation of the device is held in the current closed position, however, when the heat source disappears, opened after a short time, so that the electromagnet is no longer able is to keep the fuel valve open. In another embodiment the heat sensitive membrane holds one. Contact open during operation and closes it when the heat source, which the thermocouple and at the same time the membrane is heated. This short-circuits the electromagnet. around the voltage drop in the main line after the electromagnet is so great that the The solenoid no longer has enough power to hold the valve. These too Setup is instantaneous as it is controlled by a thermosensitive membrane fully effective.

Fig. I shows schematically the first embodiment with contact breaker in the closed state, Fig. 2 in the operating state.

Fig. 3 shows the second version with short-circuit breaker in closed state, Fig. 4. in operating state.

Figs. 5 and 6 show the second embodiment using a electrical heat source.

In the pictures is the thermocouple heated by the Wäxmequelle denoted by i. The welding point i of the thermocouple and also the elastic one Membrane 3, the. Breaker 2, 4 controls, are controlled by the common heat source, namely by the pilot flame in the embodiments according to Figs. i to 4 and by the Elektroglühkö.rper 8 in the embodiment according to Figures 5 and 6, heated. When the welding point is heated, a thermal current is created, which is called an electromagnet 6 energized, so that this is a control member releasing the heat supply, e.g. B. fuel valve, can hold in the open position. The heated at the same time as the thermocouple Membrane 3 bulges after about 1 to 2 seconds. -In the embodiment according to the Fig. I and 2 are the breaker contacts 2, 4 in the thermal circuit 7 and are opened when the membrane is cold, closed when the membrane is heated, so that it is closed when it is burning Pilot flame are closed and the electromagnet is energized. The heat source fails for some reason, then the membrane bulges after a short time, about 2 seconds, back again and opens the contacts -2,4 or the circuit 7, in which otherwise current would flow through the heated mass of thermocouple i for a longer period of time, which would hold the safety organ by means of the electromagnet. In the Embodiment according to Figures 3 and 4, the contacts 2, 4 are in a circuit 5 (thermal element membrane contacts) parallel to the one guided by the electromagnet 6 Circuit 7 and are closed when the membrane 3 is cold, so that they the electromagnet short circuit. With the heating of the thermocouple i and the membrane 3 they become opened so that the electromagnet is energized. If there is no heat supply the second circuit 5 is closed by straightening the membrane 3, whereby the current intensity in the line leading to the electromagnet 6 is reduced so much becomes that the force generated in the electromagnet releases the safety organ.

The embodiment shown in Figs. 5 and 6 differs from that in Figs. 3 and 4 only to the extent that a heat source is used here Electric glow body, he 8 is provided.

Claims (3)

PATENT CLAIMS: i. Device for controlling the supply of heat to devices with a Thoermoelement heated by the supplied thermal energy, in its thermal circuit an electromagnet that shuts off the heat source when the thermocouple cools down is arranged, characterized in that in addition one of the supplied Thermal energy-influenced device (2, 3, 4) is provided, which in the absence the thermal energy before the thermocouple cools down (i) the one caused by the electromagnet (6) interrupts flowing thermal current. 2. Device according to claim i, characterized characterized in that the additional device, which before the cooling of the thermocouple interrupts the thermal flow from a membrane heated by the heat source (3) there is one in the circuit between the thermocouple when there is no heat supply (i) and the electromagnet (6) arranged contact (2,4) interrupts. 3. Establishment according to claim i, characterized in that the additional device consists of a The membrane (3) heated by the heat source exists when there is no heat supply , a short circuit for the electromagnet (6) closes so that the latter the heating medium line is shut off.