DE495647C - Electrical switchgear that responds to heat - Google Patents

Description

Electrical switchgear responsive to the action of heat. The invention relates to an electrical switching device responsive to the effect of heat, in which a thermometer with three contacts arranged one behind the other in a control circuit, two of which are separated by a fixed temperature range, when one of these contacts is reached by the heat-sensitive part of the thermometer the response of a relay to operate a switch for a second circuit causes, and with which device the automatic dropout of the relay only then can be done again after the heat-sensitive part of the thermometer with the other of the two contacts has come out of contact.

The purpose of the invention is to reduce the number of switches required and contacts to increase the operational safety of such a facility. That will achieved according to the present invention in that the two contacts of the thermometer, which are separated from each other by the intended temperature range, constantly over a resistor remain electrically connected to one another, which is dimensioned in such a way that d, ate, as long as the relay current only went through it, this current was not strong enough is to operate the relay, but on the other hand it is sufficiently strong that once to keep energized relays in this position.

An exemplary embodiment of the invention is illustrated in the drawing, namely for temperature control. The illustration shows the different parts the switching device in a position to switch off an electrical Consume electricity.

17 denotes an electromagnetic relay comprising a coil s and a core p. K is a mercury contact thermometer which has three contacts k "k =, h and the heat-sensitive part of which, ie the mercury, is switched into the relay circuit. The contacts k"k;" k3 are arranged one behind the other with respect to the current passage and the contacts k =, Iz; are separated from each other by a set temperature range. H is any electrical power consumer, which in the present example is designed as a heating coil surrounding the thermometer IL. F is a spring and S, a switch, the contacts of which are labeled d, e and f. i and: 2 form the terminals of the circuit of the relay 11, while 3 and q designate the terminals at which the entry and exit of the current flowing through the current consumer H takes place. A rod I is connected at one end to the relay core p, at the other end to the spring F and also to the switch S , so that it causes the switch S to move when the core p is displaced. The contacts k. = K. are always electrically connected to one another via a resistor W. The resistance W is dimensioned in such a way that as long as the relay current only passes through it, i.e. the mercury has not yet reached contact k5, the mentioned current is not strong enough to attract the relay 11, but on the other hand it is is strong enough to hold the relay in this position once it has picked up.

The mode of operation of the electrical switching device described, which responds to '%' 4 'heat effect, for switching the power consumer H off and on again is as follows: If the temperature of the heating coil H, which influences the contact thermometer K, rises to the value where the mercury column of the contact thermometer K rises the contact k2 touches, so a conductive connection between the contacts kl and k. takes place through the mercury, nothing happens for the time being, since the current flowing through the resistor W is not strong enough to be able to operate the relay 111. However, as soon as the mercury column reaches the upper limit of the temperature range represented by the contacts k "k", that is to say the contact k., A current path r, s, k1, k3, z is closed. The consequence of this is a response of the electromagnetic relay ill, so that its core p is drawn into the coil s against the action of the spring F. This requires an interruption of the circuit 3, f, e, H, q., So that the power consumer H is switched off. If the temperature influencing the contact thermometer K drops so much that the upper end of the mercury column is below the contact k .., but still above the contact k. is located, the relay <1l remains unchanged. since the current passing through the resistor W is sufficient to keep the attracted relay core p in this position. If the temperature influencing the contact thermometer K falls below the value at which the upper end of the mercury column is below the contact k. comes to rest, the circuit z, s, k1, k., W, k3, z is interrupted, so that the coil s of the relay 11 is de-energized and the core p drops, which causes such a movement of the switch S, for The consequence is that it connects the contacts e, f to one another again. The power consumer H is therefore switched on again. The electricity consumer does not need to act directly on the thermometer K in the manner shown; for example, he can also act indirectly on the thermometer via a device that is actuated by him and influences a room temperature. Furthermore, the power consumer can be designed as a starting apparatus, choke coil, starting resistor, electric boiler, motor, transformer, charging device for a furnace, etc.

Instead of the contact thermometer K the electrical in a consumer Allowing the heat generated by the electricity to act can also be influenced by a Compressed air, gas or water flow can be carried out; in such a case then has the switch S = actuated by the relay! 11 for indirect control of the flow to serve the air or the gas or water electrically. For the being the invention plays the training of the power consumer H and the possibility its heat effect on the contact thermometer K is irrelevant. Furthermore, at Instead of a mercury contact thermometer, another contact thermometer, whose heat-sensitive part is switched on in the circuit of relay M, come into use because it is only essential that one of the three contacts such a thermometer is two apart by the specified temperature range are. In addition, other relays can be used instead of an electromagnetic relay electrical relays come into use.

Instead of having the relay 11l actuate the switch S immediately, this relay can also be used with one or more additional ones Relays cause the power consumer to switch on and off.

Claims (1)

PATENT CLAIM: Electrical switchgear responding to the effect of heat, in which a thermometer with three arranged one behind the other in a control circuit Contacts, two of which are apart by a set temperature range are, when one of these contacts is reached by the heat-sensitive part of the thermometer the response of a relay to operate a switch for causes another circuit, and the automatic drop-out of the relay only then can be done again after using the heat sensitive part of the thermometer has lost contact with the other of the two contacts, through this characterized in that the two contacts (k2, k3) of the thermometer, which are provided around the Temperature ranges i are separated from each other, constantly over i a resistor (U ') are electrically connected to each other, which is dimensioned so that as long as the relay current only goes through it, this current is not strong enough to operate the relay (11I), but on the other hand it is strong enough; the relay once picked up in this one To hold position.