DE577876C - Electric heat timer - Google Patents

Description

Compared to a number of known heat time switches, up to the present time is still .A simple, usable push-button switch of this type lacks the requirements corresponds to reliability and cheapness and like any normal permanent switch with the Consumers can be connected in series. The well-known heat time switches are partly intended as a remote switch for several lighting points, partly as a manual switch, but they have then with frequent use a constantly decreasing switching time. ' In most cases the full mains voltage is required for the heating elements even for a short switching time.

The present invention now provides a push button timer with heating elements that can also be used for a single consumer point without the above disadvantages. He just needs

ao low heat input and is new in that a automatic switching takes place through a resilient lever, which has several heating elements can act one after the other. As a result, constant switching times are achieved when switching in quick succession.

The drawing illustrates the invention.
The switch has a base α and a cover b. There are two flexible lamellas c and d on the base, each of which is held firmly on the base with an angle and is freely floating at a distance from the base. The ends of these flexible strips are. on the upper side inwardly wedge-shaped, as can be seen in the plan.

A double angle e is attached to the base between the ends of these flexible lamellas. The upright ends of this double angle have a certain distance from the wedge-shaped ends of the flexible lamellas'; parallel to the flexible lamellas are two curved levers f and g, which are rotatably held in the angles h and i attached to the base by axes. The ends of these levers have opposite wedge-shaped ends to the ends of the flexible lamellae, which can be clamped between the double angle e and as a result of the suspension of the flexible lamellae c and d behind them, as the plan shows. The lever / has a cross piece in the upper half that loosely protrudes over lever g and takes the latter with it when it is pushed forward. The lower end of the lever / is held longer, so that the released lever / two. Contact terminals k and I, which are attached to the base, are conductively connected. The levers / and g are pushed back by the two springs q and r , so that a conductive connection between the double angle and the flexible lamellae can only be established by overcoming this spring resistance. There is one around each of the two flexible lamellae

thin, insulated resistance wire winding ο and p , which is soldered with its bare end to the wedge end of the flexible lamella. The two cable clamps m and n are also located on the base.

The operation of the switch is as follows. By pressing the button ί, the two levers f and g are clamped between the double angle e and behind the wedge ends of the flexible lamellae c and d. As a result, a circuit is first closed, namely the current coming from the network leads to the pole terminal m, via the resistance winding 0 to. Wedge end of the flexible lamella c, through the inserted lever f to the double angle e and via pole terminal η and the consumer back to the network. During this passage of current, the resistance wire winding 0 is heated. This heat is transferred to the flexible lamella c. Since the side of the lamella receiving a greater expansion lies inwards, the lamella is bent outwards. As a result of the spring-back of the lever f, its wedge surfaces and those of the lamella c slide past each other, and the springing-back lever f then establishes a connection between the contact angles k and / with its other end, whereby switching takes place within the switch. Since the lever g still remained clamped, the current now goes from the pole terminal m through a connection to the contact angles k and I, further through the resistance winding p, the wedge-shaped ends of the flexible lamella d and of the lever g to the double angle e, to the pole terminal n , to the. Consumers and back into the network. Here the turn p is heated, which transfers its heat to the flexible lamella d . The latter is bent outwards until the lever g is triggered as a result of the spring back and completely interrupts the passage of current. During the last period of the circuit, the bending strip c cools and thus allows the circuit to be reconnected immediately. During the first switching period, the bending strip d may also cool down. It always reaches its original position and therefore always works evenly. The switch can therefore be used continuously without any loss of time.

In the same way, of course, any number of shift levers between just as many pairs of contacts are inserted and switchovers within a switching device be effected.

Claims (1)

Claim: Electrical heat time switch, characterized in that two switching levers are clamped between a pair of switching contacts each by a push button and the consumer and a heating element are initially switched on in series by one of these switching levers, whereupon this ⁵ S heating element gradually triggers the switching lever and then at the same time a connection via the second still inserted lever and a second heating element, which gradually triggers the second shift lever and thereby interrupts the circuit. 1 sheet of drawings