DE682154C - Electrothermal overcurrent switch with toggle lever actuation - Google Patents

Description

It is known electrical hand switches with a thermal or electromagnetic To provide trip device so that they work both as a manual switch and as an overcurrent switch. Such Switches may not or only have the dimensions of normal installation switches exceed insignificantly. It is also necessary that the contacts have a large Have a switching path and the interruption arc is extinguished as quickly as possible. The switching mechanism must be designed so that the switching on and off abruptly he follows. These requirements are not met by the switches known up to now Fulfills.

The electrothermal overcurrent switch with toggle lever actuation as well as with erratic On and off according to the invention has a switch contact lever which is provided with a U-shaped part, the both legs in slots via rollers the free end of one of the actuating rocker arms via its spring flowable, swingable perpendicular to the direction of movement of the switch contact lever and take up in the slots from one end position to the other skipping rocker arm, the other end of the camp via an approach under the influence of one of them Thermostat-controlled energy storage lever is available.

In the drawing, an embodiment of the invention is shown in Figs. Fig. 1 is a longitudinal section through the switch, namely the switch parts shown with the switch closed. Fig. 2 is a cross section through the switch. In Fig. 3 shows the switch parts with the switch turned off.

A fixed contact b is arranged on a base α and cooperates with a movable contact c . A U-shaped part e is attached to a shift lever d , the two legs of which are provided with slots /. In these slots / slide rollers g of a rocker arm h, which is supported at point / in a bearing block k . The switching rocker h is pulled against the support bearing / by a switching spring τη. That

other end of the switching spring m is on a rocker arm / z. attached, which includes two legs ο the bearing block and is supported against approaches ρ of the bearing block. These approaches ρ also form the pivot point for the rocker arm ti. The shift lever d with the U-shaped part e is rotatably mounted on a bolt q in the bearing block k. In the upper part of the bearing block k there is also ίο on a bolt / "a power store, rather hebeis rotatably mounted. The free end of the power store lever s is provided with a nose t , which is held in the switched-on position by a thermostat λ . The rocker arm h has an approach v, which lies against a stop w of the energy storage lever s. The mode of operation of the new switch is as follows:

If the switch is switched on, the parts of the switching mechanism assume the position shown in Fig. 1. The contacts b, c are closed, and the free end of the switching rocker h is located with the roller thread at the left end of the slot /. The shift rocker A is held in this position by the shift spring (s), the shoulder ν of the shift rocker being supported against the stop W 'of the energy storage lever s. The energy storage lever s is held in the position shown in Fig. 1 against the action of a spring jc by the thermostat. The switch can be switched on and off without releasing the lock between the thermostat and the energy storage lever. If the switches are turned by hand, the rocker arm is η right folded up after exceeding the dead center position of the lower part of the rocker arm swings to the right and also in this case the shift lever d jerky leads to the open position. As already mentioned, the switching on and off is done by hand without the lock between the energy storage lever and the thermostat α being released. The thermal release takes place in that the thermostat «bends to the right and releases the nose t of the energy storage lever s. Under the influence of the tensioned spring χ , the energy storage lever is thrown upwards and brings the switching rocker h into the switched-off position via the shoulder v, which rests against the stop W , as shown in Fig. 3. It can only be switched on again when the power storage lever is held by the thermostat. To achieve this, the rocker arm η is turned to the right from the position shown in Fig. 3 until a shoulder y of the rocker arm has pushed the energy storage lever s down so far that 'the nose t is held by the thermostat'. In order to move the contacts into the switch-on position, the rocker arm λ is turned to the left, the rocker switch A being guided by the switch spring m into the position shown in Fig. 1 and the switch lever ^ jerks against the fixed contact b . The connection of the thermostat, «and the switching lever d is made by movable conduction bandsz and z ¹ .

The arc room is from the switchgear separated by the cover plate /. The arc space is laterally covered by walls of insulating material 2 limited. So that the arc doesn't too. can reach the rear derailleur are in the arc chamber magnetic sheets 3, 4, S arranged, which the arc in a Channel 6 arranged below the base blow. To cool the gases 6 metal grids 7 are arranged in the channel. That. actual Switch housing 8 is expediently arranged in a second housing 9. The terminals 10 are arranged in a lateral shoulder 11 in such a way that the connecting bolts can be operated from above. The leads 12 are through a Isolation wall 13 separated from the arcing space.

Claims (2)

Patent claims: ι. Electrothermal overcurrent switch with rocker arm actuation and with abrupt activation and deactivation, characterized in that the switching contact lever (d) is provided with a U-shaped part (e) , the two legs of which in slots (/) via rollers (g) the free end of a through the actuating rocker arm (/ z) can be influenced via its spring (m), swing out perpendicular to the direction of movement of the switch contact lever (d) and in the slots (/) from one end position into the other shifting rocker (A), the other bearing end via a Approach (v) is under the influence of a thermostat («) controlled energy storage device hebeis (s). 2. Overcurrent switch according to claim 1, characterized in that in the U-shaped bearing block (k) for the sound mechanism parts, the rocker arm (Ji) and the rocker arm {ti) are held by the switching spring (m) in open support bearings (/, p) . 1 sheet of drawings