DE1152745B - Test device for circuit breaker - Google Patents

Description

Test equipment for circuit breakers Circuit breakers, in particular residual current circuit breakers, are always provided with a test device to ensure the functionality of the switch to consider. With the test equipment for residual current circuit breakers described here a fault current is artificially generated. The test circuit is for this purpose on a network phase on the input side and on a network phase on the output side, see above that when the test circuit is closed, the current equilibrium in the intermediate one Summation current transformer is disturbed and the circuit breaker switches off as a result. By doing In addition, a test resistor is provided for the test circuit, which determines the level of the fault current limited.

The test resistor is only designed for low power. There but the stress during the exam is very high, it is only a short stress period permissible. Known devices therefore switch the test circuit via a special one from the self-switch controlled contact or take the test voltage from movable ones Contact bridges with double interruption. With these measures it is achieved that when the test button is pressed in the switch-off position of the self-switch, no Current flows in the test circuit, and therefore the test resistor before a longer lasting one Load is protected. These facilities work reliably when the the system to be protected is in good working order, d. H. if no fault current flows below the trigger limit or the switching contacts are not welded. However, if there is such a defect, the test current is no longer switched off effective, and the test resistor burns immediately as a result of the overload.

In order to increase the load time of the test resistor in the event of a fault Plant or the switch to be reached in another known device the artificial fault current to be generated by using a special winding on the summation current transformer, i.e. by increasing the flow, deliberately low held. Putting another winding on the transducer requires one Additional expenditure in terms of material and labor, which significantly increases the cost of production increase.

In another known arrangement, the actuation of the test contacts exerted mechanically by means of a push button. Here it all depends from the operator whether the push button is pressed for a shorter or longer period of time will. Another improvement was the introduction of a momentary contact made, which takes effect within the actuation path of the push button comes. These known arrangements are also dependent on the type of actuation. It is still possible here that the push button is pressed until the test contact is made is introduced and held in this position. With that, however, is security A momentary contact is not guaranteed, and there is still a risk an overload of the test resistor.

The invention is free from the deficiencies indicated. She concerns a test device for circuit breakers, in particular for residual current circuit breakers, with a momentary contact that can be triggered by a manually operated operating lever. This test device is characterized in that when the operating lever is actuated the locking of a lever under the force of a tensioned spring is released which is expiring within its regardless of the position of the operating lever Movement bridging the test circuit by means of two stationary contacts Contact rocker closes briefly. When the switch is switched off, the rotatable Lever in its initial position by means of a tappet operated by the switch, independently by operating the control lever, locked.

One embodiment of the invention has a rotatable lever with three arms, one of which acts on the pivoted contact rocker, the other in locking connection with the operating lever and the third under the action a spring stands. On one of the lever arms of the rotatable lever is one on the resilient contact rocker acting leg spring arranged. Another lever arm is in the rest position of the rotatable lever via a roller with a leaf spring of the Control lever locked. At. a third lever arm is one Attached tension spring that pulls the rotatable lever towards the plunger.

With the release of the operating lever, the locking of the rotatable Lever lifted and this under the action of the tension spring with its stop surfaces pulled onto the ribs of the ram, one end of the lever during the movement of the lever leads the contact rocker from one fixed contact to the other and as a result Self-resilience creates a short-term connection between these contacts. at The switch-off movement of the switch moves the plunger so that a roller of the lever is locked again with the leaf spring of the operating lever.

The invention can be implemented with simple means. The for this The parts required are mainly manufactured using the stamping process and are therefore little effort. The test process runs independently of the duration of the actuation of the operating lever, whereby the duration of the test current is limited in time and is always below the maximum load time of the test resistor.

An embodiment of the invention is shown in the drawing. The drawing shows the structure of the test facility and the various functional positions. 1 shows a plan view of the test device in the rest position, in which Switch-on position of the switch, FIGS. 2 and 3 the test device after actuation the test button during the contact, Fig. 4 the test device after completion Making contact, Fig. 5 the test device after the switch has been triggered, Fig. 6 the test device after the switch has returned to the switch-off position, FIG. 7 shows a side view of the test device according to FIG. 1.

The test facility is only shown in its mechanical part. On the switch base 1, a pin 2 for the rotatable lever 3 is arranged, the three Arms 3 a, 3 b, 3 c. The lever arm 3 a acts on a leg spring 4 the contact rocker 5. The lever arm 3 b is provided with a rotatably mounted roller 6, which engages in the pawl-like end of the leaf spring 7 of the test button 8. By the tension spring 9 the lever is held in its latching with the test button 8, while the contact rocker 5 under the influence of the leg spring 4 against the stationary contact 10 is supported.

A lever 3 is longitudinally displaceable between the two insulating plates arranged in the base l mounted plunger 11, which has lateral guide ribs 12, which work together with stop surfaces 3 d of lever 3. The plunger 11 is with the movable switching bridge of the circuit breaker in connection and takes in the Switch-on position the position shown in Figure 1, with no contact with the stop surfaces 3 d of the lever takes place. At the fixed contacts 10 and 13 is the test circuit, the one via the measuring element and the upstream test resistor leads.

To initiate a test process, the test button 8 is pressed (Fig. 2). This releases the locking between the leaf spring 7 of the test button 8 and the roller 6 of the arm 3 b. The rotary movement carried out by the lever 3 causes the contact rocker 5 to roll around the stationary contact 10 , the resilient end 14 of the contact rocker touching the stationary contact 13 (FIG. 2). At this moment the fixed contacts 10 and 13 are bridged and the test circuit is closed. The further rotation of the lever 3 under the influence of the tension spring 9 results in an increase in the contact force (FIG. 3) and finally the release of the contact rocker 5 from the stationary contact 10 (FIG. 4). By placing the stop surfaces 3 d on the guide ribs 12 of the plunger 11, the rotary movement of the lever 3 is ended. The contact of the rocker switch 5 thus takes place independently of the actuation of the test button 8 in a relatively short time. There is therefore a momentary switching, the duration of which can optionally be regulated by the tension spring 9, the inherent suspension of the rocker 5 and the leg spring 4.

When the circuit breaker is switched on, if the switch is correct and the system is fault-free, the system is switched off immediately after pressing the test button 8. When the switch is turned off, the plunger 11 is brought into the position shown in FIG. He moves the lever 3 against the action of the tension spring 9. Shortly before the end of this movement, the roller 6 of the lever 3 engages with the leaf spring 7 of the test button B. The rest position (Fig. 6) is restored. However, testing is not possible in this position, since the lever 3 is still seated on the plunger 11 and thereby blocks the testing device. The test can only be carried out when the automatic switch is put back into the switch-on position and the plunger 11 assumes the position according to FIG.

Claims (7)

PATENT CLAIMS: 1. Testing device for circuit breakers, in particular for residual current circuit breaker, with a manually operated operating lever releasable momentary contact, characterized in that upon actuation of the operating lever (8) the locking of a standing under the force of a tensioned spring (9) Lever (3) is released, which is within its regardless of the position of the control lever ongoing movement the test circuit by means of two stationary contacts (10, 13) bridging contact rocker (5) closes briefly. 2. Test facility according to Claim 1, characterized in that the rotatable lever (3) when switched off Switch in its initial position by means of a plunger (11) actuated by the switch, is locked regardless of the actuation of the operating lever (8). 3. Testing device according to claim 1 and 2, characterized in that the rotatable lever (3) arms (3 ca, 3 b, 3 c) , one of which (3 a) acts on the rotatably mounted contact rocker (5), the the other (3 b) is in latching connection with the operating lever (8) and the third (3 c) is under the action of the spring (9). 4. Test facility according to claim 1 to 3, characterized in that on the lever arm (3a) of the lever (3) a leg spring (4) acting on the resilient contact rocker (5) is arranged. 5. Testing device according to claim 1 to 4, characterized in that the lever arm (3 b) in the rest position of the lever (3) over a roller (6) with a leaf spring (7) of the operating lever (8) is locked. 6. Test facility according to claim 1 to 5, characterized in that one on the third lever arm (3 a) attached tension spring (9) pulls the lever (3) towards the plunger (11). 7th Test device according to Claims 1 to 6, characterized in that with the release of the operating lever (8) the locking of the lever (3) is released and this under the action of the tension spring (9) with its stop surfaces (3 d) on the ribs (12) of the plunger (11) is pulled, the lever end (3a) during the movement of the lever (3) the contact rocker (5) from the stationary contact (10) to the stationary contact (13) leads, and this leads to a short-term connection between the contacts (10, 13). B. test device according to claim 1 to 7, characterized characterized in that when the switch is switched off, the plunger (11) denotes the Lever (3) moved so that the roller (6) with the leaf spring (7) of the operating lever (8) is locked again. Publications considered: German patent specification No. 939 272; German explanatory documents Nos. 1020 404, 1006 495.