DE2219892B2 - Electrical circuit breaker with a switch lock - Google Patents

Description

3. Electrical circuit breaker according to claim 20 and other members of the switching mechanism not constantly

act, but are only applied when they are needed. As a result, for example dimension the opening spring required to open the contact elements of the circuit breaker weaker than this is possible with constant full effectiveness of the return spring of the ratchet lever in the switch lock is. At the same time, this avoids a delay when switching off.

The invention can be embodied in, for example, the form be that in a circuit breaker that has a lever firmly connected to the switching shaft owns, the shift lever serves as an abutment of a return spring. The return spring is only then tensioned when the switching shaft with the switching lever reaches the switch-off position. For example, is a Ratchet lever is provided which is pivotably mounted at one end and at its other end cooperates with a release shaft, a spiral spring can be articulated with the shift lever be, which is supported on a fixed abutment and on a stop of the ratchet lever and their bending stress increases when the shift lever is moved into the switch-off position. This spiral spring can for example consist of spring wire.

Also for resetting the links of the switching mechanism that are used to transmit the switching force, the invention can be used. It is suitable, for example, for circuit breakers where the power transmission to the selector shaft via an overrunning lever pivoted on the selector shaft and a coupling element arranged between the freewheel lever and the shift lever takes place. In further training of the invention can be articulated to the freewheel lever of a lever of a toggle system, and a tension spring can be arranged between the other toggle lever and the shift lever, the suspension points of which are chosen so that they essentially maintain their spacing when switched on. At the As a result, switching on does not require any restoring force

2. in which the pawl lever is pivotably mounted at its one end and cooperates at its other end with a release shaft, characterized in that a spiral spring (65) is articulated to the switching lever (54), which is attached to a fixed abutment (66 , 67) and is supported on a stop (70) of the ratchet lever (56) and its bending stress increases when the switching lever (54) is moved into the switched-off position.

4. Electrical circuit breaker according to claim

3. characterized in that the spiral spring consists of spring wire.

5. Electrical circuit breaker according to claim 1, in which the power transmission to the switching shaft Via a freewheel lever pivotably mounted on the selector shaft and one between the freewheel lever and the shift lever arranged coupling element takes place, characterized in that with the freewheel lever (47) which one lever (42) e; nes toggle lever system (41, 42, 43) is articulated and that a tension spring (72) is arranged between the other toggle lever (43) and the switching lever (54), the suspension points (73, 74) of which essentially maintain their spacing when switched on.

Electrical circuit breakers can be equipped with a switch lock that is used in particular for mechanical locks and for triggering as well as for releasing the contact elements and when switching on causes a force conversion. These functions are carried out by lever arrangements, clutches, Joints, cams or similar links achieved. These members can occupy two main positions, namely for the switch-on position and for the switch-off position of the contact elements of the circuit breaker.

If a circuit breaker is to be overcome after switching off 60 of the toggle lever system. Which he-

be switched on again, certain Parts of the key switch returned to their original position in preparation for switching on will. For example, a ratchet lever is to be reset from the released position to the latched position. This is usually done by assistants, for example by means of suitable springs or by means of applied to a returning motor drive, the tension spring is only tensioned when it is switched off, whereby the restoring force is provided.

The invention is explained in more detail below with reference to the exemplary embodiment shown in the figures.

F i g. 1 shows a schematic representation of a circuit breaker for low voltage, which has a switch lock and a drive device.

The key switch is shown separately in an enlarged view Scale in Fig. 2 shown in its off position with the ratchet lever locked

The F i g. 3 shows in a similar representation to Fig. 2 the key switch in two different positions «En. namely at the beginning and at the end of the switch-off process.

In Fig. A circuit breaker 1 is shown which is _{equipped with} a drive device 2. The current path of the circuit breaker 1 has a: n obeies connection piece 3 and a stationary contact piece 4 rigidly connected to it and opposite which a movable contact piece 5 is located. A flexible conductor piece 7 is arranged between the contact piece 5 and a lower connection piece 6. Between the stationary contact piece 4 and the movable contact piece 5 there are parallel conductor pieces 10 and 11, which cause an increase in the contact force between the contact pieces 4 and 5 when the current is high.

The in Fig. Switching mechanism of the circuit breaker 1 also schematically illustrated 1 comprises a shift shaft 12 with a two-armed lever 13 having one arm 14 mil a total is designated 15 toggle lever system in combination and the other lever arm 16 engages the moving contact 5 by means of a lever 17th A link 20 is used to guide the movable contact element 5. Furthermore, a spring 21 acts on the movable contact element 5 or the conductor element 11 connected to it. which generates the contact force when switched on and also opens the movable switching circuit when switched off. The toggle lever system 15 is supported with one toggle lever 22 on a latching device 23. which comprises a pawl lever 24, a pawl 25 and a return spring 26 for the pawl 25.

The connected to the circuit breaker 1 An measuring device 2 has a torsion bar 30 which is clamped at one end in an abutment 31. The torsion bar spring carries at the front end 30 eir.e cam 32. A driver 34 can act on a projection 33 of the cam 32, which is mounted on a shaft 35. on which a hand lever 36 acts. The torsion bar spring 30 can solid, but preferably layered from individual spring leaves.

In Fig. 1, the hand lever 36 is about to be reached the dash-dotted switch-on position 37 is shown. If the hand lever 36 is moved further, it slides the driver 34 from the projection 33 and releases the cam 32. This turns in the opposite direction clockwise and presses against one on the knee joint de ·; Knee lever system 15 arranged role 18 until the toggle lever system 15 exceeds its dead center position and the toggle lever 22 is against a Stop 28 sets. The described movement of the toggle lever system 15 causes a rotation of the Switching shaft 12 clockwise and thus switching on the circuit breaker 1.

If the circuit breaker 1 is to be switched off, the pawl 25 is in the direction of arrow 29 of the ratchet lever 24 withdrawn. As a result, the support of the toggle lever system 15 is canceled, and the spring 21 pulls the movable contact piece 5 into the position shown in FIG. 1 position shown.

The following is the structure of the key switch and its function is described in more detail. In the F i g. 2 and 3, the selector shaft 40 corresponds to that in FIG. 1 shown Shift shaft 12 The toggle levers 42 and 43 form the one shown in FIG. 1 denoted by 15 toggle lever system. Of the Toggle lever 43 is pivotally mounted on a stationary bearing pin 44 and has one above the bearing pin 44 protruding extension 45, which in the disengaging position according to FIG. 2 at a stop 48 is present. The other toggle lever 42 is by means of a further hinge pin 49 with one on the switching shaft 40 mounted freewheel lever 47 articulated. The freewheel lever 47 has a working surface 50, which cooperates with a roller 52 of a roller lever 51, which by means of a hinge pin 53 on a with the shift shaft 40 rigidly connected shift lever 54 is mounted. There is another on the roller lever 51 Roller 55 is provided, which is guided on a circular path 57 of a ratchet lever 56. The ratchet lever is ar designed approximately sickle-shaped and pivotably mounted on a bolt 60 at one end. On his At the other end, the pawl lever 56 has a nose 62 which, when switched on, is attached to a pawl shaft 63 supports. A stationary stop is used to limit the path of the ratchet lever 56 when it is switched off 68.

At the end of the switching lever 54 there is an opening 61 in which an elongated spiral spring 65 engages, which is guided between two stationary abutments 6b and 67. The spiral spring 65 acts with a stop 70 of the ratchet lever 56, which is located in the area of the circular path 57.

The shift lever 54 also has a rear extension 71 on which a bolt 73 acts as an abutment a tension spring 72 is arranged. At its other end, the tension spring 72 engages an abutment 74 the extension 45 of the toggle lever 43.

If a force acts on the knee joint 41 of the toggle levers 42 and 43, as shown in FIG. 1 already has been explained, the freewheel lever 47 is countered as the toggle levers 42 and 43 are stretched swiveled clockwise and with it the roller lever 51 is guided along with its roller 55 on the circular path 57 of the ratchet lever 56. The Shift lever 54 and the shift shaft 40 also taken counterclockwise. The result of this The resulting switch-on position is shown in FIG. 3 shown in solid lines, the toggle lever 43 in an over-center position rests against a stop 46. During this switch-on process, the rear extensions move 71 of the shift lever 54 and the extension 45 of the toggle lever 43 in the same direction, so that the distance of the Abutment 73 and 74 of the tension spring 72 remains practically unchanged. The tension spring 72 is not consequently tense.

To switch off, the lug 62 of the ratchet lever 56 is released by rotating the release shaft 63. This brings the ratchet lever 56 into the extended position according to FIG. 3, the roller 52 of the Roilen lever 51 slides from the working surface 50 of the freewheel lever 47 and the shift lever 54 with the Switching shaft 40 reaches the switch-off position under the influence of the stored switch-off force (dash-dotted lines in Fig. 3).

The point of application of the spiral spring 65 on the shift lever 54 moves on a circular path when switched off, with the result that the spiral spring 65 is attached the stop 70 of the ratchet lever 56 applies and experiences a deflection such that a restoring force is exerted on the pawl lever 56. When comparing FIGS. 2 and 3 it can be seen that the bending

The adjustment in the switch-off position is greater than in the switch-on position is.

Furthermore, FIG. 3, that with the transition of the shift lever 54 from the switched-on position to the switched-off position a tension of the tension spring 72 is connected. This provides the restoring force that for transferring the toggle levers 42 and 43 to the position according to FIG. 1 is required.

Characterized in that the tension spring 72 during the switch-on process

is not charged, the drive device of the circuit breaker does not need any additional when switching on Overcoming forces. Likewise, the opening spring does not need any additional forces when it is switched off to be overcome because the bending tider 65 is largely relaxed. This not only results in a favorable one Balance of forces, but also a particularly quick release.

For this purpose 2 sheets of drawings

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Claims (2)

Patent claims: 1. Electrical circuit breaker, especially for low voltage, with a drive device and a switch lock, which has a switch shaft and a release device that can be released by a release device Contains ratchet levers and other links that return to their original position after being switched off by restoring forces are traceable, characterized in that the restoring forces are dependent provided by the position of the switching shaft (40) and in the switched-on position of the switching shaft (40) are smaller than in the switch-off position. 2. Electrical circuit breaker according to claim 1 with a firmly connected to the switching shaft Shift lever, characterized in that the shift lever (54) acts as an abutment for return springs (65.72) serves. (Starkstromtechnik II, 8th edition 1960, Verlag Wilhelm Ernst & Sohn, pp. 188 to 190). The invention is based on an electrical circuit breaker provided in particular for low voltage, the one Has drive device and a switch lock that a switching shaft and a release lever by a release mechanism and other links contains, which can be returned to their original position after switching off by restoring forces. the The object of the invention is to improve the To achieve the balance of forces of the switching mechanism, making a more economical dimensioning in particular the Energy storage for switching the circuit breaker on and off is to be made possible. According to the invention, the retraction forces are provided as a function of the position of the shaft and are smaller in the switched-on position of the selector shaft than in the switched-off position. This achieves that the restoring forces for the ratchet lever