HUP0002636A2 - Switch for electric switching device, especially for small interrupter - Google Patents

Description

PUBLICATION COPY

SWITCHGEAR FOR ELECTRICAL SWITCHGEAR, ESPECIALLY FOR CIRCUIT BREAKERS

The invention relates to a switchgear for an electrical switching device, in particular a miniature circuit breaker, which is provided with a switch handle for bringing a movable contact piece into the on position via a switch-type locking mechanism, wherein during the on process a dead point position of the locking mechanism is passed and wherein furthermore the locking mechanism is held in the on position by means of a first locking location, a thermal release being arranged to release the locking state of which.

Such a switchgear is incorporated in the S2 type miniature circuit breaker of the Heidelberg company ABB Stotz-Kontakt GmbH and has thus become known. This switchgear is provided with a switch handle which, via a locking mechanism arranged between two plates, brings a movable contact piece from a permanently de-energized position to an on-energized position and vice versa, whereby during the switching movement a dead point position of the locking mechanism is passed. The solution is provided with a first locking position which holds the locking mechanism in the on-energized state and which is released by a thermal and/or electromagnetic release, so that the locking mechanism passes its dead point again under the action of a spring and is brought into the off-energized state.

In this locking mechanism or switching mechanism, during the switching movement, the movable switching handle is rotated, thereby driving the contact lever carrying the movable contact piece via a lever connected thereto. This switching movement of the movable contact piece is carried out in accordance with the speed with which the switching handle is rotated.

The object of the invention is to create a switching mechanism of the type described in the introduction, in which the switching speed of the contact point is independent of the switching speed achieved by the operator.

To solve the problem, we have created a switch mechanism, which is provided with a switch handle that brings a movable contact piece into the on-position via a switch mechanism locking mechanism, where during the on-position process a dead point position of the locking mechanism is passed and where furthermore the locking mechanism is held in the on-position by means of a first locking location, a thermal release is arranged to release the locking state of which, where according to the invention a second locking location is provided, which is provided with a fixed contact point for a yoke connected to the movable contact piece, and furthermore a release element is connected to the switch handle that releases the second locking location and thus accelerates the movement of the movable contact piece into the on-position.

According to the invention, a second locking location is therefore provided, which is provided with a fixed bearing point for a lever connected to a movable contact piece, and a release element is also connected to the switch handle according to the invention, which releases the second locking location, so that the movable contact piece moves acceleratedly into the switched-off position.

This ensures that the closing movement always takes place at the same speed, so that welding phenomena that occur when closing too slowly are avoided. Simultaneous contact can be ensured in multi-pole versions. If a neutral conductor (NA) is assigned to a pole, an advance or delay is no longer necessary for the movable contact piece at the NA pole.

In a further preferred embodiment of the invention, in the locked state of the second locking location, the release element and thus the movable contact piece can be fixed in an intermediate position, from which it is only moved to the final switching position when the second locking location is released.

A preferred embodiment of the invention is designed so that

-3 is provided with a slide serving as a release element, which is connected to the switch handle for releasing the second locking position, where the slide is a slide that engages the switch handle only in a specific position and releases the second locking position.

In the case of miniature circuit breakers with a rotatable contact lever, where the movable contact piece is fixed to the contact lever, a support element may be rotatably mounted in the axis of rotation of the contact lever, which is connected to the release element of the second locking location and is held by it in the defined intermediate position. The contact lever is then fixed in this defined intermediate position by the support element.

In order to ensure the movement of the release element to the locked position, a spring associated with the stirrup is arranged between the support element and the stirrup, which spring resets the stirrup after it has been released.

In a preferred embodiment, the return spring is expediently designed as a two-arm coil spring, one arm of which rests on the release element and the other arm rests on a counter-support lug on the contact lever.

The invention, as well as further advantageous embodiments and improvements, will be described in more detail below in connection with a preferred embodiment with reference to the accompanying drawing, where in the drawing the

Figures 1-5 show a part of a miniature circuit breaker with a contact area, a locking mechanism and a switch handle in different switching positions, where Figure 1 shows the on position and Figure 5 shows the off position, while Figures 2-4 show intermediate positions.

Figure 1 shows a miniature circuit breaker 10 (circuit breaker) with a housing 11, where the upper part of the housing has been removed, so that the interior of the miniature circuit breaker 10 is visible.

The miniature circuit breaker 10 is provided with a switch handle 12, which extends from the opening 13 of the miniature circuit breaker 10 and is mounted rotatably about a rotation axis 15 in the region of the front wall 14. The rotation axis 15 is supported by two bearings 16.

-4mez, which are approximately L-shaped, the longer leg of which is located approximately parallel to the front wall 14, while the shorter leg 18, located perpendicular to the longer leg, carries the axis of rotation 15. The axis of rotation 19 of the movable contact lever 20 is mounted between the two plates 16, where the contact lever 20 is designed as a two-arm lever, one arm of which is connected to a drive yoke 21, which is hingedly connected to the switch handle 12, while the other arm carries a movable contact piece 22, which is in cooperative connection with a fixed contact piece 45.

A support element 23 is rotatably mounted on the contact lever 20, which is provided with a first nose 24 and a second nose 25, where the first nose 24 projects substantially towards the movable contact piece 22, while on the second nose 25 it is connected to a bracket 26 formed as a release element, which rests on a step 28 with a stem 27, which is formed in one of the plates 16. To form the step 28, a substantially L-shaped opening 29 is formed in one of the plates 16, one of the stems of which forms the step 28 and the other stem 30 forms a pocket, which will be discussed in more detail below.

A first stop 31 is formed on the movable contact lever 20. A second stop 32 is formed on the upper plate 16, where the first stop 31 cooperates with the nose 24 and the second stop 32 cooperates with a third nose 33 located approximately perpendicular to the line connecting the two noses 24, 25.

A restoring spring 34 is arranged around the support element 23, one leg 35 of which rests on the stop 32, while the other leg 36 rests on the bracket 26 in a stepped configuration 37, so that the bracket 26 is permanently pressed in the direction of arrow P by the force exerted by the spring 34, whereby a force is permanently exerted on the support element 23 in the clockwise direction.

A slide 38 is slidably attached to the plate 16 perpendicular to the extension of the stirrup 26, which is provided with two elongated holes 39, 40, into which the protruding parts 41, 42 arranged on the plate 16 are connected to ensure guidance. The slide 38 is provided with a step projecting from the side of the slide 38 towards the observer.

-5 .:. ·..· ·τ tube or 43 steps are formed, which embraces the 26 stirrups.

Figure 1 shows the miniature circuit breaker 10 in the switched-off position. When the miniature circuit breaker 10 is to be switched on, the switching handle 12 is turned clockwise, whereby the drive yoke 21 between the switching handle 12 and the movable contact lever turns the contact lever counterclockwise, so that the movable contact piece 22 moves towards the fixed contact piece 45. During this switching-on movement, the nose 31 of the movable contact lever rests on the nose 21 and since the yoke 26 rests on the step 28, the movable contact piece first stops in the position shown in Figure 2, in which the distance between the movable contact piece 22 and the fixed contact piece 45 is reduced. The slide 38 also remains in the rest position.

In the switching position according to Figure 3, the switching handle rests with the projection 12a of the guide 21 on the protruding part 44 formed on the slide 38 (see Figure 3) and in the event of further rotation of the switching handle 12, the projection 12a on the switching handle 12 presses against the protruding part 44 and shifts the slide 38 in the direction of arrow P1, so that this rotates the bracket 26 to the left side in an anti-clockwise direction via the step 43, as a result of which the stem 27 becomes free from the step 28 and can enter the pocket 30. This releases the support 23 and allows it to rotate counterclockwise, thereby allowing the movable contact lever 20 to make the final closing movement, in which the movable contact piece 22 comes into contact with the fixed contact piece 45 (see Figure 5). This latter movement, in which the stem 27 snaps into the pocket 30, is a rapid movement determined by the energy storage spring (not shown), so that the closing movement from the position in Figure 4 to the position in Figure 5 is always carried out at the same speed.

During the deactivation of the switching device, i.e. when the contact lever 20 is rotated clockwise, the spring 34 pulls the yoke 26 in the direction of the arrow P, so that the stem 27 is again behind the step 28.

Claims (6)

-6PATENT CLAIMS 1. Switchgear for an electrical switching device, in particular a miniature circuit breaker, which switchgear is provided with a switch handle for bringing a movable contact piece into the on position via a locking mechanism, wherein during the switching process a dead point position of the locking mechanism is passed and wherein the locking mechanism is furthermore held in the on position by means of a first locking location, a thermal release is arranged to release the locking state of which, characterised in that a second locking location (27, 28) is provided, which is provided with a fixed contact point (28) for a yoke (26) connected to the movable contact piece (22), and furthermore a release element for releasing the second locking location (28, 27) with the switch handle (12) and thus accelerating the movement of the movable contact piece (22) into the on position (38) is related. 2. A switching mechanism according to claim 1, characterized in that when the second locking position (27, 28) is locked, the release element (38) and thus the movable contact piece (22) is held in an intermediate position. 3. A coupling mechanism according to claim 1 or 2, characterized in that it is provided with a slide (38) serving as a release element, which is connected to the switching handle (12) for releasing the second locking position, wherein the slide (38) is a slide that engages the switching handle (12) only in a specific position and releases the second locking position (27, 28). 4. Switchgear with a rotatable contact lever on which a movable contact piece is fixed, characterized in that a support element (23) is rotatably mounted on an upper plate (16), where the support element (23) is connected to a bracket (26) which rests on a stationary stop (28) to form a second locking position, where the support element (23) is held in an intermediate position by the bracket (26) in the locked state and the contact lever (20) is held in the intermediate position by the support element (23). 5. The coupling mechanism according to claim 4, characterized in that a spring (34) associated with the yoke (26) is arranged between the holding element (23) and the yoke (26) and which resets the yoke after release. 6. The coupling mechanism according to claim 5, characterized in that the return spring (24) is a two-arm coil spring, one arm (37) of which rests on the yoke (26) and the other arm (35) rests on a stop (32) on the upper plate (16). The authorized person: Patent and Trademark Office Ltd. Ferenc Kis Kovács, patent attorney