EP0491250A2 - Installation apparatus - Google Patents

Abstract

An installation switch has a contact point (11, 13), a latching mechanism (20) and at least one excess current trip device (48), preferably in the form of a thermal bimetallic strip which, in the event of an excess current, acts on a latching point (27) in the latching mechanism, as a result of which the contact point (11, 13) is opened. A transmission mechanism (48) which can be adjusted as a function of the desired trip excess current and transmits the movement of the excess current trip device (48) in the event of a tripping process to the latching point (27) of the latching mechanism (20) is provided between the latching mechanism (20) and the excess current trip device (48) for setting to a specific trip current. This transmission mechanism has its own latching point (34, 38) for the purpose of a defined trip. <IMAGE>

Description

The invention relates to an installation device according to the preamble of claim 1.

Electrical installation devices, miniature circuit breakers, residual current circuit breakers and the like, which, among other things, also have a thermal release in the form of a thermal bimetal, must be set to different overcurrent release values according to the requirements in the network. For this purpose, the thermobimetal is adjusted in the area of its clamping point using an adjusting screw that is actuated from the outside. Subsequent adjustment of the thermobimetal is only possible if the thermobimetal is operating under operating conditions, i.e. if the thermobimetal has current flowing through it. A subsequent, targeted and desired setting of a bimetal to a certain tripping current is not possible with the known circuit breakers.

Adjustment is possible, for example, in the case of thermal overcurrent relays, where there is a setting button with which the thermal overcurrent relay can be set to different tripping values and tripping times.

The object of the invention is to provide an installation switching device of the type mentioned, in which means are provided which allow subsequent adjustment to certain, predetermined tripping values without the thermobimetal having to have current flowing through it.

This object is achieved according to the invention by the characterizing features of claim 1.

A particularly advantageous embodiment of the invention can be found in the features of claim 2.

According to the invention, a rotary lever which can be rotated about a pivot point is thus provided, which pivot point is adjustable. This allows the distance between the thermal overcurrent release and the rotary lever to be adjusted, which means that the switching device can be set to different trip values. If the overcurrent release is a thermal bimetal, then the adjustment of the pivot point of the rotary lever changes the distance between the bendable end of thermal bimetal and the point of application of the thermal bimetal on the rotary lever, whereby the trigger values are changed.

In a particularly advantageous manner, the transmission mechanism with which the movement of the overcurrent release is transmitted to the switch lock of the installation device for opening the contact point is equipped with a latching point, so that in the event of a triggering process, the latching point of the transmission mechanism is first released and, after this latching point has been resolved, the so-called main latching point in the switch lock of the installation device, for. B. a circuit breaker is released.

The adjustment is carried out from the outside by means of a rotary knob which can adjust an adjusting element or an adjusting slide in a corresponding manner so that the distance between the rotary lever and the thermobimetal is changed.

To reset the transmission mechanism, a reset lever is provided, which is reset by a slide actuated by the contact lever of the installation device when the installation device is switched off.

The transmission mechanism is particularly advantageously suitable for temperature compensation insofar as the fulcrum stop is attached to one end of a compensation bimetal.

Further advantageous refinements and improvements of the invention can be found in the further subclaims.

Based on the drawing, in which an embodiment of the invention is shown, the invention and further advantageous refinements and improvements of the invention are to be explained and described in more detail.

Figur 1

eine schematische Ansicht eines Schaltschlosses innerhalb eines Leitungsschutzschalters in Einschaltstellung und

Figur 2

das Schaltgerät gemäß Figur 1 in Ausschaltstellung.

Show it:

Figure 1

is a schematic view of a switch lock within a circuit breaker in the on position and

Figure 2

the switching device according to Figure 1 in the off position.

All parts that are not important for understanding the invention are omitted from the drawing. It should be noted that the circuit breaker is one for short-circuit tripping and overcurrent tripping, which can also be switched on and off manually.

Figure 1 shows some parts of such a circuit breaker. Shown are a contact lever 11 movable about a fulcrum 10, on which a movable contact piece 12 is attached, which forms a contact point with a fixed contact piece 13. The fixed contact piece 13 is attached to an arc guide rail 14, to which an arc quenching plate packet 15 is arranged in parallel. The arc guide rail is connected via a contact piece carrier 16 to one of the coils 17 of a magnet system 18. The magnet system 18 has an impact armature 19, with which the contact lever 11 on the one hand and a trigger element (not shown in more detail) on the opposite side (on the right in the drawing) is actuated. The switching device is assigned a switching lock 20 which has a pawl lever 22 which is rotatably mounted about an axis 21 and which interacts with a lug 23 with a release lever 24 which is rotatably mounted about an axis of rotation 25. FIG. 1 shows that the nose 23 rests on a surface 26 of the release lever 24, so that the nose 23 and the surface 26 form a latching point 27 of the key switch 20, which is also referred to as the main latching point. Other components of the key switch are not shown.

To actuate the main latching point, a trigger slide 28 is provided, which is displaced in the direction of arrow A by a trigger lever (not shown) associated with the magnet armature 19, so that the trigger slide 28 takes the trigger lever 24 counterclockwise and thus the latching point 27 for actuating the movable Contact lever 11 unlatched.

The two figures show a transmission mechanism 30 which has a circuit board 31 fixed to the housing on which a release lever 32 is rotatably mounted by means of an axis 33. The trigger lever 32 has two arms 34 and 35 arranged approximately at right angles to one another, of which the arm 35 interacts with the trigger slide 28. A ratchet lever 37 is articulated in a fixed position on the circuit board 31 via an axis of rotation 36 and is continuously acted counterclockwise by means of a spring (not shown). The pawl lever 37 is provided with a nose-shaped stop 38, also called a nose. In the position shown in FIG. 1, the arm 34 engages behind the lug 38 and forms a latching point 39 with it. The transmission mechanism includes a double-arm lever 40 which, via an axis of rotation 41, bears practically against a fixed stop 42 shown in broken lines. The first arm 43 of the double arm lever 40 abuts a pivot point stop 45 with a pin 44 extending transversely thereto, and the second arm 46 of the double arm lever 40 also has a pin 47 with which it interacts with a thermal bimetal 48 which forms the thermal trigger of the switch (see further down).

An adjusting slide 50 is slidably formed on the circuit board 31, to which the fulcrum stop 45 is fastened via a U-shaped extension 51. The adjusting slide 50 can be actuated by an adjusting wheel 52 guided in the housing, on which an extension 54 provided with a spiral cam 53 is formed. If the adjusting wheel 52 is rotated (namely about its central axis M), then the adjusting slide is adjusted in the double arrow direction V, whereby the double arm lever 40 is pivoted about its axis 41 in the clockwise direction. This changes the distance D between the pin 47 and the bimetallic 48; if it is increased, the tripping current is set higher; If the distance is reduced, a low tripping current is obtained.

The mode of operation of the switching device is now such that when the thermobimetal bends in the clockwise direction, according to the direction of arrow B, the double-arm lever is rotated counterclockwise in the direction of arrow C about the pivot point stop 45; thereby the double arm lever with an approximately located in its central area 55 against the pawl lever 37 and pivots this in the clockwise direction C₁, whereby the second arm 34 of the release lever 32 is released, the counterclockwise due to a spring not shown in the direction of arrow C. the axis 33 is pivoted. The second arm 35 acts on the release slide 28, which unlatches the latching point 27, as a result of which the movable contact lever 11 and the movable contact piece 12 are pivoted in the switching-off direction.

In the board 31, an elongated hole 56 is made, which lies on a circular arc, the center of which is the central axis of the axis of rotation 33. The first arm 34 of the release lever 32 has a recess 57 which is covered by a leg of a transmission bracket 58, not shown, which runs perpendicular to the plane of the drawing, which leg engages in the slot 56 and is guided therein. The transmission bracket 58 also has at its other end a leg bent at right angles in the direction of the plane of the drawing, which engages in a slot 59 which is oriented approximately perpendicular to the direction of displacement V of the adjusting slide 50. The slot 59 could also be oriented at an angle to this direction. An actuating surface 60 interacts with the bent leg, which has or takes up an angle of approximately 45 ° to align the slot 59 and which is formed on a reset slide 61 which is slidably attached to the web 62 of the yoke running parallel to the arc guide rail 14 . At the end directed towards the movable contact lever, the slide 61 has an anvil 63 which interacts with a stop surface 64 on the movable contact lever.

The arrangement works as follows:
In the switched-on position, when the movable contact piece 12 bears against the fixed contact piece 13, the stop surface 64 is in such a position that it keeps the inclined surface 60 free from the leg of the transmission bracket, so that the transmission bracket moves from the position shown in FIG. 1, where he is practically at the free end of the slot 59, can move into the position in which the leg of the transmission bracket located in the slot 59 on the ground or in the bottom of slot 59 can come to rest. If the thermal bimetal 48 now swings out in the direction of arrow B, then the thermal bimetal pivots the double arm lever 40 in the direction of the arrow C 1 and releases the latching point of the parts 37 and 32, ie the latch lever 37 is rotated in the direction of the arrow C 1; as a result, the trigger lever 32 is pivoted in the direction of arrow C. Since the inclined surface is outside the range of movement of the lower leg of the transmission bracket 58 located in the slot 59, the transmission arm can be moved upward in the arrow direction U by the second arm 34 until the upper leg at the upper end of the elongated hole 56 and the lower leg is in the area of the bottom of the slot 59. The main latching point 27 is opened by the movement of the slide 28 in the direction of arrow A. Characterized the contact lever 11 and thus the stop surface 64 rotates clockwise and due to the special design of the stop surface 64, a nose practically present there reaches the area of the anvil 63 and presses the slide in the direction of arrow A to the right, as a result of which the inclined surface counteracts the transmission bracket the arrow direction U pulls down until the transmission bracket is in the position shown in FIG. 2. The transfer bracket 58 pivots the release lever 32 into the position shown in FIG. 2, where the free end of the arm 34 comes behind the nose 38 on the latch lever 37, so that the latching point is closed and the transmission mechanism is brought into the ready-to-release position.

Another advantageous embodiment can be that the U-shaped extension 51 is designed as a compensation bimetal, so that the position of the fulcrum stop 45 is correspondingly dependent on the outside temperature. This embodiment is not shown in Figures 1 and 2; the U-shaped bimetal will have a U-shape, the legs of which run perpendicular to the plane of the drawing sheet, so that a sufficient size of the compensation bimetal is ensured.

Claims (10)

Installation switch, with a contact point, with a switch lock and at least one overcurrent release, preferably in the form of a thermal bimetal, which acts on a main latching point in the switch lock in the event of an overcurrent, thereby opening the contact point, characterized in that between the switch lock (20) and the overcurrent release (48) a transmission mechanism (30) which is adjustable as a function of the desired tripping overcurrent is provided and which transfers the movement of the overcurrent release (48) to the main latching point (27) of the key switch (20) during a tripping process. Electrical installation switch according to Claim 1, characterized in that the transmission mechanism (30) has a rotary lever (40) which is rotatably mounted about a pivot point and which interacts with the overcurrent release (48), the pivot point of the rotary lever (40) being displaceable to change the response current , so that the distance of the point of application of the overcurrent release (48) on the rotary lever (40) to the overcurrent release (48) can be changed. Switch according to claim 2, characterized in that the transmission mechanism (30) has a latching point (38/39) with a release lever and a latch lever (32; 37), that the rotary lever (40) on the release lever (32) for unlatching the Latching point and thus the pawl lever (37) acts and that the pawl lever (37) acts on the main latching point (27) in the switch lock (20) to open it. Installation switch according to Claim 3, characterized in that the rotary lever (40) is a double-arm lever, one end of which cooperates with the trigger (48), the other end of which the rotary lever (40) can be rotated by the trigger (48) and the central region of which bears against a fixed stop (32), such that the rotary lever rotates about the stop (42) when the pivot point is adjusted, and that the rotary lever (40), when triggered and thus pivoted about its pivot point, at the other end, approximately with its middle Area actuated the release lever (32), wherein the central area stands out from its stop (42). Installation switch according to one of the preceding claims, characterized in that the latch lever (37) can be returned to the latched position by a transmission bracket (58), which transmission lever (58) is moved in the direction of reset by a reset slide (61) actuated by the movable contact lever (11) is operated. Installation switch according to claim 5, characterized in that the transmission lever (58) is designed as a U-shaped bracket, one leg of which cooperates with the reset slider (61) and the other leg of which cooperates with the release lever (32). Installation switch according to one of the preceding claims, characterized in that an adjusting slide (50) is guided on the switch housing and has a pivot point stop (45) and is adjustable by an adjusting element (52) which can be actuated from outside the switching device. Installation device according to claim 7, characterized in that the adjusting element (52) has a spiral cam (53) which drives the adjusting slide (50). Installation device according to claim 8, characterized in that a compensation element for the thermal release is provided between the adjusting slide (50) and the fulcrum stop. Installation device according to claim 9, characterized in that the compensation element is a U-shaped thermobimetal, one leg of which is connected to the adjusting slide and the other leg of which serves as a fulcrum.

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