The invention relates to an electrical service switching device.
The invention relates in particular to the switching mechanism for an electrical service switching device such as this.
A service switching device of the type mentioned initially has been proposed in patent application 10 2004 012919.3 dated Mar. 17, 2004.
The object of the invention is to even further improve an electrical service switching device of the type mentioned initially.
According to the invention, the latching lever (which is mounted in the enclosure such that it can rotate) together with the tripping lever forms the latching point, in that the tripping lever is mounted such that it can rotate on the same axis as the switching toggle. A projection which holds a first limb of a U-shapped bracket is integrally formed on the switching toggle, diametrically opposite the switching handle, and its other limb is guided such that it can move in an elongated hole in the elongated latching lever and is connected in an articulated manner to a connecting lug, whose other end is connected to the contact lever, which is mounted such that it can rotate.
The particular advantage of the present invention is that the number of parts which form the switching mechanism is small by virtue of the design, in particular having fewer parts than the switching mechanism according to the patent application cited above, and, furthermore, it can also be produced simply by fitting it directly into the circuit breaker enclosure.
Since the lug and the tripping lever are produced from a plastic, there is no potential on the switching-handle area.
A further advantageous refinement of the invention consists in that the latching lever runs approximately parallel to the connecting lug and alongside it, with the connecting lug together with the latching lever forming an obtuse angle which is open in the direction of the front face, only in the connected state, and with the connecting lug being moved approximately parallel to the latching lever and approximately parallel to the front face in the direction of the latching point during a disconnection switching operation.
A further advantageous arrangement may consist in that the latching lever is mounted in the enclosure such that it can rotate, at its opposite end to the latching point.
This means that the tripping behavior is reproducible, because of the simple installation process.
In one advantageous refinement, the latching lever is mounted in only one enclosure half-shell, and to this extent is a simple refinement.
In order to improve the mounting, the latching lever can be guided by the lug, and can be held in the bearing point in the enclosure half-shell.
Since a projection is integrally formed on each of the two sides of the latching lever, and is used for mounting it in the two enclosure half-shells, this results in the latching lever being mounted symmetrically, thus reliably avoiding any rotation transversely with respect to the rotation axis of the bearing point.
In order that this can be achieved, the lug has an aperture through which one of the projections on the latching lever passes.
Further advantageous refinements of the invention can be found in the further dependent claims.
The invention as well as further advantageous refinements and improvements, and further advantages, will be explained and described in more detail with reference to the drawing, in which a number of exemplary embodiments of the invention are illustrated, and in which:
Reference will now be made to
A circuit breaker which is annotated in its totality with the reference number 10 has an enclosure which is formed from two enclosure half-shells, of which only the first enclosure half-shell 11 is illustrated. Like the complementary enclosure half-shell, this enclosure half-shell 11 has a front front wall 12 as well as two rear front walls 13 and 14, which are connected to one another by means of front narrow-face walls 15 and 16.
It is, of course, also possible to use only one enclosure half-shell, which is closed by means of a cover. In the situation in which two enclosure half-shells are provided, each enclosure half-shell has a width which corresponds to half the module width; in the situation in which the enclosure half-shell is closed by means of a cover, the enclosure half-shell is correspondingly of a size which is chosen such that, together with the cover, it matches the module width.
Located in the front front wall 12 there is an opening 17 through which the switching handle 18 of a switching toggle 19 projects, which is mounted in the enclosure such that it can rotate about a shaft 20 which runs at right angles to the inner surface of the enclosure half-shell 11. A projection 21 with an opening 22 in the shape of an eye is located on the diametrically opposite side of the shaft 20 to the switching handle 18, with the longitudinal center axis of the switching handle 18 passing through the center point of the shaft 20 and of the opening 22. One limb (without any reference symbol) of a bracket 23 which is curved in a U-shape engages in the opening 22, while the other limb of the U-shaped bracket engages in a hinge opening 24 in a lug 25. The limb which passes through the hinge opening 23 is designed to be longer than the other limb which is inserted into the hole 22, so that this limb (not illustrated) engages in an elongated hole 26 in a latching lever 27 which is arranged behind the lug, that is to say between the lug 25 and the inner surface of the enclosure half-shell 11. The two limbs of the U-shaped bracket 23 run at right angles to the inner surface of the enclosure half-shell 11, in the direction of the enclosure half-shell 11.
A tripping lever 28 is mounted such that it can rotate about the shaft 20 and has a projection 29 which, in the connected state, runs approximately at right angles to the front front wall 12. In the connected position, the latching lever 27 runs approximately parallel to the front front wall 12, and the lug 25 also runs in the same manner approximately parallel to the front front wall 12, with an obtuse angle being formed between the two of them in the connected state, and with this angle being open to the front front wall 12. The obtuse angle is approximately 180°.
In the connected state, see
Reference will now be made to
This shows an assembly step in which the latching lever 27 and the tripping lever 28 have been inserted into the enclosure half-shell 11. The latching lever 27 is mounted at 30 at one of its ends such that it can rotate, and at its opposite end has a tab 31 which engages behind a step 32 on the tripping lever 28. As can be seen from
As can be seen from
The contact lever 35, which can pivot, runs approximately at right angles to the lug 25 in the connected state, approximately parallel to the web of the bracket 23, and at an angle of about 90° to the front wall. That arm on which the moving contact piece 36 is located projects in the direction of the mounting plane on the circuit breaker, which is opposite the front wall 12.
If tripping now takes place by means of a release, for example a thermal release or an electromagnetic release, then the tripping lever 28 is pivoted in the counterclockwise sense in the direction of the arrow G, as a result of which the tab 31 is released from the step 32, and the latching lever 27 can pivot in the clockwise sense, in the direction of the arrow U, so that, as can be seen in
In order to move the switch back to the connected position, the switching handle 18 is pivoted in the clockwise sense U, thus resulting in the U-shaped bracket 23, whose limb is guided by the elongated hole 26 in the lug 27, being moved in the direction of the bearing point of the latching lever, so that the contact lever 35 is also pressed via the lug 25 to the connected position. This is done because the tripping lever is moved to the latched position, and is thus held firmly, by means of a spring arrangement 40 with two projecting arms 41 and 42, of which the arm 41 acts on the switching toggle and the arm 42 acts on the tripping lever, so that the longer limb of the bracket is positively guided. The longer limb is that which does not pass through the opening 22 on the eye 21 of the switching toggle 18.
An impact stud 25a is located on the extension of the lug 25 and projects against a step 43 on the tripping lever 28; during disconnection, this projection 25a acts on the tripping lever 28, so that it is moved to a position which is beyond the position produced by the thermal or magnetic release, so that the tripping lever of a circuit breaker arranged adjacent to it (in the case of a multipole embodiment) can be operated reliably by the tripping lever, by means of a coupling device which is not illustrated in any more detail.
In the embodiment shown in
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10 2004 055 564 | Nov 2004 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2005/011910 | 11/8/2005 | WO | 00 | 5/15/2007 |
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WO2006/053648 | 5/26/2006 | WO | A |
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