EP1401005A2 - Switch device for electrical circuit breaker - Google Patents

Abstract

The actuator knob (24) of a manual rotary switch is operated against a resisting force produced by a torsion spring (27). The spring is installed into a formed recess on the underside of the knob. The lower end of the spring (30) is short and engages a surface. The other end is long (37) and is cranked (31) to lie against a surface. The end projects to engage the switch body.

Description

The invention relates to a switching device according to the preamble of the claim 1.

Switching devices are in their functional position by actuating or operating elements brought, that is, the switching devices are switched on or off. As a rule, a mechanical energy store is preferred by switching on a torsion or coil spring tensioned, and the reset of the controls occurs when triggered by a magnetic release or by a thermal trigger by releasing the stored spring energy. Through the Position of the control element, i.e. of the control handle, the switch position becomes optical displayed to the operator.

In a known embodiment, a spiral spring is used to reset the control element used with the inner bent end on a turned part with a Groove is pushed. The spring is supported on the inner leg by Wedge in the groove and is tensioned by turning the outer leg. After that the outer leg is hooked into a recess provided for this purpose locked.

In other switching devices, the controls are reset when the actuator is rotating usually a torsion spring is used. The one to be driven by the torsion spring Part is first assembled and the torsion spring is subsequently installed so that the spring body and a spring leg fit into the recesses provided for it. The second leg is assembled by tensioning, positioning and hanging.

These designs require a complex assembly of the drive springs. This cannot be preloaded on the part to be driven and the free spring legs must be rotated, positioned and hooked in. Here are often complicated three-dimensional joining processes are required, which require a lot of assembly space.

The object of the invention is to provide a switching device of the type mentioned which makes assembly much easier.

According to the invention, this object is achieved by the features of claim 1.

Then the spring designed as a coil spring with its short leg first inserted into the recess, with the short leg in the groove in the axial Direction slides. Then the longer one protruding from the control handle Leg twisted, whereby the spring is tensioned until the longer leg with its offset against a bar comes to rest, causing the spring is held within the handle. Then the one that forms a prefabricated structural unit Handle with spring placed on the key switch until the longer shekel behind clicks into place.

Further advantageous refinements and improvements of the invention are the See subclaims.

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

Fig. 1

eine perspektivische Ansicht eines Schaltgriffes von unten mit Feder, bevor diese in den Schaltgriff eingesetzt ist,

Fig.2

eine Aufsicht auf den Drehgriff von unten in der Stellung gemäß Fig. 1

Fig. 3

eine der Fig. 1 entsprechende perspektivische Ansicht des Drehgriffes von unten und

Fig. 4

eine perspektivische Ansicht von Schalthausgehäuse und Drehgriff, bevor der Drehgriff auf das Schaltschlossgehäuse aufgesetzt wird.

Show it:

Fig. 1

a perspective view of a control handle from below with spring before it is inserted into the control handle,

Fig.2

a top view of the rotary handle from below in the position shown in FIG .. 1

Fig. 3

1 corresponding perspective view of the twist grip from below and

Fig. 4

a perspective view of the switchgear housing and rotary handle before the rotary handle is placed on the switch lock housing.

Reference is made to FIG. 4. Above the top wall 10, a Housing 11 for a key switch, a rotary handle 12 is shown, which is a circular Has pot section 13 and a handle section 14.

On the housing wall 10 there is a bearing pin 15 which projects vertically is integrally formed on the housing wall 10. Furthermore, a projection 16 in the Area of the rear side edge 18 shown in FIG. 4 on the housing wall 10 molded. This projection has one to the opposite side edge indicative inclined surface 17 and an undercut 19.

In the housing wall 10, an opening 20 is made by an actuating pin 21 is penetrated, which is coupled to the key switch (not shown) is that when the actuating pin 21 moves transversely to its longitudinal direction the key switch is switched on or off.

Reference is now made to FIG. 1.

This shows a view of the operating handle 12 from below; on a floor surface 22 is a cup rim 23 formed, which in an annular flange, the radial Direction runs, passes.

There is a depression 25 in the bottom which projects into the actuating handle 14 and which has a radial groove 26 which extends in the axial direction and inside the recess 25 is open.

The actuating handle 12 is assigned a coil spring 27, which has a screw body 28 has, at one end a tangential leg 29 protrudes, whereas at the other end a shorter leg 30 is bent, which runs in the radial direction and its extension inwards through the center of the screw body or spring body 28 runs. The longer leg 29 has an offset 31. Here, as can be seen from FIG. 4, the longer one Leg 38 dimensioned so that it clearly projects radially beyond the flange 24.

If the spring body 28 is inserted into the recess 25, the shorter one engages Leg in the groove 26, as can clearly be seen from FIG. 2:

The actuating handle 12 has an approximately S-shaped recess on its underside trained S-shaped control link 32, which has a radial Section 33 has an approximately U-shaped projection 34 is limited.

If the actuating handle 12 is now placed on the housing wall 10, then the bearing pin 15 enters the recess 25 and the actuating pin 21 in the Deepening or in section 33.

The link 32 is at the section 33 opposite end 34 of a bar 35 limited, which runs approximately parallel to the radial extension of the groove 26. The Bend 31 on the leg 29 is now selected so that a direct and tangential the screw body 28 connecting section 36 directly quasi straight from the protrudes adjacent turn; a section 37 is formed by cranking, which a distance from the section 36. If now the spring with its spring body 28 is inserted into the recess 25, the short leg 30 in the Groove engages, and then when the longer leg 29 pivots clockwise is, whereby the spring is tensioned, the section 36 slides along the bar 35, until the leg 29 runs parallel to the bar 35. By pushing the The spring 36 enters the recess 36 behind the edge of the last Ledge 35, so that this section is at a distance from the ledge edge, which corresponds approximately to the offset height. The section 36 resiliently lies against the Inside 37 of the bar so that the spring 27 is biased and by its own Spring force remains inside the recess. This means that an assembly is included Switch handle and return spring formed, which then placed on the housing wall 10 can be. As mentioned above, the bearing pin 15 engages in the recess 25 and thus through the inside of the spring into the control handle; the actuating pin 21 gets into the recess 33. When pushed in completely of the control handle 12 in the housing wall 10, the leg 29 runs on the Inclined surface 17 of the projection 16 and then engages behind the undercut 19, so that the control handle is now fully assembled.

Fig. 4 shows part of a motor protection switch; the housing is not shown, the key switch, the contact points and other components, as these for the invention are of little importance.

Claims (3)

Switching device with rotary switch handle for actuating the switch lock of an electrical switching device, and with a switch lock inserted into a switch lock housing, with a spring which acts on the rotary switch handle in the reset direction, the rotary switch handle being rotatable on a bearing journal formed on the housing wall of the switch lock housing and arranged with an eccentrically Hole receives an actuating pin of the key switch, the bearing pin and the actuating pin projecting perpendicularly to the mounting plane of the switching device in the direction of the front side, characterized in that the spring (27) is designed as a helical spring, at one end of which a short leg (30) and at the other end a long leg (29) is provided, the short leg projecting radially, whereas the longer leg (29) protrudes tangentially, and the longer leg (29) has an offset (31) through which a step is formed that the handle has a recess (25) into which the spring body (28) of the spring with the short leg (30) can be inserted first, the short leg (30) in an axially extending, radial groove (26) engages, and that a vertically protruding ledge (35) is formed on the handle, against which, after insertion and pivoting of the longer leg (29), the offset bears resiliently and so the spring (27) is held in the recess. Switching device according to claim 1, characterized in that a projection (16) extending perpendicularly thereto is formed on the housing wall of the switch lock housing (11), against which the longer leg (29) bears after assembly. Switching device according to claim 2, characterized in that the projection (16) has an oblique edge (17) on which the longer leg (29) runs when the rotary control handle (12) is inserted and can be guided to an undercut when pushed in further, behind which the longer leg (29) engages in the assembled state, the projection (16) forming a fixed bearing for the longer leg (29), whereas the other shorter leg is held in the control handle (12), so that when the rotary control handle rotates in one The spring (27) tensions in the direction and the spring-loaded handle (12) is continuously spring loaded in the opposite direction.

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