DE10126849A1 - Trigger armature for electromagnetic trigger for switching device has base body of ferromagnetic material in the form of flexible compressed, pressed or stamped part - Google Patents

Abstract

In order to provide a release armature with a plunger for an electromagnetic release, in which the structure on the one hand and the manufacture on the other hand should be inexpensive or optimized, it is provided that the basic body on which it is based is designed as an upset, pressed part or as a stamped, bent part.

Description

The invention relates to a trigger armature of an electromagnetic table trigger for a switching device, which is a reason Has body made of a ferromagnetic material.

In the case of an electromagnetic release for a switching device come with a trip coil, a trip anchor Tappet, a magnetic core and a magnetic yoke are used. The The tripping anchor is movable and through an air gap separated from the magnetic core. Flows through the trip coil sufficiently large current, the tripping anchor becomes a bypass Covering the air gap in the direction of the magnetic core in motion set. The movement results from building up the magnetic field.

Such an electromagnetic trigger is connected with a circuit breaker from EP 0 518 791 31 be known. The structure of this electromagnetic release and, that of the integrated release anchor is complex, and also the combination of release anchor and associated plunger extensive manufacturing steps. Since a trigger seanker usually as a rotationally symmetrical component is designed for this, a manufacturing method as in for example, a turning process selected.

It is therefore an object of the present invention to trigger seanker with plunger for an electromagnetic release admit the construction on the one hand and the manufacture on the other hand, it should be inexpensive or optimized.

This task is ge by a trigger anchor mentioned type solved, in which according to the invention the base body designed as an upset, pressed part or as a stamped, bent part is.  

Due to the configuration of the release armature of this type, the Design and manufacture compared to a conventional tional release anchor much easier or cheaper tiger. Accordingly, the above-mentioned trigger occurs ker as a turned part comparatively low manufacturing costs on.

It can also use high-speed Production means a reduction in cycle times at the Manufacturing can be used advantageously. Inexpensive half witness, little material consumption, good material utilization with a small material waste also count among the significant advantages. The invention accordingly considerable manufacturing costs for the turned part, for the Assembly and can be saved for surface treatment. The cost of surface treatment can be increased by use pretreated or possibly pre-galvanized strips fall.

The base body is preferably provided with a plunger. The plunger serves as an extension of the release anchor and acts precisely on the switching mechanism to be actuated.

In a further embodiment, the plunger is as se separate component designed and made of insulating material. Advantageous is that different materials with under different material properties can be used, which results in a targeted change in the range of functions of the electromagnetic release.

Ideally, the base body with the plunger is as one piece square-shaped unit. The resulting building unit advantageously reduces the assembly time of the electromagnetic release.  

At least the base body is advantageously made of a flat one Material formed. As a result, the trigger formed from it anchor also in a flat electromagnetic release and can therefore also be used in a flat switching device.

In a simple manner, at least the basic body can run the, an approximately oval or an angular cross section exhibit. This is a higher constructive design given freedom, which creates additional functional contours or designs can be easily implemented.

The base body expediently has a hole which transversely to and in the area of the longitudinal axis of the plunger is brought. Here, the opening serves to interrupt the Magnetic field, which prevents the given magnetic field lines can penetrate to the tip of the plunger NEN.

Further advantages and details of the invention are set out below exemplified with reference to the drawing. Show it roughly schematic:

Fig. 1 and 2, a first tripping armature with or without a separate tappet in various views,

Fig. 3 shows a second release anchor with a separate plunger in a spatial view, and

Fig. 4 to 7, a third to sixth release anchor with pestle.

In the following text, the same parts of the figures are included same reference numerals or analogously with a similar reference characters.

First, constructive details are explained. On the radio tion of the switching device is not discussed in detail since this is well known from the prior art. This be  particularly affects the electrical activation of a trip sers and the mechanical coupling with a key switch.

In Fig. 1, a first release anchor 1 a is shown. The first release armature 1 a has a base body 2 a, which is formed from a ferromagnetic material and as an upset, pressed part or as a stamped, bent part. The production of the first release armature 1 a takes place by means of a die and stamp, which gives an enormous cost advantage over a turned part. It is also possible to use a metal injection molding or a sintered part. The sintered part is formed on the basis of a ferromagnetic powder.

The first release anchor 1 a has at the end a plate 3 and an inner recess 4 a, in which a plunger 5 a is arranged. The plunger 5 a is guided in an opening 6 and gela gert. The opening 6 is made in a magnetic core 7 and in an extension 8 of a magnetic yoke 9 . The first release seanker 1 a with its plunger 5 a as well as the magnetic core 7 are encompassed by a release coil 10 and extend along the longitudinal axis LA. The first trigger armature 1 a forms, together with the other components listed above, an electromagnetic trigger 11 for a switching device 12 .

Fig. 2 shows the first release anchor 1 a without plunger in a spatial representation. The end of the first release armature 1 a given plate 3 , can be flattened at least on a portion of its radial course for guidance purposes.

In Fig. 3, a second release anchor 1 b with a basic body by 2 b is shown. The second release armature 1 b comprises a plunger 5 b. The base body 2 b is formed from a flat Ma material into a cylinder with a butt edge 13 , so that a recess 4 b is formed. The flat material can optionally also be wound like a screw. The cylinder has in the course of the abutting edge 13 a first and a second recess 14 and 15 , which correspond in shape, position and size and are in particular symmetrical. Alternatively, further component ratios can be provided by means of an individual adaptation.

The plunger 5 b has, in addition to an end piece 16, a retaining lug 17 which is received by the recesses 14 and 15 which are located together. As a result, the plunger 5 b is positively and positively connected to the second release armature 1 b. A possibly occurring tolerance between the retaining lug 17 and the recesses 14 and 15 is compensated for by spacer ribs formed on the retaining lug. The holding lug 17 lies in particular on the side of the recesses 14 , 15 facing the end piece 16 for the purpose of positioning. The end piece 16 is analogous to the plate 3 shown in FIGS . 2 and 3.

The following section refers, depending on the belonging speed, equally to FIGS . 1 to 3.

The first and second release anchors 1 a and 1 b and the plunger 5 a and 5 b can be made of a metal. To avoid arcing, a shorter trigger, a shielding device or an insulated plunger tip can be used. Alternatively, the separate plunger 5 a or 5 b may be formed from a non-ferromagnetic material or from an insulating material. It is advantageous because an electrically conductive connection to neighboring components is prevented, whereby a risk of arcing is avoided.

The tripping armature 1 b to 1 f according to FIGS. 3 to 7 can be used to the same extent in an electromagnetic trigger analogous to the embodiment of the electromagnetic trigger 11 according to FIG. 1.

In Fig. 4, a third release anchor 1 c is shown with a basic body by 2 c. The base body 2 c is formed with a plunger 5 c as a one-piece unit. The third release anchor 1 c differs from the second release anchor 1 b according to FIG. 3 in that a U-shaped profile 18 a is provided on the side opposite the abutting edge 13 . The U-shaped profile 18 a is arranged parallel to the longitudinal axis LA. A remaining web 19 a is in turn formed in a U-shaped bend to the plunger 5 c, which is guided through a recess 4 c and extends along the longitudinal axis SE LA. The base body 2 c has an arcuate cross section.

In Fig. 5, a fourth release anchor 1 d is shown with a basic body by 2 d. In contrast to the third release anchor 1 c ge according to FIG. 4, a U-shaped profile 18 b or a notch 20 is formed on the circumference of the fourth release anchor 1 d in an axial and a radial section. A web 19 b remaining from the U-shaped profile 18 b is deformed in its original orientation so that it engages in the notch 20 and forms a plunger 5 d. The Ges talt of the fourth release armature 1 d is given in that the flat, ferromagnetic material is first provided with a cut in the longitudinal direction LA. Through this A section is generated, which forms the plunger 5 d after its deformation. The flat, ferromagnetic material is then formed into a cylindrical tube, which gives the release armature 1 d.

In Fig. 6, a fifth release anchor 1 e is shown with a basic body by 2 e. In comparison to the fourth release anchor 1 d according to FIG. 5, the base body 2 e on which the fifth release anchor 1 e is based is also made of a flat material, but has two superposed legs 21 and 22 , which have a first and a second radial piece 23 and 24 are connected to each other. A between the two legs 21 and 22 introduced U-shaped profile 18 c results in a remaining web 19 c, which extends over the dimensions of the fifth release armature 1 e along the longitudinal axis LA. The flat, ferromagnetic material is cut out in the middle and folded transversely to the longitudinal axis LA, so that a plunger 5 e is formed.

In Fig. 7, a sixth release anchor 1 f is shown with a basic body by 2 f. In comparison to the fifth release armature 1 e ge according to FIG. 6, the flat material is shaped in such a way that an approximately oval cross section is given at the sixth release armature 1 f ge. In extension to the sixth release anchor 1 f, the flat material can be seen by blending with a plunger 5 f. On one side of the base body 2 f, a hole 25 is made , which is arranged transversely to and in the region of the longitudinal axis LA of the plunger 5 f.

The hole 25 serves to interrupt a magnetic field, thereby preventing magnetic field lines from reaching the tip of the plunger. This embodiment variant is particularly advantageous in the case of a narrow trigger and switch variant.

The sections below relate equally to FIGS. 1 to 7.

The respective base bodies 2 a to 2 f can in particular be formed from a flat material of 0.05 to 5 mm. The material thickness of the flat material is preferably in a ratio of 1 to 5 to the diameter or to the total height. The first to the sixth basic bodies 2 a to 2 f can have at least a round, an approximately oval or an angular cross section. Other special shapes, profiles and cross-sections can also be implemented. On the end side, the first to the sixth release anchors 1 a to 1 f can also be designed in any way. This can include plate-shaped, U-shaped or T-shaped configurations.

Claims (7)

1. tripping armature ( 1 a- 1 f) of an electromagnetic release ( 11 ) for a switching device ( 12 ) which has a base body (2a-2f) made of a ferromagnetic material, characterized in that the base body ( 2 a- 2 f) is designed as an upset, pressed part or as a stamped, bent part. 2. release anchor according to claim 1, characterized in that the base body ( 2 a- 2 f) is provided with a plunger ( 5 a- 5 f). 3. release anchor according to claim 2, characterized in that the plunger ( 5 a- 5 f) is formed as a separate component and is made of insulating material. 4. tripping anchor according to one of claims 1 or 2, characterized in that the base body ( 2 a- 2 f) with the plunger ( 5 a- 5 f) is designed as a one-piece structural unit. 5. tripping anchor according to one of the preceding claims, characterized in that at least the base body ( 2 a- 2 f) is formed from a flat material. 6. tripping anchor according to one of the preceding claims, characterized in that at least the base body ( 2 a- 2 f) has a round, an approximately oval or an angular cross section. 7. release anchor according to one of claims 1 to 6, characterized in that the base body ( 2 a- 2 f) has a hole ( 25 ) which is transverse to and in the region of the longitudinal axis (LA) of the plunger ( 5 a- 5 f ) is introduced.