DE10126854A1 - Magnetic yoke for electromagnetic trip of switching device has magnetic core cooperating with trip coil formed in one piece with base body of magnetic yoke - Google Patents

Abstract

The magnetic yoke (1a) has a base body (2a) of a ferromagnetic material, formed in one piece with a magnetic core (3a) positioned at one end of a trip coil (5a). The magnetic core can be provided by a U-shaped or closed profile at one end of the base body, or by a deep-drawn cylinder at the end of the base body.

Description

The invention relates to a magnetic yoke of an electro magnetic trigger for a switching device, the magnet yoke with a base made of a ferromagnetic mate rial, and is provided with a magnetic core, which on a Trigger coil can be arranged at the end.

In the case of an electromagnetic release for a switching device among other things, a trip coil, a trip armature Magnetic core and a magnetic yoke are used. The release anchor is separated from the magnetic core by an air gap. A sufficiently large current flows through the trigger coil, so the release anchor is used to bridge the air gap in Direction of the magnetic core set in motion. The movement results from the magnetic field building up, whereby the magnetic yoke to close the as far as possible proper magnetic circuit is used.

Such an electromagnetic trigger is connected with a circuit breaker from EP 0 444 283 B1 known. The structure of this electromagnetic release and that of the associated magnetic yoke is complex, and moreover for the magnetic yoke in the installation position a large space is required stands.

It is therefore an object of the present invention to be a magnet to indicate yoke for an electromagnetic release at which the structure on the one hand and the space requirement on the other should be inexpensive or optimized.

This task is called by a magnetic yoke at the beginning solved th type in which according to the invention the base body with the magnetic core is designed as a one-piece unit.  

By forming the base body with the magnetic core as one-piece unit, on the one hand is the conventional Kon structure of this unit significantly simplified and others the unit can be manufactured more cheaply the. Among other things, the possible use of this now helps of pre-galvanized ferromagnetic strips. About that In addition, there are no cost-intensive turned parts and also fabric, positive or non-positive manufacturing steps can be included be saved. Furthermore, the cycle times are shortened the manufacturing steps.

The manufacture of the one-piece unit can be seen at for example by means of a punching, bending technique at a very good material utilization and very little waste realize. A single simple tool or tools are also sufficient, which in turn means Inves tition means can be saved. Furthermore, with idea of logistical effort in the production run kept low, since the structures of the structural units of the e Electromagnetic trigger are kept flat and this manage with a small number of individual parts.

The magnetic core is advantageous for engaging in the release coil formed. This creates the air gap, starting out of the total length, approximately in the middle of the trip coil, which effectively exploits the electromagnetic effect is.

In a further embodiment, the magnetic core instructs one the tripping coil is adjacent to the effective core surface on. The advantage here is that no separate or integ The magnetic core must be attached or shaped. Both the material required for this as well as a possible loading consolidation can therefore be saved. Is inexpensive the magnetic core with an end piece of the base body as a U- shaped or formed as a closed profile.  

In a further embodiment, the magnetic core with the End piece of the base body is plate-shaped. That too This design variant is characterized by a low dimension material consumption and therefore by an inexpensive manufacturer position.

A pair of wings preferably adjoins the magnetic core, where by the underlying electromagnetic trigger Principle can be influenced advantageously.

In a simple manner, the magnetic core with the end piece of the Base body shaped at least approximately as a cylinder. This design variant allows a very good material use with very little waste.

The cylinder is advantageously designed as a deep-drawn part. This can result in a cost-saving reduction in ferti cycles can be achieved.

The magnetic core preferably has at least one opening Leading a release anchor. Other means of leadership the release anchor can therefore be omitted, whereby e if necessary a saving of material and manufacturing steps results.

In another simple embodiment, the reason body with its free end a thigh, the one in it has arranged recess, the same for Füh tripping anchor serves. This is a useful one and reduced parts storage.  

An extension for electrical connection to the is preferred Tripping coil provided, which with little effort and one a connection means is given low material use.

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 yoke with or without additional components and with or without a housing in different views,

FIGS. 3 and 4, a second magnet yoke with or without additional components and with or without a housing in different views,

FIGS. 5 and 6, a third magnetic yoke with or without additional components and with or without a housing in different views,

Fig. 7 and 8, a fourth yoke in different Ansich th,

FIGS. 9 and 10, a fifth magnet yoke in various Ansich th,

FIGS. 11 and 12, a sixth magnetic yoke in various An sift

FIGS. 13 and 14, a seventh magnetic yoke in various Ansich th, and

Th FIGS. 15 and 16, an eighth magnetic yoke in various Ansich.

In the following text, the same parts of the figures are included same reference numerals or analogously with a similar reference characters. To simplify, are in some figures the other components and the housing are not shown.  

First there are constructive details, later functional ones connections explained. On the function of the switching device not dealt with in detail, as these are from the prior art is well known. This applies in particular to the e electrical activation of a trigger and mechanical Coupling with a key switch.

In Fig. 1 a first magnetic yoke 1 a with a base body 2 a and with a magnetic core 3 a is shown. Fig. 2 shows the first magnetic yoke 1 a without further components and without a housing in a spatial view. The base body 2 a is formed with the magnetic core 3 a as a one-piece unit. In the course of the structural unit, the base body 2 a extends from the first magnetic yoke 1 a to an ear-shaped region 4 a. Following the ear-shaped area 4 a is arranged at an L-shaped angle, with an end piece 10 a of the base body 2 a of the magnetic core 3 a is formed.

The base body 2 a is made of a ferromagnetic material, for which purpose. B. a ferromagnetic powder or granules can also serve as a basis. The magnetic core 3 a can be arranged at the end of a trigger coil 5 a. In this case 3, the magnetic core a one to the trip coil end 5 a collapsing effective core area 6 angren on.

The trip coil 5 a includes a trip armature 7 a, which has a plunger 8 a. The plunger 8 a is guided in an opening 9 of the magnetic core 3 a. The trigger anchor 7 a extends along the longitudinal axis LA. The plunger 8 a points in the direction of the opening 9 .

The position of the magnetic core 3 a with its effective core surface 6 is preferably such that the associated end piece 10 a is oriented orthogonally to the longitudinal axis LA. The position of the first magnetic yoke 1 a is parallel to the longitudinal axis LA and thus also parallel to the trip coil 5 a and the trip armature 7 a. A first free end 11 a has in comparison to the plunger 8 a in the opposite direction.

In Fig. 3, a second magnetic yoke 1 b is shown with a basic body 2 b. Fig. 4 shows the second magnetic yoke 1 b without further components and without a housing in a spatial view. In contrast to the basic body 2 a according to FIG. 1, the basic body 2 b comprises a modified magnetic core 3 b and an adapted ear-shaped region 4 b. The magnetic core 3 b has at its end piece 10 b rounded edges and the ear-shaped loading area 4 b is approximately U-shaped. At the transition from the second magnetic yoke 1 b to the ear-shaped region 4 b there is in particular a continuous tapering on both sides.

The second magnetic yoke 1 b differs from the first magnetic yoke 1 a according to FIG. 1 in that a second free end 11 b is developed into a leg 12 and extends in the same direction as the end piece 10 a according to FIG. 1. In the 12's angle, a recess 13 is made , in which an elongated release armature 7 b is guided and supported.

In the opening 9 , the corresponding, somewhat shortened, plunger 8 b is guided and stored. The trigger armature 7 b and the plunger 8 b are encompassed by an adapted trigger coil 5 b. The second magnetic yoke 1 b comprises, engages or surrounds the trigger coil 5 b at the end.

In Fig. 5, a third magnetic yoke 1 c is shown with a basic body 2 c. Fig. 6 shows the third magnetic yoke 1 c without further components and without a housing in a spatial view. In contrast to the basic body 2 a according to FIG. 1, the basic body 2 c comprises a modified magnetic core 3 c with an end piece 10 c and an adapted ear-shaped area 4 c. The end piece 10 c is in particular angled three times clockwise to the magnetic core 3 c that a closed, approximately square profile is given. A double bend of the end piece 10 c to a U-shaped profile is another option.

The opening 9 is introduced twice in the magnetic core 3 c for an extended plunger 8 c. A plunger 8 c transmitter, shortened tripping armature 7 c is encompassed by a tripping coil 5 c. The magnetic core 3 c with its effective core surface 6 is designed to engage in an associated trigger coil 5 c.

The following section relates equally to FIGS . 1, 3 and 5. The magnet yokes 1 a to 1 c, the ear-shaped regions 4 a to 4 c, the magnetic cores 3 a to 3 c, the release coils 5 a to 5 c and the tripping armature 7 a to 7 c are components of an electromagnetic release 14 a, 14 b or 14 c for a switching device 15 a, 15 b or 15 c, each of which has a housing 16 . The electromagnetic releases 14 a, 14 b and 14 c have, in addition to the components mentioned above, a fixed contact carrier, a fixed contact, a switch with a moving contact, an arc quenching chamber and a thermal trip element.

The following section relates equally to FIGS. 7 to 16, which for simplification show a fourth to an eighth magnetic yoke 1 d to 1 h without further components and without housing in different views.

In Fig. 7, the fourth magnetic yoke 1 d with a base body 2 d is shown in a side view. Fig. 8 shows the fourth magnetic yoke 1 d in a spatial view. In contrast to the basic body 2 c according to FIG. 5, the basic body 2 d comprises a modified magnetic core 3 d with an end piece 10 d and an adapted ear-shaped area 4 d. The end piece 10 d is also angled in particular three times clockwise to the magnetic core 3 d that a closed profile is given.

The magnetic core 3 d has a rectangular profile in comparison to the magnetic core 3 c according to FIG. 5. The magnetic core 3 d has a lower pair of wings 17 a. This is based on the base body 2 d and extends on both sides of the magnetic core 3 d in such a way that an almost all-round closed profile is created. The pair of wings 17 a can be designed in an alternative, alternative embodiment in such a way that the first wing is designed in the opposite direction to the second wing and this gives an asymmetrical geometry.

In Fig. 9, the fifth magnet yoke is 1 e shown with a main body 2 e in a side view. Fig. 10 shows the fifth magnetic yoke 1 e in a spatial view. In contrast to the basic body 2 d according to FIG. 7, the basic body 2 e comprises a modified magnetic core 3 e with an end piece 10 e and an adapted ear-shaped region 4 e. The end piece 10 e is angled twice clockwise to the magnetic core 3 e in such a way that a U-shaped profile is open to one side.

In addition to the embodiment variant according to FIG. 7, an upper pair of wings 18 is arranged on the magnetic core 3 e on both sides of the opposite open sides next to a lower pair of wings 17 b. In addition, an extension 19 for electrical connection to a trip coil is provided on the base body 2 e and thus also on the magnetic core 3 e. The extension 19 can be used in all of the embodiments mentioned here.

In Fig. 11, the sixth magnetic yoke 1 f is provided with a base body 2 f shown in a side view. Fig. 12 shows the sixth magnetic yoke 1 f in a spatial view. In contrast to the basic body 2 d according to FIG. 7, the basic body 2 f comprises a modified magnetic core 3 f with an end piece 10 f and an adapted ear-shaped area 4 f. The end piece 10 f is simply angled clockwise to the magnetic core 3 f in such a way that an L-shaped profile is provided. The Mag netkern 3 f is formed with the end piece 10 f of the base body 2 f plate-shaped. The magnetic core 3 f has an un teres pair of wings 17 c, which is largely the same as the pair of wings 17 a as shown in FIG. 7.

The magnetic cores 3 c to 3 f can, depending on the view of the associated FIGS. 5 to 12, have the U-shaped profile in a side or in a front view.

In Fig. 13, the seventh magnetic yoke 1 g with a base body 2 g in a side view shown. Fig. 14 shows the magnet yoke 1 g in a spatial view. The base body 2 g comprises, in contrast to the previous base bodies 2 a to 2 f according to FIGS. 1 to 11, a modified magnetic core 3 g with an end piece 10 g and an adapted ear-shaped loading area 4 g. The end piece 10 g has a pair of wings 17 d. The magnetic core 3 g is here at least approximately shaped as a first cylinder 20 a with the end piece 10 g and the pair of wings 17 d of the base body 2 g. The first cylinder 20 a has a longitudinal gap on the circumference.

In Fig. 15, the eighth magnetic yoke 1 is shown with a main body h 2 h in a side view. Fig. 16 shows the eighth magnetic yoke 1 h in a spatial view. In contrast to the basic body 2 g according to FIG. 13, the basic body 2 h comprises a modified magnetic core 3 h with an end piece 10 h and an adapted ear-shaped area 4 h.

The magnetic core 3 h is formed here with the end piece 10 h of the basic body 2 h as a second cylinder 20 b, this being designed as a deep-drawn part. The deep-drawn part is produced by a deep-drawing process in a closed design on the circumference.

In this regard, conventionally manufactured units have usually a single magnetic yoke, a single oh ren-shaped area or a single intermediate piece and egg a single magnetic core. The ear-shaped area or the adapter serves, among other things, as a fixed contact carrier on which a fixed contact is arranged. Plus these are Components with an individually applied galvanic Ü cover provided. The individual components are then ge suitable techniques, such as welding, riveting or the like connected. The magnetic yoke and that as a fixed contact carrier Nender adapter are usually in a stamping and bending technology manufactured. In contrast, the magnetic core is as Turned part designed.

The new magnetic yoke can therefore considerable costs for the turned part, for assembly and for the Connection technology and surface treatment saved become.

The individual configurations of the figures can be varied. Possibly. The design variants of the respective magnetic cores 3 d to 3 f can be designed without the wing pairs 17 a, 17 b, 17 c and 18 according to FIGS. 7 to 12.

With the functional connection of the new magnetic yoke with egg an electromagnetic trigger for a switching device among other things a trip coil, a trip armature, a mag netkern and a magnetic yoke for use. The trigger anchor is separated from the magnetic core by an air gap. flows a sufficiently large current through the trigger coil, so the Trigger anchor to bridge the air gap in the direction of the Magnetic core set in motion.

The movement results from the mag building up netfeld, whereby the magnetic yoke to the greatest possible extent Closing the associated magnetic circuit is used.

A switchgear with an electromagnetic is used rule triggers preferably in the control, switching and loading lack technique. Possible design variants, possibly also in Form of a modular device, are for example a Contactor, a relay, a power, a line or also a motor protection switch.

Claims (11)

1. Magnet yoke ( 1 a- 1 h) of an electromagnetic release ( 14 a- 14 c) for a switching device ( 15 a- 15 c), with a basic body by ( 2 a- 2 h) made of a ferromagnetic material, and with egg nem magnetic core ( 3 a- 3 h), which can be arranged at the end of a release coil ( 5 a- 5 c), characterized in that the base body ( 2 a- 2 h) with the magnetic core ( 3 a- 3 h) as one piece Unit is formed. 2. Magnetic yoke according to claim 1, characterized in that the magnetic core ( 3 a- 3 h) is designed to engage in the trigger coil (5a-5c). 3. Magnetic yoke according to claim 1, characterized in that the magnetic core ( 3 a- 3 h) has an effective core surface ( 6 ) which is adjacent to the release coil ( 5 a- 5 c). 4. Magnetic yoke according to one of claims 1, 2 or 3, characterized in that the magnetic core ( 3 a- 3 h) with an end piece ( 10 a- 10 h) of the base body ( 2 a- 2 h) as a U-shaped or is designed as a closed profile. 5. Magnetic yoke according to claim 1, 2 or 3, characterized in that the magnetic core ( 3 a- 3 h) with the end piece ( 10 a- 10 h) of the base body ( 2 a- 2 h) is plate-shaped. 6. Magnetic yoke according to one of the preceding claims, characterized in that a pair of wings ( 17 a- 17 d) is adjacent to the magnetic core ( 3 a- 3 h). 7. Magnetic yoke according to claim 1, 2 or 3, characterized in that the magnetic core ( 3 a- 3 h) with the end piece ( 10 a- 10 h) of the basic body ( 2 a- 2 h) at least approximately as a cylinder ( 20 a, 20 b) is formed. 8. Magnetic yoke according to claim 7, characterized in that the cylinder ( 20 a, 20 b) is designed as a deep-drawn part. 9. Magnet yoke according to one of the preceding claims, characterized in that the magnetic core ( 3 a- 3 h) has at least one opening ( 9 ) for guiding a release armature ( 7 a- 7 c). 10. Magnetic yoke according to one of the preceding claims, characterized in that the base body ( 2 a- 2 h) with its free end ( 11 a, 11 b) forms a leg ( 12 ) which has a recess ( 13 ) arranged therein has, which serves to guide the trigger anchor ( 7 a- 7 c). 11. Magnetic yoke according to one of the preceding claims, characterized in that an extension ( 19 ) for electrical connection to the trigger coil ( 5 a- 5 c) is provided.