DE3219368A1 - Electrical power circuit breaker having an electromagnetically operating trip mechanism - Google Patents

Abstract

The electromagnetic trip mechanism of a power circuit breaker has a stationary magnet core (33) which is constructed as a flat U-shaped part with two arms which engage around a section, constructed as a heating conductor (25), of the current path of the power circuit breaker and are used as pole surfaces for an armature (34). The magnet core (33) and the heating conductor (25) are connected by means of a bracket metal sheet (38) which is constructed in a bent manner and has retaining tabs (38B) for the joint attachment of the heating conductor (25) and of a connecting plate (36). The trip mechanism described is particularly space-saving and in the same way is suitable for power circuit breakers having an insulating material housing or other type of construction. <IMAGE>

Description

Electric circuit breaker with electromagnetic

acting trigger mechanism The invention relates to an electrical Circuit breaker with an electromagnetic release mechanism, the a fixedly arranged, a section of the current path of the circuit breaker umgrei fenden magnetic core and a cooperating with its pole faces movable comprises arranged armature, the separation of the by rotation of a trip shaft Contact pieces of the circuit breaker caused.

A circuit breaker of this type is, for example, by the DE - B - 28 10 987 became known. The magnetic core is a bent part or a stamped and bent part, whose legs grip a heating conductor. The end faces of the legs are the Pole faces against which the armature designed as a flat sheet metal part is sufficient Electricity is drawn. The shape of the magnetic core and its installation location in the circuit breaker determine together with the dependent design and storage of the associated Armature to some extent the shape of the whole circuit breaker and in particular its overall height, d. H. the distance from a mounting surface to the plane, in which the operating handle is located.

In this context, the invention is based on the object by a change in the shape of the magnetic core a particularly space-saving structure of the tripping mechanism and thus the overall height of the circuit breaker to reduce.

This object is achieved according to the invention in that the magnetic core as a flat U-shaped part with two Poor is trained that the Reach around section of the current path and serve as pole faces. By executing As a flat part, the magnetic core itself is extremely space-saving. Also permitted he changed the arrangement of the associated anchor, resulting in a better overall Space utilization in the area of the trigger mechanism is achieved. In this way it succeeds it is to reduce the height of the circuit breaker above the mounting surface.

Instead of a separate fastening can be used for the fixed Magnetic core a common attachment with other parts can be provided. As part of the invention, this can be done in that the mentioned section of the current path and the fixed magnetic core is connected by an angled bracket plate are, the retaining lugs for the common attachment of a section of the current path forming heating conductor and a connection plate.

The invention is described in more detail below with reference to the figures.

For comparison, FIG. 1 shows one belonging to the prior art Circuit breaker in a partially sectioned side view.

FIG. 2 also shows a sectional side view a circuit breaker with a trip mechanism according to the invention.

Figures 3 and 4 show a connection plate, a heating conductor, a fixed magnetic core and a movable armature existing assembly in a side view or a view rotated at right angles by comparison.

FIG. 5 is an exploded perspective view of the FIGS Figures 3 and 4 assembly shown.

FIG. 6 is an enlarged detail of the assembly according to FIGS Figures 3, 4 and 5 to illustrate the mounting of the movable magnet armature.

Reference is first made to FIG. 1, in which a previously common Circuit breaker is shown.

The trigger mechanism of this switch has a heating conductor 1, which is essentially in the shape of an inverted U. One end of this heating conductor 1 is connected to a connecting device 2, while the other end by a Screw 6 attached to a molded material housing 7 together with a connecting plate 4 is. The same screw 6 is a fixed magnetic core 5 of the electromagnetic acting trigger attached. Part of the circuit breaker's current path is also a flexible electrical tape 3, one end of which on the connecting plate 4 and the other end of which is attached to a movable switching piece. The heating conductor 1 is also a carrier of a bimetal strip 8, the free end 8A of the head an adjusting screw 10 is arranged opposite, which in an extension 9A of a release shaft 9 is provided. The axis of rotation 11 of this release shaft 9 has a stop surface 11A which engages with the end 13A of a ratchet lever 13 stands, which can be pivoted about a pin 12 in a clockwise direction. At 14 there is a part the mechanism used to open and close the contact pieces, by turning the ratchet lever 13 clockwise at the time of triggering is released. Opposite a pole face 5A of the stationary magnetic core 5 a movable armature 15 is arranged. The end 15A of this anchor 15 becomes by the force of a spring 16 is held in its rest position, in which it is at a distance the pole face 5A of the magnetic core 5 faces.

The following is a brief description of the operation of the above known trigger mechanism explained.

If the size of the circuit breaker is sufficient flowing current, the bimetallic strip 8 is heated by the heating conductor 1 in such a way that that the free end 8A of the bimetal strip 8 moves clockwise and thereby applied to the head of the adjusting screw 10. This also causes the trigger wave 9 rotated clockwise, with the end 13A of the ratchet lever 13 from the stop surface 11A of the axis of rotation 11 is released. The ratchet lever 13 now swivels clockwise around the pin 12 and actuates the drive mechanism 14 in the sense of separation the contact pieces.

If the current flowing through the circuit breaker's current path Reached very high values (about ten times the nominal current), so developed the magnetic core has a sufficiently high tensile force to oppose the movable armature 15 the force of the spring 16 to pull against the pole face 5A of the magnetic core 5. if this happens, the free end 15A of the movable armature 15 abuts against an extension 9B of the release shaft 9 and rotates, as previously described, the release shaft 9 clockwise about the axis of rotation 11. Accordingly, the ratchet lever 13 in the previously described Way released, which in turn the drive mechanism 14 for separating the contact pieces caused.

The following shows how the application of the invention Construction size and in particular the construction depth, d. H. the distance from the floor surface 7B until the Reduced front surface 7A with the operating handle 16 will. For this purpose, in FIG. 2, for parts corresponding to FIG. 1, the the same reference numerals are used. The current path of the circuit breaker shown in FIG has a conductor piece 21, the outer end of which serves as a connecting device and its inner end as a stationary contact piece with a contact pad 22 is provided. A movable contact piece 23 with a contact pad acts hereby 24 together. By means of a flexible conductor 3, the movable contact piece 23 is with a connecting plate 4 connected by means of a screw 6 with a mounting bracket 25A of a heating conductor 25 inserted into the current path of the circuit breaker is.

The movable contact piece 23 is connected to a drive mechanism 26 in connection, by an operating handle 16 for opening and closing the contact piece can be actuated. A main pawl 27 of the drive mechanism 26 is in engagement with a stop pin 28A of an intermediate pawl 28, which on a stop surface 29A of a release shaft 29 is supported.

At the free end 32A of a bimetal strip 32 is an adjustment screw 31 attached, the end of an extension 29B of the release shaft 29 opposite is arranged. Furthermore, there is a fixed magnetic core 33 and one that cooperates with it movable armature 34 is present, which is fastened to a support plate 35. The fixed one Magnetic core 33 is by means of an angled bracket plate 38 with a connection plate 36 connected, in turn by a screw 37 on the housing 7 of the circuit breaker is attached, return springs 39 hold the armature 34 in its rest state, in which he faces the pole faces of the magnetic core 33 at a distance.

Further details of the trigger mechanism are shown in FIGS. 4, 5 and 6, referred to below.

FIG. 5 shows particularly clearly that the heating conductor 25 is formed by an inverted U-shape body to which a mounting bracket 25A is attached with its leg 25B. The mounting bracket 25A also has a screw hole 25C for fastening together with the connecting plate 4.

At one end 25D of the heating conductor 25 is a bimetallic strip by means of rivets 40 32 attached. The other end 25E of the heating conductor 25 is in a recess on the Rear side of the connection plate 36 fitted. The fixed magnetic core 33 is through a U-shaped flat plate made of magnetically soft steel, which has a central part 33A and two arms 33B extending therefrom. For connection to the clamp plate 38 pins 33C are provided on the magnetic core 33, which are inserted into holes 38A of the one Engage the leg of the clamp plate 38. When the magnetic core 33 in this way has been used, the connection plate 36 with the heating conductor 25 is from above inserted into the clamp plate 38.

Then the retaining lugs 38B of the clamp plate 38 are in the recesses 36A of the connection plate 36 pressed in. In this assembled state overlaps the upper curved part 25F of the heating conductor 25 is located between the arms 33B Middle part 33D of the magnetic core 33, as can be seen in particular from FIG.

Due to the fixed connection of the fixed magnetic core 33 with the Bracket 38 are between the cut and bent tabs 38C and the remaining tabs 38D on the upper part of the clamp plate 38 and the arms 33B of the magnetic core 33 bearing surfaces 41 formed (see. Fig. 6). On the bearing surfaces 41 rest pivotably two foot parts 35A of the support plate 35, the consists of magnetizable sheet steel and on which one made of magnetic sheet steel existing anchor 34 is arranged. The foot parts 35A are in this pivot bearing secured against lateral displacement by pegs 38E, which are adjacent to the inside the tabs 38C of the bracket plate 38 are arranged. In the figure 6 is also shown that the width T of the bearing surfaces 41 is slightly greater than the thickness S of the foot parts -35A of the support plate 35 is selected. Between abutments 35B of the Support plate 35 and abutments 38F of the clamp plate 38 are springs 39 arranged, by means of which the armature 34 receives the rest position shown in FIG. 3. To limit the The pivoting path of the armature 34 is a stop tab 35D of the support plate 35 in connection with a surface 33E of the magnetic core 33. Furthermore, the support plate 35 has a Extension 35C, which is used to act on the release shaft 29 when triggered and thereby to turn.

Figure 5 also shows a screw hole 36C of the connection plate 36, which is used to connect a cable or line to the circuit breaker (Fig. 2).

The following is the mode of operation of the trigger mechanism described described.

When across the current path of the circuit breaker shown in FIG If sufficiently high currents are flowing, the heating conductor 25 heats the bimetallic strip 32 on, the free end 32A of which then bends counterclockwise.

If the flowing currents exceed the rated current, the Tip of the adjusting screw 31 attached to the bimetal strip 32 against the Extension 29B of the release shaft 29, which is then about the axis of rotation 30 against the Rotates clockwise. The slides Intermediate pawl 28 of the Stop 29A and is released. With the following rotation of the intermediate pawl 28 clockwise, the main pawl 27 of the drive mechanism 26 is released, whereby the movable contact pieces 23 of the circuit breaker from the associated fixed contact pieces 21 are separated.

When the current flowing through the heating conductor 25 increases and a Reached a specified value (about ten times as large as the rated current), is between the arms 33B of the magnetic core 33 and the movable armature 34 have a magnetic attraction force effective, the armature 34 against the force of the springs 39 against the magnetic core 33 draws. The extension 35C of the support plate 35 abuts against the extension 29B the release shaft 29 and thereby causes the opening in the manner already described the contact pieces.

As can be seen when looking at Figure 2, the trigger mechanism particularly space-saving due to the new shape and arrangement of the fixed magnetic core 33 and therefore enables the construction of circuit breakers with reduced overall height, i.e. H. a reduced distance of the bottom surface 7B from the front surface 7A with the Operating handle £ 16. In contrast, the flat magnetic core 33 is essential for this to the previously used U-shaped bent magnetic cores, for their accommodation a larger space requirement has to be taken into account.

The tripping mechanism described is not unique to circuit breakers with insulating material housing (compact switch), but also with other circuit breakers applicable.

6 figures 2 claims Blank page

Claims (2)

Claims Electrical circuit breaker with an electromagnetic Acting trigger mechanism, which has a fixedly arranged, a section the current path of the circuit breaker encompassing magnetic core (33) and one with whose Polflächeri cooperating movably arranged armature (34) comprises by rotating a trip shaft (9) the separation of the contact pieces (21,23) of the circuit breaker causes that the magnetic core (33) as flat U-shaped part with two arms (33B) is formed, which the section of the Reach around the current path and serve as pole faces. 2. Electrical circuit breaker according to claim 1, d a d u r c h g E k e n n n n e i n e t that the section of the current path and the fixed Magnet core (33) are connected by an angled bracket plate (38), the retaining tabs (38B) for jointly securing one of the section of the current path forming heat conductor (25) and a connection plate (36).