DE1153112B - Miniature circuit breaker in base form - Google Patents

Description

Circuit breaker in socket form The invention relates to a miniature circuit breaker in the form of a base with two symmetrically designed base halves, those with their lower, about a third of the switch height occupying parts together the width of the switch and in their upper, narrower parts between take up the switching mechanism.

The requirements for line circuit breakers in particular go as follows: to achieve higher disconnection capacities with the best possible use of space. Next to the known means for increasing the switching capacity are therefore increasing on arranging and accommodating the known means from a constructive point of view, that the highest performance is achieved with the smallest space requirement of the switch. not Lastly, however, there are also aspects for the design and construction of a such a switch is crucial in terms of its production, namely under Consideration that such devices are produced in series production. This requires an assembly particularly suitable for mass production.

This is the object of the present invention. One switch with the features identified at the beginning is z. B. as a so-called screw self-switch known. This switch, its structure also relies on that of the present invention takes underlying problems into account, but is not in favor of it determined to switch off higher services. In this known switch are used lower, the entire width of the switch or its diameter resulting parts of the base halves only the introduction of the foot contact pin and the attachment of the thread basket. The switching contacts and the essential part of the switching mechanism are provided in the upper third on both sides of the narrower parts of the shell halves. The structure of this switch does not have the effect aimed for by the invention result from the special design of the support elements and the arrangement the contact parts, the magnet system and the mechanics.

A switch has also already become known which has a similar one Arrangement of these parts as in the invention. The main disadvantage is with this switch, however, that its manufacture is still relatively cumbersome by installing the switching or triggering mechanism.

The present invention is characterized in that the lower Third of the base halves form a cavity closed with a base plate, in which the movable contact parts and also a magnet system with a magnet coil and anchors are housed, with the movable contact parts in the cavity extends in the holding lever in the closed position, and designed as a bridge movable contact parts together with the retraction springs in or on the base plate are stored.

The bearing points for the contact bridge on the base plate are here expediently formed by approaches to which both by the action of the return springs the bearing axis of the bridge as well as a point on the switching bridge that is remote from the bearing axis comes to the plant. The arrangement of the movable contacts on the base plate results a particularly simple installation option of the same independent of the rest of the switch installation. In order to achieve that an automatic contact cleaning takes place, which in particular is necessary if the switch is frequently switched on and off by hand, are the storage of the contact bridge and the direction of application of the switch-on and switch-off forces such that the bearing point of the contact bridge after touching the contacts a Moving movement executes.

The attachment of the contact bridge is expediently made in such a way that that this is only held by the return spring on the base plate. The bottom plate itself is attached to the base halves by means of tubular rivets, in such a way that the Through holes in the tubular rivets are used to attach the switch.

An advantageous structure results according to the further invention, if the armature of the magnet system provided in the lower cavity of the base halves acts directly on the contact bridge, during the on the Latch-acting release magnet in the upper part of the base halves at the height of the Storage point for the actuator is housed.

According to a further feature of the invention, the armature of the release magnet acts on one arm of a double-armed release latch, the bearing point of which with a Transmission lever is connected and guided in a backdrop. The bimetal release expediently acts on the armature of the release magnet.

In the drawing, an embodiment of the invention is shown; It shows Fig. 1 a section through the switch, Fig. 2 a section according to the Line 11-II in Fig. 1, Fig. 3 shows the base plate with the movable contact parts and -Fig. 4 shows a side view of FIG. 3.

The base consists of two halves 1 and 2, which are mirror images of each other and which together form the entire width of the switch in the lower third. The upper two thirds of these parts form a narrow middle part in which the switching mechanism is mounted. This mechanism or the switch lock is constructed as follows: The actuator 3 is mounted on an axis 4, around which a torsion spring 5 is also arranged, which is supported on the one hand on the actuator 3 and on the other hand on the base wall. A bracket 7 is mounted on the actuating member 3 by means of an axis 6. The axis 6 simultaneously serves as a limitation for the movement of the actuating member 3, in that the ends of the axis 6 engage in link-like depressions on the base halves 1 and 2. The bracket 7 is connected via an axis 8 to a transmission lever 9, which is mounted around the axis 10 on the base halves: The transmission lever 9 .has on its longer: lever arm a slot guide 11 in which a guide pin 12 is located, which is in coulisse . 13 is guided on the base halves. This guide pin 12 serves as a bearing axis for the pull pawl -14, which is double-armed. A leaf spring 15, which is attached to the bracket 7, acts on the arm of the pull pawl 14 pointing towards the actuating element 3. The other arm of the pull pawl 14 engages with a nose on a latching axis 16 which is assigned to a double-armed switching lever 17. The switching lever 17 is rotatably mounted about the axis 18 and actuates the movable contact parts 26 with its short lever arm.

- In the narrow middle part of the two base halves 1 and 2, at the level of the axis 4 for the actuator 3, the magnetic release is also provided, which consists of the coil 19, a closed iron jacket 20, the magnetic core 21 and the armature 22. The latter acts on a release flap 23 which is attached to the release by means of a leaf spring. The armature 22 also has a threaded pin 24 with the release pin 25.

The contact device is located in the lower cavity of the two base halves. consisting of the double-armed contact bridge 26, as well as the two stationary ones as well a further magnet system 28 which is encapsulated in an insulating material part 29. This magnet system 28 consists of the coil 30, the closed iron jacket 31, the magnetic core 32, the. - Anchor 33, the anchor spring 34 and the firing pin 35. The Base plate 36 also serves as a bearing for the movable contact bridge 26. Two lugs 37 raised on this base plate 36 serve as bearing blocks and are designed so that the contact bridge 26 only by means of the two return springs 38 held in the manner shown in the drawing without further aids will.

On both sides of the narrow middle part are the two ceramic switching chambers 39, which are surrounded by an iron jacket 40.

The overcurrent release (bimetal) is arranged between the two base halves in the narrow upper part. It consists of the bimetal carrier 41, the actual thermal bimetal 42, the flexible connection 43 and the insulating plate 44.

The two base halves 1 and 2 are better known with fasteners Kind, e.g. B. tubular rivets held together at points 45. The axis is also used 4 also as a connecting means for the two base halves. The bottom plate 36 is connected to the base halves by means of two tubular rivets 46. The through holes the tubular rivets 46 then simultaneously serve as fastening holes for the assembly of the switch. The device is covered by means of the cap 47, which by means of a Countersunk screw 48 is attached, which is embedded in a between the two base halves Square nut 49 engages.

- The operation of the switch is as follows: In the drawing, the switch is shown in the switched-off state: If the actuator 3 is moved clockwise, the tab 7 sets the transmission lever 9 in a rotary movement about the axis 10. The guide pin 12, that is to say the bearing axis of the pull pawl 14, is moved upwards in the link 13. The pull pawl 14 therefore also experiences an upward movement and in turn takes the shift lever 17 upwards at its end via the latching axis 16, so that it rotates around the axis 18 in a counterclockwise direction.

With the short lever arm of the switching lever 17, the contact bridge 26 moved into the switched-on position, namely this rotates first around the bearing point 50 against the force of the spring 38 until it rests against the stationary contact parts 27. This is followed by a continuation of the movement of the shift lever 17, which is now a thrust movement of the contact bridge 26 is generated. The bearing point 50 of the switching bridge 26 slides upwards. Contact cleaning takes place through the pushing movement instead of. Since the bearing point 50 can also move away from the abutment, the Springs 38 generate a contact pressure increasing torque.

At the end of the switch-on process, the following points are roughly in one Straight lines, namely storage 4 of the actuator 3, storage 6 of the tab 7 in the Transmission lever 9. The dead center position is given if these points are negligible are moved over this straight line. In this end position, the axis 6 comes to bear the base halves.

The disconnection process by manual operation takes place in the opposite sense, the return of the mechanism being effected both by the tension springs 38 and by the torsion spring 5. In the event of an overload, the switch-off process takes place as follows: The current heat generated in the thermal bimetal 42 causes it to bend, which acts on the release flap 23 via the threaded pin 24 and armature 22 as well as the release pin 25. The release flap 23 strikes the arm of the pull pawl 14, the rotation of which releases the switching lever 17. The springs 38 now suddenly move the contact bridge 26 with the switching lever 17 into the switched-off position. However, this switch-off process does not take place in exactly the reverse order as the switch-on process. The direction of pull of the springs 38 is selected so that a force component acts on the sliding surfaces of the base plate 36. This has the consequence that the contact bridge 26 is suddenly, that is, brought into the switched-off position without reducing the contact pressure. The remaining parts of the mechanism are returned to the switched-off position by the torsion spring 5.

In the event of a short circuit, ie when the switch is suddenly loaded with a multiple of the rated current, the following process takes place: The armature 22 is suddenly pulled against the magnetic core 21 and acts on the pull pawl 14 via the release pin 25 and the release flap 23. This unlatches the switching lever 17. The contact bridge 26 is moved into the starting position as in the case of triggering by overcurrent through the springs 38, but with the difference that not only the springs 38 act on the contact bridge 26, but also the armature 33 its firing pin 35. At the same time as the release armature 22 , the armature 33 also comes into action. However, the armature 33 is designed so that its mass is greater than that of the release armature 22. This has the effect that the armature 33 is more sluggish than the armature 22 and consequently only at most simultaneously with the unlatching or very shortly thereafter on the bridge 26 acts. However, it is still so nimble and, due to its mass, strong enough to cause an effective acceleration of the contact bridge and to make the switch-off process faster and safer while preventing the contacts from welding.

Claims (7)

PATENT CLAIMS: 1. Circuit breaker in base form with two symmetrically formed base halves, which together give the width of the switch with their lower, about a third of the switch height occupying parts and accommodate the switching mechanism in their upper, narrower parts between them, characterized in that the lower Third of the base halves form a cavity closed with a base plate (36), in which the movable contact parts (26) and also a magnet system with magnet coil (30) and armature (33) are accommodated, with the movable contact parts (26) in the cavity. The lever (17) holding in the closed position extends and the movable contact parts (26) designed as a bridge are mounted in or on the base plate (36) together with the return springs (38). 2. Circuit breaker according to claim 1, characterized in that the bearings for the bridge are formed by approaches are on which both the bearing axis of the bridge due to the action of the return springs as well as a point on the switching bridge that is remote from the bearing axis comes to rest. 3. Circuit breaker according to claim 1 and 2, characterized in that the Storage of the contact bridge and the direction of attack of the switch-on and switch-off forces takes place in such a way that the bearing point of the contact bridge after touching the contacts executes a shifting movement. 4. Circuit breaker according to claim 1 to 3, characterized in that the contact bridge only by the return spring on the Base plate is held. 5. Circuit breaker according to claim 1 to 4, characterized characterized in that the base plate is attached to the base halves by means of tubular rivets is and that the through holes of the tubular rivets are used to attach the switch. 6. Circuit breaker according to claim 1 to 3, characterized in that the Anchor of the magnet system provided in the lower cavity of the base halves directly acts on the contact bridge, while the release magnet acting on the latch in the upper part of the base half at the level of the bearing point for the actuator is housed. 7. Circuit breaker according to claim 1 to 4, characterized in that that the armature of the release magnet on an arm of a double-armed release pawl acts whose bearing point is connected to a transmission lever and in a setting is led. B. circuit breaker according to claim 1 to 7, characterized in that that the bimetallic release acts on the armature of the release magnet. Considered Publications: German Auslegeschriften No. 1090 298, 1089 459; BBC list »Stotz machines« AE 3069, March 1961.