DE4424332A1 - Line protection switch - Google Patents

Abstract

The switch has a contact arrangement with a fixed contact (23) and a movable contact (27). The latter (27) is moved from its rest position against the force of a compression spring (28). A release handle arrangement (34) is moved under the force of a spring (49) from a latched stand-by position, where the contacts (23, 27) are closed, to a release position. A trigger device (22) is responsive to over-current and/or overheating and unlatches the release handle arrangement (34). The switch also has a device (44) which acts on the movable contact (27) as well as the force of the spring (28). This force supplementing device (44) preferably only acts on the contact (27) in a movement range near its rest position.

Description

The invention relates to an overcurrent and / or overhit triggerable circuit breaker.

Heterogeneous contact materials, such as silver carbon Substance or silver cadmium oxide are used instead of homogeneous Materials, such as silver, are used at Lei circuit breakers to achieve special properties. The Similar circuit breakers have a contact arrangement from a stationary contact and one of these from his Position against the force of a pressure spring after ent Talking overcurrent and / or overheating release move away close contact. To prevent the contacts from sweating wrestle or avoid using with miniature circuit breakers Nominal currents of more than 40 amps could occur  heterogeneous contact pairs are used. The pro is there blem that the contact force provided by the pressure spring often not enough to maintain a low contact voltage drop to achieve.

The invention aims to provide a circuit breaker at the beginning be made available, in which no change the existing pressure spring one to achieve a low Contact voltage if necessary contact force is reached.

According to the invention this object is achieved in the claim 1 mentioned features solved. Preferred characteristics that the He Advantageously, the subordinate Pa claims.

The invention advantageously creates a line Circuit breaker with a contact arrangement from a stationary Contact and from one of them from his investment position against the force of a pressure spring movable contact, one Release lever assembly that spring loaded from a latch standby position in which the contacts are closed are movable into a release position after release, one that responds to overcurrent and / or impending overheating and the release device which releases the release lever arrangement, and with an additional device attached to the movable Contact attacks to increase the contact pressure force.

Due to the concept of the invention, it is possible to to retrofit existing circuit breakers, whereby the remaining components of the kinematics, especially those to the Release lever arrangement attacking switching spring, without change can be left, and thus the desired additional function is used only when needed. The arrangement can be partially taken so that the additional facility, which preferably as an additional spring element in the form of a Torsion spring is formed, only effective when contacts are switched on be let, the torsion spring for example in the  off position by the release lever for a short time is closed until the movable contact when switched on touches the fixed contact and when tensioning the release lever additional torsion spring on the movable contact an additional exerts force. The existing pressure spring and the additional torsion springs result in the enlarged one Contact force.

The pressure increasing device, preferably in the form of Torsion spring engages according to a preferred embodiment of the Invention of the movable contact only in one movement area rich in the stationary contact near the plant position. This advantageously ensures that the additional The contact pressure is only effective to a limited extent and therefore the contact opening Behavior in terms of speed is not essential is impaired.

According to a preferred embodiment of the invention pressure increasing device, preferably the torsion spring, with means of a release lever of the release lever arrangement in their on handle position and movable from it, making it suitable for operation behavior of the circuit breaker the "Brief close "the spring in a range of motion of the movable Contact is created that does not have the effect of additional Chen feather needed.

The device, which is preferably designed as a torsion spring, has one leg supported on the release lever and one Leg for the attack on the movable contact in it Position, preferably the torsion spring is shorter Support leg and a longer loading leg points. The support leg can be favorably on one Form the stop lever on the stop lever or in a hal bore of the release lever.

The torsion spring on the pivot axis of the release arm is preferred bels stored and provided with a preload. The Beauf  striking leg is in a position in which he is not attacks the movable contact on a stop molding of the trigger lever, from which it is when pivoting the trigger lever in its ready position with its end section attacking the movable contact deforming the rotation spring can be moved away. This ideally becomes an immediate direct coupling of the device that increases the pressure force achieved on the existing release kinematics, with advantage the way when the triggering device responds additional pressure effect of the torsion spring by swinging away the same from the attack area does not apply.

According to a preferred further embodiment, the Beauf striking leg of the torsion spring at its end portion with an inward curvature to ensure smooth, to achieve uniform investment conditions on the contact that are adapted to the mutual sequence of movements.

The invention is described below with reference to the beige added drawings explained in more detail. Show it:

Figure 1 is a schematic side view of an example Ausfüh approximately a circuit breaker with an open pair of contacts. and

Fig. 2 is a view according to FIG. 1, but in the ready position with closed contacts.

In Fig. 1, a circuit protection scarf ter 10 is shown partially schematically, which has a narrow housing 11 made of an insulating plastic and on its rear side, in Fig. 1 and 2 below, suspension mounts 12 and 13 for a conventional mounting rail. Seen laterally, the housing 11 is divided centrally, the housing halves being connected to one another via the transverse holes 14 to 17 .

A terminal 18 and a terminal 19 are arranged in Fig. 1 on the left and right edge of the housing accessible from the outside. The connection terminal 18 is connected via a conductor 20 and a winding 21 to an electromagnetic and electrothermal triggering device 22 in connection with a stationary contact 23 . The connecting terminal 19 is connected via a conductor 24 to a pivot bearing 25 for a contact pivot lever 26 which has a contact 27 at its other angled end. The contact pivot lever 26 is biased by a spring assembly 28 with force deflection 29 in the contact closing direction.

Below the electromagnetic and electrothermal Auslö seeinrichtung 22 is a Lichtbogenlöschkam mer 55 is arranged in the housing 11 between a portion of the conductor 20 and a Lei terende 30 which is connected to the conductor 24 . The trigger device 22 consists of a good heat-conducting support body 31 , the element arrangement in Fig. 1 to the right to a Aufnah mekammer 32 with a bimetallic snap element, not shown, with which a trigger plunger 33 in Fig. 1 right in overcurrent-related heating can be disengaged against the action of a spring, not shown, holding the trigger plunger 33 in the supporting body 31 . The other end of the trigger plunger 33, which is mounted in the support body 31 , can be acted upon in a manner not shown by a plunger loading anchor for disengagement when a predetermined overcurrent flows through the winding 21 .

Before the disengageable end of the trigger plunger 33 , a release lever arrangement 34 is provided, which bel 35 manually with a protruding from the housing 11 , pivotally mounted in this Schaltkne 35 and an articulated latch lever 36 with an upwardly facing pawl 37 from the in Fig. 1 shown contact separation position is movable into a standby position, in which the switching knob 35 rests against a stop in the Ge housing guide 39 (see. Fig. 2).

To the trigger lever assembly 34 includes a first trigger lever 40 , which has a latching profile 41 for the nose 37 of the clamping lever 36 to secure the ready position shown in FIG. 2. The trigger lever 40 is pivotable about a housing-fixed axis 42 and has an actuating surface for this before the end of the trigger plunger 33 for this. Coaxial to the first release lever 40 , a second release lever 45 , in FIG. 2 below the first release lever 40 , is mounted on the axis 42 , which has an impact section 46 for the movable contact swivel lever 26 , a pressure surface 47 for the one engaging there and projecting up to it Actuate supply section 43 of the first release lever 40 and a Fe deranlenkungsabschnitt 48 for a strong contact tear spring 49 , which is hinged at its other end at 50 to the housing 11 . Above the articulation section 48 , the second release lever 45 has an integrally formed engagement section 51 , which secures the latching lever 36 in its latching engagement.

On the housing-fixed axis 42 on which the trigger lever 40 is pivotally mounted, a torsion spring 44 is mounted, which has a shorter support leg 55 and a longer Beauf impact leg 56 . The support leg 55 bears against a raised stop molding 57 of the release lever 40 and has an outwardly curved end section. The loading leg rests on a raised stop shape 58 of the release lever 40 and has a curvature inward at its end portion. The arrangement is such that the stop molding 58 has a greater distance from the axis of rotation 42 than the stop molding 57 . Instead of integrally formed stops, bel 40 can also be used on the Auslösehe in a suitable manner, for. B. by screws or gluing, separate stops. In the position shown in Fig. 1, the loading leg 56 is spaced from the schwenkba ren contact 26 .

Fig. 2 shows the circuit breaker 10 in Ready switching position, in which it was brought back, for example after tripping by the thermal protection device in the form of the tripping device 22 . In order to bring the line switch 10 from the most tripped position back to the standby position, the switching knob 35 is first moved to the stop 38 about its housing pivot axis GE. The front end of the latching lever 36 , which according to FIG. 1 is held in contact with the first release lever 40 by means of a spring 53 , comes into latching engagement with the latching profile 41 of the first release lever 40 . Subsequently, the switching knob 35 is pivoted into the position shown in Fig. 2, in which the engagement portion 51 of the second trigger lever 45 holds the tilting lever 36 in latching engagement with the nose 41 of the most trigger lever. Here, the latching lever 36 is pivoted at its articulation on the switching knob 35 through the extension position beyond such that the holding force of the Verklinkungs is transmitted via the lever 36 located at the standby stop switch knob 35 to the housing. 11

In the clockwise pivoting of the trigger lever 4 , the spring assembly 28 ensures that the contact pivot lever 26 with the movable contact 27 is pivoted to the stationary contact 23 Ren. In the last phase of this pivoting movement of the contact pivot lever 26 , approximately at a pivot angle of 15-30 ° before reaching the stationary con tact 23 , the loading leg 56 comes into contact with the contact pivot lever 26 and lifts in the direction of the stationary contact 23 from the further movement the stop molding 58 , against which it rests under prestress, down to the position shown in FIG. 2. In the standby position according to FIG. 2, a functional reinforcement of the effect of the contact pressure force of the spring arrangement 28 is achieved via the longer loading leg 56 .

Claims (11)

1. Miniature circuit breaker with a contact arrangement from a stationary contact ( 23 ) and from this from its contact position against the force of a pressure spring ( 28 ) movable contact ( 27 ), a release lever arrangement ( 34 ) under the force of a spring ( 49 ) from a latched standby position, in which the contacts ( 23 , 27 ) are closed, can be moved in a release position after release, a release device ( 22 ) which responds to overcurrent and / or impending overheating and releases the release lever arrangement ( 34 ). , and with a device ( 44 ) which acts on the movable contact ( 27 ) in addition to the force of the pressure spring ( 28 ). 2. Miniature circuit breaker according to claim 1, characterized in that the pressing force increasing device ( 44 ) on the movable contact ( 27 ) only in a movement range near its contact position on the stationary contact ( 23 ). 3. Miniature circuit breaker according to claim 1 or 2, characterized in that the device ( 44 ) by means of a release lever ( 40 ) of the release lever arrangement ( 34 ) is movable into its engagement position and from this. 4. Circuit breaker according to one of the preceding claims, characterized in that the device consists of a spring ( 44 ). 5. Circuit breaker according to claim 4, characterized in that the spring is designed as a torsion spring ( 44 ), one leg ( 55 ) of which is supported on the release lever ( 40 ) and the other leg end ( 56 ) for attacking the movable contact ( 27 ) is provided in the investment position. 6. Circuit breaker according to claim 5, characterized in that the torsion spring ( 44 ) has a shorter support leg ( 55 ) and a longer loading leg ( 56 ). 7. Circuit breaker according to claim 6, characterized in that the support leg ( 55 ) and the Beaufschla supply leg ( 56 ) each between a stop-Anfor tion ( 57 and 58 ) of the release lever ( 40 ) are held. 8. Circuit breaker according to one of claims 5 to 7, characterized in that the torsion spring ( 44 ) on the pivot axis ( 42 ) of the release lever ( 40 ) is mounted. 9. Circuit breaker according to one of claims 5 to 8, characterized in that the torsion spring ( 44 ) is biased against the stop formations ( 57 , 58 ). 10. Circuit breaker according to one of claims 6 to 9, characterized in that the loading leg ( 56 ) in a position in which it does not act on the movable contact ( 27 ) bears against a stop molding ( 58 ) on the release lever, from which it engages when pivoting the release lever ( 40 ) in its ready position with its end portion on the movable contact ( 26 , 27 ), deforming the torsion spring ( 44 ) away bar. 11. Circuit breaker according to one of claims 5 to 10, characterized in that the loading leg ( 56 ) has an inward curvature at its end portion.