DE4341214A1 - Tripping unit for circuit breakers or circuit breakers - Google Patents

Abstract

A trip unit (release unit) for a power circuit breaker or a protective switch, in particular as an undervoltage trip device which interacts with the switch drive mechanism in such a manner that, if the voltage is not sufficient, the trip unit unlatches the switch drive mechanism immediately, the trip unit having a trip coil 21, which is designed as a plunger-type armature coil and has a trip plunger 20 which is prestressed in the trip direction 30 by means of a compression spring and is inserted in a magnetic store housing, the end 2 of an arm 1b of a clamping lever 1, which is designed as a rocker, being pressed (during opening of the switch or when the locking mechanism is open) by a compression spring 5 into a cutout 32 which is located in a control cam 31 of the switch, such that the other arm 1a of the clamping lever 1 rotates the trip lever 12 in such a manner that the trip lever 12 is pivoted about its shaft 13 and, in consequence, presses the trip plunger 20 into the magnetic store housing 21. <IMAGE>

Description

The invention relates to a trigger unit for a Circuit breaker or circuit breaker, especially as Undervoltage release with the switch drive mechanism interacts in such a way that when there is insufficient tension, the Release unit immediately releases the switch drive mechanism, wherein the trigger unit is designed as a plunger armature coil Trip coil with a by a compression spring in the trip direction loaded, lying in a magnetic storage housing Has trigger plunger.

Circuit breaker with an additional protection module are known. This is how EP 0 525 691 describes A1 a switch of this type, in the housing of which a front trip unit designed as a module can be installed. Such protection modules are mostly as undervoltage releases designed, when falling below the to Switch contacts applied voltage of the undervoltage release actuated the switch-off mechanism.

The release units known today operate with the help of levers with the switching mechanism of the switch. The one for that However, levers used are relatively bulky and large designed so that a desired compact and small version  a trip unit cannot be achieved. The used Levers are always on two opposite sides of the Trigger unit housing attached, which makes the levers large have to be executed and also a very complicated Get shape to be produced. The complicated also affects Lever disadvantageous to a quick assembly of the switch and the trip unit.

The invention is therefore based on the object Tripping unit for circuit breakers or circuit breakers type mentioned above, in particular as undervoltage release to be designed so that the release unit in its construction much simplified, reduced in size and the Assembly and manufacturing costs are reduced. In addition, should a reduction in the parts used while maintaining the same Functional scope of the trip unit.

This object is achieved by the invention in that Open the switch or open the switch lock the end an arm of a clamping lever designed as a rocker from one Compression spring in a located in a control curve of the switch Recess is pressed so that the other arm of the tensioning lever twisted the trigger lever so that the trigger lever around his Axis is pivoted and thereby the trigger plunger in the Magnetic storage case presses.

The advantage over known from the prior art Tripping units, lies in the use of a control curve and two interacting with it, relatively small in size Levers (tension levers as well as release levers), which by their Due to dimensions, only small lifting heights are required. this is a substantial improvement of the state of the art since smaller Lifting heights of the levers used shorter tripping times  or faster response times of the circuit breaker for the downstream equipment means. The use also leads from smaller levers to smaller housing dimensions, which is also the goal of every professional. Smaller dimensions of the Levers also mean lower production costs and bear essential to the reliability of the trip unit and thus also to the security of the overall system.

It is also new that the trigger unit according to the invention only has two levers, all for one release unit take on important functions. The state of the art need known release units as well as EP 0 525 691 A2 against it three levers. On the other hand, a reduction means one decisive simplification of the mechanics, reduces the production expenditure and production costs and also bears to the functional safety of the trip unit.

The invention also describes a control curve, which as Sliding part is designed such that it is the end of one arm of the spring-loaded clamping lever during the switch-on process against the action of a compression spring in one in the housing Press the existing recess and the tension lever around its axis of rotation pivots that the release lever from the clamping lever is released. The control curve is preferably on Control element attached.

In its preferred version, the control curve is on arcuate flat part that in the middle of the flat side has an opening and the opening of the control element encloses that when switching the switch on or off Control element takes the control cam along and around the axis of rotation of the control element moves.  

Such a control curve is much more stable than that previously used transmission mechanisms between switches and Tripping unit that can be realized with levers. Through the Attachment to the control element and the deflection-resistant The design of the control curve is accurate and wear-free Power transmission to the tensioning lever of the release unit.

By means of a recess on the side facing the release unit The control element position is on the side of the control curve Transfer trigger unit. The recess of the Control curve on one side when switching on the switch cooperates with one end of the tensioning lever, the side is ramped. With appropriate training on the side of the recess is the interaction between switches and trigger unit determines that a temporally and spatially exact interlocking of tension lever and control cam required.

The clamping lever is preferably designed as a two-armed lever and is between the two lever arms by means of a bolt rotatably attached to the housing of the trip unit. At about same length dimensions of the two lever arms of the tensioning lever both arms have the same lifting height at the same twist angle. This is a clear advantage over the prior art, who uses a one-armed clamping lever, in which the Lifting heights of the engaging switch lever and the trigger lever, due to different points of attack on the lever differentiate from each other. Also the design and storage a one-armed lever only with a relatively large one To realize effort, whereas in the invention only one Bolts are sufficient to securely and rotatably mount the tensioning lever.  

So that of a compression spring designed as a coil spring When the triggering unit is triggered, the tensioning levers are driven if possible can quickly snap into the recess of the control curve, that is End of the tensioning lever, which interacts with the control cam, designed as a pestle. A quick release is imperative required if the trip unit as protection for downstream equipment should serve.

The arc-shaped, interacting with the release lever Arm of the tensioning lever has an inside Effective area, which is designed so that the arm during the Rotation movement when the switch is turned off the release lever so pressurized that the trigger plunger around his The axis of rotation is pivoted in the direction of the trigger plunger and the Push the tappet all the way into the magnetic storage housing.

The trigger lever is a double lever arm, the Connecting bridge of the two lever arms the axis of rotation of the Release lever is. The particular advantage of this double lever shape can be seen in the fact that the connecting bridge through its cylindrical shape is at the same time bearing axis of rotation and in one suitably designed recess in the release housing and so clamped by the corresponding housing cover that the release lever is still about the longitudinal axis of the connecting web can pivot. This means there are no additional ones Bracket parts required.

The arm of the trigger lever, which cooperates with the tension lever, preferably has at its end a cam which is connected to the Area of action of the tension lever arm interacts. Through this Cam is a guide of the trigger lever from the effective surface of the clamping lever always guaranteed. The round shape of the cam also contributes to the smooth sliding along the Effective area at.  

The lever arm of the trigger lever, the one with the trigger plunger and the Switch-off protection mechanism of the switch interacts, points a cam on the side facing away from the trigger plunger, the which holds one end of a compression spring, which preferably as Coil spring is formed. The contact surface of the lever arm with the trigger plunger is also preferably as a rounded Train cams. At the end the lever arm of the Trigger lever on an effective area that with the Switch-off protection mechanism interacts.

The axis of rotation of the tensioning lever and the axis of rotation of the release lever should preferably be arranged parallel to each other, whereby a favorable power transmission is guaranteed. The longitudinal axis of the Magnetic storage system and the tension lever longitudinal axis should also be parallel to each other.

Another significant advantage of the invention is that exclusive use of compression springs, in particular Coil springs between the housing parts and the levers to store. The design of the lever and the housing parts enables faster assembly compared to today used tension springs, as these at their ends in corresponding Brackets need to be threaded.

A preferred embodiment is shown in the following illustrated drawings shown schematically.

Show it:

Fig. 1 An exploded view of the release unit with magnet system, tension lever and release lever

Fig. 2 is a side view of the release unit; Interaction of the tension lever with the release lever and the control cam.

In Fig. 1, a preferred embodiment of the trip unit is shown for power and circuit breakers.

The housing of the release unit is formed from the molded base 23 and the molded cover part 8 , the two parts preferably being made of plastic and held together by screws 6 . In the release unit, the connection terminals 26 , 28 and the associated terminal cover 25 , as well as the rectifier part 24 and two buttons 10 , with associated actuating plunger 9 are arranged. In addition, there are recesses in the housing parts 8 and 23 for the magnetic storage housing 21 with a trigger plunger 20 , the trigger lever 12 and the clamping lever 1 .

The trigger unit is arranged in a recess next to the control element 34 of the switch housing, not shown, and interacts with the trigger mechanism of the switch via the tensioning lever 1 and the trigger lever 12 .

The rocker arm 1 designed as a rocker is rotatably mounted with the bolt 7 in the housing cover part 8 . The arm 1 a of the tensioning lever 1 is located inside the housing. The arm 1 b is retractable into a slot-shaped recess in the outside of the housing cover part. The end of the slot-shaped recess is connected to a recess 27 in which a compression spring 5 , in particular a helical spring, lies. The compression spring 5 is supported at one end against the housing cover part 8 . The other end of the compression spring 5 is held by a cam 4 located on the tension lever arm 1 b. The compression spring 5 is pressurized the tensioning lever 1 such that the Spannhebelarm 1 b is forced out of the housing cover. 8

On the side of the clamping lever arm 1 b facing away from the housing cover part 8 is a cam 2 , which is preferably rounded at its end. The tensioning lever 1 is shaped such that the cam 2, when the tensioning lever 1 is rotated, lies completely in the recess 27 of the housing cover part, counter to the spring action of the compression spring 5 .

The tensioning lever arm 1 a is designed in the shape of an arc and has an effective surface 3 on its inside of the arc, which interacts with the cylindrical cam 17 of the release lever arm 18 . Due to the cylindrical shape of the cam 17 and the special shape of the effective surface 3 , during the rotation of the clamping lever 1 , in which the clamping lever arm 1 b is pressed out of the housing cover part 8 by the compression spring 5 , a continuous power transmission from the clamping lever arm 1 a to the cam 17 of the release lever arm 18 ensures that the release lever 12 is pivoted about its axis of rotation 13 so that the release lever arm 14 is pivoted against the release plunger 20 and presses the release plunger 20 completely into the magnetic storage housing 21 .

The trigger lever 12 is a C-shaped double lever arm with the lever arms 14 and 18 , which are rigidly attached to a connecting web 13 . The release lever 12 lies with its connecting web 13 in a recess in the basic housing body 23 , the release lever 12 being rotatable about the longitudinal axis of the connecting web 13 . Here, the cylindrical end 19 of the connecting web 13 lies in the likewise cylindrical recess 22 of the basic housing body 23 . For reasons of stability, the release lever arm 18 is a disk-shaped segment, on the end of which is remote from the connecting web 13, a cylindrical cam 17 is formed, the cam 17 being formed on the disk segment side 18 a facing away from the release lever arm 14 and the opposite disk segment side 18 a for the tensioning lever arm 1 a forms a support surface.

The release lever arm 14 has a cam 16 which holds one end of a compression spring 11 designed as a helical spring, the compression spring 11 pressing the release lever arm 14 against the release plunger 20 . In addition, the trigger lever arm 14 has an active surface which is designed as a cam and interacts with the trigger plunger 20 . At its end facing away from the connecting web 13 , the release lever arm 14 has an active surface 15 , which is also preferably designed as a cam, which interacts with the switch protection mechanism, not shown, of the switch.

The compression spring 11 lies in a recess in the housing base body 23 , with one end being supported on the housing base body 23 and with the other end pressurizing the release lever arm 14 in the direction of the release plunger 20 .

The connecting web 13 is encompassed by the connection contacts of two buttons 10 arranged next to one another. The two release lever arms 14 and 18 in turn comprise the two buttons 10 , the release buttons of which are actuated by an actuating plunger 9 which can be moved between the two buttons. The actuation plunger 9 is actuated by a control element 34 in the facing side of the cover member 8 from the opening of circuit breaker closing mechanism located.

Fig. 2 shows the cooperation of the tensioning lever 1 with the cam 31 and the release lever 12.

The control cam 31 is an arcuate flat part that has an opening in the middle of the flat side. The opening encloses the control element 34 in such a way that when the switch is switched on or off, the control element 34 takes the control cam with it and thereby moves about the axis of rotation of the control element 34 .

The control cam has on its narrow side 35 facing the trigger unit a recess 32 which is dimensioned in such a size that the molded on the clamping lever arm 1 b cam 2 can be pivoted so far into the recess 32 that in turn the clamping lever arm 1 a the trigger lever just so twisted that the trigger plunger 20 is fully pressed into the magnetic memory housing 21 .

The recess 32 has the control cam 31 has a ramp-shaped side 33 slides along the link turning on the switch, the cam 2 of the tripping lever arm 1 b. When the control element 34 is knocked over, the control curve 31 is carried along by the control element 34 and is thereby moved about the axis of rotation of the control element 34 . The cam 2 is pressurized from the ramp-shaped side 33 and pressed against the spring action of the compression spring 5 into the recess 27 of the housing cover 8 .

As a result, the clamping lever 1 is pivoted so that it no longer pressurizes the release lever 12 and it can thus be freely rotated.

If there is a sufficiently high voltage at the switch contacts of the switch when the switch is switched on or during switching on and thus also a correspondingly high voltage at the connecting terminals of the release coil designed as a plunger armature coil, the plunger armature coil holds the release plunger in the magnetic storage case, which is loaded by a compression spring in the release direction 30 . The release lever 12 is pressed against the release plunger by the compression spring 11 and does not trigger the switch-off protection mechanism of the switch. The switch remains on.

On the other hand, if the applied voltage is too low, the magnetic field generated by the release coil is not sufficient to hold the release plunger against the compression spring in the magnetic storage housing 21 . The trip rod 20 is pressed by the memory located in the stator housing 21 compression spring out of the magnetic storage housing 21 and rotated thereby the release lever 12, which actuates with its effect surface 15 the Ausschaltschutzmechanismus of the switch. The control element 34 is then thrown into the OFF position by a spring located in the switch, the control cam 31 being carried along by the control element 34 . By taking the control cam 31 with it, the cutout 32 of the control cam 31 is pushed in front of the cam 2 , which can now be pressed into the cutout 32 by the compression spring 5 . As a result, the clamping lever 1 is pivoted, which in turn rotates the release lever 12 , the release lever 12 pressing the release plunger 20 into the magnetic storage housing 21 .

The switch and trigger unit are in his again original OFF position and can be switched on again manually become.

Claims (18)

1.Tripping unit for a circuit breaker or a circuit breaker, in particular as an undervoltage release, which cooperates with the switch drive mechanism in such a way that the release unit immediately unlatches the switch drive mechanism if there is insufficient voltage, the release unit being a release coil ( 21 ) designed as a plunger armature coil with a pressure spring in tripping direction (30) loaded, having characterized in a magnetic memory casing inset tripping tappet (20), that on opening of the switch, or open, switch lock the end (2) of one arm (1b) of a clamping lever constructed as a rocker (1) by a compression spring ( 5 ) in a control curve ( 31 ) of the switch recess ( 32 ) is pressed, the other arm ( 1 a) of the clamping lever ( 1 ) rotates the release lever ( 12 ) such that the release lever ( 12 ) around it Axis ( 13 ) is pivoted and thereby the A Press the release plunger ( 20 ) into the magnetic storage housing ( 21 ). 2. Tripping unit according to claim 1, characterized in that the control cam ( 31 ) is designed such that it the end ( 2 ) of one arm ( 1 b) of the spring-loaded clamping lever ( 1 ) during the switch-on process against the action of the compression spring ( 5 ) in a recess ( 27 ) in the housing cover ( 8 ) and the clamping lever ( 2 ) is pivoted so far about its axis of rotation ( 13 ) that the release lever ( 12 ) is released by the clamping lever ( 2 ). 3. Trip unit according to one of the preceding claims, characterized in that the control cam ( 31 ) is attached to the control element ( 34 ). 4. Trip unit according to one of the preceding claims, characterized in that the control cam ( 31 ) is an arcuate flat part that has an opening in the middle of the flat side and the opening encloses the control element ( 34 ) such that when entering or Turning off the switch takes the control element along with the control cam ( 31 ) and moves it about the axis of rotation of the control element ( 34 ). 5. Trip unit according to one of the preceding claims, characterized in that the recess ( 32 ) of the control cam ( 31 ) is located on the side facing the trip unit ( 35 ). 6. Trip unit according to one of the preceding claims, characterized in that the recess ( 32 ) of the control cam ( 31 ) has a ramp-shaped side ( 33 ) on which, when the switch is turned on, the end ( 2 ) of the arm ( 1 b) of the tensioning lever ( 1 ) slides along and can thereby be pressed into a recess ( 27 ) located in the housing cover ( 8 ). 7. Trip unit according to claim 6 and 7, characterized in that the narrow side facing the trip unit ( 35 ) of the control cam ( 31 ) has turned the tensioning lever ( 1 ) so far when the switch is turned on that the tensioning lever ( 1 ) releases the release lever ( 12 ) gives. 8. Tripping unit according to one of the preceding claims, characterized in that with the control cam ( 31 ) cooperating arm ( 1 b) of the clamping lever ( 1 ) has at its end a plunger ( 2 ) which in the recess ( 32 ) of the control cam ( 31 ) engages. 9. Tripping unit according to one of the preceding claims, characterized in that the arm ( 1 b) of the tensioning lever ( 1 ) cooperating with the control cam ( 31 ) is pressurized by a spring ( 5 ) such that the arm ( 1 b) of the tensioning lever ( 1 ) is pushed out of the housing cover ( 8 ). 10. Trip unit according to one of the preceding claims, characterized in that the with the control cam ( 31 ) cooperating arm ( 1 b) of the clamping lever ( 1 ) at its end on the side of the housing cover ( 8 ) facing a holder ( 4 ), in particular has a cam for receiving the compression spring ( 5 ). 11. Tripping unit according to one of the preceding claims, characterized in that the arm ( 1 a) of the tensioning lever ( 1 ) is arcuate and on the inside of the arc has an effective surface ( 3 ) which cooperates with the release lever ( 12 ). 12. Release unit according to one of the preceding claims, characterized in that the effective surface ( 3 ) of the arm ( 1 a) of the clamping lever ( 1 ) is shaped such that during the rotary movement when the switch is turned off, the release lever ( 12 ) is pressurized in such a way that the release lever ( 12 ) is pivoted about its axis of rotation ( 13 ) in the direction of the release plunger ( 20 ) and presses the release plunger ( 20 ) fully into the magnetic storage housing ( 21 ). 13. Release unit according to one of the preceding claims, characterized in that the release lever ( 12 ) is a double lever arm, the connecting web ( 13 ) of the two lever arms ( 14 , 18 ) being the axis of rotation ( 13 ) of the release lever ( 12 ). 14. Release unit according to claim 13, characterized in that the arm ( 18 ) of the release lever ( 12 ) at its end facing away from the connecting web ( 13 ) has a cam ( 17 ) with the effective surface ( 3 ) of the tensioning lever arm ( 1 a) cooperates. 15. Trigger unit according to one of the preceding claims, characterized in that the arm ( 14 ) of the trigger lever ( 12 ) has a surface which is preferably designed as a cam and cooperates with the trigger plunger ( 20 ). 16. Tripping unit according to one of the preceding claims, characterized in that the arm ( 14 ) of the trigger lever ( 12 ) on its end facing away from the connecting web ( 13 ) has a surface ( 15 ) which cooperates with the switch-off protection mechanism of the switch. 17. Tripping unit according to one of the preceding claims, characterized in that the axis of rotation ( 7 ) of the tensioning lever ( 1 ) and the axis of rotation ( 13 ) of the release lever ( 12 ) are parallel to each other. 18. Tripping unit according to one of the preceding claims, characterized in that the longitudinal axis of the clamping lever and the longitudinal axis of the magnetic storage system ( 20 , 21 ) are substantially parallel to one another.