DE1130507B - Two or three pole circuit breaker - Google Patents

Description

Two- or three-pole circuit breakers Multipole circuit breakers exist mostly composed of switches for single-pole disconnection, which are only in one common housing are housed. The switching mechanisms of the individual units are coupled to one another, and there is a common control element for all units available, with which simultaneous manual switching on and off can be carried out. The switch units are also connected by a clutch lever that is used to mutual triggering of the individual mechanisms is used, d. H. of the other mechanisms triggers when a mechanism is triggered as a result of an overcurrent or short circuit Has.

The use of such multi-pole switches is opposed to the fact that they as far as their dimensions and other technical properties for installation are suitable in meter panels, considerably more complex than three comparable single-pole ones Switches are. The higher effort is particularly due to the fact that to summarize of three single pole switches, their mechanisms each between two circuit boards are stored, the clutch levers mentioned are required, which very carefully need to be adjusted. The use of straight through axes is difficult, because then their storage is statically overdetermined, so that easily jamming or other disturbances can occur.

Although switches are now known in which these difficulties are avoided, but there are other disadvantages. At these switches, the arc chambers covered by a base plate of the mechanism in their base part contain and trigger organs for each pole as well as two supporting the entire mechanism Owning circuit boards is disadvantageous; that the plates supporting the mechanism are vertical are arranged to the plane of division of the individual poles. This results in a proportionate unfavorable space utilization, because for controlling the individual contacts and for actuation The latching mechanism requires the forces to go in a different direction divert, which requires a relatively complex mechanism.

The invention, the one of the last mentioned switch in the basic structure the corresponding two- or three-pole circuit breaker is intended for the purpose of the cited Eliminate deficiencies in this switch. You achieve this according to the invention by that the perpendicular to the base plate parallel to the plane of division of the individual poles arranged two boards the switch room located above the base Divide into three sub-spaces of approximately the same size, with those in the outer sub-spaces arranged trigger elements of the two outer poles on protruding through the boards act on free ends of the shafts controlled by the switching mechanism. As a switching mechanism serves only the mechanism of a single pole, switch, which is between the two Boards is arranged. Just like the trigger organs of the outer poles on one over the sinkers acting wave protruding, the contact arrangements are the outer poles controlled by another wave protruding beyond the sinkers.

The invention is based on an exemplary embodiment with reference to the drawing explained in more detail.

Fig.1 shows a schematic representation of the switch structure, while 2 shows the basic structure of a mechanism arranged between the plates reproduces; in Fig. 3 is a view of the arranged in the outer sub-spaces Switch parts shown.

The switch according to the exemplary embodiment consists of a base 1 (FIG. 1) which contains three arc chambers 2, 3 and 4 which are only indicated and are arranged next to one another. The arc chambers are covered by an insulating plate 5. A housing cap 6 is placed on the switch base and encloses a switch space 7 located above the arc chambers. The switching mechanism, which is not shown and is carried by two circuit boards 8, 9, is arranged in the switch room 7. The circuit boards are arranged in such a way that they divide the switch room into three sub-rooms 10, 11 and 12 of approximately the same size. The contact arrangements arranged in the arc chambers and not shown in FIG. 1, of which there is one in each arc chamber 2 to 4, are controlled by only one switching mechanism, which is arranged in the central compartment 11 between the two circuit boards 8 and 9. The switching mechanism acts on two shafts 13, 14 mounted in the plates and can be operated by a manual control element 15. The shafts 13, 14 protrude with their two ends over the sinkers 8; 9 out into the sub-spaces 10, 12, where they control the contact arrangements of the arcing chambers 2 and 4.

The control of the shafts by the switching mechanism and by the The tripping elements of the three poles can be seen in FIGS. 2 and 3. The switching mechanism consists of the lever system 16, which is attached to the manual control element 15, a pawl 17 and a contact lever 18 for the contact arrangement accommodated in the arc chamber 3 19 attacks. The contact lever 18 is attached to the shaft 14, while the latch lever 17 is supported on the shaft 13, which is half-wave-shaped in this part. The trigger elements for the contact 19 consist of a magnetic trigger device 20 and a thermal release device 21. The magnetic and thermal Trip device are in a manner not shown by the switch affects flowing current. Both stand with one attached to the shaft 13 Lever 22 in a non-positive connection. Another acts on the contact lever 18 Switch-off spring 23 on.

Because the switching mechanism is only available once, the external Rooms 10, 12 only accommodate the triggering devices for the respective contact arrangements. 3 shows, for example, the release elements arranged in subspace 10. With the shaft 14 is again connected to a contact lever 18 a, which is in the arc chamber 2 arranged contact 19 a actuated. All that remains is a magnetic release mechanism 20 a and a thermal release device 21 a available, both on one with the shaft 13 connected lever 22 a act.

The arrangement according to the invention thus creates a switch which enables three-pole disconnection with favorable space utilization. Through the However, storage of the switching mechanism in only two circuit boards does not only require installation space but, above all, there are significant savings in material and assembly time achieved. The two circuit boards of the switch can be used in the three-pole version, if they are made of metal, are advantageously arranged so that the between The space they create is somewhat larger than the outside space, because that for both of them outer pole available spaces, which are limited on one side by the insulating cover can be better used in terms of the creepage clearances to be maintained will.

In the case of switches with a two-pole design, the circuit boards are expediently arranged in such a way that the space between them takes one half of the switch housing e. The shafts for the trigger elements and the contact levers then only protrude beyond the boards on one side. Of course, the arrangement according to the invention can also easily be used for switches that have more than three poles. It is also not tied to the switching mechanism described, but can also be used with other mechanisms.

Claims (4)

PATENT CLAIMS: 1. Two or three pole circuit breaker with one the base part containing the arc chambers, which is passed through the base plate of the switching mechanism is covered, and tripping devices for each pole as well as two the entire switching mechanism supporting boards, characterized in that the perpendicular to the base plate parallel to the plane of division of the individual poles arranged two boards above the Divide the switch room located on the base into three sub-rooms of roughly the same size and the trigger organs of the two outer ones, which are arranged in the outer sub-spaces Poles on free ends of the switching mechanism protruding through the circuit boards controlled waves act. 2. Two-pole circuit breaker with one the arc chambers containing base part, which is covered by the base plate of the switching mechanism is, according to claim 1, characterized in that the circuit boards are so in the switch housing are arranged that the space between them is about one half of the forms the switch room located above the base plate. 3. Auto switch after Claim 1 and 2, characterized in that only the movable contacts actuating shaft and the one latching the switching mechanism for the release elements each pole an actuating lever bearing shaft formed as continuous shafts are. 4. Automatic switch according to claim 1 to 3, characterized in that the switching mechanism is only formed by the mechanism of a single pole switch, which is between the two boards is arranged. Publications considered: German Patent Nos. 910 083, 883 469; German interpretative document No. 1070 731.