DE839380C - Multipole circuit breaker with pressure contacts - Google Patents

Description

Multipole circuit breaker with pressure contacts For three-phase current up to 500 volts a double current interruption per pole has the great advantage that the Interrupting arcs can only exist during a current half-wave, because a re-ignition in the next half-wave can only take place under special circumstances can.

Furthermore, silver pressure contacts have excellent results because they are free from oxides proven and there are already different designs for switches finite such pressure contacts available.

If it succeeds, the dynamic one with higher cut-off currents To prevent expansion of the light-nails into loops, which tend to short-circuit the poles and large blow chambers, but the still short arcs for the time to hold a current half-wave between the contacts, so could switches with very small dimensions can be built. It still manages to make such switches very flat to design and to provide front-wheel drive, one could do the same immediately install in busbar boxes and the additions would be avoided, which is considerable Would save space and costs. In the known switches with double interruption the good guidance of the contact bridges was difficult per pole, which problem with the The flat construction described below is also solved in the simplest way.

According to the invention (Fig. I to 3) the current bridges i between two insulating slides a, one on top of the other, between the stop bolts 3 and spacer bolts 4 mounted and in grooves 5 of the stacked together with the contact blocks 6 Pole partition walls 7 guided and by a drive that @in or on the lower partition or. End wall 8 is mounted, actuated. Of the Drive can e.g. B. off a crank 9 with sliders io exist, which are located directly on the lower end faces the slide 2 drag and in the switched-on position on one side against the Support the insulating wall 8 if the dead zone is exceeded. All contact blocks 6 are together with the partitions 7 or the drive bearing 8 and the above Forcing springs i i and the mounting bracket 12 by means of the isolated clamping bolts i3 and nuts 14 held together. The contact blocks consisting of a U-profile 6 allow 1> eliabigen connection from the front, side or underside, see above that the switch is attached directly to the busbars 15 at the connection surfaces can be.

The energy of an electric arc in a switching chamber, which is at 500 volts Alternating current and double interruption per pole for a maximum of half a period can be emitted, since the Lichtlx> gen goes out in the current zero value and not again Re-igniting becomes inevitable as a loss at the base of the arc resulting heat converted, whereby the voltage drop is about 25 volts. the The resulting heat causes the electrodes to burn off. Will the arc blown lengthways, then correspondingly more heat is generated, but in the Chamber should be reduced as possible and therefore requires cooling surfaces and space.

In contrast to this, according to the invention, the losses should occur Keeping the arcs short can largely be avoided, and to keep these arcs in a narrow chamber from the contact points and in suitable places it is according to the invention to establish where a fire of metal is of lesser importance the electrodes are shaped so that the arcs do not come out of the chamber, but be drawn into the same, with the chamber inside the U-shaped Training of the contact blocks 6 lying space should be understood. By the Current bridge i -in .the switch-off position symmetrically encompassing contact blocks 6 becomes the current loop that forms when it is switched off, which, as is well known, always forms seeks to expand, driven into the chamber, d. H. the arcs have that Endeavor to start at the front sides on the left and right of the bridge. The same thing would be seen for reasons of symmetry, if the arc beyond it would start on the other horn of the encompassing electrode. The arc would then go back to the line of symmetry, provided that too the developing gas pressure surrounding the arc is symmetrical, which is only applies with perfect symmetry of the whole switch. Inequalities, e.g. B. by the magnetic field rear connection @ bolts can be created by appropriate Flow resistances are partially compensated. By keeping the arcs short there will also be a shortening and distortion of the last current half-wave and thus Overvoltages avoided. More or less closed chambers can through accordingly wide guide strips 2 can be achieved.

If necessary, the switch, which is symmetrical on all sides, can be used by means of the upper bracket 12 and at the fastening holes in the lower cover plate 8 can be attached to a base plate.

Obviously the switch has no dead spaces, simple smooth parts and very small Alb dimensions. A switch for 500 volts and 500 amperes is about 170 mm high, i io wide and only 40 mm thick. Manufacture is extremely simple, does not require accuracy, and complicated press parts are not required. The type of mechanical drive required is particularly small, so that the progress sought has been achieved in several respects.

Claims (3)

PATENT CLAIMS: i. Multipole circuit breaker with pressure contacts, characterized in that the floors are arranged one above the other in chambers Current bridges are stored between two insulating slides, which are in the with the as Contact blocks formed fixed contacts stacked together pole separation; or. Guided top walls and by a drive mounted in or on a top wall be moved. 2. Multi-pole circuit breaker according to claim i, characterized in that that the movable current bridges are encompassed by the contact blocks in a U-shape and the connection can be made on three sides of the contact blocks. 3. Multipole switch according to claim i and 2, characterized in that the insulating slides at the same time the side covers of the U-shaped formations of the contact blocks Form enclosed spaces of the switching chambers.