DE533351C - Multipole switch - Google Patents

Description

When switching devices for medium voltages offers coping with the electrodynamic Forces that act on the contacts in the. withdrawing Senses work, great constructive difficulties. Especially with three-pole switchgear, z. B. oil switches, all construction elements such as S chatter tr aver sen, Tie rods, shafts and drive parts, the ίο high loads when switching on be dimensioned accordingly. It is known that the contacts in single-pole oil switches to cushion the load-bearing current bridge against the switching rod and to form the contacts themselves firmly on the current bridge. In the case of multi-pole oil switches, the normal further development of this design would then be used cushion the current bridges of each pole on the traverse separately. Man has also already connected the individual power bridges with a cross bar (traverse), which is moved by the shift linkage, but always those associated with the individual poles Contacts cushioned for themselves. When using block contacts it is for example It is necessary to equip them with strong springs to avoid the risk of contact separation is reduced by the electrodynamic forces exerted by the preload on the springs. The taking off Effect also occurs on the current bridges or on the traverse, so that the high switch-on torques on these acting forces together with the forces on the contacts require. The separate suspension of the individual contacts or current bridges in a three-pole switch has also the disadvantage that all springs correspond to the maximum for asymmetrical Load occurring forces are to be dimensioned equally strong, nevertheless with a three-phase short circuit the maximum of the asymmetrical Short-circuit current occurs only in one phase, so only the contact point in one phase is equipped with springs needs to be the one for the resulting contract-withdrawing forces are sized. This results in high switch-on torques. As a result, must too the switch drive linkage are made correspondingly heavy, so that the switch receives great weight and very becomes expensive. It is also a large number of springs required, individually, accordingly the spacing of the mating contacts must be adjusted in order to achieve a perfect To achieve superimposed contacts.

According to the invention, these disadvantages are thereby eliminated in the case of a multi-pole oil switch avoided that the traverse itself with the rigidly attached current bridges and Contacts in the drive linkage is mounted in springs, the electrodynamic lifting forces counteract the contacts and the current bridges when switching on ^ The number of springs is thus reduced to the least possible. Consequently

the switch-on torque is also reduced, and therefore the entire drive linkage can be held more easily.

In the drawing, an embodiment of the invention is shown in Fig. Ι and 2 in longitudinal and cross-section. With α the switch traverse of a three-pole oil switch with the rigidly attached contacts h is referred to. The switch traverse is with their

ίο ends stored in recesses of the tie rods c with the interposition of compression springs d . The truss ends lie on thrust pieces e to possess d guide rods i for the compression springs, f are in the frame g sliding carriage, to support the compression springs against and which can be by the set screws h for regulating the spring pressure arbitrarily adjusted. The main contacts are set in a known manner by means of adjusting nuts.

The arrangement according to the invention is applicable to switches of any type of contact, z. B. block, cone, pin, tulip, finger contacts, etc.

Claims (3)

Patent claims: ι. Multipole oil switch with contacts attached to the switch traverse for many. Phases, characterized in that all the contacts on the traverse are rigid and that the traverse is mounted in springs in the drive linkage, the electrodynamic lifting forces counteract the moving contacts and the crossbeam when switching on. 2. Multipole oil switch according to claim i, characterized in that the Traverse springs are adjustable. 3. Multipole oil switch according to claim 2, characterized in that the the rigid switch contacts supporting traverse with their ends in recesses the tie rods are mounted on compression springs, the lower ends of which rest on a slide that is secured by adjusting screws can be adjusted to adjust the spring pressure can. 1 sheet of drawings