DE480802C - Switching contact arranged between two insulating walls - Google Patents

Description

Switching contact arranged between two insulating walls It is known the arc created when contacts are opened by a magnetic fan (Blowing coil) very quickly to extinguish by the arc between Horns is blown out. In most cases, the contacts are in so-called Built-in spark chambers made of insulating material. But there occurs the A disadvantage is that when the arc is transverse to that desired by the blower field Direction of the arc after heating the side insulating wall makes it conductive and then jumps over this to the other contact and thereby the insulating wall burns or destroys.

In order to avoid this disadvantage, it has already been suggested to place the switch contacts between two pole plates of the blower coil in such a way that that the pole plates do not extend over the point at which the switching arc forms.

For horn lightning arresters that are not arranged between insulating walls it has already become known to cause the arc to rise support that near the point intended to form the arc paramagnetic bodies are arranged that are neither permanently magnetic nor by a special winding are magnetized. To the deviation of the on tear-off horns to prevent wandering disconnection arc to one side or the other, it has also been suggested that the contacts in the sense of the desired direction of migration to subdivide the cut-off arc in such a way that the inherent magnetic field of the the breakaway horns through which the current flows force the cut-off arc into the dividing slots leads along.

The essence of the invention consists in the amplification known per se the self-blowing flow in connection with a special design of this self-blowing flow to prevent the arc from standing crosswise and from attaching to it surrounding insulating side walls to use. A division of contacts whose Butt joints can only be maintained in the company with laborious maintenance, since the arc tries to weld them together, they can therefore be omitted.

The subject of the invention is formed between two insulating walls arranged switching contact, = whose characteristic is that in the vicinity of the Contact pieces or on these even for each contact piece special magnetically conductive Parts are arranged in such a way that their longitudinal direction is parallel to the opening direction of the contact pieces and their originating from the field of the current-carrying contacts Self-blowing flow increases the self-blowing effect of the arc.

A special blow coil therefore does not need to be arranged. To further increase the blow flow at the switch contact can but also the switching contact formed according to the invention between magnetic poles arrange a blowing coil. The longitudinal axes of the magnetically conductive Parts are parallel to the opening direction or at an angle to this. Through this the advantage is achieved that the number of ampere-turns generating the Fremdblasfluss can be reduced by the ampere-turns corresponding to the self-blowing flow, the blowing effect remains the same as before the introduction of the magnetic conductive parts in the foreign blown flow. So it can through the invention ampere turns can be saved with the same arc blowing effect. By the fact that the Fremdblasfluss is drawn into the magnetic side panels is a correct course of the Blowing flow (see the figures) ensures that the arc is crossed prevented. -The effect can be further enhanced by the special arrangement and design of the magnetically conductive parts are increased. So these can be on both sides of the contact pieces be arranged and protrude with their ends over the contact pieces so that they thereby forming a channel or trough with part of the contact surface. Conclude z. B. to the contact pieces tear-off horns, it is useful to use the the contact pieces protruding ends of the magnetically conductive parts like a wing to form, in such a way that a boundary line of the wings to a conductive surface connected to part of the contact surface, e.g. B. the tear-off horns, can create, but the other leads bent like a horn to the conductive surface. This creates a channel or trough for guiding the arc formed and the arc continued when it jumped out of this groove is, through the horn-like boundary line of the wings back to the conductive Area, e.g. B. the Abreißhomes returned.

Exemplary embodiments of the invention are shown in the figures. The switching contact is formed from contact pieces ii and 12 which have conductive parts 13, = 4 parallel to their opening direction. The arrangement is built into a spark chamber, which is represented by the lateral insulating walls 15, 16.

In Fig. I the 'magnetically conductive parts 13, 14 are in the vicinity of the contact pieces ii, i2, in Fig. 2 arranged on the contact pieces themselves or fastened by screws or rivets i7. The contact pieces are for example extended by tear-off horns 18, ig.

Figs. 3 and 4 show the arrangement of the corresponding to Figs. I and 2 Switching contact, which lies between the magnetic poles 2o, 21 of a blowing coil 22. the Formation of part of the blown flow between the magnetic poles 2o, 21 is dotted shown.

Grab in Fig. 5. the magnetically conductive parts 13, 14 still over the opening path over to the other contact piece.

Fig. 6 shows a side view of Fig. 2, with the magnetically conductive Parts 13, 14 are wing-like and the lower boundary line 23 of the The wing rests against the contact surface of the tear-off horns 18, its other boundary line 24 but bent like a horn to the contact surface z5 of the tear-off horns 18, ig leads.

In Fig. 7 and 8 cross-sections are shown perpendicular to the planes of Fig. 2 and 6, whereby according to Fig. 7 the magnetically conductive parts 13 and 14 are attached to both sides of the contact ix and iz protruding ends 26 form a trough or channel 27.

According to Fig. 8, the magnetically conductive parts are bent in a U-shape and surround the contact piece ii or 12. It is also possible to move the contact pieces in the magnetically conductive parts 13 or 14 according to Fig. 7 and 8 so that the burrs formed on the contact pieces by the repeated switching are sheared off. The burrs lie against the magnetically conductive side parts and form tips that also protrude laterally and unnecessarily deflect the arc to the side.

Furthermore, the contact piece 12, as shown in Fig. 8, by means of a screw 28 replaceable in the U-shaped magnetic part 14.

The arrangement according to the invention acts in the following way Switching contact is opened, so the arc is caused by the magnetically conductive parts 13 or 14 drawn in the channel 27 between the magnetically conductive parts 13, 14 and after leaving the contact pieces on the horns 18, ig brought to tear off. A transverse setting of the arc is possible if there is no extraneous blow through the Magnetically conductive side parts alone, but through when there is a blown flow the correct course of the lines of force between the magnetically conductive parts is effective prevented.

Claims (7)

PATENT CLAIMS: i. Switching contact arranged between two insulating walls, characterized in that special magnetically conductive parts are arranged in the vicinity of the contact pieces or on them themselves for each contact piece in such a way that their longitudinal direction runs parallel to the opening direction of the contact pieces and their self-blowing flow resulting from the field of the current-carrying contacts creates the self-blowing effect of the arc reinforced. - 2. Switching contact according to claim z, characterized in that it is between the magnetic poles of a blowing coil is arranged. 3. Switching contact according to claim r and 2, characterized in that that the magnetically conductive parts are arranged on both sides of the contact pieces are and protrude with their ends so far beyond the contact surface that this Form a channel or trough with part of the contact surface. q .. Switch contact according to claim = to 3, characterized in that the protruding over the contact pieces Ends of the magnetically conductive parts are designed like wings, in such a way, that a boundary line of the wings is at one with part of the contact surface connected conductive surface can create, but the other curved like a horn this leads. 5. Switching contact according to claim z to q., Characterized in that that the contact piece is movably arranged in the magnetically conductive parts, around the ridges formed on the edges of the contact pieces by the repeated switching shear off. 6. switching contact according to claim z to 5, characterized @ that the magnetically conductive side parts of a contact piece are connected to one another are e.g. B. U-shaped bent surround the contact pieces. 7. Switching contact according to claim x to 6, characterized in that the contact pieces are interchangeable in the connecting piece the side panels, e.g. B. are arranged in the U-shaped curved side part.