DE1951328A1 - Contactor - Google Patents

Description

Patent application "S c h a 1 t s c hü t z The switch-on power of Contactors are largely dependent on the capability of the devices, most of them to bring metallic contacts to close without bouncing. Upon impact The contact points on each other cause bouncing vibrations after the first contact lifting off again and thus opening of what was already closed when touched Circuit mostly at the moment of greatest current load, in the case of severe bruises in close succession over a more or less long period of time. .During-at Closing of low-voltage circuits is practically unlikely to result in arcing high-energy arcs, which are too strong thermal, arise when interrupted Load the contact pieces, bring their surfaces to melt and this can lead to welding of the contact pieces.

Attempts have been made to avoid contact bouncing through careful voting of effective forces to a minimum, what is clearly defined under Conditions is quite possible. In practice, however, this method does not work to the desired success, since the many influences act on the bouncing processes are partly of a highly variable nature. This is the impact speed of the contact pieces in the case of contactors with drive by alternating current magnets to a large extent from the accidental Phase position of the control current at the moment of switch-on depends on what to leads to very different switch-on speeds.

Furthermore, the magnet system should have both 85 and 110 gfo Control voltage work properly. These factors also influence the switch-on speed considerably, the mass of the movable contact pieces can be reduced when a Adapt the calculated optimal condition, but the low-bounce switching should also are retained with worn contacts with reduced mass. As another The springs required in the system play a major role. An exact adaptation to the calculated optimal values would be possible, but not economically justifiable.

Mainly because of the switch-on speed, which fluctuates greatly in practical operation, the coordination of funds and staff does not lead to the desired success. When they meet particularly unfavorable influencing factors, it can, in contrast to the desired purpose, there are resonance phenomena that result in particularly strong bouncing.

For these reasons, the present invention dispenses with to coordinate the many influencing factors especially, but one under all circumstances effective friction damping proposed to reduce the harmful bounce vibrations.

It is known per se to dampen vibrations through friction; object the invention is therefore a particularly advantageously designed friction damping arrangement, which is described in more detail with reference to Figures 1, 2 and 3: Fig. 1 shows one of the Contact arrangements of a contactor in partial section, Figure 2 the same arrangement in side view and FIG. 3 in plan view with the switching bridge 0 omitted 1 represents the movement to be set by the magnetic system of the contactor, not shown Switching bridge, which is in operative connection with the slide 2, is. The slide 2 is the carrier of the movable contact 3 with its contact pads 4 and 5.

6 and 7 are the Eontaktbeläge of the fixed contact pieces 8, 9. At the Position 10, the movable contact 3 finds its support in the slide 2. Thereby it is held by the sliding shoes 11, 12, which in turn over their as crooked Planes formed lugs 13, 14 the force of the contact compression spring 15 on the contact piece 3 transferred. The iontakt pressure spring 5 is supported at one end 16 against the slide 2 and with its other end against the also as crooked Planes formed lugs l-j, 18 of the sliding shoes 11, 12. Because the transmission forces between slide 2, contact pressure spring 1; and switching piece 3 through inclined planes are imparted, the result is forces that the sliding shoes 11, 12 against the sliding surfaces of the scraper.

When the contactor is switched on, the whole system initially moves ii from switching bridge 1, slide 2, sliding shoes 11, 12, contact pressure device 15 and Sc-retaining piece 3 in the direction of arrow 19 until the contact pads of the switching and touch contact pieces and close the circuit. Now the switching bridge moves to «generate contact pressure a little further in the same direction. At this Movement takes the contact piece 3 as well as the Jleitschuh 11, 12 no longer part, however the slide 2, which now executes a relative movement with respect to the sliding shoes.

This Relativbeweoung goes under friction between the slide 2 and the sliding blocks 11, 12, the size of which depends on the contact pressure and the coefficient of friction depends on the sliding materials. The contact piece 3, the form-fitting with the sliding shoes 11, 12 is effectively prevented from Perform oscillating movements. It is particularly advantageous that the any spring that is present to generate the contact pressure to generate the contact pressure is used and a special spring is unnecessary. In addition, the sliding blocks encapsulate the springs, which are located in the switch room of the contact arrangement, effectively counteract the effects of the switching fire. Likewise, the arrangement of the contact compression springs is below the Contact pieces of particular advantage, as they do not have a special space here that the Dimensions of the device would increase. Furthermore, the Arrangement to put the movable contact piece on a narrow support, there a Tilting of the same, which would otherwise be the result, due to the friction grip of the sliding shoes is prevented. This can change the width of the device and the length of the contact pieces are reduced, the contact pieces are lighter and also act as a result Opposite a tendency to frell.

One taken once in relation to the fixed contact pieces The position of the contact pieces is retained braked during the switching process, which is essential contributes to the uniform wear of the contact linings.

4. Claims

Claims (4)

Claims 1. Contactor with contact arrangements protected against bruising, characterized in that its movable contact pieces (3) via sliding shoes (11,12) are connected to their springs generating the contact pressure in such a way that the contact compression springs (15) via supports designed as inclined planes, the sliding shoes Press against the sliding surfaces of the slide (2). 2. Contactor according to claim 1, characterized in that the movable Switching pieces (3) are connected via inclined planes with sliding shoes (11,12) which in turn are under the action of the contact pressure spring (15), such that the Slide shoes under the effect of the contact pressure springs and due to the deflection of force be pressed against the sliding surfaces of the slide (2) by inclined planes. 3. Contactor according to claim 1 and 2, characterized in that the sliding shoes (11, 12) are provided with inclined planes, which the non-positive Connection with the contact piece (3) on the one hand and the Wontakt pressure spring (15) on the other produce. 4. Contactor according to claim 1 to 3, characterized in that the sliding shoes (11, 12) enclose the contact pressure spring like a sleeve. Blank page