SU1174992A1 - Interrupting contacts assembly - Google Patents

Abstract

KNOT OF BREAKING CONTACTS with two consecutive breaks in the circuit, containing two fixed contacts, a moving contact bridge with two contacts and contact pads fixed to fixed contacts and contacts of the contact bridge, characterized in that, in order to save contact material, contact pads installed from one of the gaps, not less than 1.2 times as large as the mass of the contact material of the lining, installed on the side of the second gap, and the contact system is organized in such a way the position of the movable contact bridge, corresponding to the moment of contact pads at the contact mass, between a & there is a gap in the contact pads of a larger mass. W N g with to

Description

The invention relates to the field of electrical equipment and can be used in the development and modernization of relays, magnetic starters and other low-voltage switching equipment for controlling electric drives.

Known contact nodes with bridge-type contacts, creating two consecutive discontinuities in a switched circuit.

Such nodes consist of two fixed contacts and one moving contact bridge with two contacts fixed on an element of the moving system of the switching device, for example, a traverse, by means of which the contacts are closed and opened. Contacts can be made entirely from the same material or composite: the base of the contact is made of structural material (s) and only the working part (contact pad) is made of a special contact material, such as silver, which allows for a more rational expend expensive contact material 1 and 2.

A disadvantage of contact points with bridge contacts and two open circuits is the relatively high consumption of contact material. However, bridge-type contact nodes have a number of technological and design advantages over other types of contact nodes, which makes it possible to obtain a very compact design of the apparatus.

The closest to the invention is a bridge-type contact assembly with contact plates comprising stationary contacts with contact plates fixed to them made of contact material, for example silver, a contact bridge with contact plates, an element of the moving system of the switching device (traverse) on which and by means of which the contact bridge is moved. When adjusting the contact nodes, it usually tends to simultaneously close (open) both contact pairs. Contact details in a known design of the same type. Thus, in the known construction, the contact parts mounted on the side of one and the second chain break contain approximately the same mass of contact material. During the node operation (control circuit contacts are calculated for a resource of the order of 1 million or more switching cycles of load currents) switching wear of contact-piece pairs occurs, and the life of the node as a whole is determined by the wear resistance of the more intensively worn contact pair 3.

A disadvantage of the known contact assembly is the relatively high consumption of silver.

The aim of the invention is to save contact material.

This goal is achieved by the fact that in an assembly of discontinuous contacts with two consecutive open circuits containing two stationary contacts, a movable contact bridge with two contacts and contact pads fixed to fixed contacts and contacts of the contact bridge, contact pads installed on the side of one of the discontinuities, not less than 1.2 times as much as the mass of the contact material of the lining, installed on the side of the second break, and the contact system is organized so that in the position of the movable to There is a gap in the contact bridge, which corresponds to the moment when the contact pads of a smaller mass touch the larger contact pads.

Thus, a notorious asymmetry is observed in the contact node of the Quals sys- tem - non-simultaneity of touching the sides of the bridge and different contents of the contact material in the contact pairs, which makes it possible to eliminate the usually occurring uncertainty (randomness) of the appearance of the contact pair that wears out 5

An analysis of the test results of the relays and auxiliary contacts of the magnetic starters shows that when there is an initial opening time of more than 0.2 mm, the losses of the contact material on the series-connected contact pairs differ by no less than 1.2 times.

The introduction of a known asymmetry into the contact node therefore makes it possible to reduce the consumption of contact material in one of two successively included contact pairs by at least 1.2 times.

The drawing shows one of the possible variants of the proposed contact node.

Ruzel contains fixed contacts 1

and 2 with contact plates 3 and 4, contact bridge 5 with contact plates 6 and 7 resting on a plane beveled at a certain angle a with respect to the contact line of the contacts in the window of the crosspiece 8, to which the bridge is pressed by the contact spring -7 used contacts with the content of contact material less than in contact pair 3-6. Different silver content can be achieved, for example, by using bimetallic contacts with different thickness of the working layer.

Contact node works as follows.

When moving the crosspiece 8 downwards, the contact pairs are closed in the following order; 4-7, then 3-6. When the yoke 8 is moved upwards, the contact pair 3-6 with the increased content of the contact material opens, the further movement of the yoke causes the contact pair 4-7 to open. Due to the shorter arc duration and arc energy of erosion, the second contact pair is less intense and the wear resistance of both contact pairs is close, despite the difference in the amount of contact material. Thus, if the usual contact nodes with bridged contacts in both contact pairs use the same contact with a maximum content of contact material designed to achieve a given resource in terms of acceptable non-simultaneity of contact, then in the proposed contact node one of the contact pairs contains lightweight contacts, the reduction of the total content of the contact material in the node is achieved. There are other options for the proposed contact node. For example, instead of beveling the crosshead to obtain the required contact difference between contact pairs in travel systems, it is possible to use different contact height, mutual displacement of fixed contacts, etc. In systems with more complex kinematics, the difference in the paths of the bridge sides can also be used. Experimental verification has shown that the use of the proposed contact assembly allows maintaining the co-switching resistance of the relay at the same level with decreasing silver consumption. Thus, when testing a design sample of a relay, one contact pair contained 0.33 g of silver, the second 0.1 g of silver. With non-simultaneous contact of 1.2 + 0.3 mm, the switching wear resistance of such contact nodes amounted to 6 million cycles, which corresponds to the wear resistance of the same relay in the usual design of the contact node with silver content in both pairs of 0.33 g. In the four-contact RPU relay -3 there are four similar contact nodes with a silver content of 1.973 g. Using the invention in this relay will help reduce the silver content in the product by 1.4 g, which, if you release 70 thousand pieces per year, will save 98 kg of silver. The total economic effect when implementing the invention in other types of relays and in block contact starters and contactors will amount to 1 million rubles.

Claims (1)

DISCONNECTING CONTACT NODE with two consecutive open circuits, comprising two fixed contacts, a movable contact bridge with two contacts and contact pads fixed to the fixed contacts and contacts of the contact bridge, characterized in that, in order to save contact material, contact pads mounted on the side one of the gaps, not less than 1.2 times the mass of the contact material overlays installed on the side of the second gap, and the contact system is organized so that in There is a gap between _the contact pads of the larger mass 5S when the movable contact bridge corresponds to the moment the contact pads of the smaller mass touch. SU. „. 1174992