CS226755B1 - Contact device for low-voltage vacuum contactors - Google Patents

Abstract

A l.v. contact breaker is such that the metal vapour normally produced in the gap between the two contacts is considerably reduced. The metal vapour is again deposited on the contact surface. The switching chamber is evacuated and the lifespan of the contact elements is considerably increased. The unit is incorporated in motor switching circuits etc. The two switch contacts (3, 4) are shaped and mesh in the conventional pot shape. The front sides of the two contact elements which actually engage are made from one type of material and the cylindrical walls (5, 6) of a different type of material to favour condensation on latter.

Description

The invention also relates to a contact device for low-voltage vacuum contactors for up to 630 A, both of which are coaxial in the form of hollow cylindrical hollow cylinders, the outer diameter of the first cup being less than the inner diameter of the inner cup and the outer surface. The bottom cup of the first cup has one contact surface and the inside surface of the bottom cup of the second cup has a second contact surface and which is open to open the contacts. The handle is adapted to be displaceable in axial direction by switching stroke and contact surfaces. The first cup comprises a stroke consisting of a different metal, both of which are spaced apart and spaced apart from one another and arranged in a cylindrical wall. *

Low Voltage ^P z- vacuum contactor reaches ^é ^ I of the ^Y with the ultimate feature ^Ké ^ N ^ ^C ontact vyiultí names ^due to the particularly advantageous properties of the specific electronic vacuum ^on the DBL-type to ^{a p} ccording ResceJ ^Th e vacuo switců part ^{| P} roc.I ^EE Ы0 ¹⁹⁶ 3 H ⁴ S. 793-802. This type A vacuum electric arc has, at the first approach, a cathode parallel foot point at the cathode, the number of which is proportional to the switching current, one conical discharge channel associated with each cathode foot point, and diffusing at the cathode without any contraction and thus no anode heel points are expressed. This results in only a very large opal of the cathode material and a slight gain on the anode mottnium, which significantly affects the service life of the contacts. The duration of a specific vacuum NLN ^the taicééUo

226 755

226 755 type A arc is determined in addition to the current size, in particular by selecting a suitable contact material, utilizing the maximum possible chamber pressure and sizing the contacts.

According to investigations, opal at the cathode or at the parallel cathode heel of a specific type A vacuum electric arc decreases with increasing pressure, see GDR patent 108 407 · From the perspective of longer life, it would be expedient to increase the contact gap pressure during the arc duration. However, known disk-shaped contact devices for low-voltage vacuum contactors are not suitable for this purpose.

Furthermore, is it important _? maintain parallel cathode foot points with their partial discharge cones between the two electrodes to completely prevent contact material vapor from escaping from the contact gap, or to reduce it to an acceptable degree so that much of the vaporized material is recovered for further switching and protected the insulating path of the vacuum switch body before forming the metal vapor layer. According to extensive investigations, approximately 50% of the contact material vaporized on the cathode escapes from the contact gap of the known disc contact device, which condenses on the screen or other internal surfaces of the switching chambers and is thereby lost for further switching processes, eventually leading to layer formation. to bypass the insulation path.

Contact devices are already known for high-voltage vacuum circuit-breakers which deviate from the conventional disc-shaped contact form. However, these contacts are suitable, according to their specific task of use, for vacuum switching chambers for switching short-circuit currents, i.e. currents greater than 5 кА, an electric arc in vacuum type B, in which a specific electric arc in vacuum type A no longer exists. The electric arc in the grip vacuum g g expressed by a single anode and cathode foot point, which is similar to an electric arc at high pressure, requires a different design and dimensioning of the contact device. In these currents and in this vacuum arc shape, it is essential to avoid the duration of the anode and cathode foot point or the arc column, to move it away from its own contact point, thereby maintaining the cut-off capability and avoiding excessive opal material k Failure to shut down а to re-ignite the arc due to excessive metal vapor density.

Thus, for example, contact devices are known, for example according to SU-pat. No. 19,659, in which the electric arc is driven from the place of origin, resp. the contact point, by the magnetic field from the cylinder that conically expands, into the closed cylinder and forced is rotated.

A similar purpose has the known device according to U.S. Pat. No. 3,356,818, in which the electric arc is driven from its own contact point by means not specified, and burns between contact walls, initially cylindrical and then cone-shaped and intervening.

The same applies to the contact device according to DD-A-96 801, which is suitable for switching off very large currents and in which, as a result of various measures, a forced arc type V arc has to burn between walls with two coaxially interposed cup contacts.

As a further improvement of this apparatus, according to DD-A-117,140 are known

226 755 provides a measure by which the electric arc is driven from the so-called nominal current region, which forms the bottom of the hip-shaped contact, two tanning regions lying between the cup walls.

The same purpose is provided by the DE-OS vacuum extinguishing chamber contact device

Also in this contact device intended for vacuum power switches, the two contacts are in the form of cylindrical or cylindrical pots. in the form of hollow cylinders, inserted, respectively. The outer diameter of the first pot is less than the inner diameter of the second pot and the median portion of the outer surface of the bottom of the first pot forms one contact surface and the central portion of the inner surface of the bottom of the second pot forms the second contact surface. On expanding the contacts while the first pot is shifted in the axial direction by the switching stroke, the concentrated B-type vacuum arc drives the loop outward from the contact gap and moves upwardly on the cylindrical pot walls to the edges of the pot. In order to achieve this desirable effect, the parts of the bottom of the pot forming the contact surface consist of a maternal other than the walls of the pot, which consist of a maternal which provides good properties for the movement of the electric arc.

But the device does not bring! bland solutions that would be useful idea · inventions oetot such devices are US-totóoa for the ^P Io ^and the very velech shortcircuiting, ^ here of limbs in which the electric arc is propelled by various means from Contaktoí slots and in which the pairs of contact mattriálu can spread in unacceptable extent, for a large number of switching operations ^and are more Rili ^s on ^KL and ^{d and} for which ^the VNA ^re tov ^к VA ^to UVV ^to stiykafo for before ^P of ^clade Aný range Prou ^halides and, can not achieve the desired životoossi or statements.! *! opatřžoí for considerably higher strength and a wallpaper statockou odklonuj ovvv ^{c e p s} Fire flow and ^would get OA oaf insulating track.

It is an object of the invention to increase the service life of the contacts as determining the service life of the entire vacuum contactor.

The task ^THE INVENTION It is higher, as ^the flow and it ^would tontakty bui ^t u ^{p p} r ^ tovový of tontoktoí gap far-reaching manner from ^ eetšl and vaporized to contact mat! saved again on and contacts.

This object is in contact cup-shaped zasahnuících mutually according to the invention in that the distance mmei two cylindrical walls of the two contacts is equal to or smaller than ^ i mmximáání switching zdvi ^H and ^Z e matoval for in-Hco ^ ^STEO and ^PR- The surface area is chosen such that the sympathy of its thermal conductivity and evaporation point is also greater at the contact surfaces, so that at a small switching stroke, the electric arc stress between the cylindrical walls is not only between the contact surfaces.

A further aspect of the invention is that the upper edge of the inner contact is folded over the edge of the outer contact and the cylindrical wall of the outer contact has a contact gap of a bulge for storing matt.

In another variant of the invention, the inner contact is in the form of a disc and a cylindrical wall surrounds the disc contact in a cup-like manner.

Dato ^is a todNé ^ ^y válooto walls of mattetolu sessáva.ií contact with favorable absorption ^Oos tm. ^P ro coupling ^to vvvv yc ^lp y ^p OAP as ^KL and ^an iron Fy ^d i ^{c u} l Fe-Ni.

226 755

The invention will now be explained in more detail and described by way of example with reference to the drawings. Fig. 1 shows the contact device in cross-section; Fig. 2 shows the curvature of the inner wall of the contact; Figs. 3 and 4 show the outer walls of the contact.

A contact 2 and a movable contact 6 are mounted on the electrodes X, 2 arranged in the vacuum body. In this case, the contacts 2, 4 are cup-shaped and have cylindrical and preferably parallel walls 2 '. interfere with each other. The bottom surfaces of the cup-shaped contacts 2 · 4 consist of an actual contact material, for example copper Cu, or a MoCu molybdenum-copper alloy, and a contact wall of a cheaper material having inferior vacuum arc properties, such as Fe iron or FeNi iron-nickel alloys, these materials also have good vapor condensation properties of the contact material. The cylindrical walls 26 are in the simplest form fixed to the disc surfaces of the contact bottom by sliding them onto these contacts and have a very small distance 7 which is equal to or less than the maximum switching stroke, preferably 1 to 3 mm. In general, the material for the cylindrical walls 26 and for the contact surfaces is chosen such that the product of the cylindrical wall 26 and the product of its thermal conductivity and evaporation point is greater than that of the contact surface material, so that at maximum switching stroke the arc voltage between the cylindrical walls 20 is greater than between the contact surfaces.

A further reduction in the output of material from a contact gap 8 is obtained when the upper edge of the inner cylindrical wall 6 is bent outwardly over the outer cylindrical wall 2 (Fig. 2), or if the cylindrical wall 2 of the outer fixed contact 2 bump 2 ⁱⁿ the contact gap 8 (Fig. 3). Lower movable contact £ may be disk-shaped and a cylindrical wall surrounds the fixed contact 2 is disk-shaped in the manner of a cup while creating a gap 10. The cylindrical wall 2 by ^E secured on the electrode of FIG. 4.

The contact device according to the invention, in comparison with the known and other use and other arc characteristics produced by the contact devices, achieves that the paralleling of the cathode heel points and hence the partial electric arcs remain in the narrow contact gap 8 and consequently of the increased pressure less opal occurs in the contact gap during the discharge. Further, a substantially smaller portion of the contact material vapor protrudes from the contact gap 8, and a substantial majority of them remain in the contact gap 8 and precipitate on _{and an} anode formed by one of the contacts 8, ^2θ may be recovered for further switching.

Due to the larger condensation surface, the contact material vapors condense more generally overall, thereby improving the insulation resistance of the switching path.

The contact device according to the invention is particularly suitable for low-voltage vacuum contactors for a rated output of up to 630 A. It is advantageous for its very long service life. Such vacuum contactors are mainly used for switching motors and similar appliances, requiring minimal maintenance without changing contacts and switching chamber.

Claims (5)

SUBJECT OF THE INVENTION A contact device for low voltage vacuum contactors in which both contacts are coaxial interlocking cups in the form of hollow cylinders, the outer diameter of the first cup being smaller than the inner diameter of the second cup and the outer surface of the bottom of the first cup forming a single contact surface and the inner bottom surface of the second cup 226 755 ' forms a second contact surface and in which, for opening the contacts, the first cup is displaceable axially by the switching stroke and the contact surfaces detachable from each other by shifting the first cup by the switching stroke consist of a metal other than the two spaced apart and opposed cylindrical walls »characterized in that the distance (7) between the two cylindrical walls (5, 6) of the two contacts (3, 4) is equal to or less than the maximum switching stroke and that the material for the cylindrical walls of the wall (5, 6), the product of its thermal conductivity and evaporation point is greater than that of the contact surfaces, so that at maximum switching stroke the electric arc voltage between the cylindrical walls (5, 6) is greater than between the contact surfaces. Contact device according to claim 1, characterized in that the upper edge of the internal contact is bent outwards. Contact device according to claim 1, characterized in that the cylindrical wall (5) of the external contact has a bulge (9) in the region of the contact gap (8). Contact device according to claim 1, characterized in that the internal contact is in the form of a disc and the cylindrical wall (5) surrounds the disc contact in the form of a cup. Contact device according to claim 1, characterized in that the cylindrical contact walls (5, 6) consist of a material with favorable conditions for the condensation of metal vapor, for example iron Fe or an iron-nickel alloy FeNi. 1 drawing 226 755