DE3227482C2 - - Google Patents

Description

The invention relates to a vacuum switch contact arrangement with a Stromlei axially movable relative to each other terstä arranged pair of switching pieces, each one by a base body carried by the conductor bars per and an edge adjoining the basic body area formed bowl-shaped body and include their mutually facing sides switch contact surfaces point, the edge regions of the contact body with Columns of the same inclination with respect to the contact piece axes are provided so that there is current between them form conductors as elements of a coaxial excitation coil.

Vacuum switches with such contact arrangements are used for Opening and closing circuits in medium and high voltage networks. It should also in the case of switching large short-circuit currents the current flow between the contacts due to an axial magnetic field in the diffuse state be.  

A contact order of the required kind is through the DE 25 27 319 A1 known. In one of the described there Contact arrangements are the switching contact pieces by cup or cupped bodies formed with their open ones Pages are arranged facing each other, the Switch contact surfaces to interrupt the flowing current through the opposing circular ring surfaces of the Cup-shaped contact body are formed. In each of the Circumference of the cup-shaped contact bodies forming side walls are slots formed with respect to the switch contact surfaces inclined in opposite directions are or, in other words, with respect to the longitudinal axis the contact arrangement have the same inclination, so that the zwi between the respective slits formed winding sections have the same sense of turn, so that the Un break flowing in the individual winding sections Currents results in an axial magnetic field. In DE 25 27 319 A1 will work on how this contact arrangement works attributed that the magne generated in the one contact force has the tendency to generate when interrupted th arc in a circumferential direction over the ring-shaped mige contact surface to move that the circumferential direction opposite in which he is in the other contact created magnetic force to move the arc tet, in contrast to other known cup-shaped contacts ten, where the slots in the side walls in Lich inclined opposite directions of the longitudinal axis are, which causes the arc to quickly in Circumferential direction around the annular contact surface changes, as for example in etz, volume 102, 1981, page 1385.

An advantage of the contact known from DE 25 27 319 A1 arrangement is the high degree of symmetry of the scha len-shaped contacts generated magnetic field, whereby the Arc between the circular switch contact surfaces Chen is kept evenly in a diffuse state.  

Further in DE 24 43 141 B2 is a vacuum switch con described clock arrangement, in which on the conductor bars disc-shaped contact and electrode body over a to Generate one perpendicular to the surface of the electrode body Pers extending, axial magnetic field serving device tion are appropriate. This facility consists of the Conductor rods arranged radial spokes and themselves at the ends of each adjoining circular sector sections by the current to be switched off are fin and ver as part of a circumferential direction current turn. At the free ends, the annular sector-shaped sections approaches where the contact and electrode disks at a distance the annular sector-shaped sections are stored. Because of the perpendicular to the surface of the electrode The magnetic field is supposed to be the arc between the electric that of the switch. Between these Approaches and the next annular sector-shaped section there is a gap through which the through the individual circular sector-shaped sections ge formed turn parts is prevented. A similar approach order is also known from DE-OS 28 12 987.

The object of the invention is a vacuum switch Kon to create clock arrangement with the largest possible currents can be switched.

This object is solved by the features of claim 1.

The essence of the vacuum switch Kon invention The clock arrangement therefore consists of the combination of shit ben-shaped contact and electrode bodies with bowl-shaped gaps with the same inclination at their edge areas pointing contact body, through which a vacuum scarf ter contact arrangement is created in their current  switch-off ability the two known arrangements far surpasses.

A major advantage of the vacuum scarf according to the invention The contact arrangement consists in a synergistic approach interaction of the shell-shaped contact body and the Contact and electrode disc. As namely the invention underlying investigations and considerations are shown have, exists in the known cup-shaped switching one difficulty in that being under the influence of the axial magnetic field kept in a diffuse state Arc at higher currents tends to be radial following an increasing magnetic field strength individual base points on the bottom of the bowl-shaped switch to form piece body. But with every new base the bottom of the contact body will be the coaxial Current conductor forming the excitation coil in its edge area bridged once more and thereby the generation of the mag netfeldes continuously weakened, which is ultimately a contra arc and thus a failure of the switch has the consequence. The above synergistic effect now consists in that on the one hand through the contact and Electrode disk the formation of arc base points in the Inside the bowl-shaped body and thus a short close the formed between the inclined columns Conductor is prevented, and that on the other hand by the still completely from the current through which current flows conduct practically the same over the surface of the pane moderately distributed high intensity axial magnetic field is witnessed so that the functionality of the switch is maintained even at very high currents.

According to a particularly advantageous development of the Vacuum switch contact arrangement according to the invention is between the disc-shaped contact and electrode body and the base body of the shell-shaped contact piece Support body arranged. Such a support body may initially appear to be superfluous, since only in the on Edge areas of the bowl-shaped contact piece body  parts of the contact and electrode body forces between between the two switching elements, but not in the radially inner part of the contact and electrodes body where these are hollow. The particular benefit of such Rather, the support body lies in vibrations of the contact and to prevent electrode bodies from being true to their cause apparently in an interaction of one of eddy currents secondary generated in the contact and electrode bodies Magnetic field with the in the bowl-shaped contact body per generated primary axial magnetic field and to egg ner change of the mutual distance of the contact and electrode body of the two opposite one another Switch pieces and thus a spattering and welding of the can lead the same. Such vibrations who reliably prevented by the support body.

The support body is advantageously made of electrical poorly conductive material or from electrical insulation the material or through approximately radially arranged metal sheets made of magnetizable material.

Another advantageous development of the invention ß contact arrangement is that the disc-shaped Contact and electrode body one step in cross section has a shaped course, so that radially within the Randbe realm of the bowl-shaped contact piece body a raised Surface arises. In this way it becomes too when switching interrupting arc limited to an area in which the effect of the axial magnetic field is particularly large is.

Another particularly advantageous training of inventions Invention contact arrangement is that the schei ben-shaped contact and electrode body with preferably radially extending slots is provided, in particular that the disc-shaped contact and electrode body in individual segments is dissolved. In this way the Generation of a maximum current carrying capacity of the scarf effectively suppresses eddy currents.  

Finally, it can be provided that the basic body by preferably with the bowl-shaped contact body radially extending slots is provided, which also is useful for suppressing eddy currents.

The following are exemplary embodiments of the invention hand of the drawing explained.

Show it

Fig. 1 View of a pair of contact pieces with devices for generating an axial magnetic field.

Fig. 2 plan view of the lower of the two contact members of FIG. 1.

To FIG. 1: In a further non-illustrated vacuum switching vessel are two switching pieces 1, genübergestellt each other axially ge 2 and in detail the following structure:
The fixed round rod and conductor 3 carries a circular base plate 4 , which merges at its edge into an open flat hollow cylinder 5 . This creates a bowl-shaped body, in the wall of which gaps 8 are milled at regular intervals. These columns, twelve in number, have an inclination of 25 degrees with respect to the longitudinal axis of the contact piece. A current conductor 9 is formed between two columns as a section of a coaxial excitation coil.

On the winding sections there is a contact and electrode plate 7 . This disc can be seen in the sectional view on the switching element 2 . For their mechanical support, a central support body, not shown in FIG. 1, is provided made of an electrically poorly conductive or insulating material.

The thickness of the contact and electrode disc varies: in within the space delimited by the winding sections  it is larger than outside, so that a central sublime Surface arises.

The opposite switching piece 2 has the same structure as the fixed switching piece 1 except for its mobility, not shown; therefore there is no need for another description.

When the contact pieces are switched on, they touch the raised surfaces of the contact and electrode disks.

During a power interruption - as shown in Fig. 1 Darge and indicated by current arrows - the current flows from the movable lower conductor pin 8 in the unte ren bobbin. When leaving it is collected in the outer area of the lower contact and electrode disk and fed to the inner area. The charge carriers move in the form of a diffuse arc discharge towards the opposite contact and electrode disk from the switching surface side of this disk area.

The further current path leads via the central part and the edge part of the upper contact disk to the winding sections of the upper coil former. After the flow, the partial currents from the winding sections are received in a radially symmetrical manner by the base plate 4 of the upper contact 1 and then open into the upper conductor pin.

This relatively perfect symmetry of power supply and Current dissipation and the overlapping turns cuts in the hollow cylindrical shell wall result in a optimal formation of the axial magnetic field in the current-carrying state.

To FIG. 2: This figure shows in the plan view of the Kon clock and electrode area of the contacts shown in Figure 1 below the horizontal center line of the arrangement of the incorporated in the shell casing and partly in the base plate 4 fräßten column 8.. For their further clarification, a winding section and part of the base plate 4 have been broken out locally, so that the following winding section 9 can be seen better.

Above the horizontal center line, you can see the contact and electrode disks. To suppress eddy currents, it is provided with radial slots to the right of the vertical center line and, after the version to the left of the vertical center line, is broken up into individual sectors 10 .

Within the shell-shaped winding body below the horizontal center line, the centrally arranged support body 11, not shown in FIG. 1, can be seen.

Claims (9)

1. Vacuum switch contact arrangement with a relative to each other axially movable conductor bars ( 3 , 8 ) angeord Neten pair of switching pieces ( 1 , 2 ), each by one of the conductor bars ( 3 , 8 ) carried by ( 4 ) and a to the base body ( 4 ) connect the edge region ( 5 ) formed bowl-shaped body ( 4 , 5 ) and have switching contact surfaces on their mutually facing sides, the edge regions of the contact body with gaps ( 8 ) having the same inclination towards the contact piece axes are, so that between these each current conductors ( 9 ) form as elements of a co-axial excitation coil, characterized in that on the shell-shaped contact body ( 4 , 5 ) disc-shaped, protruding into the interior and at least partially covering, forming the switch contact surfaces Contact and electrode body ( 7 ) are arranged. 2. Contact arrangement according to claim 1, characterized in that between the disc-shaped contact and elec trode body ( 7 ) and the base body ( 4 ) of the schalenförmi gene switch body ( 4 , 5 ), a support body ( 11 ) is net angeord. 3. Contact arrangement according to claim 2, characterized in that the support body ( 11 ) consists of electrically poorly conductive material. 4. Contact arrangement according to claim 2, characterized in that the support body ( 11 ) consists of electrically insulating material. 5. Contact arrangement according to claim 2, characterized in that the support body ( 11 ) is formed by approximately radially arranged sheets of magnetizable material. 6. Contact arrangement according to one of claims 1 to 5, characterized in that the disc-shaped contact and electrode body ( 7 ) has a step-shaped profile in cross section, so that a raised surface is formed radially within the edge region ( 5 ) of the shell-shaped contact body. 7. Contact arrangement according to one of claims 1 to 6, characterized in that the disc-shaped contact and electrode body ( 7 ) is preferably provided with radially extending slots. 8. Contact arrangement according to one of claims 1 to 7, characterized in that the disc-shaped contact and electrode body ( 7 ) is broken down into individual segments ( 10 ). 9. Contact arrangement according to one of claims 1 to 8, characterized in that the base body ( 4 ) of the shell-shaped contact body ( 4 , 5 ) is provided with preferably radially extending slots.