DE3815805A1 - Vacuum switch - Google Patents

Abstract

In the case of a vacuum switch, drive elements (5, 6) are accelerated by a contact compression spring (4) during switching off. These drive elements (5, 6) knock the moving switching contact piece (12) into the switched-off position after a specific acceleration movement. In order to ensure reliable switching off, the separating speed of the contact pieces (11, 12) should be such that an opening movement of 1 mm is reached after at most 1.3 milliseconds. <IMAGE>

Description

The invention relates to a vacuum switch with at least one switching chamber, the insulating Zylin dergehäuse is closed by means of metal covers, which are penetrated by relatively movable, switching contact pieces carrying conductor stems, wherein a contact pressure spring is arranged between the movable conductor stem and a cooperating drive linkage over which the Einschaltkraft is transmitted at power and the drive linkage when switching off - after covering a certain be schleunigungsweges - the head stem increases abruptly with.

Such a switch comes from the Calor-Emag announcements gen, issue I / 1983, page 4, as known.  

To switch off high currents, radial field con beats used. It is indicated by suitable ordered slots in the contact body the own magnetic field of the flowing chamber stream so shaped that the contra arc after the contact separation around the Kon clock rotates. This distributes the Heizlei arc evenly on the contact piece.

However, the arc may not be released under certain circumstances from the location of the last metal bridge and melts it Contact piece strongly at this point. This can lead to Failure of the switch.

The object of the invention is now a high Switching power of the vacuum switch to steady.

It has been found that for the phenomenon of failure of the switch both when using radial and for axial field contact pieces the movement curve of the Switch contact piece directly after the contact separation (Start switch-off speed) of decisive importance interpretation is. After that, it is not enough for character sation of the vacuum switching drive the usual through cut-off speed, which is about measured between 5 and 95% of the contact piece opening becomes.

The invention therefore proposes a separation speed the contact pieces before, according to the latest after 1, 3 An opening path of at least 1 mm is enough.

Radial field contact has proven to be particularly favorable a contact piece separation speed of 2 m / s, which is reached after 0.8 milliseconds.  

The high initial acceleration of the moving contact piece comes through a mechanical pulse transmission conditions. Of importance is that of the tense Contact spring inherent force. Size and overall length this spring is usually given and can not be enlarge as desired. The invention beats for sure introducing a high initial acceleration, the Im optimize pulse transmission. For this it is necessary about the same size for the ladder stem finally contact piece on the one hand and pre-accelerated provide masses of the drive members on the other hand.

For special switch designs, namely when Contact piece welding is to be expected and when it goes out switch to break open, the mass of vorbe accelerated drive links larger than that of the Ladder stems can be selected.

Usually have vacuum performance when running switch and the invention is concerned with such in particular, the ladder made of solid copper gel including contact piece a larger mass than the pre-accelerated drive links. Then it is rela tiv simple, the mass balance by attaching a Additional mass of high specific weight on one or to manufacture the drive link. To reduce friction in To keep storage small, the additional mass should be un indirectly on the one interacting with the ladder stem Drive linkage must be attached.

An embodiment of the invention is as follows described.  

Show it:

Fig. 1 shows an operating principle of a vacuum scarf age;

Fig. 2 shows the movement curve of the switching contact piece.

The vacuum switch consists of the evacuated switching chamber K and the drive required for it, including release elements, locks, connection contacts, etc. For the sake of clarity, only what is essential for understanding the invention is shown. The switching chamber K is formed from an insulating cylinder housing, which is closed on both sides by metallic covers 8 and 9 . These are penetrated by ladder stems 1 , 2 in a vacuum-tight manner. A spring tube 10 takes over the sealing between the movable conductor stem 2 and the cover 9 . In the interior of the switching chamber, the stems carry switch contact pieces 11 , 12 that abut one another.

The driving force for switching on is introduced via drive elements 5, 6 . In this case, from a drive member 7 movable and mounted at a fixed pivot point 14 lever 6 with one end to the Antriebsge rod 5 is articulated. The latter acts on the movable ladder stem 2 in a special way. The free end of the drive linkage 5 runs out into a cylinder 3 which has a guide bore for the engagement of the conductor stem 2 . The lie within the cylinder 3 lying end of the conductor stem 2 carries a piston-like extension 13 protruding from its diameter. A contact pressure spring 4 is inserted between this extension and the bottom of the cylinder 3 .

To turn on the drive member 7 is rotated into the Darge presented position. The lever 6 pivots about the fixed pivot point 14 and moves the drive linkage 5 in the direction of the switching chamber K. The thrust is transmitted via the contact pressure spring 4 to the extension 13 and thus to the ladder stem 2 . After applying the contact piece 12 to the fixed contact piece 11 , the drive linkage 5 is pushed to a certain extent in the switching direction. Here, the head stems 2 with its extension 13 further into the cylinder 3 and the contact pressure spring 4 receives by pressing together a greater bias.

To switch off, the drive member 7 is quickly rotated by approximately 90 °. The distance from the lever 6 to the fulcrum of the eccentric drive member 7 is reduced and the lever 6 is released for pivoting. The contact pressure spring 4 can now relax and drives the drive linkage 5 and the lever 6 away from the switching chamber in the direction of the arrow. After a ge know acceleration path, the cover hole 15 surrounding the guide bore of the cylinder 3 suddenly strikes the extension 13 of the conductor stem 2 and takes this together with the switch contact piece 12 in the switch-off direction. .

The laws of the impact of two rigid bodies can be used to calculate the switch-off speed of the conductor stem 2 . On the one hand, the impact mass consists of the pre-accelerated drive elements, namely the lever 6 and the drive linkage 5 ; the impacted mass, on the other hand, is the conductor stem 2 with its switching contact piece 12 . It can be demonstrated that the impact and thus the A fangsbeschleu acceleration of the ladder stem 2 is most effective when the impact mass and the impacted mass are approximately the same size. With this momentum transfer it is assumed that welding forces are negligible. If larger welds of the contact pieces are to be broken open, the impact mass should be greater than the impact mass.

Basically, the conditions do not change when the lever 6 is actuated by switch-on and switch-off springs, as is shown in the known document mentioned at the beginning.

In Fig. 2, the speed profile of the movable contact piece is shown. Time is plotted on the horizontal axis and t is the path x on the vertical axis.

The switch contact pieces separate at t = o . After a time t ₂ the impacted mass (ie the ladder stem 2 ) should have the high initial speed

achieved. v ₁ is characterized by a tangent that is attached to the actually running movement curve x (t) with a contact opening of 1 mm.

If the t-axis intersection point of the tangent to the movement curve of the movable contact piece with a contact piece opening of 1 mm is defined as the dwell time t ₁ , this should not exceed 0.6 milliseconds. The speed v ₁ is then greater than 1.5 m / s.

Claims (5)

1.Vacuum switch with at least one Schaltkam mer, whose insulating cylinder housing is closed by means of a metal cover, which are penetrated by relatively movable, switch contact pieces carrying conductor rods, whereby a contact pressure spring is arranged between the movable conductor stem and a cooperating drive rod, via which when switching on, the switch-on force is transmitted and when switching off - after covering a certain acceleration distance - the drive linkage suddenly takes along the ladder stalk, characterized by a separation speed of the contact pieces ( 11 , 12 ), at which they have reached 1 mm opening after 1.3 milliseconds at the latest. 2. Switch according to claim 1, characterized net that the switch contact separation speed 2 m / s, which is 0.8 milliseconds after the contact separation is achieved. . 3. Switch according to one of claims 1 or 2, characterized in that to achieve the desired contact separation speed of the movable conductor stem ( 2 ) including its switching contact piece ( 12 ) has approximately the same mass as that when switching off pre-accelerated drive elements ( 5 , 6 ). 4. Switch according to one of claims 1 or 2, characterized in that the mass of the pre-accelerated th drive members ( 5, 6 ) is chosen larger than that of the movable conductor stem ( 2 ) including its switching contact piece ( 12 ). 5. Switch according to one of claims 3 or 4, characterized in that for the production of the same mass balance with the movable conductor stem ( 2 ) co-operating drive linkage ( 5 ) an additional mass is introduced.