Abstract
A switch disconnector comprises an electrical contact system for breaking a circuit connectable to the switch and a ferromagnetic plate being positioned in a predefined distance to the electric contact system, wherein the predefined distance is selected such that the magnetizing force of the ferromagnetic plate on an electric arc occurring between separated contacts of the electric contact system pulls the arc onto the ferromagnetic plate for interruption of the arc.
Claims
1. A switch disconnector comprising an electrical contact system for breaking a circuit connectable to the switch disconnector, the electrical contact system comprising a fixed contact and a moving contact, wherein the contacts are inclined with regard to a moving direction of the moving contact of the electric contact system and a ferromagnetic plate being positioned substantially parallel to the moving direction of the moving contact in a predefined distance to the electric contact system, wherein the ferromagnetic plate comprises at least one arm extending from a side of the plate towards the electric contact system, wherein the at least one arm comprises an edge being inclined such that the distance of the at least one arm to the separated contacts of the electric contact system is nearly the same wherein the predefined distance is selected such that the magnetizing force of the ferromagnetic plate on an electric arc occurring between separated contacts of the electric contact system pulls the arc (18) onto the ferromagnetic plate for interruption of the arc.
2. The switch disconnector of claim 1, wherein the ferromagnetic plate is arranged in an inclined position with regard to a moving direction of a moving contact of the electric contact system such that the each of nearly the same distance to the plate.
3. (canceled)
4. (canceled)
5. The switch disconnector claim 1, wherein the ferromagnetic plate comprises at least one protrusion for fixation of the plate within a housing of the switch disconnector.
6. The switch disconnector of claim 1, wherein the ferromagnetic plate has a thickness being selected to provide a predefined magnetic saturation level at a predefined operating current.
7. (canceled)
8. The switch disconnector of claim 1 comprising a housing in which the electric contact system is arranged, wherein the electric contact system comprises a fixed contact and a moving contact and the ferromagnetic plate is positioned with a predefined inclination angle with regard to the moving direction of the moving contact.
9. The switch disconnector of claim 8, wherein the predefined inclination angle (26) is within a range from about 0? to about 45?.
Description
DESCRIPTION OF DRAWINGS
[0020] FIG. 1 shows a sectional view of an example of a switch disconnector with a ferromagnetic plate as arc extinguishing device;
[0021] FIG. 2 shows a perspective view of an example of a ferromagnetic plate for a switch disconnector;
[0022] FIG. 3 shows a perspective view of an example of a lower housing part of a switch disconnector with several electrical contact systems and ferromagnetic plates being positioned in a predefined distance to the electric contact systems;
[0023] FIGS. 4A and 4B show a perspective view and a side view of an example of an electric contact system of a switch disconnector with a ferromagnetic plate positioned in a predefined distance to the electric contact system according to a first concept;
[0024] FIGS. 5A and 5B show a perspective view and a side view of an example of an electric contact system of a switch disconnector with a ferromagnetic plate positioned in a predefined distance to the electric contact systems according to a second concept.
DETAILED DESCRIPTION
[0025] In the following, functionally similar or identical elements may have the same reference numerals. Absolute values are shown below by way of example only and should not be construed as limiting.
[0026] FIG. 1 shows a sectional view of a switch disconnector 10 for isolating electric loads such as electric motors with a nominal current up to 160 amperes. The disconnector switch 10 comprises a housing having a with a lower part 101 and an upper part 102.
[0027] The lower housing part 101 is provided for holding an electric contact system 12 and a ferromagnetic plate 14 as arc extinguishing device. The upper housing part 102 keeps mechanics for moving electric contacts 121 of the electric contact system 12 via a handle 103 seated in a seat of the upper housing part 102.
[0028] The electric contact system 12 comprises the movable electric contacts 121 (two as shown in FIG. 1, being electrically connected by a bridging part) and fixed electric contacts 120 (also two as shown in FIG. 1, each provided for electric connection with a circuit to be interrupted with the switch disconnector 10).
[0029] Via the handle 103 and the mechanics in the upper housing part 102, a contact mover 122 may be moved vertically downward. The movable electric contacts 121 of the electric contact system 12 are arranged below the contact mover 122.
[0030] A spring 123 is positioned between the floor plate of the lower housing part 101 and the movable electric contacts 121 forcing them upwards against the contact mover 122 so that the movable electric contacts 121 can be pressed against the fixed electric contacts 120 of the electric contact system 12 in a position in which the contact mover 122 is not moved downwards by the handle 102 and the mechanics.
[0031] When the handle 102 is turned to open the electric contacts 120, 121 of the electric contact system 12 via the mechanics, the contact mover 122 is moved downwards the mechanics. With the contact mover 122 also the movable electric contacts 121 are moved downwards against the force of the spring 123 and are, thus, separated from the fixed electric contacts 120.
[0032] The maximum distance between the separated electric contacts 120, 121 is usually large enough to increase the voltage of an electric arc occurring between the separated electric contacts 120, 121 sufficiently by elongating cooling the electric arc.
[0033] The ferromagnetic plate 14 is positioned in a predefined distance close to the electric contacts 120, 121. The predefined distance 16 (FIG. 4B, 5B) is selected such that the magnetizing force of the ferromagnetic plate 14 on the electric arc 18 (FIG. 4A, 5A) occurring between separated contacts 120, 121 of the electric contact system 12 pulls the arc 18 onto the ferromagnetic plate 14 for interruption of the arc 18, particularly by increasing the arc length and/or voltage and cooling the arc. It was also detected that the arc resistance can be improved at a middle current range.
[0034] FIG. 2 shows a perspective view of an example of the ferromagnetic plate 14 with protrusions 24 for fixation of the plate 14 within a housing of the switch disconnector 10 and arm 20 extending from a side of the plate 14. The arms 20 support pulling an electric arc to the plate 14. Each arm 20 comprises an edge 22 being inclined such that the distance 16 (FIG. 4B, 5B) of the arms 20 to the separated contacts 120, 121 is nearly the same, particularly when the plate 14 is arranged in an inclined position with regard to the moving direction 28 (FIG. 5A, 5B) of the moving contact 121, particularly positioned with a predefined inclination angle 26 in relation to the moving direction 28 of the moving contact 121. The ferromagnetic plate 14 may have a thickness th being selected to provide a predefined magnetic saturation level at a predefined operating current at a predefined operating current. The thickness th may also be selected depending on the space available in the housing of the disconnector switch for the plate 14.
[0035] FIG. 3 shows a perspective view of an example of a lower housing part 101 of the switch disconnector 10 with three electrical contact systems and three ferromagnetic plates 14 fixed with the protrusions 24 in the lower housing part 101, which may be made of a plastic, in which the protrusions 24 may be fixed.
[0036] FIGS. 4A and 4B show a perspective view and a side view of an electric contact system 12 of a switch disconnector with a ferromagnetic plate 14 having arms 20 extending from their sides according to a first concept. The plate 14 is positioned in a predefined distance 16 to the electric contact system 12 and arranged nearly parallel to the moving direction 28 of the movable electric contact 121 of the electric contact system 12. The arms 20 are dimensioned such that the deflection of an electric arc 18 occurring between the separated electric contacts 120, 121 is improved, since particularly due to a smaller distance to the inclined edges of the arms 20 the arc 18 can more easily jump over to the extended arms 20 and being split by them. The plate 14 may be also positioned in the housing of the switch disconnector to not obstruct a venting flow 30 as shown in FIG. 4B with the dotted arrow. Analyses carried out with this straight ferromagnetic plate 14 for different load cases of a switch disconnector showed that arc resistance can be increased for all load cases.
[0037] FIGS. 5A and 5B show a perspective view and a side view of an electric contact system 12 of a switch disconnector with a ferromagnetic plate 14 having arms 20 extending from their sides according to a second concept The plate 14 is positioned in a predefined distance 16 to the electric contact system 12 and with a predefined inclination angle 26 to the moving direction 28 of the movable electric contact 121 of the electric contact system 12. The predefined inclination angle 26 may be particularly within a range from about 0? to about 45?, wherein 0? corresponds to the example shown in FIGS. 4A and 4B with a straight ferromagnetic plate 14. The arms 20 are dimensioned such that the deflection of an electric arc 18 occurring between the separated electric contacts 120, 121 is improved, since particularly due to a smaller distance to the inclined edges of the arms 20 the arc 18 can more easily jump over to the extended arms 20 and being split by them. The inclined positioning of the plate 14 with regard to the moving direction 28.
