DE601074C - Switch with arc extinguishing by flowing compressed gas - Google Patents

Description

The main patent relates to a switch with arc quenching by compressed gas, its Contacts are separated in a sleeve through which pressure gas flows, at one end the fixed contact is arranged through which the compressed gas from the Shell emerges. The moving contact is arranged in such a way that it is switched off when it is switched off after a power interruption from the one opposite the fixed contact The end of the envelope emerges and outside of the same in the open air in a visible manner in the final switch-off position moved on. The switching chamber in which the arc quenching takes place remains with the ones described in the main patent Embodiments except for the small opening through which the switch pin to the outside is moved, closed even after switching off.

The invention aims and consists of a further embodiment of such a switch in that it is opposite to the nozzle-shaped fixed contact Closure of the switch room with a movable one for supplying electricity and compressed gas Serving tube is formed, which carries the pin-shaped moving contact at its mouth and when switching off is moved out of the control room together with this contact. This ensures that despite the tight seal of the switch room during the extinguishing process the switch room in the switch-off position communicates with the outside air through a large opening, so that a. good ventilation of the switch room is achieved and no precipitates can form in it as a result of the temperature difference.

Another advantage of the invention is that a special pressurized gas supply to the switching chamber by fixed pressure gas pipes is not required and as a result the construction of the switching chamber is very simple, since it consists of a cylindrical Isolation tube can be formed, which is open on one side and completed on the other side by the nozzle contact is. The switching chamber can be made of a particularly resistant to pressure loads resistant tough insulating material, ζ. Β. Hard paper, consist of Surface insulation only plays a subordinate role, as the Switch an air gap between the electrodes is switched on. Because that Pressurized gas supply pipe is moved together with the pin contact, can be with

Achieve security that the break-off point of the arc is always at the point of the most favorable Blown air lies; because the distance between the tip of the pin contact and the mouth of the compressed gas supply tube is during the entire switch-off movement constant, and the contact itself is constantly on all sides Washed around pressurized gas.

In the drawing, exemplary embodiments of the invention are shown.

Fig. Ι shows a pressure gas nozzle switch, the fixed nozzle contact ι of two Isolation supports 7 and 8 is carried. At the nozzle ι is a switching chamber forming Insulating tube 5 attached, in which the annular insulating head 6 of the compressed gas and Power supply tube 4 is guided airtight. The tube 4 carries the pin-shaped via the ribs 3 Switching contact 2, which is arranged so that it is full of the flowing through pipe 4 Pressurized gas is flushed around, and its length is chosen so that the tear-off point, d. H. Contact tip, is in the zone of the most favorable blowing during the entire stroke. The pipe 4 is guided on a stationary gas supply pipe 14 and with this is conductively connected by a power supply hose 17. This hose will surrounded by an insulating tube 18 and protected from external influences. The gas supply pipe 14 is attached to a fine cap 15, which serves as a connector and of a Hollow support 16 is worn. This hollow support 16 includes a bottom for everyone three phases of common compressed gas manifold 19, which like the supports 7 and 8 is carried by the switch frame 9. The switch frame 9 is equipped with castors 20 provided. The tube 4 is driven via connecting rods 10 and pivotable supports 11 from a common switch shaft 12 the end.

When switching off, the pipe 4 with the switching contact 2 and the insulating closure ring 6 moved downwards, from the compressed gas distribution pipe 19 via the pipes 14 and 4 compressed gas is supplied to the switching point. The compressed gas supplied to the switching point has an accelerating effect on the insulating seal 6 acting as a piston and flows through it after disconnection of contacts 1 and 2, deleting the interruption point. The order is made in such a way that the control room is open until the interruption arc is extinguished remains closed and only then does the insulating closure 6 with the tube 4 move out of the envelope 5 moved out. The switch room is in the switch-off position, which is therefore visible open and there can be precipitation in it as a result of the possible air circulation there not make up. The arrangement of the insulating termination 6 in its position to the hollow contact 4 must be made so that Eddies of the incoming compressed gas, which could possibly lead to re-ignition, are safely avoided. It is therefore appropriate to use the insulating seal 6, which is as The insulating ring is designed to extend beyond the end of the tube 4, so that the power supply tube 4 is expanded like a nozzle by it above.

Fig. 2 shows a similar embodiment, but here the structure is made in such a way that that the contact nozzle 1 with its shell 5 from a perpendicular to the switch axis arranged support post 45 is carried. To this support bracket from the switch shocks to relieve, the nozzle contact 1 is movably mounted in a ring 42 and can Move via a spring 43 in the axial direction. The shift shocks are so over the Bund44 taken up by Feder43. The moving power and compressed gas supply pipe 4 is designed here so that it expands like a nozzle at its upper end and over Ribs 3 the pin contact 2 carries. At the nozzle-like extension is still the movable one Switching room closure 41 arranged, which leads the contact in the insulating cylinder 5 and made of insulating material, e.g. B. a felt plate, may exist.

The power supply from the fixed Gas supply pipe 14 to the moving pipe 4 takes place here by a sliding contact 37, which is arranged so that it is from the mechanical Guide of the pipe 4 on the gas supply pipe 14 is not affected. That Gas supply pipe 14, which in the present case also serves to conduct electricity at its lower end a curvature, over which it is on the cap 15 of the hollow support 16 is attached. At the same time, the connection 29 is provided on the pipe 14, see above that -the current flow through the switch after the nozzle contact 1 in a straight line without loops. The switch can therefore be placed directly in the train of the lines build in. The hollow support 16 is of the framework 9, which is for attachment to a Wall is suitable, supported, and is connected to the common compressed gas distribution pipe 19 at its rear end. The drive shaft 12 is also supported in the framework 9 and drives via swivel supports 11 and connecting rod 10 to the moving contact piece.

In Fig. 3 it is shown how by connecting two switch elements in series can achieve a multiple interruption. The structure of the switch room corresponds to according to Fig. 1. The two ceramic hollow supports 25 are shared by one Flange 61 carried, in turn

is attached to the switch frame 9. The two tubes 4 are bent into a U-shape Tube 60 united. The compressed gas supply to the U-tube 60 takes place through a Insulating tube 64, which together with the insulating tube 63 made of ceramic material in a flange 62 of the hollow 'U-tube όό attached is. The insulating tube 64 slides on a pressurized gas supply tube 66, the There is insulating material and opens into the pressurized gas distribution pipe 19. The drive of the three phases of such a double-pole three-phase switch takes place via a grounded cross-member 65, which is attached to the ceramic insulating tubes 63. The movement of the grounded traverse 65 is via connecting rod 10, Lever 54 made from shaft 12. The contact piece, consisting of the U-tube 60 with the two switch contacts 2 and the two switch room closure rings 6 is in the switched off position without voltage and opens the after the arc has been extinguished Underside of the control rooms. The power lines are connected to the two Nozzle contacts 1. The cross section of the compressed gas supply pipe 66 or 64 must be approximately twice as large as that of the tubes 60 or 4, so that both interruption points be evenly fully inflated. The compressed gas supply pipe 66 serves as a guide for the moving switch parts.

Fig. 4 shows a pressurized gas switch in which the pressurized gas supply pipe 4 is arranged in a fixed manner in contrast to the exemplary embodiments described above. To switch off, the nozzle contact with its switching chamber 5 is moved here. To this For this purpose, the nozzle 1 is arranged on a lever 92 which is mounted on a support 94 at 93 is mounted and driven by lever 98 and shaft 12 via lever 95 and insulating connecting rod 96 will. The insulating nozzle 1 is provided with a sheath 5 made of insulating material, which is attached to the control room closure 6 carries its lower end. This switch room closure consists of Insulating material and can be arranged so movably on the sheath 5 by springs or the like be that a tight bottom seal of the switch room is guaranteed. The pressurized gas supply pipe 4, which carries the switching contact 2 via ribs 3, is corresponding curved to the radius of the lever 92 and fastened on the cap 15 of the hollow support 16. Like the supporter 94, this is mounted on the switch frame 9 in which the Drive shaft 12 is mounted. The compressed gas supply to the individual poles of a three-phase switch takes place from the common compressed gas distribution pipe 19. The over-looping of the lower end 6 of the switching chamber must be chosen so long that the tube 4 only then the switching chamber leaves when the arc is definitely extinguished. Moved when switched off the nozzle 1 into the exhaust pipe 97 into it.

Instead of bending the tube 4 with the switching contact 2, you can also use a Attach metal hose, possibly double metal hose, to cap 15 so that the parts 2 and 4 are movable so that they adapt to the changes in direction of the nozzle can. By means of suitable fittings, the metal hose can be guided in such a way that it is lengthened or compressed cannot occur. When switched on, the moving nozzle finds the switch contact 2 in the same position in which she left him, so that a safe contact is made is guaranteed. You can change the direction of the moving nozzle by means of ball joints that are bridged with electrical bands or compensate for them by means of an articulated contact in the nozzle. To the To reduce the moving masses, the nozzle can be made of lightweight insulating material, in which the contacts are in the form of metal ribs.

Fig. 5 shows an arrangement which differs from Fig. 4 in that here the moving nozzle 1 is guided so straight by double rockers 92 and 105 that during no or only a small lateral shift occurs for the duration of contact. In this case, too, it is expedient to make the hollow contact 4 via a metal hose 99 so flexible that it can yield to these small changes in direction. With the Nozzle ι is also connected to an insulating sleeve 5, which is moved along and serves to guide the compressed gas. The nozzle 1 opens upwards into a flue pipe 116 made of insulating material, which telescopes into another Can slide in the flue pipe. If necessary, the moving nozzle contact can be on the exhaust pipe 116 and on the concentric therewith arranged fixed exhaust pipe, so that the drive then • takes place via a lever and connecting rod. Of the The lower control room closure is not specially drawn in the figure. It can in a similar way to the previously described. benen embodiments are formed. The power supply to the nozzle I takes place via the lever 92, which is connected to its bearing 93 by power supply strips is. The main feature of the switch with moving nozzle is its low profile Overall height, so that such an arrangement can be used anywhere with advantage where it is a question of a high-performance compressed gas switch on the smallest To build in space.

Claims (1)

Patent claims: ι. Switch with arc extinguishing by flowing compressed gas, the moving one After the power interruption, contact the control room at the end opposite the fixed nozzle contact leaves, according to patent 599 207, characterized in that the nozzle contact (1) Opposite closure of the switch room by a movable, for Power and compressed gas supply serving pipe (4) is formed, which at its mouth carries the pin-shaped moving contact (2) and when switching off with this contact together from the Switch room is moved out. • 2. Switch according to claim 1, characterized in that the moving current and compressed gas supply pipe (4) carries a special annular insulating head (6) at its mouth, which is guided airtight in the tubular switching chamber (5) (Fig. 1). 3. Switch according to claim 1 and 2, characterized in that the mouth of the compressed gas supply pipe (4) or the insulating head (6), which make the pin contact (2) again concentrically surrounds part of its length, is expanded like a nozzle. 4. Switch according to claim 1 to 3, characterized in that the fixed Pressurized gas supply pipe (14) for mechanical guidance of the moving Strotn and pressurized gas supply pipe (4) and serves at the same time for power supply (Fig. 2). S. Switch according to claim 1 to 4 with double interruption in two switching chambers, characterized in that the movable flow and compressed gas supply pipes (4) at both interruption points consist of a common U-shaped piece of pipe (60) through a The insulating tube (64) attached to the apex is fed and driven with compressed gas (Fig. 3) - 6. Switch according to claim 1 to 5, characterized in that the current and Pressurized gas supply pipe (4) arranged in a stationary manner and the nozzle contact (1) with the switching chamber (5) straight or beyond the end of the pin contact (2) is moved in a circular shape (Fig. 4). 7. Switch according to claim 6, characterized in that the nozzle contact (1) with the drive member (92) moving it is movably connected in such a way that it is its Mating contact (2, 4) can adapt. 8. Switch according to claim 6 and 7, characterized in that the current and Pressurized gas supply pipe (4) on the fitting part (15) carrying it by means a piece of metal hose (99) is attached, the slight changes in direction of the contact (2, 4) allowed (Fig. 5). 9. Switch according to claim 1 to 8, characterized in that the switching contact (2) with respect to its position in relation to the flow and pressure gas supply pipe (4) is arranged in such a way that its tip is in the zone of the most favorable ventilation when the power is interrupted. 1 sheet of drawings