DE948707C - Current interruption device, especially for high operating voltages - Google Patents

Description

A switching device is already known which consists of a liquid switch Circuit breaker with one break point and two disconnectors. Of the In this switching device, the circuit breaker forms the current bridge of the isolating switch. To open this circuit breaker,! the circuit breaker after the arc has been extinguished swiveled out. Since the switching fluid must not escape from the switching chamber, is the swing out this. Circuit breaker and thus the air separator formed in this way

low, so that this switching device is unsuitable for high voltages.

The invention relates to a current interruption device, especially for high voltages that consist of a circuit breaker and a Disconnector exists and because the circuit breaker forms the current bridge of the disconnector, which is swiveled out when switching off after the arc has been extinguished. For deletion of the arc, however, is not a switching fluid, as is the case with the known switching device, but a, · from the arc from him; overturned

the walls used self-generated gas. According to the invention, the circuit breaker is accommodated in an insulating tube in which several interruption points connected in series are provided, the movable contact pieces of the circuit breaker being arranged on an insulating tube that is movable in the axial direction and the stationary contact pieces on a second. Insulating tube are attached, which is firmly connected to the insulating tube receiving the ίο circuit breaker. By using a circuit breaker with several interruption points, the switching device can handle a very large breaking capacity. In addition, the inventive design of the. Circuit breaker enables simultaneous actuation of the im. Series connected, interruption points with very simple means. Since in the circuit breaker dler switching device according to the invention no switching fluid, but a gas is used to extinguish the arc ^: the circuit breaker can be pivoted out considerably more than in the known switching device. This has the advantage that a very large air separation distance is formed, so that when very high overvoltages occur, as they occur, for. B. can be caused by lightning strikes in the line, at the air separation section no flashover occurs, whereby the parts of the switchgear arranged behind the switching device, z. B. transformers, are protected from damage.

In the drawing, the subject matter of the invention is shown in one embodiment. It shows Fig. Ι the current interruption device according to the invention, partially in section, and in a completely closed position,

2 shows the position of the various parts during a current interruption process of the switch, immediately after the interruption means interrupted the circuit and before the switch blade is moved to the open position,

Fig. 3 shows the switch in the fully open position, Fig. 4 shows a section of the switch blade (the Switching device) in longitudinal section, on an enlarged scale,

Fig. 5 shows the switching device on an enlarged scale 'in cross section along line V-V of Fig. 1, 6 shows one of the insulating sleeves for the current interruption means in the front view and FIG

7 shows a modified form of contact for the interruption means of the switch, in section.

With 7 a groove-shaped metal base is designated, on which support insulators 9, 11, e.g. from glass-like insulating material, are rigidly attached. At the upper end of each of the post insulators 9, 11 a metal cap 13 is provided. The cap 13 of the post insulator 9 has a conductive Material made hinge clamp 15, which has a pivotable support for a hollow, generally with 17 designated switching device or a switch blade forms. On the free end of the Switching device 17, a contact 31 is provided, which with an interrupt contact 19 cooperates.

The switching device 17 contains an external protective cylinder 23 made of insulating material, which at one end on the neck of the hollow cast housing 25 by means of several screws. 27 be ^ is consolidated. The housing 25 is attached to the hinge clamp 15 by means of a pivot pin 29. The insulating cylinder 23 can thus pivot movements into and out of engagement with the interruption contacts 19, which is attached to the outer end of the cylinder 23 by means of screws 33 Attached contact 31 has the shape of a ring and acts with flexible arms 21 of the break contact 19 together. The arms 21, which are used to guide the switching device when moving have outwardly curved ends in the closed position, ensure an elastic Maintaining contact 31 and. thus the hollow switching device in the closed position.

The S current interruption device is inside, the, protective cylinder 23 for closing or interrupting the circuit between the joint terminal ¹ 15 and the break contact. 19 attached. The interruption means according to the invention contain a fixed insulating tube 37, which is arranged concentrically inside the S chutzzy Linders 23 and rigidly attached by means of screws 27 and 33 at its ends. The tube 37 is separated from the protective cylinder 23 by means of insulating spacer sleeves 39 by a gap. In the interior of the stationary cylinder 37, a concentric insulating tube 41 is provided so as to be slidable by means of annular intermediate sleeves 43 made of insulating material. A plurality of sleeves 45 made of conductive material are provided along the outer surface of the stationary insulating tube 37. Each of the conductive sleeves is at its ends mechanically and electrically with two ring-shaped contact pieces. 47 connected to the inner surface of the tube 37 by screws 49.

On the inner surface of the insulating tube 41 several sleeves 51 made of electrically conductive material are attached. Each of the conductive sleeves 51 is mechanically and electrically at their ends by means of screws 53 with the annular contact pieces 5 5 connected.

The stationary insulating tube 37 has an annular contact piece 57, which is attached to the inner surface of the insulating tube and with the outer end of the protective cylinder 23 by means of screws 33 is connected, the electrical connection of the ring contact 57 with that on the outer surface of the protective cylinder provided contact 31 are used. The conductive shell 5.1 on the left The end of the inner insulating tube 41 is connected to the hinge clamp 15 by means of a flexible bridging conductor 59 connected.

The inner insulating tube 41 is movable in the interior of the stationary tube 37 in the axial direction arranged. When the insulating tube 41 is moved to the right, the annular

Kontaktstücke55 ^w ith their associated, fixed contact brought into contact rings 47 and 57 (see. Fig. 1). When the switch g is closed, the current flows from the hinge terminal 15 through the flexible: conductor 59, the conductive sleeve 51, the annular contacts 55 and 47 and the conductive sheaths. 45 to the contact ring 57. the other end of the protective cylinder 23, through the screws 33 and the outer contact ring 31 to the break contact 19.

When moving the inner. Insulating tube 41 to the left, the switching device is in the open position brought, in which, as FIG. 2 shows, the contact rings 55 carried by means of the inner tube 41 of the cooperating annular. Contact pieces 47 and 57 are separated. The inner Insulating tube 41 leaves a plurality of in the open position of the circuit. Current interruption points in the circuit between the hinge clamp 15 and. the one at the free end of the hollow Switching device provided contact 31 arise.

Each of the ring contacts 47 and 57 has a conical shape towards the hinge end of the switch running or inclined contact surface, and the ring contacts 55 point to the free end of the Switch on inclined or conical contact surfaces. In this way, limit the in contradiction Direction of conical or inclined surfaces of the ring contacts 55 and 47, the movement of the inner insulating tube 41 to the outside and also allow, when the switch is closed, the contacts to be made with a predetermined one To press contact pressure against each other.

The switch drive contains a drive rod 61, which with the free end of an operating lever 63 is rotatably connected. The operating lever 63 is rotatably attached to the pivot 29 and with the longitudinally displaceable insulating tube 41 by means of a protruding one Pin 65 coupled, the lever 63 between his. Ends wearing. The pin 65 engages in one Slot 67 in the plate 69, which is attached to the left end of the insulating tube 41. The rotation of the operating lever 63 in the clockwise direction causes a displacement of the inner Isolierrohres 41 in the axial direction to the right to the. Close circuit. When turning of the actuating lever 63 counterclockwise, the insulating tube 41 moves in the axial direction left to open the circuit. The connection between the operating lever 63 and the left end of the tube 41 by means of the pin and the slot thus ensures the straight line Movement of the tube 41. The operating lever 63 is in the counterclockwise direction to the The pivot pin is influenced by a helical spring 71 which loops around the pin 29. These Feather attacks one end. the lever and the other end to the joint clamp 15 a. The movement of the operating lever 63 in the counterclockwise direction will be ^ by a projecting stop 73 which can be made in one piece with the housing 25.

The switch works briefly as follows. To open the circuit, the actuator stem! 61 moved to the left by means of a suitable drive device; During the first part of the movement of the drive rod 61, the actuating lever is rotated counterclockwise about the pivot pin 29 in order to cause the inner Tsc'lieirrohres 41 to move to the left! and open the circuit. During this movement, the hollow switching device remains in the closed position because its free end is elastically compressed by means of the arms 21 of the break contact 19. The movement of the inner insulating tube 41 into the open. Stromkreislag © causes the ring contacts 55 of. the cooperating ,, at. the fixed Iso-ierrohr 37 is ¹ -brachten annular contact back 47 and 57 separately. As a result of the separation of the ring-shaped contacts, several interruption arcs arise in the circuit between the joint hemorrhage 15 and the contact 31, which is in contact with the interruption contact 19. The arcs which are drawn between the ring contacts during the separation of the same are wedged into the small annular spaces between the fixed insulating tube 37 and the movable insulating tube 47, where they are quickly extinguished. The circuit between the terminals of the switch is completely interrupted in this way by the interruption means inside the hollow switching device 17, while the switching contacts 31 and 19, as can be seen from FIG. 2, remain in the closed position. In this position, the actuating lever 63 rests against the stop 73 provided in the housing 25, so that, as a result of the continued movement of the drive rod to the left, the switching device is pivoted counterclockwise about the pivot pin 29, as shown in FIG. 3 shown to achieve an approximately vertical position. The switching device 17 in the open position between the terminals 15 and 19 of the switch forms a large air separation section which is able to withstand high voltages.

The actuator stem is used to close the circuit 61 moved to the right. This movement of the drive rod activates the switching device 17 pivoted about the pivot pin 29 in a clockwise direction. During this pivoting movement of the switching device, the spring 71 holds the actuating lever 63 in engagement with the drive rod, whereby the current interruption means inside the switching device in open Circuit condition are kept. The continued movement of the drive rod 61 after on the right, the operating lever 63, after the switching contacts 31 and 19 are in, the closed position are brought, rotated clockwise about the pivot pin 29, whereby the actuating

lever 63 lifted from the stop 73 and an axial movement of the inner insulating tube 41 caused to the right and this through the ring contacts 55 the formation of contact with the. cooperating annular contact pieces 47 is brought about. This movement of the ring contacts into the engagement position creates the circuit between the terminals, of the switch closed. Pushing in the drive rod 61 is sufficient to achieve the required contact pressure between the ring contacts when the switch is in its completely switched on closed position.

At. the outer end of the insulating protection cylinder 23 is a ring 76 is provided, which is an envelope 75 carries the entry of. Rain, sleet or snow are prevented at the outer end of the pipe.

The inwardly directed boundary surface of the envelope is provided with a plurality of struts 57 the ring 76 connected to openings for the escape of gases through the outer end of the To create pipe.

The insulating tubes 41 and 37 inside the Switching device 17 are made of an insulating material which emits arc-extinguishing gases, if, on him. an arc acts. As such substances, for. B. Fiber and. in particular Serving listening fiber. The opposite faces the tubes can, however, instead be used with a suitable arc extinguishing agent. Stuff like that Boric acid or the like. Be lined.

The facing cylindrical surfaces of the tubes 37 and 41 restrict the expansion the one drawn between the rings. Arc in the radial direction, corresponding to the width of the Space between the opposite faces of the tubes, they allow, however, the spread the arc in the direction along the annular space so that arc with large, small and medium currents over a very wide range of current values be forced, to attack the opposite surfaces of the tubes, intensely! and from these to release arc extinguishing gas. During the power interruption, develop through the in. Row between the ring contacts in the narrow annular spaces between the tubes 37 and 41 pressures that cause the gases generated to pass through a certain range of 'arcing quickly in, the annular spaces through another series of Arcs that are moved, and the arcs to delete immediately. In the arrangement shown, the ones in the middle part of the switch produced by arcing, arc-extinguishing, Gases in opposite directions at the ends of the interrupting means blown out. If desired, suitable closure means for closing the end of the annular Space · provided between the tubes 37 and 41 at the hinge end of the switch be so> that the gases to the right of. the interruption means, also against the opening movement of the insulating tube 41, are blown out,

To the movement of gases ^ which during; the Current interruption developed lengthways through the annular spaces between, the tubes 41 and 37, each of the annular intermediate sleeves, 43, such as Fig. 6 shows to be provided with a plurality of openings or channels extending through in the axial direction the sleeve bodies extend.

The invention prevents an arc from occurring at the point between the contact 31 at the free end of the switching device and. the interruption point 19 is drawn.

The contact rings 55 and 47, 57 can, as FIG. 7 shows, at their ends facing one another Form elastic contact or engagement parts. For this purpose, the end parts of the contacts 55 and. 47 discontinued and tapered and, if necessary, provided with several slots in order to a plurality of resilient Kentakt fingers 79 to form.

While the interruption means of the switching device 17 in a novel and advantageous Way in combination with the switch of the disclosed type cooperate, these are Interrupting means also for use on its own as an effective current interruption device suitable.

The subject matter of the invention can also advantageously be combined with other interruption devices or used with these.

It is understood that structural parts of the switch according to the invention varied or changed can be without thereby exceeding the scope of the invention.

Claims (10)

Patent claims: i. Current interruption device ', in particular for high voltages, which consists of a circuit breaker and a disconnector, in which the arc is extinguished by a fixed from the arc itself. Walls generated gas takes place and the circuit breaker forms the current bridge of the circuit breaker, which is swiveled out when switching off after the arc has been extinguished, characterized in that the circuit breaker accommodated by an insulating tube has several interruption points connected in series and the movable contact pieces ^{1 of} the circuit breaker on a movable in the axial direction Insulating tube are arranged and the stationary contact pieces are attached to a second insulating tube which is firmly connected to the insulating tube receiving the circuit breaker. 2. current interrupt device according to claim i, characterized in that the switching pieces of Unteirbrechungsstellen relative to the longitudinal axis of the circuit breaker at an angle less than 90 ⁰ running contact surfaces, ζ. Β. conical contact surfaces., have. 3. Current interruption device according to Claim 2, characterized in that the Contact surfaces of the contact pieces of the circuit breaker on those carrying the contact pieces Insulating pipes do not rest on the surface and that the contact surfaces are slotted at the same time. 4. Current interruption device according to claim i, characterized in that between the insulating tubes carrying the contact pieces, which in a manner known per se from a gasa, bge: bienden Consist of material, provided insulating sleeves with bores running in the axial direction are. 5. Stromufiterbrechungseinrichtung according to An ^ claim i, characterized in that on the outer surface of the circuit breaker receiving insulating tube, an annular contact piece is provided ¹ , which is held in the switched-on state of the current interruption device in a designed as a resilient bracket stationary contact piece. 6. Current interruption device according to Anas claim i, characterized in that for the Actuation of the interruption points connected in series and the disconnection point a common Drive is provided. 7. Stromuniterbrechuingseinfichtung according to claim i, characterized in that the switching device is connected to the circuit breaker absorbing. Has insulating tube firmly connected housing, which with the help of a Bolzens · is rotatably attached to a bearing carried by an insulator. 8. Current interruption device according to claim 7, characterized in that on the Bolt of the housing inside the same an actuating lever is rotatably attached, which with a drive rod and the insulating tube carrying the movable switching pieces via a with the insulating tube firmly connected tab with slot, in. the one attached to the operating lever Pin engages, is connected. 9. Current interruption device according to claim 7, characterized .. characterized in that a stop is provided in the interior of the housing against which the operating lever rests during the switching-off process after the ¹ circuit breaker has interrupted the circuit. 10. Current interruption device according to Claims, characterized in that on the operating lever one in particular for the operating lever and, the housing common bolt attached coil spring engages, which when switched on an elastic Forms coupling between the operating lever and the housing. Considered publications:
German patent specification No. 658 748. For this purpose 2 sheets of drawings © 6Ö9 602 8i S3