DE1041567B - Switch disconnectors - Google Patents

Description

The invention relates to a circuit breaker which can be opened under load.

In many cases it is desirable to have a high voltage circuit breaker switch off even if it is still switched on in the circuit in which it is arranged Electricity flows. For example, in many systems, high voltage transformers are constantly connected to the high voltage line connected and rarely require maintenance. But if this case occurs, it must High-voltage transformer to be disconnected from the high-voltage line, and during this SchaltvoTganges it is necessary to adjust the magnetizing current to interrupt that of the high voltage line in the high voltage transformer flows.

In the event that this magnetizing current between the movable knife designed as a separating knife Contact and the fixed contact of a conventional disconnector would be pulled, the Burning of the contact pieces should be so great that after only a few switching operations the contact surfaces of the contact pieces are no longer able to carry the full load current. By the generated by the arc Heat, which depends on the current strength at the moment when the switch is opened, flows in the circuit, the contact pieces would burn or melt. Is used for shutdown of the load current a conventional disconnector, so there is even more difficult switching conditions the possibility of a long arc drawn between the switch and a adjacent circuit or against earth burns.

The aim of the invention is to create a switch-disconnector that controls the load current inside an arc-extinguishing device and not on the contact pieces provided outside of the arc extinguisher interrupts.

Another object of the invention is to provide a powerful switch disconnector in which the movable contact of the arc extinguishing direction is brought into the on or off position by a snap mechanism.

Another object of the invention is the drive mechanism for the arc extinguishing device to improve the switch-disconnector.

The invention uses a known switching device in which the interruption of the circuit takes place inside an arc extinguishing device and during the switch-on movement the circuit via the contact pieces of the arc extinguishing device and not via the contact pieces provided outside of the arc extinguishing device he follows.

The invention relates to a circuit breaker with

Applicant:

Westinghouse Electric Corporation,
East Pittsburgh, Pa. (V. St. A.)

Representative: Dr.-Ing. P. Ohrt, patent attorney,
Erlangen, Hindenburgstr. 84

Claimed priority:
V. St. ν. America October 4th 1954

Earl F. Beach, Pittsburgh, Pa. (V. St. Α.),
has been named as the inventor

a movable contact piece designed as a separating knife and one connected in parallel to the separating distance Sohaltstelle, which is a device housed in an insulating tube for extinguishing the arc and during the switch-on process the switch-on and during the switch-off process the switch-off of the circuit takes over. According to the invention, the arc extinguishing device is parallel to the Disconnection knife arranged that they move together with the disconnection knife to a common when switching Point rotates.

Switches with parallel isolating distances and a common drive are known per se. It is also known to design the drive so that the switching paths are not simultaneously, but one after the other opened or closed. In none of the known switches, however, is the arc-extinguishing device arranged rotatably about a common point together with the cutting knife. The known Switches are therefore much more complicated in their construction than the arrangement according to the invention.

According to the further invention, the cutting knife and the insulating tube are rotatably mounted with a Housing firmly connected. In this way one achieves the particular advantage that the holder the cutting knife and the insulating tube is also suitable for receiving drive elements. This gives the switch a simple and closed structure so that it is easy to assemble and is to be cleaned. In the rotatably mounted housing you will in particular the snap mechanism

: 809 659/302

out of the switching point provided with an arc extinguishing device.

It is also advantageous to use the switching point that is used to extinguish the arc and inside the The insulating tube is arranged to be designed so that in a manner known per se inside the insulating tube Plates made of a gas-emitting substance are arranged. These plates are well known in as well Way z. B. with a Isofierrohr circular cross-section designed accordingly as circular disks and have holes through which a channel is formed. The arc is extinguished on this channel if the switching path in it is opened. The special shape of the disc-shaped plates, which are in a large number one behind the other are stacked and thus form the extinguishing channel, has the advantage that the gas effect is particularly is intense. The disk surfaces of the adjacent plates contribute to the development of gas at. because the panes are not completely close to one another.

It is also useful to provide the shift rod in a known manner with a spring that is arranged so that it seeks to open the switching point in the Einsdhaltstellung of the switch. Man this gives the switch according to the invention a particularly favorable, rapid switching effect, because the spring helps to overcome the dead center of the snap mechanism and which is precisely in this dead center still relatively small force of the snap mechanism reinforced.

The invention can be applied to switches for indoor spaces as well as for outdoor systems will.

In Figs. 1 to 8 of the drawing is an embodiment of a switch disconnector for interiors shown according to the invention.

Fig. 1 shows a side view of a switch disconnector according to the invention in the closed position ;

Fig. 2 shows part of a three-phase switchgear, which is housed in a suitable switchgear cubicle is, in plan view; from this figure it can also be seen how with the help of a single, simple drive shaft the simultaneous interruption of all three phases can be achieved: in

Fig. 3 is a switch disconnector according to the invention, partially in section, shown in plan view, the individual parts of the switch are drawn in the switched-on position;

FIG. 4 shows the arc extinguishing device in section and the drive mechanism according to FIG Invention;

Fig. 5 shows a section of Fig. 4 along the line V-V; the individual parts are in the on position again shown; in

Fig. 6 is a side view of the pivot bearing of the switch disconnector according to the invention, partly in Section, shown;

Fig. 7 shows a side view of the switch disconnector according to the invention in an intermediate position, wherein the snap mechanism is shown in the dead center position, and

Fig. S shows a cross section through the housing of the drive, the individual parts of the drive in the Switch-off position of the interruption device are shown.

In Figs. 1 and 2, 1 denotes a switch cell, which is preferably made of sheet metal and accommodates a plurality of interrupting devices 2, but only one of which is shown. With A drive shaft S, which extends through a bearing 4 extends and is operated from the outside by a crank arm 5, which is through an intermediate member 6 with a A suitable drive is connected, the three interruption devices 2 can be operated simultaneously to open and close the booming circuit.

A plurality of actuating levers 7 is attached to the drive shaft 3, preferably one for each interruption device 2.

As can be clearly seen from FIGS. 4 and 7, each operating lever 7 has an insulating one Intermediate member 8 attached to a lug 9 which is attached to the upper part of each housing 10 for the drive is provided.

The actuation of the lever 5 by a suitable drive thus becomes a rotation of the drive shaft 3 cause the three insulating intermediate links perform a simultaneous movement that turns the three interrupting devices on and off 2 has the consequence, which is indicated by the solid and dashed lines in FIG.

As can also be seen from FIG. 1, a U-shaped base plate 12 is provided which carries two insulators 13 and 14. As can be seen better from FIGS. 5 and 6, the insulator 13 carries a part 15 which is fastened to the top cap 17 of the insulator 13 by means of the screws 16. The part 15 is not only used for the rotatable fastening of the drive housing 10, but also forms the connecting piece 18 to which the line is connected.
The insulator 14 carries the fixed main holding piece 20 and an extended fixed auxiliary holding piece 21 and a second connection piece 22 to which the second line is connected. The fixed Hauptsöhaltstück 20 cooperates with a main switching arm or a rotatably designed as a bridge switching piece, which is designated quite generally with the reference number 23. The main switching arm consists of a pair of interacting cutting blades 24, as can be seen from FIGS. 2 and 3 of the drawing. The cutting knives 24 are held apart by a U-shaped part 25 screwed to them at the point 26. As can be seen from FIG. 3, the cutting knives 24 are rotatably fastened to the part 15 with the aid of the bolts 27. The cutting blades 24 are fastened to the sides 29 of the drive housing 10 with the aid of the screws 28.

As FIG. 4 shows, a sleeve 30 made of metal is attached to the left by means of screws 31 Part of the frame 10 attached. The sleeve 30 has a bore 32 with an internal thread in which a Insulating material existing pipe 33 is screwed. The sleeve 30 has other than the threaded one Bore 32 in its base plate has another bore 34, through the one designed as a rod movable contact piece 35 nindurchtriti and pressed by a compression spring 36 in the off position will. The compression spring 36 rests with one end on the end disk 37 of a stack of Seheiben. The discs are provided with bores so that a channel 38 is formed through which the movable Switching piece 35 is moved during the switching-off process and in which the arc is extinguished. The other end of the compression spring 36 rests on a disk 39 which rests on a sleeve 40 which is immovable on the movable rod designed as a rod Switching piece is attached.

It is expedient in the interior of the pipe 33 made of insulating material between the disks 37 and the sleeve 30 a tube 41 is provided. The fixed contact piece 42 is with the help of a screw connection attached to an end cap 43 provided with bores. The end cap 43 is at the Point 44 is screwed into the pipe 33 made of insulating material, which for this purpose is attached to his End 45 is provided with an internal thread. The bores 46 provided in the end cap 43 are, have the task of arising in the interior of the tube 33 during the interruption process Lead switching gases into the open.

The stationary contact piece 42 protrudes from the tube 33 and forms a movable one with its extension Auxiliary contact piece 47, which rests against the stationary auxiliary contact piece 21, as shown in FIG is seen. The movable contact piece 35 designed as a rod is, as FIG. 3 shows, at the point 48 made wider and provided with a bore 49 for receiving a bolt 50. The bolt 50 carries a pair of guide rollers 51, which are guided in grooves or on slideways 52 to this Purpose are provided on the housing 10, as shown in FIG. In addition, the bolt 50 carries a pair of sockets 53 with lugs that move in grooves 54 formed in a fork 55 of a U-shaped Drive lever 56 are provided. The design of the drive lever 56 can be seen from FIG. At the lower ends of the fork 55 bores 57 (Fig. 5) are provided for receiving the bolts 58, which are welded to the inner wall of the drive housing 10.

The part 15 has a pair of upright support arms 59 with bores 60. As from FIG. 5 As can be seen, the bores 60 are provided with a thread into which the bolts 27 are screwed. In addition, the part 15 has a arranged between the support arms 59 and provided with a bore eyelet 61 through which a bolt 62 is guided. The bolt 62 carries a rotatably arranged spring lock 63, which is provided with grooves 64 into which one end of a helical spring 65 is screwed. That upper end of the coil spring 65 is screwed in a similar manner onto a spring lock 66 which has a hole for receiving a bolt 67. The bolt 67 is from the fork 55 of the U-shaped Drive lever 56 added to the bore provided for this purpose. As Fig. 5 shows, the bolt 67 preferably carries spacer sleeves 68 to the upper spring lock 66 in a middle position to keep.

In the switched-on position of the interruption device 2, the current flows from the connection piece 22 by the switching piece 20, the switching arm 23, the metallic Support arms 59 and from here to the other connector 18 of part 15. A second The current path is through the auxiliary contact piece 21, the movable auxiliary contact piece 47, the stationary Switching piece 42, the movable switching piece 35 designed as a rod with its widened part 48 given. Through a flexible line 69, the current is from the part 48 of the movable contact piece 35 out to the rotatably mounted housing 10 and then flows through the bolts 27 to the metallic Support arms 59 of part 15 and from here to the other connection piece 18.

It will be appreciated that the second current path has a greater resistance than the former and that as a result practically the full current when the interruption device is switched on flows via the main switching piece 20 and the main switching arm 23.

In the switched-on position of the switch (FIG. 4), the helical spring 65 exercises on the rotatable about point 58 mounted drive lever 56 from a counterclockwise force, so that the Drive lever is tilted to the left, whereby the movable contact piece 35 moves to the left and thus a pressurized contact between the movable contact 35 and the stationary Switching piece 42 is reached.

When the interruption device 2 is to be switched off, the drive shaft 3 is rotated, whereby with the aid of the insulating intermediate member 8 a rotation of the drive housing 10 about the bolts 27 is effected in the clockwise direction. In this way, as can be seen from FIG. 7, the position of the bolts 58 and the bolt 67 is changed so that they lie on a straight line with the bolts 62, so that the tensile stress exerted by the helical spring 65 on the U-shaped drive lever 56 takes place in the axial direction. In this position, the joint of the snap mechanism 70 is in the dead center position, and no force is exerted by the helical spring 65 that causes the movable contact piece 35 to be switched off or on. As shown in FIG. 7, at this point in time the main switching arm 23 has left the main switching piece 20, as a result of which an air separation path is formed, the length of which is denoted by D in FIG. During this time, however, the auxiliary contact pieces 21 and 47 have not been separated, so that the interruption device 2 has not yet interrupted the circuit. The current now flows via the arc extinguishing device 71, which contains the stationary contact piece 42 and the movable contact piece 35.

The continued rotation of the drive shaft 3 causes a further rotation of the drive housing 10 around the bolts 27 in a clockwise direction, whereby the bolts 58, based on a straight line passing through the When bolts 62 and 67 run, move to the left. The coil spring 65 The force exerted thus acts to the right in relation to the bolts 58. As can be seen from FIG. 1 is, this causes a sudden stopping movement of the switching piece 35 in the position ^ of the switch, wherein the guide rollers 51 guide the contact piece 35 so that there is an approximately rectilinear movement executes.

The disks 37 made of insulating material, which form the arc channel, are preferably made of a gas-emitting material, such as. B. fiber, boric acid or similar materials, so that a considerable amount of gas is generated by the arc drawn in the interior of the channel 38 during the separation of the fixed and movable contact pieces 42 and 35. This gas stream flows axially to the arc and leaves the arc channel 38 through the bores 46 which are provided in the end cap 43 for this purpose. The current interruption takes place very quickly, and a further rotation of the drive housing 10 clockwise into position B in FIG. 1 creates a sufficient air separation distance between the auxiliary contact piece 21 and 47. In the switched-off position of the switch, the individual parts of the snap mechanism 70 assume the position shown in FIG. 8, the helical spring located to the right of the bolts 58

65 a force exerted the movable contact piece 35 holds in the switch-off position.

During the switch-on movement, the processes are reversed. The drive shaft causes the drive housing 10 to rotate about the bolt 27 in a clockwise direction Direction. As a result, the bolts 58 become the straight lines drawn through the bolts 62 and 67 approached. The various parts of the mechanism are located approximately 25 ° from the on position 70 in the stretched position. As the drive housing 10 continues to rotate, the helical spring takes 65 is in such a position that it exerts a force directed to the left in relation to the bolts 58, which causes a sudden closing movement of the movable contact piece 35, so that it is the stationary Contact piece 42 touches. Since at this point in time the auxiliary contact pieces 21 and 47 are already touching, the circuit is closed via the arc extinguishing device 71. Through the further Rotation of the drive housing 10, the main switching piece 20 and the main switching arm 23 come into engagement. Since, as already mentioned, the resistance of the current path across the contact pieces 20 and 23 is considerable is less than that of the current path through the arc extinguishing device 71, the current flows via the contact pieces 20 and 23.

From the above description of the embodiment it can be seen that the formed as a rod movable contact piece 35 both when switching on and when switching off a snap movement executes. It can also be seen that the circuit is switched on and off during the switch-on and switch-off process via the contact pieces 35 and 42 provided in the arc extinguishing device 71 and not via the main contact 20 is closed and interrupted. The coil spring 65 is a high Switching speed of the movable contact piece 35 and the Sdhnappmeohanismus 70 generated in such a way, that by a slight rotational movement of the drive shaft 3 a considerable change in direction the force exerted by the coil spring 65 is achieved. There is only a slight rotation of the drive shaft 3 is required for the switching process, a large space saving is achieved.

At the moment in which the circuit in the arc extinguishing device 71 is interrupted, the distance between the main switching piece 20 and the main switching arm 23 is so great that no flashover between the switching pieces 20, 23 can occur during the interruption of the circuit inside the extinguishing device 71 . As can be seen from position B of the switch in FIG. 1, which corresponds to a rotation of approximately 70 °, there is a sufficient isolating distance between the parts of the switch with different potentials.

Claims (4)

Claims = 1. Disconnector with a movable contact piece designed as a disconnect knife and a Switching point connected in parallel to the isolating distance, which is a device housed in an insulating tube to extinguish the arc and the switch-on during the switch-on process and takes over the disconnection of the circuit during the switch-off process, characterized in that that the arc extinguishing device is arranged parallel to the cutting knife that it is when Switching together with the cutting knife rotates around a common point. 2. Isolating switch according to claim 1, characterized in that the cutting knife and the insulating tube are firmly connected to a rotatably mounted housing. 3. Disconnector according to claim 1, characterized in that that in a known manner in the interior of the insulating tube plates made of a gas dispensing substance are arranged, which are provided with bores, whereby a channel is formed in which the arc is extinguished. 4. Isolating switch according to claim 1, characterized in that the movable contact piece of the Switching point connected in parallel to the switching path in the switch-on point of the switch is known per se Way is under the action of a spring that seeks to open the switching point. Considered publications:
German Patent Nos. 717 262, 713 817, 703, 701 778, 690 295, 668 391, 662 342, 658 697, 620 625, 604 817, 597 335, 589 710, 579 464, 547 270, 715. Legacy Patents Considered:
German Patent No. 948 704. For this purpose 2 sheets of drawings