DE1027281B - Electrical circuit breaker - Google Patents

Description

GERMAN

The invention relates to an electrical circuit breaker with mutually movable Contacts, a device for drawing an arc between those contacts and a for receiving and extinguishing the arc, the arc shaft with a number of blocking plates extending along the axis of the chamber and several of which are slotted that are in alignment near and at a distance from the arcing zone are arranged in a staggered position so that the arc when it passes through the shaft moved, made to extend, wherein a number of the plates have a plurality of through holes.

Task of any electrical circuit breaker as well as that of the known type indicated above It is structured in a wise way not only to extinguish the arc as quickly as possible, but also to extinguish it The aim can also be achieved with an arc duct with the smallest possible dimensions.

In the present case, the object is now achieved according to the invention in that the openings Adjacent panels offset in a direction transverse to the longitudinal axis of the shaft are to reduce the arc voltage by restricting the largest arc diameter at the arc passage through these openings to enlarge. In this case, the aforementioned openings in the plates not only has the effect that, as stated, they limit the arc voltage the largest arc diameter when the arc passes through these openings, rather, their arrangement in a direction transverse to the longitudinal axis of the shaft also contributes above all to this to reduce the height of this shaft through better utilization of the shaft width. In the Drawings is

1 shows a cross section of a magnetic quenching device according to the invention in a circuit breaker,

Fig. 2 is an exploded view of a group of the locking plate stack shown in Fig. 1;

Fig. 3 is a left end view of the plate group shown in Fig. 2,

FIG. 4 shows a cross section of a group of the blocking plates shown in FIG. 2 along line IV-IV of FIG. 3, namely downstream of the arc formation zone,

Fig. 5 is an exploded view of a modification of the locking plate assembly shown in Fig. 2;

FIG. 6 is a left end view of that shown in FIG. 5 Locking plate group,

7 is an exploded view of a

Applicant:

Allis-Chalmers Manufacturing Company, Milwaukee, Wis. (V. St. A.)

Representative: Dr.-Ing. H. Ruschke, Berlin-Friedenau,

and Dipl.-Ing. K. Grentzenberg, Munich 27,

Pienzenauerstr. 2, patent attorneys

Claimed priority:
V. St. v. America August 12, 1952

Donald E. Weston, Wauwatosa, Wis. (V. St. A.),
has been named as the inventor

Modification of the locking plate group shown in Fig. 5,

Fig. 8 is a left end view of the locking plate group shown in Fig. 7;

FIG. 9 is a cross section through one shown in FIG. 7 Blocking plate group according to line IX-IX of FIG. 8, downstream of the arc formation zone,

Fig. 10 is an exploded view of another modification of the locking plate group shown in Fig. 2;

11 is a left end view of the locking plate group shown in FIG. 10;

FIG. 12 is an exploded view of a further modification of that shown in FIG Lock plate group and

13 is a left end view of the locking plate group shown in FIG.

The magnetic quenching device shown in Fig. 1 contains two clamping bolts 6 and 7 for connection the breaker with the power lines (not shown). Circuit breaker of the type shown in FIG Art have several similar PoI structures, namely one structure for each phase multi-phase circuit, but only one such pole structure is shown in the drawing, on which the details of the circuit breaker are to be described.

The circuit breaker shown in Fig. 1 consists essentially of a breaker switch, in which the switching arc forms, and from an extinguishing device for the switching arc. Of the Switch has a fixed contact part 8, a

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Tertiary contact 9, a fixed tear-off contact 10 and a movable tear-off contact 11. The tear-off contact 11 sits on a lever 28, which is at 12 on a shoulder 13 of the clamping bolt 6 is mounted and driven by means of a rod 14 movable to and fro will. The drive rod 14 is connected to a drive (not shown) to the movable To move contact between the closed and open positions. In Fig. 1 is the movable contact part 11 in the closed position. The tear-off contacts are with the lower end the clamping bolts 6 and 7 are electrically connected. If the breaker is therefore in series in a closed one Circuit and the tear-off contacts are separated, then arises in the between the contacts existing gap a switching arc.

To extinguish this switching arc, an extinguishing device, namely an extinguishing shaft 15, is provided. which absorbs the switching arc and which is under the influence of a magnetic quenching device stands. When the extinguishing device acts upwards, the shaft is preferably located directly above the tear-off contacts, but can also be attached to a different location if the Extinguishing device works in the other direction. The switch or tear-off contacts and the magnetic Extinguishing devices can have any preferred form, so that a brief description will suffice. The magnetic erasing device consists of a core 17, the poles 18 and a coil 16. The coil 16 is connected to the clamping bolt 7 and a metallic running rail 19, so that the switching arc current during the movement of the switching arc along the running rail 19 through the quenching coil in a known manner Way flows.

In the closed position of the switch, the current is passed through the spring-loaded contact 8 directed. When the movable tear-off contact 11 is in the open position, the current flows from the stationary contact 8 first to the fixed contact 9 and then to the fixed tear-off contact 10. As soon as a Switching arc is drawn from the movable tear-off contact 11, the end of the switching arc is transmitted from the tear-off contact 10 to the running rail 19, which is usually an approach of the fixed Tear-off contact is. As soon as the movable tear-off contact 11 is in a certain open position approaches, the other end of the switching arc jumps from the movable tear-off contact 11 onto a running rail 20, which directs the switching arc into the shaft 15. The tear-off contact 10 and the running rail 19 are electrically connected in series with the quenching coil 6 and the contact 7. At the beginning of the Switching arc interruption is so the quenching coil already excited to the arc in a known manner to influence, d. H. to drive the expanding arc into the shaft. The delete field is very effective if the pole iron 18 are set up outside the shaft so that they are connected to the quenching coil work together in the usual way.

According to the invention, the arc extinguishing shaft 15 is slotted with several spaced apart Locking plates are provided, which run in the longitudinal direction of the axis of the extinguishing shaft, and at the same time, a number of the plates are provided with several openings. As can be seen from FIGS. 2 and 3, the locking plates are arranged in groups, each group consisting of several different types There is locking plates that have a different geometric outline. Each group consists of one first locking plate 23, a second locking plate 24 and a third locking plate 25. The locking plate 23 has a relatively short, inverted V-shaped slot 26 and several openings 27 that stand near the apex of the slot 26 and extend in a straight line from the slot of the apex extend after the starting point of the locking plate. The openings 27 in the plate 23 can be in different Be arranged in a manner. The rectilinear arrangement is, however, a preferred embodiment, the small openings being about 3 mm in diameter and 12.5 mm apart lie in the plane of symmetry of the arc extinguishing shaft.

The locking plates 24 and 25 have relatively long slots 30 and 31, respectively, with narrow parallel ones Ends 32 and 33 on opposite sides of the plane of symmetry of the arc extinguishing shaft to find oneself. The slot 31 and its end slot 33 in the locking plate 25 are a mirror image of the slot 30 and end slot 32 in the locking plate 24. This staggered arrangement of the slots 30 and 31 as well its ends 32 and 33 forming a zigzag path find arcs. The locking plates 24 and 25 can in other embodiments with several openings 29 extending from the downstream ends of slots 30 and 31 to the exit end of the arc extinguishing shaft. In other embodiments, the openings 29 the locking plates 24 and 25 can be omitted.

The slots 26, 30 and 31 of the locking plates 23, 24 and 25 lie on their against the arcing zone directed ends side by side to form an arc passage, and are at their the ends remote from the arcuate area are offset from one another. As a result of the staggered arrangement of the slots 26, 30 and 31, the arc moving through the slots is elongated. Of the Slot 26 in the locking plate 23 lies with its Eadpunkt on the longitudinal axis of the locking plate 23 The slot 30 of the locking plate 24 is aligned with the slot 26 of the locking plate 23 at the arc formation zone aligned and is offset from this central axis with its end point located at the other end. The slot 31 of the locking plate 25 is with the slots 26 and 30 of the locking plates 23 and 24 at the arc formation zone and is a mirror image of the slot 30 in the lock plate 24. The plane down to which the slots 32 and 33 in the locking plates 24 and 25 go down lies approximately at the level at which the openings in the locking plate 23 begin. The average Width of the narrow slot parts in the locking plates 24 and 25 and the width or the diameter the openings 27 in the locking plate 23 are preferably of the same size.

Figure 4 shows the path of an arc through a stack of barrier plates at approximately that through which Line IV-IV of Fig. 3 indicated point, which is above the arc formation zone. Fig. 4 shows also a change in the stack structure of the locking plates shown in FIG. The one shown in FIGS. 2 and 3 The special blocking plate structure shown is only to be considered as an example of stacking. The locking plates can be set up in any other order while still giving the results and benefits of the invention can be achieved.

Figs. S and 6 show a modification of the locking plate structure shown in Figs. 2 and 3, wherein the locking plates 35 and 36 to the locking plates 24

and 25 are similar except that the narrow ends 32 and 33 of the locking plates 24 and 25 are replaced by a plurality of openings 37 extending from the ends of the slots 30 and 31 in straight lines approximately parallel to the longitudinal axis of the arc duct » extend after the exit end of the shaft. A stack structure or a group structure The barrier plates shown in FIG. 5 can contain all or part of the barrier plates shown contained in any order.

7 and 8 show a modification of the locking plate structure shown in FIGS. 5 and 6, the locking plate 23 of FIG. 2 being replaced by a locking plate 38. "The locking plate 38 has a slot 39, the leg of which is close to the longitudinal axis of the arc chute and is located near the exit end of the plate.

Figure 9 shows the arc path through a stack of barrier plates approximately at that through line IX-IX the location shown in FIG. 8, which lies above the arc formation zone. Fig. 9 also shows one Another composition of the stack of locking plates shown in FIGS. 7 and 8.

10 and 11 show a modification of the locking plate structure shown in FIGS. 2 and 3, wherein the openings 27 of the locking plate 23 are staggered near the end point of the slot 26 and after Exit end of the lock plate extend.

FIGS. 12 and 13 show a modification of the locking plate structure shown in FIG. The openings 37 of the locking plates 35 and 36 are staggered near the end point of the slots 30 and 31 and extend from the slots towards the exit end of the locking plates.

Under normal interruption conditions, an arc occurs immediately after the breakaway contacts are separated 10 and 11 generated. The end of the arc on the fixed tear-off contact 10 is on the running rail 19 by the magnetic extinguishing device uind the thermal effect of the Driven by an arc. As soon as the movable tear-off contact 11 moves away from the stuck tear-off contact 10 separates, the other end of the arc jumps from the contact 11 to the rail 20 and is also by the extinguishing device and the thermal effect of the arc after the exit end of the arc shaft 15 driven.

As soon as the ends of the arc move along the rails 19 and 20 to the exit end of the arc chute 15 move, the arc moves into the arc passage through the there are slots of the blocking plates formed near the arc formation zone.

The arc rises in the arc passage under the influence of the extinguishing device and the Heat effect of the arc and is narrowed by the sides of the slot. When moving the Arc through the locking plate stack, the arc is extended because it is through the locking plates with their parallel and offset to the center line or the longitudinal axis of the arc extinguishing shaft 15 standing arc guide slots in a horizontal plane uniformly and at a certain speed shifts. If the slots are staggered in some of the locking plates, the Arc of a zigzag path through the arc extinguishing shaft. The openings used in some panels limit the maximum diameter of the arc over a large portion of its length, increase it thereby increasing the voltage of the arc and delaying the movement of the arc the license arc extinguishing shaft. The openings in these plates also cool and deionize the arc combustion products, so that the flame emerging from the outlet end of the arc extinguishing shaft is very much reduced in size or no longer at all exit. The arc length is controlled by the staggered arrangement of the slots in the locking plate. The impedance opposing the arc movement through the arc extinguishing duct becomes regulated by the openings provided in some of the plates.

There are only a few embodiments of the invention shown and described, but can Changes and modifications can be made without departing from the scope of the invention or the scope to leave the claims.

Claims (4)

Patent claims: 1. Electrical circuit breaker with mutually movable contacts, a device for pulling an arc between these contacts and one for picking up and Extinguishing the arc shaft, which has a number of insulating plates, extending along the axis of the chamber and several of which are slotted that are in alignment near and at a distance from the arcing zone are arranged in a staggered position so that the arc when it passes through the shaft is moved, made to extend, wherein a number of the plates a plurality of substantially round through openings, characterized in that the through openings of adjacent plates in a direction transverse to the longitudinal axis of the shaft staggered to reduce the arc voltage by restricting the largest arc diameter when the arc passes through these openings. 2. Apparatus according to claim 1, characterized in that the openings in a plate a group are arranged in a straight line which is substantially parallel to the longitudinal axis of the arc shaft. 3. Apparatus according to claim 1 and 2, characterized in that in the second and third Plate of a group provided, from the ends of the slots to the exit end of the arc duct extending openings are arranged in a zigzag path. 4. Apparatus according to claim 3, characterized in that the openings in the first Plate of a group after the exit end of the arc chute in a zigzag line extend. Considered publications: German patent specifications No. 403 068, 597 181, British Patent No. 615,025. 1 sheet of drawings © 709 958/305 3.