DE2905854A1 - CIRCUIT BREAKER - Google Patents

Description

Circuit breaker

Circuit Breakers The invention relates to circuit breakers and particularly relates to an air switch. There are air circuit breakers that Have no insulating housing at all, and air circuit breakers that are made of insulating material Have molded housing that consists of the entire switch mechanism the contact structure and the actuating mechanism.

The former type of switch without a housing has the advantage that monitoring and maintenance are easy and cheap to carry out. The dielectric strength between however, the current-carrying portion and the operating mechanism are available low, and especially when formed between the opening contact pieces Arc can occasionally leak current to the operating mechanism pass over. Since this type of switch does not have a housing, the gas pressure in the Do not increase the arc area either, not even if an arc is formed, although an increased gas pressure in the arc area is desirable, because he the Arc voltage increased. For these reasons, the first type of switch is suitable, which has no housing, not for switching off large currents.

The second type of circuit breaker with its live parts and the actuating mechanism enclosing the insulating material housing is able to by loosening the contacts, the pressure in the housing increases to a certain extent raise.

However, since the entire switch mechanism is within a single Housing is located, this is relatively large and it is difficult to to achieve an effective pressure rise that effectively reduces the arc voltage increases. Also, the dielectric strength is between the current-carrying Areas and the other conductive parts, such as the actuation mechanism, not very high. The housing can also be checked during inspections and interfere with normal maintenance work at the counter.

The invention is therefore based on the object of a circuit breaker to create whose nominal short-circuit breaking capacity is significantly higher than at conventional air circuit breakers with a relatively simple structure.

The invention is also intended to create a simple circuit breaker which have a higher short-term breaking capacity compared to conventional circuit breakers, Has. Such a circuit breaker should have an insulating housing and yet be easy to monitor and maintain.

To solve the above-mentioned object, the inventive Circuit breakers have a contact structure with a pair of separable contacts that can be connected to an external circuit. The establishment of contact is in essentially completely enclosed by an insulating housing, so that when separating the contacts of the arcing between the separating contacts the internal pressure in the arc area, which is determined by the housing, increased so that this An increase in pressure is effectively noticeable in an increase in the arc voltage power. The circuit breaker has an operating mechanism for disconnection and closing the contacts, as well as transmission elements. making the movements forward from the actuating mechanism to the contact establishment.

The transmission elements penetrate the insulating housing and connect the actuation mechanism with the actual contact mechanism.

The circuit breaker can also have an arc chamber inside of the insulating housing. This light boa extinguishing chamber can use a variety of extinguishing plates, have an arc gas mixing chamber and a LichX arc gas cooling grid.

The arc extinguishing device can be inside a perforated chamber cover be arranged, which consists of insulating material and releasably on the switch housing body is attached. The connecting elements between the contact structure and the actuating mechanism may have a flange that covers an opening in the housing through which the fasteners extend.

If the switch is a multi-pole circuit breaker, then the insulating housing can be molded in one piece and a plurality of have the individual switching poles assigned chambers, or can be one of individual Pieces of assembled overall arrangement.

The invention is explained in detail below with reference to one in the drawing illustrated embodiment explained in more detail. 1 shows a vertical section by a circuit breaker according to the invention, its contact arrangement and operating mechanism are in the open position; Fig. 2 is a vertical section through part of the circuit breaker shown in Fig. 1, in which, however, the contact structure in closed Position is shown; and FIG. 3 is an exploded perspective view of the Insulated housing and the molded base part for the circuit breaker nacii to Figures 1 and 2.

The circuit breaker 10 has a metal frame 12, a cast-molded one Base part 14, which is connected to the metal frame 12 and a Kontaktau.fbau 16, which is attached to the base part 14 on. The contact structure 16 is with a fixed main contact 18 and a likewise fixed tear-off contact 20 equipped, both of which are conductively connected to a connecting bolt 22, the the Molded base part 40 penetrates and to which the external power connection is led. The contact assembly 16 also has a movable main contact 24 and a movable tear-off contact 26 on a pivotable contact arm 28 sit, which is attached to a holder 30, which in turn with a connecting bolt 32 is firmly connected, which penetrates the molded base 14 to the outside of the switch. A flexible conductor 34 connects the contact arm 28 to the holder 30 and secures a good current transfer.

The contact structure 16 can be operated by an actuating mechanism 36, which is attached to the metal frame 12, between an open position, as shown in Fig. 1, and a closed position of the contacts according to Fig. 2 pivot. The actuating mechanism 36 can be of conventional design with a toggle lever core 38 and operating switch lever 40, an electromagnetic engaging mechanism 42, a tripping mechanism d4 and a rapid overcurrent trip 46, like them are well known.

The contact assembly 16 and the actuation mechanism 36 are over Connecting elements connected to each other, to which a contact lever 50 and a Operating rod 52 made of a suitable insulating material. An end to the Contact lever 50 is pivotally connected to contact arm 28 at 51 while its second end to one end of the operating rod 52 via an adjustment screw 54 is in connection, with which the total length of the arrangement of contact lever 50 and operating rod 52 can be adjusted. The other end of the operating rod 52 is articulated to the toggle lever 38 at 53. In this way, the Movement of the actuating mechanism 36 via the intermediate links onto the contact arrangement 16 transferred. The actuating rod 52 has a flange 56 on, the importance of which will be emphasized at a later point.

The circuit breaker also has an electrically insulating one Housing 58 mounted on the molded base j4. That Insulating housing 58 and the fitting base 14 together enclose the contact arrangement 16, while the actuating mechanism 36 is not enclosed by the housing will. Consequently, the interior of the housing is relatively small, so that at a power interruption, a rapid pressure increase can be achieved, while on the other hand the contact arrangement 16 through the insulating housing wall from the actuating mechanism 36 is insulated so that the dielectric strength therebetween is very high. These relatively simple arrangements make the circuit breaker for high breaking currents suitable.

The housing 58 has a molded opening 60 through which the Operating rod 52, which the contact assembly 16 and the operating mechanism 36 connects, protrudes movably. So that the actuating rod 52 is essentially Can move in the axial direction, the passage opening 60 is in its dimensions a little larger than the actuating rod 52 so that there is clearance between the outer surface the rod 52 and the edge of the opening 60 prevails.

This game is effectively closed by an insulating flange 56, which is molded in one piece with the operating rod 52, so that under high Do not pass through the pressurized gas that is created when the power is interrupted can. It should be noted here that, around A4 zffnuny effective for the passage of gas to close even when the contacts are closed or almost closed, the insulating housing 58 has a thickened wall portion around the flange 56 Has.

In order to take advantage of the insulating housing 58 that contains the contact arrangement 16 encloses, to be used even better, it has a spark extinguishing device 64 on. In the embodiment shown, this extinguishing device 64 is built-in formed in a spark quenching chamber designed as a cover 68, which on the main body of the housing 58 is fitted with screws 70, for example. The cover 68 contains numerous quenching plates 72, an arc gas mixing chamber 74 and an arc gas cooling grid 76.

The insulating housing 58 has in the illustrated embodiment the shape shown in Figure 3. The fitting base 14 has three sections, each one for each pole unit separated from each other by vertical walls 78, 80, 82, 84, which are part of the fitting base 14 are kept separate. The insulating Housing 58 has four partition walls 86, 88, 90 and 92 that rest on the vertical Walls 78 to 84 of the fitting base 14 are fixed, for example by screws 94 will. So if the housing 58 is connected to the fitting base 14, then there are the interiors defined by the housing 58 and the base 14 from each other completely isolated by vertical walls 78-84 and 86-92. The openings 60, through which the actuating rod 52 can pass, are shown can be seen in the upper part of the housing 58.

The quenching chambers 68 are with screws 70 or the like. On the open Side of the insulating housing 58 placed, with side legs in the open sides step in.

When the power switch has been put together in this way then the contact arrangement 16 with parts of the terminals 22 and 32 is practical entirely of the fitting base 14, the insulating housing 58 and the arcing chamber 68 enclosed, these elements being coordinated with one another. The mechanical The strength of the housing formed in this way can be easily increased by enlarging it the wall thickness of the individual parts or by use one mechanical increase in solid material, thereby increasing the internal gas pressure caused by the arcing can be taken into account when switching off.

If desired, the insulating housing 58 can also be formed in three parts each of which has two vertical walls, then the required Adjustments to the items on the fitting base 14 must be made. The cover 68 containing the extinguishing device can also be the only large one Be formed piece in which then three individual arcing chambers for the three switch poles are included.

In order to correctly assess the value of the invention, the Invention on a conventional air circuit breaker with a rated current of 2000 A, a short-time current of 50 kA for 1 s at 500 V AC voltage and a short-circuit breaking current of 50 kA was used, and it was found that there was no change in the short-term current the short-circuit breaking current could be increased from 50 kA to 100 kA during 1 s, which is in contrast to a current-limiting circuit breaker that has a Requires reduction in short-term current.

With the invention, therefore, an air circuit breaker is created in which the switch contact structure with its current-carrying parts of each switch pole is surrounded by an insulating housing and the individual switch poles with each other as well as are isolated from the actuation mechanism. The housing can be an arc extinguisher with a removable cover that covers the usual parts of the Includes arc chamber. A connecting rod between the contact arrangement and the operating mechanism has a flange covering the opening through which runs the operating rod. When opening the contacts increases due to of the arc, the pressure in the housing and thus releases the arc voltage very increase rapidly, resulting in rapid arc extinction. The dielectric There is also strength between the switch contacts and the operating mechanism Greatly improved compared to the conventional design.

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Claims (5)

P A T E N T A-N S P R U C H E air circuit breaker with a contact arrangement, which contains a pair of separable contacts which can be connected to an external circuit are, and an electrically insulating housing, characterized in that the Housing surrounds the contact structure (16) substantially so that the inside of the The pressure created by the housing has an effect on the increase in the arc voltage, that an operating mechanism, the opening movements and closing movements of the Causes switching contacts, is located outside the housing and opposite the Contacts is isolated by the housing, and that means (52) extends through the housing (58) extend therethrough to the movements of the actuating mechanism on the contact assembly transferred to. 2. Circuit breaker according to claim 1, characterized by a spark extinguishing arrangement (64). 3. Circuit breaker according to claim 1 or 2, characterized in that that the housing consists of an insulating base part (14) and one with the base part (14) connected Isolierstoffgehauseteil (58) consists. 4. Circuit breaker according to claim 2, characterized in that the spark extinguishing arrangement (64) is arranged within an arcing chamber cover (68) is, which can be placed on the main part of the housing (58). 5. Circuit breaker according to one of claims 1 to 4, characterized in that that the connecting means (52) carry auxiliary means (56) to the passage opening (60) through the housing (58) for the connecting means (52) against gas leakage in the essential to complete.