The invention relates to a circuit breaker, in particular for use in aircraft or spacecraft equipment, with a threaded collar fixed on the breaker housing and an approximately cylindrical actuating element displaceably guided in a bore of the threaded collar and partially protruding from the breaker housing. The actuating element being mechanically connected to a switching mechanism in such a way that the switching mechanism is adjustable between a closed position and an open position by manual pushing or pulling of the actuating element.
Such circuit breakers are commonly used in particular in aviation and aerospace technology and have to conform to national and international standards. Known to exist are single-pole configurations, which are described for example in DIN EN 2495, MS 3320 (US) and VG 95345-6, and multi-pole configurations for the simultaneous switching of multi-conductor networks, which are described for example in VG 95356-11 and AS 14154 (US). Circuit breakers of this type are fitted in aircraft and in the cockpit area as well as outside the pressurized cabin, for example in the landing gear. The circuit breakers used here must always remain operational even under adverse environmental conditions, such as changing atmospheric pressure and changing temperatures, in particular low temperatures. In this respect, it must be ensured in particular that any ingress of condensate and solid particles, such as for example dust or soot, into the breaker housing is prevented.
It is known from the standard VG 95345-23 to use an additional protective cap for sealing a circuit breaker in the area of its actuating element. The protective cap is in this case screwed onto the threaded collar of the circuit breaker in place of a customary fastening nut and contains a flexible sealing element which either completely encloses the part of the actuating element protruding from the breaker housing or fits snugly around the circumference of the actuating element in the manner of an annular lamella. In a disadvantageous way, the sealing element of the known protective caps is itself disposed in a permanently unprotected way on the surface of the circuit breaker that is visible and can be touched. The sealing element is consequently exposed not only to adverse environmental influences but also possibly to mechanical loading, for example by an installation tool, so that mechanical damage to the sealing element is not ruled out. In addition, the circuit breaker is only sealed as long as the protective cap is firmly screwed on it. In particular, proper functioning of the circuit breaker is only ensured if the mounting of the protective cap is properly performed.
It is accordingly an object of the invention to provide a sealed circuit breaker with push-pull actuation that overcomes the above-mentioned disadvantages of the prior art devices of this general type.
With the foregoing and other objects in view there is provided, in accordance with the invention, a circuit breaker. The circuit breaker contains a breaker housing, a switching mechanism disposed in the breaker housing, a threaded collar fixed on the breaker housing and has a wall and a bore formed therein delimited by the wall, and a substantially cylindrical actuating element displaceably guided in the bore of the threaded collar and partially protruding from the breaker housing. The actuating element is mechanically connected to the switching mechanism for toggling the switching mechanism between a closed position and an open position by manual pushing or pulling the actuating element. A space between the wall of the bore and a circumference of the actuating element defines an annular gap. A sealing ring is provided for sealing the annular gap.
Accordingly, in the case of a circuit breaker of the generic type, a sealing ring that is disposed between the wall of the bore provided in the threaded collar of the circuit breaker and the circumference of the actuating element is provided and seals the annular gap formed there.
The sealing ring has the effect of protecting the circuit breaker in a simple way on the actuating side from splash water and condensate and also from penetrating contamination. The sealing ring is advantageously fitted already during the production of the circuit breaker. The circuit breaker is consequently already sealed in itself before installation, for example in an aircraft, thereby avoiding possible sources of error due to incorrect mounting or installation errors. Furthermore, the sealing ring is concealed in the threaded collar of the circuit breaker and consequently protected from damaging external access.
In a preferred configuration of the circuit breaker, the sealing ring lies in an annular groove of the actuating element and is consequently held in a non-slip manner on the circumference of the actuating element. This makes particularly simple production of the circuit breaker possible. In an equivalent way, however, the sealing ring may also lie in a groove alternatively provided in the threaded collar, and consequently be held on the threaded collar. The actuating element expediently contains a basic body, onto the circumference of which a marking ring and an end ring, disposed toward the inside of the housing from the latter, are pushed. The marking ring, which is made to be of a different color than the basic body, in particular white, is in this case only visible from the outside if the actuating element and the switching mechanism connected to it are in the open position. Such a switching position indication has already been described in the aforementioned standards. The marking ring and the end ring are in this case advantageously used for forming the annular groove, in that they are pushed onto the basic body with a spacing and receive the sealing ring between them.
Other features which are considered as characteristic for the invention are set forth in the appended claims.
Although the invention is illustrated and described herein as embodied in a sealed circuit breaker with push-pull actuation, it is nevertheless not intended to be limited to the details shown, since various modifications and structural changes may be made therein without departing from the spirit of the invention and within the scope and range of equivalents of the claims.
The construction and method of operation of the invention, however, together with additional objects and advantages thereof will be best understood from the following description of specific embodiments when read in connection with the accompanying drawings.
In all the figures of the drawing, sub-features and integral parts that correspond to one another bear the same reference symbol in each case. Referring now to the figures of the drawing in detail and first, particularly, to
The circuit breaker 1 contains a breaker housing 2 formed of an insulating material, from which at least one pair of terminal contacts 3 and 4 protrude. By electrical contacting of the terminal contacts 3 and 4 with non-illustrated conductors of a circuit to be protected, the circuit breaker 1 is connected in the way intended into the circuit to be protected.
The circuitry of the circuit breaker 1 is schematically represented in
In normal operation of the circuit breaker 1, the switching contact 7 is closed, so that a current flow between the terminal contacts 3 and 4 is made possible. If there is an electrical overload in the current path 5, the trip 6 actuates a switching mechanism 8, which is only indicated. The switching mechanism 8 contains a latching mechanism 9, which opens the switching contact 7. The circuit breaker 1 thereby switches from the closed position, represented in
For the manual actuation of the circuit breaker 1, it has an approximately cylindrical actuating element 10, which partially protrudes from the breaker housing 2 on an upper side 11 of the housing opposite from the terminal contacts 3 and 4. The actuating element 10 is in this case displaceably guided in an approximately hollow-cylindrical threaded collar 12, which bears an external thread (not represented any more specifically) and, as described in more detail in the aforementioned standards, is provided together with a non-illustrated fastening nut for screwing the circuit breaker on a non-illustrated installation plate. The actuating element 10 is mechanically connected captively to the switching mechanism 8, in particular riveted, and protrudes further from the breaker housing 2 in the open position represented in
In
Number | Date | Country | Kind |
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102 53 597 | Nov 2002 | DE | national |
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6710695 | Pellon et al. | Mar 2004 | B1 |
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90 06 428.3 | Oct 1990 | DE |
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0 613 160 | Aug 1994 | EP |
Number | Date | Country | |
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20040095700 A1 | May 2004 | US |