This application claims priority to French Patent Application No. 08 50007, filed Jan. 2, 2008.
1. Technical field
This invention relates to the field of high voltage and very high voltage circuit breakers (of the metal-clad and dead tank types), comprising, for each phase, at least two breaker chambers connected electrically in series and having a common transmission.
Putting the breaker chambers in series makes it possible, when breaking a fault current (for example a short-circuit current), to spread the voltage between the said chambers, thereby facilitating extinction of the arc.
2. Prior Art
At the present time, a high or very high voltage circuit breaker may have several, typically three, breaker chambers in alignment with one another.
In order to transmit the motion of a first breaker chamber to a second chamber, insulating drawbars outside the chambers are used for opening all of the movable contacts at once. The use of such drawbars involves the need also to make use of covers and to arrange for long insulating distances, that is to say significant distances between the said drawbars at the line voltage and the metal tanks, which are at ground potential.
For example, the document U.S. Pat. No. 3,895,202 may be cited, which teaches a transmission common to four breaker chambers aligned with each other, the transmission consisting of two external drawbars 80 and 82.
The document U.S. Pat. No. 4,562,319, which is an improvement on U.S. Pat. No. 3,895,202, also teaches a transmission common to four breaker chambers aligned with one another and offset in parallel, lengthwise in pairs, the transmission being again in the form of external drawbars.
Those known structures thus give a very long circuit breaker. In addition, the mechanical parts used for the transmission, and their arrangement, can give rise to difficulties. When being driven, the mechanical parts are deformed, and this puts the chambers out of synchronism with one another, even when the circuit breaker has been correctly adjusted in slow-motion operation. Drawbar transmission also involves a substantial excess of moving mass, which leads to larger components and to high loads. Moreover, it is necessary to provide guidance for movement of components, while preventing rotation and ensuring that the components designed to pass through the parts constituting the support for the breaker chambers will do so.
In order to mitigate those disadvantages, the Applicant has proposed, in Patent Application FR 0 758 322, an improvement which, in particular, enables the total length of the circuit breaker to be reduced, with breaker chambers aligned with one another, and which simplifies the mechanical transmission means and their arrangement.
The object of the invention is accordingly to propose a further solution that enables the total length of the circuit breaker to be reduced and that resolves difficulties in the transmission of motion to all the breaker chambers.
To this end, in a first aspect, the invention provides a high or very high voltage circuit breaker comprising, for each phase, a metal tank in which there are mounted at least two breaker chambers connected electrically in series with each other, each breaker chamber including a pair of main contacts and a pair of arcing contacts, each of which is integral with one of the main contacts, wherein:
the breaker chambers are arranged parallel to each other in the tank;
the ends of the chambers, through which at least one pair of movable contacts of each chamber is driven, are situated in a common plane; and
the mechanical transmission assembly, which effects the simultaneous transmission of movement and which determines identical path lengths for the movement of the movable contacts of at least two said chambers, comprises, firstly, at least two bars of identical lengths, each of which is coupled with the pair of movable contacts of one of the said chambers, and secondly, drive means coupled to the said bars and adapted to be coupled to at least one drive rod outside the tank or extending through a wall of the tank.
The invention reduces to a minimum the distance between the starting points of the movement in each chamber and the control means (i.e. the drive rod or rods). This enables not only the total length to be reduced, but also the overall length of the circuit breaker (that is to say, the overall longitudinal dimension of the circuit breaker including that of the tank), in spite of the fact that the tank incorporates at least two breaker chambers. In the configuration in which the actuating means are arranged at least partly outside the tank, the overall length to be considered is the overall length including that of the actuating means in the extreme open position in a current breaking operation. In addition, transport and installation of the circuit breaker of the invention are both made easier.
Finally, the invention improves equal distribution of voltage over at least two breaker chambers, because parasitic capacitances between the breaker chambers and the tank are reduced.
The operation achieved by the rod according to the invention is exclusively a translation motion that separates each moveable contact from the fixed contact of a given pair in a same chamber in a translating way along the axis of said chamber.
The interrupter chambers are modules in which the principal contacts and the arcing contacts are arranged coaxially.
In an advantageous embodiment, the circuit breaker of the invention has either three or four breaker chambers.
In one embodiment, each pair of contacts consists of two movable contacts, with additional transmission means being provided for each chamber to separate its main and arcing contacts from each other during a current breaking operation.
Two alternative ways of providing control may be provided. The drive means coupled to the bars, and the drive rods, may perform separate control functions.
The drive means coupled to the said bars may, as an alternative, comprise a yoke adapted to be coupled to a single drive rod.
The word “yoke” is to be understood to mean here, and in the context of the invention, any mechanical device that enables each of the bars to be itself coupled to a pair of movable contacts of a breaker chamber, and that permits the concomitant transmission of the motion of those contacts to the bars, with, for each bar, a fair distribution of the tensile or compressive force generated by the drive rod. In the advantageous (preferred) embodiment having three breaker chambers, the yoke provides coupling to all three bars (all of equal lengths) of those chambers, with concomitant transmission of the motion to those three bars, and with, for each bar, a fair distribution of one third of the tensile or compressive force generated by the drive rod.
In one version, the yoke is arranged outside the tank.
In an alternative version, the yoke is arranged inside the tank.
The yoke may be made of an electrically insulating material and is coupled to the drive rod, which is made of an electrically conductive material.
Alternatively, the yoke may be made of an electrically conductive material and is coupled to the bars, which are made of electrically insulating material.
Preferably, the mechanical retention of the breaking chambers in the tank is effected, only on the side of the circuit breaker that faces the drive rod or rods, by insulating elements in the form of sleeves that are fixed to the wall of the tank.
Preferably again, the circuit breaker includes electrical connecting elements between the breaking chambers that serve for current output, at least a portion of the said elements being arranged parallel to the plane in which are situated the ends of the said breaking chambers through which the pair of movable contacts of each chamber is driven.
In a further version in which only two breaking chambers are arranged inside the metal tank, the electrical connecting elements comprise a metal bar also arranged inside the tank, parallel to the chambers, the bar being connected to the portions of the electrical connecting elements that are disposed parallel to the plane of the ends of the said chambers through which the pair of movable contacts of each chamber are driven.
The breaking chambers may be made with vacuum chambers.
The circuit breaker of the invention may be disposed in an orientation other than horizontal, as part of a dead tank.
The invention also provides the use of a circuit breaker of the kind set forth above as part of a metalclad switchgear unit (GIS).
Finally, the invention provides a method of mounting a circuit breaker of the kind set forth above, including a step of making a sub-assembly consisting, at least, of two breaking chambers, and of drive means to be coupled to the bars, assembled on a cover member of the tank, and in which at least the two said breaking chambers are then fitted in the tank by closing the body of the tank with the sub-assembly.
Further advantages and features of the invention will appear more clearly on a reading of the following detailed description with reference to the attached drawings.
The high or very high voltage circuit breaker D shown includes, in each phase, three breaker chambers Ca, Cb, and Cc that constitute modules arranged in a metal tank 1.
Each chamber Ca, Cb, Cc includes, respectively, a pair of main contacts 2a and 3a, 2b and 3b, and a pair of arcing contacts 4a and 5a, 4b and 5b, each of which is fastened to one of the main contacts in mating relationship of complementary male and female portions. Each pair of contacts includes a single movable main contact 2a or 2b, or a single movable arcing contact 4a or 4b (see
In the embodiments shown, the three chambers Ca, Cb, and Cc are identical to one another.
In the practice of the invention, the breaker chambers Ca, Cb, and Cc are first arranged parallel to one another in the tank 1 (see
Also in the practice of the invention, the ends 6a, 6b, and 6c of the respective chambers Ca, Cb, and Cc, through which the pair of movable contacts 2a and 4a or 2b and 4b of each chamber are driven, lie in a common plane X.
Finally in relation to the invention, the mechanical transmission that transmits simultaneous movement between the movable contacts 2a and 4a of the first chamber Ca, between the contacts 2b and 4b of the second chamber Cb, and between the contacts of the third chamber Cc, comprises three bars 7a, 7b, and 7c of equal length, each of which is coupled to the respective movable contacts 2a and 3a, or 2b and 4b of the chambers. The transmission also includes a yoke 8 coupled to the three bars 7a, 7b, and 7c and adapted to be coupled to a single drive rod 9 outside the tank 1.
In the version shown in
The bars 7a, 7b, and 7c may be of insulating material and the yoke of conductive material (metal). The yoke 8 may also pass through the wall of the tank (with a sealing system being provided for this purpose). As shown in
In the version shown in
The circuit breakers shown further include electrical connecting elements 15 for connection between the three breaker chambers Ca, Cb, and Cc to provide output means for the current, the said elements 15 being arranged parallel to the plane X in which the ends of the breaker chambers 6a, 6b, and 6c lie.
In the embodiments shown, the movable arcing contacts are in the form of tulips 4a, 4b, and the fixed contacts are in the form of rods 5a and 5b, each of which is extended in length by a tripod.
The architecture of the apparatus of the invention leads to easy fitting of resistive inserts 16 in line as shown in
The embodiment of
In an embodiment that is not shown, in which only two breaker chambers are arranged in the tank, such as for example two chambers Ca and Cb, a metal bar for electrical connection may be fitted in place of the third breaker chamber Cc. In such a configuration, a bar of the same kind as the bar 7c is omitted. In other words, the connecting bar is fixed and has no mechanical connection with the drive means. The use of a metal bar for electrical connection between the two breaker chambers is of advantage in those applications in which a predetermined distance is required between the current input 13 and output 14 in the circuit breaker. One application envisaged in this regard is a circuit breaker of the live tank type.
The invention is simple to make, and enables at least two, and typically three, standard breaker chambers to be used, the shape and dimensions of which do not have to be specific to the apparatus of this invention.
The advantages of the apparatus of the invention are many, for example the following:
reduction in length of the tank;
elimination of the need to transmit movement from one breaker chamber to another;
ease of transport of the circuit breaker of the invention;
resistive inserts can be fitted on the axis of the tank;
mechanical stresses on the insulating components of the drive means are reduced; and
synchronization of the operation of at least two, and typically three, breaker chambers.
Number | Date | Country | Kind |
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08 50007 | Jan 2008 | FR | national |
Number | Name | Date | Kind |
---|---|---|---|
3691332 | Sharp | Sep 1972 | A |
3793494 | Cleaveland | Feb 1974 | A |
3895202 | Okerman et al. | Jul 1975 | A |
4027123 | Ihara | May 1977 | A |
4562319 | Badon et al. | Dec 1985 | A |
4769740 | Wagenbach et al. | Sep 1988 | A |
5347096 | Bolongeat-Mobleu et al. | Sep 1994 | A |
5663544 | Niemeyer | Sep 1997 | A |
5668360 | Perret et al. | Sep 1997 | A |
6560091 | Takahoshi et al. | May 2003 | B1 |
6631075 | Kashima et al. | Oct 2003 | B2 |
Number | Date | Country |
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2682807 | Apr 1993 | FR |
Number | Date | Country | |
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20090166333 A1 | Jul 2009 | US |