FR3021159A1 - MEDIUM VOLTAGE ELECTRIC CUTTING APPARATUS USING VACUUM CUTTING TECHNIQUE - Google Patents

Abstract

The present invention relates to a medium-voltage electrical switchgear comprising in phase at least two switchgear devices, each switching device comprising a switchgear, this switchgear being characterized in that it comprises a branch circuit on which a vacuum interrupter ( 9) ensuring the cutoff is placed, said vacuum bulb (9) being adapted to be actuated via one or the other of several actuating means (12,13,14) associated respectively with the various disconnectors (5,6,7), so that the bypass is inactive in steady state, and traversed by electricity only when one of the disconnectors (5,6,7) has begun its opening movement, by a progressive transfer of current from the line comprising the disconnector (5) during opening to the branch line, and in that the movable parts of the abovementioned actuating means (12, 13, 14) are connected mechanically and electrically. to one another by a connecting rod (18).

Description

MEDIUM VOLTAGE ELECTRIC CUTTING APPARATUS USING THE CUTTING TECHNIQUE IN THE VACUUM.

TECHNICAL FIELD The present invention relates to a medium-voltage electrical switchgear comprising, by phase, at least two switchgear devices, each switching device comprising a disconnector placed on an electrical line, said disconnector comprising a first so-called fixed contact and a second said contact. mobile, one of these two contacts being electrically connected to a current carrying bar, while the other contact is connected, respectively for all switching devices, to different electrical circuits, each switching device comprising means to perform the disconnection function and means to provide the breaking function STATE OF THE PRIOR ART It has been known since the 1970s by the main manufacturers of medium voltage switches, the technology for the mechanical separation of electrical contacts in the SF6 in order to cut off the rated currents of the interr upteurs. This solution has many advantages as regards the compactness of the devices, their cost and their performance. These advantages are mainly due to the exceptional physical properties of SF6: dielectric strength, thermal conductivity, chemical stability, electronegativity, non-toxicity .... However, SF6 gas has the disadvantage of being part of the greenhouse gases very important . It is also known to use vacuum bulbs, which can cut large currents without necessarily being placed in the SF6, but these are never used for switch functions because of their very high cost.

Patent FR 2937786 describes a principle that makes it possible to reduce the cost of this technology. The device described in this patent includes a branch on which a vacuum bulb providing the cut is placed. This bypass is inactive in steady state and traversed by the electric current 5 only when the disconnector has begun its opening movement, by a gradual transfer of the current from the main line to the bypass. As the bulb is generally at rest, it no longer has to be dimensioned to the electrical and dielectric stress constraints in steady state. This type of system can therefore be used for all the switches arranged in the same tank and for all phases. However, this type of system does not allow, in terms of cost, to approach the costs of switches using SF6 gas. SUMMARY OF THE INVENTION The present invention provides a medium voltage electrical switchgear that can be implemented without SF6 while having a low cost of manufacture and use. For this purpose, the subject of the present invention is a medium voltage electrical switchgear of the above-mentioned kind, this apparatus being characterized in that it comprises a bypass circuit on which a vacuum interrupter providing the cutoff is placed, said vacuum bulb being adapted to be actuated via one or the other of several actuating means associated respectively with the various disconnectors, so that the bypass is inactive in steady state, and traversed by the current electrical only when one of the disconnectors has begun its opening movement, by a progressive transfer of current from the line comprising the disconnector being opened at the branch line, and in that the moving parts of the means of aforementioned actuations are mechanically and electrically connected to each other by a connecting rod, so that the actuation of one of the aforementioned actuating means causes the actuation of all the actuating means and that the gradual transfer of the current of the line of the disconnector being opened towards the branch line is achieved by the portion of rod located between the actuating means associated with this disconnector during opening and this branch line.

Thanks to these characteristics, a medium voltage electrical equipment is produced with a reduced cost making it possible to avoid the use of SF6 gas. According to another characteristic, at least one of the aforementioned disconnectors is of the rotary type or mu in translation.

According to another particular characteristic, the or each aforementioned disconnector is associated with an actuating means comprising a bar portion connected in an articulated manner to the vicinity of one of its ends, on a fixed support of the apparatus, and between its two ends to the aforementioned rod, said bar portion cooperating at its second end with the movable contact of said disconnector. According to another particular characteristic, all the disconnectors are of the rotary type and are operated in the same direction of rotation.

According to a particular embodiment, the aforementioned branch circuit comprising the vacuum interrupter is associated with one of the switching devices, the actuating means associated with the disconnector of this switching device being connected directly to the movable contact of the ampoule. , the fixed contact of the bulb being mechanically and electrically connected to the transport bar of the aforementioned current at a point corresponding substantially to the point of connection of the corresponding line of the disconnector to said bar. According to another embodiment, the aforementioned branch circuit comprising the vacuum interrupter is disposed away from the switching devices, the various actuating means associated respectively with the different disconnectors being mechanically and electrically connected to the drive device of the movable contact of the bulb.

According to a particular feature, this apparatus comprises three cutting devices arranged side by side, and the bulb is associated with the cutoff device located in the middle of the other two.

According to a particular characteristic, one or each switching device is a medium voltage electrical switch. BRIEF DESCRIPTION OF THE DRAWINGS Other advantages and features of the invention will become more apparent in the detailed description which follows and refers to the accompanying drawings given solely by way of example and in which: FIGS. 1 to 4 schematically illustrate a medium voltage electrical switchgear, according to a particular embodiment of the invention, comprising three switches, in different positions, FIG. 1 illustrates this apparatus in a closed position of all the switches, FIG. 2 illustrates this apparatus during the switching of the first switch, FIG. 3 illustrates this switchgear after switching, all the current flowing through the bulb, FIG. 4 illustrates this switchgear in the open position of the first switch, during the break through the bulb, and FIG. 5 illustrates this apparatus, the first switch being in the sectioning position of the DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION In the figures, there is shown a medium-voltage electrical panel T comprising, for each of the electrical phases of the network, three switches 1,2,3 mounted electrical l one next to the other respectively on three electrical lines a, b, c parallel to one another, and extending in a direction substantially perpendicular to the longitudinal direction of an electrical distribution bar 4 In this particular embodiment, the first two switches 1,2 form the secondary distribution loop while the third switch 3 is a power switch of the user's electrical appliance. Each switch 1,2,3 comprises a disconnector 5,6,7 having a fixed contact 5a, 6a, 7a electrically connected to the bar 4 and a movable contact 5b, 6b, 7b formed by a rotary knife electrically connected to an electrical circuit . The second 2 of the switches is associated with a bypass circuit 8 comprising a vacuum interrupter 9 having a fixed contact 9a electrically connected to the bar 4, at a point situated substantially at the same level of the bar as the point of connection of the fixed contact. 6a of the second disconnector 6 to the bar 4, and a movable contact 9b mechanically and electrically connected to a so-called second actuating means 13, which is mechanically and electrically connected to a first 12 and a third 14 actuating means, as this will be explained in the following. These three actuating means 12, 13, 14 are each constituted by a bar portion 15, 16, 17 mounted articulated by one of its ends, on a fixed support 20 of the frame of the apparatus and by its opposite end. , to a mechanical and electrical connection rod 18 slidably mounted relative to said frame in a direction extending substantially parallel to the longitudinal direction of the bar 4. The movable contact support 19 of the bulb 9 9b is also connected articulated to the portion of bar 16 associated with the second disconnector 6 at a point located between the two ends of this portion of bar 16, so that the rotation in the counterclockwise direction of this portion of bar 16 causes the closing of the contacts of the bulb 9.

The operation of the apparatus will be described in the following with reference to the figures. In normal operation as shown in Figure 1, all switches 1,2 and 3 are closed to supply the secondary distribution loop constituted by the first two switches 1,2 and the customer power switch constituted by the third switch 3. In this embodiment, it will be considered that the first switch 1 is supplied directly by the network and that it feeds itself a downstream portion of the network which is located on its right. As regards the first switch 1, the path of the current is represented by the arrows. The current flowing through the other two switches is not shown. At the beginning of the opening of the first switch 1 as shown in Figure 2, there is a current switching, phase during which the current from the movable contact 5b of the first disconnector 5, will pass through both the fixed contact 5a of the first disconnector and the bar portion 16 of the said second actuating means associated with the second disconnector 6, passing through the first bar portion 15, the connecting portion 18a of the rod 18 located between the two bar portions 15,16 associated respectively with the first two disconnectors, then through the second bar portion 16 and then goes to the bulb 9 to join the busbar 4. This rotational movement of the movable contact 5b of the first disconnector 5 in the clockwise direction has caused a rotation in the counterclockwise direction of the bar portions, and in particular of the second bar portion 16, which causes the moving contact of the vacuum bulb into a position closure. When the opening of the first switch 1 is continued, the moving contact 5b of this first disconnector 5 completely separates from its associated fixed contact 5a, as illustrated in FIG. 3. During this phase, the current then passes more than by the contacts of the vacuum interrupter 9. When the movable contact 5b of the disconnector 5 is sufficiently far from its associated fixed contact 5a, the second actuating means 13 associated with the second disconnector 6 will then begin to open the contacts of the vacuum interrupter, thanks to a system not described here but described in the document FR 2 937 786, which will quickly have the effect of cutting off the electric current, position illustrated in Figure 4. In the pursuit of the opening of the switch, the movable contact 5b of the disconnector 5 will then be released from the bar portion 15 of the first actuating means 12, until reaching its final open position which will ensure isolation d e the voltage between the upstream and downstream of the switch, position illustrated in Figure 5. During this step, the bar portions 15,16,17 will then resume their initial position shown in Figure 1, thanks to the presence of return springs not shown. The closing operation will be performed by operating the disconnector in the opposite direction, which will not produce an effect on the bar portion of the corresponding actuating means, until the contact of the movable contact 5b with the fixed contact 5a.

The operation of the other two switches 2,3 will not be described, because it is the same as that of the first switch 1. The invention may advantageously be used on boards comprising between 2 and 5 switches.

Moreover, one can also imagine integrating this device comprising the vacuum bulb anywhere in a tank (and therefore not necessarily associated with a switch). In this case, mechanical actuation means will then be advantageously placed on all the switches of the cell, these being then electrically and mechanically connected to the drive device of the movable contact of the bulb. Although more cumbersome, this alternative will be interesting in the case where one would not wish to electrically constrain the area of the switches. This may for example reduce the width of the cell at the expense of its height, which can sometimes be less critical vis-à-vis the footprint of the cell.

Thanks to the invention, the cost of breaking in vacuum is considerably reduced by the fact that only one system such as that described in the patent cited above, per phase, is used in the distribution board, the other functions being equipped only with mechanical actuation systems alone. In order to allow the breaking of the current on a switch which is not equipped with vacuum bulbs, a mechanical connection (bar) connects the different moving parts of the actuating systems to each other. Thus, when acting on a system, all other systems (including the one comprising the vacuum bulb) are actuated simultaneously. Of course, the invention is not limited to the embodiment described and illustrated which has been given by way of example. For example, although in the embodiment previously described and illustrated, the complete cutoff system comprising the vacuum interrupter was added to the middle switch, it could have been associated with another of these switches. On the contrary, the invention comprises all the technical equivalents of the means described and their combinations if they are carried out according to its spirit.

Claims (8)

REVENDICATIONS1. Medium voltage electrical switchgear comprising in phase at least two switchgear devices, each switchgear having a disconnector placed on an electrical line, said switch having a first so-called fixed contact and a second movable contact, one of these two contacts being electrically connected to a current carrying bar, while the other contact is connected, respectively for all the switching devices, to different electrical circuits, each switching device comprising means for performing the disconnection function and means for providing the breaking function, characterized in that it comprises a bypass circuit (8) on which a vacuum bulb (9) providing the breaking is placed, said vacuum bulb (9) being able to be actuated by via one or the other of several actuating means (12, 13, 14) associated respectively with the different disconnectors (5, 6, 7), of in such a way that the bypass is inactive in steady state, and traversed by the electric current only when one of the disconnectors (5, 6, 7) has begun its opening movement, by a progressive transfer of current from the line comprising the disconnector (5) being opened at the branch line (8), and in that the moving parts of the aforesaid actuating means (12, 13, 14) are mechanically and electrically connected to each other by a connecting rod (18), so that the actuation of one of the aforementioned actuating means (12, 13, 14) causes all the actuating means to be actuated and the progressive transfer of the current of the line of the disconnector (5) being opened towards the bypass line (8) is made by the portion (18a) of rod (18) situated between the actuation means (12) associated with this disconnector ( 5) during opening and this branch line (8). 2. Apparatus according to claim 1, characterized in that at least one of the aforementioned disconnectors (5,6,7) is of the rotary type or mu in translation. 3. Apparatus according to claim 2, characterized in that the or each aforementioned disconnector (5,6,7) is associated with an actuating means (12,13,14) comprising a bar portion (15,16,17 ) connected in an articulated manner to the vicinity of one of its ends, on a fixed support (20) of the apparatus, and between its two ends to the aforementioned rod (18), said bar portion cooperating with its second end with the movable contact (5b, 6b, 7b) of said isolator (5, 6, 7). 4. Apparatus according to any one of the preceding claims, characterized in that all the disconnectors (5,6,7) are of the rotary type and are operated in the same direction of rotation. 5. Apparatus according to any one of the preceding claims, characterized in that the aforementioned branch circuit (8) comprising the vacuum interrupter (9) is associated with one of the cleavage devices (1, 2, 3). , the actuating means (12, 13, 14) associated with the disconnector (5, 6, 7) of this switching device being connected directly to the moving contact (9b) of the bulb (9), the fixed contact (9a ) of the bulb (9) being mechanically and electrically connected to the transport bar of the aforementioned current (4) at a point corresponding substantially to the point of connection of the corresponding line b of the disconnector (6) to said bar (4). 6. Apparatus according to any one of claims 1 to 4, characterized in that the aforementioned branch circuit (8) comprising the vacuum interrupter (9) is disposed away from the switching devices (1, 2, 3). , the different actuating means (12, 13, 14) associated respectively with the different disconnectors (5, 6, 7) being mechanically and electrically connected to the drive device of the moving contact of the bulb (9). Apparatus according to any one of the preceding claims, characterized in that it comprises three cutting devices (1, 2, 3) arranged side by side, and in that the bulb (9) is associated with the switchgear (2) in the middle of the other two (1,3). 8. Apparatus according to any one of the preceding claims, characterized in that one or each switching device (1,2,3) is a medium voltage electrical switch. 10 15 20 25 30