FR2898728A1 - Electric current measurement transformer for use in three phase system, has two switches normally opening connections with intermediate terminals, and two switches normally closing electric and end connections with end connection terminal - Google Patents

Abstract

The transformer has intermediate terminals (B1, B2) connected to branched connections (10, 12) and an end connection terminal (B3) connected to an end connection (13). Commutators (4, 5) are constituted by switches (4a, 4b, 5a, 5b) respectively, where the switches (4a, 5a) are normally open and the switches (4b, 5b) are normally closed. The switches (4a, 5a) normally open the connections (10, 12) with the terminals (B1, B2) and the switches (4b, 5b) normally close electric and end connections (11, 13) with the terminal (B3). The number of switches is equal to number of connection terminals.

Description

Electrical transformer measuring several reports of

transformation.

  The present invention relates to a current measuring electrical transformer intended in particular to cooperate with a measuring, counting, control or monitoring apparatus. It is known that a measurement transformer comprises a primary circuit and a secondary circuit comprising at least one winding. The meter may have one or more fixed ratings, the role of the current transformer being to provide a secondary current compatible with the gauge of the meter. To this effect, rather than providing a whole range of measurement transformers each having a conversion ratio adapted to the needs, it is more economical to manufacture a single transformer in which it is easy to modify the transformation ratio of the secondary circuit. to adapt to the needs of users. Thus, according to patent EP 0 347 304, an electrical current measuring transformer comprising a primary circuit and a secondary circuit is known, which comprises a switchable winding comprising a plurality of secondary connection terminals each defining a transformation ratio, and several devices. individual releasable connection means each for selecting a transformation ratio. Thus, when one wishes to modify the transformation ratio, the connection device is removed in place, and replaced by another connection device. In this embodiment, therefore, there are as many detachable connection devices as there are Transformation reports that can be selected.

  It is also known, according to the patent FR 2,687,247, an intensity transformer with several outputs of different calibres, intended to power a receiving electrical apparatus, comprising, in addition to a common terminal always passing, the secondary winding of the transformer of intensity on the one hand, in association with each calibrated output of each secondary winding, a normally-passing terminal and, downstream of this terminal, an electrical connection with the other outputs of the winding, downstream from their associated normally associated terminal and on the other hand, a set of cut-off devices capable of rendering non-conducting all the normally-passing terminals of this winding, minus one, namely that used. The terminal used is that corresponding to the desired caliber for the device that it supplies, and the cut-off elements are arranged so as to make it impossible to install an additional cut-off element when there are already in place so many switching elements that this secondary winding has output terminals normally passing minus one. The object of the present invention is to create an electric current measuring transformer in which the transformation ratios can be selected in a more convenient and economical way than in the case of the known solutions above. The invention thus aims at an electric current measuring transformer, comprising a primary circuit and a secondary circuit comprising at least one switchable winding which comprises secondary connection terminals, of which a plurality of intermediate terminals, each connected to a derivative connection, and a terminal terminator connected to a terminal link, and gauge selection means for establishing electrical connections according to the selected gauge. According to the invention, the measuring transformer comprises, on the one hand, switches each constituted by two switches, the first of which is normally open, and the second, normally closed, the number of these switches being equal to N-1, N being the number of connection terminals, the first switch normally opening the derivative links with the intermediate connection terminals, and the second normally closing switch the electrical connection with the terminal connection terminal, and secondly, a single selector member caliber cooperating with the two switches of the switch chosen to close the first switch, then open the second switch. Thus, unlike the known solutions described in the introduction to the present description, the measuring transformer according to the invention comprises a number of switches one less than the number of terminals of the secondary winding, and a single member of selection of caliber. The invention thus makes it possible to simplify and reduce the cost of construction of the measurement transformer. According to a preferred version of the invention, the single gauge selection member is constituted by a comb-shaped member provided with teeth adapted to close the first switch and open the second switch. According to an advantageous embodiment, the comb-shaped member comprises two conductive teeth, electrically connected to each other, which can engage in two conductive sleeves corresponding to the terminals of said first switch to put it in the closed position, and a tooth in electrically insulating material, engageable between two elastic contacts corresponding to the terminals of said second switch to put it in the open position. Thus, the removal of the comb-shaped member causes the closing of the second switch and the opening of the first switch. Preferably, the tooth of electrically insulating material is shorter than the two conductive teeth so that, during the movement of the comb-shaped member towards its active position, the two conductive teeth first close the first front switch. that the insulating tooth can open the second switch. As a result, it is ensured that electric current is still flowing in the secondary circuit. According to other features of the invention, when the comb-shaped member is in the engaged position with respect to a first switch, a first transformation ratio is obtained when the comb-shaped member is in position. engaged with respect to a second switch, a second transformation ratio is obtained, when the comb-shaped member is in the retracted position with respect to all the switches, a third transformation ratio is obtained.

  Other features and advantages of the invention will become apparent in the description below.

  In the accompanying drawings, given by way of non-limiting examples: FIG. 1 is an electrical diagram of a measuring transformer according to the invention, FIG. 2 shows a comb-shaped selection member whose fingers are removed. corresponding connection contacts, - Figure 3 shows the selection member of Figure 2, two conductive fingers are engaged to establish a shunt contact, and an insulating finger is not engaged, Figure 4 shows the body of FIG. 5 is a diagram similar to FIG. 1, the comb-shaped selection member being completely engaged to produce one of the transformation ratios, FIG. 6 is a similar diagram. in FIGS. 1 and 5, a comb-shaped selection member being completely engaged on another switch to achieve another transformation ratio. FIG. 7 shows a gauge selection member for a three-phase circuit transformer, FIG. 8 is another view of the selection member of FIG. 7 and the corresponding connection members provided on the three phases of the circuit. Figures 9 to 12 are perspective views showing a rotary caliper selector.

  FIG. 1 schematically shows an electrical current measurement transformer comprising a primary circuit 1 and a secondary circuit which comprises a switchable winding 3 comprising three secondary connection terminals B1, B2, B3 each defining a transformation ratio and switches 4, 5 allowing each to select a transformation ratio. The secondary circuit is connected to a counting apparatus 6 by means of a common electrical connection 7 connected to one of the ends 8 of the winding 3 and an electrical connection 9 which can be connected to one of the terminals B1 , B2, B3 of the winding 3 by means of the switches 4 or 5. The intermediate terminals B1, B2 are each connected to a derivative connection 10, 12 and the terminal terminal B3 is connected to a terminal connection 13. In accordance with the In the invention, the transformer comprises switches 4, 5 each consisting of two switches whose first 4a or 5a is normally open, and the second, 4b or 5b, is normally closed. The number of these switches is equal to N-1, where N is the number of connection terminals. In the example shown, the number of switches is equal to 2, 20 and the number of terminals equal to 3. As shown in FIG. 1, in each switch 4, 5, the first switch 4a, 5a normally opens the links derivatives 10, 12 with the intermediate connection terminals B1, B2, and the second switch 4b, 5b normally closes the electrical connection 11, 13 with the terminal connection terminal B3. The invention further provides a single selector member P cooperating with the two switches of the switch 4, 5 chosen to close the first switch 4a or 5a, then open the second switch 4b or 5b. As shown in FIGS. 2, 3 and 4, the single gauge selection member P is constituted by a comb-shaped member provided with teeth 16, 17, 18 adapted to close the first switch 4a, 5a and to open the second switch 4b, 5b.

  More specifically, the comb-shaped member P comprises two conductive teeth 16, 17 electrically interconnected which can engage in two conductive sleeves 16a, 17a corresponding to the terminals of said first switch 4a, 5a to put it in the closed position , and a tooth 18 of electrically insulating material engageable between two elastic contacts 18a, 18b corresponding to the terminals of said second switch 4b, 5b to put it in the open position. The removal of the comb-shaped member P causes the closure of the second switch 4b, 5b, and the opening of the first switch 4a, 5a as shown in FIGS. 1 and 2. On the other hand, on the 2 to 4, the tooth 18 of electrically insulating material is shorter than the two conductive teeth 16, 17 so that, during the displacement of the comb-shaped member P 15 towards its active position, the two conductive teeth 16, 17 first close the first switch 4a, 5a (see Figure 3) before the insulating tooth 18 can open the second switch 4b, 5b. Figure 5 shows that when the comb-shaped member P is in the engaged position with respect to a first switch 4, a first transformation ratio is obtained. In the case of Figure 6, the comb-shaped member P is in the engaged position relative to the second switch 5. This provides a second transformation ratio. In the case of FIG. 1, the comb-shaped member P is in the retracted position relative to the set of switches 4, 5. In this case, a third transformation ratio is obtained. In the example shown, the single selection member P allows, with only two switches 4, 5, to select three selection ratios, while ensuring that the current always flows in the secondary circuit.

  Of course, the invention can be applied to a three-phase system. In this case, as shown in FIGS. 7 and 8, the single selection member P1 comprises three pairs of conductive teeth 16, 17; 16a, 17a; 16b, 17b and three insulating teeth 18, 18c, 18d can cooperate with the three phases L1, L2, L3 shown in Figure 8. In this case, each phase L1, L2, L3 comprises a pair of sockets such as 16a, 17a adapted to receive the two conductive teeth 16, 17; 16a, 17a; 16b, 17b of the selection member P1r and conductive blades such as 18a, 18b adapted to receive an insulating tooth such as 18. Of course, in the example of Figures 1 to 6, as in the example dei 7 and 8, the insulating tooth 18 could be of identical length to that of the two conductive teeth 16, 17. In this case, the offset, described above between the closing of the first switch and the opening of the second switch, could be obtained by reducing the projecting height of the contact blades 18a, 18b. In the example shown in FIGS. 9, 10, 11, 12, the single selection member is a disc-shaped insulating material plate 19 provided with three sets of teeth, such as 16, 17, 18, corresponding to three phases cooperating with a plate 20 comprising three series of two switches each comprising a first switch such as 4a, 5a, and a second switch such as 4b, 5b. The translation of the plate 19 to the plate 20 causes, as before, the closing of the first switch and the opening of the second switch of a switch. The removal of the plate 19 causes the opening of the first switch and the closing of the second switch of said switch. In this example, the rotation of the plate 19 relative to the plate 20 allows the teeth 16, 17, 18 to cooperate with the first and the second switch of another switch to obtain another transformation ratio. The rotation of the plate 19 thus makes it possible to select the three transformation ratios described above. Of course, the plate 19 could comprise only a series of teeth 16, 17, 18 in the case of a single-phase system.

Claims (10)

  Electric current measuring transformer, comprising a secondary circuit comprising at least one switchable winding (3), comprising secondary connection terminals including a plurality of intermediate terminals (B1, B2) each connected to a derivative connection (10, 12), and a terminal terminal (B3) connected to a terminal link (13) and gauge selection means for establishing electrical connections according to the selected gauge, characterized in that it comprises on the one hand, switches (4, 5) each consisting of two switches whose first (4a, 5a) is normally open, and the second (4b, 5b), normally closed, the number of these switches (4, 5) being equal to N-1, N being the number of connection terminals, the first switch (4a, 5a) normally opening the derived connections (10, 12) with the intermediate connection terminals (B1, B2), and the second switch (4b, 5b) normally closing the connection electric (11, 13) with the terminal connection terminal (B3); and on the other hand, a single gauge selection member (P) cooperating with the two switches of the selected switch (4 or 5) to close the first switch (4a, 5a) and then open the second switch (4b, 5b).   2. Transformer according to claim 1, characterized in that the single member (P) for selection of gauge is constituted by a comb-shaped member provided with teeth (16, 17, 18) adapted to close the first switch (4a). , 5a) and open the second switch (4b, 5b).   3. Transformer according to claim 2, characterized in that the comb-shaped member (P) comprises two conductive teeth (16, 17), electrically connected together, being engageable in two conductive sleeves (16a, 17a). corresponding to the terminals of said first switch (4a, 5a) to put it in the closed position, and a tooth (18) of electrically insulating material, engageable between two elastic contacts (18a, 18b) corresponding to the terminals of said second switch ( 4b, 5b) to put it in the open position.   4. Transformer according to claim 4, characterized in that the removal of the comb-shaped member (4,   5) causes the closing of the second switch (4b, 5b) and the opening of the first switch (4a, 5a). 5. Transformer according to one of claims 3 or 4, characterized in that the tooth (18) of electrically insulating material is shorter than the two conductive teeth (16, 17) so that, during the displacement of the organ in the form of a comb (P) towards its active position, the two conductive teeth (16, 17) first close the first switch (4a, 5a) before the insulating tooth (18) can open the second switch (4b, 5b). ).   Measuring transformer according to one of Claims 2 to 5, characterized in that when the comb-shaped member (P) is in the engaged position with respect to a first switch (4), a first gear is obtained. of transformation.   Measuring transformer according to one of Claims 2 to 5, characterized in that when the comb-shaped member (P) is in the engaged position with respect to a second switch (5), a second gear is obtained. : of transformation.   Measuring transformer according to one of Claims 2 to 5, characterized in that when the comb-shaped member (P) is in the retracted position with respect to the set of switches (4, 5), a third transformation ratio is obtained.   Measuring transformer according to one of Claims 2 to 8, the electrical circuit of which comprises three phases (L1, L2, L3), characterized in that the single gauge selection member (P1) comprises three pairs of the teeth. conductors (16, 17; 16a, 17a; 16b, 17b) engageable with three pairs of sockets such as (16a, 17a), and three insulative teeth (18, 18c, 18d) engageable between the conductive blades such as (18a, 18b).   10. Measuring transformer according to one of claims 1 to 9, characterized in that the single selection member is a plate (19) of insulating material provided with at least one series of teeth (16, 17, 18). cooperating with a plate (20) comprising at least two switches each comprising a first switch (4a, 5a) and a second switch (4b, 5b), the translation of the plate (19) towards the plate (20) causing the closure the first switch and the opening of the second switch of a switch, the removal of the plate (19) causing the opening of the first switch and the closing of the second switch of said switch, and the rotation of the plate (19) relative to the plate (20) allowing the teeth (16, 17, 18) to cooperate with the first and second switches of another switch to obtain another transformation ratio.