FR2982702A1 - Magnetic circuit for electric transformer, has support surface extending along curved line, and conductive wires wound around support surface, where support surface includes part having profile in form of stairs - Google Patents

Abstract

The circuit has a support surface (1) extending along a curved line (L1), and conductive wires wound around the support surface. The support surface includes a part extending along the line in contact with the conductive wires, and having a profile in the form of stairs. The successive conductive wires are in contact with distinct steps of the stair-shaped profile. The support surface includes another part in contact with the conductive wires, and having a stair-shaped profile, where the support surface includes an open end.

Description

The present invention relates to the field of magnetic circuits. More particularly, the present invention relates to a magnetic circuit comprising a support surface extending along at least one line and turns of conductive wire wound around said support surface, said turns succeeding one another along the line. There are generally two techniques for winding a magnetic circuit: the linear winding and the toroidal winding. According to the linear winding technique, the winding takes place on the support surface, which turns on itself, driven by a mandrel which passes through it at its center. The wire is guided from end to end, being pulled and wound perpendicularly to the axis of rotation of the support surface. Several support surfaces may be driven by the same mandrel. This type of winding is very fast and requires little labor. It allows a very good quality winding, with well parallel turns, except in the case of rounded surfaces.

In the toroidal winding technique used mainly for self-enclosed supports such as tori, rings, but also on rounded supports (for example the ammeter clamps), the winding is carried out on the support surface in rotation (for closed rings) or transversely (when the part to be wound is located). According to this technique, the wire is loaded on a shuttle.

Then the shuttle rotates around the support surface to be wound during the displacement (in rotation for a closed loop circuit, in translation only for a limited winding area) of the support surface. This type of winding has many disadvantages: large winding time, the cost of the necessary machines (a winding performed by machine), but it is however the only feasible to wind a closed circuit and the only one to give good results for a surface rounded. Congestion constraints frequently require the use of magnetic circuits requiring winding of a non-straight portion, closed or not. This winding is generally performed by a toroidal winding machine, for the reasons explained above.

To overcome the disadvantages of the toroidal winding in the case of closed circuits, a technique has been described for example in JP 5 159 956, allowing a linear winding on certain parts of a closed circuit. However, it does not allow a linear winding, with good quality, of parts in the form of arcs for example.

For this purpose, according to a first aspect, the subject of the invention is a magnetic circuit of the aforementioned type, characterized in that said support surface comprises at least one part extending along the line, in contact with the conducting wire. and having a substantially stair-shaped profile.

Such a magnetic circuit has the advantage, thanks to the stepped shape presented along the support surface, to allow a good quality linear winding of this surface, even when the surface to be wound is in an arc. In embodiments, the magnetic circuit according to the invention furthermore comprises one or more of the following characteristics: the support surface comprises an open end; successive turns are in contact with steps distinct from the shaped profile; staircase, - the line is a curved line, - the support surface comprises opposite said part, at least one other part, in contact with the conductive wire, and also having a substantially stair-shaped profile, - the support surface comprises two distinct elements assembled to one another around a core, each element comprising at least one part extending along the line, in contact with the conducting wire, and having a profile substantially in the form of stairs, - the two elements are assembled by clipping, and - the two elements are substantially symmetrical. According to a second aspect, the subject of the invention is an electrical transformer comprising a magnetic circuit according to the first aspect of the invention including the support wound by the conducting wire. The invention will be better understood on reading the description which follows and on examining the figures which accompany it. These figures are given for illustrative purposes, but in no way limitative of the invention. These figures are as follows: FIG. 1 is a front view of a support for winding in a first embodiment of the invention; FIG. 2 is a side view of the support of FIG. 1; FIG. 3 is a front view of a magnetic circuit comprising the support represented in FIGS. 1 and 2, mounted on a core; FIG. 4 is a perspective view of the magnetic circuit of FIG. 3; FIG. 5 is a view of a magnetic circuit in a second embodiment of the invention; FIG. 6 is an exploded perspective view of the magnetic circuit of FIG. 5; FIG. 7 is a view of a magnetic circuit in a third embodiment of the invention; - Figure 8 is a view of the magnetic circuit of Figure 7 maintained by a winding mandrel. Figure 1 and Figure 2 are respectively a front view and a side view of a support 1 in a first embodiment of the invention. The support 1 comprises a hollow central part 2 not straight having a housing 14. In this case, this central portion 2 describes in the plane of Figure 1 a circular arc. It is delimited by two lateral ends 3, 4, an upper end 5 and a lower end 6. The support 1 extends in the plane of FIG. 1 substantially between a first line L1 in an arc of circle at the end. upper 5 and a second line L2 in an arc at the lower end 6. In one embodiment, the radius of the arc described by the line L1 is for example 21.75 cm and the radius the arc described by the line L2 is for example 27.25 cm. In the embodiment considered, the upper end 5 has in the plane of Figure 1 a substantially stair-shaped profile along the line L1, with steps following one another along the curve L1. Similarly, the lower end 6 has in the plane of Figure 1 a substantially stair-shaped profile along the line L2, with steps following one another along the curve L2.

The profiles presented by the lower and upper ends 6, 5 may be similar, symmetrical or not. The steps may be of equal length along the line L1 or L2, or not. In embodiments, only one of the lower 6 and upper 5 ends has a staircase profile.

In one embodiment, a conductive wire is wound around the central portion 2 of the support 1 shown in Figure 1, using a linear winding technique. The wire is wound around the central portion 2 of the support, the wire being perpendicular to the plane of the central portion 2 of the support, the turns succeeding each other along each line L1 and / or line L2.

Successive turns are in contact with distinct stair steps presented by the lower end 6, respectively the upper end 5 The turns thus formed rest on the steps, which reduces the risk of slippage. In comparison, a curved support with no steps would cause the turns to slip towards the middle of the central part. In one embodiment, the steps are flat, in another embodiment they are concave, In one embodiment, the support 1 is made of insulating material, for example plastic.

FIG. 3 and FIG. 4 respectively represent a front view and a perspective view of a magnetic circuit comprising a core (iron circuit) having a substantially arcuate portion 11 and a support 1 as previously considered in FIG. Referring to Figures 1 and 2. The curved portion 11 of the core is embedded in the housing 14 of the support 1, for example following a mounting operation of the support 1 around the curved portion 11 by sliding on one another . In FIG. 5 and FIG. 6, respectively a front view and an exploded perspective view, of a magnetic circuit in a second embodiment of the invention are shown. In this embodiment, the plastic winding support is formed of two symmetrical parts which fit into one another around the magnetic circuit. They are held together for example by clips. More specifically, in the embodiment shown in Figure 5, the magnetic circuit 20 comprises a core 19, which has a curved portion 21 substantially in a circular arc.

The magnetic circuit 20 further comprises two support elements 22a and 22b adapted to be assembled to one another by clipping around the curved portion 21 of the core 19 so as to grip and coat this curved portion 21. coil formed of the interlocking each other of each support member 22a, 22b has characteristics similar to those of the support 1 described with reference to Figure 1. Thus, the support member 22a has in the plane FIG. 5 shows a curved shape, substantially similar to that of the portion 21 of the core 19, and extends in this plane substantially between a first line L11 in an arc of circle at the upper end 51 and a second line L21 in arc at the lower end 61.

In the embodiment considered, the upper end 51 has in the plane of Figure 1 a substantially stair-shaped profile along the curved line L11, with steps succeeding along this curve L11. Similarly, the lower end 61 has in the plane of Figure 3 a substantially stair-shaped profile along the curved line L21, with steps succeeding along this curve L21. The profiles presented by the ends 51, 61 may be similar, symmetrical or not. The steps may be of equal length along the line L1 or L2, or not. In embodiments, only one of the lower 61 and upper ends 51 has a staircase profile. The support member 22b has characteristics similar to the features described above with reference to Fig. 3 and relating to the support member 22a. In FIG. 5, the two support elements 22a and 22b are secured to one another by a clipping system in which nipples 26 on each of the support elements 22a and 22b are assembled by means of a relatively tight fitting into housings. corresponding members 27 facing them on the other support member during assembly of the two support members. Other techniques for securing these two elements can of course be implemented.

A conductive wire is then wound around the support members 22a, 22b enclosing the portion 21 of the core, creating turns 25. The stepped ends of the support elements provide a stable support for turns, the risk of slippage is thus limited. In the case where the magnetic circuit 20 is not closed, the winding of the turns 25 can be achieved by means of a linear winding technique, by rotating the magnetic circuit 20 with the aid of a tool . Such a magnetic circuit makes it possible to obtain a winding of good quality, marrying at best the shape of the core. The magnetic losses are decreased, thus increasing the efficiency of the magnetic circuit 20.

In one embodiment, the core 19 is made of electrically conductive material, for example metal or magnetic sheet metal and the support portions 22a and 22b are made of insulating material, for example plastic. In one embodiment, the magnetic circuit 20 represents half of a current transformer. Such a current transformer, for example an opening sensor, comprises, for example, another magnetic circuit so as to complete the half-circle formed by the circuit 20 by this other magnetic circuit forming a symmetrical semi-circular arc, so as to to form a ring in the plane of Figure 5 and hinge means for securing the two circuits in a ring and to open the ring to pass through the ring a cable traversed by a current to be measured.

In another embodiment shown in FIG. 7, the magnetic circuit 30 comprises a core 31 similar to the core 19 of FIG. 3. This core 31 comprises an arcuate portion 32 similar to the portion 21 of the core 19. However, in the embodiment shown in FIG. 7, the stepped profile for supporting the coiled turns 35 is not provided by additional support elements coming to grip the core, but is presented directly by the core 31. Thus, in the In this case, the upper end 52 defining the core 31 has in the plane of Figure 7 a substantially stair-shaped profile along a curved line, with steps succeeding along this curve. The advantage of this embodiment is to reduce the size of the magnetic circuit. In one embodiment, the core 31 of magnetic sheet is lined with a coating, for example an epoxy paint, so as to protect the winding wire from cuts inflicted by the magnetic sheet, very sharp. Insofar as the magnetic circuit 31 is not closed, the winding of the turns 35 can be achieved by means of a linear winding technique, by rotating the magnetic circuit 20 about the axis XX to the winding. using a tool. For example, as shown in perspective in FIG. 8, to produce such a winding, a winding mandrel 40 holds the magnetic circuit 31 with two jaws 41, 42 situated on either side of the magnetic circuit 31. and a retaining pin 43 inserted into corresponding respective housings of the jaws 41, 42 and the core 31. The winding mandrel 40 is rotated about the axis XX, by a rotary machine, not shown. In the figures above, it will be noted that only a few winding turns have been represented.

Thus, the invention applies to any product comprising a magnetic circuit requiring a winding, in particular a non-closed magnetic circuit requiring winding in a non-right zone.

Claims (9)

REVENDICATIONS1. A magnetic circuit comprising a support surface extending along at least one line and turns of conductive wire wound around said support surface, said turns succeeding one another along the line, the magnetic circuit being characterized in that said support surface comprises at least one portion extending along the line, in contact with the conductive wire, and having a substantially stair-shaped profile. Magnetic circuit according to any of the preceding claims, wherein the support surface has an open end. 3. Magnetic circuit according to claim 1 or 2, wherein successive turns are in contact with steps distinct from the stair-shaped profile. 4. Magnetic circuit according to one of the preceding claims, wherein the line is a curved line. 5. Magnetic circuit according to one of the preceding claims, wherein the support surface comprises opposite to said portion, at least one other part, in contact with the conductive wire, and also having a substantially shaped profile. staircase. Magnetic circuit according to one of claims 1 to 5, wherein the support surface comprises two separate elements assembled to one another around a core, each element comprising at least one part extending along of the line, in contact with the conductor wire, and having a substantially stair-shaped profile. 7. Magnetic circuit according to claim 6, wherein the two elements are assembled by clipping. Magnetic circuit according to claim 6 or 7, wherein the two elements are substantially symmetrical. Electrical transformer comprising a magnetic circuit according to any one of the preceding claims including the support wound by the conducting wire.