LU84690A1 - ENERGY SENSOR INSTALLATION - Google Patents

Description

I Energy sensor installation

The present invention relates to an energy sensor installation.

According to the present invention, the installation comprises an energy sensor composed of two magnetic assemblies placed one opposite the other with the interposition of a non-magnetic core, these different cores being provided with connected coils, on the one hand, to a thermal relay, on the other hand to a converter whose output is connected to a voltage transformer supplying the useful voltage.

The present invention will be described in more detail using the single appended figure which is a partially block diagram of the sensor installation according to the invention.

According to the figure, the installation consists of a sensor 1 connected to a converter 2 itself connected to a transformer 3 supplying between its terminals 4 and 5 the useful voltage.

The sensor 1 consists of a first magnetic assembly 6 and a second magnetic assembly 7, \ 1 * magnetic_assembly 6 being more powerful than the magnetic assembly 7. The facing faces of the two assemblies 6 and 7 carry respectively references 8 and 9. The faces 8 and 9 of the two assemblies are of the same nature.

25 ^ The assembly 7 comprises a primary winding 10 '2 made of copper wire or equivalent good conductor wire. The magnetic assembly 7 also includes a second winding 11 which is connected to the winding 10 by a common point 12. The magnet of the magnetic assembly 7 is connected by an electrical connection 13 to the converter 2.

An electrical connection 14 connected the primary 10 and the converter 2.

The magnetic assembly 6 comprises, analogously to the magnetic assembly 7, a primary winding 15 and a secondary winding 16 having a common point 17. The magnet of the magnetic assembly 6 is connected by an electrical connection 18 to the converter 2.

The primary terminals 15 and 10 of the two magnetic assemblies 6 and 7 are connected to a thermal relay 15 as 19.

The non-magnetic core 20 placed between the two assemblies 6 and 7, comprises a primary winding 21 made of silicon wire and a secondary winding 22 also made of silicon wire. These two windings have a common point 23. The other terminals of the windings 21 and 22 are connected to the converter 2. The core of the assembly 20 is also connected by a link 24 to the thermal relay 19. As a complement, the faces respectively opposite the faces 25 8 and 9 of the assemblies 6 and 7 bear the references 25 and 26.

The magnetic assembly 6 creates a magnetic field which interferes with the magnetic field created by the magnetic assembly 7. For this, it is important that the relative position of the assemblies 6 and 7 is chosen precisely according to the tests. Due to a demagnetization effect of the magnetic assembly 7, there is a variation in magnetic flux generating a current in the windings 10 and 15. This current passes through the conver-35 ^ weaver 2 which partially reinjects it into the thermal relay 19. Part of the current is used 3 ι! -. ·: · 'Λ to maintain and amplify the initial magnetic imbalance in the coils 11 and 16. Another fraction of the current is applied to the core 20. This arrangement makes it possible to amplify the voltage across the terminals of the coils 5 21 and 22.

The converter 2 and the transformer 3 being known circuits, they will not be described below.

Thus, in summary, the invention relates to an assembly which consists of a sensor 1 provided with magnetic cores 7, 6, and a non-magnetic core 20, this sensor being connected to a converter 2 itself associated with a transformer supplying the useful voltage as an output. The magnetic assembly 6 of the sensor 1 comprises 15 a primary winding and a secondary winding 15, 16 having a common point 17. The magnetic assembly 7 comprises two windings 10, 11 having a common point 12. The third core is a graphite and the two cores of the magnetic assemblies 6 and 7 are arranged opposite one another so that their magnetization faces 8 and 9 of the same kind are opposite.

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Claims (1)

4 i · *. "il * 1 °) Sensor assembly having a magnetic field characterized in that it consists of a sensor (1) provided with magnetic cores (7, 6) and a non-magnetic core 5 (20), this sensor being connected to a converter (2) itself associated with a transformer (3) supplying the useful voltage as an output. 2 °) Installation according to claim 1, characterized in that the magnetic assembly (6) of the sensor ( 1) comprises a primary winding and a secondary winding (15, 16) having a common point (17). 3 °) Installation according to claim 1, characterized in that the magnetic assembly (7) comprises two windings (10, 11 ) having a common point (12). 15 4 °) Installation according to claim 1, characterized in that the third core is a graphite core and the two cores of the magnetic assemblies (6 and 7) are arranged opposite one on the other so that their magnetization faces (8) and (9) of the same kind 20 are opposite. "» ✓