FR2891913A1 - Electric conductor current intensity measurement device for battery terminal, has Hall effect sensor arranged inside U shape and conductor, and providing data for measuring current, where sensor is framed laterally by lateral walls - Google Patents

Abstract

The device has a U shape between its ends and enclosed by lateral walls (13a, 13b). A Hall effect sensor (9) is arranged inside the U shape and an electric conductor, and provides data permitting to measure electric current circulating in the device. The sensor is connected to a data processing unit (11) that processes data obtained by the sensor. The sensor is framed laterally by lateral walls (10b, 13a, 13b) and two other lateral walls.

Description

The invention relates to a device for measuring the intensity of a current at

  through an electrical conductor, without contact, the device comprising at least one Hall effect sensor disposed within a U-shaped configuration of the conductor. In WO-A-99/60416, the use of a Hall effect sensor is disclosed for determining the value of current flowing through an electrical wire. This document proposes to make a U with the conducting wire and to place a Hall effect sensor between the two branches of the U-shaped conformation achieved. The reliability and the effectiveness of the solution in the real conditions of use, in particular in an unstable and relatively difficult environment, such as on an engine, must be able to be improved. Thus, it is proposed here to complete the U-shaped conformation with side walls. This has the effect of homogenizing the magnetic field at the Hall sensor and amplifying the field prevailing around it, this by a factor a priori at least equal to 2. In addition, this U-shape makes the sensor is less sensitive to its positioning in said shape. Thus it is proposed here that the U-shape of the conductor, or of a conductive element thus shaped, at least locally, and to which the conductor is electrically connected, is closed on at least one of the open sides of said U, by a side wall. If a conductive element, therefore a structurally distinct member of the electrical conductor, is used, it is recommended that the or each side wall is a wall integral with said conductive element. In connection with the use of such a conductive element, it is furthermore recommended that the Hall effect sensor be disposed inside a solid, rigid, dimensionally stable part defining said conductive element. A preferred application of the aforementioned measuring device is the production of an automobile battery bank terminal adapted to be removably attached to a terminal of this battery and to which an electrical conductor will be connected. It is then advised that this lug has locally a said U-shaped, the interior of which will be arranged at least one Hall effect sensor, this U-shaped cor formation being closed, on at least one of the open sides of the U, by a wall lateral.

  We will thus be able to measure the current (particularly the intensity of this current) from a car battery to determine all or part of the following: state of charge, performance, potential battery life. An even more detailed description follows, in relation to two exemplary embodiments illustrated by the figures in which: - Figure 1 is a perspective diagram of a device according to the invention, - Figure 2 is a side view. According to FIG. 1, FIG. 3 is a cross-section of FIG. 1 along III-III, and FIG. 4 is a diagram of an alternative embodiment of the invention applied to a battery. Figures 1 to 3 show a block 1 defining an electrically conductive element. Block 1 can be metal. It is connected, at one end 1a, to an electrical conductor 3 and, towards an opposite second end 1b, to a power supply 5, via another electrically conductive member 7. The electrical source 5 can be a generator of current or voltage (in the embodiment of Figure 4, it is a motor vehicle battery). Between its ends 1a, 1b, the conductive block 1 has a substantially U-shaped shape. The term substantially indicates that it is important that the shape is folded on itself, with at least two opposite sections 10a, 10b of wall being at least substantially opposite. A form in C could for example be suitable. The recommended shape, locally U-shaped, is practical, simple to perform and effective. Between its lateral sections 10a, 10b, here interconnected at one end by at least one transverse section (13a, 13b), the conductive block 1 receives at least the active part of a non-contact sensor adapted to provide data enabling to measure the electric current flowing in this conductive block. Here, the non-contact sensor is a Hall sensor 9 connected to a means 11 for processing the data obtained by the sensor and located remotely (see Figures 2 and 3). 1, it can be seen that at the location of at least one of, and preferably both, side openings 12a, 12b of the U, the conductive block 1 is closed by at least one, here two, walls lateral 13a, 13b respectively called third and fourth side walls. The sensor 9 (at least in its active, sensitive part) is thus flanked laterally by these side walls 10a, 10b, 13a, 13b.

  Such a solution makes it possible to homogenize the magnetic field at the level of the sensor and to amplify the field prevailing around it by a factor that can be appreciably greater than 2. FIG. 4 shows a concretization of the above-mentioned electromechanical assembly, in a connection with a battery 5 of vehicle accumulators, as part of a solution also allowing a solid attachment of the measuring device, thus avoiding engine vibrations can significantly alter the operation of the measuring device designed. The lug 20 of the battery 5 illustrated is constituted by the conductive block 10 above. Note its shape locally in U (zone 20a). It is a metal piece, solid, non-deformable at least in its zone 20a and an extension 23 comprises a portion with two branches 23a, 23b shaped to be able to engage around one of the output terminals 25 the battery 5, 15 by enclosing it. A screw-nut assembly 27 makes it possible to clamp the branches 23a, 23b around the terminal 25. At the opposite end, the lug 20 has an extension 28c extending one of the lateral sections 28a of the U, where the lug 20 connected to a conductor wire 29 adapted to deliver the electrical energy of the battery 5 to the appropriate bodies of the vehicle (relevant organs of the engine, lights of the passenger compartment, lighting ...). The lug 20 rests at its U-shaped area 20a on a clearance or a shoulder 31 of the battery from which locally projects the terminal 25 considered, the other 25 terminal has not been shown here. A solid attachment to the terminal 25 and such a support favor the limitation of the disturbances felt, because of the vibrations due in particular to the motor and for example to the road, by the sensor 9 present between the side walls 28a and 28b of the U-shaped zone. , 20a. On its other two lateral sides, this zone 20a of the terminal carries two walls 33a, 33b of lateral closure of this zone, between said walls 28a and 28b. Thus, on five sides of six parallelepiped constituted, the sensor 9 is bordered, at a short distance, by an electrically conductive wall, here metallic, preferably full, which will homogenize the magnetic field created at this location and amplify it, 35 as much promoting the performance of the solution and the quality of the current measurements obtained via the sensor.

  For reasons of cost and ease of manufacture and use, the U-shape and the closing walls 33a, 33b will be integrated together to form a monobloc parallelogram.

Claims (5)

  1. Device for measuring the intensity of a current through an electrical conductor, without contact, the device comprising at least one sensor (9) Hall effect disposed within a U-shaped configuration of the conductor, characterized in that the U-shape of the conductor, or of a conductive element thus shaped, at least locally, and to which the conductor is electrically connected, is closed, on at least one of the open sides of said U, by a lateral wall (13a, 13b, 33a, 33b).   2. Device according to claim 1, characterized in that the or each side wall (13a, 13b, 33a, 33b) is a wall integral with said conductive element.   3. Device according to claim 1 or claim 2, characterized in that the Hall effect sensor (9) is disposed within a rigid piece, rigid, non-deformable defining said conductive element.   4. Device according to any one of the preceding claims, characterized in that the Hall effect sensor (9) is disposed inside said electrically conductive element, which defines a pod (20) locally shaped to be connected around a terminal (25) for connecting a car battery (5).   5. A battery terminal (5) adapted to be removably attached to a terminal (25) of this battery (5) and to which is connected an electrical conductor (29), the terminal having a U-shaped configuration locally. inside which at least one Hall-effect sensor (9) is disposed, this U-shaped configuration being closed on at least one of the open sides of said U by a side wall (33a, 33b).