FR2714509A1 - Electromagnetic indicator for car dashboard - Google Patents

Abstract

The indicator (10) has an excitation coil (12) in series with a switch (14) and housing an oscillating core (16). The indicator is linked to a car battery via two terminals (18,20). A resistor (22) is connected in parallel with the coil and switch in order to eliminate parasitic noise. Two Zener diodes (26,28) are mounted in parallel with the switch. They eliminate electromagnetic noise generated by the switch.

Description

Electromagnetic signaling device
The present invention relates to an electromagnetic signaling device, in particular for a motor vehicle, comprising an oscillating armature which forms an oscillating drive with an excitation winding and a switch, and a first deworming means connected in parallel to the series connection forming the excitation winding and switch
State of the art.

 I1 is known to use in motor vehicles, electromagnetic signaling devices such as tubes or horns. These electromagnetic signaling devices operate, as is known, in that by connecting the signaling device to a voltage source, for example the vehicle battery, a magnetic field is created in an excitation coil. This field created by the passage of electric current pulls the armature against an iron core inside the excitation coil. The armature is connected to a membrane. Shortly before the armature strikes the core, the armature opens a switch which cuts the flow of current through the excitation coil. A spring force is exerted by the membrane which returns the armature to its rest position and thus closes the switch at the same time.

Then a current is passed through the excitation coil again so that the armature is again drawn into the excitation coil. As long as the supply voltage is maintained by the battery of the motor vehicle, this operation is repeated periodically.

The oscillation of the membrane results in the emission of sound waves corresponding to the desired signal.

 Each time the switch is opened, the electromagnetic energy accumulated in the excitation winding tends to pass, through a high frequency interruption spark, into the on-board electrical network of the motor vehicle. I1 is known for this to provide in parallel to the series connection formed by the excitation winding and the switch, an electrical deworming means. The purpose of this means is to eliminate the emitted and electromagnetic parasitic pulses linked to the line in order to avoid parasitizing an electronic device.

This known installation of the electrical deworming means is certainly suitable for damping spurious pulses generated by the switch so that these can only arrive in attenuated form in the on-board network of the motor vehicle as spurious pulses passing through the cables or even as radiated parasitic pulses. The disadvantage is, however, that this only allows damping of the parasitic pulses which does not ensure compliance, in a safe manner, with a critical limit value.

However, precisely, the use on board motor vehicles of current electronic control devices which provide engine management, requires the practical elimination of the influence of electromagnetic pulses because electronic control devices have such a sensitivity that even the smallest parasitic pulse reacts directly and deteriorates their functioning.

Advantages of the invention.

 The invention aims to remedy the drawbacks of known solutions and for this purpose relates to an apparatus corresponding to the type defined above characterized similar to the type defined above characterized by a second electrical deworming means connected in parallel to the light switch.

 The electromagnetic signaling device according to the invention offers the advantage that the radiation of electromagnetic parasitic pulses is considerably reduced so that one is considerably below the critical limit values as regards their influence on the electronic control device of the motor vehicle. In addition to the first electrical deworming means, in parallel with the switch, there is a second electrical deworming means which can effectively eliminate both the parasitic pulses linked to the lines and the parasitic pulses emitted electromagnetically.

 In particular, the assembly of two electrical deworming means associated with an oscillating drive on the one hand makes it possible to eliminate the electric arc which forms at the opening of the switch so as to no longer emit pulses critical electromagnetic interference, on the other hand allows to discharge the contacts of the switch by elimination of the arc which increases the life of the switch since it is less stressed.

According to other advantageous characteristics
- the second means of electrical deworming consists of two Zener diodes connected in series in opposition
- the electrical deworming means is a bidirectional Zener diode;

 - the second means of electrical deworming is a capacitor.

Drawings.

The present invention will be described below in more detail with the aid of the accompanying drawings in which
- Figure 1 shows an electrical diagram of an electromagnetic signaling device corresponding to an embodiment of the invention.

 - Figure 2 shows an electrical diagram corresponding to another embodiment.

 - Figure 3 shows an electrical diagram of another embodiment.

 - Figure 4 shows another embodiment of an electrical diagram.

 - Figure 5 shows another embodiment of an electrical diagram.

Description of the exemplary embodiments.

 Figure 1 shows the diagram of an electromagnetic signaling apparatus 10. This electromagnetic signaling apparatus 10 consists of an excitation winding 12 with in series a switch 14. An oscillating armature 16, which is only shown schematically , is located in the excitation winding 12. The electromagnetic signaling device 10 is connected by terminals 18 and 20 to a supply voltage, constituted for example by the vehicle battery. In parallel with the series connection formed by the excitation winding 12 and the switch 14 there is a first electrical deworming means 22. This electrical deworming means 22 can be for example a resistor, a varistor, a capacitor, a bidirectional Zener diode or a Zener diode with antiparallel mounting. In parallel with the switch 14 there is, according to the invention, a second electrical deworming means 24. In the embodiment of FIG. 1, this second electrical deworming means 24 consists of two Zener diodes 26, 28 in assembly in opposition-series.

 Figures 2 to 5 show other alternative embodiments of the electrical circuit of Figure 1. The same elements as in Figure 1 have the same references and will not be described again.

 The difference with respect to the embodiment of FIG. 1 consists, in the case of FIG. 2, in producing the second electrical deworming means by a bidirectional Zener diode 30; in Figure 3, it is a capacitor 32 and in Figure 4 a varistor 34; in FIG. 5 it is a resistor 36.

 The combined mounting of the first deworming means 22 and the second deworming means 24 is particularly effective in opposing the formation of an electric arc between the contacts of the switch 14, when it opens, as well as against screw parasitic high frequency oscillations. The first electrical deworming means 22 can be designed and optimized to eliminate in particular the parasitic oscillations emitted to the outside by the excitation winding 12 or by the parasitic oscillations which arrive in the on-board electrical network of the vehicle via the terminals 18 and 20; the second electrical deworming means 24 is designed and optimized in particular to oppose the formation of an electric arc.

 By combining the effects of the two electrical deworming means 22, 24, the parasitic pulses emitted globally by the electromagnetic signaling apparatus 10 are reduced, in such a way that the electronic control apparatus can no longer have any influence. negative. The operation of the various examples of the first and second electrical deworming means 22, 24 will not be detailed here. As in addition the dimensioning of the deworming means depends first of all on the inductance of the excitation winding, the tests will make it possible to find the optimal values.

Claims (5)

CLAIMS 1 ") An electromagnetic signaling device, in particular for a motor vehicle, comprising an oscillating armature which forms an oscillating drive with an excitation winding and a switch, and a first deworming means connected in parallel to the series connection forming the excitation winding and the switch, characterized by a second electrical deworming means (24) connected in parallel to the switch (14).  20) Signaling device according to claim 1, characterized in that the second electrical deworming means (24) consists of two Zener diodes (26, 28) connected in opposition-series.  30) Signaling device according to claim 1, characterized in that the second electrical deworming means (24) is a bidirectional Zener diode (30).  40) Signaling device according to claim 1, characterized in that the second electrical deworming means (24) is a capacitor (32).  50) Signaling device according to claim 1, characterized in that the second electrical deworming means (24) is a varistor (34).  60) Signaling device according to claim 1, characterized in that the second electrical deworming means (24) is a resistor (36).