Abstract:
The present device eliminates electrostatic discharges when getting out of the car, exploiting the principle of transfer of the surface electric charges by difference of potential. This avoids all the problems caused by electrostatic discharges: sudden explosion of airbags, problems for people with implants of any type and general discomfort caused by said discharges.

Description:
FIELD OF THE INVENTION 
   The present invention concerns a device and a method to prevent electrostatic charges from passing through the human body when getting out of the car and closing the door. 
   BACKGROUND ART 
   These charges accumulate on the surface of the car due to various causes, such as ionisation of the air caused by lightning, friction due to movement of the car through the air, friction of the various belts in the engine pulley grooves, lack of humidity in the air, CO 2  from combustion, electrical fields etc. 
   These charges accumulate also in persons due to friction of synthetic underwear against the body and rubbing against the car seats; said charges reach voltage values of several tens of thousands of volts. 
   The phenomenon is perceived when the person puts his feet on the ground and at the same time pushes the car door to close it. 
   At present, a device commonly sold on the market consists of a flexible strip of conducting rubber earthed to the bodywork at one end with the other end trailing along the ground. 
   This system does not always work, however, for various reasons. 
   SUMMARY OF THE INVENTION 
   According to an aspect of the present invention, a device is disclosed having the feature according to claim  1 ; according to another aspect of the present invention, a method is disclosed having the features according to claim  8 . 

   
     BRIEF DESCRIPTION OF THE FIGURES 
     Further advantages of the present invention will appear more evidently to a man skilled in the art, from the following detailed description, with reference to the attached Figures, where 
       FIG. 1  shows schematically a front view of the installation of a particular embodiment of the invention on a car door; 
       FIG. 2  shows schematically the detail of the zone A of  FIG. 1 , with the device of  FIG. 1  installed on the door opening handle; 
       FIG. 3  shows schematically the detail of zone B of  FIG. 1 , with the installation of the battery of the device of  FIG. 1 ; 
       FIG. 4  shows an exploded schematic view of the battery and its housing, in the device of  FIG. 1 . 
   

   DETAILED DESCRIPTION OF THE INVENTION 
   According to a preferred embodiment of the present invention, described as a non limiting example, the discharging device can consist of two copper tracks  1 , 2  on a flat rectangular strip of mylar  3 , insulated from each other and at a distance for example of two millimetres; for example, the dimensions of this flat strip  3  can be two centimetres by seven and the back of the strip is adhesive. Two thin flexible copper conductors  4 , 5  insulated in sheaths, length approximately one metre, are welded at the ends of the two metal tracks  1 , 2 . 
   The flat strip  3  can be cut with a pair of scissors to adapt it to the size and shape of the inside car door opening handle  6 . Having removed the protective film of the adhesive, it is glued to the handle  6  so that every time the door is opened to get out of the car, the person&#39;s fingers come simultaneously into contact with the two copper tracks  1 , 2 . 
   If there are electrostatic charges on the person&#39;s body, they will be discharged along the conductors  4 , 5 , whether positive or negative. 
   These copper conductors  4 ,  5  pass inside the door panel and come out near the hinges where other cables are generally conveyed. The ends of these conductors  4 ,  5 , stripped of the insulating sheath for a stretch of approximately 30 millimeters, will be connected to the poles of a small  3  volt battery  7 —or a battery of any suitable voltage—positioned in a container  8 . As illustrated in  FIG. 4 , when the battery  7  is inserted in container  8 , each conductor  4  and  5  contacts a different battery pole. This container  8  has a spongy adhesive support  9  so that it can be easily glued onto the door wing and simultaneously keep two portions of conductors  4 , 5  (at a distance from each other) permanently in contact with the car door paint, before connection to the battery poles; this way the 3 volt battery  7  and the conductors  4 , 5  realize an electric circuit not grounded with the car iron body or the earth itself. The  3  volts battery  7  then disperses the electrostatic charges it accumulates because of the air humidity, oxydation processes and the other factors which usually cause a battery discharge. The electric resistance of the car paint avoid that the two stripped conductor parts are short-circuited, and the distance between the stripped connectors will be accordingly determined to avoid short-circuits as well. More precisely, as illustrated in the detail of  FIG. 3 , the container  8  is connected to a spongy adhesive support member  9  the latter having a shape such that the assembly can be easily glued to a part of the door wing of the vehicle at the area of the hinges of the door onto the car paint, as generally depicted in  FIG. 1 . The spongy member supports a part of conductors  4  and  5 . Thus, when the spongy member is mounted onto the vehicle part, the non-insulated parts of conductors  4  and  5  electrically contact the surface of the vehicle, but not each other. 
   In this case, advantageously one conductor  4  is connected to the ground battery pole, and the other conductor  5  is connected to the positive battery pole. 
   This system should help to solve problems such as sudden explosion of airbags, faulty operation of electronic control units and various devices on the car, hazards for people with pace-makers, eyes and ears with artificial parts, problems for people with any type of metal prosthesis and general discomfort for everyone caused by the phenomenon. 
   The above described device can be modified in several ways without departing from the present invention: generally, the copper conductors  1 , 2 , or whatever conductive track, can be fixed to other parts  6  of a passenger compartment, and not necessarily on the passenger compartment side of the doors, or even on other parts outside the passenger compartment; the conductors  4 , 5  can be electrically connected to any suitable capacitive bipolar element  7 , where capacitive bipolar element  7  means every electric component having suitable electric capacity, like for example a capacitor; likewise the stripped parts of the conductors  4 , 5  can be set in contact with the paint in other points of the body which are not necessarily the passenger compartment side of the doors; the strip of mylar  3  can be alternatively any other suitable support. Further modifications, obvious for a man skilled in the art, are of course possible.