FR2908193A1 - CONTROL MODULE, IN PARTICULAR FOR MOTOR VEHICLE - Google Patents

Abstract

The subject of the present invention is a control module (1) comprising at least one tactile control surface made in the form of a flexible electrical circuit: (17) forming a sensor sensitive to the pressure exerted on the tactile surface, this electrical circuit flexible member (17) having at least one exit track (20). The module further comprises at least one connection pin (23) associated with said output track (20), one end (25) of which forms the male part of an electrical connector and the other end (27) of which is directly connected. mechanically and electrically to said exit track (20) by crimping.

Description

1 Control module, in particular for a motor vehicle This

  The invention relates to a control module, in particular for a motor vehicle.

  More specifically, such a module finds an advantageous application for the controls located at the console between the two front seats of a motor vehicle for example to control air conditioning functions, an audio system, a control system. telephony or a navigation system. The invention can also be applied in a region of the vehicle called the dome which is located at the usual location of the interior mirror for example to control interior lights, central locking, sunroof, hazard lights or mood lights. This module can also be used for window regulators, exterior mirrors positioning controls or motorized seat motion controls. In the automotive field, the controls of various electrical components are conventionally performed by switches / switches. However, in view of the increasing number of electrical components to be controlled, multifunctional control devices are increasingly used because of ergonomic benefits that result. Indeed, from a single command button, made for example in the form of a joystick, associated with a display screen, you can navigate in drop-down menus to control for example the air conditioning, the audio system or even the navigation system. To increase the ergonomic comfort, the use of a touch sensor technology, alone or in addition to such multifunction buttons, can be considered as an interesting development. Indeed, tactile sensors, especially for the automotive field, have made significant progress. Technology using pressure-sensitive resistors (also known as FSR sensor for Force Sensing Resistor) is ahead of more and more other equivalent technologies, such as BRT TC 0026 - SFR5066 2908193 2 capacitive or optical technologies thanks to its ease of implementation and its robustness. Such sensors are for example known under the name digitizing tablet ("Digitizer pad") and the following documents are cited as prior art: US 4,810,992, US 5,008,497, FR 2683649 or EP 0 541 102. These sensors comprise flexible electrical circuits formed by flexible semiconductor layers sandwiched between for example a conductive layer and a resistive layer. By exerting pressure on the FSR layer, its ohmic resistance decreases thus allowing, by applying a suitable voltage 10, to measure the pressure applied and / or the location of the place where the pressure is exerted. To make the electrical connection of the flexible electrical circuit to the vehicle electrical network, each output track of the flexible circuit is connected to an electrical connector via an electrical wire or a printed circuit board.

However, such a connection requires the realization of a first weld to connect the output track of the flexible electrical circuit to the associated electric wire or to the input track of the printed circuit board, then a second solder to make the connection. with the electrical connector. The present invention aims to provide a control module of the aforementioned type 20 with simplified connectivity. For this purpose, the subject of the invention is a control module comprising at least one tactile control surface made in the form of a flexible electrical circuit forming a sensor sensitive to the pressure exerted on the tactile surface, this flexible electric circuit having at least less an output track, characterized in that it further comprises at least one connecting pin associated with said output track, one end of which forms the male part of an electrical connector and the other end of which is directly mechanically connected. and electrically to said exit track by crimping. BRT TC 0026 - SFR5066 2908193 3 Other features and advantages of the invention appear from the following description, given by way of example, without limitation. with reference to the appended drawing on which is presented a sectional view of a module according to the invention. Figure 1 shows a control module 1 according to the invention.

This control module 1 comprises a housing 3 formed by a cover 5 and a bottom 7 assembled for example by snap-fastening means 9. An opening 11 in the cover 5 is filled with an elastic material 13 such as silicone or a foam on which the finger 15 of a user presses to make a command.

Inside the housing 3 is arranged a tactile control surface 17 made in the form of a flexible electrical circuit forming a pressure-sensitive sensor exerted on the touch-sensitive surface 17. It is for example a sensor of FSR technology as described above. The circuit 17 is for example in the form of an elastic sheet of plastic material within which cross tracks 15 of a conductive ink evolve to form a matrix making it possible to detect at least the x-coordinates of the position of the support and the pressure exerted (direction z) on the sensor, and in a more evolved version, the coordinates in x, y and z. This sensor 17 is fixed on a wall 19 of the housing 3 forming a support plate, preferably with the aid of an adhesive.

The flexible electrical circuit 17 has at least one output track 20, but generally three parallel output tracks corresponding for the first to an output track for the x coordinates, for the second to a voltage supply track, and then to a ground connection track. It is therefore understood that output track means any electrical connection track 25 flexible electrical circuit. At the output tracks, the circuit 17 is bent to pass below the support plate 19 to end in a portion 21 of the housing 3 forming integrated electrical connector which will now be described in detail. To connect the circuit 17, for example, to a signal processing unit, there is provided in the housing an output track connection pin 20. A first end 25 of the connection pin forms the male part of an electrical connector and is intended to cooperate with a not shown female part. The opposite end 27 of the connection pin is directly mechanically and electrically connected to the associated crimped output track.

For this purpose, the end 27 of the connection pin 23 opposite said output track comprises at least one, preferably two connection points 29 which pierce said output track 20 to establish an electrical contact and which are bent. crimping towards the spindle to further ensure a mechanical hold between the flexible circuit 17 and the connection pin 23.

For this purpose, the end 27 of the connecting pin 23 comprises a flattened portion 31 and the connecting tips 29 are formed for example by a stamped portion of the flattened portion 31. Thus, by piercing the output track, one makes a reliable electrical connection between the flexible electrical circuit 17 and the connection pin 23, and crimping the connection tips 29 by bending, further ensures excellent mechanical retention. The connection pin 23 is fixed directly in the portion 21 of the housing 3 forming an electrical connector. In more detail, the housing 3 comprises a wall 33 which forms a connector bottom 20 and which is crossed by the connection pin or pins 23. Preferably and for the sake of reducing the size of the control module, this wall 33 is located below the support plate 19 carrying the electrical circuit 17 and perpendicular thereto. Advantageously, the wall 33 of the housing forming a connector bottom is made in one piece with the support plate 19 thus reducing the number of parts of the module and its cost price. For the mechanical holding of the connection pins 23, the wall 33 comprises for each pin a through opening 35 in which the pin is inserted by force. BRT TC 0026 - SEN5066 2908193 5 To prevent any movement of the pin 23 when connected with a female part, the connection pin comprises lateral non-return hooks 37 cooperating with said case wall 33 to hold the pin in position. To ensure accurate positioning when pin 23 is inserted into aperture 35, connecting pin 23 includes a collar 39 forming a stop. To protect the connection of the output tracks 20 to the associated connection pins 23, it has proved advantageous to surround this connection part with a hot-melt adhesive 41.

It is thus clear that the control module according to the invention is distinguished by a small number of parts and a small footprint, which allows a competitive cost. BRT TC 0026 - SFR5066 5 10 15 20 25 30

Claims (9)

  Control module (1) comprising at least one tactile control surface formed as a flexible electrical circuit (17) forming a pressure-sensitive sensor exerted on the touch-sensitive surface, said flexible electric circuit (17) having at least one less an output track (20), characterized in that it further comprises at least one connecting pin (23) associated with said output track (20), one end (25) of which forms the male part of a connector and the other end (27) is directly mechanically and electrically connected to said outlet track (20) by crimping.   2. Control module according to claim 1, characterized in that the end (27) of the connecting pin (23) facing said output track (20) comprises at least one connection tip (29) piercing said exit track (20) for making an electrical contact and crimped in the direction of the spindle (23) to provide mechanical support.   3. Control module according to claim 2, characterized in that the end (27) of the connecting pin (23) facing said output track (20) comprises a flattened portion (31) and in that said connecting tip (29) is a stamped portion of the flattened portion (31).   4. Control module according to any one of claims 1 to 3, characterized in that it comprises a housing wall (33) forming a connector bottom and through which the or said connecting pins (23).   5. Control module according to claim 4, characterized in that the connecting pin (23) comprises lateral non-return hooks (37) cooperating with said wall (33) of the connector bottom housing to hold the pin in position . BRT TC 0026 - SFR5066 2908193 7   6. Control module according to claim 4 or 5, characterized in that the connecting pin (23) comprises a flange (39) forming a stop during the insertion of the connecting pin in a through opening (35) of the wall (33) forming a connector bottom.   7. Control module according to any one of claims 4 to 6, characterized in that the wall (33) of the connector bottom housing is arranged below a support plate (19) carrying the flexible electrical circuit ( 17) and perpendicular to this support plate (19).   8. Control module according to claim 7, characterized in that the wall (33) of the connector bottom housing is formed in one piece with the support plate (19).   9. Control modules according to any one of claims 1 to 8, characterized in that the connection of the output tracks (20) to the associated connecting pins (23) is surrounded by a hot melt glue. BRT TC 0026 - SFR5066