WO2010103221A1

WO2010103221A1 - Device for activating a touch screen

Info

Publication number: WO2010103221A1
Application number: PCT/FR2010/050384
Authority: WO
Inventors: Arnaud Thooris
Original assignee: Dura Automotive Systems Sas
Priority date: 2009-03-12
Filing date: 2010-03-05
Publication date: 2010-09-16
Also published as: FR2943160A1; FR2943160B1

Abstract

The invention relates to a device for controlling a robotised gearbox of an automobile using a touch screen in order to shift and select the P, R, N, D and M positions, comprising, in the vicinity of the screen (1), an area (12) capable of ensuring the positioning of the hand, said area being provided with at least one sensor (13) for detecting the presence of the hand for enabling the activation of said screen that is controlled by an algorithm for shifting and selecting the P, R, N, D and M+ and M- positions of said gearbox.

Description

DEVICE FOR ACTIVATING A TOUCH SCREEN.

The invention relates to the technical sector of the touch screen control means.

The invention finds a particularly advantageous application in the automotive field.

It has already been proposed to use touch screens in the automotive field, for example for the control of an on-board navigation system.

However, this type of tactile control can not be used as such for safe commands, especially in the automotive field, given the significant risk of easily making mistakes and generate involuntary commands or when an object falls on the screen. 'screen.

As a result, the use of a touch screen, in the field of the automobile, requires securing the screen in order to be certain to validate the desired function with the aim of being able to use the screen, an intuitive way.

To remedy these drawbacks and solve such a problem, it has been designed and developed, according to the invention, a device for activating a touch screen, which comprises, close to the screen, an area suitable for ensure the positioning of the hand, said zone being equipped with at least one sensor for detecting the presence of the hand on said zone to allow the activation of said screen which is subject to an algorithm of command of a function. The zone is advantageously an ergonomic shape which is part of a support where the screen is mounted.

The invention also relates to the use of a touch screen thus secured for the control of a robotized gearbox of a motor vehicle.

For this purpose, the screen is subject to an algorithm that comprises the following steps: a waiting step; a step of memorizing the coordinates of a digital support; a step of memorizing the releasing coordinates of the digital support; a step of calculating the vector between the two points (support and release); a test step according to which the length of the vector is compared to a determined length range:

"If the length of the vector is less than the predefined length, we return to the waiting step;" if the length of the vector is greater than the predefined length, we validate a test step in which we compare the orientation of the vector to a predefined angular range; if the orientation of the vector does not fall within the predefined angular range, return to the waiting step; if the orientation of the vector enters the predefined angular range, the desired command P.R.N.D. is validated, for example.

The invention is described below in more detail with reference to the figures of the accompanying drawings, in which: - Figure 1 is a perspective view, schematic, showing the touch control screen combined with an ergonomic support shape for the activation or not of said screen.

- Figure 2 is a block diagram of the operation of the validation of the controls of the touch screen.

As shown in Figure 1, the touch screen (1) is equipped with a zone consisting, for example, by an ergonomic shape (12) adapted to ensure the positioning of the hand. This form (12) is equipped with at least one sensor (13) for detecting the presence of the hand on said shape to ensure the activation of the screen (1). In the absence of detection, no control of the touch screen is possible. The proximity sensor (13) can be of any known and appropriate type, such as mechanical contact switch, optical sensor, capacitive sensor, inductive sensor. Advantageously, the sensor is of the capacitive type in order to detect the proximity of the hand to the level of the ergonomic shape (12). The presence of the hand detected by the sensor (13) is processed by software to activate the screen.

As indicated, the touch screen (1) thus secured can advantageously be used as an operating device for the control of robotized gearboxes.

In other words, the touch screen (1), in the same way that a lever or pallets, is subject, in a manner perfectly known to a person skilled in the art, to an electronic calculator and control unit for passing, at will, a sequential manual mode, according to which one goes up and down the speeds, to an automatic mode for the engagement of the positions P, R, N, D. In addition to activating the screen (1) only after detection of the hand of the user, it appeared necessary to secure the touch screen (1) to avoid any non-voluntary validation of an action corresponding to the passage and / or selecting a speed. In other words, according to the invention, a command or action will be confirmed only after a displacement on the screen under specific conditions, in order to avoid any error in handling and allowing use without having to look at the screen .

Generally, according to the state of the art, a command is validated by pressing on an area of the touch screen. It is therefore the coordinates of the pressure point that can define the command to be executed.

According to the characteristics at the base of the device according to the invention, the control is validated after a movement of the pressure point. In other words, it is necessary to define and calculate the direction, the length and the direction of a vector between the points of beginning and end of pressure. If the vector standard is too low, in that it does not fall within the predefined vector characteristics field, the command will not be executed.

Advantageously, the pressure start zone can be either defined or completely free. In the latter case, the command can be executed without forcing the user to look at the touch screen. The block diagram of the operation of the validation of the commands is illustrated in FIG. 2. The touch screen (1) is subject to an algorithm which comprises the following steps:

a waiting step (2); - after pressing the screen (1), storing the coordinates of the support (step (3));

releasing the support and memorizing the releasing coordinates (step (4)).

From these two stored data (support and release), it is possible to calculate, by appropriate software, the vector between these two points (step (5)).

This calculation step (5) is followed by a test step (6) in which the length of the vector is compared to a predefined length (L). If the length of the vector is less than the length (L), return to the waiting step (2). If the length of the vector is equal to or greater than the length

(L), one validates, for each of the commands 1, 2, 3, 4, for example the steps (7) and (8), a test step (9) according to which the direction and the orientation of the vector are compared by relative to the predefined range.

If the orientation and the direction of the vector do not fall within the predefined range, we return to the waiting step (2). If the orientation and direction of this vector fall within the predefined range, the desired control command 1, command 2, command 3, command 4, corresponding, for example, to the positions P, R, N, D, as indicated, is validated. .

These technical provisions therefore make it possible to validate an order only if the predetermined conditions and characteristics vector between a fulcrum and a release point on the touch screen, are respected. It avoids, therefore, any involuntary and untimely control.

The advantages are apparent from the description.

Claims

R E V E N D I C A T IO N S

-1- Device for controlling a robotized gearbox of a motor vehicle by means of a touch screen, for the passage and selection of positions P, R, N, D and M, characterized in that it includes, near the screen (1), an area (12) adapted to ensure the positioning of the hand, said area being equipped with at least one sensor (13) for detecting the presence of the hand to allow the activation of said screen which is subject to an algorithm for the passage and selection of the positions P, R, N, D and M + and M- of said box.

-2- Device according to claim 1, characterized in that the zone is an ergonomic shape.

-3- Device according to claim 1, characterized in that the proximity sensor (13) is of the capacitive type.

-4- Device according to claim 2, characterized in that the ergonomic shape (12) is part of a support where is mounted the screen (1).