FR2992075A1 - KEYS FOR DORSAL KEYBOARD. - Google Patents

Abstract

Keyboard device 1 for a back keyboard designed to be mounted in a frame, and comprising: a slider 2 designed to be slidably mounted in a direction of extension D between a neutral position and an active position, and comprising a relief S1, S2, C1, C2 defining at least two positions P1-P4 for a finger of a user; at least one presence sensor 6, for detecting the presence of the finger at one of the positions P1-P2; and, at least one sliding sensor 13, 14 for determining whether the cursor is in the at least one active position.

Description

The present invention relates to a device adapted to form at least a part of a rear-entry interface, in particular a back keyboard. It should be understood by back keyboard, a keyboard intended to equip, or equipping, the back of an electronic accessory or a portable electronic device. Generally, such an electronic apparatus has a screen on a front face opposite the back; this device can be a mobile phone, a digital tablet or a remote control, or even a keyboard for desktop. Such an interface is in particular described in patent application FR 07/04958 of July 9, 2007. When such a device has a screen, in order to make the display more readable, the size of this screen must be as large as possible , while the size of the device must remain small enough to ensure the portability and mobility of the device. Thus, having a keyboard on the back of the device can be equipped with a screen that occupies substantially all, or at least a major part of its front, without a significant portion of this screen 25 is necessarily obscured by the display of a virtual keyboard. In such a configuration, both hands are arranged on both sides of the apparatus; the apparatus is held between the palms; the fingers, off the thumb, are arranged in the back of the device, so that they can operate the keys on the back keyboard.

In an ordinary keyboard, for example used for a desktop computer, each key operates by depression, by pressing an impact surface substantially parallel to a general plane of the keyboard. Only one direct instruction can be assigned to each key, other instructions can be obtained only by a combination of this key with another, simultaneously or successively. Such a keyboard thus comprises a number of very important keys, from about eighty to more than one hundred keys. When an object is held in hand, between the palms, the gesture of a finger, such as the index finger, the middle finger, the ring finger or the little finger, and more particularly the movement of the end of the finger, is not possible only in a limited area. This zone is a function of the size of the phalanges and the mobility of the joints. From a medium reference position and rest, finger curved between total extension and total contraction, a finger can usually move more or less 15 to 20mm, or 30 to 40mm globally. Such a displacement is really comfortable and fast only in a comfort zone of the order of 30inm or less. When grasping the back of an opaque device, the fingers are not visible and can not be guided visually. The actuating movements must therefore be sufficiently distinct to allow safe driving without requiring too much precision. On the other hand, the representation of a text entry system is cultural. It depends in particular on the geographical region and the language. We use for example so-called Qwerty keyboards in the United States or Azerty in France. Since the time of the first typewriters to the present day, the layout of the keys has changed only slightly and the habits are pushing to keep a similar arrangement, especially for the main letters. This scheme has even been used on the touchscreen of smartphones. There is therefore generally an arrangement of letters on three lines, some with ten characters, for example "AZERTYUIOP" on the first line of a French keyboard type Azerty. On touch interfaces, a fourth line often hosts five positions for specific functions such as space, mode, or validation keys. For kinesthetic use, ie using only the automatic motor control of the brain, without implementing sensory or cognitive analysis, ie without looking at the keyboard, the impact surface is generally about 1cm2 with a center to center distance, neighboring keys, from 10 to 20mm. The standard-sized keys found on desktop keyboards are spaced 19 mm apart, or for five keys, a distance of about 76mm between the center of the first and the center of the fifth. On a mini-notebook, the spacing can be reduced to 12mm, or, for five keys, a distance of about 48mm between the center of the first and the center of the fifth. However, without moving the hand, as explained above, the end of a finger can move comfortably only over a distance of about 30mm. If keys of sufficiently small size are used, for example at 7 or 8 nm to have five keys in about 30 mm, this requires too much gesture precision and then requires visual guidance, incompatible with a back keyboard, not visible. A device with standard push-buttons placed next to each other is therefore not compatible with a back keyboard, in particular because the palms are immobilized, since they contribute to maintaining the device. The surface covered by the fingertips moving in their natural direction of extension / contraction is therefore too limited. A reduced size of the keys also requires a good vision of the keyboard to be sure to hit the right key; this is therefore not compatible with a back keyboard, in fact, hidden from the view of the user. In addition, if the size of the keys is reduced, then the pressing of a key may also cause the pressing of an adjacent key, because of the size of the fingertip and also the passing of a nail when 'it is long.

To quickly type, kinesthetically, it is necessary to feel in the finger the seizure pulse which must have as a characteristic a low resistance of 20 to 40g and a long stroke of lmm to 2.5mm. When the size of the keys is reduced and then requires greater precision to be operated without actuating its neighbors, the solution generally adopted is to have a stronger resistance, from 100g to 200g, and to have a lower stroke, of 0.2inm to 0.6mm. This requires more effort to visually control his finger and press precisely on hard keys, which decreases the speed and comfort of typing.

Based on a simple gesture in the axis of the fingers and a display on the front, the technology "Back Key Front Screen" (known by the acronym BKFS and meaning in French: "keys at the back, screen to the front "), in particular described in the patent application FR 07/04958 of July 9, 2007, allows to associate with a set of actuators placed on the rear face, a set of controls represented on the front panel on the screen. From a reference position in which the user places his fingers and an arrangement in the same relative positions of the actuators on the rear face and the icons on the front face, the user realizes an intuitive association between the actuators and their rear-panel operations and icons on the front panel. The dynamic display of commands associated with the keys makes it possible to reduce the number of keys by using different modes that group the instructions into input subsets (letters, numbers, navigation, punctuations, symbols, etc.). Nevertheless, to minimize the break of use, it is necessary to look for a usual presentation, AZERTY or QWERTY, which then requires to position at least ten instructions on a line. Other forms of keys or actuators, said compact, exist. Among these compact actuators are known tri-directional switches, in particular the TPC1133 manufactured by the ITT and C & K companies. This type of actuator comprising a rocker system is called "rocker". In addition to the support movement, these actuators are designed to tilt in two opposite directions; they thus offer the possibility of assigning three direct instructions to each key, that is to say that each instruction is associated with a single movement of this single key.

Such tilts are used in particular to increase or decrease a sound volume, in the direction of tilting, the support can be used as a selection function. However, keys using such tilts have a complex and cumbersome, therefore expensive and against the need to limit the size of the back keyboard.

Several types of back keyboard have been designed. Some offer a provision of keys unsuitable for kinaesthetic strikes, others a completely new layout but requires special learning, still others provide that the keys are visible by transparency. None of these back-end keypads solves the problems.

The object of the invention is to propose a device for which the ends of the fingers can move in a comfort zone of at most 40 mm in the natural direction of the movement of the finger in extension and contraction, for which the striking is easy. homogeneous whatever the actuation and requires sufficiently low precision to be kinesthetic, the thickness of which is reduced, the break in use being limited compared to the keyboards usually used, that is to say allowing a known disposition characters and habitual gestural dynamics. We first notice that if we distribute the positions on both hands, we can associate the first line of letters of a standard keyboard 25 to the indexes, the second to the major, the third to the annular and the fourth to the auricular . Each line of a standard keyboard comprising at least ten main characters (for example "AZERTYUIOP" for the first line of a French keyboard, or "QWERTYUIOP" for that of an American keyboard), in order to provide for each position a simple and identifiable gesture, it is therefore desirable to define at least five positions for each index, major and annular and two or three positions for each little finger. To achieve this object, the invention proposes, according to a first object, to provide a back keyboard device, said device being provided to be mounted in a frame, and being characterized in that it comprises a slider provided to be slidably mounted in an extension direction between a neutral position and at least one active position, characterized in that it comprises a relief defining at least two positions for a finger of a user, at least one presence sensor for detecting the presence, if any, of the finger at one of the positions for the finger, and at least one sliding sensor for determining whether the cursor is in the at least one active position. This key device may comprise two active positions for the cursor, on either side of the neutral position, and return means for returning said cursor to the neutral position. The presence sensor may in particular be an optical sensor, a capacitive sensor or a Hall effect sensor. A touch device according to the invention comprises a relief advantageously comprising at least one pair of successive peaks, between each pair of adjacent peaks a respective hollow, and, for each hollow, at least one sensor for detecting the possible presence of the finger . The relief may further comprise between one of the peaks and the corresponding hollow, a plateau intermediate between that of the hollow and that of the peak and forming a shoulder with the hollow. The tray can be extended by a clearance 25 provided for housing the nail of a finger that would be in the corresponding hollow. The relief may also comprise, between one of the peaks and the corresponding hollow, a slope progressively descending from said peak towards the hollow and forming a shoulder with the hollow. According to a second object of the invention, there is provided a back keyboard 30 comprising at least one touch device according to the invention. Such a keyboard -7 advantageously comprises means for displaying the keys on a screen. Such display means even more advantageously include means for displaying a mark indicating the position of a finger on the key, especially when the presence of said finger is detected by a presence sensor. These display means are advantageously completed by means for highlighting functions directly accessible from the position of the finger, when its presence is marked by the corresponding presence sensor. According to a third object of the invention, there is provided an interface 10 comprising a back keyboard according to the invention, characterized in that this keyboard comprises at least one key device according to the invention arranged in such a way that its extension direction or substantially coincides with an extension direction for a finger of a hand holding the interface, an interface frame being provided for mounting each key device. This interface may be integral with an electronic device, that is to say, be an integral part thereof. On the contrary, it may be provided to be mounted on an electronic device, the frame advantageously comprising a housing for fixing the device. When not an integral part of an electronic apparatus, the interface may include means for communicating with or wirelessly with an electronic apparatus. The interface may further comprise means for controlling a pointer visible on a screen, in particular on the screen of a computer of which it would be the keyboard or on the screen of a television of which it would be the remote control. Several embodiments of the invention will be described hereinafter, by way of non-limiting examples, with reference to the accompanying drawings in which: - Figure 1 is a perspective view illustrating a first embodiment for a key a key device according to the invention; Figures 2 and 3 illustrate a second embodiment for keys of a key device according to the invention, respectively in perspective and in side view; Figure 4 is a perspective view illustrating a third embodiment, similar to the embodiment of Figures 2 and 3, for a key of a key device according to the invention; Figures 5 and 6 illustrate a fourth embodiment similar to the embodiment of Figures 2 to 4, for keys of a key device according to the invention, respectively in perspective and in side view; Figure 7 is a front perspective view of a keyboard device according to the invention; Figure 8 is a perspective view of the back of the device of Figure 7; Figure 9 is a perspective grazing perspective of the back of the device of Figure 7; FIG. 10 illustrates in perspective the arrangement of the keys, and, by transparency, those of sensors for detecting positions of the fingers on the keys; and, Figure 11 illustrates a virtual visualization of the keyboard on a screen. Each key device illustrated in FIGS. 1 to 6 is intended to be handled with the same finger, preferably the index finger, the middle finger or the ring finger. Other embodiments, requiring a reduced range of extension, are better suited for use with the little finger; such keys are illustrated in Figure 10. When relevant, the extension direction is represented by an arrow referenced D; each arrow D is directed away from the palm. For the description of each key, we call "before" what is in the direction of the arrow D, and "back" which is in the opposite direction. Each key 1 according to the invention comprises a slider 2 slidably mounted in a slideway 3 between two stop positions. Such a slide is illustrated in Figure 1; only the sliders are shown in Figures 2 to 6. Each slider 2 is monobloc and offers several positions Pl-P4 for the finger. The slider is movable about a neutral position, illustrated in the figure, between two stops 11,12, one 11 at the rear, the other 12 at the front of the slide. Means, not illustrated in the figures, make it possible to return the slider to its neutral position. Figure 1 illustrates a first embodiment for a key according to the invention. The key 1A of FIG. 1 comprises a wave-shaped cursor comprising two troughs C1, C2 separating three peaks, from back to front, a first peak Si, a second S2 and a third S3, and a first Hollow C1 between the first two ridges S1, S2 and a second hollow C2 between the two last peaks S2, S3. The peaks S1-S3 extend substantially transversely to the direction of extension D. Each hollow comprises a window 4 and the key 1A comprises, under the cursor 2, for each window 4, a respective presence sensor 6, of optical type , to detect the possible presence of the finger in the corresponding hollow. The key LA further comprises two sliding sensors, a first sensor 13 for detecting a position, in which the cursor is moved backwards and a second sensor 14 for detecting a position, in which the cursor is moved towards 1 '. before.

Each hollow C1, C2 defines a respective position P1, P2 for a finger of the user. A third position P3 for the finger is defined behind the first peak S1; a fourth position P4 for the finger is defined in front of the third peak S3. The key lA makes it possible to carry out six functions, each function 30 being able to correspond to the striking of a respective letter. Thus: a first function is performed when the finger being in the first position P1, in the first hollow C1, it bears against the first peak S1 and moves the cursor 2 backwards; a second function is performed when the finger being in the first position Pl in the first hollow C1, it bears against the second peak S2 and moves the cursor forward; a third function is performed when the finger being in the second position P2 in the second hollow C2, it bears against the second peak S2 and moves the cursor 2 back; a fourth function is performed when the finger being in the second position P2 in the second recess C2, it bears against the third peak S3 and moves the cursor 2 forward; a fifth function is performed when the finger being in the third position P3, it bears against the first peak Si and moves the cursor 2 forward; and, a sixth function is performed when the finger is in the fourth position P4, it bears against the third peak S3 and moves the cursor 2 back. Each function is activated, depending on whether one of the sensors 6 detects the presence or not of the finger in one of the recesses C1, C2 and, depending on whether one of the sliding sensors 13, 14 detects the presence or no cursor 2 at the front or back of its neutral position. Thus: the first function is activated when the presence of the finger in the first hollow C1 is detected by the corresponding optical sensor 6, and when the rear sliding sensor 13 simultaneously detects the presence of the cursor behind its neutral position; the second function is activated when the presence of the finger in the first hollow C1 is detected by the corresponding optical sensor 6, and, when the forward slide sensor 14 simultaneously detects the presence of the cursor ahead of its neutral position; the third function is activated when the presence of the finger in the second hollow C2 is detected by the corresponding optical sensor 6, and when the rear sliding sensor 13 simultaneously detects the presence of the cursor behind its neutral position; the fourth function is activated when the presence of the finger in the second hollow C2 is detected by the corresponding optical sensor 6, and when the forward slide sensor 14 simultaneously detects the presence of the cursor ahead of its neutral position; the fifth function is activated when none of the optical sensors 6 detects the presence of the finger in one of the recesses C1, C2 while the front slide sensor 14 simultaneously detects the presence of the cursor ahead of its neutral position; and, the sixth function is activated when none of the optical sensors 6 detects the presence of the finger in one of the recesses C1, C2 while the rear sliding sensor 14 simultaneously detects the presence of the slider in the rear of its neutral position.

We will now describe a second embodiment for a key according to the invention, with reference to Figures 2 and 3, in that it differs from the first embodiment. Like the key 1A, the key 1B of FIGS. 2 and 3 forms reliefs. From back to front: a first peak S1, a first hollow C1, plateau-shaped, a second peak S2, a first slope C3, a second valley C2 shaped plateau, a second slope C4, and a third peak S3 . The intermediate plates C3 and C4 are at an intermediate level between that of the second hollow C2 and that of the second peak S2. The levels of the first and third peaks are greater than that of the second peak S2. the first slope extends from the top of the second peak S2, with a first zero slope and then gradually descending along a substantially sinusoidal curve to form a first shoulder El with the second hollow C2, the slope of the slope C3 being again substantially zero at the top of the shoulder El. The second slope C4 has a shape substantially symmetrical to that of the first, relative to the second recess C2; progressively climbing from a second shoulder E2 to the top of the third peak S3. The level of the first hollow C1 is intermediate between that of the second hollow and that of the second peak S2. It is substantially equal to that of the top of the shoulders Bi, E2.

As in the first embodiment, the key 1B comprises two sliding sensors, a first sensor 13, associated with a first longitudinal stop 11, for detecting when the cursor 2 is moved to the rear of its neutral position and a second sensor slide 14, associated with a second longitudinal stop 12, to detect when the cursor is moved forward of its neutral position. The key lA further comprises two presence sensors 15, 16, for the finger, of the capacitive type, arranged under the cursor 2. These presence sensors are illustrated schematically in FIG. 3 and are more particularly visible in FIG. 10, the first presence sensor 15 has a rectangular shape and the second presence sensor is of "B" shape. The first presence sensor 15 is vis-à-vis the first hollow C1 and the second presence sensor 16 is vis-à-vis the second hollow C2. The key 1B makes it possible to carry out six functions, each function being able to correspond to the striking of a respective letter. Thus: a first function is performed when the finger being in the first position Pl in the first hollow C1, it bears against the first peak Si and moves the cursor 2 back; a second function is performed when the finger being in the first position Pl in the first hollow C1, it bears against the second peak S2 and moves the cursor forward; A third function is performed when the finger being in the second position P2 in the second recess C2, it bears against the first shoulder El and moves the slider 2 backwards; a fourth function is performed when the finger being in the second position P2 in the second recess C2, it bears against the second shoulder E2 and moves the cursor 2 forward; a fifth function is performed when the finger being in the third position P3, on the first slope C3, it bears against the first peak Si and moves the cursor 2 back; and, a sixth function is performed when the finger is in the fourth position P4, it bears against the third peak S3 and moves the cursor 2 forward. A third embodiment will now be described for a key according to the invention, with reference to FIG. 4, in that it differs from the second embodiment. The key 1C of FIG. 4 forms substantially identical reliefs to those of the second embodiment, except that the first slope and the second slope are respectively replaced by a first intermediate plate C3 and a second intermediate plate C4, substantially of level with the first hollow C1. Thus, the key 1C comprises, from rear to front: a first peak Si, a first hollow C1, in the form of a plateau, a second peak S2, a first intermediate plateau C3, a second hollow C2, a second intermediate plate C4, and a third peak S3. Intermediate plates C3 and C4 are at an intermediate level between that of second recess C2 and that of second peak S2. The level of the first hollow C1 is substantially that of the intermediate plates C3, C4. The levels of the first and third peaks are greater than that of the second peak S2. The functions of the key 1C are performed in the same way as those of the key 1B of the second embodiment. A fourth embodiment of a key according to the invention will now be described with reference to FIGS. 5 and 6, in that it differs from the second embodiment. The key 1D of FIGS. 5 and 6 forms substantially identical reliefs to those of the second embodiment, except that it comprises an intermediate plate C5 formed in the second slope C4. The intermediate plate C5 is extended forward by a clearance 18 formed under the residual portion of the second slope C4. The level of the intermediate plate C5 is chosen so that if the finger is in the second recess C2, the nail of this finger can pass over the intermediate plate C5 and, if the nail is particularly long, can be housed in the clearance 19, 15 without being damaged on the slope C4. The functions of the 1D key are performed in the same way as those of the key 1B of the second embodiment. A back keyboard device 20 will now be described with reference to FIGS. 7 to 10. FIG. 7 is a view of the front face 21 of such a device. This front panel is designed to receive an electronic device, such as a mobile phone or digital tablet, in a slot 22, shown in phantom. The device 20 comprises, on each side of the slot 22, a lateral shim 23, so that the apparatus is held there between the two shims 23. In the example illustrated, the device 20 further comprises, in the upper left corner of the front face 21, a joystick 25 accessible by the left thumb of a user; it also includes a navigational "pad" of the virtual wheel type by touching, in the upper right corner, accessible by the right thumb. Figure 8 is a rear view of the keyboard device 20, showing the back keyboard 26. The keyboard comprises 8 keys symmetrically divided into two sets of four keys, each for a hand of the user. In the example illustrated in FIGS. 7-10, each set comprises three keys 1B according to the second embodiment, one for the index, the other for the middle finger, the third for the ring finger. The fourth key 27 is of a shortened type, that is to say, it is adapted to be used by the little finger and has only one bowl, and an intermediate plate, the whole allowing 3 distinct functions. As particularly illustrated in Figure 9, each set of keys is disposed in a respective depression at the rear of the device 20, bounded externally by a lateral bulge 28, the curve allows a good grip in the palm of the corresponding hand. At each lateral end of its upper edge, the device 20 comprises a trigger 29, push button type, accessible by the index of the corresponding hand.

As illustrated in FIG. 11, a back keyboard according to the invention may comprise means for viewing it on a screen. This screen can be that of a desktop computer, when the keyboard is used as a device, or, a TV when the keyboard is used as a remote control. This screen can also be that of the phone or tablet when the keyboard, such as that of Figures 7 to 10 is expected to be associated. In the illustrated example, the display means allow a representation of the entire keyboard 26 on a screen, and to see each key and each activated function of this key, at the moment it is. This screen is advantageously that of the electronic device controlled by the keyboard. In this example, the display means also make it possible to display the position of a finger on the corresponding key 1, each time it is opposite a presence sensor 6, 15, 16 of the key. As shown in FIG. 1, each key 1 represents a respective image 31 on which each function is represented by its result.

On the left of the representation 30, and from top to bottom: the image 31G1 of a key 1 accessible by the left index of a user; the image 31G2 of a key 1 accessible by the left middle finger; image 31G3 of a key 1 accessible by the left ring finger; and, the image 31G4 of a key 27 accessible by the left ring finger; On the right of the representation 30, and from top to bottom: the image 31D1 of a key 1 accessible by the right index of a user; the image 31D2 of a key 1 accessible by the right middle finger; image 31D3 of a key 1 accessible by the right annular; and the image 31D4 of a key 27 accessible by the right annulus; On the image 31G1 of the key accessible by the left index, from left to right, the functions directly achievable by the key are symbolized by their result: the first function is symbolized by the tabulation function, the second function is symbolized by the letter "A"; the third function is symbolized by the letter <Z "; the fourth function is symbolized by the letter "E"; the fifth function is symbolized by the letter "R"; and, the sixth function is symbolized by the letter "T". A marker 32 formed of three vertically aligned points also appears on the image 31G1, between the letters E and R. It illustrates the position of the left index as identified by the corresponding second presence sensor 16 30 . Thus, such a mark 32 appears on each image 31, each time that a presence sensor 15, 16 detects the presence of a finger in a respective hollow C1, C2; this is so, for the images: - 31G2, between the symbols "Ctrl" and "Q", illustrating the presence of the left major, vis-à-vis the first corresponding presence sensor 15; - 31D1, between the symbols "P" and "", illustrating the presence of the right index finger, vis-à-vis the first corresponding presence sensor 15; - 31D2, between the symbols "J" and "K", illustrating the presence of the middle right, vis-à-vis the second presence sensor 16 corresponding; and, 31D4, between the symbols ".com" and "D", illustrating the presence of the right little finger, vis-à-vis the corresponding presence sensor. Since no finger is present in front of one of the sensors of the other three keys, no mark 32 appears on the corresponding images 31G3, 31G4, 31D3. For a better visibility, and a more intuitive typing, when the corresponding mark 32 is visible, the functions directly accessible by a simple sliding of the corresponding key, and / or a simple lateral movement of the finger, from the position of the finger, are marked with dark display symbols, while other symbols in the same image are shown lighter. Thus, for the image 31G1, representing the key accessible by the left index of the user, the symbols "TAB" and "A" are cleared, while the symbols "Z" "E" "R" and "T" Are dark. Of course, the invention is not limited to the examples which have just been described. Thus, the keyboard described is a removable keyboard, provided to be able to adapt one or more types of phones or digital tablets. Furthermore, thanks to the means of remote communication between the telephone and the keyboard, the keyboard can be handled remotely from the telephone, or from another electronic device, including a television, an image wall, a screen. - Projected on a wall or a windshield, or even a robot, without this device is housed or housed in the housing or it is an integral part of the electronic device. An electronic device according to the invention can also provide a keyboard integral with the device. Thus, the back of a digital tablet, having substantially the size of a sheet of paper A6, A5 or A4, can be equipped with devices according to the invention, the frame of the tablet forming a frame for the keyboard . Each described key is provided to perform a translational slide in the extension direction. Nevertheless, it can also be provided that the sliding is rotatable around an axis perpendicular to the direction of extension and substantially parallel to a general plane of the back defined by all the keys. A back keyboard according to the invention may constitute a peripheral of a desktop computer; it can advantageously replace a conventional keyboard generally used placed on a horizontal plate, and known to generate many musculoskeletal disorders. It brings comfort and reduced size. If this back-end keyboard includes a screen, this screen can then be dedicated to displaying the keys, the desktop screen being reserved for current applications. Due to its compactness, a keyboard according to the invention can also be used as an accessory of a laptop, a car computer whose screen is projected on the windshield or to control a robot or any other electronic equipment or household appliances.

Moreover, since television sets are increasingly connected to the Internet, a back keyboard according to the invention can advantageously serve as a remote control having advanced functions. The slide of a key for a keyboard according to the invention is advantageously formed in the keyboard frame. In the illustrated examples, the presence sensors are of the optical or capacitive type. It is also possible to use Hall effect sensors for presence sensors as well as for sliding sensors, especially when a key is used to make a waterproof keyboard.

Claims (13)

REVENDICATIONS1. Key device (1,27) for back keyboard (26), said device being adapted to be mounted in a frame, and being characterized in that it comprises: a slider (2) adapted to be slidably mounted in one direction - extending (D) between a neutral position and at least one active position, the cursor comprising a relief (S1-S3, C1-05) defining at least two positions (P1-P4) for a finger of a user; at least one presence sensor (6, 15, 16) for detecting the possible presence of said finger at at least one of said positions for the finger (P1-P2); and, at least one sliding sensor (13, 14) for determining whether the cursor is in the at least one active position. 2. Button device (1.27) according to claim 1, characterized in that it comprises two active positions for the slider (2), on either side of the neutral position, and return means for bringing back said slider in said neutral position. 3. Key device (1A) according to claim 1 or 2, characterized in that the at least one presence sensor (6) is an optical sensor. 4. Key device (1B-1D, 27) according to claim 1 or 2, characterized in that the at least one presence sensor (15, 16) is a capacitive sensor. 5. Key device (1) according to claim 3 or 4, characterized in that the relief comprises at least one pair of successive peaks (S1, S2; S2, S3), and between each pair of neighboring peaks (S1, S2). S2, S3) a respective recess (C1, C2), and, for each recess, at least one sensor (6, 15, 16) for detecting the possible presence of the finger. 6. Key device (1C, 1D, 27) according to claim 5, characterized in that the relief further comprises between one of the peaks (S2, S3) and the corresponding hollow (C2), a plateau (C3, C4 , C5) of intermediate level between that of the hollow and that of the peak and forming a shoulder (E1, E2) with said hollow. 7. A key device (1D) according to claim 6, characterized in that said plate (C5) is extended by a recess (19) provided to accommodate the nail of a finger that would be in the (C2) hollow corresponding. 8. A key device (1B, 1D, 27) according to claim 5, characterized in that said relief further comprises, between one of the peaks (S2, S3) and the corresponding recess (C2), an embankment (C3, C4) progressively descending from said peak towards the hollow and forming a shoulder (E1, E2) with said hollow. 9. Back keyboard (26) comprising at least one touch device (1,27) according to one of claims 1 to 8. 20 10. Backboard keyboard according to claim 9, characterized in that it comprises means for displaying the keys (1,27) of said keyboard on a screen. 11. Backboard keyboard according to claim 10, characterized in that the display means 25 comprises means for displaying a mark (32) showing the position of a finger on the key, especially when the presence of said finger is marked by a sensor. of presence (15,16). 12. Backboard keyboard according to one of claims 10 or 11, characterized in that the display means further comprises means for highlighting functions directly accessible from the position of the finger, when its presence is spotted. by the corresponding presence sensor. 13. Interface (20) comprising a back keyboard (26) according to one of claims 9 to 11, characterized in that said keyboard comprises at least one key device (1,27) according to one of claims 1 to 8, arranged so that its extension direction (D) is substantially coincidental with an extension direction for a finger of a hand holding the interface, an interface frame being provided for mounting each key device therein. 10