DE3910977A1 - Computer input device - Google Patents

Abstract

A manually operated computer input device, with a selection device to select a particular input, and an input device which triggers the input when it is thus selected, has the distinguishing feature that a key is provided, which has on its upper side a sensor arrangement which makes selection possible in at least one direction, and can be activated as a whole to form the input device.

Description

The invention relates to a computer input device according to the preamble of claim 1.

Computer input devices are, according to different Working systems, known.

Keyboard entries, for example, are common Provide a larger number of individual buttons that when pressed execute a certain input, for example an ASCII Entering characters. In a corresponding manner, com More complex commands can be entered by pressing a key the, for example by means of appropriately programmed Function keys of the usual keyboards or by means of Tablet control devices in which touch-sensitive fields when touching a certain (via a Enter the command assigned to the program to the computer. Common to this input system is the principle of operation, after the selection of a particular one to be entered The function and the input are triggered by Pressing a button, touching a field or the like  Furthermore, computer input devices are those in the preamble of claim 1 mentioned type, in which the off choice and input with separate facilities. The best known in this field are the mouse controls directions, initially by controlling the mouse via the corresponding program assignment to a menu selected entry and then this by pressing triggered by an enter key. Such Kompu Input devices are characterized by more flexible features adaptability to different programs, but have the disadvantage that with them always selection and input by separate operations must be carried out, which the operator comfort and the input speed. Such devices should save space in a keyboard be integrated, so there are space problems, because a selection device and a separate input device tion are required.

The object of the present invention is therefore to a computer input device of the type mentioned to create a he with space-saving training increased ease of use and greater input speed enables.

This object is achieved with the features of Identification part of claim 1 solved.

The input device according to the invention has a key on, which, for example, integrated into a conventional keyboard can be. This button has one on the top Sensor arrangement that is one-dimensional as a sensor line or also be designed two-dimensionally as a field of sensors can and therefore in one direction or in one surface Selection of different sensors via a program sitions of assignable inputs. Is a selection hit, so does not have to press a separate enter key be taken, but it will now be the sensor arrangement  key pressed as a whole, for example, down pressed, and thus the entry corresponding to the hit selection triggered. So this is a single finger possible with the finger over the sensor and moves on until the correct position is found and then press the button as a whole and the input off solves. The input device according to the invention is very Can be trained to save space and therefore also into a keyboard ring dimensions can still be integrated. It enables the ra cal selection and entry without actuation of a separate Enter key and is therefore particularly suitable for the menu control, in the menu fields areas of the sensor via a corresponding program is assigned and where the Operator observes the menu on the monitor and with the Fingers on the sensor arrangement reciprocating the kor right menu item and then with the same finger at the selected point.

The features of claim 2 are advantageous see. Pressing the button as a whole can be done under happen in different ways, for example through lateral Shift the key or by tilting the key or other mechanical actuation that can be triggered with the finger. The button is advantageous, however, in the manner of the usual porridge th spacebar of conventional computer keyboards as large button that can be depressed as a whole, which carries the sensor arrangement on its top. With Light pressure or light touch can be on the sensor arrangement the selections are made and then by Depressing the whole key triggered the entry the.

The features of claim 3 are also advantageous intended. Such an elongated button in the manner of usual space bar with a line sensor on the top is for common pull-down menus, each consisting of only one Selection line exist, best suited.  

The features of claim 4 are also advantageous intended. The sensor arrangement can be in continuous one or more directions more sensitive, i.e. high up solving sensor be formed. Design simpler and cheaper and better for controlling menu fields but sensor arrangements with separate fields are suitable other.

The features of claim 5 are also advantageous intended. The sensor fields can be different Be designed to be touch-sensitive, for example wise as stroke keys (advantageous short stroke keys), as op fields that react to shading or as inductive or otherwise touch or proximity fields. Advantageous because it can be trained cost-effectively, capacitive touch-sensitive fields are more common Type.

Finally, the features of claim 6 are advantageous intended. The fields of the sensor arrangement are immediate neighboring and sensitive to touch intensity trained det, they also enable the detection of intermediate positions tion, for example if the finger has two neighboring ones Fields partially touched, covered or otherwise operated. Then with a suitable evaluation circuit Intermediate positions between the positions of the two be interpolate neighboring fields, which makes a simple Sen arrangement with only a few fields higher than that Appropriate positioning resolution enables field number.

In the drawings, the invention is for example and shown schematically. Show it:

Fig. 1 shows a section through an otherwise conventional Komputertastatur with the inventive input device,

Figs. 2 and 3 show two different menus shown on a Komputermonitor,

FIGS. 4 and 5 voltage in plan view of the arrangement of FIG. 1, two variants of a linear Sensoranord,

Fig. 6 in plan view of the arrangement of Fig. 1 and a two-dimensional sensor arrangement

Fig. 7 is a partial view of FIG. 1 with Dar position of the interpolation option.

In Fig. 1, a first embodiment of the invention is provided. The figure shows a side view, partially cut ge, a computer keyboard 1 (keybord) usual construction. Some normal keys 2 are shown as they are on a normal keyboard, for example letter keys or keys for entering special functions, such as Alt, Esc, Enter or the like. According to the invention, an elongated key 3 is provided, which in its construction , for example corresponds to the usual space bar on a computer keyboard. The key 3 is supported at both ends with springs 4 and is held by the springs above an input switch 5 ge, which is pressed when the key 3 is depressed.

A sensor arrangement in the form of sensor fields 6 is provided on the top of the button, which are shown in plan view in FIG. 4. The sensor fields are thus arranged in a row near one another at a short distance or directly abutting one another.

The sensor fields 6 are actuated by touching the finger 7 shown. So they can be touch sensitive in different ways known from the prior art. For example, the fields 6 can be designed as short-stroke keys, which give off triggering when touched lightly. The fields 6 can, for example, also be photosensitive and react when shaded by the finger 7 . They are preferably capacitively touch-sensitive, for example each have a capacitor plate corresponding to the area of the field 6 , which is covered at the top with an insulator layer and is connected to a suitable circuit which, when touched or approached by the finger 7, produces an electrical signal delivers. The output signals of the fields 6 are fed, for example, via a flexible ribbon cable 8 to the electronic part of the keyboard 1 shown, which also receives signals from the input switch 5 via lines 9 .

The electronic part of the keyboard 1 or associated driver programs are designed such that inputs assigned to the fields (commands, ASCII characters or the like) are selected by touching the sensor fields 6 but not yet entered. The input of the selected inputs takes place only by pressing the input switch 5 .

The input device shown thus works so that the finger 7 on the sensor fields 6 looking to the right or left in the direction of the arrow F 1 first makes the selection and then by pressing in the direction of the arrow F 2 the sensor field 6 corresponding to the selected one Inputs input to the computer.

This construction is particularly useful for operating menus the usual way.

Fig. 2 shows a pull-down menu of conventional design appearing on the monitor. In a header 10 which has a plurality of adjacent fields, a field must first be selected by suitable cursor control, for example the field shown hatched in FIG. 2. Then an input must be pressed, and then a column 11 falls below this marked field, which has subordinate menu items in the form of fields, from which, for example, the hatched field is selected and the associated function is triggered by pressing an enter key. This pull-down menu can be excellently served with the construction of FIG. 1.

First you are in the header 10 . By moving the finger 7 back and forth in the direction of the arrow F 1 , the corresponding menu item is selected and entered by pressing the button 3 on the input switch 5 . Column 11 now appears. This can be selected by moving the finger back and forth in the direction of the arrow F 1 and released by pressing the button 3 .

Since such pull-down menus are only ever operated in one direction, ie linearly, a linear, ie one-dimensional sensor line, as shown in FIGS . 1 and 4, is outstandingly suitable for operation.

Another menu design, which would also be suitable, is shown in FIG. 3. There, a menu item 12 is first selected and entered in a first menu line. Then you are in the second menu line 13 , in which is also selected and entered. Then you get to a number line 14 , in which numbers can be selected and entered, and you finally get to a function line 15 , in which arithmetic arithmetic operations can be selected in the case shown. In the illustration of FIG. 3 is only an example showing what kind of menus which are particularly suitable in FIGS. 1 and 4 illustrated linear array sensor.

With the linear sensor arrangement shown in FIGS. 1 and 3, other inputs can also be given to the computer. For example, the cursor can thus be moved in the X direction and, after a corresponding switchover, also in the Y direction and, if necessary, an entry can be made at the selected location, for example for controlling drawing programs. Then a sensor arrangement according to FIG. 5 is more advantageous. A linear sensor line is arranged there on the upper side of the key 3 , which otherwise corresponds to the design of FIG. 1, which, as shown with the dashed lines in FIG. 5, has a very fine field division. For example, it can have 252 individual sensor fields over a length of 15 cm, which is more suitable for cursor control for painting and drawing purposes.

FIG. 6 shows a variant, which in turn largely corresponds to the representation in FIG. 1. The key 3 'from this embodiment has on its top a two-dimensional les sensor field with checkerboard arranged sensor fields 6 ' on. In this sensor arrangement, a two-dimensional selection can be made by selecting appropriate sensor fields 6 ', which can be assigned to a two-dimensional menu field on the monitor.

The key 3 'is actuated as a whole, namely depressed bar and sits on dashed lines Fe 4 ' above an input switch 5 '(dashed).

For the operation of menus, as are shown, for example, in FIGS. 2 and 3, a sensor arrangement of low resolution is sufficient, which has, for example, ten sensor fields 6 according to FIG. 1. This can be used to control menu items of a simple menu or e.g. B. numbers of the number line 14 ( FIG. 3). If the required resolution is higher, a sensor line 16 ( FIG. 5) of higher resolution can be used. However, higher resolution is advantageously achieved in the manner shown in FIG. 7.

On the button 3 sensor fields 6 are provided, which are designed with ge suitable construction such that they deliver a signal dependent on the touch intensity. The fields 6 can, for example, be sensitive to pressure and deliver a signal dependent on the pressure strength or, in the case of optical training, a signal dependent on the shading width of the respective field. Capacitive-sensitive fields are also well suited for this. The fields shown in FIG. 7 are numbered below the illustration. A finger 7 'touches the fields No. 2 and No. 3 approximately evenly strong. The signal obtained from these fields is the same for both fields. A downstream interpolation circuit thus determines position 2.5 . A finger 7 '' actuates the fields No. 6 and No. 7 asymmetrically, namely the field No. 6 stronger than the field No. 7. The interpolation circuit can determine the position value 6.8 with suitable sensitivity. In this way, high position resolutions can be achieved with just a few sensor fields, which are suitable for sensitive cursor control or for the selection of closely spaced menu items.

Claims (6)

1. A manually operated computer input device with a selection device that selects a specific input and an input device that triggers this in the input selected, characterized in that a key ( 3 , 3 ') is provided which, on its top side, enables selection in at least one direction Sensor arrangement ( 6 , 16 , 6 ') and which can be actuated as a whole forms the input device ( 3 , 5 ; 3 ', 5 '). 2. Input device according to claim 1, characterized in that the key ( 3 , 3 ') cushioned depress bar an input switch ( 5 , 5 ') is actuated ausgebil det. 3. Input device according to one of the preceding claims, characterized in that the key ( 3 ) is elongated and on its upper side as in the key longitudinal direction ( F 1 ) extended sensor line ( 6 , 16 ) designed sensor arrangement. 4. Input device according to one of the preceding claims, characterized in that the Sensoranord voltage from side by side, each one position assigned sensor fields ( 6 , 6 '). 5. Input device according to claim 4, characterized in that the fields ( 6 , 6 ') are capacitive touch sensitive. 6. Input device according to one of claims 4 or 5, characterized in that the fields ( 6 ) are formed immediately adjacent such that they deliver an output signal dependent on the touch intensity.