DE102018213384A1 - Touch-sensitive surface with haptic elements - Google Patents

Abstract

In order to create a touch-sensitive surface, which recognizes one and / or more support positions, and which generates control elements where they are required, the surface can generate at least one multimodal, portable control element on the surface in the area of the recognized support position.

Description

The invention relates to a touch-sensitive surface that recognizes one and / or more support positions.

State of the art

Such a touch-sensitive surface is known from the current state of the art and is particularly popular with touchscreens of mobile devices or tablets. The surface is often a flat surface on which various operating elements are displayed, which can be moved or moved when touched or which trigger a function.

However, there are also surfaces that can give the user haptic feedback. In the WO 2008 150600 A1 For example, a flexible touch-sensitive surface is described, which is coupled to an actuator. This can generate haptic feedback when touched.

Like in the US 2006 103634 A1 an EAP (electroactive polymer) can also be used for feedback when touched by a finger. Depending on the visual information at the point touched, a different haptic signal can be output.

Disclosure of the invention

With the previously known touch-sensitive surfaces, however, the basic arrangement of the operating elements is predetermined and must be visually recognized by the operator. However, if it is not possible to select the control element visually, it is practical to capture control elements via another sensory channel. It is also advantageous if the control element is created where it is needed and does not have to be searched for.

The present invention solves this problem with the features of independent claim 1. The touch-sensitive surface, which recognizes one and / or more support positions, generates at least one multimodular, portable operating element on the surface in the area of the recognized support position. The invention further solves this problem with a method according to the independent claim.

According to the invention, the touch-sensitive surface can recognize the approach or touch of a part of the body, for example a finger or a hand, or an object, for example a pen or rod made for this purpose, and register this position of support. The multimodular, portable operating element can then be generated on the surface in the area of the recognized support position.

The support position is the area in which the approach or contact is recognized, which can be done for example by pressure or by ohmic, capacitive or inductive resistances. Preferably, both the portable control element and a group of portable control elements can be generated with a recognized support position, as well as multiple control elements for multiple support positions. Particularly preferably, the portable control element can be experienced both visually and haptically, whereby only a visual display, for example on the surface or a display, or a haptic display, such as an elevation of the surface or a vibration, are possible when generating the portable control element , Such generation of the control elements on demand is particularly ergonomic, since the portable control elements can be arranged and designed differently for different users and can thus be adapted to the natural hand position or to preferred support positions of the users. With smaller hands, the controls can be arranged closer together, for example, or if someone touches the steering wheel further down, the controls would preferably not be located above the middle, but on the contact surfaces of the fingertips, i.e. the recognized contact position. Preferably, the portable control element can also be moved when the support position is moved. Both the absolute position of the portable control element or the group, for example on an input device, can vary, and in the case of a group the relative position of the control elements among one another.

Since the portable control element is only generated when required, it can also be attached to places on input devices that you have to touch frequently and where permanent collection or a touch-sensitive control element would interfere or contamination of the openings of keys or buttons is to be feared , This can be, for example, in the car on the edge of a steering wheel, since there are hands and fingers on it and you do not have to move them to the center to use controls, but at the same time permanent bumps from buttons would be annoying.

Instead of a button, a button or a switch, an elevation in the surface, a so-called “haptic button”, can preferably be placed at the support position. This can be moved when the support position is shifted, for example by the movement of the hand or the pen by which the support position was recognized. The function of the haptic key can be made known, for example, by its position on an input device, by its shape, height or by feedback given by the haptic key.

The portable control element can give feedback in different ways, acoustic or optical variants are already known, the haptic feedback also being included in the present invention. The feedback can be given particularly preferably both when locating the movable operating elements, when triggering a function, or for information transfer. The haptic feedback can preferably consist of a change in shape or height, that is to say an at least partial increase or decrease in the movable operating element, a vibration of the surface itself, a change in the air friction on the surface or a combination of the aforementioned options. In this case, depending on the strength of the triggering signal or the pressure on the portable operating element, it can give a different haptic feedback.

When creating portable control elements with different functions or when triggering different functions, these can be accompanied by different haptic feedback. For example, the feedback can indicate whether a portable control element has arisen or whether and / or which function has been triggered. Additionally or alternatively, any haptic information can be transmitted via the control element, which is independent of the element's operation, such as a parking distance, the distance to the car in front of it or the road limit or speeding. The information can also be transmitted without the operator's input or without direct request. The haptic feedback can preferably be brought about by a piezo, an actuator or a polymer, an EAP, ie an electroactive polymer, being particularly preferably used. However, an EAP can also be combined with another actuator, such as, for example, an electromagnetic actuator, in short a magnetic actuator, an eccentric mass and / or a linear resonance actuator, also known as a linear resonant actuator.

The touch-sensitive surface preferably consists of an electroactive polymer (EAP) and is advantageously curved. The EAP is very flexible and can adapt to different forms of the input device. In addition, the EAP can not only function as a force sensor for the detection of the support position on the surface, but also trigger different functions at different pressures. For example, touching the surface can trigger the creation of a movable control element and a gentle pressure or a strong or longer pressure can perform two different functions. The pressure threshold for the creation of the portable control element and for the triggering of the different functions can be set as desired, for example by specifying certain voltage values as thresholds for the control. For the haptic feedback, the EAP itself could be the actuator and, depending on requirements, flexibly change its surface or give different vibrations as feedback. Accordingly, the EAP can preferably fulfill a double function and be used both as a sensor and as an actuator.

In an advantageous embodiment, the method of recognizing the support position, generating the portable operating element and triggering functions can be carried out in a fixed sequence. In the first step, the support position on the surface of the input device is detected and a distinction is made between whether a "large" support surface, such as an entire hand, or a "small" support surface, such as a finger, has been recognized. In the case of a large contact area, it is assumed that only the input device is to be moved and no further operation is desired, which is why no movable control elements are generated. In the case of a detected small support surface, portable operating elements are generated on the surface; in the case of an EAP, haptic buttons can be generated, for example, by changing the voltage. The user can now orientate himself on the portable operating elements, select at least one of them and trigger its function by applying higher pressure. In the last step, a distinction is made whether the pressure threshold is higher or lower than the trigger threshold. If the pressure is too low, the function is not triggered, the portable control element fades slowly by continuously reducing the manipulated variable, for example the voltage on the EAP. If the pressure threshold value is exceeded, the triggering of the function of the respective portable operating element is detected and the function is carried out.

The touch-sensitive surface can be applied to various input devices, for example a computer mouse, a steering wheel, the center console of a vehicle or any kind of tablets or screens, which can then be controlled by the touch-sensitive surface. The input devices record a movement or execute it in parallel with the actuation of the buttons or keys for operation. These input devices can then be installed further in different systems, for example in vehicles or in mobile work machines, such as joysticks, in which an operation adapted to the user is advantageous.

drawings

The invention is explained in the following by way of example with reference to preferred embodiments in schematic views.

• 1: eine Oberfläche mit einem ortsveränderlichen, haptischen Bedienelement,
• 2: ein sich mitbewegendes haptisches Bedienelement mit haptischer Feedbackfunktion,
• 3: ein Eingabegerät und ein mobiles Arbeitsgerät, welche ein ortsveränderliches Bedienelement enthalten, und
• 4: ein Diagramm eines Verfahrens zur Erzeugung eines ortsveränderlichen Bedienelements und des Auslösens einer Funktion.

They show schematically:

• 1 : a surface with a portable, haptic control element,
• 2 : a moving haptic control element with haptic feedback function,
• 3 : an input device and a mobile work device, which contain a portable control element, and
• 4 : A diagram of a method for generating a portable control element and triggering a function.

Description of the embodiments

1 shows a view of a touch-sensitive surface 100 , which is shown in a curved state. Then there is the portable control element 10 to see which turns out to be an elevation 11 from the touch-sensitive surface 100 takes off.

In 2 recognizes the touch-sensitive surface 100 the support position 12 a finger 13 and thereby releases the portable control element 10 out. The finger is removed from the touch-sensitive surface 100 taken and put down in another place, or the finger is on the touch-sensitive surface 100 moves, then senses the touch-sensitive surface 100 the new edition position 12a and generates the portable control element there 10 , Takes off the touch-sensitive surface 100 a stronger pressure or other function-triggering movement of the finger 13 , the function can be executed with haptic feedback 14 , for example a vibration or a change in the elevation 11 Show.

The touch-sensitive surface 100 can, as in 3 shown, also as the surface of an input device 200 or a mobile work device 300 Be pronounced. Here, the input device can, for example, a steering wheel as in 3a and the mobile working device is a joystick like in 3b , In both cases you can see how the portable controls 10 with a movement of the hand and thus the recognized support position 12 to the new edition position 12a also move. Here the contact position at the fingertips, as in 3a , or on the edge of the hand, as in 3b be recognized.

4 shows in a schematic flow diagram a sequence of the generation of the portable operating elements 10 and triggering their functions. The first step 15 is the detection of the support position 12 on the touch-sensitive surface 100 through a body part or an object. The following is based on the selection criterion 16 the contact surface differentiated how to proceed. In the case of a "large" detected contact surface, for example a palm or an arm, there is no generation 17 of portable controls 10 causes. If a "small" contact surface is detected, for example a finger 13 or the tip of a pen, haptic elements are created 18 , This can be done, for example, by changing the voltage on the EAP or another manipulated variable. The user can then orientate himself on the haptic elements and the corresponding portable operating element 10 choose. With triggering 19 of the portable control element 10 , for example by a higher pressure, it is checked whether the threshold value is exceeded and thus the selection criterion 20 for triggering a function is fulfilled. If a certain threshold value is not reached, the haptic element disappears 21 brought, for example, by slowly but continuously reducing the manipulated variable, such as the voltage in the EAP. If the threshold value for a certain function is exceeded, this is carried out 22 , Subsequently, haptic feedback can be given or another confirmation of the triggering of the function.

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• WO 2008150600 A1 [0003]
• US 2006103634 A1 [0004]

Claims (11)

Touch-sensitive surface (100), which recognizes one and / or more support positions (12), characterized in that at least one portable operating element (10) is generated on the surface (100) in the region of the recognized support position (12). Touch-sensitive surface (100) according to Claim 1 , characterized in that several portable operating elements (10) are generated in the area of one or more support positions (12). Touch-sensitive surface (100) according to Claim 1 or 2 , characterized in that an elevation (11) is generated in the surface (100) at the location of the portable operating elements (10) and / or support position (12). Touch-sensitive surface (100) according to one of the preceding claims, characterized in that the portable operating elements (10) are designed to give haptic feedback (14) when touched or when a function is triggered. Touch-sensitive surface (100) according to Claim 3 and / or 4, characterized in that the portable control elements (10) indicate the function of the portable control elements (10) by the shape and / or height of their elevation (11) and / or haptic feedback (14). Touch-sensitive surface (100) according to Claim 4 and / or 5, characterized in that the surface (100) consists of an EAP and the EAP is designed directly as an actuator to generate the haptic feedback (14). Touch-sensitive surface (100) according to any one of the preceding claims, characterized in that the surface (100) is curved. Touch-sensitive surface (100) according to one of the preceding claims, characterized in that the portable control elements (10), depending on the strength of a triggering signal or a pressure on the portable control elements (10), are designed to trigger a different function. Input device (200), characterized in that at least part of a surface (100) of the input device (200), which is used by an operator to select a function, is designed according to one of the preceding claims. Mobile work machine (300) or vehicle, characterized in that at least one of the input devices (200) according to an input device (200) Claim 9 is trained. Method for controlling a touch-sensitive surface (100), wherein at least one support position (12) is recognized on the touch-sensitive surface, characterized in that at least one portable control element (10) is formed on the touch-sensitive surface in the area of at least one recognized support position (12) becomes.

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