The following disclosure is based on and claims the benefit of German Application No. 103 45 352.0, filed Sep. 18, 2003, the entirety of which is incorporated herein by reference.
1. Field of the Invention
The present invention is related to the field of electrical devices, and, more particular to electrical appliances and methods for their operation.
2. Description of the Related Art
The operation of electrical appliances such as those used in cooking systems and for other types domestic and office frequently involve the use of capacitive or optically operating switching elements, which are preferably positioned under an operating area like a glass ceramic hob that is provided with an operating surface. These switching elements detect whether a finger of a user is or is not located on the operating surface. Sliding switches and similar switching elements typically can only be implemented with such operating elements by providing several such operating elements positioned successively with one another. This can impose a considerable space requirement and involve considerable costs.
The present invention provides an operating device for an electrical appliance and an associated operating method which obviate the disadvantages of conventional operating and devices, and, in particular, permit more efficient operation of a domestic electrical appliance while also providing increased operating comfort.
The invention, more particularly, provides an operating device having at least one operating element, positioned below an operating surface of the device, and an evaluating unit for activating an operating function for an electrical applicance. Advantageous and preferred developments of the invention are given in the claims and are described in greater detail hereinafter. By express reference the wording of the claims is made into part of the content of the description.
The invention is based on the idea of providing below an operating surface an optical recording device, such as a camera or the like, which is below an operating surface and is part of a movement or motion sensor, that detects at least one movement or contact point on the operating surface. It determines a position and/or a position change of the movement or contact point on the operating surface. For activating an operating function, the position or position change of the contact point is evaluated. When used, for example, as part of a hob, if a finger is placed or moved to or on a specific point of the hob, this is detected and linked with a specific operating function.
Through the use of a camera it is possible to implement an operating element or a recording device, which can resolve the position and/or the position change of the operation, a finger or the like, in a number of stages, for example 10 to 50 steps. It is thus possible to establish operations or movements both in the x and y direction. It is sufficient for the optical recording device to have a limited resolution, for example in rastered steps, as stated hereinbefore. It can be a type of camera with line resolution.
If the operating surface is illuminated from below, illumination improves detection of the movement or the contact point to or on the operating surface. Illumination can be brought about in numerous different ways.
For the detection of random movements, such as rotary movements and/or linear movements, corresponding optical systems such as lenses and/or mirrors can be provided. This makes it possible to cover a larger surface area than would be possible from the recording device.
In an advantageous embodiment of the invention the operating surface is implemented as a line and/or as a multi-line area, in particular with several lines. Each operating surface can be provided with its own function, which can for example be made clear by printed-on symbols.
The optical recording device can scan the operating surface continuously or in fixed time intervals. Scanning with time intervals has the advantage that evaluation is simpler, because the volume of data is smaller.
The position and/or position change of the movement or the contact point on the operating surface can be established by an image comparison of images of the operating surface successively produced by the optical recording device. The optical recording device can be in the form of a camera or the like, which is advantageously implemented as a CCD chip. It can have its sensitivity maximum and can be operated in the infrared range. In a particularly simple variant of the invention, use can be made of a recording device, such is otherwise used in so-called optical computer mice, advantageously with minimum constructional changes. This can lead to a very cost efficient arrangement.
For detecting the boundary of the operating surface, illumination thereof is possible, for example in the IR range. This advantageously occurs from above. The cover of a contact point against illumination can additionally be used for operating purposes, which increases operating safety. This also applies to movements.
The operating method for a cooking system according to the invention, after detecting a movement or contact point on an operating area, determines a position and/or a movement of the contact point with a camera. Then the position and/or movement of the contact point is evaluated and an operating function is activated as a function of the evaluation result.
These and further features can be gathered from the claims, description and drawing, whereby the individual features, both singly and in the form of sub-combinations, can be implemented in an embodiment of the invention and in other fields and can represent advantageous, independently protectable constructions for which protection is claimed here. The subdivision of the application into individual sections and also the subheadings in no way restricts the general validity of the statements made thereunder.
There is shown in the drawing, an embodiment presently preferred, it being understood, however, that the invention is not limited to the precise arrangements and instrumentalities shown.
As is apparent from
An illumination 8 from below the operating surface 2 is shown. It can be implemented in numerous different ways and is advantageously once again similar to the aforementioned optical computer mice. It can also be connected to the camera 3 or control 4, for example for illumination intensity control purposes.
The represented operating surface 2 is implemented as a line with several contact points, in the present case ten contact points, which are marked on the surface, as is apparent from the drawing. As required and depending on the desired resolution, the number of pixels per line can e.g. be 10 or 32, 64 or 128. When used in the form of a multi-line area, the operating surface can be approximately 5×5 cm2 or 6×1 cm2. There can also be several lines in the form of an area. In the represented embodiment the operating surface 2 can be illuminated by the lighting unit 15, which is optional and shown top right, for the detection of its boundaries and also any contact, illumination taking place from below.
The camera 3 with the line 5 symbolically represented on the top side detects a contact point on the operating surface 2, for example through finger 13, which is moved from above towards the operating surface 2 or placed on the contact point on the latter. The camera 3 produces approximately 150 images per second, which are evaluated by the evaluating unit 4 with respect to changes, for example by comparison of successively recorded images. To reduce processing costs, it can be advantageous to record far fewer images, for example 10 to 20 per second. The recording frequency can also depend on whether there is a change of state. It can then change from relatively long to short intervals.
If a change in the form of a contact process and therefore an operation is detected, then the evaluating unit 4 determines the position and/or position change of the contact point. With a specific contact point can be associated a specific function, particularly a switching function. This can for example be an ON or OFF switching function. If there is a movement, on the basis of the comparison of the images, it can be established in which direction the object or finger 3 has been moved and also how rapidly. As a function of the evaluation result, the evaluating unit 4 activates an operating function associated with the position and/or position change.
The camera 3 is implemented as a CCD camera, for example as a CCD chip with 17×17 lines. A magnification or enlargement of the recording field of the camera 3 is possible through the lens 7 or further optical systems such as mirrors or the like.
A faulty or incorrectly detected operating input can for example be indicated by the flickering of the operating surface and/or a corresponding signal.
Thus, in the case of an exemplified operating device for a cooking system with a hob and an operating surface, below the latter can be provided at least one operating element with a contact detection function. The at least one operating element is implemented as a movement sensor with a camera, which detects a movement or contact point on the operating surface and determines a position and/or a position change of the contact point on the operating surface. The position or position change of the contact point is evaluated by an evaluating unit during an operating process for activating an operating function.
Number | Date | Country | Kind |
---|---|---|---|
103 45 352 | Sep 2003 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
6603462 | Matusis | Aug 2003 | B2 |
20010003451 | Armstrong | Jun 2001 | A1 |
20020126098 | Sato | Sep 2002 | A1 |
20030137494 | Tulbert | Jul 2003 | A1 |
20040046741 | Low et al. | Mar 2004 | A1 |
20040160335 | Reitmeier | Aug 2004 | A1 |
Number | Date | Country |
---|---|---|
0446642 | Sep 1991 | EP |
0551240 | Jul 1993 | EP |
1303168 | Apr 2003 | EP |
Number | Date | Country | |
---|---|---|---|
20050061958 A1 | Mar 2005 | US |