SWITCH

专利摘要:
The invention relates to a device (100), in particular e.g. manually operable switch or manually operable probe device for generating electrical signals, e.g. Switching and / or control signals comprising a fixed base part (101) and an actuating element (3) which is movable with respect to the base part (101) and which is movable with or against a setting force between one or more positions, the device (100) a device for determining the position and / or movement of the actuating element (3), and wherein according to the determined position and / or movement of the actuating element (3), a corresponding signal is generated. According to the invention, the movable actuating element (3) is pivotably and rotatably mounted on the base part (101) by means of a ball-joint-like joint (4), wherein the device for determining the position and / or movement of the actuating element (3) comprises at least one sensor arranged for this purpose to detect the pivoting movements and / or rotational movements and / or all defined, selectable positions of the actuating element with respect to the base part, and wherein at least one actuating device (1a, 1b, 5, 20) for generating the actuating force, with or against which actuating force the actuating element (3) is movable with respect to the base part (101) is provided.
公开号:AT512033A4
申请号:T1824/2011
申请日:2011-12-12
公开日:2013-05-15
发明作者:
申请人:Lunatone Ind Elektronik Gmbh；
IPC主号:

专利说明:

P12275
SWITCH
The invention relates to a device / in particular a mechanically, for example, manually operable by a user switch or a mechanically, for example, manually operable by a user sensing device, in particular a user-operable button, for example, to generate electrical signals, such. Switching and / or control signals, comprising *) a fixed base part and *) a movable with respect to the base part actuator which is movable with or against a force between one or more positions, *) wherein the device comprises means for determining the position and / or movement of the actuating element, and *) wherein according to the determined position and / or movement of the actuating element, a corresponding signal is generated.
Such devices are well known, e.g. from the building technology for switching on and off of devices or as a light switch, as a switch for dimming etc. Also for switching a variety of devices such as drills, cordless screwdriver, electric shears, etc., such switches are well known.
At this time, an actuator of the switch is brought into a switching position (e.g., position "light on", "light off") and according to this switching position, an electric signal is generated to initiate the corresponding operation.
Such devices are also known in the form of so-called buttons, in which, when actuated, the actuating element is moved to a defined provisional position, from which the actuating element automatically moves back into the starting position after actuation. -2- PI 2275
Existing known devices have a number of disadvantages. To be able to control, for example, a number of different devices and / or actions in bus systems, a number of switches is necessary, which is both expensive to purchase, on the other hand conveys a visually unfavorable impression by the large number of switches on the wall.
Known switches often have a voluminous structure, moreover, for example, a cleaning of the switch or a disassembly of the switch is not advisable subsequently by non-trained personnel, since this can easily cause contact with live parts of the switch.
When a switch or button is actuated, an electrical contact is normally opened or closed, whereby a corresponding switching signal, etc. is generated. However, this has the disadvantage that the contacts can corrode, which can lead to greater sparking subsequently. This problem of creepage currents is particularly common in switches in wet rooms, and even in hazardous areas sparking is of course undesirable or are there such switches are not allowed.
It is an object of the invention to provide an improved device which is particularly suitable for original use in bus systems or for retrofitting existing bus systems.
This object is achieved with a device mentioned above in that according to the invention *) the movable actuating element is pivotably and rotatably mounted on the base part by means of a ball joint-like joint, *) and wherein the means for determining the position and / or movement of the actuating element at least one sensor which is adapted to detect the pivotal movements and / or rotational movements and / or all defined, selectable positions of the actuating element with respect to the base part, and at least one actuating device for generating the actuating force, with or against which actuating force the actuating element with respect to the base part is movable, is provided.
Preferably, the hinge is designed such that the actuating element of the base part is manually releasable, and the adjusting device is designed such that the manually releasable joint is rotatably and pivotally held together, and / or a holding device, for example consisting of magnets and / or springs is provided, by means of which the manually releasable joint is rotatably and pivotally held together.
For example, the ball joint-like joint is a ball joint, with which the movable actuating element is pivotably and rotatably mounted on the base part, wherein the ball joint of a ball head, which is connected to the actuating element or the base part, and a ball socket, which with the base part or Actuator is connected, there is.
In a low-cost embodiment of the invention it is provided that the ball-joint-like joint is designed as at least one between the actuating element and the base part arranged elastic element, for example as a rubber element.
Such an elastic element, such as a rubber block, in addition to the mobility of the control panel also provide the necessary (re-) actuating force. In this example, thus, the ball joint-like joint and the adjusting device would be formed in one element.
Under a "ball-jointed " Joint is understood to be a joint that has the degrees of freedom of movement of a ball joint.
In contrast to a ball joint, however, such a rubber-like ball-joint-like joint, for example, does not permit full deflectability, in particular not full rotation, as in the case of a "correct". Ball joint, however, at least deflection movements in pivoting and in the direction of rotation are also possible here, so that with such a simple and inexpensive variant also inventive devices, especially buttons can be realized. - 4 - P12275
The use of a ball joint has the advantage that the actuator has a large number of degrees of freedom with respect to its mobility with respect to the base part and thus a large number of different actions can be controlled with the device. The actuating part can on the one hand be pivoted about an axis parallel to the base part, on the other hand be rotated about an axis normal to the base part, these two movements additionally "superimposed". can be, i.e. that in a twisted position pivoting of the actuating element is also possible and vice versa.
The ball joint-like joint or, the ball joint is designed such that the actuating element of the base switch part is manually releasable. Manually releasable means that the actuator can be solved without tools from the base part, so the device can be easily taken apart. For this purpose, in a ball joint, the ball socket is formed from such that it only covers the ball so far that the ball can be easily pulled out of the pan, without any effort or only with little effort. The ball joint thus serves primarily to define the movement of the actuating element with respect to the base part, and not to hold together the base part and the actuating element.
The cohesion of the device is mediated by the actuator, which is designed such that e.g. in a ball joint of the ball head is rotatably held in the ball socket. The actuator thus permits movement of the actuator with respect to the base member, i. Base part and actuator are not fixed to each other, so the base part and actuator together so that they can not solve each other (without manual intervention),
Without explicit, directed to the release of force by the actuator sits the actuator rotatably in the base part and can not be solved. Only with an explicit use of force can the two parts be separated from each other.
But it can also be provided a holding device which holds the base part and the actuating element or the ball joint-like joint. This holding device may for example consist of one or more magnets and / or a plurality of springs. • 5- P12275
The holding device can hold together with the actuator base part and actuator together, or it can also be provided that only the holding device base member and actuator holds together, especially if the actuator, for example. exerts a restoring force, that is, when the actuator exerts no cohesive force.
Depending on the configuration of the adjusting device, as described below, this also realizes - in addition to the holding together of the parts - also switch positions defined at a switch, i. defined positions of the actuating element with respect to the base part, or the actuator moves the actuator after actuation by a user back to its original position (button). In the latter case, a holding device as described above is usually necessary for holding the parts together.
In a preferred embodiment of the invention it is provided that the restoring device comprises at least one magnet and at least one inference element which cooperates with the at least one magnet.
Magnet and return element - e.g. one in the form of another magnet or a magnetizable element - act, for example, attractively on each other, so that the base part and actuator are held together.
The magnetic forces thus hold the actuator in a stable position, but it can be easily moved and easily separated from the base for mounting the switch.
In principle, it is sufficient if the actuator has only one magnet. Such an arrangement is suitable, for example, to design the combination tilt-turn switch, in which there is only a stable position of the actuating element, by tapping the actuating element but this can be brought into a second position for generating a switching pulse. After releasing the actuator this returns by the attractive force between the magnet and the return element back to its stable position.
Fl2275 - b -
In the case of a rotary switch, it would also be conceivable that only one magnet is fastened to the actuating element, but a plurality of return circuit elements on the base switch part, so that a plurality of defined switching positions result. For the generation of two or more stable and defined switching positions, it has proved to be expedient if two or more magnets are provided on the actuating element. In particular, this variant is suitable e.g. on a rotary rocker switch with two defined switch positions (e.g., "on" and "off") very good.
If two or more magnets are provided, then it is also expedient if each magnet is assigned a return element.
In the case described above, one or more defined switching positions are realized by the adjusting device (attracting magnets / return elements). In addition, in such a switch then no holding device is necessary because the actuator holds the switch together.
But it can also be a button realized that magnet and associated return element are repulsive, in this case, an additional holding device is necessary to hold the button together.
In a specific variant, it has proven to be expedient if the at least one return element is arranged on the base part and the at least one magnet is arranged on the actuating element.
In another variant of the invention it is provided that the adjusting device comprises at least one mechanical spring which generates the actuating force, wherein the at least one spring is arranged between the base part and the actuating element.
The actuator can then be pressed, for example, against the force of the spring in the direction of the base part, to which the ball of the ball joint must be guided accordingly when lifting so that such movement is possible, in addition or alternatively, the actuator in any direction with respect to the Base part P12275 - '/ - tilted. After releasing moves by the spring force, the actuating element back to its original position.
Preferably, the at least one spring is designed as a helical spring which is arranged around the joint. In this way, the spring can be arranged to save space.
In principle, several "smaller" Springs may be provided, which are preferably arranged symmetrically around the ball joint, e.g. along a circle around the ball joint, but as a rule the arrangement with only one central spring is to be given preference due to the simpler structure with fewer components.
The spring or springs can be against a force to a pressure as well as a rotational movement, whereby the actuating element in addition to the already described movement possibilities are also rotated with respect to the base part.
In this way, a turn, tilt and tap button can be realized.
In the invention, it is possible that the switch as a rocker switch, rotary switch, jogging switch or a combination of two or three of these switches, or the button as a rocker switch, rotary switch, tip button or a combination of two or three of these buttons is. For example, depending on the rotational position, a switch with two stable positions or a button with a stable position can be achieved.
An extremely useful variant in practice is, for example, a rocker switch that can be converted to a rocking position by removing and turning the control panel 180 degrees to the rocker switch.
For example, a magnet on the control element with its north pole faces the north pole of a magnet on the base part. At a position opposite to the hinge position, a magnet is seated on the control element, the south pole of which faces the south pole of a magnet on the base part. These magnets repel each other, the control element is in the middle position in its stable position, the control element can be "keyed" in both directions. become. To hold together control and base part here own holding device (preferably in the vicinity of the joint) is necessary.
If you remove the control panel and rotate it with respect to the joint by 180 °, so are each north and south poles of the magnet on the control panel and base opposite, these pull, so that two defined switching positions can be realized.
For example, at least one magnet and / or at least one return element is arranged on each of the opposite ends of an actuating element with respect to the joint. In the opposite region, a magnetic element (or a plurality of inference elements / magnets) assigned to the magnet / return element of the actuating element is assigned to the base part.
The device for determining the position and / or the movement of the actuating element comprises at least one position sensor and / or rotary sensor and / or combined sensor, which is arranged on the base part and / or the actuating element.
It is particularly advantageous if the at least one position sensor and / or rotary sensor and / or combined sensor for non-contact or contactless determination of the position and / or movement of the actuating element is set up with respect to the base part.
The non-contact position determination and / or determination of the movement of the actuating element has the advantage that-in particular if the sensor is arranged on the base part-the base part and the actuating element can be formed encapsulated, i. There are no exposed contacts or the like. The entire necessary electronics can be accommodated in the base part. The position data or sensor signals etc. determined by the sensor are translated by the bus interface into corresponding bus signals corresponding to the bus protocol when the device according to the invention is used in conjunction with a bus system.
A particularly compact device can be realized if the sensor is arranged on the base part, preferably in the region of the ball socket or the ball head. In addition, in this case, only a single sensor is necessary. -9- P12275
The (non-contact) position sensor is, for example, a magnetic field sensor, e.g. For example, in the case of a magnetic field sensor such as a Hall sensor, the sensor itself is attached to the base part, preferably in the area of the ball joint. The counterpart associated with the Hall sensor, for example a permanent magnet whose movement or position the Hall sensor detects and converts into corresponding signals, is located on the actuating element, likewise preferably in the region of the ball joint. Typically - although this may in principle also be configured in reverse - the ball is connected to the actuating element, the pan is formed on the base part. Accordingly, the sensor is formed in the region or in the pan, while the counterpart is arranged in the ball.
However, it can also be provided that the at least one magnetic field sensor is arranged in the region of a return element, wherein, however, the arrangement in the region of the ball joint allows a compact arrangement with which any movement of the actuating element can be detected.
By using Hall sensors for determining the position of the actuating element and corresponding to the respective switching position, no electrical contacts are necessary, which can corrode, as mentioned above, for example.
The electrical signal of the Hall sensors can be used directly to control electronic Lei stun gsschaltem or read via a building bus and processed accordingly.
Furthermore, it can be provided that an electronic circuit, e.g. at least one micro-controller is provided which evaluates the sensor signals and converts them into a protocol for building buses.
In addition, at least one radio module can be provided which transmits the sensor signals or information wirelessly to a receiver. In this way, the sensor can also be accommodated in the actuator. -10-
Pt2275
Furthermore, it may be advantageous if below the removable control element one or more adjustment elements, in particular for setting basic settings, are provided on the rear side of the operating element and / or on the base part.
For example, with such adjustment elements bus addresses, light colors, group membership of certain devices to be controlled, such as lights, scene affiliations, etc. could be defined / set.
In addition, it may be expedient if the surface of the operating element facing the user during operation is at least partially used as a sensor surface, e.g. is designed as a capacitive sensor surface.
With such a control unit, the switch / button can already be passed over the area where the control panel is touched by the user, a certain information.
Furthermore, it can be provided that the device for determining the position and / or movement of the actuating element comprises at least one sensor coil, by means of which the movement of the actuating element can be detected. For this purpose, a magnet is located approximately at the operating part, and upon movement of the operating part with respect to the sensor coil, which is arranged on the base part, a corresponding voltage is induced in the sensor coil by the changing magnetic field. The coil can also be arranged on the control panel and the magnet on the base part. It may already be used in connection with the adjusting device and / or possibly the holding device provided magnets or provided specifically for this purpose.
Exemplary possibilities for determining the position and / or movement of the actuating element (operating part) with respect to the base part are the measurement of electrical and magnetic field distributions, of leakage currents and induced voltages. For example, piezosensors, pressure sensors, Hall sensors, capacitive sensors, infrared, ultrasonic and proximity sensors can be used.
In the following the invention is discussed in more detail with reference to the drawing. In this shows -11 - PI2275
1 shows a device according to the invention in a side view,
2 shows the device from FIG. 1 in a view from above,
3 shows the device from FIGS. 1 and 2 in a perspective side view,
4 shows a rotary rocker switch in a perspective view from above,
4a a rocker switch,
4 b a button,
5 shows the switch from FIGS. 1-3 in a perspective view in a disassembled state, FIG.
Fig. 6 shows the base part of Figure 5, and
Fig. 7 shows a further variant of a device according to the invention.
Figure 1 shows a mechanically, in particular manually operable, device 100 for generating electrical signals in the form of a switch, e.g. Rocker switch, consisting of a fixed base switch part 101 and a movable with respect to the base switch part 101 actuator 3. The actuator 3 is rotatably movable about a hinge 4 between switching positions on the base switch part 101.
The joint is a ball joint 4, consisting of a ball head 4 ', which is connected to the actuating element 3 (preferably integrally formed therewith), and a ball socket 4 ", which is connected to or formed in the base part (see in particular FIG. 5).
The ball joint 4 is designed such that the actuating element of the base part is manually releasable. Manually releasable means that the actuator can be solved without tools from the base part, so the device can be easily taken apart. For this, the ball socket 4 " designed such that it only covers the ball 4 'so far that the ball can be pulled out of the socket easily, without any effort or only with little effort. For example, the ball socket 4 " designed as a half shell.
The ball joint thus serves primarily to define the movement of the actuating element with respect to the base part, and not to hold together the base part and the actuating element.
The device 100 further comprises an adjusting device for generating a force acting on the actuating element actuating force, wherein the adjusting device is designed such that the ball head 4 'rotatably in the ball socket 4 " is held. In the case of the embodiment shown in FIG. 1, the actuating element 3 has a magnet 1 as an adjusting device at its two ends, with a south pole la and a north pole 1b, opposite to the base part 101 is in each case a return element 5 (Ferromag-net, permanent magnet) arranged, and by the magnetic interaction between the magnet and associated return element acts a force on the actuator. The "lying" Arrangement of the N-S poles of the magnets is exemplary, the magnets could also be arranged upright.
The left magnet in the illustration pulls the actuator 3 down to the return element 5, so that the actuating element 3 is held in a first switching position. If you press in this initial situation on the right end of the actuating element 3, press this end against the force of the left magnet down until it is pulled by the right magnet in its second switching position (not shown) or held in this.
In addition to this function, that define the magnets together with the return elements defined switching positions, the magnets together with the return elements hold the actuator together with the base part, so that the ball head can not fall out of the ball socket.
Of course, additional magnets are also possible whose magnetic force only ensures the cohesion of the ball joint. -13- F12275
Furthermore, the device 100 has a device for determining the switching position and / or movement of the actuating element 3 in order to generate a corresponding (switching) signal in accordance with the determined switching position and / or movement of the actuating element 3. In the illustrated variant, the means for determining the switching position Hall sensors 6, which are arranged on the fixed base switch part 101 and with which Hall sensors 6, the position of the magnets 1 of the actuating element 3 is determined.
With the or the Hall sensor (s), the stray field is measured to then assign the measured values to the various positions of the actuator.
By using Hall sensors or other magnetic field sensors for determining the position of the at least one magnet on the actuating element of the switch, the position of the actuating element and, accordingly, its switching position can be detected without the need for electrical contacts which can corrode as mentioned above. At the same time, the switch according to the invention has a simple structure with few components, since the magnets of the actuating element in addition to their function for determining the switching position also generate that force against which or with which the actuating element is moved with respect to the base switch part.
In a concrete variant, it is provided that the at least one return element as ferromagnet, e.g. made of iron, is formed.
It may be the at least one return element but also a permanent magnet, but the use of ferromagnets is less expensive.
FIG. 1 shows two possible switching positions of the device 100.
FIG. 2 now shows that the device 100 or the switch can still assume the function of a rotary switch 100. The actuating element 3 is rotatable about the joint 4 in a plane parallel to the base part 101 (see arrows). By turning the actuating element 3 in the direction of the arrow (left / right) out of its stable position and subsequent (after release of the actuating element) self-return to the stable position by the attraction of the magnets 1 and the return elements 5 14- PI2275 can e.g. a +/- - key function can be realized. Characterized in that the joint 4 is formed as a ball joint, a combination of the switching capabilities of Figure 1 and 2 is possible.
The corresponding switch is again shown in Figure 3 in a perspective view. As can also be seen in FIG. 3 (see arrows), the actuating element can also be tilted about its longitudinal axis, so that here an additional push-button function (actuation + self-reset) can be realized.
The Hall elements (Hall sensors) 6 again measure the change in the magnetic field, the electrical signal of the Hall elements 6 can be used directly to control power controllers or power switches, such as dimming lights or changing the falousienposition of blinds. The electrical signal can also be read out via a building bus and used as a control value for corresponding functions.
If one arranges several return elements along a circumference, which describes the actuating element in a rotation, there is a rotary switch 100 with locking function. Figure 4 shows schematically such a rotary switch with three defined rotational positions PI, P2, P3 for the actuator 3, further this switch 100 also has a Wippfunktion.
Figure 4a shows a rocker switch, which can be tilted about its longitudinal axis to the left and right, and then return to the normal position. In addition, the switch in several rotational positions, in the example shown in 5 different rotational positions switchable. With such a switch, for example, 5 blinds could be controlled, depending on the rotational position, the different blinds are selected and by means of the Wippfunktion the blind is moved up or down.
Figure 4b shows a button with 4 pressure points and a deflection (left - right deflection); With such a button, for example, 4 lights can be switched on and off and dimmed (by the left-right deflection) via the 4 pressure points. - 15 - PI2275
In this embodiment, instead of ball joint and e.g. Magnets also provide a rubber element, such as a rubber block for the necessary force and flexibility of the control panel. In this example, thus, the ball joint-like joint and the adjusting device would be formed in one element.
In the variants shown in FIGS. 1-3 and 5, two position sensors, here in the form of Hall sensors, are provided, which are positioned in the region of the ends of the actuating element.
It is particularly advantageous if, as in FIGS. 6 and 7 (in a further variant), the position sensor 60 is arranged on the base part 101, preferably in the region of the ball socket or the ball head. In this case, only a single sensor is necessary. Such a variant is also possible in the embodiments according to Figures 1-3 and 5, the Hall sensors 6 are then not necessary in this case.
FIG. 6, for example, shows a base part 101, as can be used in the variant according to FIGS. 1-3 and 5 instead of the base part used there. Here sits in the ball socket, a position sensor 60, such as a Hall sensor. On the ball itself is a counterpart 60 ', detects the movement of the Hall sensor, such as a permanent magnet 60'. This counterpart is not shown in FIG. 6, but is shown in FIG. 7 in another variant of the invention.
It is advantageous if the sensor sits at that point (usually the base part), which is connected to a bus and or supply line. In a system with battery and radio, the sensor with battery and radio could also sit in the control panel.
In this case, the sensor 60 is preferably encapsulated in the base part 101, contrary to the schematic representation, so that when the device is disassembled, no voltage or current-carrying parts or electronics or sensors are exposed per se.
Figure 7 finally shows a variant in which the restoring device is not formed of magnets, but of a spring 20 which generates the restoring force, wherein the spring 20 is arranged between the base part 101 and the actuating element 3. -'6- PI2275
The actuator can then be pressed, for example, against the force of the spring in the direction of the base part, including the ball joint according play or must be performed accordingly for such a movement is possible, additionally or alternatively, the actuator in any direction with respect to the base part tilted and twisted. After releasing the actuator moves back to its original position by the spring force.
Preferably, the spring is designed as a helical spring 20, which is arranged around the ball joint 4 around. In this way, the spring can be arranged to save space.
Thus, a release of the actuating element of the base part is possible, the actuating element is pushed onto the spring 20, to which it has a corresponding receptacle 21. In this way, a turn, tilt and tap button can be realized.
Vienna, December 12, 2011

权利要求:
Claims (16)
[1]
-17- P12275 PATENT CLAIMS 1. Device (100), in particular e.g. manually operable switch or manually operable probe device for generating electrical signals, e.g. Switching and / or control signals, comprising *) a fixed base part (101) and *) a movable with respect to the base part (101) actuating element (3) which is movable with or against a force between one or more positions, *) wherein the device (100) has a device for determining the position and / or movement of the actuating element (3), and *) wherein according to the determined position and / or movement of the actuating element (3), a corresponding signal is generated, characterized in that *) the movable actuating element (3) on the base part (101) by means of a ball joint-like joint (4) is pivotally and rotatably mounted, and wherein *) the means for determining the position and / or movement of the actuating element (3) comprises at least one sensor , which is adapted to the pivoting movements and / or rotational movements and / or all defined, selectable positions of the Betätigungsel to capture ements with respect to the base part, and wherein *) at least one adjusting device (la, lb, 5; 20) for generating the actuating force, with or against which actuating force the actuating element (3) is movable with respect to the base part (101) is provided.
[2]
2. Apparatus according to claim 1, characterized in that the joint (4) is designed such that the actuating element of the base part is manually releasable, and the adjusting device is designed such that the manually releasable joint (4) rotatable and -18- F12275 is held together pivotable, and / or a holding device, consisting for example of magnets and / or springs is provided, by means of which the manually releasable joint (4) is rotatably and pivotally held together.
[3]
3. Apparatus according to claim 1 or 2, characterized in that the ball joint-like joint is a ball joint (4), with which the movable actuating element (3) on the base part (101) is pivotally and rotatably mounted, wherein the ball joint (4). a ball head (4 ') connected to the operating member or the base member and a ball socket (4 ") connected to the base member or the operating member.
[4]
4. Apparatus according to claim 1 or 2, characterized in that the ball joint-like joint is designed as at least one between the actuating element and the base part arranged elastic element, for example as a rubber element.
[5]
5. Device according to one of claims 1 to 4, characterized in that the adjusting device comprises at least one magnet (la, lb) and at least one with the at least one magnet (la, lb) cooperating inference element (5).
[6]
6. The device according to claim 5, characterized in that the at least one return element (5) on the base part (101) and the at least one magnet (la, lb) on the actuating element (3) is arranged.
[7]
7. Device according to one of claims 1 to 4, characterized in that the adjusting device comprises at least one mechanical spring (20) which generates the restoring force, wherein the at least one spring (20) between the base part (101) and the actuating element (3) is.
[8]
8. The device according to claim 7, characterized in that the at least one spring is designed as a helical spring (20) which is arranged around the joint (4) around.
[9]
Device according to any one of Claims 1 to 8, characterized in that an electronic circuit, e.g. at least one microcontroller is provided, which evaluates the sensor signals and converts them into a protocol for building buses. -19- PI2275
[10]
10. Device according to one of claims 1 to 9, characterized in that at least one radio module is provided which transmits the sensor signals or information wirelessly to a receiver.
[11]
11. Device according to one of claims 2 to 10, characterized in that below the removable control element one or more adjusting elements, in particular for setting basic settings, are provided on the back of the operating element and / or on the base part.
[12]
12. Device according to one of claims 1 to 11, characterized in that the user in the operation facing surface of the operating element at least partially as a sensor surface, e.g. is designed as a capacitive sensor surface.
[13]
13. Device according to one of claims 1 to 12, characterized in that the means for determining the position and / or movement of the actuating element (3) comprises at least one position sensor and / or rotary sensor and / or combined sensor which on the base part (101 ) and / or the actuating element (3) is arranged,
[14]
14. Device according to one of claims 1 to 13, characterized in that the sensor is arranged for non-contact or contactless determination of the position and / or movement of the actuating element with respect to the base part.
[15]
15. Device according to one of claims 1 to 14, characterized in that the sensor (6; 60) on the base part (101), preferably in the region of the ball socket (4 ") or the ball head (4 ') is arranged,
[16]
16. Device according to one of claims 1 to 15, characterized in that the means for determining the position and / or movement of the actuating element comprises at least one sensor coil, by means of which the movement of the actuating element can be detected. Vienna, December 12, 2011

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DE7427851U|1976-07-15|Push button switch

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DE102018208377A1|2018-12-06|Instrument panel with haptic feedback device

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DE10163194A1|2003-07-03|Electromechanical tap changer with time-controlled additional functions

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EP0830832B1|2008-12-31|Vacuum cleaner with a device for non-operation recognition

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DE102004048309B4|2008-09-11|incremental

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EP2695708B1|2015-12-02|Electrical hand tool with discrete operating element

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DE102010043846A1|2012-05-16|Operating device for a domestic appliance and domestic appliance, in particular for preparing food with an operating device

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DE102007025279A1|2008-12-04|Electric switch with magnetic operation

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DE10205951A1|2003-08-21|Control arrangement for mains-dependent devices operated with low-voltage electrical and provided with mains isolation

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DE202019100883U1|2019-03-07|sofa

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DE102006019696B3|2007-10-25|Electromechanical pulse transducer for e.g. hearing aid, has contact unit axially movable to another contact unit during rotating in rotating direction of actuator and to third contact unit during rotating in opposite direction of actuator

---

DE102016014522A1|2017-06-14|Electric switch

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EP1450648B1|2007-01-17|Electrical motor furniture drive system

同族专利:

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公开号 | 公开日

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AT512033B1|2013-05-15|

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WO2013086551A1|2013-06-20|

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DE112012005172A5|2014-08-21|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

EP0024813A1|1979-08-22|1981-03-11|Atari Inc.|Joystick controller|

---

US4428649A|1981-06-26|1984-01-31|Cherry Electrical Products Corporation|Power mirror control switch|

---

DE3427549A1|1984-03-01|1986-02-06|Grundig Emv|Push-button switch|

---

US5294121A|1993-06-04|1994-03-15|Txc Corporation|Direction control key assembly|

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EP0682350A2|1994-05-09|1995-11-15|Sony Corporation|Controller unit for electronic devices|

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AU738517B2|1994-05-09|2001-09-20|Sony Computer Entertainment Inc.|Controller unit for electronic devices|

---

US5973671A|1997-10-28|1999-10-26|Behavior Tech Computer Corp.|Computer pointing device|

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US6428416B1|1999-11-01|2002-08-06|Sony Computer Entertainmant Inc.|Manipulating device for an entertainment system and an entertainment system having the same manipulating device|

---

DE2104073A1|1970-01-29|1971-08-05|Akg Akustische Kino Geraete|Electrical switch for high or low current, especially control switches for dictation machines|

---

US5687080A|1995-06-20|1997-11-11|Ziba Design, Inc.|Multiple axis data input apparatus and method|

---

DE69720854T2|1996-05-29|2003-11-20|Fujitsu Takamisawa Component|Guide device for moving and positioning a pointer on a computer screen|

---

US6501458B2|1999-06-30|2002-12-31|Caterpillar Inc|Magnetically coupled input device|

---

JP2002007059A|2000-06-27|2002-01-11|Nagano Fujitsu Component Kk|Device for inputting coordinates|CN204013472U|2014-06-24|2014-12-10|中兴通讯股份有限公司|A kind of button|

---

DE102015212633A1|2015-07-07|2017-01-12|Continental Teves Ag & Co. Ohg|Sensor arrangement with modular construction|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA1824/2011A|AT512033B1|2011-12-12|2011-12-12|SWITCH|ATA1824/2011A| AT512033B1|2011-12-12|2011-12-12|SWITCH|

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DE112012005172.6T| DE112012005172A5|2011-12-12|2012-11-15|switch|

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PCT/AT2012/050178| WO2013086551A1|2011-12-12|2012-11-15|Switch|