EP2461302A2 - Switching device for operating multiple devices with the aid of a single input device - Google Patents

Abstract

The switching apparatus (10) has input unit (12) for attaching an input device (24), and output units (14,16) for controlling the active apparatuses (32,34). An electronic control unit (18) switches between output units and outputs the signal at switched output unit if continuous signal at input unit exceeds preset time.

Description

The invention relates to a switching device for operating a plurality of devices using a single input device, in particular for disabled people. Highly disabled people are often unable to perform complex operations. At the same time, they are particularly dependent on the support of modern technical equipment. There is therefore a need to be able to operate different devices in the simplest possible way. Depending on the degree of disability, it is often not possible to operate more than a single input device, for example a proximity sensor, a button or a mouthpiece of a pneumatic sensor, or it is undesirable to arrange a plurality of such input devices in the already limited action radius of the person.

A common solution for the control of different devices or functions offer so-called environment control devices. In these, a first operation of the input device triggers a scan in which the available options are offered, for example, in rows and columns and selected by further actuations of the input device.

Other typically computer-controlled devices offer the various options on a screen in a particular menu structure and also allow the selection of individual options using a single input device.

From the U.S. Patent No. 5,600,311 is a special environment control device has become known, beyond the described selection process, the control of a allows separate output. When the separate output is activated, the signals applied to an input of the environmental control device are output unchanged at the separate output. The environmental control device behaves "transparently" in this sense, so that the input device can be used, for example, to control a voice output device connected to the separate output. Through a special menu selection or long operation of the input device can be selected whether the environment control device or connected to the separate output device is controlled.

On this basis, it is the object of the invention to provide a particularly simple and flexible way to operate with a single input device different existing devices.

• einem Eingang zum Anschließen einer Eingabevorrichtung,
• einem ersten Ausgang zur Steuerung eines ersten zu bedienenden Geräts,
• einem zweiten Ausgang zur Steuerung eines zweiten zu bedienenden Geräts, und
• einer Steuerelektronik, die dazu ausgebildet ist, ein an dem Eingang anliegendes Signal entweder an dem ersten Ausgang oder an dem zweiten Ausgang auszugeben und bei einem Dauersignal an dem Eingang, das eine erste vorgegebene Zeitdauer überschreitet, zwischen dem ersten Ausgang und dem zweiten Ausgang umzuschalten.

This object is achieved by a switching device for operating a plurality of devices using a single input device, in particular for disabled people, with

• an input for connecting an input device,
• a first output for controlling a first device to be operated,
• a second output for controlling a second device to be operated, and
• control electronics configured to output a signal applied to the input either at the first output or at the second output, and to switch between the first output and the second output at a continuous signal at the input exceeding a first predetermined period of time.

The switching device is a separate device with its own housing, which is connected to existing, to-use devices can. The first output and / or the second output may be formed on the housing, in particular in the form of standardized sockets, for example for 3.5 mm jack. The signal applied to the input is generated by an input device. The input device may be, for example, a button, a proximity sensor, a mouthpiece for a pneumatic sensor or other switch or sensor, optionally with downstream evaluation, which is easy to use by a disabled person.

In particular, the signal generated by the input device can be an on / off signal, whereby, for example, a closed push-button is interpreted as on, an open push-button as an off signal. Alternatively, the input can differentiate between different signal levels and, for example, evaluate an input voltage exceeding a predetermined first voltage value as an on signal, and evaluate a voltage value that falls below this or another lower predefined voltage value as an off signal.

Such a signal present at the input is output in the invention either at the first or at the second output. For this purpose, the signal can preferably be imaged on the respective active output in unmodified form, so that a downstream, to-use device of the intermediate circuit of the switching device according to the invention "nothing noticed". The switching device is in this sense "transparent". A connected to one of the outputs device behaves at the respective active output basically no different than when it is connected to the input device itself.

However, it is also possible for the control electronics not to output the signals present at the input unchanged, but in processed form to the respective output, for example with adapted or normalized voltage levels.

The signal present at the input can be output unchanged as regards the on / off information unchanged at the respective active output. In particular, there is no appreciable time delay between input and output. As a result, the device connected to the respective active output can be operated essentially the same way using the input device as without the intermediate switching device.

In the invention, it is possible to switch over between the first output and the second output, that is, it can be influenced whether a signal present at the input is output at the first or at the second output. The input signal is preferably output at one time only at one of the two outputs, in other words exclusively at the first output or only at the second output. Accordingly, either exclusively the device connected to the first output or the device connected to the second output is operated with the input device at any time.

Switching between the first and second outputs does not necessarily mean that the signal present at the input at the time of changeover is immediately output at the other output being switched to. Preferably, only the next signal present after switching at the input is output at the output to which it has previously been switched. This prevents the input operation used to switch to the other device already leading to a first activation of this device.

In the invention, the switching between the two outputs happens in a particularly simple manner in that the input device is permanently actuated for a period of time which is longer than a first predetermined period of time. The first predetermined period of time may, for example, be in the range from 2 s to 6 s, preferably approximately 4 s. Is the input a continuous signal created, this leads under certain conditions to a switch between the first output and the second output. A prerequisite for this switching process is in the invention that the continuous signal exceeds a first predetermined period of time. The only limitation on the operation of the connected equipment resulting from this switching capability is that no control signals can be output to a device that are longer than the first predetermined time without possibly switching over. The use of shorter control commands, however, is subject to no restrictions.

The invention makes it possible to operate two devices connected to the first and second output in the usual way with a single input device. The user can easily control which of the two devices is operated. It requires only a single input device for the actual operation of the respective devices as well as for triggering the switching process. A particular advantage is that the switching device is designed as a compact, separate device that can be combined with any existing devices to use. Interposing the switching device between the input device and the devices to be operated is very easy. Special knowledge is not required for the installation. In particular, no intervention is necessary on the input device or on one of the devices to be operated. This is particularly important given the sometimes stringent liability rules that apply to the devices under consideration.

In one embodiment, the control electronics are adapted to switch between the first output and the second output only when the continuous signal falls below a second predetermined time duration, which is greater than the first predetermined time duration. The second predetermined period of time may, for example, be in the range of 3 seconds to 8 seconds, preferably about 5 seconds and / or about half or one second longer than the first time period. As a second condition for triggering the switching between the two outputs, it thus occurs that the continuous signal generated by the input device ends before the lapse of a predetermined second time duration. In other words, switching is only effected when a continuous signal which has started at a certain time ends again within a certain time window.

The advantage of this embodiment is that the restrictions on the operation of the connected devices caused by the interposition of the switching device are further minimized. It is not only possible to trigger control signals for controlling the connected devices by means of the input device, which are shorter than the first predetermined period of time, but it can also be used in addition signals whose duration is greater than the second predetermined period of time. Only signals whose duration is between the first and second predetermined periods of time can not be output to the currently active device without causing switching. In addition, unintentional switching can be easily avoided by simply continuing to operate the input device after an unintentional exceeding of the first predetermined period of time, until the second predetermined time period has also been exceeded. In any case, this is possible if the device connected to the currently active output tolerates correspondingly long continuous signals without undesirable side effects occurring.

The use of a defined time window as a switching condition offers a particular practical advantage in applications in which one of the connected devices - for example an electric wheelchair - is switched on or off by a continuous signal. If the duration leading to an on / off shorter than the first predetermined period of time, namely can not be prevented that the connected device at a switching simultaneously on or off becomes. If this is not desired, the above configuration allows the following simple solution: First, the connected device by a continuous signal that is longer than the second predetermined time period, off (or turned on, if it was previously turned off). The output to which the device is connected remains active. Then is switched by another continuous signal whose length ends within the time window between the first predetermined period of time and the second predetermined period of time, to the other output. The device connected to the previously active output is automatically switched on again (or switched off again).

In one embodiment, the switching device has a non-volatile memory for storing information about which of the two outputs a signal applied to the input should be output. In particular, the information may be a simple zero / one information, where, for example, zero represents the first, one represents the second output. By storing the information in the non-volatile memory, the use of a device connected to the currently active output can be easily continued even after a long period of non-use.

In one embodiment, the control electronics are adapted to evaluate the information each time an input signal is detected at the input. The fact that the information is evaluated means that the control electronics reads out the corresponding memory contents. Subsequently, the signal present at the input can be output at the corresponding output.

In one embodiment, the control electronics is configured to change the information when a continuous signal applied to the input exceeds the first predetermined time duration. As a result, a switching request expressed by the continuous signal is immediately stored in the non-volatile memory as soon as possible the first predetermined period of time is exceeded. On the subsequent input signal, the changed information is then read out and results in the respective other output being used.

In one embodiment, the control electronics are configured to change the information again when the continuous signal applied to the input exceeds the predetermined second time duration. In the case of such a continuous signal, therefore, the information is changed twice, so that as a result the last active output remains active. This approach has the advantage that all processing steps can be performed at times when a signal is present at the input. In particular, it is not necessary to respond to an end of the input signal and it is not necessary to determine at what time the input signal ends. It is therefore possible to completely disable the control electronics as soon as no signal is present at the input. This is very energy efficient.

In one embodiment, a signal transmitter connected to the control electronics is present and the control electronics are designed to control the signal generator for outputting a signal if a continuous signal whose duration exceeds one or more predetermined time periods is detected at the input. The signal generator may be, for example, an optical and / or acoustic signal transmitter, which is integrated in the switching device. It can signal, for example by a beep, that the input device has been actuated for a certain period of time. In addition, the buzzer can also be used to immediately confirm each actuation of the input device. A perceptible signal, for example, shortly before the end of the first predetermined period of time, at the end of the first predetermined period of time and / or at the end of the second predetermined period of time, can facilitate targeted switching. For example, a first beep may indicate actuation of the input device. A second beep just before the end of the first predetermined time interval, the operator can make clear that prolonged actuation of the input device will result in a switching operation, etc.

In one embodiment, the switching device has a battery for supplying power to the switching device, for example a lithium-ion battery. In particular, the battery may be the only power supply for the switching device. On an integrated or separate power supply or other energy source can be dispensed with and the switching device forms an independent, functional unit that can be particularly flexible, for example, mobile on a wheelchair or the like, can be used.

In one embodiment, the switching device has a third output and the control electronics is designed to output a signal applied to the input at the third output when a continuous signal at the input exceeds a third predetermined time duration. The third output can in particular serve to trigger an alarm or, for example, a nurse call. The third predetermined period of time may be longer than the second predetermined period of time, in particular significantly longer, for example in the range of 6 s to 15 s, preferably about 9 s, so that an accidental triggering of an alarm is avoided. The control electronics may be further configured to deactivate the first and second outputs or the currently active output when the third predetermined period of time is exceeded, that is, to no longer output the input signal at one of the two outputs. This allows the alarm to be triggered without causing any unwanted continued activation of the device connected to the respective output.

In one embodiment, the control electronics is designed so that the switching device consumes electrical energy only in the presence of a signal at the input. The Signal at the input, as already explained, for example, a closed button, ie a connection of two contacts of the input correspond. This embodiment is particularly energy-efficient, because the entire switching device, in particular the control electronics contained in the absence of a signal at the entrance is completely switched off and no electrical energy is consumed. In particular, when using a battery as an energy source, the battery life is thereby significantly increased and the switching device can be used over long periods of, for example, one or more years completely maintenance-free.

In one embodiment, the input, the first output and / or the second output are galvanically separated from each other. A galvanic isolation can be achieved for example by means of optocouplers in a conventional manner. An undesirable interaction between the elements connected to the input and the outputs is thereby avoided.

In one embodiment, at least one further output is present and the control electronics are configured to output a signal present at the input optionally at the at least one further output. The at least one further output can be designed as well as the above-explained first and second outputs. Switching to the at least one further output can be done in the same way as switching between the first and the second output. For example, it may be switched in turn from the first output to the second output and then to the at least one other output and back to the first output. Alternatively, it is also possible to assign different time windows to each of the outputs, wherein permanent signals ending in the respective time windows effect a changeover to the respective output. That way, one more can be added operating device connected to the switching device, or, with several other outputs, a corresponding number of other devices to be operated.

In one embodiment, a configuration device is provided, with which the first predetermined time period, the second predetermined time period, the third predetermined time duration and / or a duration and / or a volume of the signals output by the signal generator are adjustable. As a result, the parameters mentioned can be matched to the preferences of a user or to the requirements resulting from the connected devices. For example, if a particular connected device requires the ability to use control signals for a certain amount of time, the predetermined first time period may be greater than the time required for the operation. The configuration device can be realized, for example, in the form of miniature switches, for example DIP switches, or jumpers. It is also possible to provide a PC interface to the switching device and make a configuration using a computer connected to this interface. In particular, when using a computer and further configuration options are conceivable, for example, settings relating to the behavior of the first and second output when activating the third output (activated or deactivated) or the behavior of the third output (this can not, for example, not for an alarm, but alternatively third "transparent" output can be used). When more than two transparent outputs are used, adjustments can also be made regarding their switching order, and whether the outputs are activated in sequence or by continuous signals of different predetermined time periods. Also, the settings that affect the output signals can be varied, such as using different tones or Melodies, or of continuous tones, for example audible throughout the time window between the first and second predetermined time periods.

Fig.1

eine schematische Darstellung eines erfindungsgemäßen Umschaltgeräts mit angeschlossenen zu bedienenden Geräten,

Fig. 2

ein Diagramm zum Verhalten des Umschaltgeräts bei einem beispielhaften Eingangssignal, und

Fig. 3

ein Diagramm zur Verwendung eines akustischen Signalgebers.

The invention will be explained in more detail with reference to an embodiment shown in three figures. Show it:

Fig.1

a schematic representation of a switching device according to the invention with connected devices to be operated,

Fig. 2

a diagram of the behavior of the switching device in an exemplary input signal, and

Fig. 3

a diagram for the use of an acoustic signal generator.

Fig. 1 shows a switching device 10, the housing is indicated as a box with rounded corners. The switching device 10 has an input 12, which is realized in the form of a 3.5 mm jack. Connected to this input 12 is an input device 24 in the form of a handicapped-accessible button. A first output 14 is connected to a first device 32 to be operated. The connection is also made via a cable with a 3.5 mm jack plug. The first device to be operated 32 may be, for example, in environmental control device.

At a second output 16 of the switching device 10, a second device to be operated 34 is connected, for example, a voice output device or an electric wheelchair. This connection is also made with a plugged into the second output 16 3.5 mm jack. An electronic control unit 18 has a microprocessor and is connected to the input 12, the first output 14 and the second output 16. The control electronics includes a non-volatile Memory 20, in which information about the currently active output is stored.

Furthermore, the switching device 10 includes a battery 22, which is connected to the power supply of the switching device in particular with the control electronics 18. The battery 22 is preferably a lithium-ion button cell, which is accommodated in a battery receiving space of the housing of the switching device 10.

Connected to the control electronics 18 is still a third output 26, which is connected in the example with a telephone system 36, so that an emergency call can be placed. Another connection exists between the control electronics 18 and an acoustic signal generator 38th

The switching device 10 further has a PC interface 28, via which a connection to a PC 30 can be made to configure the switching device 10.

The control electronics 18 are designed such that a signal present at the input 12 is output either exclusively at the first output 14 or exclusively at the second output 16. By continuous operation of the input device 24, when the generated duration signal exceeds a predetermined first time duration and does not exceed a predetermined second time duration, switching between the first output 14 and the second output 16 can be effected.

These switching operations are based on the in Fig. 2 illustrated diagram explained in more detail. The FIG. 2 shows above a signal applied to the input 12 signal, which is applied as well as all other signals over a common time axis t. The input signal fluctuates between a zero signal and a one signal, For example, where the zero signal corresponds to an open button and the one signal to a closed button. Below the course of the input signal, the state of the non-volatile memory 20 is shown. This can also assume two different states, which are each assigned to an output to be controlled.

Underneath, the signals output at the first output 14, at the second output 16 and at the third output 26 are shown one above the other.

At the beginning of the illustrated period, at the time t ₀ no signal is present at the input 12. The nonvolatile memory 20 is in its first state associated with activation of the first output 14. At all three outputs 14, 16, 26 is a zero signal. In this state, the switching device 10 is completely deactivated and does not absorb any electrical energy. Following this state in time, by operation of the input device 24, three relatively short, consecutive input signals are generated. As can be seen from the diagram, these are output unchanged and without appreciable time delay at the first output 14. It is therefore possible to operate the device 32 connected to the first output 14 without the switching device 10 influencing this operation in an undesired manner.

A short time later, at time t ₁ , a continuous signal is generated by continuous operation of the input device 24 at the input 12. At the time t ₂ whose duration exceeds a first predetermined period T ₁ . At this moment, the content of the non-volatile memory 20 is changed from zero to one. At the same time, the continuous signal applied to the input 12 is initially further output at the first output 14 in unchanged form. The continuous signal ends at the time t ₃ , before exceeding a second time period T ₂ . The temporally adjoining the time t ₃ , short signals at the input 12th are then output at the second output 16, also in unchanged form and without noticeable time delay. The first output 14 remains unaffected and shows a zero signal.

In the example, a continuous signal is again generated at the time t ₄ whose duration is longer than the first predetermined time period T ₁ , but shorter than the second predetermined time period T ₂ . At the time t ₅ , when the first predetermined time period T ₁ is exceeded, the content of the non-volatile memory 20 is changed, this time from one to zero. At the same time serving to form this switching operation continuous signal at the input 12 is output unchanged at the output 16 until its end at the time t ₆ . The next actuation of the input device leads to a short signal at the input 12, which in turn is then output unchanged at the first output 14. The second output 16 is then inactive by switching again and shows a zero signal.

A subsequent continuous signal at the input 12 at the time t ₇ exceeds the first predetermined time period T ₁ at the time t ₈ , which leads to a renewed change of the information stored in the non-volatile memory 20, this time from zero to one. At time t ₉ , the second predetermined time period T _{2 is} exceeded and the content of the non-volatile memory 20 is changed again, from one to zero. The continuous signal is output in unchanged form at the first output 14 during this entire time. At a later time t ₁₀ , the continuous signal also exceeds the third predetermined time period T ₃ , which for the first time leads to an output signal at the third output 26.

In a subsequent, re-actuation of the input device 24, the resulting signal is output at the input 12 at the first output 14, because the continuous signal exceeding the second predetermined time period T _{2 has} not led to an effective switching operation.

Based on Fig. 3 An example of a suitable use of the signal generator 38 will be explained. Shown below as thick solid line is a signal applied to the input 12, plotted over time t in s. Above this small diamonds are drawn, each symbolizing a short beep, which is output by the signal generator 38. Each time the input device 24 is actuated, such a beep is generated to confirm actuation, in the leftmost diagram to confirm the short input signal and to confirm the continuous signal beginning at time t = 0. 3 s and 4 s after the beginning of the continuous signal, a further beep announces the time window relevant for a changeover. A fourth beep sounds after 5 s, coinciding with the expiration of the first predetermined time period T ₁ . At the moment in which the relevant for a switching, in the figure shaded time window closes again, namely at the expiration of the second predetermined period T ₂ , sounds another beep. If the input device 24 subsequently continues to be actuated until the end of the third predetermined time period T ₃ , thereby triggering an alarm, this is indicated by a faster sequence of 3 further beeps. A useful variant provides for a continuous tone between the expiration of the first and second predetermined periods of time and / or from the third predetermined period of time.

Claims (13)

Switching device (10) for operating a plurality of devices (32, 34) by means of a single input device (24), in particular for disabled people, with An input (12) for connecting an input device (24), A first output (14) for controlling a first device (32) to be operated, A second output (16) for controlling a second device (34) to be operated and An electronic control unit (18) which is designed to output a signal present at the input (12) either at the first output (14) or at the second output (16) and at a continuous signal at the input (12) a first predetermined period of time (T ₁ ) exceeds to switch between the first output (14) and the second output (16). Switching device (10) according to Claim 1, characterized in that the control electronics (18) are designed to switch between the first output (14) and the second output (16) only if the continuous signal has a second predetermined time duration (T ₂ ). , which is greater than the first predetermined period of time (T ₁ ), falls below. Switching device according to claim 1 or 2, characterized in that the control electronics (18) comprises a non-volatile memory (20) for storing information about which of the two outputs (14, 16) at the input (12) fitting signal should be issued. Switching device (10) according to Claim 3, characterized in that the control electronics (18) are designed to evaluate the information each time an input signal is detected at the input (12). Switching device (10) according to claim 3 or 4, characterized in that the control electronics (18) is adapted to change the information when a signal applied to the input (12) continuous signal exceeds the first predetermined time period (T ₁ ). Switching device (10) according to claim 5, characterized in that the control electronics (18) is adapted to change the information again when the continuous signal applied to the input (12) exceeds the predetermined second time period (T ₂ ). Switching device (10) according to one of Claims 1 to 6, characterized in that a signal transmitter (38) connected to the control electronics (18) is present and the control electronics (18) are designed to trigger the signal transmitter (38) to output a signal, if at the input (12) a continuous signal is detected whose duration exceeds one or more predetermined periods of time. Switching device (10) according to one of claims 1 to 7, characterized in that the switching device (10) has a battery (22) for supplying power to the switching device (10). Switching device (10) according to one of Claims 1 to 8, characterized in that the switching device (10) has a third output (26) and the control electronics (18) are designed to be connected to the third output (26) output signal applied to the input (12) when a continuous signal at the input (12) exceeds a third predetermined time period (T ₃ ). Switching device (10) according to one of claims 1 to 9, characterized in that the control electronics (18) is designed so that the switching device (10) only in the presence of a signal at the input (12) consumes electrical energy. Switching device (10) according to one of claims 1 to 10, characterized in that the input (12), the first output (12) and / or the second output (14) are electrically isolated from each other. Switching device (10) according to one of Claims 1 to 11, characterized in that at least one further output is present and the control electronics (18) are designed to output a signal present at the input (12) optionally at the at least one further output. Switching device (10) according to one of claims 1 to 12, characterized in that a configuration device is provided, with the first predetermined time period (T ₁ ), the second predetermined time period (T ₂ ), the third predetermined time period (T ₃ ) and / or a duration and / or a volume of the signal emitted by the signal generator (38) signals are adjustable.

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