DE3704357C2 - - Google Patents

Description

The invention relates to a light signal system for the deaf in the preamble of claim 1 specified type.

Such a light signal system is in the US-PS 43 65 238. It serves a deaf person important acoustic events of its environment on optical Making ways perceivable, like screaming one Babies, the doorbell, the phone bell, an alarm clock or similar. Such acoustic events are converted into light signals, such as lightning signals, implemented, which vary depending on the acoustic signal type could be.

The acoustic or electrical sensor of the traffic signal systems detects the acoustic event by pressing a microphone or via an electrical tap, like it is possible with an doorbell, an electric one  Signal is generated that is transferable and possibly convertible into a light signal after amplification is. The implementation takes place in the output device, the one strong light source that usually flashes or blinks. The public channel of transmission becomes Power supply network used, although the Range of the connection is usually only over a House stretches. That sets both with the sensor device as well as a connection to the output device Network via a standard socket.

On the transmission path for the signals for triggering The light signal can cause interference or interruptions occur in the known traffic light system cannot be easily recognized. This can for example, serious in a baby monitor Consequences occur when deaf parents fail not notice for a long time and only notice it if the child has suffered health damage.

The invention is therefore based on the object To create a light signal system of the type mentioned at the outset, where the transmission path between the sensor device and the output device at regular intervals is checked.

This task is carried out in a traffic light system generic type by the characteristic features of claim 1 solved.

The particular advantage of a light signal system according to the invention lies in the fact that the sensor device sends  Control formed from the control data signals Data word is evaluated separately in the output device. The control data word does not cause in the output device the normal strong light signal, rather it turns into usually a small control lamp via a holding link, like a light emitting diode that indicates to the user that the radio connection is undisturbed. Bridged the latch the time from a control data word Until next time. In practice, it is advantageous if the control data word differs from the data words of the alarm case in 2 bits. So in borderline cases not just received the control signal can be achieved with three times less redundancy than the alarm signals are sent.

Finally, there is another advantageous development the traffic light system according to the invention in the Possibility, for example, of a light bulb on the output device connect in a reading light by the Output device not only controlled, but also electrically is supplied so that a low test current the passage through the light bulb is constantly checked can be. If the light bulb has no passage, because, for example, it burned out or the lamp has a defect, the warning lamp of the Output device switched off. Of course, this sets ahead that the test circuit of the light bulb behind its Main switch in the output device is closed.

Further advantageous design features of the invention result from the subclaims.

The invention is described below with reference to the drawing explained in more detail. Show:

Fig. 1 The block diagram of an acoustic sensor of a light signal system and

Fig. 2 The block diagram of the associated receiver of this light signal system.

In particular, FIG. 1 shows in the formed left by dashed lines case an acoustic sensor of the sensor device, which consists of a microphone 1 which is connected via a filter 2 to a feature detector 3. The feature detector 3 transmits the alarm signal generated by the microphone 1 to a delay element 6 . In the same way, the test signal of a test button 5 can also be applied to the delay element 6 , for this purpose an OR element 4 is inserted between the delay element 6 and the feature detector 3 . The delay element is connected via an HF receiver 7 with its control input to a mains connection 8 . The RF receiver 7 amplifies existing signals on the network of similar devices and controls the delay element via a threshold switch as long as the transmission of the sensor device could be disrupted by devices of the same type that are currently in operation. In the case of release, the signals passed through the delay element 6 are passed to an alarm data signal generator 9 which generates a pulse sequence, the data word, specific to the device. This pulse sequence is applied in an RF generator 10 , which functions as a modulator, to a frequency-modulated RF carrier, which is coupled into the public power supply network. Between the RF generator 10 and the alarm data signal generator 9 there is also an OR element 11 , which is preceded by a control data signal generator 12 which is periodically controlled by a clock 13 . The control data signal generator generates a control signal independently of the alarm data signal generator, which is also coupled into the network with frequency modulation.

Fig. 2 shows an optical output device to a receiver in which the signals can be received several sensor devices and evaluated. The recorded signals are fed via a filter 15 to a demodulator 16 , which determines the data word stamped on the RF carrier. A plurality of comparators 21 are connected to the demodulator, the number of which depends on the number of sensor devices, the signals of which can be received by the output device in the described wireless way and can be recognized in one of the comparators 21 . For this purpose, the comparators 21 have a first memory 22 for the received data word and a second memory 23 for the data word assigned to one of the sensor devices. If the comparator 21 concerned agrees between the received data word and the pre-stored, permitted data word, it controls a downstream flash sequence generator 24 . Via an OR gate 25 , the flash sequence generators 24 activate a flash lamp or a flash unit 26 , which emits a flash sequence specific to the triggering sensor device. It can be visually perceived which of the sensor devices has triggered the relevant alarm. The corresponding flash sequence is generated in the flash sequence generators 24 . Instead of or in addition to the flash unit 26 , an external incandescent lamp 27 in a lamp can also be used as an optical signal transmitter.

Another comparator 28 in the receiving part is set up to recognize the control data signal which is output by the respective control data signal generator 12 of the sensor device. For this purpose, the comparator 28 is in turn connected to a memory 29 which holds the control data signal ready for comparison. The control data word is supplied by a further memory 30 , and if the comparator 28 reports agreement between the data in the memories 29 and 30 , it outputs a display signal to a control lamp 32 via a holding element 31 . If the control lamp 32 is on, this is an important indication for the user that there is a radio bridge between the sensor devices and the output device. Since the control data signal is only sent at periodic intervals, the holding member 31 provides the permanent display of the control lamp 32 , which in the event of a fault results in negligible overrun until the control lamp 32 goes out.

If the output device is coupled to the external incandescent lamp 27 , its readiness to display can be monitored by means of a continuity tester 34 which controls the control lamp 32 via an AND element 33 which is switched on between the control lamp 32 and the holding element 31 . Regardless of whether the external light bulb 27 is switched on or not, its readiness for operation is continuously checked. The external light bulb 27 is therefore supplied with power via the output device in order to be able to arrange the main switch required behind the tester from the light bulb 27 .

Claims (5)

1. Light signal system for the deaf with at least one acoustic or electrical sensor device and at least one optical output device, which are connected to one another via the power supply network, the sensor device having an RF transmitter which, when the sensor responds, outputs a modulated data word to the network, and that Output device is equipped with an RF receiver, which has a corresponding demodulator, which is followed by a comparator for recognizing the data word and an optical converter, characterized in that the RF transmitter of the sensor device has an additional control data signal generator and the RF receiver the output device has an additional control data comparator and a control lamp controlled by the latter. 2. Light signal system according to claim 1, characterized, that between the control data comparator and the Control lamp is arranged a holding member that the Control lamp activated as long as the control data Comparators sent at periodic intervals Control data signals received.   3. light signal system according to claim 2, characterized, that the control data comparator the control lamp then at a predetermined level of noise no longer controls if the comparator (s) data words recognizable by the recipient receive. 4. light signal system according to claim 3, characterized, that the redundancy of the transmission of the control data Signals smaller than that of the transmission of the data words is. 5. Light signal system according to one of claims 1-4, characterized, that to the output device as the sole or additional optical light bulb can be connected is the one that favors the indicator lamp in line with you controlling continuity tester.