DE19615827A1 - Key sensor for control systems in buildings - Google Patents

Abstract

The sensor (4) includes an infrared receiver (5) which is coupled to a bus connector (2). An infrared code is set up by simultaneous and optional operation of several sensor keys (10-17). In a following time period the operation of a key modifies the infrared code of the sensor. Preferably, the state of the infrared code change is displayed by flashing LEDs (18-21). A microcontroller (23) controls the identification of the keys, the control of the LEDs, the infrared decoding and the data communication.

Description

The invention relates to touch sensors with hidden loading service functions that are used in building system technology are set according to the preamble of claim 1.

In building system technology, a variety of Sensors and actuators used. The actuators and sensors are programmable in their functions. Sensors are besides other devices also touch sensors, the one or have several buttons and are plugged onto the bus coupler will. These bus coupling units can be connected to a two wire cable as well as on a power cable with stamped control signals. The buttons can different functions can be assigned. Thereby a button on the push button sensor can switch the functions Dimming, blind control, light scene control, value transmitter or execute others. Touch sensors are also known which contain an infrared receiver in which the Infrared signals in the push button sensor in telegrams from the building system technology are implemented. The infrared signals are from a handheld transmitter in coded form to the push button sensor sent. The handheld transmitter and the push button sensor must be used have the same infrared group code. The one The infrared group code is set today  Rotary or slide switch, which is also on the button sensor are attached. The push button must be from the Bus couplers can be removed and the infrared groups code on the back of the push button sensor and be put back on.

Therefore, it is an object of the invention to use touch sensors To develop infrared receivers, which are simple Be a setting for the infrared group code leaves without the push button sensor being separated from the bus coupling unit becomes.

This object is characterized by in claim 1 Features resolved. The achieved with the invention Advantages are in particular that the number of otherwise usual and necessary components such as rotary switch or slide switch, an IC component for the Infrared coding and the components for IC construction partial wiring is not required. Advantageous further training the invention are specified in the subclaims.

Based on the drawing figures, the Invention and other advantageous embodiments explained in more detail. It shows:

Figure 1 shows the arrangement of a touch sensor with an integrated infrared receiver and the infrared transmitter.

Figure 2 is a top view of the push button sensor with infrared receiver.

Fig. 3 shows the block diagram of the push button sensor with infrared receiver.

In Fig. 1, the touch sensor 4 with infrared receiver 5 is connected via the application interface 3 to a bus coupler 2 , which in turn is connected to a bus line 1 . The bus line 1 can consist of a two-wire line or a power line with stamped control signals. The push button sensor 4 can be operated by pressing the buttons 10 to 13 or 14 to 17 and displays the switching status of the corresponding actuators via LEDs 18 to 21 . With a remote control 6 , an infrared signal 9 can be sent to the infrared receiver 5 of the touch sensor 4 by actuating its buttons 7 via its infrared transmitter 8 . The infrared signal 9 is converted by the push-button sensor 4 in such a way that the bus coupler 2 outputs a telegram to the bus line 1 . The infrared signal 9 contains an infrared group code, which must be set to the same on the push button 4 and the remote control 6 . As a rule, the infrared group codes are given in letters, for example A to H, so that 8 different infrared group codes can be set and thus 8 remote controls with different infrared group codes can exist.

In the plan view of FIG. 2, an embodiment of the push button 4 is shown with an infrared receiver 5, the keys 8 contains from 10 to 17, and 4 LEDs 18 to 21. The buttons 10 to 17 can be used to trigger the functions switching, dimming, controlling the blinds and controlling light scenes by pressing the respective button. The infrared receiver 5 reacts to a pre-set infrared code, which can be the infrared code A, for example. If the push button 4 is to be set to a different infrared code, the default must be changed. This is done by pressing several keys simultaneously, for example key 11 and key 13 and key 16 . The touch sensor 4 confirms the simultaneous actuation by the flashing of one of the LEDs 18 to 21 for a subsequent period, for example 3 seconds. For this period of time, the push button sensor 4 is no longer in the state that it triggers the functions switching, dimming, controlling blinds and controlling light scenes upon a subsequent actuation. Instead, pressing one of the buttons 10 to 17 changes the infrared code of the basic setting to one of the possible infrared codes A to H. After the specific period of 3 seconds, the push button sensor 4 falls back into the state in which the functions switching, dimming , Control of the blinds and control of light scenes with a subsequent actuation.

In the block diagram of FIG. 3, the elements application interface 3 , adaptation 22 to the microcontroller 23 , keys 10 to 17 and LEDs 18 to 21 contained in the push-button sensor 4 with infrared receiver 5 are shown. The microcontroller 23 recognizes the button operation and triggers the functions switching, dimming, controlling the blinds and controlling the light scenes or detects the simultaneous actuation of several buttons 10 to 17 . The microcontroller ( 23 ) also controls the LEDs 18 to 21 and decodes the signals received by the infrared receiver 5 . The data are exchanged with the bus coupling unit 2 via the application interface 3 .

Reference list

1 bus line
2 bus couplers
3 application interface
4 push button
5 infrared receivers
6 remote control
7 buttons out of 6
8 infrared transmitters of 6
9 infrared signal from 6
10 key of 4
11 key of 4
12 key of 4
13 key of 4
14 key of 4
15 key of 4
16 button of 4
17 key of 4
18 light emitting diode
19 light emitting diode
20 LEDs
21 light emitting diode
22 Adjustment
23 microcontrollers

Claims (3)

1. Touch sensor with an infrared receiver, which is connected to a bus coupling unit, characterized in that the setting of an infrared code by simultaneous and optional actuation of several buttons ( 10-17 ) . Fig. 2 of a button sensor ( 4 ) can be initiated, whereby Within a subsequent period of time, pressing a button alternately changes the infrared code in the push button sensor ( 4 ) from ( 10-17 ). 2. Push button sensor according to claim 1, characterized in that the state of the infrared code change by one of the light emitting diodes ( 18-21 ) is shown flashing during a subsequent period. 3. Push button sensor according to claim 1 + 2, characterized in that a microcontroller ( 23 ) the detection of the buttons ( 10-17 ), the control of the LEDs ( 18-21 ), the infrared decoding and the data exchange with the bus coupling unit ( 2 ).