DE4420335A1 - Water fitting controller - Google Patents

Abstract

The controller has a detection unit contg. at least one transmitter and receiver operating with timer controlled infrared radiation to detect the presence of an object in the detection region by reflected radiation converted into pulses. A reflector card (2) used to set up the controller has at least one high grade infrared reflective surface(22). When a defined reflected radiation intensity level is exceeded the controller is automatically switched over from the operating mode to the programming or learning mode and back again.

Description

The invention relates to a water valve control ent at least one transmitter and one receiver holding, working with clocked infrared radiation Detection unit with which the presence of a counter stands in the detection range due to reflected radiation is determined and converted into impulses.

Such water valve controls are known and z. B. for flushing urinals, water spout used for washbasins etc. Here is it is necessary that after the installation of the In installer a z. B. depend on the connection conditions current rinsing time can be set. The change such an operating parameter is required in most Cases an intervention on or in the valve. About that In addition, it has become known to stop the Operating parameters using a remote control, which must be powered as an independent device and is relatively expensive to do.

The invention has for its object the genus to improve water valve control and so on train that with simple means a conversion  and setting is enabled.

This object is achieved in that a reflector card for setting the control seen with at least one highly infra red radiation reflecting surface is provided, wherein the control is designed so that in the event of an over pass through a certain intensity level Reflection on the reflector card from the receiver infrared radiation taken control of work mode in programming or learning mode and vice versa switches automatically.

Further refinements of the invention are in the An say 2 to 4.

An embodiment of the invention is in the drawing shown and will be described in more detail below ben. It shows

Figure 1 shows a part of a water valve control for a urinal flushing device with a reflector card in perspective.

Figure 2 shows the reflector card in side view.

Fig. 3 is a diagram of the systems clocked infrared;

Fig. 4 shows the measurement time shown in Fig. 3 in an enlarged view of the transmitter and receiver.

The water valve control is shown in FIG. 1 with a valve body 1 shown in part, in which a sensor insert 11 is arranged. In the sensor insert 11 , an infrared transmitter diode 12 and an infrared phototransistor 13 are arranged. From an elec tronic control (not shown in the drawing) the infrared radiation diode 12 is emitted accordingly at a clock rate 3 according to the diagram shown in FIG. 3. Now gets an object, e.g. B. a user in the detection area, the clocked infrared radiation is reflected from the object and taken by the infrared photo trans stor 13 and a pulse passed to an electronic control, not shown in the drawing, with the z. B. a solenoid valve for urinal control is opened via a time delay and is closed again after a certain period of time. The electronic control is equipped with a microprocessor or microcontroller that processes an operating program that enables measurements and operating mode changes.

To switch or set operating parameters, a reflector card 2 is provided which carries a highly reflective layer 22 on a carrier material 21 on one side, which is closed with a cover layer 20 which is only permeable in the infrared range. On the other side of the reflector card, three differently reflecting zone reflectors 23 are arranged.

If the reflector card 2 is held in the detection area of the sensor insert 11 during normal operation of the water valve control with the clocked infrared system, the operating parameters are adjusted optically with simple means and simple procedures. First, the reflector card 2 is placed with the highly reflective layer in the direction of the sensor insert 11 , whereby the device can be switched from the working mode to the programming or learning mode and vice versa. Periodically recurring measurements of relevant physical quantities of the receiver, such as the collector voltage of the infrared photo transistor 13 , recognize the intensity level caused by the respective reflector surface. If the measured value exceeds a level threshold 1 within a defined period of time τ, the water fitting control is switched from normal operation or work mode to programming or learning mode or vice versa. This high level threshold is achieved through the use of layer 22 , which reflects the infrared radiation to a high degree. The changed operating mode or the learning or programming mode is by a z. B. flashing LED display 14 communicated. In this programming or learning mode, a special zone reflector gate 23 of the reflector card 2 can now be brought into a certain distance in the direction of the receiver by the user for a period of time that can be selected by the user, in order to determine the value of an operating parameter, e.g. B. the flushing time of the urinal, which is determined by the duration of the period in which the zone reflector 23 is positioned in front of the sensor insert 11 . The normal or working operation of the Wasserarmatu ren control takes place as a clocked infrared system, as can be seen from FIG . If a programming or learning mode is activated, the timer is started in the control, over the duration of which the value of an operating parameter can be reset. This value changed in this way is stored in a memory unit of the control electronics and is retained for normal operation by switching the unit with the layer 22 in the direction of the sensor unit by reinstalling the reflector. In the infrared photo-transistor 13 (Son's rays, etc.) to eliminate background radiation, the sensitivity of the infrared system to the current ambient radiation adapted. For this purpose, the measurement duration is provided with a time increase 32 .DELTA.t compared to the transmission duration of the infrared transmitter diode 12 , as can be seen from FIG. 4 of the drawing.

Claims (4)

1. Water valve control unit with at least one transmitter and one receiver containing, with clocked infrared radiation working detection unit, with which the presence of an object in the detection area is determined by reflected radiation and converted into pulses, characterized in that for setting the control a reflector card ( 2 ) is provided, which is provided with at least one highly infrared radiation reflecting surface ( 22 ), the control being designed such that when a certain intensity level is exceeded, by reflection on the reflector card ( 2 ) by the receiver ( 13 ) infrared radiation automatically switches the control from work mode to programming or learning mode and vice versa. 2. Water valve control according to claim 1, characterized in that the reflector card ( 2 ) has different strongly reflecting surfaces, with each of which a parameter, such as duration, etc., can be set or various programs can be activated in the control from stored. 3. Water valve control according to claim 1 or 2, characterized in that the reflector card ( 2 ) is designed like a credit card and the hochgra dig infrared radiation reflecting layer ( 22 ), for example a layer he evokes aluminum, provided with infrared radiation through a casual cover layer ( 20 ) is. 4. Water valve control according to one of claims 1 to 3, characterized in that the reflector card ( 2 ) is constructed like a sandwich, with a carrier material being provided on the one hand, on the one hand the highly reflective layer ( 22 ) and on the other Side one or more different zone reflectors ( 23 ) are brought up, the layer ( 22 ) and the zen reflectors ( 23 ) being closed with a colored cover layer ( 20 ) which is only permeable in the infrared range.