EP0638884A1 - Device for remotely adjusting at least a parameter of a movement detector - Google Patents

Abstract

Movement detectors (motion detectors) which are more expensive must have a precise switching behaviour and must be matched correspondingly to the respective place of use by being adjusted. According to the invention, the adjustment times are to be shortened and maladjustments (incorrect adjustments) are to be largely excluded. This is done by connecting upstream of a movement detector (B) a receiver (EM) which selectively receives a control signal (setting signal) (SS), which is assigned to the respective control variable (setting variable) and is teletransmitted (remotely transmitted), and converts it by means of an evaluator (AU) and an actuator (controller) (ST) into a control value (setting value) which can be accepted by the movement detector (E). The control value is preset by the input (EI) of a transmitter (S) which emits the control signal (SS) which corresponds to the control value. <IMAGE>

Description

The invention relates to a device according to the preamble of claim 1.

Motion detectors are mostly constructed as passive infrared motion detectors (PIR motion detectors) and thus detect heat-emitting radiation sources, such as those formed by a person's body. In order to be able to perform its task in the surveillance of a room satisfactorily, motion detectors must be adjustable according to the needs at the respective location.

With PIR motion detectors of a high price range, three manipulated variables are provided for adjustment. A first manipulated variable is the "holding time", with which the duration is determined during which the motion detector remains switched on after detection of a heat source. When The second manipulated variable is the "twilight threshold", which sets a limit for the daytime brightness below which the passive infrared motion detector should switch on. A third important manipulated variable is the "range", through which the detection range of the motion detector is defined.

The precise operation of the PIR motion detector can only be guaranteed if these three manipulated variables are carefully adjusted. The adjustment is normally carried out using control elements such as potentiometers or mechanical control elements attached directly to the motion detector. If it turns out after the installation of the motion detector that the preselected operating points for the various manipulated variables do not correspond to the desired values, a correction can only be made relatively laboriously by a new adjustment, in which a ladder usually has to be used, since This is the only way to achieve the relatively high-mounted device. To make matters worse, each adjustment requires two people, one of whom must act as a test radiation source, so that the fitter is not forced to check the range himself when adjusting the range and thus to shuttle back and forth several times between the conductor and the range limit.

It is obvious that the adjustment work described is not only very time-consuming, but often also leads to incorrect settings of the manipulated variables and thus to complaints. It turned out that in practice about 80% of the motion detectors claimed were technically correct but incorrectly adjusted.

The object of the invention is therefore to facilitate the adjustment work and, on the one hand, to adjust the adjustment times shorten and, on the other hand, largely rule out incorrect adjustments.

This object is achieved by the features characterized in claim 1. Appropriate refinements and developments of the subject matter of the invention are mentioned in the subclaims.

With the aid of the device according to the invention, an already installed motion detector can be remotely adjusted, so that it can be optimally adjusted without climbing a ladder both during the initial adjustment and in the event of subsequent corrections of certain manipulated values. To set the range of the motion detector, the fitter can position himself at the range limit and thus act as a test radiation source even during adjustment. With appropriate movements, he can quickly check the respective manipulated variable.

In principle, it is conceivable for the adjustment signal to be transmitted via a line, possibly also via the mains line, during the adjustment. Of course, wireless remote transmission is more convenient, which can take place in particular with the aid of active infrared signals or radio signals or ultrasound signals.

According to an expedient development of the subject matter of the invention, the transmitter used for specifying the manipulated values has an input designed as a keyboard (input unit) on which a manipulated variable key is provided for each manipulated variable. With the help of this manipulated variable button, it is possible to specify a specific manipulated variable and thereby activate the receiver to receive a manipulated variable assigned to this manipulated variable. Furthermore, the input can be programmed in such a way that a manipulated variable is also activated by repeatedly pressing the manipulated variable key can be specified and a confirmation of the entered control value or its deactivation is possible.

There are a number of possible solutions for specifying the manipulated variable using the manipulated variable key. The respective actuation duration or the time between two actuations or multiple impulses can define the size of the manipulated variable. With the help of a reset button, you can quickly return to a standardized manipulated variable of a certain manipulated variable.

Alternatively, the input (input unit) of the transmitter can also be constructed such that a specific manipulated variable is called up with each manipulated variable key and a specific manipulated variable is entered using manipulated variable keys that form a number block. This more convenient input option can be improved by using other keys, e.g. the functions "delete" or "send" can be triggered. The input of the manipulated variable can be confirmed again using the manipulated variable key.

The range of a motion detector can be adjusted in different ways. A first possibility is to change the sensitivity of the motion detector when detecting infrared radiation with the help of the respective control value. This is preferably achieved by increasing or decreasing the amplification of the detected signal. Alternatively, the vertical detection angle of the motion detector can be increased or decreased by swiveling around a horizontal axis, which has a corresponding effect on the range.

While the gain can be changed using purely electronic means, the actuator needs to be pivoted to adjust the optical sensor, which enables electromechanical control to change the control angle.

It is expedient to constructively combine the motion detector with the receiver and the evaluator to form a receiving unit.

Fig. 1

ein Blockschaltbild der erfindungsgemäßen Vorrichtung,

Fig. 2

eine erste Alternative für die Gestaltung der Eingabe eines Senders,

Fig. 3

eine zweite Alternative für die Gestaltung der Eingabe eines Senders.

Embodiments of the invention are shown in the drawings and are described in more detail below. Show it:

Fig. 1

2 shows a block diagram of the device according to the invention,

Fig. 2

a first alternative for the design of the input of a transmitter,

Fig. 3

a second alternative for designing the input of a transmitter.

As can be seen from the block diagram according to FIG. 1, a conventional PIR motion detector B has a sensor SO which detects a generally infrared signal MS and forwards it to an electronics EL for processing. Various control variables that determine the switching behavior of the motion detector B can be set to specific control values. For this purpose, an actuator ST is used, which is suitable for influencing the electronics in accordance with predetermined control values, or with the aid of which an angle adjustment of the horizontal detection angle of the sensor SO is made possible.

The actuator ST is preceded by a receiver EM with an interposed evaluator AU, with which it is possible to receive control signals SS emitted by a transmitter S and to evaluate such that the actuator sends a signal receives, which corresponds to the control value and thus adjusts the motion detector according to the specification of the transmitter.

The motion detector B is combined with the receiver EM and the evaluator AU to form a constructional unit called the receiving unit E. This structure facilitates the assembly of the device. However, a solution that is also suitable from other aspects is to assign two or more separate structural units to the motion detector.

The control signal SS wirelessly supplied to the receiver EM is generated by the transmitter SE of a transmission unit S. An input EI is assigned to the transmission unit S for manual specification of the control signal SS.

As can be seen in FIG. 2, the input EI of the transmitting unit S has a keyboard to which three measured variable keys TG and a reset key TR belong. With the help of the measured variable keys TG, a certain measured variable can first be activated. Confirmation or deactivation can also be carried out by pressing the same button again.

The holding time can first be set to the minimum time required for the walking test required as part of the adjustment by pressing the corresponding manipulated variable key TG twice. After the walk test, the corresponding manipulated variable key TG is pressed again. The time until another key is pressed then corresponds to the hold time that is saved. A similar procedure can be used for the twilight value, but this requires appropriate twilight lighting.

If the device is constructed in such a way that the range can be adjusted by changing the gain, this is first reduced to a minimum value by activating the corresponding manipulated variable button and a continuous signal. Then it can be moved upwards again by pulsing until the appropriate range is also found by a corresponding walking test. This manipulated variable is then saved as a setpoint by pressing the corresponding manipulated variable key again.

The keyboard shown in FIG. 3 has control value keys TW, which form a number block, for entering the control values. Although this is technically more complex, it simplifies the specification of the control values, since no special setting mode has to be agreed. A specific manipulated variable is selected using one of the manipulated variable buttons TG and the manipulated value buttons TW can then be used to directly enter the manipulated variable as a numerical value. A delete key LÖ to correct and a send key SE to activate the transmitter add to the ease of use.

Claims (11)

Device for setting at least one manipulated variable related to a specific manipulated variable, which influences the switching behavior of a motion detector (B), characterized in that the motion detector (B) is preceded by a receiver (EM) which transmits a remotely transmitted actuating signal (SS ) selectively and passes it on to an evaluator (AU), who evaluates the control signal (SS) with regard to signal changes contained therein according to the change size and change direction, and an intermediate actuator (ST) converts the signal coming from the evaluator (AU) into a signal from the motion detector (B ) implementable control value and that the control value is specified via an input (EI) of a transmitter (S) which emits the control signal (SS) corresponding to the control value. Apparatus according to claim 1, characterized in that the remote transmission of the control signal (SS) containing the control value takes place by a line-free signal, in particular an active infrared signal or a radio signal or an ultrasound signal. Device according to one of the preceding claims, characterized in that the transmitter (S) is designed such that it transmits to the receiver (EM) a specification of the manipulated variable of the manipulated variable "holding time" for determining the duration of the switched-on state of the motion detector (B) after its response and / or a specification of the manipulated variable of the manipulated variable "twilight threshold", for setting the brightness limit below which the motion detector (B) is to be activated and / or allows the manipulated variable of the manipulated variable "range" to be specified for determining the detection range of the motion detector (B). Device according to one of the preceding claims, characterized in that the input (EI) of the transmitter (S) is a keyboard on which a manipulated variable key (TG) is provided for each manipulated variable, via which a specific manipulated variable for activating the receiver (EM) for Receipt of an actuating value assigned to it can be specified and this actuating variable key (TG), when actuated several times, is preferably also used to confirm the entered actuating value and / or to deactivate it. Apparatus according to claim 4, characterized in that the manipulated variable key (TG) can be used to adjust the manipulated variable of the respective manipulated variable, in particular by the duration of the actuation and / or by the time between certain actuations and / or multiple keys, and a reset button (TR ) enables you to return to a standard manipulated variable of the respective manipulated variable by pressing it. Apparatus according to claim 4, characterized in that a specific manipulated variable can be called up on the setting unit (EI) of the transmitter (S) with each manipulated variable key (TG) and actuated value keys (TW) forming a number block enable the input of a specific manipulated variable and that additional keys (LÖ; SE) are provided for the functions "Delete" and "Send" and / or the input of the manipulated variable is confirmed by pressing the manipulated variable key (TG) again. Device according to one of the preceding claims 3 to 6, characterized in that the manipulated value for setting the manipulated variable "range" can be changed by influencing the sensitivity of the motion detector (B) when detecting IR radiation. Device according to one of the preceding claims 3 to 6, characterized in that the manipulated variable for setting the manipulated variable "range" can be changed by pivoting the motion detector (B) or its sensor with the aid of the actuator (ST). Device according to one of the preceding claims, characterized in that the actuator (ST) carries out an electronic control value by analog or digital storage of the respective control value. Device according to one of the preceding claims, characterized in that the actuator (ST) adjusts the respective actuating value by means of electromechanical actuation, preferably by means of an electromotive drive. Device according to one of the preceding claims, characterized in that the receiver (EM) and the evaluator (AU) are structurally combined with the motion detector (B) to form a receiving unit (E).

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