DE3723566A1 - Proximity switch - Google Patents

Abstract

A proximity switch, the signal of which, received by a sensor (1), is supplied amplified via a threshold switch (3) to a switching stage (5) and which is protected from mistriggering by interference proofing measures. According to the invention, it is provided that the output of the threshold switch (3) is connected, on the one hand, via a delay section (8) and, on the other hand, directly, to an AND gate (9) which precedes the switching stage (5). <IMAGE>

Description

The invention relates to a proximity switch, whose signal received by a sensor is amplified a threshold switch of a switching stage supplied and that by means of interference suppression measures against false lice solutions is protected.

Proximity switches work advantageously with passive In infrared sensors, in which the body heat of humans causes an electrical charge shift in the sensor. This charge shift is amplified and evaluated, so that a switching operation in a switching element can be tet. Occur electrical around the sensor Interferences as they occur when switching inductive ver can be done on the network, so can consumers to charge shifts in the sensor, i.e. incorrect formwork lead. Usually you have as a measure of interference suppression took extensive shields against electrical fields the and noise filter provided. These measures are complex.

The invention has for its object a proximity to develop a switch that is simple and economical is protected against disruption.

The solution to the problem described is the Er finding that the output of the threshold switch on the one hand via a delay element and on the other di is connected directly to an AND gate, which is the switching stage upstream. A brief pending fault tion during a set delay time  also supplied to the AND gate with a delay, so that its Output is blocked during the delay time. At Signals that are present longer than the interference signals are set the delay element is a sig after the delay period nal, its potential with the potential of the signal matches, which is fed directly to the AND gate. Then a signal is added to the input of the switching stage leads.

A monosta is suitable as a simple delay element biler multivibrator, whose inverting output with is connected to the AND gate and its control circuit on a pulse duration of the desired delay time represents is.

The invention will now be roughly based on in the drawing schematically illustrated embodiments are explained:

In Fig. 1 the principle of the proximity switch is illustrated in a circuit diagram.

FIG. 2 shows a detail of a delay stage according to FIG. 1.

The proximity sensor of FIG. 1 includes a sensor 1, an amplifier 2, a threshold switch 3, a delay circuit 4 and a switching level 5. The switching stage switches a consumer 6 , in the execution example a lamp. The sensor 1 is sensitive to infrared heat radiation 7 .

The delay stage 4 essentially consists of a delay element 8 and an AND gate 9 . From the output of the threshold switch 3 is so on the one hand via the delay element 8 and on the other hand directly connected to the AND gate 9 , which is the switching stage 5 upstream tet. Characterized a signal 11 is supplied to the AND gate from the delay element 8 during the delay time, the potential of which deviates from the potential of the directly supplied signal, so that its output emits no signal during an input-side interference signal 10 . If instead of a briefly acting signal 10 a useful signal is pending longer than the delay duration, the AND gate is fed a matching signal via its two inputs, so that it outputs a signal at its output.

In Fig. 2 another embodiment for the delay stage 4 is illustrated. As a delay element 8, a monostable multivibrator 12 is used with a control circuit. 13 The control circuit is set to a pulse duration of the desired delay time, so that the inverted signal blocks the AND gate 9 during the delay time. If one chooses the delay time so that expected disturbances are within this period, the proximity switch is protected against such disturbances. For longer pending signals from the sensor 1 , the delay element 8 outputs signals of the same level, so that the AND gate 9 emits a signal at its output, which is supplied to the switching stage 5 .

Claims (2)

1. Proximity switch, the signal received by a sensor amplified via a threshold switch ( 3 ) is supplied to a switching stage ( 5 ), and is protected by interference suppression measures against false alarms, characterized in that the output of the threshold switch ( 3 ) for one is connected via a delay element ( 8 ) and the other directly to an AND gate ( 9 ) which is connected upstream of the switching stage ( 5 ). 2. Proximity switch according to claim 1, characterized in that the delay element is formed by a monostable multivibrator ( 12 ) whose inverting output is connected to the AND gate ( 9 ) and whose control circuit ( 13 ) is set to a pulse duration of the desired delay time .