DE4013877A1 - Passive infrared movement indicator - has high quality light flash produced to increase effectiveness of indicator - Google Patents

Abstract

The passive infrared movement indicator comprises a circuit (L3,D,R,CI,TD,XE,C2) connected to an AC mains power supply which produces a high quality light flash. The circuit is activated on closing the contact (S) of the PIR. The circuit comprises, pref., a xenon gas discharge lamp (XE) whose anode (A) and cathode (K) are connected to the mains supply via a phase line (L) and a ground line (N), a capacitor (C2) in parallel with the discharge lamp (XE) which smooths the current, an RC circuit (R,C1) a primary inductor (L1) and a transformer (TR). ADVANTAGE - Increased warning effect of passive infrared movement indicator.

Description

The invention relates to a passive infrared movement Detector according to the preamble of claim 1.

Passive infrared motion detectors are devices which che depending on the detected infrared beam a heat-emitting object Trigger switching process. They serve a room richly monitor for objects moving in it, the passive infrared motion detector z. B. on the Change in the heat radiation in the detection to be monitored response area.

It is known to use passive infrared motion report optical, acoustic or silent signal transmitters activate. From the German utility model DE-GM 88 08 212 is a detector, especially one Passive infrared motion detector, known, the detector contact the fault dialed via a detection line as about acoustic and / or optical and / or silence Signaling device signals. If the in the prior art known signal generator are activated, one in egg a person who intrudes unauthorized  clear that the intrusion was detected as such. However, the intruder may legitimately assume this that his identity is going to this anyway The time remains untouched. Here he creates remedy by taking the intruder away going to deceive that he believes his identity is with Ascertainable with the help of a photo, which over a Camera and flash device during the penetration process has been recorded.

It is therefore an object of the present invention, the Ab shock effect of a known in the prior art Passive infrared motion detector significantly increase.

This object is characterized by in claim 1 Features resolved. Advantageous embodiments the invention are characterized in the dependent claims draws.

According to the invention it is provided that the known Pas siv infrared motion detector with a circuit arrangement to generate a high-performance flash of light see, and that this circuit arrangement by the upon detection of an infrared radiation-emitting ob closed switching contact of the passive infrared Motion detector is activated. Xe available today non-gas discharge lamps enable pulse powers up to 1000 watts. The flash of light turns on with every detection times sent out. This will make one into one intruding area feigned that it was photographed, which makes it the intruding person, if applicable, from their ur can discourage previous projects. The circuit order for generating the flash of light can be in the passive  Infrared motion detector can be integrated, the off radiation of the flash of light through the lens system of the Passive infrared motion detector. It can also provide separate housing openings be or the circuitry for generating the Lightning can be delivered in an externally arranged module be switched. Of course, the fiction moderate circuit arrangement for generating a Hochlei stungsblitzes with the well-known optical and aku static signal transmitters can be combined.

The circuit according to the invention can advantageously arrangement for generating a high-performance flash too combined with a camera or film will. As a result, the deterrent effect of in installed system increased again, but the one dringling expect that in the event of detection his identity will be established.

The invention is hereinafter based on the one Figure having schematic drawing be closer wrote and explained.

The drawing shows a circuit arrangement for generating a high-power flash with a xenon gas discharge lamp XE. Their electrodes (anode A, cathode K) are connected to a mains AC voltage via a phase conductor L and a neutral conductor N. The circuit arrangement can of course also with the help of another voltage source, for. B. a battery operated who. A filter capacitor C 2 for smoothing the pulsating DC voltage generated with the aid of a rectifier diode D is connected electrically in parallel with the xenon gas discharge lamp XE. Also electrically parallel to the xenon gas discharge lamp XE, an RC element comprising a charging resistor R and a charging capacitor C 1 connected in series for this purpose, in addition to a series-connected primary winding inductor L 1 of an ignition transformer TR, is provided. One end of a secondary winding inductance L2 of the ignition transformer TR lies on the existing between the Primärwicklungsinduktivität L 1 and the charging capacitor C 1 first potential P. 1 The other end of the secondary winding inductor L 2 acts on a pre-ignition electrode VZE arranged in the vicinity of the anode A of the xenon gas discharge lamp XE. A switch contact S of a passive infrared motion detector PIR is electrically parallel to the series circuit formed from the charging capacitor C 1 and the primary winding inductor L 1 between the potentials P 2 and L. Between the neutral conductor N and the circuit arrangement R, C 1 , TR, XE, C 2 is a series choke inductance L 3 and the downstream rectifier diode D which is polarized in the forward direction.

The passive infrared motion detector designed according to the invention functions as follows: As long as there is no infrared radiation-emitting object in the area to be monitored, the switch contact S of the passive infrared motion detector PIR is opened. Then charges through the ballast inductance L 3 and the rectifier diode D both the charging capacitor C 1 via the charging resistor R and the filter capacitor C 2 . Because of the high internal resistance in the gas discharge path of the xenon gas discharge lamp XE, there is still no ignition due to the mains voltage present.

However, as soon as the switch S of the passive infrared motion detector PIR is closed as a result of detection of an object emitting heat radiation, the charging capacitor C 1 discharges via the primary winding inductance L 1 . Here, a high-voltage pulse is induced in the secondary winding inductance L 2 , which acts on the pre-ignition electrode VZE. As a result, the gas discharge path of the xenon gas discharge lamp XE is pre-ionized, so that the xenon gas discharge lamp XE is now also ignited, a high-power flash of light being emitted.

Reference symbol list

Investment:
This appendix is not part of the application, but is only intended to facilitate its examination by the Patent Office.

PIR passive infrared motion detector
S switch contact
R loading resistance
C 1 charging capacitor
C 2 filter capacitor
TR ignition transformer
L 1 primary winding inductance
L 2 secondary winding inductance
L 3 series inductance
D rectifier diode
Xe xenon gas discharge lamp
A anode
K cathode
VZE pre-ignition electrode
N neutral
P phase conductor

Claims (3)

1. Passive infrared motion detector with a switch contact (S), which is closed upon detection of an infrared radiation-emitting object, characterized in that a circuit arrangement (L 3 , D, R, C 1 , TR, XE, C2) for generation a high-performance light flash is provided, and that this circuit arrangement (L 3 , D, R, C 1 , TR, XE, C2) is activated by the closed switch contact (S). 2. Passive infrared motion detector according to claim 1, characterized in that the circuit arrangement (L 3 , D, R, C 1 , TR, XE, C2) on the phase conductor (L) and neutral conductor (N) of a mains AC voltage source Ga Discharge lamp (XE) with this electrically parallel filter capacitor (C 2 ) that between the neutral conductor (N) and the circuit arrangement (L 3 , D, R, C 1 , TR, XE, C2) a choke inductance (L 3 ) and a downstream and rectified in the forward direction rectifier diode (D) is provided that electrically parallel to the gas discharge lamp (XE) an RC element consisting of a charging resistor (R) and a series-connected charging capacitor (C 1 ) and a series-connected primary winding inductance (L 1 ) of an ignition transformer (TR) is provided, one end of a secondary winding inductor (L 2 ) of the ignition transformer (TR) on the between the primary winding inductor (L 1 ) and the charging capacitor (C 1 ) in front existing first potential (P 1 ) and wherein the other end of the secondary winding inductance (L 2 ) acts on a pre-ignition electrode (VZE) of the gas discharge lamp (XE), and that the switching contact (S) is electrically parallel to that from the charging capacitor (C 1 ) and the primary winding inductance (L 1 ) formed series circuit is arranged. 3. Passive infrared motion detector according to claim 1 or 2, characterized in that the switching contact (S) also the trigger of a photo or Cinematography activated.