DE4100536A1 - IR movement detector with variable field of view for monitoring - has lens foil in front wall of housing focussing radiation onto two sensors on rear wall - Google Patents

Abstract

An intermediate wall (7) is positioned at right angles to the rear wall (5) of the detector housing. This intermediate wall carries at least one spindle (18) in parallel with the rear wall. A shutter using for each i.r. sensor is pivoting mounted on this spindle. Each spindle has an adjuster for setting the pivoting range of the shutter using. Adjusting shafts mounted in the intermediate wall are coupled to potentiometers or other electronic components of a p.c.b. A covering cap (12) is releasably connected to the rear wall to cover the adjusting space above the intermediate wall. The rear wall can be inserted in a covering frame (4) of a flush mounting socket. ADVANTAGE - Field of view covered easily set to suit load conditions and can be changed at any time.

Description

The invention relates to an infrared motion detector, the Ge back of the house carries two infrared sensors and its front housing made a lens film to focus the radiation on the infrared sensors.

Infrared motion detectors are in numerous embodiments known. The cultivation or installation of an In is also known infrared motion detector in a flush-mounted box of an installation system stems. However, the adjustment of the field of view is then difficult. Aperture foils are in such a built-in infrared motion sensor not very recommendable, especially because of a subsequent change the aperture cutout is not possible.

The object of the invention is such an infra red motion detector that the field of vision in a simple manner on the local conditions are set and changed at any time can.

This object is achieved according to the invention in that an intermediate wall protruding vertically from the rear wall of the housing at least one axis aligned parallel to the rear wall with a ball the wing is pivotally mounted for each infrared sensor.

The invention differs from the prior art in that than the adjustment of the field of vision after removing a cover cap is easily possible by adjusting a diaphragm wing. It no major assembly work is required.

The surveillance field is narrowed in the outer area possible that a diaphragm wing on the opposite of each lying infrared sensor facing away from the assigned infrared sensors is arranged.  

A slit-shaped blanking in the central area of the surveillance chungsfeldes is possible in that one diaphragm wing on the the adjacent infrared sensor facing side of the assigned Infrared sensor is arranged.

A variable blanking is possible in that on both A diaphragm wing is arranged on each side of each infrared sensor.

An easy adjustment is achieved in that each Axis an adjustment device for swivel adjustment of the respective Has diaphragm wing.

The adjustment chamber accessible from the front enables white tere adjustment processes that in the partition mentioned setting wel len are stored with potentiometers or other electronic Components of a circuit board are coupled.

The setting chamber can thereby be protected against unauthorized manipulation Protect ion that a cover cap detachably ver with the rear wall is bound and covers the adjustment room above the partition.

The infrared motion detector can thereby be flush-mounted integrate system that the rear wall of the housing in a cover frame ner flush-mounted box can be used.

An embodiment of the invention is described below under Be access to the accompanying drawings, in which represent len:

Fig. 1 position an infrared motion detector in a Explosionsdar,

Fig. 2 is a detail view of the housing rear wall of an infrared motion detector,

Fig. 3 is a schematic representation of the panel arrangement and

Fig. 4 shows a modified embodiment of the panel arrangement.

The infrared motion detector is built on a flush-mounted box or integrated into the same. One can recognize a support ring 1 or a support plate of the flush-mounted box. On this support plate 1 sits a base 2 with connecting parts and electronic components, which is not explained in detail. In addition, sit on the base spreader claws 3 , which are used in the usual way for fastening the support plate 1 and the base 2 in a housing, not shown, under.

The flush-mounted housing and the support plate 1 are covered by a cover frame 4 , in which a rear wall 5 of the infrared motion detector is used. The housing rear wall 5 is connected to the base 2 by means of electrical plug-in connections and held by a screw 6 .

An intermediate wall 7 and a further wall 8 protrude vertically from the rear wall 5 of the housing. Stair bars 9 are provided on the foot side. A housing front wall 10 closes the infrared detector. This Ge häusevorderwand is locked non-destructively detachably connected to the housing rear wall. 5 An infra red-permeable lens film 11 is arranged within the housing front wall 10 . A cover cap 12 serves to close off the chamber above the intermediate wall 7 . The cover cap 12 is inserted in locking connections 13 and detachably connected to the housing rear wall 5 . On the wall 8 two infrared sensors 14 and 15 are usually arranged, which are separated by a central web 16 .

To adjust the field of view of each infrared sensor 14 or 15 , a diaphragm wing 17 is provided, which sits on an actuating axis 18 . The actuating axis 18 is mounted in the wall 8 and in the intermediate wall 7 and carries an adjusting device which is expediently designed as a slot. Each diaphragm wing 17 can be pivoted through an angle of almost 180 °. In Fig. 3, the fully opened diaphragm position is drawn on the right side. In addition, three intermediate positions are drawn in thin lines. With these diaphragm wings, the respective field of view of each infrared sensor 14 or 15 can be adapted and adjusted to the local conditions. Since the cover cap 12 is removable, the setting of the diaphragm wing 17 can be changed and readjusted at any time. Such a determination is possible after removing the end cap without having to remove the rear wall 5 of the housing.

Furthermore, in the intermediate wall 7 and in the wall 8 adjusting shafts 19 and 20 are arranged, which are inserted into electronic components which sit on the wall 8 . These setting shafts are used for example for setting a twilight resistance and a time circuit or the like.

Fig. 4 shows a development of the invention, in which in addition to the diaphragm wing 17 further diaphragm wings 21 are present, which enable egg ne blanking in the central part of the field of view. You can adjust slit-shaped fields of view.

Claims (8)

1. Infrared motion detector, the rear wall of the housing carries two infrared sensors and the front wall of the housing receives a lens film for focusing the radiation on the infrared sensors, characterized in that at least one parallel to the rear wall ( 7 ) from the rear wall ( 5 ) of the intermediate wall ( 7 ) 5 ) aligned axis ( 18 ) with a diaphragm wing ( 17 ) for each infrared sensor ( 14 , 15 ) is pivotally mounted. 2. Infrared motion detector according to claim 1, characterized in that one diaphragm wing ( 17 ) is arranged on the side facing away from the opposite infrared sensor of the associated infrared sensor. 3. Infrared motion detector according to claim 1 or 2, characterized in that one diaphragm wing ( 21 ) is arranged on the side of the associated infrared sensor facing the adjacent infrared sensor. 4. Infrared motion detector according to one of claims 1 to 3, there characterized in that on each side of each infrared sensor a diaphragm wing is arranged. 5. Infrared motion detector according to one of claims 1 to 4, characterized in that each axis ( 18 ) has an adjusting device for pivoting the respective diaphragm wing ( 17 ). 6. Infrared motion detector according to one of claims 1 to 5, characterized in that in said partition ( 7 ) adjusting shafts ( 19 , 20 ) are mounted, which are coupled to potentiometers or other electronic components of a circuit board. 7. Infrared motion detector according to one of claims 1 to 6, characterized in that a cover cap ( 12 ) is detachably connected to the housing rear wall ( 5 ) and covers the adjustment space above the intermediate wall ( 7 ). 8. Infrared motion detector according to one of claims 1 to 7, characterized in that the housing rear wall ( 5 ) in a masking frame ( 4 ) of a flush-mounted box can be used.