DE3732230A1 - Installation device with an infrared receiver for an adjusted irradiation region - Google Patents

Abstract

According to the invention, provision is made for a cone prism (conical prism) (5) to be arranged in the irradiation path to an infrared sensor (3) in front of a lens (4). The cone axis (6) of the cone prism is at least approximately perpendicular to the lens (4). An irradiation window (7) for the cone prism (5) is arranged laterally in front of the cone prism, the cone prism deflecting an impinging beam bundle from each prism surface to the infrared sensor (3) due to its lateral inclination, selection of the material or due to the reflecting of the prism surfaces (8) or due to a combination of these measures. <IMAGE>

Description

The invention relates to an installation device with infrared receiver, the irradiation range of the Rich after is set. Such installation equipment can act as a proximity switch for switching installation devices or as motion detectors for detecting people who penetrate into a protected area.

Usually of such installation facilities only processed a relatively narrow receiving lobe will.

The invention has for its object an installation establishment of the type described so that a further space is captured.

The solution to the problem described is according to the invention in that in front of an infrared sensor a lens is arranged a cone prism, the cone axis is at least approximately perpendicular to the lens and an on radiation window is formed laterally in front of the cone prism, the cone prism due to its side inclination, selection of the Material or by mirroring the prism surfaces or by a combination of these measures an incident beam deflects the bundle per prism surface to the infrared sensor.

The detection area is thereby fanned out at the same time monitored separate solid angles. In particular, the pris surface areas from the insolation window for insolation are reachable and deflect them to the infrared sensor, according to An number and area correspond to the areas to be recorded.

The invention is now based on a rough in the drawing cal matically reproduced embodiment explained in more detail.

An installation device is illustrated in FIG. 1.

In Fig. 2 the top view of the cone prism of Fig. 1 is shown.

The installation device according to Fig. 1 takes in a cylindrical housing 1 an infrared receiver 2 with an infrared sensor 3, before a lens 4 and a cone prism 5 are arranged. The cone axis 6 is perpendicular to the plane of the Lin se 4th An Einstrahlungsfen ster 7 is arranged laterally in front of the cone prism 5 . In practice, the cylindrical housing can have the shape of a low, wide cylinder or that of a tall, slim cylinder or a half cylinder. The shape of a half cylinder is suitable for installation devices that are to be attached to buildings over a wide area.

The irradiation window 7 can extend over a partial circumference of the cylindrical housing 1 . In the exemplary embodiment, a cylindrical housing in the form of a half cylinder is shown. Then a cone prism in the form of a cone half is sufficient, which lies with its cutting surface on the plane of the drawing. The radiation window arches 7 above the drawing plane. The cone prism can deflect an incident beam of rays per prism surface to the infrared sensor 3 by the inclination of its prism surfaces, by the choice of material or by mirroring the prism surfaces or by a combination of these measures. The individual prism surfaces 8 according to FIG. 2 then form adjacent solid angles of a detection space, the solid angles being monitored simultaneously.

The prism surfaces 8 of the cone prism 5 , which are accessible from the irradiation window for irradiation and deflect them to the infrared sensor 3 , correspond in number and area to the areas or solid angles to be detected.

In Fig. 2 the supervision of half a cone prism 5 with them ben prismatic surfaces 8 is shown .

Claims (2)

1. Installation device with infrared receiver ( 2 ), the irradiation area is set in the direction according to, characterized in that a cone prism ( 5 ) is arranged in the radiation path to an infrared sensor ( 3 ) in front of a lens ( 4 ), the cone axis ( 6 ) at least at least approximately perpendicular to the lens ( 4 ) and to which a radiation window ( 7 ) is arranged laterally in front of the cone prism, the cone prism due to its side inclination, selection of the material or by mirroring the prism surfaces ( 8 ) or a combination of these Measures deflect an incident beam of rays per prism surface to the infrared sensor ( 3 ). 2. Installation device according to claim 1, characterized in that the prism surfaces ( 8 ), which can be reached from the radiation window ( 7 ) for radiation and deflect them to the infrared sensor ( 3 ), correspond to the number and area of the areas to be detected.