DE202006020311U1 - Arrangement of light-sensitive sensors / brightness sensors for presence detectors (also motion detectors) - Google Patents

Abstract

presence detector with one or more brightness sensors, characterized that the brightness sensor or sensors are not behind the Fresnel lens but in or on the Fresnel lens surrounding housing part (eg, circumferential edge) of the detector are mounted.

Description

task The invention is a (precise) alignment the brightness sensors for presence detectors to enable.

Presence detector, as well as motion detectors, are becoming increasingly lighting control in and out of buildings used. The aim is to save energy in the area of lighting, Exhaust heating and air conditioning. In the field of lighting artificial light should only be switched on when the presence of persons is detected and a predetermined minimum brightness in the room through Daylight alone is not achieved.

Of the State of the art allows not only discrete turning on and off the lighting but also stepless dimming, d. H. Rules of percentage brightness / power of the artificial light, which is the connection of only the actually necessary achievement allows necessary to achieve the minimum brightness in the room. Often come z. B. so-called dimmable ECGs for linear luminaires (fluorescent lamps) for use, their control either via analog 1-10 V or done by digital (eg DALI) interfaces. A presence detector for the operation of z. B. Artificial light sources with analog interface contains an actuator (relay) for switching the operating voltage of the artificial light source and the corresponding 1-10 V Output for power control. A presence detector for the operation of z. B. Artificial light sources with digital interface (eg DALI) needed z. For example, in DALI systems only the corresponding digital control output.

all presence detectors common, is an appropriate electronics for motion / presence detection, and a corresponding electronics for brightness measurement. Movement / presence detection becomes common through a PIR sensor / Fresnel lens design achieved, wherein the Fresnel lens is an essential part of Presence detector housing is and usually consists of a transparent to visible light PE material. Therefore, in many presence detectors the brightness sensor is mounted behind the Fresnel lens, so that the ambient brightness is measured by the Fresnel lens.

The But Fresnel lens does not provide a "crystal clear" cover, so rather diffused Light from the entire environment as brightness in a given Direction or at a certain location in space is measured.

Becomes z. As the lighting of a small workspace / office total switched, one reaches with single-channel presence detectors with behind the Fresnel lens lying brightness sensor sufficient results.

Should but z. B. lighting in a larger room with one-sided Window front and with z. B. two separate light bands (Volume 1, fensternah, band 2, facing away from the window) by means of a two-channel (DUO) presence detector be regulated with two interfaces for controlling the ECGs, this is how the attachment of the corresponding brightness sensors provides behind the Fresnel lens no satisfactory results, since the two brightness sensors are not sufficiently visually different from each other are decoupled.

A Minimum brightness in the room is usually on one of persons used area, z. As a work or a passage area so it is advantageous to measure the brightness at this same point of reference. The fixed attachment of the Brightness sensor behind a Fresnel lens is because of the light-scattering Effect and also because of the not always given optimum presence detector mounting location inappropriate to allow accurate measurements.

According to the invention this problem solved in that the or the corresponding brightness sensors instead behind the Fresnel lens outside the Fresnel lens, d. H. in or on the Fresnel lens surrounding presence detector housing (z. B. circumferential edge) is / are attached.

To can in z. B. circumferential edge of the presence detector housing corresponding openings (holes) provided be through which the brightness sensors directly into the associated "See" space zones.

Especially It is advantageous according to the invention, the brightness sensors in turn in another small case to mount, which relative to the presence detector housing in his Spatial position changeable is, d. H. can be panned or twisted or moved. The connection between the brightness sensor and the transmitter done by cable.

Such a brightness sensor housing should be made of an opaque material, have a corresponding small opening / window for the purpose of light entry and be shaped so that only a certain area of the space / room floor is displayed on the photosensitive element of the brightness sensor, for. B. an area of 1-10 square meters. An even smaller "measuring surface" does not always make sense, because, for example, if a desk is aligned with a white sheet laid on a dark table, the brightness measurement is strong if necessary too heavily influenced.

The optimal window opening a brightness sensor housing depends on the area to be detected as well as the mounting height of the presence detector from.

in the above example of a room with two separately controlled rooflights is the arrangement according to the invention two pivotable alignable brightness sensors in particular advantageous to the light band associated brightness sensor exactly to the space zone under the corresponding light band to be able to align.

Claims (8)

Presence detector with one or more brightness sensors, characterized in that the brightness sensor (s) are not mounted behind the Fresnel lens but in or on the housing part surrounding the Fresnel lens (eg peripheral edge) of the detector. presence detector according to claim 1, characterized in that in addition openings / holes in Presence detector housing provided are, by the ambient light on the brightness sensor elements falls. presence detector according to claim 1, characterized in that the brightness sensors in turn are mounted in a further small housing, which relative to the presence detector housing in its Spatial position changeable is, d. H. panned or twisted or otherwise aligned can be and which a corresponding opening / window for the purpose of incidence of light has. presence detector according to the claims 1, 2 and 3, characterized in that the corresponding housing openings of the presence detector or the brightness sensor housing are dimensioned so that only an area smaller than 10 square meters for brightness measurement is used and thus an orientation of the brightness sensor possible is and makes sense. presence detector according to the claims 1, 3 and 4, characterized in that the brightness sensor housing tubular, spherical, cuboidal or otherwise z. B. T-shaped (see drawing) is formed. presence detector according to the claims 1, 3, 4 and 5, characterized in that the brightness sensor housing rotatable in presence detector housing, is pivotally, tiltably or slidably held or stored. presence detector according to the claims 1, 3, 4, 5 and 6, characterized in that the brightness sensor housing on the presence detector housing can be plugged or attached to the presence detector housing can be. presence detector according to the claims 1, 3, 4, 5, 6 and 7, characterized in that the brightness sensor housing on the presence detector housing in order Alignment of the brightness sensor can be moved.