EP1120763A1 - Passive infrared movement and presence detector with switchable optics - Google Patents

Abstract

The passive IR detector has at least one IR sensor (20) and a number of optical lenses (12-18), each directing light from one or more fields of view (34-38) onto the IR sensor. A movable cover (19) is displaced between at least 2 different positions, for allowing light from different fields of view to be received by the IR sensor, e.g. in dependence on the mounting position of the detector.

Description

The invention relates to motion or presence detectors according to the passive infrared principle.

Such motion or presence detectors are in a variety previously known from designs, such. B. from U.S. Pat. No. 4,321,594. These are used especially for detection of movements used by people and are considered Alarm devices, automatic light switches and the like known.

These motion or presence detectors consist of one or several infrared sensor elements and a variety of optical elements, for example lenses, each Lens receives radiation from a field of view and on a sensor element is focused. This creates in space a variety of fields of view that make up the natural thermal infrared radiation of the environment on the or the sensor elements arrives. If there is a body whose Temperature differs from the background in one such a field of vision into or from such a field of vision moved out, changes on the sensor element incoming radiation and leads to a changing Output signal of the sensor element. The output signal can be used as an indicator of movement. This way people can be in a specific room or area detected based on their movements become.

The arrangement of the infrared sensor elements and lenses is done according to the needs for space coverage such fields of vision. Due to the focal length and size of the Lenses and their position relative to the sensor elements is the position of the fields of vision defined in space, the entirety of which as a pattern of fields of view can be designated.

If a motion or presence detector is on, for example to be arranged on a wall of a room the fields of view are typically in the form of a horizontal Fan with 180 degree horizontal opening angle arranged so that movements can be recorded throughout the room can. However, if a motion or presence detector is required to be mounted on the ceiling, it is advantageous to Fields of view similar to the water jets of a shower distribute the volume of a pyramid or cone, with the motion or presence detector on top the pyramid or cone lies and the fields of vision are distributed over such a solid angle that they are one Cover space or area of predetermined size in such a way that a person in it if possible can be detected at any point. According to needs are therefore a multitude of patterns of fields of view previously known. The number of such fields of view for one Certain patterns can range from a few to wide be over a hundred.

Typically, infrared sensors work after pyroelectric principle. For example, two or four sensor elements assembled in one housing and the output signals interconnected differentially, that means added with opposite signs. Because such Infrared sensors only from a certain solid angle Radiation can be received depending on the application or several infrared sensors are used.

Lenses in the form of spherical or aspherical lenses, Fresnel lenses, Fresnel zone plates, diffraction Fresnel lenses, holographic Proven lenses or combinations of such elements. Typically, for a variety of fields of view used a variety of such lenses, wherein Depending on the needs, the most diverse designs in different sizes can be used together.

Typically, a number of individual lenses are one Multilens or a lens array composed. Each Single lens is arranged so that in interaction with the sensor elements field of view in the desired Direction arise and thus a certain pattern of Fields of view is generated. Examples of lens arrays are the arrangement of a large number of rectangular Fresnel lenses on a flat or cylindrical surface like e.g. B. from the US pattern Des. 331,120 known, three-dimensional Arrangements according to U.S. Pat. No. 5,221,919, U.S. Pat. 5,187,360 or the arrangement of a variety spherical lenses according to a hemisphere U.S. Pat. 4,930,864.

With the help of plastic injection molding technology Multi-lenses in every shape and with almost every conceivable Arrangements and combinations of optical elements manufacture to motion or presence detectors for all needs and manufacture applications.

The disadvantage here is that such motion or presence detectors just an unchanging pattern of fields of view have and thus only for a specific application or mounting type are suitable. For different types of installation and mounting locations become different, specific adapted devices required. This causes one great effort to develop and manufacture various Devices as well as an expensive inventory of the Installers.

From U.S. Pat. 4,604,524 is a passive infrared Known sensor in the interchangeable multi-lens generation different patterns of fields of vision are provided are. A given pattern of fields of view can also be aligned in the room that in the housing the multi-lens horizontally and the detector vertically are movable. The disadvantage here is that the lens exchange by hand, appropriate stocking with different types of multilenses is necessary and the adjustment of the fields of vision requires professional skill. Problems can also be caused by pollution or Damage to the sensor when opening the housing for the Lens exchanges arise. Overall, the possibilities for adaptation of the sensor complicated and for everyday use not very suitable.

The object of the invention is a passive infrared To create motion or presence detectors at which different areas with a single detector type are monitorable and very easy to use is. According to the invention, this object is achieved by the features of independent claims.

According to the invention, the passive infrared comprises or presence detectors optical lenses that emit radiation Fields of view received and at least one infrared sensor focus, and a movable cover mechanism, which is variable depending on its position Patterns of fields of view to focus on releases the infrared sensor. Thanks to the built-in Movable cover can be that of the fields of view easily captured area to be monitored Space to be adjusted. In other words, they can active fields of view from the number of all available Fields of vision can be selected using the cover that an optimal monitoring area for a desired type of installation results. The detector does not require anything separate additional parts. It replaces several known today Detectors, each for specific types of installation or Installation locations are adjusted.

In a first embodiment, the is movable Cover in or on a housing of the motion or Presence detector flexibly mounted. Preferably includes the cover has a cover surface between the infrared sensor and the lenses can be pushed in so that the Beam path of a number of lenses released to the infrared sensor and possibly the beam path of other lenses to the infrared sensor is blocked. In this design the cover is not visible from the outside, so a uniform appearance of the detector regardless of the position of the cover results. The cover is together with its movement mechanism in the interior of the detector housing protected against damage, jamming or the like.

In a second embodiment, the cover comprises a cover surface that runs along an outside of the Lenses can be moved so that the radiation incidence is on a number of lenses released and if necessary on others Lenses is blocked. The cover can except here for the selection of active fields of view also as a protective eyelid for the blocked lenses against dirt, damage or the like.

In a third embodiment, the cover is like this designed for wall mounting and / or ceiling mounting Fields of view to the ceiling, windows or disturbing sources of heat radiation are blocked. This allows you to easily Wise systematic sources of interference for false tripping the detector directly when installing the detector using suitable Positioning the cover can be hidden.

In further exemplary embodiments, the cover comprises at least one pivotable or tiltable cover surface, the by a lever on the outside of the detector manually, by gravity depending on the mounting position or by electrical Control can be operated and in particular locked is.

Further embodiments, advantages and applications of the invention result from the dependent claims as well as from the following description based on the figures.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1

shows a wall mounting of an inventive Motion or presence detector with manually switchable Cover;

Fig. 2

shows a ceiling installation of an inventive Motion or presence detector with electrical switchable cover;

Fig. 3

shows a ceiling installation of an inventive Motion or presence detector with external Cover.

In the figures, the same parts have the same reference numerals Mistake.

WAYS OF CARRYING OUT THE INVENTION

1 there is the motion or presence detector from a housing base 10, on the z. B. a hemispherical Multi-lens 11 is placed, which is a variety of Lentils spread over the hemisphere or part of it contains. In the section shown, the lenses are 12-18 visible. Each of these lenses 12-18 focuses radiation from at least one correspondingly assigned field of view 32-38 on sensor 20, which is one or more sensor elements contains. The motion or presence detector is included the housing base 10, which also includes evaluation electronics and functional parts 8 for generating an output signal can be mounted on the approximately vertical wall 1, at a height above the ground, preferably larger is the height of the people to be detected, for example 2 to 3 meters.

So that the motion or presence detector at any location in a usual room with, for example, a rectangular one Floor plan or another predetermined area Can detect people, he needs a pattern of Fields of view that are both approximately horizontal or only includes slightly downward fields of view 34 to distant To be able to detect people, as well as down directed fields of view 35, 36, 37 to people in the To grasp proximity, as well as very steeply downward Fields of view 38, for example through a door below persons entering the motion or presence detector capture.

On the other hand, it does not make sense to have fields of vision above, as generated by lenses 12 and 13 are effective, since usually none from this direction Movements are to be detected. Such fields of vision would be directed to the ceiling of the room and can be there Heat radiation from lamps, lights, air conditioning, sunshine and the like detect and malfunction of the motion or presence detector.

In the embodiment according to the invention, the lenses 12 and 13 and others, not shown in Fig. 1, facing upward Lenses run anyway. The ray path between the infrared sensor 20 and these lenses however blocked by the cover surface 50 so that in the angular range between 42 and 43 no rays or only a small proportion can reach sensor 20. The cover surface 50 is part of a movable Bracket 19, which is rotatably mounted in the axis 52 is.

The housing 10, 11 of the motion or presence detector is through the housing base 10, optionally together with the multi-lens 11, given and defines a housing interior. The cover 19, 50-52 is preferably in the interior and / or on an outer surface of the housing 10, 11 of the motion or presence detector movably mounted. In particular, the cover 19, 50-52 with the housing 10, 11 connected in one piece.

2 shows the same movement according to the invention or presence detector shown when it is on the ceiling 2 one Room is mounted. In this case it makes sense that only downward viewing fields in the angular range between 40 and 41 are effective to be in the room To be able to detect people. More horizontal Fields of vision, as generated by the lenses 17 and 18 would be highly undesirable in this case because they are very distant and outside of the desired Detect people and objects located in the room or radiation from windows could capture what in turn leads to malfunctions.

For this reason, the movable bracket 19 around the Axis 52 rotated so far that the cover surface 51 den Beam path to the lenses 17 and 18 blocked. Vice versa are in this position of the bracket 19 by the now cover surface 50 removed from the beam path Lenses 12 and 13 are effective and produce the fields of view 32 and 33 in the now desired angular range. With this Tilt mechanism 19, 50-52 are the two cover surfaces 50, 51 attached to the bracket 19 on both sides of the axis of rotation 52 and are therefore only alternating or opposing effective as radiation blocking.

The movable bracket 19 can preferably by means of a engaging lever 6 in the desired position to be brought. The lever 6 is advantageously from outside operated by the detector. But it is also possible with a suitable weight distribution in the holder 19 opposite the axis of rotation 52 or by attaching a Weight to exploit gravity, so that the Bracket 19 by itself in wall or ceiling mounting the desired position rotates. Alternatively, you can the detector has an electrical control 7 for the cover 19, 50-52. The electrical control 7 comprises for example an electrical unlocking and locking and / or an electric drive for the cover mechanism 19, 50-52 and can be activated in any way.

Depending on the version of the motion or presence detector and the desired pattern of fields of view 32-36; 34-38 however, cover surfaces 50, 51 can also be used that are movable in other ways, for example as part of a part that is movable, or the joint contains one or more pivot points or axes of rotation having.

The shape of the cover surfaces 50, 51 depends on the type, size and arrangement of the lenses 12-18 on the Multi-lens 11. The lenses 12-18 are advantageously on the Multi-lens 11 arranged so that it can be used to capture Fields of view 32-38 in a solid angle range greater than π and preferably in a vertical angular range of larger than π / 2 are suitable. In any case, the cover areas 50, 51 in this way between sensor 20 and attach lenses 12-18 that the beam path too Lenses 12, 13; 17, 18, whose fields of view 32, 33; 37, 38 in a predetermined position of the cover surfaces 50, 51 are undesirable, in whole or at least for the most part is covered.

As a rule, cover areas 50, 51 are discrete Positions make sense to appropriate patterns from fields of view 32-36; 34-38 to be defined. But it is also conceivable, the cover surfaces 50, 51 continuously designed to be positionable.

Depending on the design of the lens 12-18 and the number of Sensors 20 or sensor elements may also be necessary be to provide more than two cover surfaces 50, 51. In principle, the cover surfaces 50, 51 can also have recesses have so that certain lenses and their associated Fields of vision in the otherwise covered area remain effective. This way and / or by use several cover surfaces 50, 51 can be any Patterns of Fields of View 32-36; 34-38 with a single Multi-lens 11 are generated.

Fig. 3 shows a variant of Fig. 2, wherein the cover mechanism 19, 50-52 on the multi-lens 11 outside Cover surfaces 50, 51 and for example is actuated by gravity. The cover surfaces 50, 51 can be like an eyelid, i.e. H. along an outside the multi-lens 11, at least in front of a part 17, 18; 12, 13 of the multi-lens 11 pushed, swiveled or tilted to a desired number of individual lenses 12-16; 14-18 and their associated fields of view 32-36; Block 34-38 or release.

The motion or presence detector preferably comprises one Control unit 8, which is used to output a control signal an electrical device, especially an automatic one Light switch, depending on a presence of people in one of the motion or presence detectors monitored area is suitable.

Claims (11)

Passive infrared motion or presence detector, comprising at least one infrared sensor (20) and a plurality of optical lenses (12-18), each lens (12-18) receiving radiation from one or more fields of view (32-38) and onto the infrared sensor (20) focused, characterized in that a) the motion or presence detector has a movable cover (19, 50-52) for radiation incident on the infrared sensor (20) and b) the cover (19, 50-52) can be moved at least between a first position for releasing a first pattern of fields of view (34-38) and a second position for releasing a second pattern of fields of vision (32-36). Passive infrared motion or presence detector according to claim 1, characterized in that a) the movable cover (19, 50-52) with the housing (10, 11) is integrally connected and / or b) the movable cover (19, 50-52) is movably mounted in an interior and / or on an outer surface of a housing (10, 11) of the motion or presence detector. Passive infrared motion or presence detector according to one of claims 1-2, characterized in that a) the cover (19, 50-52) has at least one cover surface (50, 51) which can be inserted between the infrared sensor (20) and the lenses (12-18) and b) depending on a position of the cover surface (50, 51), a beam path between a number of lenses (14-18; 12-16) and the infrared sensor (20) is enabled or blocked. Passive infrared motion or presence detector according to one of claims 1-2, characterized in that a) the cover (19, 50-52) has at least one cover surface (50, 51) which is movable in front of an outside of the lenses (12-18) and b) depending on a position of the cover surface (50, 51), the radiation incidence on a number of lenses (14-18; 12-16) is released or blocked. Passive infrared motion or presence detector according to one of claims 1-4, characterized in that a) when mounting the motion or presence detector on a wall (1), the cover (19, 50-52) in the first position blocks fields of view (32, 33) that are on a ceiling (2), on windows or on disturbing sources of heat radiation are directed and / or b) when mounting the motion or presence detector on a ceiling (2), the cover (19, 50-52) in the second position blocks fields of view (37, 38), which are on the ceiling (2), essentially horizontally, on windows or are directed at disturbing sources of heat radiation. Passive infrared motion or presence detector according to one of claims 1-5, characterized in that a) the cover is designed as a tiltable mechanism (19, 50-52) with at least two discrete positions, b) in particular that the mechanism (19, 50-52) has one or more cover surfaces (50, 51) which are attached to at least one holder (19) which is rotatably mounted about an axis (52) and c) in particular that the mechanism (19, 50-52) has two cover surfaces (50, 51) which are attached to a holder (19) on both sides of an axis of rotation (52) of the holder (19). Passive infrared motion or presence detector according to claim 6, characterized in that a) the mechanism (19, 50-52) can be tilted by means of a lever (6) which can be actuated from outside the motion or presence detector and b) in particular that the lever (6) can be mechanically locked in the discrete positions. Passive infrared motion or presence detector according to one of claims 1-7, characterized in that a) the cover (19, 50-52) depending on a mounting position of the motion or presence detector can be moved between the positions by gravity and / or b) the cover (19, 50-52) can be moved between the positions by an electrical control (7). Passive infrared motion or presence detector according to one of claims 1-8, characterized in that a) the lenses (12-18) are assembled to form a multi-lens (11) which is designed to capture a predeterminable spatial area and b) a number and arrangement of the lenses (12-18) on the multi-lens (11) is selected so that gapless detection of people in the room area is possible with wall and ceiling mounting. Passive infrared motion or presence detector one of claims 1-9, characterized in that the lenses (12-18) are arranged on the multi-lens (11) are that they are suitable for the detection of Fields of vision (32-38) larger in a solid angle range as π and preferably in a vertical angular range larger than π / 2. Passive infrared motion or presence detector one of claims 1-10, characterized in that the motion or presence detector is a control unit (8) includes that to output a control signal to an electrical device, especially to a automatic light switch, depending on a presence of people in a movement or presence detectors monitored area is.

Images