CZ246197A3 - Movement detector with at least one converging lens - Google Patents

Abstract

The collecting lens (2) focusses the heat radiation from persons on to an infrared sensor (6) the signal from which is processed in a circuit board (4). The infrared sensor is positioned, viewed from the lens, in a plane behind the circuit board. In this area the circuit board has an opening (8) which provides the focussed heat radiation with access to the infrared sensor.The sensor can be fixed to a sensor mounting secured in the edge region of the opening forming a receptacle for the sensor behind the circuit board and the sensor mounting can have a support for mirrors.

Description

BACKGROUND OF THE INVENTION The present invention relates to a motion detector with at least one coupled lens that focuses incident thermal radiation emitted by moving objects, in particular by persons, to at least one infrared sensor which generates electrical signals therefrom PCBs for electric hundreds of elements located parallel to the infrared sensor receiving plane in the motion detector housing.

sayad_st_st__technics.

The motion detectors are typically designed as passive infrared motion detectors. At least one of the lenses focuses the incident heat radiation transmitted by the moving objects onto the infrared sensor. This generates electrical signals from which it is deductible to report movements captured in the controlled area. For mounting with electrical components, in particular an infrared sensor, a conductive circuit board is placed parallel to the infrared sensor receiving plane in the motion detector housing.

The design of the motion detectors with the pyroelectric infrared sensor is essentially determined by the design of the sensor and the geometry of the sensors used. With the predefined engagement characteristics and the range of motion detector operation, changes in lens dimensions and position, and distance to the sensor are not possible. In an arrangement as known, for example, from U.S. Pat. EP 13 13 468 B1 discloses a motion detector with a 180 ° capture angle. In such a construction, as shown in FIG. 1, the design height of the apparatus resulting from the elements used, i.e. the lens, the sensor, the motion detector housing and the position of the conductive circuit board, is obtained. The sensor is mounted either directly or in conjunction with the support elements on the side of the conductive circuit board facing the lens, so that the thermal radiation sensor elements are easily accessible in front of the conductive circuit board.

Part of the invention.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a motion detector of the aforementioned type which, despite its good physical properties, has a rigid construction, a lower construction height, without requiring a substantial change in the optical system determining the retention characteristics.

This object is achieved in the introduction of the motion detector according to the invention in that at least one infrared sensor is arranged, viewed from the lens, in a plane lying behind the conductive circuit board and the conductive circuit board has an opening in this region which is designed such that under * sharpened thermal radiation reaches the infrared dream of the game.

expedient embodiments and developments of the invention are set out in the dependent claims.

The lowering of the mounting height is advantageously achieved in such a way that the infrared sensor is arranged in a plane which, when viewed from the lens clamp, lies behind the circuit board. The conductive circuit board in this area must be provided with an aperture which is designed so that the necessary heat radiation can reach from the infrared sensor. Although the focal length to the motion detector junction lens is unchanged, this structure manages to move further backward into the housing of the apparatus, thereby reducing the overall height.

Based on the assumption that the bonding lens is positioned exactly in the position of the conductive circuit board, the position of the infrared radiator to the conductive circuit board is also determined by its position relative to the bonding lens, so that the infrared sensor is mounted on the sensor holder, which is anchored in the peripheral area of the hole and behind the plate with conductive connections form a housing for infrared ...... - red radiator.

In addition to direct incident heat radiation, which is directly focused on the infrared sensor by the lens, the lateral incident heat radiation is also deflected by means of mirrors. It is expedient for the holder required for the mirror mounting to be designed as a single holder for the infrared sensor.

It is sufficient that the aperture formed in the printed circuit board is large enough that the directly incident heat radiation reaches the infrared sensor without hindrance. The mirrors can thus be arranged in front of the printed circuit board on its side facing the lens. Due to their deflecting action, the thermal radiation coming from the side also reaches the infrared sensor through this opening.

To attach the common holder to the conductive circuit board, a clamping device is provided between the mirror holder and the sensor holder for securing the projection which allows the common holder to be clamped to the edge of the opening.

An additional reduction in construction height can be achieved by providing the infrared sensor with a housing in the form of a flat housing. This cover is, as its name itself says, i.e. a flat-pack, substantially more flat than conventional covers, so that the necessary distance between the conductive circuit board and the bottom of the cover is reduced.

In order to achieve a small construction height, it is also expedient for the infrared radiator to be mounted at a minimum distance from the bottom of the housing according to the specifications.

Overview of figures in the drawing.

The invention will be explained in more detail below with reference to the exemplary embodiments shown in the drawings.

FIG. 1 shows the construction of a conventional motion detector with an infrared sensor on the side of the circuit board facing the coupling lens.

FIG. 2 shows a detector structure according to the invention with an infrared sensor on the side of the conductive plate facing away from the lens.

invention.

In the original design of the motion detector shown in Fig. 1, as in the embodiment of the invention shown in Fig. 2, its height 1 is determined by the distance between the lens surface of the lens 2, the existing one of the multiple lenses and the outer surface. the bottom of the housing 5 of the device.

In a typical embodiment, the infrared sensor 3 · of the sensor elements with their YSI 6 ^to t! ^{n the} side of the conductive plate 4 facing the lens 2. According to FIG. For this purpose, an opening 8 is formed in the conductive circuit board 4, which allows the heat radiation, which is focused by the lens clip 2, to penetrate unobstructed into the area behind the printed circuit board 4. Here, an infrared sensor 3 is arranged which, with its two sensor elements 6, lies in the focal point of the lens 2 clearly behind the defect 4 with the conductive connections. The design of the infrared sensor housing 3 with the flat housing sensor housing 7 facilitates the additionally flat design of the motion detector.

A special advantage for the overall construction is the specially designed holder, which consists of SO 12

- a sensor for receiving an infrared sensor 3 with a flat housing of the sensor housing 7 and a reflector 11 for the mirror 10. This holder consisting of the parts of the holder 11, 12 is formed in the region of the part of the sensor holder 12 so that its position is precisely defined. It must be ensured that the distance 9 to the housing 5 of the device is as small as possible without affecting the alignment of the parts of the holders 11, 12 to the printed circuit board 4 and their association with the lens 2.

Mirrors 10 _£ mounted on the portion of the holder 11, the US held on the side plate 4 with a printed circuit board which faces to the focusing lens 2, and are arranged so that, as from the point of incident thermal radiation, but also directly incident thermal radiation can opening 8 without reach any infrared sensor 3.

In the region between the portion of the carrier 11 and the portion of the carrier 12, the machine with the locking projection 13 selects an exact positioning of the two parts in the peripheral region of the opening 8 on the printed circuit board 4. This ensures accurate alignment of all optically active parts.

Claims (7)

PATENT CLAIMS ú q L í L ζ θ 1. A motion detector with at least one connecting link; _f . ₃ which focuses incident thermal radiation emitted after ^'3 ^ · ^ "''hyblivými objects, in particular those on at least one infrared sensor, which from this generates an electric signal from which is derivable reporting movements captured in a controlled chamber with suitable plates with printed circuit boards mounted parallel to the infrared sensor receiving plane, characterized in that at least one infrared sensor (3) is arranged, viewed from the lens (2) in a plane lying behind the printed circuit board (4) The circuit board and the printed circuit board (4) has an opening (8) in this region, which is formed so that the focused heat radiation reaches the infrared sensor (8). Motion detector according to claim 1, characterized in that the infrared sensor (3) is mounted on a sensor holder (12) which is anchored in the edge region of the opening (8) and forms a bearing for the infrared sensor (3) lying behind the plate (3). 4) printed circuit boards. .1 ^ '* Motion detector according to claim 2, characterized in that the sensor holder (12) is connected to a part of the holder (11) for receiving the mirrors (10). Motion detector according to claim 3, characterized in that the mirrors (10) are arranged in front of the printed circuit board (4) on its side facing the coupling lens (2) for deflection from the incident heat radiation. Motion detector according to one of the preceding claims 2 to 4, characterized in that a clamping device with a securing projection (13) for securing the parts of the brackets is arranged between the workshop of the mirror carrier (11) and the sensor holder (12). (11.12) at the edge of the turret (8). A motion detector according to any one of the preceding claims, characterized in that the infrared sensor (3) is provided with a flat housing of the sensor housing (7). Motion detector according to one of the preceding claims 1 to 6, characterized in that the infrared red sensor (3) is located at a predetermined smallest distance (9) from the bottom (5) of the housing of the device.