DE9314604U1 - Infrared motion detector - Google Patents

Description

93 G 3 5 3 1 EN

Siemens AG

Infrared motion detector
5

The invention relates to an infrared motion detector which has a sensor which is connected to an evaluation electronics.

Such motion detectors are used in burglar alarm systems and in electrical installations to detect moving heat-radiating objects, especially people. For example, motion detectors can be used to switch on outdoor lighting when a person approaches the house entrance.

Conventional motion detectors detect a more or less large sector of a cylindrical disk. They are installed near a house wall and their reception sector, which in practice is fanned out, is usually aligned at an angle to the ground.

The invention is based on the task of developing an infrared motion detector that can be used in installation technology as a programmable surface switch. This means that when someone is present within a monitored work area, the light is switched on and remains switched on, and that when someone leaves this work area, the light is switched off.

The solution to the problem described is achieved according to the invention by an infrared motion detector according to claim 1. The sensor has a lens with a club-shaped reception characteristic and can optionally have beam limiting devices in a manner known per se that reduce the radius of the reception lobe. This makes it possible to monitor a work surface on which, for example, a desk is placed, or on which several

93 G 3 5 3 1 EN

Desks are set up to monitor the presence of a working person and, if necessary, switch on an associated lighting device. Understandably, the motion detector can also be used to switch on a lighting device when entering a room whose floor area is approximately illuminated with the reception characteristics.

The sensor can be connected to a building system technology bus, with at least one bus station connected to it. The bus station can then carry out the evaluation and forward the command to switch on a lighting system. If the sensor is to be connected to a bus, the evaluation electronics in the motion detector itself are not required. The function of the evaluation electronics can then be taken over by a bus station. The motion detector can therefore be designed in a more rudimentary manner.

A simple embodiment is achieved by having the sensor with a Fresnel lens. The sensor can be connected to an evaluation electronics in the housing of the motion detector or to an evaluation electronics in a bus station. When connected to a bus, all you need is a bus coupler to convert the detected signals into signals for bus traffic.

It is advantageous to arrange a sensor vertically above work surfaces.

The invention will now be explained in more detail using embodiments shown roughly schematically in the drawing:

FIG 1 shows an infrared motion detector that has a lens with club-shaped reception characteristics

ristics.

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FIG 2 shows an infrared motion detector with evaluation electronics housed in its housing. FIG 3 shows an infrared motion detector that is connected to a building system technology bus and does not require its own evaluation electronics.

FIG 4 shows the footprint of a club-shaped reception characteristic using a Fresnel lens. The sensor is to be imagined arranged vertically above the footprint.
10

The infrared motion detector 8 according to FIG 1 has a lens 1 with a club-shaped reception characteristic, in particular a Fresnel lens. The reception lobe 9 can monitor a work surface 10 that extends perpendicular to the plane of the drawing. According to FIG 2, the infrared motion detector 8 can have the evaluation electronics in its housing. It consists, for example, of an infrared detector 2, a timer 3, a light sensor 4, a power supply 5 and a signaling device 6 and a power section 7 that can close and open the circuit in a lighting insert. Signaling lines 11 can be connected to the signaling device 6 and power lines 12 to the power section 7. The structure of such infrared motion detectors is known to this extent.

The infrared motion detector 8 according to FIG 3 does not require any evaluation electronics inside its housing, since it can be connected via bus conductor 13 to at least one bus station, which takes over the functions of evaluation electronics. The connection to the bus conductors 13 can be made in a known manner by contact pins 14, whereby in the drawing the electrical contact to the external bus conductor is illustrated by a line representation as an extension of the contact.

93 G 3 5 3 1 EN

The contact area of a receiving lobe 9 for a Fresnel lens is shown in FIG 4.

Claims (4)

Protection claims 1. Infrared motion detector comprising a sensor (1) connected to an evaluation electronics, characterized in that the sensor (1) has a lens with a club-shaped reception characteristic (reception lobe 9) and that beam limiting devices are optionally arranged.
10 2. Infrared motion detector according to claim 1, characterized in that the sensor (1) is connected to a bus (bus conductor 13) to which at least one bus station is connected. 3. Infrared motion detector according to claim 1, characterized in that the sensor (1) has a Fresnel lens and is connected to an evaluation electronics. 4. Infrared motion detector according to claim 2, characterized in that the sensor (1) has a Fresnel lens and is provided with a bus coupler.