DE2539438C3 - Radiation barrier - Google Patents

Description

The invention relates to a radiation barrier according to the preamble of claim I.

The basic task of such radiation barriers, of which several also become one Radiation barrier grids can be assembled is civil objects and other facilities protect against unauthorized entry. Are known light barriers, light beam switches with separate Transmitter and receiver as well as photoelectric barriers based on the autocollimation principle and finally grid photoelectric barriers. However, autocollimation light barriers can be used in an unauthorized manner simply by using a reflector (retroreflector) must be overcome, which at a suitable point in the beam path is brought. Light barriers consisting of a separate transmitter and receiver can be suitably used Attached deflecting mirrors or other substitutes for the actual transmitter at a suitable location installed transmitters can also be overcome. This also applies if the original devices with individually labeled light or radiation, such as pulsed or modulated light.

To create greater security against manipulation, it has already become known (DE-OS 44 456), optical impulses by an electrical or optical impulse running in parallel check, with the running times on the route used for security purposes and on the for Monitoring serving route can be adjusted. The disadvantage of the known radiation barrier is that the type of pulse modulation can be determined from the outside and thus also through suitable arrangements can be manipulated.

The aim of the invention is thus to provide a radiation barrier of the type mentioned at the beginning create, which also not by taking note of

overcome in the type of modulation used or can be manipulated.

To achieve this object, the invention provides that the modulation signal generator is a noise generator is

Such a generator delivers an unpredictable, Statistical signal that is not substituted by external signal sources, no matter how skilfully applied can be. However, manipulation of the radiation barrier is also effective in this way

2u trained external signal sources excluded.

It when a second modulation signal generator is provided, its The output in the modulator is modulated by the noise generator. The modulation signal generator delivers expediently an auxiliary frequency in the MHz range.

It is particularly advantageous here for the noise-modulated signal supplied to the transmitter via the control path respectively. This signal has a lower frequency than the actual transmitted signal, so that the transmission difficulties are significant for a signal in the GHz range, for example are reduced.

According to a further advantageous embodiment

r> the phase and the The amplitude position of the signals traveling over the transmission links is compared.

The transmitter preferably works in a continuous wave so that there are no monitoring gaps whatsoever.

The invention is described below, for example, with reference to the drawing, the single figure of which shows a schematic block diagram of a radiation barrier
According to the drawing, a modulator 17 modulates the

4 ¹ »Frequency of an auxiliary frequency generator 16 with the noise frequency of a noise generator 15. The output signal of the modulator 17 is fed to a transmitter 11 on the one hand, in order to modulate it accordingly, and on the other hand via a control path

thus forming line 14 directly to the receiving side directed

The electromagnetic signal sent by the transmitter 11 passes through the monitoring path 13 and is received by the receiver 12.

v> The received signal emerging from the receiver 12 is applied once to an amplitude comparator 19, the output signal A \ of which is a measure of whether the received amplitude is above a predetermined threshold value.If this is the case, it means

M) that no intervention has taken place in the monitoring path. If the comparator 19 indicates that the received signal is below the predetermined threshold value, means this the alarm case.

In a further comparator 18 is the

· <"> Noise-modulated auxiliary frequency, which is not shown by Demodulation is formed from the received signal, with the line 14 to the second input supplied auxiliary frequency compared, namely finds

a comparison of the results through the monitoring section 13 or the auxiliary frequency transmitted by line 14 takes place

If the phase positions of the two voltages match, there is no alarm. However, if they differ in their phase position by more than a predetermined nominal value, an alarm signal Aj- appears at the output of the comparator 18.

Another signal is used to monitor the amplitude of the signal passing through line 14 Comparator 20, which determines whether the amplitude value has the value corresponding to the normal case or is below this setpoint. In the latter case there would be a malfunction.

1 sheet of drawings

Claims (6)

Patent claims: 1. Radiation barrier with a transmitter that emits modulated electromagnetic radiation, which is connected to at least one modulation signal generator via a modulator, and a receiver receiving this radiation after passing through a surveillance room, whereby a signal corresponding to the transmitted signala) bypassing the surveillance area additionally via a control path to the receiver and there in a comparison circuit the signal is compared which is obtained from the signal obtained after passing through the monitoring path Signal is obtained, characterized in that that the modulation signal generator is a noise generator (15). 2. Radiation barrier according to claim 1, characterized characterized in that a second modulation signal generator (16) is provided, the output of which is im Modulator (J 7) from noise generator (15) modulates isL 3. Radiation barrier according to claim 2, characterized in that the modulation signal generator (16) supplies an auxiliary frequency in the MHz range. 4. Radiation barrier according to one of claims 2 or 3, characterized in that the transmitter (U) supplied noise-modulated signal via the control path (14). 5. Radiation barrier according to one of the preceding claims, characterized in that in the Comparison circuit (18) the phase and amplitude of the over the transmission links (13,24) will pass. 6. Radiation barrier according to one of the preceding claims, characterized in that the geken Continuous wave transmitter works