RU11623U1 - OPTICAL SIGNALING DEVICE - Google Patents

Abstract

An optical alarm device containing at least two transceiver units, each of which has at least two radiation sources and two radiation receivers, as well as a master oscillator, a control unit for received signals and a security alarm unit, characterized in that it is equipped with an automatic control unit optical signal, the input of which is connected to the second output of the control unit of the received signals, and the output is connected to the input of the master oscillator.

Description

OPTICAL SIGNALING DEVICE

The invention relates to closed-zone monitoring devices that generate an alarm when an intrusion zone is detected.

A wide variety of alarm systems are known, the principle of which is based on the intersection of the optical beam formed by the emitter unit and the photodetector received by the unit: a.

One of such devices is described in the German Federal Patent N3316010, MKI: G08B 13/18, E05G 5/00 (published in IMS N1 for 985). A method of controlling an enclosed space. The device comprises an infrared transmitter and a signal receiver from it. The receiver generates an alarm in case of deviation of the infrared radiation received from it from the set value.

Such devices have low noise immunity, they are triggered by any accidental violation of the protection zone, for example, by falling down a leaf or a flying bird.

More reliable devices contain several optical beam sources and, accordingly, several photodetectors, for example, photoelectric detectors of the DS470 type from Detection Sistems, Inc. (brochure attached). The figure in the prospectus shows that the device forms 4 optical beams. In this case, the ALARM alarm: G08B, 13/00

given at the simultaneous intersection of either all four rays, or two upper or two lower. Such a circuit is more protected from accidental alarm output; therefore, it has increased noise immunity.

Known photoelectric protective screen according to the application of France N2620550, MKI: Ш8В 13/18 (publ. ISM, issue 119, N10 for 1989), which contains two transceiver units, each has a photodetector (BF) unit, which is optically coupled to one or more light sources. The light sources of both transceiver units are connected through a pulse distributor to a master oscillator. The BF of each transceiver block is connected to the alarm block through a common control unit and a signal blocking unit.

The level of received BF signals is compared in the control unit, which activates the burglar alarm unit in the event of an interruption of signals from light sources.

A similar circuit can be supplemented by an automatic pc block for signal gain control (AGC) in the BF. Upon receipt of a weak signal at the BF input, the AGC block increases the amplifier gain, maintaining the necessary sensitivity of the system, including when weather conditions change. This helps to increase the noise immunity of the security system (see, for example, an infrared beam detector of the AX-350 / 650MKII type from ORTEX, a brochure is attached).

However, the capabilities of such a system are limited by AGC parameters. In addition, the connection between the task generator, the signal monitoring and transmit-receive controllers is carried out by wire, which complicates the organization of the security system and limits its operational BOMO capabilities.

A prototype of the proposed solution can be considered a photo-electric protective shield according to the application of France N2620550 (see above).

The objective of the proposed solution is to increase the noise immunity of the security system.

To solve this problem, an optical signaling device consisting of at least two transceivers, each of which contains at least two radiation sources, two radiation receivers, a pulse generator, an optical signal level control unit and a security alarm unit, iris -the transmitting unit is equipped with a unit for automatic adjustment of the optical signal (AROS), which is connected between the unit for monitoring the level of optical signals and set with a 1 generator.

The inclusion of the AROS block in the circuit will make it possible to organize optical feedback between two transceivers. This connection provides adjustment of the level of the emitted optical signal, and not just the gain level of the received signal, which expands the capabilities of the system and increases its noise immunity.

The proposed optical signaling device is shown in the figure.

The device consists of two identical transceiver units, PP1 and PP2, each of which has at least two radiation sources 1, 2 and two radiation receivers 3, 4.

The radiation sources 1 and 2 are connected to the master oscillator 5, and the receivers 3 and 4 are connected to the optical signal level control unit 6, the output of which is connected to the input of the security alarm unit 7.

The second output of the control unit 6 is connected to the input of the automatic optical signal adjustment unit (AROS) 8. - 3 The device operates as follows.

In the initial setup process, the optical nodes of one receive-transmit unit 1Sh1 are rotated relative to the other receive and transmit unit PP2 until the highest value of the received signal is obtained. This signal must exceed a predetermined threshold value. The level of received signals is estimated in block 6.

In the case of simultaneous overlapping of the optical signals in both radiation receivers 1 and 2 of any of the transmitting and receiving units 1Ш1 or MS, the signal blocking circuit in the control unit 6 activates the security alarm unit 7. As an alarm, light, sound indicators or other reactive devices.

In the event of a change in the system parameters associated with the operation of electronic components, or a decrease in the level of the optical signal due to changes in weather or environmental conditions, block 6 changes the sensitivity of receivers 3 and 4, and upon reaching maximum sensitivity, block 6 sends a command to AROS 8 about the need to increase the level of the optical signal emitted by sources 1 and S. The control signal from block 8 is fed to block 5 and then to radiation sources 1, 2.

A similar adjustment of the optical signal occurs if the signal exceeds a predetermined upper threshold.

Thus, the proposed device provides an optical signal level in a given range, which eliminates the possibility of signal loss due to errors in the operation of the electronic circuit or conditions for the passage of the optical signal. This scheme allows you to reduce the number of false alarms and increase the noise immunity of the security system.

Claims (1)

An optical alarm device containing at least two transceiver units, each of which has at least two radiation sources and two radiation receivers, as well as a master oscillator, a control unit for received signals and a security alarm unit, characterized in that it is equipped with an automatic control unit optical signal, the input of which is connected to the second output of the control unit of the received signals, and the output is connected to the input of the master oscillator.