SU934519A1 - Intruder alarm - Google Patents

Description

(54) DEVICE FOR SECURITY SIGNALS

one

The invention relates to an automatic device that generates an alarm when the boundaries of the light curtain are violated, and can be used primarily in the processing of metals by pressure as a safety barrier for the working area of the presses, as well as in alarm systems.

A photoelectric security alarm device is known that contains emitters and photodetectors installed at the boundaries of the monitored section on two racks associated with a control circuit that includes an alarm unit that triggers when an obstacle in the path of at least one light beam from the radiator to the receiver occurs. The number of photodetectors corresponds to the number of emitters t.

The use of a large number of photodetectors and buffer cascades for them is a disadvantage of this device, since it complicates the control circuit, increases the probability of failures and, as a result, causes a decrease in the reliability of the device.

The closest technical solution to the present invention is a photoelectric device for burglar alarm, containing a master oscillator connected via a scaling circuit, a decoder and amplifiers with radiators, and an alarm signaling unit associated with photodetectors through amplifiers. The device also contains on the transmitting side a block for strobe selection and code counting, a clock distributor and a synchronization code generator, and on the receiving side a bandpass filter, a synchronization code selector, a clock and counting code recovery node, a channel distributor, and a synchronization code indicator 2.

The disadvantage of the known device is the inability to recognize the actual light pulses of the emitters and to distinguish them from optical or electrical noise, with the result that the device has low noise immunity and reliability, and is susceptible to simple methods of blinding the device. 39 The purpose of the invention is to increase the reliability of the device. The goal is achieved by introducing an EXCLUSIVE OR element, an AND element, a delay unit and a converter, the outputs of the preamplifiers are connected to the inputs of an EXCLUSIVE OR element, the output of which is connected to the first input of the AND element, the output of a given generator through sequentially connected shaper and The delay unit is connected to the second input of the element I, the output is connected to the input of the alarm unit. FIG. 1 shows the location of the emitters and photodetectors at the boundaries of the controlled area; in fig. 2 - device block scheme. The device comprises opposite racks 1 and 2 mounted opposite each other on which radiators 3-6 and infrared photoreceivers 7 and 8 are mounted. Photo detectors 7 and 8 are mounted on racks 1 and 2, for example, in such a way that they are located on a common diagonal 9 of a controlled part of the plane between racks 1 and 2. The radiators 3 to 6 and photo receivers 7 and 8 are controlled. and, which contains a series-connected master oscillator And, a conversion circuit 12, a decoder 13 and amplifiers 14-17, connected to radiators 3-6. Photodetectors 7 and 8 have preamplifiers 18 and 19, the outputs of which are connected to the inputs of the EXCLUSIVE element 20. The output of the EXCLUSIVE element OR 20 is connected to one of the inputs of the AND 21 element, the other input of which through the delay unit 22 is connected to the output of the imager 23 short, compared with a pulse duration on the radiator x 3-6, control pulses. The input of the J7 23 is connected to the output of the master oscillator 11. The output of the elemedt I 21 is connected to the input of the signaling unit 24. The device works as follows; in a way. The master reHepatop 11 generates pulses arriving at the inputs of the scaling circuit 12 and the imager 23 short pulses. From the output of the scaling circuit 12, the pulses in the parallel binary code arrive at the decoder 13, which through the amplifiers 14-17 alternately turns on the emitters 3-6 in such a way that the light pulses perceived by the photoreceivers 7 and 8 are equal in frequency and duration, but separated in phase by 180 °. As a result, two logically unequal signals, amplified by preamplifiers 18 and 19, and the element 20 generates a signal, a blocking element I 21, to the inputs of the element SPEAK AU1CEE OR 20 and the element 20 generates a signal that blocks the element I 21. Due to the variation in the parameters of the emitters 3-6, the duration of the light pulses generated by the aphid may not be the same. The delay unit 22 is designed to comprehend the spread of the parameters of the emitters 3-6 and allows shifting the pulses of the forvertor 23 relative to the pulses of the emitters 3-6 in such a way as to ensure that the short vaatynbcoB of the imaging unit 23 coincides with the pulses of each radiator 3-6. From the output of the delay unit 22, a signal is applied to the second input of the element 21. At the occurrence of an obstacle in the path of at least one of the light rays from the emitters 3-6 to the photodetectors 7 and 8, the input of the element 20 will receive two logically; equivalent signal, for example 6 - O or. In this case, element 20 carries an unlocking signal to the input of element AND 21. The short pulses of the imaging unit 23, having passed through the delay unit 22 and through the released element 21, arrive at the input of the signaling unit 24 and turn it on. The failure of any device element in the circuit from the recalculation circuit 12 to the element 20 or the occurrence of a strong constant or pulsed, but not corresponding to the frequency of the pulses on the radiators 3-6 of optical or electrical interference, also causes the appearance of the two elements of the two logically equal $ signals or 1 - 1, which leads to the operation of the block 24 alarm. However, due to the fact that the photodetectors 7 and 8 have inertia, two logically equivalent signals can be generated on the element 20 caused by the lagging of the signals of the photoreceivers 7 and 8 from the signals of the emitters 3-6. A similar situation may occur when a circuit appears from the photodetectors 7 and 8 to the inputs of the element 20 of an accidental electrical disturbance, causing a lag of signals or the occurrence of false electrical pulses .. I. : The short control pulse shaper 23 and the And 21 element prevent false triggering of the alarm unit 24 by switching the entire circuit to the active mode only at the instants of the short pulse of the shaper 23. Due to this, the triggering of the alarm block 24 can only penetrate the inputs of the element simultaneously And there are 21 short pulses of the imaging unit 23 and pulses of devlocation removed from the output of the element 20.

The economic efficiency of using the proposed device is determined by the specified technical advantages.

Claims (1)

1. US patent N 3970846, CL. 250-221, publ. 1976. 2- USSR author's certificate N 726549, cl. G 08 B 13/18, 1977 (prototype). , 1 Fi92