CS244320B1 - Electronic lock with magnetic key - Google Patents

Abstract

In order to increase the reliability and lifetime of the lock, an electronic lock consisting of a sensor coupled to the evaluation electronics, which is connected to the control of the solenoid, is used to control the latches of the electronic lock.

Description

The invention provides an electronic closure with a magnetic key suitable for closing selected devices or spaces.

Known devices for enclosing significant facilities or spaces are based on a mechanical principle. Besides having the disadvantages of mechanical devices in terms of failure and wear, their main drawbacks are in terms of their function in that they can be opened with special tools and provide relatively few combination possibilities.

These drawbacks are overcome by the magnetic closure electronic closure according to the invention, which consists in the fact that the electronic closure is formed by a sensor connected to the evaluation electronics, on the one hand through the outputs of magnetic switches with integrated circuits of logic products and for generating an alarm, which is also connected to an output through which the evaluation electronics are connected to the actuation of the electromagnet for actuating the latch of the electronic shutter. The latch is mechanically coupled to the sensor to lock the magnetic key from being removed from the sensor when the latch is not in the closed position. The switch is also connected to the stabilizer to ensure constant consumption of its own sensor from the power supply, which is connected to the power supply via protection against increased and reverse voltage.

The advantages of the electronic closure according to the invention are the great difficulty of its opening, its reliability, the large number of possible key combinations and hence the locks which differ by this combination, the simple possibility of an alarm or tamper signaling and a long service life.

An example of an embodiment of an electronic closure is shown in the figures, in which FIG. 1 shows a block diagram, FIG. 2 shows a circuit diagram of the individual circuits, and FIG. 3 magnetic key.

The electronic closure consists of a sensor 2, which is connected to the evaluation electronics 4, on the one hand through the outputs 22 of the magnetic switch 21 with the ICs 42 and on the other hand through the output 24 of the switch 23 with the integrated circuit 43.

The integrated circuit 43 is also connected to the output 41, by which the evaluation electronics 4 are connected to the actuation 5 of the electromagnet 6 for actuating the latch 3 of the electronic shutter. The latch 3 is mechanically feedback 31 coupled to the sensor 2 to lock the magnetic key 1 against being pulled out of the sensor 2 when the latch 3 is not in the closing position. The switch 23 is also connected to the stabilizer 9 to ensure a constant withdrawal of the actual sensor 2 from the power supply 8, which is connected to the power supply 8 via a protection against increased and reverse voltage 8. In the magnetic key 1 made of non-magnetic material shape, by which the 24-digit binary number is encoded by the different orientation of their magnetic fields. This binary number gives the possibility to make 2 ²⁴ = = 16 777 216 identical shape keys, differing from each other by the different orientation of the individual magnetic fields. In order to ensure a clear position of the magnetic key 1 relative to the sensors 2 of the electronic closure, one of its edges 12 is bevelled. A hole 13 is also provided in the magnetic key 1, which serves to lock it by magnetic feedback 31 from the latch 3 in the closed position. In the sensor 2 of the electronic shutter are located magnetic switches 21 with Hall probe so that the axes of permanent magnets 11 of key 1 in the inserted position in the sensor 2 coincide with the axes of Hall probes of magnetic switches 21. Each magnetic switch 21 in the sensor 2 is opposite 11 is rotated so that this effect of its magnetic field on the Hall probe of the magnetic switch 21 produces a logic "1" at the output 22. This ensures that the electronic closure cannot be opened with a key with another encoded binary number. The evaluation electronics 4, switch 2, control 5, solenoid 6 and signaling 7 are supplied from power supply 8. The evaluation electronics 4 logically multiply all outputs 22 of sensor 2 to evaluate the presence of all logic "1" and 6 ejects the latch 3 of the electronic closure. In the case of at least one logic "0" at the output 22, the evaluation electronics 4, with its output 41 and output 24, are formed by a switch 23 located in the sensor 2 so that the switch 23 will trip by inserting the magnetic key 1 at its stop position. A parallel current stabilizer 9 is used for protection against measurement of electrical quantities outside the enclosed space, which ensures constant withdrawal of the actual sensor 2 from the power supply 8. The electronic circuits are protected against increased voltage by thyristor protection 104 and diode 103 in series with fuses 101, 102 and against reverse voltage, the electronic circuits are protected by diodes 103, 105 in series with the fuses 101, 102.

Claims (1)

An electronic closure with a magnetic key, characterized in that it comprises a sensor (2) connected to the evaluation electronics (4) on the one hand through the outputs (22) of the magnetic switches (21) spaced in accordance with the permanent magnets (11) of the key (1). ), depending on the selected code with the ICs (42) and through the output (24) of the switch (23) with the IC (43), which is also connected to the output (41), which is the evaluation electronics ( 4) associated with BACKGROUND actuating (5) the solenoid (6) for actuating the latch (3) of the electronic shutter, the latch (3) being coupled by mechanical feedback (31) to the sensor (2) to lock the magnetic key (1) from being pulled out of the sensor (2 ), wherein the switch (23) is also connected to the stabilizer (9) to ensure a constant consumption of its own sensor (2) from the power supply (8), which is connected to the power supply (8) .