RU73376U1 - RC LOCK - Google Patents

Abstract

The radio-controlled lock is intended for locking doors in residential and office premises. The lock is an electronic-mechanical system that does not have external signs of its installation. Lock control - remote wireless using a key fob, with the possibility of mechanical opening and closing from the inside with a turntable. The electronic control unit comprises a radio receiver with microprocessor-based signal processing with scanning protection, a battery charger and a battery. It is possible to program independently up to 12 keyfob keys and prohibiting access for lost keyfob keys. The electronic unit is connected to AC 220 V using a standard plug. Autonomous system operation when shutting down for at least 15 days. When opening the lock, it is possible to turn on external appliances for 1 minute (alarm, light, video surveillance, etc.)

Description

This utility model relates to the field of technology involved in the development and manufacture of a variety of locking devices for office buildings, residential and other premises.

A significant variety of locking devices is known. Historically widespread mechanical locks, which for all their diversity and perfection have significant drawbacks:

1. Located on the outer surface of the visible key snail allows you to determine the location of the castle and its type. Based on this information, it is easy to select the appropriate pre-developed technology for opening it, as well as drill all racks using a pre-made template.

2. Mechanical locks with a visible key snail can become the object of vandalism: they hammer a key snail with matches or seal it with chewing gum.

As an alternative to compensate for these shortcomings, there are radio-controlled locks mounted between the door panels or on its inner side without the possibility of visualizing the installation location and type of lock.

The closest in technical essence is the Granit invisible lock, described in detail on the Internet: http://www.actrongroup.ru/granit.htm, (see Appendix), which includes a key fob, in the housing of which there is a generation unit and storage of key sequences for opening and closing, to the first and second inputs of which two buttons “open” and “close” are connected, and the output of which is connected to a transmitter with an antenna, as well as autonomous

interchangeable power supply, electronic control unit containing a receiving antenna, a signal receiver, a processor, first, second and third memory blocks connected in series with outputs through a common bus to the second information output of the processor, while the generation program and the current memory are located in the first memory block storing key sequences for closing and opening a radio-controlled lock; in the second memory block there is a program for comparing the current key sequences generated and storing they are in the first memory block, with key sequences received over the air from the key fob, in the third memory block there is a program for reconfiguring the locking / unlocking algorithm depending on the supply voltage of the electronic unit, the power supply of the electronic control unit containing series-connected fusible units fuses, transformer, rectifier, charger, battery, key, disconnecting the power circuit of the electronic part of the battery, power distribution switch electronic components through the first output, as well as a battery voltage meter with a light indicator of the degree of its discharge, an input connected to the output of the battery, and an output to the third input of the processor, and to the input of the sound generator, while the output of the rectifier is also connected to the third input of the distribution switch power supply, electromechanical lock drive, which includes an electric drive and a locking device connected to it.

The described device has a significant drawback:

In an extreme situation (fire, earthquake, flood, etc.), an office employee or the owner of the premises, being in a stressful condition, may not find the key fob in time to open the exit door, which is associated with possible catastrophic consequences.

The purpose of creating the proposed technical device is to increase the security of the castle in extreme situations, as well as the simultaneous expansion of its functionality.

This goal is achieved by the fact that in the known device containing a key fob, in the housing of which there is a block for generating and storing key sequences for opening and closing, to the first and second inputs of which two buttons “open” and “close” are connected, and the output of which connected to a transmitter with an antenna, as well as an autonomous power source, an electronic control unit containing a receiving antenna connected in series, a coded signal receiver, a processor, first, second and third memory blocks, outputs connected via a common bus to the second information input of the processor, while in the first memory block there is a program for generating and current storage of key sequences for closing and opening a radio-controlled lock, in the second memory block there is a program for comparing current key sequences generated and stored in the first memory block , with key sequences received over the air from the key-fob, the third memory block contains a program for reconfiguring the closing-from algorithm tearing of the lock depending on the supply voltage of the electronic unit, the power supply unit of the electronic control unit, containing fuse blocks, a transformer, a rectifier, a charger, a battery, a switchboard for distributing power to the elements of the electronic unit through its first output, and a battery voltage meter with light an indicator of the degree of its discharge, the output connected to the output of the battery, and the input connected to the third input of the processor, and to the input of the sound generator while the rectifier output is also connected to the second input of the power distribution switch elements

an electronic unit, an electromechanical drive of the lock, which includes an electric drive and a locking device connected to it, while the input of the electric drive is connected to the output of the processor of the electronic control unit, in the electromechanical drive of the lock between the electric drive and the locking device, a kinematic link is introduced to the second output of which a spinner for tearing (closing) the lock on the inside of the door, a timer is entered into the electronic control unit, the input connected to the processor output, and the output to t to the third input of the power distribution switch, the power distribution switch contains 2 ... n outputs connecting external subscribers through them.

Figure 1 presents the structural and functional diagram of a radio-controlled lock.

The radio-controlled lock contains a key fob 1, which includes a block for generating and storing key sequences for closing and opening a lock 2, a close button 3, a open button 4, a transmitter with an antenna 5, an autonomous replaceable power source 6, electronic a control unit 7 including a receiving antenna 8, a coded signal receiver 9, a processor 10, a first memory unit 11, a second memory unit 12, a third memory unit 13, a common bus 14, a power supply unit of an electronic control unit 15, comprising a self-healing block ranitel 16, transformer 17, rectifier 18, charger 19, battery 20, switch for power distribution of elements of the electronic unit 21, voltage meter battery with a light indicator of the degree of discharge 22, sound generator 23, timer 24, electromechanical lock 25, including electric drive 26, kinematic link 27, locking device 28, spinner for opening (closing) the lock on the inside of the door 29, a group of external subscribers 30, including subscribers 31 ₁ ... 31 _n (light, alarm, etc.) d external power 220 V

32, the power supply to the electronic elements of the electronic control unit 33, channels for connecting external subscribers 34.

The radio-controlled lock operates as follows. When you press on the key fob 1, for example, the “close” button 3 from the key sequence generation and storage unit 2, the key sequence for closing is selected, generated and stored in it at that moment in time and transmitted through the transmitter with antenna 5. Upon completion of this operation, in block 2, it is generated in accordance with the specified algorithm and another key sequence for closing is stored. The key sequence directed to the air through the receiving antenna 8 of the electronic control unit 7 is received by the encoded signal receiver 9 and transmitted to the processor 10. The latter, upon receipt of this information, selects the key sequence from the first memory block 11 for closing the lock generated and stored in it at a given time , and according to the program stored in the second memory block 12, compares it with the key sequence for closing, obtained over the air from the key fob 1. If positive, Using these key sequences, the processor 10 generates a control signal, which is fed through its output to the input of the electric drive 26 of the electromechanical drive of the lock 25. The electric drive 26 through the kinematic link 27 moves a locking device (for example, a bolt), thereby closing the door. Upon completion of this procedure, the processor 10 according to the program stored in the first memory block 11 generates and stores another key sequence for closing the lock. In this case, the algorithm for generating key sequences in the processor 10 and the keychain 1 is the same, which guarantees the identity of the key sequences generated in them. If the marked key sequences are not compared, the formation of the control signal by the processor 10 does not occur. When pressed on the keychain 1

“open” button 4, the procedure for opening a door is carried out according to the scheme described above. The key fob is powered by a replaceable autonomous power source 6. The electronic control unit 7 is powered by the built-in power supply 15. In addition, the power can be supplied from either an alternating current network (for example, 220 V) or from the battery (in case of disconnection mains) In the first case, mains power is supplied through input 32 and through a resettable fuse box 16, a transformer 17 and a rectifier 18 are fed to the second input of the power distribution switch element ntov of the electronic control unit 21. In the absence of mains power for a long time, the battery 20, while supplying power to the elements of the electronic control unit 15, undergoes a discharge during this period of time, which is monitored by a battery voltage meter with a light indicator on the degree of its discharge 22, from which information is supplied to the third input processor 10, In the third memory block 13 there is a program for reconfiguring the lock-open algorithm of the lock depending on the supply voltage of the electronic unit. The reconfiguration algorithm works as follows. If the battery voltage in the autonomous mode is within the acceptable range (for example, the battery is less than 50% discharged), the operation mode of the electronic control unit 15 does not differ from the normal operation mode in which the mains voltage is present. If the battery is significantly discharged (for example, the battery is discharged by more than 50%), the operation mode of the lock changes: the control unit stops automatically closing the door if this option is enabled. With a strong discharge of the battery (for example, below 25%) from its capacity, the electronic control unit 15 stops executing commands to close the door. Now he can execute a command only to open it. If the battery voltage drops to below the acceptable value and reaches

values below which the lock will not be possible, the electronic control unit 15 independently issues a command to open the lock, thereby eliminating the possibility of locking the door. In this case, the sound generator 23 may turn on (although its presence is not mandatory). When voltage appears in the network and after charging the battery to a value of, for example, more than 50% of its capacity, the door will be automatically closed (if the option to automatically close the door was turned on). When forming the control command by the processor 10, it is fed through its output to the input of the timer 24 and turns it on for a predetermined time (for example, 1 minute). Its signal from the input goes to the third input of the power distribution switch of the elements of the electronic unit 21. The latter, during the time specified by the timer 24, activates its output channels 2 ... n 34 thereby providing power to external subscribers 30 (lighting, alarm, etc.) . In this case, the timer 24 can have a trigger with a counting input at its input and turn on once: only when the lock is opened.

In an extreme situation in the room (fire, earthquake, flood), an office employee or the owner of the room, not finding the key fob due to being in a stressful state, can open the door by turning the turntable 29 through kinematic link 27, while avoiding catastrophic consequences.

Thus, the use of the proposed utility model in the form of a radio-controlled lock will provide an increase in the safety of its functioning in extreme situations with a simultaneous increase in the range of its functional capabilities.

Claims (3)

1. A radio-controlled lock containing a key fob, in the housing of which there is a block for generating and storing key sequences for opening and closing, to the first and second inputs of which two buttons “open” and “close” are connected, and the output of which is connected to a transmitter with an antenna as well as an autonomous power source, an electronic control unit containing a series-connected receiving antenna, a coded signal receiver, a processor, first, second and third memory blocks, outputs connected via a common bus to the WTO the processor’s information input, in the first memory block there is a program for generating and current storage of key sequences for closing and opening a radio-controlled lock, in the second memory block there is a program for comparing the current key sequences generated and stored in the first memory block with the key sequences obtained over the radio channel from the key fob, in the third memory block there is a program for reconfiguring the lock-open algorithm of the lock depending on the voltage power supply of the electronic unit, the power supply unit of the electronic control unit containing series-connected fuse blocks, a transformer, a rectifier, a charger, a battery, a switch for distributing power to the elements of the electronic unit through its first output, as well as a battery voltage meter with a light indicator of its discharge level, output connected to the output of the battery, and the input is connected to the third input of the processor and to the input of the sound generator, while the output of the rectifier is also under the electromechanical lock drive including an electric drive and a locking device connected to it is connected to the second input of the power distribution switch of the electronic unit elements, wherein the input of the electric drive is connected to the output of the processor of the electronic control unit, characterized in that in the electromechanical lock drive between the electric drive and the lock the device introduced a kinematic link, to the second output of which a pinwheel is attached to tear (close) the lock from the inside of the door, into the electric nny control unit introduced timer input connected to the output of the processor, and the output - to the third input of the power distribution switch, the power distribution switch comprises 2 ... n outputs therethrough connecting external subscribers. 2. The radio-controlled lock according to claim 1, characterized in that in the key fob, the autonomous power source is removable and the output is connected to the second input of the transmitter with the antenna and the third input of the key sequence generation and storage unit. 3. The radio-controlled lock according to claim 1, characterized in that in the power supply unit of the electronic control unit, the fuse box is self-healing.