RU2202686C1 - Combined electromagnetic lock - Google Patents

Abstract

FIELD: equipment for residential apartment houses and production buildings, systems limiting access. SUBSTANCE: in electromagnetic locks there are used opposite electromagnetic fields for door braking and electromagnetic fields coinciding in direction to create increased holding force at moment of attempt of unauthorized opening of door. Combined electromagnetic lock includes two electromagnets with two windings, control module and power supply unit. Control module comprises microcontroller with control input connected to N-sectional switch, where N is number of sections of switch, to door sensor, to first and second controller-supply switch with first and second ionistor batteries. EFFECT: enhanced effort of break, reduced acoustic noise, additional growth of break effort when unauthorized opening of lock is attempted. 4 cl, 1 dwg

Description

 The invention relates to the equipment of municipal equipment of residential apartment buildings and industrial premises, namely to electromagnetic locks, including for use in access restriction systems.

 Known electromagnetic lock VISIT ML-300/400, which includes: an electromagnet with a module for removing residual magnetization, a metal plate, a mounting kit and a door closer [1].

 The disadvantages of this lock are: increased noise due to mechanical shock when closing the door; insufficient holding force - 300 kg, allowing a sharp jerk to open the door; the need for an expensive door closer.

 Also known is the electromechanical consignment note lock ZNM-12L, which includes an executive mechanical part - a mechanical lever to open the door, a lock, a bolt, a latch and an electromagnet for controlling a bolt - the locking mechanical part of the lock. Together with the lock, to ensure the normal operation of the overhead electromechanical lock, it is necessary to use a door closer [2]. The disadvantages of this lock are: increased acoustic noise during operation of the locking mechanical part; the need to use an expensive door closer with a slam mode, low reliability due to the presence of a movable mechanical part - a crossbar and a latch.

 The closest technical solution to the proposed device is a magnetic lock containing a permanent magnet installed with the possibility of interaction with the response of the ferromagnetic part, the response part is made in the form of an electromagnet, the magnetic flux of which interacts with the flow of a permanent magnet, while opening the lock, the flow of the electromagnet is directed towards the flow permanent magnet, and when locking the magnetic flux of the electromagnet coincides with the magnetic flux of a permanent magnet [3] (prototype).

 The disadvantage of this lock is: when the electromagnetic part of the castle is de-energized, the latter remains closed, which contradicts the fire safety rules PPB 01-93 - when the building is de-energized, the electromagnetic and electromechanical locks of common areas must be open; the presence of the ferromagnetic part significantly reduces the reliability of the lock, with repeated shock loads, the ferromagnet quickly loses its properties and collapses; For the normal operation of the lock, the use of an expensive door closer is necessary.

 The technical result to which the invention is directed is to increase the breaking force, to eliminate the door closer, to reduce acoustic noise - to increase comfort, as well as to further increase the breaking force when trying to unauthorized opening of the lock.

 The specified technical result is achieved in that an electromagnetic lock containing a power supply unit and an electromagnet with two windings is additionally introduced: a second electromagnet of the counterpart with two windings and a lock control module, which includes: a microcontroller with a control input connected to an N-section switch, where N is the number of switch sections, hereinafter referred to as -DIP switch (on-off switch, two-pin switch, containing from two to twelve sections in the assembly, intended for share ki on a printed circuit board, used to set the configuration in electronic equipment [4]), the door sensor and the first and second controller-power switch with connected to them respectively the first and second ionistor batteries (ionistor is a capacitor with a double electric layer, functionally close to the capacitor very large capacity [5]), and the control signal from the access restriction system comes to the first input of the microcontroller, the second input of the microcontroller is connected to the door sensor, the first output of the microcontroller is connected with the first input of the first power switch controller, the first, second and third outputs of which are connected respectively to the first, second and third terminals of the first electromagnet, the fourth output of the first power switch controller is connected to the plus terminal of the first ionistor battery, the negative terminal of the last, fourth terminal of the first the electromagnet and the fifth output of the first controller-power switch are connected to a common wire, the second output of the microcontroller is connected to the second input of the second controller-switch I, the first, second and third outputs of which are connected respectively to the first, second and third terminals of the second electromagnet, the fourth output of the second controller-power switch is connected to the plus terminal of the second ionistor battery, the negative terminal of the latter, the fourth terminal of the second electromagnet and the fifth output of the second controller- the power switch is connected to a common wire, the outputs of the power supply are connected to the corresponding power inputs of the first and second power controllers and microcontrollers, the common output q power supply is connected to a common wire.

 The combined electromagnetic lock may additionally comprise a door speed sensor and an indication module, the output of the door speed sensor being connected to the third input of the microcontroller, the third output of which is connected to the input of the indication module.

 The door speed sensor can be made in the form of a Hall sensor, which allows you to determine the moment of unauthorized opening of the door.

 The ionistor battery can be made in the form of a battery of electrolytic capacitors.

 The access restriction system may be an intercom, an electronic code key reader and / or an electronic code lock.

 This embodiment of the lock will allow us to solve the problem: creating a combined electromagnetic lock with increased rupture force; door closer exceptions; acoustic noise reduction - increase comfort; an additional increase in breaking strength when attempting to unauthorizedly open a lock.

 The functional diagram of the combination electromagnetic lock is shown in the drawing.

 The combined electromagnetic lock (see drawing) contains a power supply 1, a first L1 and a second L2 electromagnets with two windings and a lock control module 2, which includes: a microcontroller 3 with control input 1 connected to DIP switch 4, door sensor 5, the first 6 and second 7 power switch controller with the first C1 and second C2 ionistor batteries respectively connected to them, and the control signal from the access restriction system comes to the first input of the microcontroller 3, the second input of the microcontroller 3 is connected nen with the door sensor 5. The first output of the microcontroller 3 is connected to the first input of the first controller-power switch 6. The first, second and third outputs of the first controller-power switch 6 are connected respectively to the first, second and third terminals of the first electromagnet L1. The fourth output of the first power switch controller 6 is connected to the positive terminal of the first ionistor battery C1. The negative output of the first ionistor battery C1, the fourth output of the first electromagnet L1 and the fifth output of the first power supply controller-switch 6 are connected to a common wire. The second output of the microcontroller 3 is connected to the second input of the second controller-power switch 7. The first, second and third outputs of the second controller-power switch 7 are connected respectively to the first, second and third terminals of the second electromagnet L2. The fourth output of the second controller-power switch 7 is connected to the positive terminal of the second ionistor battery C2. The negative output of the second ionistor battery C2, the fourth output of the second electromagnet L2 and the fifth output of the second power supply controller-switch 7 are connected to a common wire. The outputs of the power supply 1 are connected to the corresponding power inputs of the first 6 and second 7 power supply controllers and microcontroller 3, the common output of the power supply 1 is connected to a common wire.

 Additionally, the combination electromagnetic lock contains a door speed sensor 8 and an indication module 9, and the output of the door speed sensor 8 is connected to the third input of the microcontroller, the third output of which is connected to the input of the indication module 9.

 In addition, the combination electromagnetic lock may include a door speed sensor 8, made in the form of a Hall sensor.

 Also, the combination electromagnetic lock additionally contains an ionistor battery made in the form of a battery of electrolytic capacitors.

 In addition, a combination electromagnetic lock is used with various access restriction systems, such as an intercom; electronic code key reader and / or electronic code lock.

 The combined electromagnetic lock operates as follows. The first electromagnet L1 together with the control module 2 is mounted on the door frame. The second electromagnet is mounted on the movable part of the door so that when the door is closed, the first L1 and second L2 electromagnets fit snugly against each other without a gap. Install the door sensor 5 and the speed sensor 8. The door is installed at an angle to the vertical or on oblique hinges, or with a light spring that provides closing of the door. From the DIP switch 4, which contains a group of eight switches with a cover for fixing the position of the switches, a seven-digit binary code is entered, which is proportional to the product of the weight of the door by the area of the door (the coefficient is determined by the table included in the combined electromagnetic passport). The first DIP switch of switch 4 is used to output information on the inertial properties of the door, determined by the microcontroller 3 when the door is closed at the time of adjustment, to the display module, and is used as additional information when choosing the coefficient optimal for a given door. The work is carried out by the maintenance staff once during the commissioning. In the closed state of the door, the first electromagnet is turned on, and the windings of the electromagnet L1 are connected in series, the second electromagnet is de-energized. When the lock is opened, the first input of the microcontroller 3 receives a shutdown signal from the output of the access restriction system - intercom, electronic code key reader and / or electronic code lock. The microcontroller 3 command from its second output to the input of the second controller-switch 7, includes a second electromagnet, the magnetic flux of the latter directed towards each other. The electromagnets L1 and L2 are repelled from each other and, on a command from the door sensor 5 to the second input of the microcontroller 3, they are turned off by a signal supplied to the inputs of the power supply controller 6 and 7 from the first and second outputs of the microcontroller 3. The door is opened. When the door is closed, the door sensor 5 is activated. The microcontroller 3 controls the corresponding windings of the first L1 and second L2 electromagnets so that they are connected in parallel with the first 6 and second 7 controller-power switches so that they are connected in parallel and turns on the electromagnets L1 and L2. Additionally, for the same windings for the time determined by the microcontroller 3, in accordance with the door coefficient, the microcontroller connects the ionistor batteries C1 and C2, respectively, C1 - to the parallel connected windings of the first electromagnet L1, and C2 - to the parallel connected windings of the second electromagnet L2. In this case, the magnetic fluxes of the electromagnets L1 and L2 are directed towards each other. The door is braked by oncoming magnetic fields of electromagnets L1 and L2. Next, the microcontroller 3 smoothly turns off the electromagnet L2 signal from its second output. The shutdown time and the law of voltage variation on the electromagnet L2 also depends on the door coefficient. When using a door speed sensor, the time for which the first C1 and second C2 ionistor batteries are connected to the parallel windings of the electromagnets L1 and L2 is calculated by the microcontroller 3 depending on the speed of closing the door and the door coefficient. In the hold mode, the microcontroller 3 turns on the signal from its first output to the input of the first controller-power switch, the windings of the first electromagnet L1 are connected in series and connects them to the power source. At the same time, the microcontroller 3 disconnects the ionistor batteries C1 and C2 from the electromagnets L1 and L2 and turns them on to charge. The castle is in standby mode. During peak hours, when the intervals between door openings are small, the microcontroller 3 controls the charge time of the ionistor batteries C1 and C2 using the built-in timer and, when the door is opened earlier than the set charge time, about which the door sensor 5 informs the microcontroller 3, the microcontroller 3 includes an accelerated charge ionistor batteries C1 and C2. In standby mode, the microcontroller 3 cyclically polls the state of its first and third inputs - it waits for a signal to open the door and monitors the state of closing the door. In the case when the speed sensor of the door 8 is made in the form of a Hall sensor, when an door is opened unauthorized, a signal is applied to the third input of the microcontroller 3 about the application of an opening force to the door. The microcontroller 3 signal from its second output through the second controller-power switch 7 includes a second electromagnet L2, and so that the magnetic fluxes of the first L1 of the second L2 electromagnets coincide in direction, thereby increasing the door holding force. Next, the microcontroller 3 continues to poll its first and third inputs and, in the absence of signals, disconnects the second electromagnet L2 after two minutes. The lock control states are quickly displayed on the indicating module 9. If it is necessary to obtain a greater force to hold the lock with the door closed, in addition to the first L1 electromagnet, the second L2 electromagnet can also be switched on, which is determined by customer requirements and options of the microcontroller 3 program, which is entered into the microcontroller at the factory manufacturer.

 The microcontroller 3 of the control module 2 is based on the microcontroller AT89C2051. DIP - switch - brands VDM1-8 (made in Russia) or an imported analogue - EPG108A. The ionistor battery is made on the basis of K58-9B (made in Russia) or Japanese equivalent DB-5R5D105. Microcontroller programming is carried out during the intercom assembly. The output stage of the power controllers and switches is based on the K1460UD2R microcircuit manufactured by STC SIT, Bryansk.

Sources of information
1. Technical passport FBI. 677181.002 Substation for electromagnetic lock VISIT ML300 / 400, made according to the technical specifications of TU U 13503866.003-2000, NPF "Modus-N", Moscow, st. Schepkina, 58, bldg. 3, tel / fax 281-7001, http://www.domofon.ru.

 2. Technical passport for the Castle bill ZNM-12L manufactured by CJSC "Proton-Impulse", Russia, 302027 Orel, st. Leskova, 19, Fax: (0862) 41-04-69, http://www.orel.ru/straj.

3. Patent of the Russian Federation 2019661, cl. E 05 C 19/16, 06/28/1991;
4. DIP switches. http://www.bm.unicon.ru.

 5. Capacitors with a double electric layer (ionistors). OJSC Research Institute "Girikond", http://www.giricond.spb.ru.

Claims (5)

 1. A combined electromagnetic lock containing a power supply, first and second electromagnets with two windings and a lock control module, which includes a microcontroller with a control input connected to an N-section switch, where N is the number of switch sections, the door sensor, the first and the second power controller-switch with the first and second ionistor batteries connected to them, respectively, the first input of the microcontroller connected to the output of the access restriction system, the second input of the microcontroller connected to the door sensor, the first output of the microcontroller is connected to the first input of the first controller-power switch, the first, second and third outputs of which are connected respectively to the first, second and third terminals of the first electromagnet, the fourth output of the first controller-switch of power is connected to the plus terminal of the first ionistor batteries, the last negative terminal, the fourth terminal of the first electromagnet and the fifth output of the first power supply controller-switch are connected to a common wire, the second microcontroller output pa is connected to the second input of the second power switch controller, the first, second and third outputs of which are connected respectively to the first, second and third terminals of the second electromagnet, the fourth output of the second power switch controller is connected to the plus terminal of the second ionistor battery, the last terminal is negative, the fourth the output of the second electromagnet and the fifth output of the second controller - the power switch are connected to a common wire, the outputs of the power supply are connected to the corresponding power inputs of the first and second power controllers and microcontrollers, the common output of the power supply is connected to a common wire.  2. The combined electromagnetic lock according to claim 1, in which a door speed sensor and an indication module are additionally introduced, the output of the door speed sensor being connected to a third input of the microcontroller, the third output of which is connected to an input of the indication module.  3. The combined electromagnetic lock according to claim 2, in which the door speed sensor is made in the form of a Hall sensor.  4. The combined electromagnetic lock according to claim 1, in which the ionistor battery is made in the form of a battery of electrolytic capacitors.  5. The combination electromagnetic lock according to claim 1, wherein the access restriction system is an intercom, electronic code key reader and / or electronic code lock.