RU222428U1 - Early Response Lock - Google Patents

Abstract

The utility model relates to locking and security devices and can be used to protect various objects from access by unauthorized persons, monitor the state of the locking device and to provide an alarm notification in case of unauthorized movements or changes in the position of the lock bolt at the initial stage of opening the lock (for example, when trying to pick up the keys ).

A lock with an early response function contains a body, a security mechanism, at least one bolt, at least one rod configured to interact with at least one bolt when the key is turned, a magnetic contact sensor consisting of an actuator and a master block, wherein the master block The magnetic contact sensor is fixed on the lock rod, with the possibility of its movement inside the lock body, and the executive unit of the magnetic contact sensor is fixed on the lock body coaxially with the master unit of the magnetic contact sensor, with the ability to ensure the working position of the magnetic contact sensor in the extreme position of the extended bolt. At least one hole is made on the lock body with the possibility of removing through it the electrical contacts of the executive unit of the magnetic contact sensor with the possibility of connecting the electrical contacts through electrical wires to the security alarm system.

The technical result consists in simplifying the design of the device, reducing time and labor costs for installation work, increasing the reliability of the device and increasing its service life, reducing the time for transmitting an alarm when an attempt is made to open the lock (unauthorized access). 4 ill.

Description

The utility model relates to locking and security devices and can be used to protect various objects from access by unauthorized persons, monitor the state of the locking device and to provide an alarm notification in case of unauthorized movements or changes in the position of the lock bolt at the initial stage of opening the lock (for example, when trying to pick up the keys ).

State of the art

Early response locks are not special locks. Early response locks can be equipped with lock status sensors and, being built into the security system, can increase its security properties.

Locks with an early response function increase the security properties of the system and contribute to the detention of an intruder, since a signal about an attempted opening is sent to the security console already at its initial moment (before the moment the lock is opened).

The use of magnetic contact sensors (magnetic contact detectors) in locking and security devices is known from the prior art.

The well-known early response lock “SKAT” (http://classhld.ru/novinki/item/govoryashiy-zamok-skat.html), designed to restrict access of unauthorized persons to protected objects. The SKAT lock consists of a locking device (LD) and a magnetic contact detector. A magnetic contact detector consists of a reed switch and a magnet, which are enclosed in different housings. The housing with the magnet is placed in the bolt of the locking device. The locking device is mounted on the movable door leaf. The housing with the reed switch is installed opposite the magnet in the fixed frame of the door block. The outputs from the reed switch are connected by wires to the input of the object signaling device. When the charger is closed, the bolt brings the magnet installed in it as close as possible to the reed switch. In this case, the magnetic field of the magnet is closed to the reed switch, the electrical circuit is closed, and the object is taken under protection. When an attempt is made to open the charger, the bolt shifts towards opening, while the electrical circuit opens and an alarm signal is sent to the signaling device. The magnetic contact detector transmits an alarm signal already when an attempt is made to open the lock, which allows emergency services personnel to arrive at the protected object before the lock is opened. The reed switch is activated after the first half-turn of the key when opening the SKAT device from the “closed” position.

This known solution has the following disadvantages. The reed switch and the detector magnet are placed in different housings, which are installed on different parts of the door block, and it is necessary to ensure their alignment (that is, the reed switch relative to the magnet should not be displaced by more than the distance recorded in the technical specifications for the detector), which leads to increased time and labor costs for installation work when installing the lock. When using the SKAT lock, the contact surface of the reed switch body with the magnet body may become dirty, oily or damaged, which can lead to a decrease in the sensitivity of the magnetic contact detector. In addition, drilling a hole for a magnet in the bolt reduces the strength of the bolt itself and, as a result, the reliability of the locking device.

A security alarm device is known that contains a reed switch and a magnet located in the same housing, wherein the magnet is spring-loaded and has free movement relative to the reed switch within the housing, and the magnetic field lines of the magnet coincide with the axis of the reed switch and the axis of movement of the magnet, and the design of the device is designed to regulation of the gap between the reed switch and the magnet, regulation of the gap between the reed switch and the magnet is carried out using a threaded connection through which the housing and bracket are connected to each other (patent RU 103027, IPC G08B 13/00, published 03/20/2011). This security alarm device is installed using a bracket in the fixed frame of the door block of the protected object in the area of the locking device and is connected through wires to a signaling device that issues an alarm signal to the security console. If there is no force applied to the locking element of the lock, the spring is uncompressed, the magnet is removed from the reed switch, the electrical circuit is open and an alarm signal is sent to the alarm device.

The disadvantages of this technical solution are the low reliability of the design due to loss of elasticity, spring fragility, and short service life of the device. Another disadvantage of the device is that its installation in a fixed door frame requires additional installation work and requires compliance with the alignment of the security alarm device and the locking element of the lock, which leads to an increase in time and labor costs for installation work when installing a locking and security system.

A known door security alarm system contains a security alarm receiving and control device (PPKO), which includes at least one security alarm loop into which is connected at least one security alarm sensor located in the door frame in which the door is installed , equipped with at least one locking lock, which contains at least one bolt; in addition, the PPKO contains devices for arming the alarm loop, starting the entry delay time and issuing an alarm signal, while the security alarm sensor is designed as a sensor control of the extreme working position of the lock bolt (patent RU 106014, IPC G08B 13/00, published 06/27/2011).

The disadvantages of this device are the need to place alarm sensors in a groove in the door frame made under the lock bolt or in a cavity made in a metal door, that is, additional work is required to install alarm sensors, which leads to an increase in time and labor costs for installation work when installing the device , and the activation of the alarm sensor only when the lock bolt is in the extreme operating position increases the time between the start of turning the key and the issuance of an alarm signal, which in turn increases the likelihood of intruders entering the protected object. Another disadvantage of this technical solution is the need for programming the alarm signal.

An electromagnetic lock with built-in sensors is known (https://os-info.ru/kontrol-dostupa/elektromagnitnye-zamki.html, date of access: 03/27/2023), in which a permanent magnet creating a control field (magnetic part of the sensor) is built in into the lock armature, and the reed switch (contact part of the sensor) is built into the lock body. The gap between the magnet and the reed switch is determined by the position of the armature. Such locks are based on the principle of permanently keeping the door closed.

The disadvantages of an electromagnetic lock with built-in sensors include the following. Unauthorized opening of the lock when there is no power supply; the use of high-energy-intensive magnets made of special alloys in locks (for example, the KS37 alloy based on cobalt and samarium); the need to select a lock based on its holding force, depending on the type of door (the higher the holding force, the larger the geometric dimensions of the lock, the consumption of electrical energy, and the cost of the lock); installing a lock on the door determines the installation of the sensor on the door frame while maintaining the accuracy of placement of the magnetic part of the sensor in relation to the contact part of the sensor, including the gap between the door and the door frame, which increases the time and labor costs for installation work; malfunction of the lock when the gap between the control magnet and the reed switch itself increases due to displacement of the door leaf relative to the door frame, settlement of the building foundation, etc.; in some cases, a malfunction of the lock is observed when the coercive force of the magnet decreases due to its aging, exposure to elevated temperatures, large temperature changes during the day, large differences in temperatures indoors and outdoors (especially in winter), increased ambient humidity or insufficient energy intensity magnet material; When installing cylindrical sensors in metal doors, labor intensity increases due to the need to drill mounting holes of increased diameter; in addition, difficulty arises in combining the magnetic and contact parts of the sensor.

The closest technical solution, chosen as a prototype, is a lock containing a body with a guide, a key, a security mechanism mounted on the body, a bolt placed in the guide with the possibility of authorized movement by means of a key when interacting with the security mechanism and the bolt, and the bolt , the security mechanism and the housing contain or form movable parts of the lock, wherein at least one of the movable parts of the lock is formed in the form of a stand for the movement sensor or its component, which is fixed or which is fixed to the movable part (see patent RU 69128 , IPC E05B 63/00, published 12/10/2007).

The disadvantages of this solution are the complexity of the design of the lock, in particular its moving part, formed in the shape of a stand for a displacement sensor or a component of the latter, an increase in time and labor costs for installation work when installing the lock, since it is necessary to additionally place a recording element of the security system outside the lock, the complexity of the technical implementation of the solution in the case of placing a displacement sensor - a reed switch - on the moving part of the lock.

The technical task is to simplify the design of the lock, reduce the time and labor costs for installation work when installing the lock, increase the reliability of the device, reduce the time it takes to transmit an alarm when an attempt is made to open the lock, and increase the service life of the device.

The essence of the technical solution is that a lock with an early response function contains a body, a security mechanism, at least one bolt, at least one rod configured to interact with at least one bolt when turning the key, a magnetic contact sensor consisting of executive and master blocks, wherein the master block of the magnetic contact sensor is mounted on the lock rod, with the possibility of its movement inside the lock body, and the executive unit of the magnetic contact sensor is fixed on the lock body coaxially with the master block of the magnetic contact sensor, with the ability to ensure the working position of the magnetic contact sensor in the extreme position of the extended bolt , at least one hole is made on the lock body with the possibility of removing through it the electrical contacts of the executive unit of the magnetic contact sensor with the possibility of connecting the electrical contacts through electrical wires to the security alarm system.

The executive unit of a magnetic contact sensor (magnetic contact detector) is an integral, structurally complete part of the detector, the main functional element of which is magnetically controlled contacts placed in the block housing made of non-magnetic material. The master block of the magnetic contact sensor is an integral, structurally complete part of the detector, generating a magnetic field with specified parameters, designed to control the corresponding magnetically controlled contacts of the executive unit.

The lock body is composite, i.e. consisting of two or more parts that are fixedly connected to each other. The body can be made of any structurally strong material, preferably metal or plastic, including carbon fiber and fiberglass.

The technical result of the claimed technical solution is as follows. The proposed lock with an early response function has a simplified design due to the absence of modifications to the moving parts of the lock. When installing a lock, time and labor costs for installation work are reduced due to the fact that all parts of the magnetic contact sensor are included in the lock design; there is no additional work to install the sensor executive unit (sensors) in the door frame (outside the lock). The reliability of the device operation increases and its service life increases, since the sensitivity of the magnetic contact detector is preserved due to the absence of external contamination of the sensor blocks and the presence of their protection from external damage, which is ensured by placing the sensor blocks inside the lock body, and also the alignment of the blocks is maintained and the required distance between them is ensured due to the absence of influence of external factors (for example, sagging of the door leaf, subsidence of the foundation) and due to the rigidity and stability of the structure of the lock itself. In addition, the time for transmitting an alarm notification is reduced when an attempt is made to open the lock (unauthorized access) by reducing the response distance of the magnetic contact sensor when the master and executive blocks move away from each other (the alarm notification is generated when the blocks are slightly removed from each other, since the design of the lock allows set the minimum detector response distance).

The essence of the technical solution is illustrated by figures 1, 2, 3 and 4. In FIG. Figure 1 schematically shows a lock with an early response function with one rod and the extreme position of the extended bolt (the lock is closed, the door is locked), which ensures the working position of the magnetic contact sensor. In fig. 2 schematically shows a lock with an early response function with one rod and the position of the bolt pushed inside the lock body (the lock is open); FIG. 3 schematically shows a general view of a lock with an early response function with two rods; FIG. Figure 4 shows a general diagram of the installation of a lock with an early response function with the connection of electrical contacts to the security alarm system.

A lock with an early response function (Fig. 1, 2, 3) contains a housing 1, a security mechanism (not shown), at least one bolt 2, at least one rod 3, configured to interact with at least one bolt 2 when turning the key (not shown). The lock also contains a magnetic contact sensor, consisting of an executive unit 5 and a master unit 4. The master unit 4 of the magnetic contact sensor is mounted on the lock rod 3, with the possibility of its movement inside the lock body 1, and the executive unit 5 of the magnetic contact sensor is mounted on the lock body 1 coaxially with the master unit 4 magnetic contact sensor, with the ability to ensure the working position of the magnetic contact sensor at the extreme position of the extended bolt 2 (Fig. 1). The lock body 1 has at least one hole 7 with the ability to output electrical contacts 6 of the executive unit 5 of the magnetic contact sensor through it with the ability to connect the electrical contacts 6 through electrical wires to the security alarm system (not shown).

The operating principle of a lock with an early response function is as follows.

Lock with one rod (Fig. 1, 2).

When closing the lock, a key (not shown) is inserted into the hole 8, rotated, extending the bolt 2 to its extreme position, while the rod 3, on which the master block 4 of the magnetic contact sensor is attached, moves in the same direction with the bolt 2, the master block 4 approaches to the executive unit 5 of the magnetic contact sensor, the magnetic field of the master unit 4 acts on the executive unit 5, and the electrical circuit is closed. Magnetic contact sensor in working position (Fig. 1). By means of electrical contacts 6, output through hole 7 in the lock body 1 and connected by electrical wires (Fig. 4) to the security alarm system (not shown), a signal is sent to arm the object.

When the lock is opened (including during unauthorized movements or changes in the position of the bolt 2 of the lock, for example, when trying to pick up keys), the bolt 2 moves towards the lock body 1, while the rod 3, on which the master block 4 of the magnetic contact sensor is fixed, moves to one side with the bolt 2, the master unit 4 moves away from the executive unit 5 of the magnetic contact sensor, the influence of the magnetic field of the master unit 4 on the executive unit 5 stops, and the electrical circuit opens. By means of electrical contacts 6, output through hole 7 in the lock body 1 and connected by electrical wires (Fig. 4) to the security alarm system (not shown), an alarm signal is given when the lock is opened or an attempt is made to open the lock. When authorized access to a security facility occurs, the alarm is cleared using known methods (a special code is dialed, a call is made to the security service, etc.).

Lock with two rods (Fig. 3).

When closing or opening the lock, a key (not shown) is inserted into the hole 8, the key is turned, respectively, extending the bolt 2 to its extreme position or moving the bolt to the lock body 1, while the rod 3, on which the master block 4 of the magnetic contact sensor is fixed, rises upward accordingly or goes down, the setting unit 4 accordingly approaches or moves away from the executive unit 5 of the magnetic contact sensor, respectively, the effect of the magnetic field on the executive unit 5 occurs or stops, the electrical circuit is closed or opened, respectively. By means of electrical contacts 6, output through hole 7 in the lock body 1 and connected through electrical wires to the security alarm system (not shown), a signal is given to arm the object (when closing the lock) or an alarm signal (when opening the lock or attempting to open the lock ).

The lock with the early response function has a simple and reliable design and does not require programming or special knowledge to install it. The proposed lock is universal for all types of doors; according to the design of the body, it can be mortise or overhead. According to the type of design of the security mechanism, it can be cylinder or lever.

The performance and effectiveness of the technical solution is confirmed by a test report and a certificate of conformity. Positive test results confirmed the possibility of its practical application.

Claims (1)

A lock with an early response function, comprising a housing, a security mechanism, at least one bolt, at least one rod configured to interact with at least one bolt when turning the key, characterized in that the lock contains a magnetic contact sensor consisting of an actuator and master blocks, wherein the master block of the magnetic contact sensor is fixed on the lock rod, with the possibility of its movement inside the lock body, and the executive unit of the magnetic contact sensor is fixed on the lock body coaxially with the master block of the magnetic contact sensor, with the ability to ensure the working position of the magnetic contact sensor in the extreme position of the extended bolt, At least one hole is made on the lock body with the possibility of bringing out through it the electrical contacts of the executive unit of the magnetic contact sensor with the possibility of connecting the electrical contacts through electrical wires to the security alarm system.

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