RU2078185C1 - Electronic control code device for door lock - Google Patents

Abstract

FIELD: shackle-lock production engineering. SUBSTANCE: device has code-made key base and additional bodies of lock made so that last is installed in slot made in first body and fixed by straps. Locking reliability is achieved by detent member action to provide efficient fixing of collar and snap spring lock at advanced position which is controlled by electronic control block as well as door lock knob operation from home side of door. Detent member remote control is made on basis of electric magnet actuator using. Additional body of device provides convenience use of device construction by electronic control block placing in with key slot and comfortable using owing to code-key slot presence as well as code-key easy changing. EFFECT: better workability, more comfortable using. 10 cl, 4 dwg

Description

 The invention relates to locking devices, specifically to electronic combination door locks with alarm, and can be used to protect various objects from unauthorized persons.

 Known electronic combination lock (see German patent N 3606620 E 05 B 47/00, 1987) with an electronic memory device for storing information about the key code with a latch, actuated from the inside of the door with a handle, and the outside of the deadbolt into the locking strip and is pulled out of it by means of an electrically controlled locking mechanism, driven by an electric motor located in the lock case. The operation of the locking mechanism depends on the information read from the key by the reader. Depending on the orientation of the key, the information read from it by the reading device determines the direction of rotation of the electric motor, which through the rack and pinion drives the bolt into the locking strip or returns it to its original position.

The disadvantage of this castle are:
a) locking the bolt in the extended position through the gear transmission, which causes a decrease in the reliability of the lock structure due to the possibility of damage to the transmission mechanism and opening the lock after applying force to the end surface of the bolt;
b) the drive of the locking mechanism is electric, which leads to overload or damage to the engine and locking mechanism during the extension of the bolt when the door is not fully closed or if there is a foreign object in the locking strip.

 Closest to the technical nature of the present invention is an electronic door lock (see German application N 3707284 E 05 B 47/00, 1988), containing an electronic code key, a latch located in the lock case, engaging with the locking plate, a bolt introduced by means of a transmission mechanism to the locking strip, a reader for obtaining information about the code of the electronic code key, a control circuit for the locking mechanism depending on the read code information, and the bolt interacts with a locking stop a thorax that locks the bolt at least in its final position, the first spring, which is part of the locking mechanism and interacts with the bolt, a guide pin that is connected to the bolt, the second spring, which brings the stopper into the locking engagement with the bolt, a lever connected to a handle on the inside of the door, one shoulder of which interacts with the latch, and the second shoulder interacts with the bolt through the transmission mechanism and the guide pin to ensure that the latch and the bolt are fully moved backward, while the axis of rotation of the lever is located between the latch and the bolt, at least one sensor designed to determine the position of the bolt relative to the lock case and connected to the signal device, the sensors being made as magnetically sensitive elements.

The disadvantages of this castle are:
a) the inability to replace the key without making changes to the lock;
b) the lack of a handle on the outside of the door;
c) the absence of a latch lock in engagement with the locking bar position;
d) the presence of a large number of sensors, which causes a decrease in the reliability of locking the door, ease of use, complicating the design and electrical circuit.

 The technical result of the invention increases the reliability of locking and reliability of the structure, simplifying the design, expanding the functionality, improving ease of use.

 The result is achieved in that in the proposed electronic code lock containing an electronic code key, a reader, a signal device associated with a control circuit with a storage device, a locking strip, a housing in which a latch and a bolt are engaged, which engage with the locking strip, the first a lever connected to a handle on the inside of the door and interacting with a latch, a second lever interacting with the first lever and connected via a guide pin to the bolt, the first spring, acting with a deadbolt, a stopper that locks the deadbolt in its extreme positions, a second spring that brings the stopper into the locking clutch with the deadbolt, a sensor connected to the signal device and determines the position of the deadbolt relative to the lock case, a handle mounted on the rotation axis of the first lever, and the locking stopper is made separately controlled by a control circuit via an electromechanical drive and a handle on the inside of the door through a mechanism for manually unlocking the bolt, which reads the device The device, a control circuit with a storage device and a signal device are installed in an additional housing located in the slot of the lock housing and rigidly fixed to the outer cover. The engagement of the first and second levers is gear, the first lever is made in the form of a gear wheel with an eccentric for interacting with the latch, the second lever is made in the form of a gear, the axis of rotation of the gear is located on the bolt movement line, the guide pin is mounted on the gear, coupled to the bolt by an oval the groove on the bolt and is spring-loaded relative to the bolt or lock case in the direction to the upper edge of the groove by the first spring to ensure the bolt is fixed in its extreme positions, in which the guide th pin pinion and the rotation axis are arranged along a line moving pins.

 The locking stopper is made in the form of a slider mounted with the possibility of free movement along its axis in a guide fixed in the lock housing and interacting with slots on the crossbar.

 The mechanism for manual unlocking of the crossbar is made in the form of two spring-loaded pressure washers movably connected to the axis of rotation of the gear wheel and mounted in the lock case and interacting around the outer circumference with the corresponding inclined surfaces of the third lever, the other arm of which interacts with the stopper.

 The stopper drive from the control circuit is designed as an electromagnet mounted in the lock case with a spring-loaded armature plate, the free end of which is in movable connection with the stopper.

 The gear wheel is equipped with an eccentric that is able to interact with the outer thrust surface of the latch shank in its extended position.

 A switching device is introduced into the control circuit, located in the lock case and made in the form of a push-button action button without fixing the position, with the possibility of switching the circuit to overwrite mode.

 The axis of rotation of the gear wheel is made in the form of two rods of square cross section with ledges at opposite ends, the lateral faces of the rods being movably connected to the gear wheel, and the end surfaces of the ledges interact with the tabs of the manual release mechanism of the bolt located on the inner circumference of the pressure washers.

 These features of the invention represent its differences from the prototype and determine the novelty of the proposal; these differences are significant, because they provide the achievement of the technical result reflected in the technical task, and are absent in the known technical solutions with the same effect.

 In FIG. 1 shows a lock in axonometric projection with the cover removed; in FIG. 2 the lock case with the cover removed in the closed state, the latch and the bolt are locked; in FIG. 3 the same in the open state; in FIG. 4 is a section AA in FIG. 3.

 The lock consists of a lock housing 1, a reader housing 2 located in a slot of the lock housing 1 and rigidly fixed on the inner side of the outer lining 3, a code key 4, an external handle 5, mounted in the outer lining 3 with the possibility of rotation around its axis, the inner handle 6, mounted in an inner plate (not shown) with the possibility of rotation around its axis and translational movement along the axis.

 Inside the lock case (Fig. 2) there is a gear 7, a gear 8 engaged with it, a latch 9 mounted on the guide 10, the bolt 11 with the possibility of movement relative to the guides 12 and 13, an electromagnet 14, a stopper 15 freely mounted in the guides 12 and 16, a mechanism for manually unlocking the deadbolt 17, located on the hub of the gear wheel, key rewrite key 18, a magnetically sensitive element (hereinafter sensor) 19, a permanent magnet 20, mounted on the bolt 11.

 A reader 21 is located in the housing 2 of the reader (Fig. 1), which receives information about the key code and is connected to a control circuit 22, which provides a control signal to an electromagnet 14, a signal device 23, which provides information about the position of the bolt to the control circuit.

 On the outside of the door, there is a hole 24 (in this case, rectangular) for the key to be inserted in the reader housing.

 The outer 5 and inner 6 handles are rigidly connected to them by rods 25, 25a, shaped (in this case square) section with ledges 26, which are in cooperation with the tabs 27 of the pressure plate 28 of the mechanism 17 for manual unlocking of the crossbar 11.

 The latch 9 (Fig. 2) contains a return spring 29 installed between the head 30 of the latch and the guide 10, and the inner 31 and outer 32 thrust surfaces on the shank 33.

 The gear 7 has an eccentric 34 and 35, respectively interacting with the abutment surfaces 31 and 32 of the latch 9. In the hub of the gear a central shaped hole 36 (Fig. 4) is also square for connecting with rods 25, 25a, as well as longitudinal grooves 37 in which are placed the tabs 27 of the pressure plate 28 of the unlocking mechanism 17.

 The gear 8 (Fig. 2) has a guide pin 38 eccentrically fixed on it, located in the oval groove 39 of the bolt 11.

 On the upper longitudinal side of the crossbar 11, slots 40, 41 are made to accommodate the working end of the stopper 15. The crossbar 11 is equipped with a spring 42 mounted on an axle 43 rigidly mounted on the crossbar with the possibility of interaction with the guide pin 38 so that in the extreme positions of the crossbar the guide pin and the axis of rotation of the gear 8 are located along the line of movement of the bolt.

 The electromagnet 14 has a spring 45 anchor 45, made in the form of a plate, the free end of which is in movable connection with the stopper 15.

 The mechanism for manually unlocking the bolt 17 (Fig. 4) contains mounted on the hub of the gear 7 pressure washers 28, the tabs 27 of which are located in the longitudinal grooves 37 of the hub. A stop ring 46 is located between the washers concentrically to the hub, which limits the stroke of the pressure washer, and a spacer spring 47. The pivot arm 49 interacts with the outer edges of the washers 48, the other arm 50 of which is in movable connection with the stopper 15 (Fig. 2).

 The proposed castle operates as follows. Before starting the operation of the lock with the door open, insert the code key 4 into the groove 51 of the outer cover 3 and then into the internal cavity 24 of the body of the reading device 2 until it stops, briefly press the button 18 for rewriting the key code in the body 1 of the lock and remove the code key back. At the same time, its code is read from the key and recorded in the encoder of the reader 21, after which the lock is ready for operation.

 The lock can be locked and unlocked both from the outside by means of a code key 4 with the subsequent rotation of the external handle 5, and from the inside by pressing and rotating the internal handle 6 (without using the code key 4).

 In FIG. 2, the door lock is shown in the closed state, in which the latch 9 and the bolt 11 are extended and engaged with the locking plate 52. The latch 9 is locked by an eccentric 35 of the gear 7, which abuts against the rear surface 32 of the latch 9. The bolt 11, as well as the gear 8 and the gear 7 is blocked by a stopper 15 located in the slot 41 of the bolt. Moreover, the bolt is protected from forcibly moving inwardly by a guide pin 38 located in the bolt groove 39.

 To open the door from the outside, briefly insert and remove the code key 4 from the groove 51 of the outer lining 3, while the key code is read by the reading device 21 and the read code is compared with the encoder code. When they coincide, the control circuit 22 generates a control signal that is supplied to the electromagnet 14. The electromagnet, overcoming the resistance of the spring 44, is activated, and the armature 45, moving, disengages the stopper 15 from engagement with the bolt 11. The duration of the control signal is set equal to the lock opening time.

 Then rotate the outer handle 5 in a clockwise direction, while the force through the rod 25 is transmitted to the gear 7, then to the gear 8 which is meshed with it.

 The guide pin 38, fixed on the gear, overcoming the torsion resistance of the spring 42 and moving down along the oval groove 39 of the bolt 11, draws the bolt into the lock. Unwound, the spring 42 the second half of the crossbar accelerates its movement until it locks in the fully retracted position. In this case, the stopper 15 under the action of the spring 44 lowers into the slot 40 of the bolt 11, blocking the bolt in this position, and the sensor 19 is also activated by the magnetic field of the magnet 20. The signal from the sensor is transmitted to the signal device 23, from the output of which information about the position of the bolt enters the control circuit 22 to generate a control signal. The control signal is an alarm during forced movement of a deadbolt normally extended from the lock housing without using a code key and can be used to indicate an alarm situation. In this position, the door remains closed extended latch 9.

 With further rotation of the handle 5, the eccentric 34 of the gear 7 acts on the thrust surface 31 of the latch 9 and pushes it into the lock case, overcoming the resistance of the return spring 29.

 To close the door from the outside, you must also insert and remove the code key. When the key codes and the encoder match, the bolt is unlocked and the outer handle 5 is rotated counterclockwise through the transmission mechanism, the bolt 11 is extended from the lock housing 1 along the guides 12 and 13 into the hole of the locking bar 52. The spring 42 locks the bolt in the fully extended position. The stopper 15 under the action of the spring 44 is lowered into the slot 41 of the crossbar 11, blocking the crossbar in this position. The eccentric 35 of the gear 7 acts on the rear surface 32 of the latch 9, preventing it from moving inside the lock housing 1. The sensor 19 due to the removal of the magnet 20 is returned to its original state.

 To open the door from the inside, press the inner handle 6, through the stem 25, and the force is transmitted to the tabs 27 of the pressure washer 28 of the mechanism 17 for manually unlocking the bolt.

 The washer 28, overcoming the resistance of the spacer spring 47, slides with its outer edge along the inclined surface 48 of the upper arm of the lever 49, thereby turning the lever around its axis. In this case, the lower shoulder 50 of the lever 49 disengages the stopper 15 from engagement with the slot 41 of the bolt 11, disabling the locking of the bolt.

 After pressing, rotate the inner handle 6 counterclockwise, which leads to the retraction of the bolt 11 into the housing 1 and unlocking the lock.

 The door is locked from the inside in the same way by pressing and then rotating the inner handle 6 clockwise until the cam eccentric 35 of the gear 7 stops in the rear contact surface 32 of the latch 9.

 Fixing the bolt 11 in the position in which the guide pin 38 and the axis of rotation of the gear 8 are located along the line of movement of the bolt, allows you to release the stopper 15 and the gear 7, 8 from the action of an external force applied to the end surface of the bolt.

 Locking the latch 9 in the closed state of the lock by the eccentric 35 of the gear 7 in addition to the locked deadbolt improves the reliability of locking the lock.

 The manual drive of the locking mechanism eliminates its damage during the extension of the bolt when the door is not fully closed or there is a foreign object in the locking strip, as well as eliminating the need to install sensors that determine the relative position of the lock and the locking strip, which increases reliability and simplifies the design and electrical circuit of the lock .

 The presence of a button to rewrite the key code 18 allows you to quickly transcode the lock, without removing it from the door, to a new code key if necessary.

 Installing a handle identical to the inside handle on the outside of the door eliminates the need to install any additional handle needed to open the door.

 In FIG. Figure 1-3 shows a lock for left doors opening outwards. To install the lock in the right-hand doors that open inward, it is enough to remove the latch 9 by flipping the latch 9 with the inclined surface of the head 30 in the opposite direction.

 The presence of two pressure washers 28 and two symmetrically located bevels 48 on the lever 49 allows you to install the lock on both the right and left doors, you only need to choose the length of the rods 25 and 25a before touching the ledges 26 with the tabs 27 of the washers 28.

Claims (10)

 1. An electronic code door device comprising an electronic code key and a lock having a reader, a signal device associated with a control circuit with a storage device, a locking strip, a housing in which a latch and a bolt are engaged, which engage with the locking strip, the first lever connected to a handle on the inside of the door and interacting with the latch, a second lever interacting with the first lever and connected via a guide pin to the bolt, the first spring interacting with the rig by a lock, a stopper installed with the possibility of locking the deadbolt in its extreme positions, a second spring, which brings the stopper into the locking engagement with the deadbolt, a sensor connected to the signal device and determining the position of the deadbolt relative to the lock case, characterized in that from the outside of the door on the axis of rotation of the first lever, a handle is installed, the locking stop is connected via an electromechanical drive with a control circuit and a handle on the inside of the door through a mechanism for manually unlocking the crossbar, which senses roystvo control circuit with a memory and an alarm device installed in the additional housing, which is located in the slot and the lock housing rigidly secured to the outer cover plate.  2. The device according to p. 1, characterized in that the interaction of the first and second levers is carried out by means of a gear that transmits rotation in both directions.  3. The device according to claim 1, characterized in that the first lever is made in the form of a gear wheel with an eccentric for interacting with the latch, the second lever is made in the form of a gear, the axis of rotation of the gear is located on the bolt movement line, the guide pin is mounted on the gear, coupled to the bolt by means of an oval groove on the bolt and is spring-loaded relative to the bolt or lock case in the direction to the upper edge of the groove by the first spring to secure the bolt in its extreme positions, in which the guide pin and the axis of rotation of the gears are located along the line of movement of the crossbar.  4. The device according to claim 1, characterized in that the stopper is made in the form of a slider mounted with the possibility of free movement along its axis in a guide fixed in the lock housing and interacting with slots on the crossbar.  5. The device according to claim 1, characterized in that the mechanism for manually unlocking the deadbolt is made in the form of opposed mounted in the lock case, movably connected to the axis of rotation of the gear wheel of two spring-loaded pressure washers interacting around the outer circumference with the corresponding inclined surfaces of the third lever, the other shoulder which interacts with the stopper.  6. The device according to claims 1 and 4, characterized in that the stopper drive from the control circuit is made in the form of an electromagnet with a spring-loaded armature plate, the free end of which is in movable connection with the stopper.  7. The device according to claim 3, characterized in that the gear is made with an eccentric having the ability to interact with the outer thrust surface of the latch shank in its extended position.  8. The device according to claim 1, characterized in that the control circuit includes a switching device with the ability to switch the circuit to overwrite mode.  9. The device according to claim 8, characterized in that the switching device is located in the lock housing and is made in the form of a push-button action without fixing the position.  10. The device according to PP.1 to 7, characterized in that the axis of rotation of the gear wheel is made in the form of two rods of square cross section with ledges at opposite ends, and the side faces of the rods are movably connected to the gear wheel, and the end surfaces of the ledges interact with the manual unlocking mechanism crossbar.

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