RU2030534C1 - Lock cylinder mechanism - Google Patents

Abstract

FIELD: cylinder locks. SUBSTANCE: locking pins are made of magnetic materials with properties of permanent magnets and coercive force is at least 1200 Oe. Turning cylinder has blind radial holes for interaction with pins. Radial holes are coaxial with body radial holes in which locking pins are accommodated. Locking pins are spring-loaded with compression springs. Turning cylinder has passage for key whose body core has flush-mounted members of same magnetic material with properties of permanent magnet. EFFECT: higher efficiency. 2 dwg

Description

 The invention relates to locking devices, in particular to cylinder locks for locking doors of residential, industrial, warehouse and safes.

 Closest to the proposed is a magnetic cylinder lock mechanism comprising a housing with central and radial holes and a rotary cylinder installed in the central hole of the housing with a key channel and radial holes coaxial with the radial holes of the housing, while all holes in the rotary cylinder are blind from the channel side for the key. A magnetic element is rigidly fixed in each radial hole of the body, and in each hole of the rotary cylinder coaxial to it, a movable (sliding in the hole) composite locking pin is installed, consisting of magnetic and non-magnetic elements and moving during magnetic interaction or with a magnetic element installed in the body, or with magnetic elements in the key body when installing it in the channel for the key of the rotary cylinder. However, for the failure-free operation of such a locking mechanism, it is necessary, in particular, that the force of magnetic interaction between the magnetic element in the form of a key and the coaxial magnetic element of the locking pin be greater than the magnetic interaction between it and the magnetic element coaxial to it in the housing. However, such a cylinder mechanism is too complex in design - it has three interacting magnetic elements with different levels of magnetic interaction between them, this leads to the need for unequal stringent requirements on the properties of the magnetic material of various elements of the lock, which reduces the reliability (reliability) of its operation.

 The purpose of the invention is to increase the reliability of the cylinder mechanism of the lock by simplifying its design without compromising privacy.

 This goal is achieved by the fact that in the cylinder mechanism of the lock containing the housing with central and radial holes, a rotary cylinder installed in the central hole of the housing with a key channel and blind radial holes on the side of this channel, spring-loaded locking pins are made of any magnetic material having a coercive not less than 1200 E.

 The new features, together with the known ones, make it possible to achieve the objectives of the invention, since a simplification of the design, leading to increased reliability, is achieved by reducing the number of interacting magnetic elements (two instead of three in the prototype) and choosing the same magnetic material for the manufacture of the locking pin (and, accordingly, the magnetic key element) with the properties of a permanent magnet with a coercive force of at least 1200 E.

 In FIG. 1 shows a cylinder lock mechanism in a closed position; in FIG. 2 - the same, in the open position.

 The cylindrical lock mechanism comprises a housing 1 with a central through hole and through radial holes 7. In the central hole of the housing 1 there is a rotary cylinder 2 with a channel 3 for the key 4 and blind radial holes 5, which are cylindrical recesses coaxially aligned with the through radial holes 7 in casing 1. In the through radial holes 7 of the casing 1, compression springs 8 and locking pins 6 are installed, the end parts of which facing the rotary cylinder 2 can either be placed either in the blind radial holes 5 of the rotary cylinder 2 when the cylinder mechanism is closed (see Fig. 1), or the locking pins 6 are completely located in the through radial holes 7 of the housing 1 when the cylinder mechanism is open (see Fig. 2). The locking pins 6 are spring-loaded with compression springs 8, which are fixed either with plugs or with a casing 9, worn on the housing 1 during assembly of the lock mechanism. The locking pins 6 are made of magnetic material with the properties of a permanent magnet with a coercive force of at least 1200 Oe and are installed during assembly of the mechanism so that the ends of the locking pins 6 and the magnetic elements 10 in the core body of the key 4 made on the same axis are made of the same magnetic material with the properties of a permanent magnet, were directed to each other by the same magnetic poles (see Fig. 2). The housing 1, the rotary cylinder 2, the key 4 and the springs 8 are made of non-magnetic material.

 The cylinder lock mechanism operates as follows.

 In the closed position (see Fig. 1), the rotary cylinder 2 is locked from rotation by locking pins 6, the end parts of which are facing the rotary cylinder 2, under the action of springs 8, enter the blind radial holes 5 of the rotary cylinder 2 (the key has been removed from the lock). To translate the cylinder mechanism of the lock into the open position, the key 4 is inserted into the channel for the key 3 until it stops. In this case, the ends of each locking pin 6 of the lock mechanism and the key element 10 coaxial with it turn out to be directed towards each other by the same magnetic poles (see Fig. 2). Under the action of the magnetic repulsion force, the locking pins 6 compress the springs 8 and exit the blind holes of the rotary cylinder 2, unlocking the lock mechanism, after which the key 4 can be rotated and the lock will open.

 The positive effect of using the invention is to increase the reliability of locking and simplify the design of the cylinder mechanism of the lock.

Claims (1)

 A LOCK CYLINDER MECHANISM, comprising a housing with central and radial holes, a rotary cylinder installed in the central hole of the housing with a key channel and radial holes made blind from the key channel side and coaxially with the radial holes of the housing, spring-loaded locking magnetic pins installed in radial holes housing with the possibility of placement in the corresponding radial holes of the rotary cylinder, characterized in that the locking pins are made of material, mask which coercive force at least 1200 E.

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