RU2118435C1 - Cylindrical mechanism of lock - Google Patents

Abstract

FIELD: locking devices. SUBSTANCE: cylindrical mechanism of lock with strip-like detents increases secrecy of lock. Located in lock body is cylinder with passage for key with possible turning of cylinder. Strip-like detents are in contact with each other. Extreme strip-like detents are in contact with cylinder and/or with lock body. Made in internal surface of body are two longitudinal grooves which are intended for interaction with strip-like detents. Key is of flat type. Passage for key in cylinder is of through type. Cylinder is provided with flange having slot for key. Two longitudinal grooves in internal surface of body are located against passage for key. Strip-like detents are made in the form of rings which are arranged around cylinder with air gaps which separate rings from body and from cylinder. Each ring is provided with two coding protrusions which are located against longitudinal grooves in internal surface of body. Lengths of coding protrusions are determined by code. Cylinder is braked from turning relative to rings. Flat-type key is provided with stop for fixing its position and in its working part it has constant width which is equal to internal diameter of rings. EFFECT: higher efficiency. 1 cl, 4 dwg

Description

 The invention relates to locking devices and can be used in locks to protect various objects.

 A cylinder lock mechanism with plate delays is known, comprising a core with rotary delays and a turnkey channel mounted in the housing with the possibility of rotation, two grooves are made in the housing on its inner surface parallel to the core axis for interaction with delays, and the key in its working part has a constant thickness equal to the width of the keyway in the delays, characterized in that the core is made in the form of two elements formed by the section of the cylinder by a plane parallel to its longitudinal axis, and tightly fastened one to the other by two disks located coaxially with these elements and fixed at their ends, while a cavity is formed between the cylinder elements, there are delays in contact with one another, and the outermost ones in contact with the cylinder disks, a turnkey channel made in one element of the cylinder, and the grooves in the delays divide them into equal parts (patent N 2072203 from 01.20.97).

 The well-known cylinder lock mechanism adopted as a prototype.

 The invention is aimed at increasing the secrecy of the known cylinder mechanism of the lock.

 According to the invention, in the cylinder mechanism of the lock with plate delays, comprising a cylinder installed in the housing with a turnkey channel with the possibility of turning the cylinder, plate delays that contact one another and the extreme contacts with the cylinder and / or with the housing, in the housing on its inner surface made two longitudinal grooves for interacting with delays, a wrench, the essence of the invention lies in the fact that the turnkey channel is made in the cylinder through, the cylinder is equipped with a flange in which there is no key slot, two longitudinal grooves on the inner surface of the housing are opposite the turnkey channel, and plate delays are made in the form of rings that are placed around the cylinder with air gaps separating the rings from the housing and from the cylinder, while the rings have two code ledges , which are located opposite the longitudinal grooves on the inner surface of the housing and have lengths determined by the code, the cylinder is inhibited from its rotation relative to the rings, and the plate wrench is equipped with a lock of its position in its working part has a constant width equal to the inner diameter of the rings.

 In FIG. 1 shows a cylinder lock mechanism, front view; in FIG. 2 is a section AA in FIG. one; in FIG. 3 - section BB in FIG. 2; in FIG. 4 - the key to the cylinder lock mechanism.

 A cylinder (core) 2 is placed in the housing 1, in which a through channel 3 for the key is made through its diameter D. The cylinder is equipped with a flange 4, in which a slot 5 for the key is made. In the housing on its inner surface opposite the channel 3, two longitudinal grooves 6 and 7 are made, parallel to the axis of the cylinder and designed to interact with delays. The delays are made in the form of rings 8, which are placed around the cylinder and opposite the grooves 6 and 7, each have two code protrusions 11 and 12 of a and B length, respectively, while the rings are separated from the cylinder by an air gap 10 of length K, and from the body by an air gap 9 same length "K". The cylinder is inhibited from turning relative to the rings 8, for which the cylinder is cut off on two sides along chords parallel to channel 3, and the rings are made in the form of disks with internal cutouts in the shape of a cylinder and with a gap 10 on both sides opposite channel 3, due to which rings 8 on the one hand, they do not have the ability to rotate around the cylinder (and the cylinder does not have the ability to rotate around the rings 8), and on the other hand they have the ability to move along the channel 3 in both directions at distances K equal to the size of the gap 10, and do not have the ability to move to be in any other directions. All adjacent rings are in contact with one another, and the extreme rings are in contact with flange 4 and with the housing.

In a closed lock, all the rings coincide with each other (are not offset relative to each other) and are placed symmetrically relative to the horizontal axis 0-0, while the code protrusions 11 and 12 of each of the rings can have different lengths a and b, and with respect to channels 6 and 7 occupy three positions:
- the first position, in which a> c, due to which the protrusion 11 enters the groove 6 by a distance α, separated by the code of this ring 8, and the protrusion 12 deviates from the groove 7 by the same distance α;
- the second position, in which a <b, due to which the protrusion 12 enters the groove 7 by a distance α, determined by the code of this ring 8, and the protrusion 11 deviates from the groove 6 by the same distance α.

 - the third neutral position, in which a = c, due to which the protrusions 11 and 12 do not fit into any of these grooves, and when the rings are moved to one or the other side, they enter one of these grooves and brake the cylinder from turning it.

 Rings 8, the code protrusions 11 and 12 of which occupy the first two positions, are active rings, and rings 8, the code protrusions of which occupy the third neutral position, are passive rings.

 In all the three positions listed above, for each code ledge 11 or 12, the value of α can vary from zero to K, and in all cases the equality a + b = 2K is satisfied.

The working part of the key includes two segments:
- the first segment of length l ₁ , equal to the thickness of the ring 8, is symmetrical about the horizontal axis 0-0 and is intended for encoding a cylinder mechanism, carried out in the process of removing the key from channel 3;
- the second segment of length l _{2 is} asymmetric with respect to the axis 0-0 and is intended for decoding the cylinder mechanism, which is carried out in the process of entering the key into channel 3.

 The slot 5 for the key in the flange 4 has a length equal to D + 4K.

 The key to the cylinder mechanism of the lock is made of a plate having a width equal to D + 4K, in the plate for each of the rings 8 on both sides of the plate a cut is made, the sum of the lengths of which is 2K, due to which the plate has a zigzag shape of constant width (D + 2K ) equal to the inner diameter of the rings 8.

 The key is equipped with a lock of its position in the channel 3, made in the form of a longitudinal groove 13 on the key plate and the protrusion 14 in contact with it inside the channel for the key. 16 - snap ring, 17 - lock bolt drive.

 In ring 8 (or in several rings), a slice 15 is made on both sides of its code protrusion, perpendicular to channel 3 (or rather, inclined to channel 3), the same cut 15 is made on the opposite side of the cylinder, which leads to an increase in the gap 9 and 10 and, therefore, to obtain the magnitude of the displacement of this ring when it is probed by means of a probe with the aim of manufacturing a master key.

 In the initial encoded position, the lock is closed, all rings 8 are in a neutral position, and protrusions 11 and 12 of the active rings prevent the cylinder from turning.

 To open the lock, the key is inserted into the channel 3, due to which, under the action of the key plate, the active rings move up or down and disengage the protrusions 11 and 12 from the housing, which leads to disinhibition of the cylinder, upon rotation of which the lock opens.

After closing the lock, the key is removed from the channel 3, while the key section l ₁ leaving the channel 3 last moves the rings to their original position, i.e. produces encoding of the cylinder mechanism of the lock.

The secrecy of the cylinder mechanism is determined by the formula
M = (A + 1) ^p ........ (1),
Where
M is the number of lock codes;
P is the number of rings;
(A + 1) - the number of discrete positions of each of the rings 8 when moving in both directions, taking into account their average (neutral) position.

 From formula (1) it follows that with (A + 1) = 3-7 and P = 6-12 (see table), the cylinder mechanism has a fairly large number of codes, which guarantees it from being opened with a master key.

Claims (1)

 \\\ 1 1. The cylinder lock mechanism with plate delays, comprising a cylinder installed in the housing with a turnkey channel with the ability to rotate the cylinder, plate delays that contact one another, and the extreme contacts with the cylinder and / or with the housing, in the housing its inner surface has two longitudinal grooves for interacting with delays, a wrench, characterized in that the turnkey channel is made in the cylinder through, the cylinder is equipped with a flange in which a slot for the key is made, two longitudinal channels The woks on the inner surface of the housing are made opposite the turnkey channel, and the plate delays are made in the form of rings that are placed around the cylinder with air gaps separating the rings from the housing and from the cylinder, while the rings have two code tabs, which are located opposite the longitudinal grooves on the inner surface of the casing and have lengths determined by the code, the cylinder is inhibited from its rotation relative to the rings, and the plate wrench is equipped with a latch for its position and has a constant width in its working part equal to the inner diameter of the rings. \ \ \ 2 2. The mechanism according to claim 1, characterized in that at least one ring on both sides of its code protrusion is cut, and a similar cut is made in the cylinder from the side opposite to the code protrusion.

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