RU67154U1 - CYLINDER LOCK SHARKOD - Google Patents

Abstract

The utility model relates to the field of locking technology. The cylinder lock comprises a housing (1) of a cylinder mechanism fixed in its body with a key hole (5) and a code system located therein. Its blocking elements (2), made in the form of balls of magnetically sensitive material, are placed in longitudinal grooves (6) and T-shaped grooves (7) made in the outer (3) and inner (4) cylinders, respectively, with the possibility of their free limited by the corresponding dimensions grooves (6), (7) displacement. The longitudinal grooves (6) are aligned with the longitudinal part of the T-shaped grooves (7) in the closed state of the cylinder lock. The outer (3) and inner (4) cylinders are fixed coaxially in the housing (1). At the rear end of the inner cylinder (4), a shank (10) is fixed. In the working part (8) of the key (5), the permanent magnets (9) forming the code combination are fixed. The number and location of the blocking (code) elements (2), as well as the grooves (6) and (7), corresponds to the number and location of permanent magnets (9). The blocking elements (2) in the corresponding grooves (6), (7) are predominantly arranged pairwise-symmetrically with respect to the longitudinal axis of the cylinder mechanism. This design provides increased operational reliability of the device by simplifying its design, eliminating spring-loaded elements in the cylinder mechanism and the possibility of increasing the number of code combinations. 10 salaries, 4 ill.

Description

The invention relates to the field of locking technology and is intended for use in locking devices installed in the doors of residential, public and industrial buildings, vehicles, in safes and other locking mechanisms.

In locking technology, cylinder locks with a code system containing magnetically sensitive blocking elements in the form of balls are becoming more widespread. To identify cylinder locks of this type with a cylinder mechanism in which there are no spring-loaded elements, the name SHARKOD (abbreviated from "ball" and "coding") is proposed.

A cylinder lock is known that uses the principle of magnetic control of blocking elements in the form of balls of magnetically sensitive material, including a key containing permanent (control) magnets and a cylinder mechanism comprising a housing, a spring-loaded rotary cage housed in it with the possibility of its longitudinal movement, provided with turn-key grooves, and a matrix with inserts in which recesses are made for the locking elements with springs placed in them (RU 2156343 C1, 2000). Opening and closing of the cylinder lock occurs when the cage is turned, which

becomes possible with its axial movement due to the fact that the blocking elements under the action of permanent magnets take their places opposite the recesses in the liners.

The disadvantage of such a cylinder lock is its low resistance to cracking, which is associated with the possibility of pushing the ends of the liners with blocking elements under the action of blows from the outside of the clip, which allows you to move and rotate the clip and, therefore, open the lock. In addition, such a cylinder lock is not sufficiently reliable in operation, since the cylinder mechanism contains spring elements.

Other similar devices are known that use the principle of magnetic control of blocking elements (e.g., RU 2117128 C1, 1998; RU 2244087 C1, 2003; US 3665740 A, 1972; US 3948068 A, 1976; US 4307589 A, 1981; DE 2201281 A, 1973 ; DE 3209946 A1, 1983, etc.).

A common drawback of all such cylinder locks is their insufficiently high operational reliability, which is due, inter alia, to the use of short-lived elements such as springs in the cylinder mechanism, the complexity of the design, the presence of a significant number of structural elements, and, as a rule, limited possibilities to increase the number of code combinations.

Of the known devices, the closest to the claimed one is a cylinder lock containing a cylinder mechanism fixed inside its body by means of a fastening element with a key hole in its front end surface, in which a code system is placed, including blocking elements in the form of those placed with the possibility of their free limited movement in code system of balls made of magnetically sensitive material and fixed coaxially in

a cylindrical body, an outer cylinder and an inner cylinder, on the rear end of which a shank is fixed, and a key with a handle, in the working part of which permanent magnets forming a code combination are fixed (WO 2005042885 A1, 2006). The device also contains a spring-loaded matrix, mounted with the possibility of longitudinal movement, and its inserts provided with holes, the locking elements being placed in the gaps formed between facing one another the end surfaces of the matrix and the liners. The working part of the key in this device is made flat (two-dimensional). One part of the housing, which is a cover and in which the matrix and inserts are placed, is made in the form of a glass with grooves for inserting a key into them, and the other part of the housing, in which the insert holder is located, is made in the form of an external (larger diameter) cylinder and an internal (smaller diameter) of the cylinder, while in the inner cylinder there is a rod that is in mechanical engagement with the matrix and equipped with a cam. When unlocking / locking the cylinder lock, the key is inserted into it, under the influence of the permanent magnets of the key, the locking elements are installed opposite the corresponding holes of the liners, when the key is pressed, the matrix moves, engaging with the core of the inner cylinder, then when the key is rotated, the holder is rotated together with the matrix and located in it meshing the rod with the cam and the cylinder lock is unlocked / locked.

The number of code combinations in this device is limited due to the flat (two-dimensional) arrangement of the permanent magnets forming the code combination. Its durability is not high enough due to the presence of unreliable spring-loaded elements in the cylinder mechanism and the complexity of the design. In addition, effective protection is not provided.

from breaking (drilling, knocking out elements) of the cylinder lock. Therefore, in general, such a device does not have a sufficiently high operational reliability.

The problem solved by the utility model is to create a cylinder lock devoid of the disadvantages of the prototype. The technical result provided by the utility model is to increase the operational reliability of the cylinder lock by simplifying its design, eliminating spring-loaded elements in the cylinder mechanism, increasing resistance to criminal breaking and the possibility of increasing code combinations.

This is achieved by the fact that in a cylinder lock containing a cylinder mechanism fixed inside its body by means of a fastening element, a key hole in its front end surface, in which a code system is placed, including blocking elements in the form of balls placed with the possibility of their limited movement in the code system made of magnetically sensitive material and coaxially located outer cylinder and inner cylinder, on the rear end of which a shank is fixed, and a key with a handle, in working hours of which the permanent magnets forming the code combination are fixed, the blocking elements are placed in the grooves made in the outer and inner cylinders, the number and arrangement of which corresponds to the number and arrangement of permanent magnets in the cylindrical working part of the key, the grooves in the outer cylinder are made longitudinal, and in the inner cylinder T -shaped with the longitudinal and transverse parts, while the longitudinal grooves of the outer cylinder are aligned with the longitudinal part of the grooves of the inner cylinder in closed state of the cylinder lock, while the locking elements in

the corresponding grooves are predominantly positioned symmetrically in pairs with respect to the longitudinal axis of the cylinder mechanism, and the shank is fixed to the rear end of the inner cylinder by means of a guide cross pin, under which a slot is made at the end of the working part of the key. A bevel may be formed along the edges of the slot at the end of the working part of the key, formed by an opening turned by an angle of 19 to 21 degrees relative to the slot and the guide pin, while a spring-loaded cylindrical tip is movably enclosed at the end of the working part of the key. A ball retainer can be placed in the inner cylinder from the side of its inlet, and a corresponding recess under the ball retainer is made in the working part of the key. The working part of the key, at least in the area containing permanent magnets, can be enclosed in a protective cylindrical casing. The fastening element of the cylinder mechanism in the body of the cylinder lock can be made in the form of a threaded connection with a thread on the outer surface of the cylindrical body and a corresponding thread on the inner surface of the cylinder lock body. The fastening element of the cylinder mechanism in the body of the cylinder lock can be made in the form of combined longitudinal flats made on the outside of the cylindrical body of the cylinder mechanism and on the inside of the body of the cylinder lock. The fastening element of the cylinder mechanism in the body of the cylinder lock can be made in the form of combined longitudinal grooves in which the longitudinal pin is mounted on the outside of the cylindrical body of the cylinder mechanism and on the inside of the cylinder lock body. In the body of the cylinder lock on the front end surface of the cylinder mechanism may be

a protective washer with a turnkey hole is installed. At least one protective longitudinal pin may be installed in the inner cylinder from the front end surface of the cylinder mechanism. At least one protective transverse pin may be installed in the inner cylinder from the front end surface of the cylinder mechanism. A light source can be placed in the handle of the key, equipped with a power source and a start button connected to it.

The above technical result is provided by the entire combination of essential features.

Figure 1 schematically (with a break through the housing and the outer cylinder) shows the design of a part of the cylinder mechanism of the cylinder lock with a key. Figure 2 shows an embodiment in longitudinal section of a cylinder mechanism with a key (with ball locking key). Figure 3 shows a sectional view of the outer cylinder, and figure 4 shows the inner cylinder.

The device comprises a cylinder mechanism fixed by means of a fastening element inside the body of the cylinder lock (not shown in the drawings). It comprises a cylindrical body 1, a code system located therein, which includes locking elements 2, coaxially mounted (coaxially mounted in the cylindrical body 1), an external cylinder 3 and the inner cylinder 4 and the key 5. The key 5 is made with the possibility of going into the inlet of the inner cylinder 4 of the housing 1. The locking elements 2 are made in the form of balls of magnetically linen (soft magnetic), mainly red-hot, material. In the outer cylinder 3, longitudinal grooves 6 are made, and in the inner 4, T-shaped grooves 7 having longitudinal and transverse parts. T-grooves 7 can be predominantly made through, in

Otherwise, a cylindrical thin-walled ferrule (not shown in the drawings) is placed in the inner cylinder 4. As the material of the external 3, internal 4 cylinders, the cylindrical body 1 and the thin-walled holder, a predominantly non-magnetically sensitive metal, for example, wear-resistant stainless steel 12X18H10T, is selected. The blocking elements 2 are placed in the longitudinal grooves 6 and the T-shaped grooves 7 with the possibility of their free limited (by the dimensions of the grooves 6, 7) displacement, while the blocking elements 2 are predominantly pairwise-symmetrical with respect to the longitudinal axis of the cylinder mechanism, their number, as well as the number grooves 6 and 7 can be equal, for example, to ten (although it is fundamentally possible to have a single, i.e. not symmetrically arranged in pairs, then their number will be half as much). In the completed cylindrical working part 8 of the key 5, permanent (control) magnets 9 are fixed, mainly point-shaped cylindrical shapes, forming a code combination. The number and location of grooves 6, 7 corresponds to the number and location of permanent magnets 9. A shank 10 is fixed to the rear end of the inner cylinder 4 by means of a guide cross pin 11, while a slot 12 is made at the end of the working part 8 of the key 5 under the guide cross pin 11. Fixation of the working part 8 of the key 5 in the cylinder mechanism can be carried out by beveling in the slot 12 or by means of a ball retainer. In the first case, along the edges of the slot 12, a bevel is made formed rotated by 19-21 angular degrees (and mainly 20 angular degrees) relative to the slot 12 and the guide transverse pin 11 with an opening, while the spring-loaded movably covering it is fixed at the end of the working part 8 of the key 5 cylindrical tip having the ability

reciprocating movement along the working part 8 of the key 5 (not shown in the drawings). In the second case, in the inner cylinder 4 from the side of its inlet 13 there is a ball retainer 14, while in the working part 8 of the key 5 there is a corresponding recess 15 for this retainer 14, as shown in Fig.2. The working part 8 of the key 5 (all but its end, or in the area containing the permanent magnets 9) can be enclosed in a protective cylindrical casing of non-magnetic material, for example, brass (not shown in the drawings). The fixing of the cylinder mechanism in the body of the cylinder lock can be carried out by means of various design solutions. For example, the fastening element of the cylinder mechanism can be made in the form of a threaded connection with a thread on the outer surface of the cylindrical body 1 and a corresponding thread on the inner surface of the body of the cylinder lock. The fastening element of the cylinder mechanism can be made in the form of combined longitudinal flats made on the outer side of the cylindrical body 1 and on the inner side of the cylinder lock body. The fastening element of the cylinder mechanism can be made in the form made on the outer side of the cylindrical body 1 and on the inner side of the cylinder lock body of the aligned longitudinal grooves in which the longitudinal pin is mounted (the mounting options for the cylinder mechanism are not shown in the drawings). On the front end surface of the cylinder mechanism, made mainly in the form of a flange 16 of the inner cylinder 4, a protective washer can be installed, mainly made of high-strength steel (not shown in the drawings). At least one protective longitudinal pin and / or at least one protective transverse pin may be installed in the inner cylinder 4 from the front end surface of the cylinder mechanism

(not shown in the drawings). The number of each of them mainly does not exceed three, and high-strength steel with a hardness of, for example, HRC70 is selected as the material. In the handle 17 of the key 5 can be placed a light source, for example, on the basis of the LED, equipped with a power source and a trigger connected to it (not shown).

When the key 5 is inserted into the cylinder mechanism, its working part 8 engages with the shank 10 and the code elements 2 line up in the middle of the longitudinal grooves 6 and the longitudinal part of the T-shaped grooves 7. When it is rotated, accompanied by the rotation of the inner cylinder 4 relative to the outer 3, the blocking elements 2 enter the transverse parts of the T-grooves 7 and the shank 10 simultaneously rotates to open the cylinder mechanism, i.e. cylinder lock as a whole. The angle of rotation is determined by the length of the transverse part of the T-grooves 7. If at least one blocking element 2 does not fall into the transverse part of the corresponding T-groove 7, the rotation, and therefore the opening of the cylinder lock, becomes impossible. The blocking elements 2 perform both protective functions and coding at the same time, while their pairwise-symmetrical placement provides a higher degree of protection against criminal drilling of the cylinder mechanism. The embodiment of fixing the working part 8 of the key 5 with the bevel of the slot 12 is more preferable from the point of view of ergonomics, since after closing the cylinder lock, the key 5 itself is “shot” from the cylinder mechanism, while the bevel angle of about 20 angular degrees is optimal from the point of view of reliable engagement and fixing the key 5 in the cylinder mechanism. Placing the working part 8 of the key 5 in a protective casing protects the key from unauthorized copying. Introduction

the same protective washer and protective pins increases the resistance of the cylinder lock to breaking. The presence of a light source in the handle 17 of the key 5, the light flux of which is directed mainly along its working part 8, makes it easier for the user to use the key 5 for its intended purpose in the absence of sufficient external lighting.

The SHARKOD cylinder lock, made in accordance with the utility model, is exceptionally simple in design, it is much simpler compared to the known ones. Its cylinder mechanism does not contain unreliable short-lived elements such as spring-loaded. The number of code combinations in it can be significant, exceeding the capabilities of known similar devices, which is associated, inter alia, with the implementation of the working part 8 of the key 5 cylindrical, i.e. volumetric, which allows to place a significant number of permanent magnets in it 9. The design capabilities of the cylinder mechanism of the cylinder lock made in accordance with the invention can significantly increase its resistance to cracking, the lack of direct access to the code elements of the mechanism eliminates the criminal opening of the cylinder mechanism, i.e. the castle as a whole. The practical absence of wear of the key 5 and the code system with blocking elements 2 eliminates the loss of secrecy during long-term operation of the device. This generally increases the operational reliability of the claimed cylinder lock in comparison with the known similar.

Claims (11)

1. A cylinder lock containing a cylinder mechanism fixed inside its body by means of a fastening element with a key hole in its front end surface, in which a code system is placed, including blocking elements in the form of balls made of magnetically sensitive material placed with the possibility of their free limited movement in the code system and an outer cylinder and an inner cylinder fixed coaxially in a cylindrical body, on the rear end of which a shank is fixed, and a key with a handle, the working part of which is fixed permanent magnets forming a code combination, characterized in that the locking elements are placed in the grooves made in the outer and inner cylinder, the number and arrangement of which corresponds to the number and arrangement of permanent magnets in the cylindrical working part of the key, the grooves in the outer cylinder are made longitudinal, and in the inner are made T-shaped with longitudinal and transverse parts, the longitudinal grooves of the outer cylinder are aligned with the longitudinal part of the grooves internally of the cylinder in the closed state of the cylinder lock, with locking elements in the respective grooves arranged preferably in pairs symmetrically to the longitudinal axis of the cylinder mechanism, and securing the shank at the rear end of the inner cylinder carried by the guiding transverse pin, by which at the end of the working part of the key a slot. 2. A cylinder lock according to claim 1, characterized in that a bevel is formed at the edges of the slot at the end of the working part of the key, formed by an opening turned by an angle of 19 to 21 degrees relative to the slot and the guide pin, and movably fixed to the end of the working part covering its spring-loaded cylindrical tip. 3. The cylinder lock according to claim 1, characterized in that in the inner cylinder from the side of its inlet there is a ball retainer, while in the working part of the key there is a corresponding recess for the ball retainer. 4. The cylinder lock according to claim 1, characterized in that the working part of the key, at least in the area containing permanent magnets, is enclosed in a protective cylindrical casing. 5. The cylinder lock according to claim 1, characterized in that the fastening element of the cylinder mechanism in the body of the cylinder lock is made in the form of a threaded connection with a thread on the outer surface of the cylindrical body and a corresponding thread on the inner surface of the cylinder lock body. 6. The cylinder lock according to claim 1, characterized in that the fastening element of the cylinder mechanism in the body of the cylinder lock is made in the form of combined longitudinal flats made on the outside of the cylindrical body of the cylinder mechanism and on the inside of the cylinder body. 7. The cylinder lock according to claim 1, characterized in that the fastening element of the cylinder mechanism in the body of the cylinder lock is made in the form of combined longitudinal grooves made on the outside of the cylindrical body of the cylinder mechanism and on the inside of the cylinder lock body, into which the longitudinal pin is mounted. 8. The cylinder lock according to claim 1, characterized in that in the body of the cylinder lock on the front end surface of the cylinder mechanism is installed a protective washer with a key hole. 9. The cylinder lock according to claim 1, characterized in that at least one protective longitudinal pin is installed in the inner cylinder from the front end surface of the cylinder mechanism. 10. The cylinder lock according to claim 1, characterized in that at least one protective transverse pin is installed in the inner cylinder from the front end surface of the cylinder mechanism. 11. A cylinder lock according to claim 1, characterized in that a light source is provided in the handle of the key, provided with a power source and a start button connected to it.