RU222517U1 - Cylinder mechanism - Google Patents

Abstract

The utility model relates to locking devices, in particular to locks with a cylinder security mechanism, and can be used for use in entrance doors installed in residential, public and industrial buildings. The technical result of the utility model is to increase the performance characteristics of the cylinder mechanism as part of the security lock. The cylinder mechanism of the lock contains a housing 1, in which a shank 2, a rotary cam 3 and a rotor 4 are coaxially installed. The cam 3 is driven by a rotor 4 and a shank 2 connected to it through a coupling. The shank 2 is made as a single unit from a polymer material with a lower thermal conductivity than the rest of the cylinder mechanism. The cutting of the key code combination is coordinated with spring-loaded locking 5 and code 6 pins that stop the rotor 4 from rotating. Cam 3 interacts with rotor 4 and shank 2 through spring 7 and clutch 8, respectively. 2 ill.

Description

The utility model relates to locking devices, in particular to locks with a cylinder security mechanism, and can be used for use in entrance doors installed in residential, public and industrial buildings.

A cylinder lock mechanism is known from the prior art, containing a housing in which a rotor, a shank and a cam are coaxially installed, located between the rotor and the shank, driving the cam, the shank is made of two parts connected to each other using pins, while the inner part of the shank is made of a metal rod, and the outer part of the shank is made of polymer material (Utility model No. 214211, E05B 9/06, 10/17/2022).

The disadvantage of the known cylinder mechanism is that in the cold season, due to the difference in temperatures inside and outside due to the inner part of the shank being made of a metal rod, and its outer part being made of a polymer material, when installing the cylinder mechanism in a door lock in the cold season the lock cylinder mechanism freezes, ice appears on its parts, and condensation forms on the part of the shank located indoors. As a result, the performance of the cylinder mechanism is reduced due to its possible failure.

The purpose of the utility model is to create a cylinder mechanism that does not have the disadvantage of the known cylinder mechanism.

The technical result of the utility model is to increase the performance characteristics of the cylinder mechanism as part of the security lock.

This technical result is achieved by the fact that in a cylinder mechanism containing a housing in which a rotor, a shank and a cam are coaxially installed, located between the rotor and the shank, driving the cam through a clutch that is cocked through a spring, the inner part of the shank is made of a polymer material, having a lower thermal conductivity than the remaining parts of the cylinder mechanism, the shank is made as a single unit, while the outer part of the shank is also made of a polymer material having a lower thermal conductivity than the remaining parts of the cylinder mechanism.

In fig. 1 shows a view of the cylinder mechanism.

In fig. 2 - section of the cylinder mechanism along A-A in Fig. 1.

The cylinder mechanism of the lock contains a housing 1, in which a shank 2, a rotary cam 3 and a rotor 4 are coaxially installed. The cam 3 is driven by a rotor 4 and a shank 2 connected to it through a coupling. The shank 2 is made as a single unit from a polymer material with a lower thermal conductivity than the rest of the cylinder mechanism. The cutting of the code combination of the key (not shown) is coordinated with spring-loaded locking 5 and code 6 pins that stop the rotor 4 from rotating. Cam 3 interacts with rotor 4 and shank 2 through spring 7 and clutch 8, respectively.

The polymer material for the manufacture of shank 2 is, for example, glass-filled polyamide (grade PA-6 SV30), or polyformaldehyde (POM), or polymers with similar properties.

The cylinder mechanism works as follows.

On one side, facing the outside of the door (from the street), the rotary cam 3 is driven by a key inserted into the rotor 4 of the cylinder mechanism. On the other side, facing the inside of the door (from the room side), the rotary cam 3 is driven by the shank 2 through the coupling 8, connected to the spring 7 via a permanent tongue-and-groove connection.

By making the shank as a single whole from a polymer material that has a lower thermal conductivity than other parts of the cylinder mechanism, a significant reduction in the thermal conductivity of the cylinder mechanism is ensured, eliminating the possibility of condensation formation and, accordingly, icing on its parts (in the location of the spring interacting with the coupling for engagement with the cam), which leads to a decrease in friction in the body when the shank is rotated, and therefore increases the performance characteristics of the cylinder mechanism.

Claims (1)

A cylinder mechanism containing a housing in which a rotor, a shank and a rotary cam are coaxially installed, located between the rotor and the shank, driving the rotary cam through a coupling that is charged through a spring, the inner part of the shank is made of a polymer material having lower thermal conductivity than the remaining parts of the cylinder mechanism, the shank is made as a single whole, while the outer part of the shank is also made of a polymer material with lower thermal conductivity than the remaining parts of the cylinder mechanism.