RU2512861C1 - Lock - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: lock comprises a body with a hole for a key, in which there is at least one carrier installed as pre-stressed with the help of a facility for its movement, made in the form of a spring, spring-loaded locking elements, which contact with the key, at least one spring-loaded pusher for blocking, of at least one carrier and a lock crossbar. The spring for movement of the carrier, the spring for the pusher, the pusher and springs of locking elements are installed coaxially to the longitudinal axis of the key hole, the carrier is installed as capable of displacement along the longitudinal axis of the key hole, locking elements arranged in the common plane perpendicular to the axis of the keyhole are spring-loaded with a common spring.

EFFECT: simplified design and reduced dimensions, higher reliability and protection of a lock against unauthorised opening.

4 dwg

Description

The invention relates to security locks with a carrier and can be used to lock residential and office buildings, safes and the like.

Known locking mechanism of the lock according to Russian patent No. 1290772, EV 35/04, containing a housing with a cylindrical cavity, in which there is a rotary core with spring-loaded pushers 3 located in it, in contact with the pressure wrench and strap 9, on which pressure is applied by the locking element 4 Fig. 1. The pushers are spring-loaded with a common spring located on the longitudinal axis of the well for the key.

However, the node of the locking element is perpendicular to the longitudinal axis of the well for the key, which increases the dimensions of the lock. When the lock is operated, the bar 9 is released first with a key, after which the spring-loaded locking elements exert pressure on the pushers (secret elements), which move to a certain depth. In this case, friction occurs at the contact points, which increases the force when unlocking and locking the lock, increasing its wear and lowering its resistance to unauthorized opening.

There is also a lock according to Russian patent No. 2423593, ЕВВ 35/02, adopted as a prototype for the largest number of essential features and containing a housing with a key hole in which at least one carrier with its moving means and spring-loaded locking elements contacting are installed with a key, a locking bolt, at least one spring-loaded lock to lock at least one carrier. The carrier has been installed in a pre-stressed state by means of its movement and with the possibility of movement independent of the external load on the latch and the lock. The carrier vehicle is made in the form of a spring. The carrier has been mounted rotatably around the longitudinal axis of the well for the key. This leads to the fact that the spring for moving the carrier and the spring-loaded latch in contact with the carrier are located relative to the body and carrier diametrically opposite and perpendicular to the longitudinal axis of the well for the key, which complicates the design, reducing reliability, and increases its dimensions.

This mechanism is installed only inside the case of the lock bolt system, which requires a long key, and also complicates the replacement of the lock.

In addition, every two locking elements are spring-loaded with a common spring, which facilitates the selection of forces for their subsequent unlocking in the absence of a key. This reduces the protection of the lock from unauthorized opening, and also complicates the design and increases its dimensions.

The objective of the invention is to simplify the design and reduce the size, increase reliability and protect the lock from unauthorized opening.

The proposed lock comprises a housing with a key hole in which at least one carrier is installed, installed in a prestressed state by means of its movement, made in the form of a spring, spring-loaded locking elements in contact with the key, at least one spring-loaded a pusher for locking at least one carrier and a locking bolt.

Unlike the prototype, the spring for moving the carrier, the spring for the pusher, the pusher and the spring of the locking elements are installed coaxially with the longitudinal axis of the well for the key, the carrier is installed with the ability to move along the longitudinal axis of the well for the key, the locking elements located in a common plane perpendicular to the axis of the well for key, spring-loaded common spring.

Installation of the carrier with the ability to move along the longitudinal axis of the well for the key is provided by the possibility of arranging a spring to move the carrier and the spring for the pusher on the same longitudinal axis of the well for the key. This allows you to transfer to them the efforts from the key, which coincide with the direction of their movement, unlike the prototype, but not perpendicular to it, which leads to a decrease in the force acting on the key and to reduce friction between parts, which reduces their wear and increases the reliability of the lock.

In addition, this arrangement of all springs and the pusher on the longitudinal axis of the well for the key simplifies the design and reduces the dimensions of the lock, which makes it possible to move the mechanism outside the valve body and make this mechanism interchangeable. Also, after opening or closing the lock, the key is pushed out of the well with the help of a pusher spring, which increases ease of use.

And finally, if there is a common spring for locking elements located in a common plane perpendicular to the axis of the well, it is impossible to find the right position for unlocking each of the elements without a key, since when selecting the right position for one element, the force is transmitted by the common spring to all other locking elements. This increases the protection of the lock against unauthorized opening, and also simplifies the design and reduces its dimensions.

Thus, all the signs are significant and solve the problem.

The castle is shown in the drawings.

Figure 1. Lock, general sectional view, key outside the well.

Figure 2. The lock, a general view in section, the locking elements are installed with a key in a predetermined position.

Figure 3. The same, the key is inserted into the well until it stops.

Figure 4. The same is the operation of the lock after entering a foreign key into the well.

The lock contains a housing 1, a rotary core 2 installed in it, a carrier 3 with a spring 4 (pre-compressed) for moving it, locking elements 5 for holding carrier 3, a pusher 6 with a spring 7. The locking elements 5 are made in the form of pins. The pusher 6 is connected to the bolt (not shown), mounted on the housing 1, only at the time of the release of carrier 3, Fig.1-3.

The castle operates as follows. When the lock is closed and the key 8 is not inserted into it, the carrier 3 is held by the pins 5 and the pusher 6, Fig.1. Insert key 8 into the well until contact with element 9, pins 5 are installed in a predetermined coded order and do not hold carrier 3. However, the lock is closed, since carrier 3 holds pusher 6. Moreover, key 8 has the ability to move all the way to distance A. figure 2. With further movement to a distance A, the pusher 6 will move by compressing the spring 7, and the carrier 3 will be released, moving together with the lock washer 10 by unloading the spring 4. The lock washer 10 disengages from the stop 11, while the pusher 6 engages with the bolt (not shown), and the pins 5 are in a predetermined position, Fig.3. Then turn the key 8 core 2 together with the pusher 6 and the deadbolt, the lock is open. After removing the physical force from the key 8, it pops out of the lock with the reverse movement of the pusher 6 under the action of the spring 7. The lock washer 10 engages with the stop 11, and the pusher 6 disengages from the bolt, the pins 5 are returned to their original position. The lock is closed in a similar way, only the key 8 is turned in the opposite direction.

When you insert a foreign key or lock pick 12 into the lock, the pusher 6 will move by compressing the spring 7, and the carrier 3 will remain in the locked position, since the pins 5 are not installed in the specified coded order and hold the carrier 3, Fig. 4.

Claims (1)

A lock containing a housing with a key hole in which at least one carrier is installed, installed in a prestressed state by means of its movement, made in the form of a spring, spring-loaded locking elements in contact with the key, at least one spring-loaded a pusher for locking at least one carrier and a locking bolt, characterized in that the spring for moving the carrier, the spring for the pusher, the pusher and the springs of the locking elements are mounted coaxially longitudinal about and wells for the key carrier installed to be movable along the longitudinal axis of the key hole, the locking elements disposed in a common plane perpendicular to the borehole axis key common spring biased.

Images