RU127799U1 - LATCH LOCK - Google Patents

Abstract

A lock comprising a housing with a bolt rail installed in it with bolts made of carbon steel, a bolt drive mechanism including a lever, a spring loaded perpendicular to the bolt rail, a guide pin, a spring-loaded latch, its drive means and its orientation means, in addition to the bolt the bar and the suvald have gear racks, characterized in that the crossbar is fixed by welding in the grooves made at the ends of the crossbars, while the depth of the grooves is at least the thickness of the crossbar a lath, and the latch orientation means is made in the form of a guide system containing two plates with holes, while one of the plates is rigidly fixed in the walls of the case, and the second is made in the form of a plate bent at an angle of about 90 °, containing a U-shaped hole, open on one side and allowing the passage of the shank of the latch, and made with the possibility of vertical movement relative to the housing, in addition, the hole in the second plate is made with the possibility of contact with only part on top awns latch shank when moving it relative to the housing.

Description

The utility model relates to hardware, namely, locks with turnable keys, which can be used to equip the doors of residential and public buildings, structures, farm buildings.

From the "prior art" known lock with a latch, described in RF patent No. 2266384, class. ЕВВ 59/00, publ. 12/20/2005 and comprising a crossbar installed in the housing with crossbars, a drive mechanism for the crossbar, including at least one levers, gear racks on the crossbar and a crossbar spring-loaded perpendicular to the crossbar, and a guide pin, two additional crossbars located respectively on two additional parallel crossbar installed in a plane parallel to the first crossbar, and with the ability to move perpendicular to the first crossbar, and means of their drive, VK A spring-loaded swivel axle with a lever mounted on it. Moreover, the drive mechanism and the drive means are kinematically not connected with each other. The drive means of the additional crossbars is made in the form of at least a two-shouldered lever, the shoulders of which are pivotally connected respectively to one of the additional parallel crossbars, and the angle formed by these shoulders is more than 90 °. The additional crossbars are spring-loaded so that the additional crossbars are spaced apart from one another along the line of their movement. The latch is spring-loaded.

A disadvantage of the known device is its low reliability, due to the possibility of irreversible deformation of the crossbar at small loads applied to the crossbars perpendicular to their axis (when the door is extruded), as well as the impossibility of changing the lock closing direction without disassembling it.

The objective of this device is to eliminate the above disadvantages.

The technical result consists in increasing the reliability of the castle, due to its design features.

The technical result is ensured by the fact that the lock includes a housing with a crossbar installed in it with crossbars made of carbon steel, a drive mechanism for the crossbar, including a lever, a spring loaded perpendicular to the crossbar, a guide pin, a spring-loaded latch, its drive means and its orientation means, in addition, there are toothed racks on the crossbar and the levers. The crossbar is fixed by welding in the grooves made at the ends of the crossbars. In this case, the depth of the grooves is equal to at least the thickness of the crossbar. The latch orientation means is made in the form of a guide system containing two plates with holes. In this case, one of the plates is rigidly fixed in the walls of the housing, and the second is made in the form of a plate bent at an angle of about 90 °, containing a U-shaped hole, open on one side and allowing the passage of the latch shank, and made with the possibility of vertical movement relative to the housing . In addition, the hole in the second plate is made with the possibility of contact only with part of the surface of the shank of the latch when it is moved relative to the housing.

The essence of this utility model is illustrated by illustration.

The following structural elements are displayed in the illustration:

1 - plate lock housing;

2 - front bar;

3 - bosses;

4 - crossbar;

5 - crossbars;

6 - latch;

7 - suvald;

8 - spring latch;

9 - a directing plate;

10 - plate, providing movement of the latch;

11 - curved guide plate;

12 - hole in the plate of the lock housing;

13 - the spring of the level;

14 - lever;

15 - spring.

The lock case contains two mirror-symmetric plates 1 and the front plate 2, forming the walls of the case. In this case, the plates 1 are screwed to the bosses 3, and they are screwed to the front plate 2. In the case there is a crossbar 4 with crossbars 5. The crossbar 4 is fixed by welding in the grooves made at the ends of the crossbars 5. The depth the grooves must be at least the thickness of the crossbar 4. This ensures reliable fixation of structural elements relative to each other. In addition, in the closed position of the lock, the crossbars 5 partially remain in the lock case and can absorb most of the load applied to the crossbars 5 perpendicular to their axis. They take on part of the bending moment, which provides increased resistance of the lock to the extrusion of the door and eliminates its breaking.

In addition, the lock contains a latch 6 and a lever 7.

The latch 6 is made by a spring-loaded spring 8. The movement of the latch 6 is provided by the plates 9, 10, 11. The plates 9 and 11 form a guide system. When this plate 9 during Assembly is rigidly fixed in the plates of the housing 1, and the plate 11 is made with the possibility of movement relative to the housing. This is ensured by the holes 12 made in the plates of the housing 1. The plates 9 and 11 allow the latch 6 to be moved in the same direction without distortions. In this case, the curved plate 11 allows passage through its U-shaped hole of the flats made at the end of the shank of the latch 6. Before installing the lock, it is possible to adjust the position of the latch 6 for left or right-hand doors without disassembling it (changing the position of the head by turning relative to the longitudinal axis of the latch ) using a movable plate 11, during operation this possibility is excluded. This is ensured by a U-shaped hole and a flat shape (in cross section the shape is close to a rectangle). The plate 11 has two legs bent at an angle of 90 °, between which a U-shaped hole is formed, open in the lower part. This shape is due to the need for its movable installation relative to the housing and to ensure volumetric coverage of the flat and unhindered movement relative to the plate 11 of the latch 6. In addition, during operation, damage to the plate 11 of the flat shank is excluded due to the possibility of its slight (micro) movements and contact only with part its surface with a flat shank.

The movement of the latch 6 relative to the housing is provided by a plate 10 mounted on the shank of the latch 6 and secured to it by an annular groove made in the shank. The plate 10 has an open hole, facilitating the possibility of its fixation on the shank.

The crossbar 4 has a gear rack for engagement with the leash of the cylinder mechanism.

A guide pin is mounted on the crossbar 4, which interacts with the gear rack of the levers 7, spring-loaded spring 13, to fix the crossbar 4.

A two-arm lever 14 spring-loaded with a torsion spring 15 is made in the lock housing on a rotary axis and can be moved using a door handle. One lever arm 14 allows simultaneous interaction with the guide plate 9 and the plate 10. The interaction of the lever 14 with the plate 10 allows the latch 6 to be released at the opening of the castle. The second shoulder of the lever 14 interacts with a stop, with which one of the ends of the torsion spring 15 also contacts.

Crossbars 5 and crossbar 4 are made of carbon steel (for example CT20) with surface hardening. This provides increased bending resistance and increases hardness. In addition, these parts are mechanically strong due to chromium plating.

The device operates as follows.

The leash of the cylinder mechanism rotates and lifts the levers 7, the guide pin leaves the gear rack of the levers 7. Next, the leash engages with the gear rack of the crossbar 4 with the bolts 5 and moves them. The latch 6 moves independently of the crossbar 4. Its movement is provided using the door handle. This turns the two-arm lever 14, spring-loaded with a torsion spring 15. One shoulder of the lever 14 interacts with the plate 10, which allows the release of the latch 6 when opening the lock.

Claims (1)

A lock comprising a housing with a bolt rail installed in it with bolts made of carbon steel, a bolt drive mechanism including a lever, a spring loaded perpendicular to the bolt rail, a guide pin, a spring-loaded latch, its drive means and its orientation means, in addition to the bolt the bar and the suvald have gear racks, characterized in that the crossbar is fixed by welding in the grooves made at the ends of the crossbars, while the depth of the grooves is at least the thickness of the crossbar a lath, and the latch orientation means is made in the form of a guide system containing two plates with holes, while one of the plates is rigidly fixed in the walls of the housing, and the second is made in the form of a plate bent at an angle of about 90 °, containing a U-shaped hole, open on one side and allowing the passage of the shank of the latch, and made with the possibility of vertical movement relative to the housing, in addition, the hole in the second plate is made with the possibility of contact with only part on top awns latch shank when moving it relative to the housing.

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