RU2033503C1 - Lock encoder and its version - Google Patents

Abstract

FIELD: locking mechanism. SUBSTANCE: one of encoding disc plates not coupled with key is provided with not less than two butt cam protrusions and case of lock has corresponding butt cam recessions. Depth of matching of cam protrusions and recessions exceeds maximum axial translation of matrix. Version of lock also has encoding plate provided with not less than two butt cam recession and case has corresponding butt cam protrusions. Depth of matching of cam recessions and protrusions exceeds maximum axial translation of matrix. EFFECT: simplified design, enhanced reliability. 2 cl, 3 dwg

Description

 The invention relates to locking mechanisms and, in particular, to lock mechanisms and may find application for locking apartments, office rooms, safes, hotel rooms. In the latter case, its use is preferable, because the possibility of multiple conversion to new keys incorporated in it is very advisable with frequent changes of tenants.

 The closest in technical essence to the proposed invention is described in ed. St. USSR 56353, a device in which code plates are installed in the housing have transverse openings with locking pins. One of the code plates is mounted with the possibility of longitudinal movement relative to the other code plate. The device is equipped with a socket wrench.

 A disadvantage of the known device is the large number of springs, the availability of locking pins for probing, the difficulty of using a thin plate wrench as a socket.

 The present invention eliminates the disadvantages of the known code device.

 This is achieved by the fact that in the lock code device comprising a housing, inside which are installed the first and second disk code plates pivotally mounted along the axis with through holes and locking pins located therein. Code plates are mounted to move along and around the axis. The device has a first additional solid plate mounted freely in the radial groove of the first code plate to form a turnkey well, a second additional solid plate spring-loaded to the second code plate, the second code plate on the contact side of the second additional plate is provided with at least two end cam protrusions, for example, in the form of a conical head of the protruding part of the pressed pin, and the housing has recesses corresponding to these cam projections. The mating depth of the cam projections and recesses is made in excess of the maximum axial displacement of the matrix. In the second embodiment of the device, the second code plate on the abutment side of the second additional plate is provided with at least two end cam recesses, and the housing has protrusions corresponding to these recesses, for example, in the form of a conical head of the protruding part of the pressed pin, the mating depth of the cam recesses and protrusions being exceeded maximum axial displacement of the matrix.

 The proposed code lock device is implemented in two versions, shown in the drawings. In FIG. 1 shows a longitudinal section of a code device; in FIG. 2, section AA in FIG. 1; in FIG. 3 embodiment of the node 5 of FIG. 1 (embodiment of a code device).

 In the housing 1 (Fig. 1), structurally integrated with the door handle 2, a binary-digital matrix is freely installed, consisting of a first disk code plate 3, a second disk code plate 4, fastened by an axis 5, a sleeve 6, a pin 7. The first additional plate 8 is installed in the radial groove of the first code plate with a bore for accommodating the key 9. The second additional plate 10 is pressed against the second code plate by the spring 11. Locking pins 12 are placed in the through holes of the code plates 3 and 4. The flange 13 is a housing cover and 1. The pins 14 are pressed into the second code plate 4 and have projecting from the plate portion formed as a cone. The conical countersink 15 is made in the housing 1. The code device is attached to the door through bolts 17 made in the housing 1. The first additional plate 8 is equipped with a cylindrical shank passing through the hole in the door and driving the bolt. A second embodiment is shown in FIG. 3, where the pins 14 are pressed into the housing, and the conical countersinks 15 are made in the second code plate.

 The operation of the code device is as follows.

 The key 9 is inserted into the radial groove of the housing and the first code plate until it stops. Then the key is turned in a tangential direction in the direction of the arrow (see Fig. 2), while the torque from the key is transmitted to the first code plate 3 and then through the locking pins to the second code plate 4. The conical heads of the pins 14 interact with the conical countersinks of the housing 1. Simultaneously with the joint rotation of the code plates, their joint axial displacement towards the key is ensured. In this case, those locking pins that are located against the code holes of the key do not move relative to the code plates, and the remaining pins abut against the key, holding the second additional plate 10 from moving together with the code plates. As soon as the code plates 3 and 4 come close to the key, if the plate codes and the key codes match, all the joints of the locking pins will be in the plane of the joint of the code plates, the code device is unlocked. With further rotation of the key, the first code plate 3 will rotate in an angle relative to the second code plate 4 and through the first additional plate 8 will open the deadbolt. In this position, the key is not removed. When the key returns to its original position, the axis of the holes for the locking pins in the code plates will coincide, and under the action of the spring 11, the code plates will return back to contact with the second additional plate 10. In this case, the heads of the pins 14 will enter the conical recesses 15 of the housing to the full depth.

 According to the working conditions, it is necessary that the heads of the pins 14 do not completely exit the recesses 15, which is ensured by the depth of their mating, exceeding the maximum axial displacement of the matrix, i.e. size 18 must be larger than size 19. Another embodiment of the encoding device (Fig. 3) works in a similar way.

Claims (2)

 1. A code device comprising a housing, inside which the first and second code plates are installed in the direction from the door, in the mating holes of which locking pins are placed, and a key, characterized in that it is provided with additional solid plates, the first of which is freely installed in radial groove of the first code plate with the formation of a turnkey well made in the form of a thin plate, and the second is spring-loaded to the second plate, while the code plates are pivotally mounted along the axis and installed They are movable along and around the axis and are made in the form of disks with through holes for locking pins, the second code plate on the abutment side of the second additional plate having at least two cam protrusions, for example, in the form of a conical head of the protruding part of the pin pressed into it and the housing has recesses corresponding to the cam projections, while the depth of coupling of the latter exceeds the maximum axial displacement of the code plates.  2. The lock code device, comprising a housing, inside which the first and second code plates are installed in the direction from the door, in the mating holes of which locking pins are placed, and a key, characterized in that it is provided with additional solid plates, the first of which is freely mounted for it, a radial groove of the first code plate with the formation of a turnkey well made in the form of a thin plate, and the second is spring-loaded to the second code plate, while the code plates are pivotally fastened along the axis and are mounted to move along and around the axis and are made in the form of disks with through holes for locking pins, the second code plate on the abutment side of the second additional plate has at least two recesses, and the housing has corresponding cam tabs, for example, the shape of the conical head of the protruding part of the pin pressed into it, while the depth of conjugation of the cam protrusions and recesses exceeds the maximum axial displacement of the code plates.

Images