RU2010146747A - METHOD FOR FIXING AND DRIVING THE LOCK OF THE INVISIBLE LOCK AND MAGNETOELECTRIC LOCK (OPTIONS) - Google Patents

Abstract

 1. The method of fixing and driving the bolt of the invisible lock, which consists in the fact that the anchor of the bolt of the castle is affected by a solenoidal magnetic field working to retract the bolt, characterized in that to create a traction force acting on the bolt of the bolt in one direction, the bolt anchor is magnetized in the longitudinal direction with the formation of the N and S poles of the permanent magnet at its ends and placed in the air gap from the ends of the external solenoidal magnetic field between two solenoidal magnetic fields facing each other flows emanating from the magnetically soft elements of the solenoid in the direction of the bolt anchor so that the poles S and N of the bolt are located in the air gap against the ends of the same poles of the N magnetically soft elements of the solenoid external magnetic field, while two solenoidal magnetic fluxes act on the bolt anchor in the form of a magnetic pulse, the duration of which should be commensurate with the time of movement of the bolt from one extreme position to another extreme position, and changes the direction of the thrust force vector when the crossbar is reversed is carried out by pulsing a change in the direction of the magnetic flux to the opposite side of the external solenoidal field so that the poles S and N of the crossbar armature are located in the air gap against the ends of the same poles S of the soft magnetic elements of the solenoids of the external solenoidal magnetic field, creating traction force of the crossbar anchor as a result of repulsion of one pole of the crossbar anchor from a similar pole of the soft magnetic element of the solenoid and simultaneously

Claims (3)

1. The method of fixing and driving the bolt of the invisible lock, which consists in the fact that the anchor of the bolt of the castle is affected by a solenoidal magnetic field working to retract the bolt, characterized in that to create a traction force acting on the bolt of the bolt in one direction, the bolt anchor is magnetized in the longitudinal direction with the formation of the N and S poles of the permanent magnet at its ends and placed in the air gap from the ends of the external solenoidal magnetic field between two solenoidal magnetic fields facing each other flows emanating from the magnetically soft elements of the solenoid in the direction of the bolt anchor so that the poles S and N of the bolt are located in the air gap against the ends of the same poles of the N magnetically soft elements of the solenoid external magnetic field, while two solenoidal magnetic fluxes act on the bolt anchor in the form of a magnetic pulse, the duration of which should be commensurate with the time of movement of the bolt from one extreme position to another extreme position, and changes the direction of the thrust force vector when the crossbar is reversed is carried out by pulsing a change in the direction of the magnetic flux to the opposite side of the external solenoidal field so that the poles S and N of the crossbar armature are located in the air gap against the ends of the same poles S of the soft magnetic elements of the solenoids of the external solenoidal magnetic field, creating traction force of the crossbar anchor as a result of repulsion of one pole of the crossbar anchor from a similar pole of the soft magnetic element of the solenoid and simultaneously the attraction of the other pole of the armature of the bolt to the opposite pole of another magnetically soft element of the solenoid at the moment of switching on the external solenoidal magnetic field, and the fixation of the anchor of the bolt in the extreme position is carried out by the attraction of the pole of the armature to the magnetically soft element of the solenoid after the pulse disconnection of the external solenoidal magnetic field, while the magnitude of the force fixing the crossbar anchor in the extreme position sets less than the repulsive force of the crossbar pole from the pole of the soft magnetic element This solenoid at the moment of switching on the external solenoidal magnetic field. 2. Magnetoelectric invisible lock according to option 1, comprising a housing, a movable bolt, a bolt anchor, a solenoid, a solenoid coil, a control system, an uninterruptible power supply unit, a code electric key, characterized in that it comprises: a bolt pusher, two steel cylindrical cores with holes in the center, two solenoid coils with a wire, non-magnetic gaskets with holes, a cylindrical body made of magnetic material, a cover, a ring and a body flange with holes in the center; wherein the crossbar anchor is made in the form of one or two cylindrical permanent magnets with a hole in the center with a longitudinal arrangement of N-S poles; the crossbar pusher is made in the form of a long rod of non-magnetic material; coils of solenoids with steel cores are enclosed in a cylindrical body and mounted on the same axis with the formation of an air gap between the inner ends of the steel cylindrical cores, solenoids are installed and fixed in a cylindrical body using the roof of the body and the ring inside the body; the bolt pusher in the form of a long rod is located coaxially inside the holes in the housing cover, ring, non-magnetic gaskets, steel cores of the solenoid with the possibility of movement in the axial direction, and the bolt anchor in the form of a cylindrical permanent magnet is rigidly fixed to the bolt pusher in the form of a long rod, at the end of the pusher a bolt made of non-magnetic material is rigidly mounted in the form of a long rod, and the bolt is installed with an air gap in the hole of the housing flange, non-magnetic gaskets are installed between the ends of the permanent magnet poles and the ends of the iron cores of the solenoid. 3. Magnetoelectric invisible lock according to option 2, including a housing, a movable bolt, a bolt anchor, a solenoid, a solenoid winding, a control system, an uninterruptible power supply unit, a coded electric key, characterized in that it contains: arm yoke, yoke guides, two or more crossbars, two or more steel cores, two or more solenoid coils with a wire, non-magnetic gaskets, flat body, manual drive, invisible lock fasteners; the anchor of the crossbar is made in the form of a permanent magnet with a longitudinal arrangement of poles N-S; the traverse is made of non-magnetic material and the anchor in the form of a permanent magnet and crossbars is rigidly fixed on the traverse, the traverse is installed inside the housing and is equipped with guides for movement; coils of solenoids with steel cores are installed inside the housing on the same axis with the formation of an air gap between the inner ends of the steel cylindrical cores, solenoids are installed and fixed in the housing; non-magnetic gaskets are installed between the ends of the poles of the permanent magnet and the ends of the steel cores of the solenoid, the housing is made of magnetic material in the form of a flat box and is equipped with openings for the exit of the crossbars; the manual drive is made in the form of a protruding handle connected to the traverse through a slot in the housing.