RU2701793C1 - Laser beam control method - Google Patents

Abstract

FIELD: control systems.SUBSTANCE: invention relates to control of general purpose systems and optical systems and can be used to increase efficiency of laser beam control. Method of controlling laser beam includes steps of placing a platform with a mirror on one side in a magnetic field, an electric current conductor and a rotary mechanism on the opposite side, conductor of electric current is made in the form of ring turns located along platform perimeter, rotary mechanism is installed in center of gravity of platform, magnetic field is formed by system of electromagnets, current of annular turns and electromagnets is controlled from condition of reflection of laser beam from mirror in preset direction. At the same time the targets of the mirror surface are given a curvilinear shape from the condition of formation of the specified profile of the image of the laser beam in the plane of the target.EFFECT: invention provides formation of the required image profile of the laser beam.1 cl

Description

The invention relates to the field of control of general-purpose systems, optical systems and can be used to increase the efficiency of control of the laser beam.

Known invention protected by patent - analogue: application No.2000130748 / 28, IPC F16H 1/00, F16H 25/06, 2000 “Rotary mechanical device” (Dudin D.N., Ivanov V.E., Menshchikov G.P., Kuzminov V.A.), designed for precise rotation at a given arbitrary angle. The rotary mechanical device comprises a platform, a hard gear, a thrust ball bearing, a stepper motor, a sleeve, a telescopic device and two pressure rollers of the wave generator. The platform is mounted on a hard gear and rests on a thrust ball bearing. A flexible gear is mounted on the base. A stepper motor is mounted on the flange inside the flexible wheel. A sleeve is rigidly mounted on the motor shaft, connected by a telescopic device to the pressure rollers of the wave generator. The rollers are spring-loaded in the radial direction. The disadvantage of this method is the large size and low speed, which is associated with the use of mechanical structures.

Known invention protected by patent - analogue: application No. 2008102253/09, IPC H01Q 3/08, 2008, "Slewing ring device" (Stanovskaya V.V., Kazakevichyus S.M., Kuznetsov V.M., Remneva T.A. ., Nevolin A.R., Fedotov E.I.), designed to orient antenna systems in azimuth and elevation. The device is made in the form of a vertical column, the outer cylindrical rotary housing of which is mounted rotatably on a fixed cylindrical support. The azimuthal rotation drive motor is located in a cylindrical support, and the planetary gear is located in the lower part of the rotary housing. The output gear wheel is made on the inner surface of the rotary housing. Outside, on the rotary housing, an axis of rotation along the elevation angle with a rotary platform is installed. The rotation mechanism in elevation is made in the form of a crank on the output shaft of the drive connected by spherical joints and traction with a rotary platform, with the formation of a shoulder relative to the axis. This allows the use of a planetary gearbox in an elevated drive, which, ceteris paribus, has the smallest dimensions and weight. The technical result of the invention is an analogue is to increase the compactness of the structure, however, the performance of the structure remains still low.

Known invention protected by patent - analogue: application No. 2002107476/09, IPC G02F 1/29, 2002 “Optical-mechanical deflector” (Efimenko A.V., Efimenko A.V., Shalobaev E.V.), designed to reject laser beam at a significant angle with a frequency exceeding 300 Hz. The mirror, on which the beam is intended to fall, is mounted on a rotor capable of rotationally oscillating motion around a longitudinal axis. The coaxial placement of an elastic torsion that returns the rotor to the equilibrium position inside the axial cavity of the latter ensures uniform distribution of loads, eliminates the translational movement of the deflector elements, their fatigue and permanent deformation. If it is necessary to control the beam in space, for example, two deflectors are used. The disadvantage of the analogue invention is the inability to quickly aim the laser beam in an arbitrary direction.

A patented invention is known as an analogue: Application No. 2003117524/28 IPC H02K 57/00, H02K 41/00, G05D 1/00, 2003. “A method for moving an object in space and a device for moving an object in space” (Luzhny S.N. .), which is based on the action of an electromagnetic field on a conductor rigidly connected to a moving object. A feature of the method is that the conductor is arranged in space so that it intersects a plane formed by the propagation vector of the electromagnetic field and the vector of the magnetic component of this field. An alternating current is created in the conductor with a frequency equal to the frequency of the electromagnetic field and a phase determined by the direction of its movement with respect to the source of the field. The conductor can be made in the form of a winding wire, the turns of which are rectangular in shape. The device contains elements that provide the required control of the phase of the current in the conductor. The disadvantage of the prototype invention is the lack of the ability to perform arbitrary angular turns.

A patent-protected invention is known as a prototype: patent No. 2639609 IPC G02B 26/10, 2016. “A method for controlling a laser beam” (M. Yakovlev and others), according to which a rotary platform with a mirror is placed in a magnetic field to reflect the incident laser beam located on one of its sides. An electric current conductor and a rotary mechanism are placed on the other side of the platform. Moreover, the conductor is made in the form of ring turns, which are located around the perimeter of the turntable. The rotary mechanism is installed in the center of gravity of the platform. The magnetic field is formed by a system of electromagnets. The current of the ring turns and electromagnets is controlled from the condition of reflection of the laser beam from the mirror in a given direction. EFFECT: increased efficiency of laser beam control. The disadvantage of the prototype method is the inability to form a given image profile of the laser beam in the target plane.

The aim of the proposed invention is the formation of a given profile of the image of the laser beam in the plane of the target.

This goal is achieved in the inventive method of controlling a laser beam, according to which a rotary platform with a mirror to reflect the incident laser beam located on one of its sides is placed in a magnetic field. An electric current conductor and a rotary mechanism are placed on the other side of the platform. Moreover, the conductor is made in the form of ring turns, which are located around the perimeter of the turntable. The rotary mechanism is installed in the center of gravity of the platform. The magnetic field is formed by a system of electromagnets. The current of the ring turns and electromagnets is controlled from the condition of reflection of the laser beam from the mirror in a given direction. The mirror surface is given a curvilinear shape from the condition for the formation of a given image profile of the laser beam in the target plane.

The presence of advantages, practical significance and the possibility of technical implementation of the proposed method for controlling a laser beam are not in doubt.

Claims (1)

The laser beam control method, according to which a platform with a mirror on one side, an electric current conductor and a rotary mechanism on the opposite side is placed in a magnetic field, an electric current conductor is made in the form of circular turns located around the perimeter of the platform, the rotary mechanism is installed in the center of gravity of the platform, the magnetic field is formed by a system of electromagnets, the current of the ring turns and electromagnets is controlled from the condition of reflection of the laser beam from the mirror in a given direction , The mirror surface gives a curved shape forming conditions of a predetermined profile of the laser beam in the plane of the target image.