UA141251U - MAGNETIC MACHINE (MAGNETOR) - Google Patents

Abstract

The magnetic machine (magnetor) consists of a non-magnetic frame, a stator with bearing shields, a non-magnetic armature mounted on a shaft, permanent magnets with tangential and longitudinal polarization, pole pieces and magnetic conductors. In the grooves of the anchor are two equal in length magnets with mutually opposite tangential (transverse) polarization, separated by a two-part gasket of ferromagnetic and non-magnetic steel half the width of the groove and three times the thickness of the air gap of the machine. Permanent magnets of longitudinal polarization in the amount of two by setting the opposite polarization parallel to the axis of rotation of the armature are fixed on the outer surface of the stator frame and connected on each side with pole pieces of magnetic conductors as part of the through magnetic circuit and switching magnetic circuit.

Description

The useful model belongs to the field of mechanical engineering and can be used in the drives of various units and mechanisms.

The closest analogue is a machine (| consisting of a non-magnetic bed with bearing shields, in which ring permanent magnets are mounted and pole tips of ferromagnetic steel with grooves, in which permanent direct magnets are placed, connected by rings into a single cassette with the possibility of rotation within the groove to reverse the machine.

The disadvantages of such a machine are: - the relative complexity of the stator design; - insufficient reliability in operation.

The purpose of a useful model is to simplify the stator design.

Technical and economic results achieved by the implementation of a useful model: - cost-effectiveness in manufacturing and operation; - increasing the reliability of work.

The task is solved by the fact that the machine is magnetic (magnet), which consists of a non-magnetic stator frame with bearing shields, a non-magnetic armature mounted on the shaft, permanent magnets with tangential and longitudinal polarization, pole tips and magnetic wires, according to a useful model, in the armature grooves two magnets of equal length with mutually opposite tangential (transverse) polarization are installed, separated by a two-part spacer made of ferromagnetic and non-magnetic steel along the length of half the width of the groove and three times the thickness of the air gap of the machine each, and permanent magnets of longitudinal polarization in the amount of two per installation of mutually opposite polarization parallel to the axis of rotation of the armature are fixed on the outer surface of the stator bed and are connected on each side to the pole tips by magnetic conductors consisting of: - a through magnetic conductor connected by bolts to the pole tip, which exits through a hole on the outer surface of the stator; - a switching magnetic wire, which is hinged to the through wire and has the ability to alternately contact the end part of each of the two permanent magnets.

Improvement of the design of the machine is achieved by the fact that the permanent magnets of longitudinal polarization in the amount of two in the setting of mutually opposite polarization

Parallel to the axis of rotation of the armature, they are fixed on the outer surface of the frame and are connected to POLAR ferromagnetic cylindrical tips pressed into the stator frame by magnetic conductors, and in the grooves of the armature, two magnets of equal length with mutually opposite tangential (transverse) polarization are installed, separated by a composite of two parts with a spacer made of ferromagnetic and non-magnetic steel along the length of half the width of the groove and

C5 three times the thickness of the air gap of each machine.

The proposed useful model is explained by drawings: in fig. 1 shows a general view with a longitudinal section, and in fig. 2 - side view with a cross section.

The machine consists of a non-magnetic stator frame 1 with bearing shields 2, into which two ferromagnetic cylindrical pole tips are pressed, which with a corresponding air gap cover the armature 4 made of non-magnetic steel, installed on the shaft 5. Permanent magnets b of longitudinal polarization in the number of two parallel to the axis of rotation of the armature 4 with mutually opposite polarizations are fixed on the outer surface of the stator bed 1 and connected on each side with pole tips With magnetic conductors in the composition: a through magnetic conductor 7, connected by bolts to the pole tip 3, which exits through a hole on the outer surface of the stator 1 ; switching magnetic circuit 8, which is hingedly connected to the through-circuit 7 and has the ability to alternately contact when turning from the end part of each of the two permanent magnets b. Two equal-length magnets 9 with mutually opposite tangential (transverse) polarization, separated by a two-part gasket 10 made of ferromagnetic and non-magnetic steel with a length of half the width of the groove and three times the thickness of the air gap of the machine, are pressed into the grooves of the anchor 4 behind the transitional fit and locked with split rings. each

Initial position - the switching magnetic wires 8 are installed in opposite directions. At the same time, the pole tips C are connected through magnetic conductors 7 with the same poles of permanent magnets 6, their magnetic circuit remains open. Only the local magnetic circles of the magnets 9 are active, they create a tangential magnetic flux in the pole tips 3. The machine remains at rest. When the switching magnetic wires are installed in one direction, they come into contact with the poles of one permanent magnet 6, the magnetic circuit of which is closed through elements 7-8, tips 3, magnets 9 and the ferromagnetic part of the gasket 10. In the tips C, a radially directed magnetic flux arises, which interacts with by the tangential flow of magnets U, which creates a torque and causes the armature to rotate. In order to reverse the machine, it is necessary to set the switching magnetic lines 8 in the opposite direction, and to stop one of them.

When the armature rotates, the mutual intersection of the magnetic fluxes of magnets 6 and magnets U with pole tips C and armature 4 causes the appearance of electromotive forces of equal magnitude and opposite direction on their surfaces under opposite poles, which are connected oppositely by the frame 1 and the shaft 5 and compensate each other .

Thus, this useful model allows you to significantly increase the reliability and economy of the machine.

Source of information 1. Patent of Ukraine (USA) Mo 114395. Magnetic machine (magnet), published on March 10, 2017.

Claims (1)

FORMULA OF A USEFUL MODEL A magnetic machine (magnet), consisting of a non-magnetic stator frame with 15 bearing shields, a non-magnetic armature installed on the shaft, permanent magnets with tangential and longitudinal polarization, pole tips and magnetic wires, which differs in that in the grooves of the armature two magnets of equal length with mutually opposite tangential (transverse) polarization, separated by a two-part spacer made of ferromagnetic and non-magnetic steels along the length of half the width of the groove and three times the thickness of 20 of the air gap of the machine each, and permanent magnets of longitudinal polarization in the number of two installed mutually of the opposite polarization parallel to the axis of rotation of the armature are fixed on the outer surface of the stator bed and connected on each side to the pole tips by magnetic wires consisting of: - a through magnetic wire connected by bolts to the pole tip, which exits through the 25th hole on the outer surface of the stator; - a switching magnetic wire, which is hinged to the through wire and has the ability to alternately contact the end part of each of the two permanent magnets. 1 of 4 : 6 Z ich Shche Щ «sb Y N that oku y zh V she ENN OH - VE Oh OKU and those MY ZE b otthkh sten SCHE She Kya sha NN OO Z x ZKU - - z 0 Mk KM sfe y belt of pride mkfaoyumkiya from removed KK about. And PI soavae a re. sha By Z an En Z TT 7 I B nkya Fig. 1 to I ef oh and SHE ke v OK Z Ko a i B shk NE RE OB BI UK she SHO them. their with X ge sydin s ku uh. From Mr. u she o o o kii Here Cars M. -- th cad Fig. 2