BG67268B1 - Electromagnetic element - Google Patents

Abstract

The electromagnetic element is intended for use in electromechanical instrument engineering. It has increased functionalities. It consists of a ferromagnetic core (1) covered by an external coil winding (2) connected to a current source (3). The core (1) is formed as a curved ferromagnetic tape (4), covered by at least one longitudinal (5) and transverse (6) electrically conductive windings, separated respectively along the length and width of the ferromagnetic tape(4), which windings (5) and ( 6) form corresponding pole pairs (7) and (8). Between the adjacent walls of the ferromagnetic tape (4) there is an insulating layer (9). The coil windings (6) and the (6) are connected to the current source (3) by means of a control unit (10).

Description

The invention relates to an electromagnetic element used in electrical instrumentation. BACKGROUND OF THE INVENTION

An electromagnetic element is known, consisting of a ferromagnetic core covered by an electrically conductive coil which is connected to a current source. The coil is fixed to the core [1].

This solution has a limited ability to change the shape and intensity of the magnetic field, which reduces its functionality.

Technical essence of the invention

The object of the invention is to provide an electromagnetic element with increased functionality.

The problem is solved by means of an electromagnetic element comprising a ferromagnetic core covered by an external winding connected to a current source. According to the invention, the core is formed as a curved ferromagnetic strip, covered by at least one longitudinal and transverse coil along the length and width of the strip, respectively. The longitudinal and transverse windings form respective pole pairs, with an insulating layer between the adjacent walls of the ferromagnetic strip, and the windings are connected to the current source by means of a control unit.

The ferromagnetic band has a spiral shape.

Transverse magnets with electric windings connected to the current source are formed on the ferromagnetic strip, at least on its surface, and the axes of these magnets are oriented perpendicular to the surface of the ferromagnetic strip.

The ferromagnetic strip is formed by two transversely bent (Möbius) strips, forming a common strip with a symmetrical cross-profile and opposite ends, which strip has longitudinal windings and a common transverse winding.

An advantage of the invention is its increased functionality given the ability to change the shape and intensity of the magnetic field and the increased number of pole pairs.

Explanation of the attached figures

Figure 1 - is a side view of the element.

Figure 1a is a cross-sectional view of the element AA taken from Figure 1.

Figure 1c - unfolding of the ferromagnetic band of Figure 1.

Figure 1p - cross section of the ferromagnetic band with crossed ends.

Figure Id - view in B from figure 1p.

Figure 2 - longitudinal section of the unfolded strip with transverse magnets.

Figure 3 - side view of a cross-profile strip.

Figure 3p is an N-N section of Figure 3.

Figure 3k is a view of P from Figure 3 for longitudinal windings.

figure 3 / - view on P from figure 3 in transverse windings.

BG 67268 Bl

Examples of the invention

The electromagnetic element consists of a ferromagnetic core 1 enclosed by an external winding 2 connected to a current source 3. The core 1 is formed by the bent ferromagnetic strip 4 enclosed by at least one longitudinal 5 and a transverse 6 electric winding located respectively along the length and width of the the ferromagnetic strip 4, which windings 5, 6 form pole pairs 7, 8. There is an insulating layer 9 between adjacent sides of the ferromagnetic strip 4, the windings 5, 6 being connected to the current source 3 by a control unit 10 of a known type.

In one embodiment, Figure 1a, the ferromagnetic strip 4 has a helical shape (longitudinally curved).

In another embodiment, Figure 2, transverse magnets 12 with electric windings 3 connected to the current source 3 are formed on the ferromagnetic strip 4 on at least one of its surfaces. On the other surface of the strip 4, optionally, there are transverse magnets 14 s electrical windings 15.

In another embodiment, Figure 1p, one end 16 of the ferromagnetic strip 4 is located in an opening 18 of its other end portion 17, forming portions in the right and left helix band.

In another embodiment, Figure 3, the ferromagnetic strip 4 is formed by two transversely bent twisted ends (Möbius) strips 20, 21 forming a common strip 23 with a symmetrical cross profile 25 and opposite ends 24. The strip 23 has longitudinal windings 6, 22 and common transverse winding 19.

Use of the invention

When supplying the windings 5, 6 from the current source 3, a longitudinal and transverse electromagnetic field is created, and when supplying the transverse windings 13 - transversely to the strip 4 of the magnetic field. When adjacent surfaces of spiral strip 4 have transverse magnets 12, depending on their polarity, the distance between them increases or decreases, changing the shape of the strip 4. When changing the distance between the ends 16, 17 of the strip 4, figure 1 p, changes the diameter of its opening. The magnetic fields of the pole pairs 7, 8, as well as the transverse magnets 12 can be switched on in series or simultaneously by the control unit 10, changing the shape and intensity of the total magnetic field. When using an increased number of windings 5, 6 and their sequential power supply, a running field is created.

In a common strip 23, with a cross-shaped profile 25, figure 3, the interaction between its front poles is intensified and a spiral magnetic field is formed along the circular length of the strip 23. The angle of inclination of the helical field can change with increased rotation of one end 24 of the strip 23 relative to the other.

Claims (4)

Electromagnetic element comprising a ferromagnetic core covered by an external winding connected to a current source, characterized in that the core (1) is formed as a curved ferromagnetic strip (4) covered by at least one longitudinal (5) and transverse (6) ) an electrically conductive coil located respectively along the length and width of the ferromagnetic strip (4), which windings (5), (6) form pole pairs (7), (8), wherein there is an insulating layer between the adjacent sides of the strip (4) (9), the windings (5), (6) being connected to the current source (3) by means of a control unit (10). Electromagnetic element according to Claim 1, characterized in that the ferromagnetic strip (4) has a helical shape. Electromagnetic element according to Claim 1, characterized in that transverse magnets (12) with electric windings (13) connected to the current source (3) are formed on the ferromagnetic strip (4). Electromagnetic element according to Claim 1, characterized in that the ferromagnetic strip (4) is formed by two transversely curved Möbius strips (20), (21) forming a common strip (23) with a symmetrical cross-section (25) and opposite ends (24), which common strip (23) has longitudinal windings (6), (22) and a common transverse winding (19).